阅读说明：本技术 癌症检测套组 (Cancer detection kit ) 是由 陈智豪 李孟儒 巫佳霖 刘育玮 于 2015-09-16 设计创作，主要内容包括：本发明提供一种引物组及含有所述引物组或探针的套组,前述套组是用以供分析个体的MLH1的DNA序列、MLH1的mRNA序列、及/或cDNA序列(其是衍生自前述MLH1的mRNA),以标定MLH1编码的蛋白质的V384突变。(The present invention provides a primer set and a kit containing the primer set or the probe, wherein the kit is used for analyzing the DNA sequence of MLH1, the mRNA sequence of MLH1 and/or the cDNA sequence (derived from the mRNA of MLH1) of an individual so as to calibrate the V384 mutation of the protein encoded by MLH 1.)

1. A kit for detecting a V384 mutation in a protein encoded by the MLH1 gene of an individual, comprising:

a first primer comprising a sequence shown as SEQ ID NO 06; and a second primer comprising a sequence shown as SEQ ID NO 07; or

A first primer comprising a sequence shown as SEQ ID NO 08; and a second primer comprising the sequence shown in SEQ ID NO 09.

2. The kit of claim 1, further comprising a third primer, wherein the third primer comprises a sequence set forth in SEQ ID NO 05.

3. The kit of claim 1, further comprising a DNA polymerase.

4. The kit of claim 1, further comprising a double stranded DNA binding stain.

5. The kit of claim 4, wherein said double stranded DNA binding stain isGreen I、Green II、Gold, Oxazole Yellow, Thiazole Orange, PicoGreen or

6. A kit for detecting a V384 mutation in a protein encoded by the MLH1 gene of an individual, comprising:

at least one mutation probe comprising the sequence CAGATGGATC (SEQ ID NO 10); wherein the probe is conjugated with a phosphor; and/or

At least one wild-type probe comprising the sequence CAGATGGTTC (SEQ ID NO 11); wherein the probe is conjugated with a phosphor.

7. The kit of claim 6, wherein said at least one mutation probe and/or said at least one wild-type probe is further conjugated to a quencher;

preferably, the fluorescent substance is conjugated to the 5 'end of the probe, and the quencher is conjugated to the 3' end of the probe;

preferably, wherein the aforementioned at least one mutation probe comprises a sequence shown in SEQ ID NO 17;

preferably, wherein the at least one wild type probe comprises the sequence shown in SEQ ID NO 16.

8. The kit of claim 6, wherein at least one nucleotide in said at least one mutant probe and/or said at least one wild-type probe is modified to form a bridge between its oxygen atom at the 2 'position and its carbon atom at the 4' position;

preferably, wherein the aforementioned mutation probe comprises the sequence shown in SEQ ID NO 19: 5'-CACCAGATGGATCGTACA-3', respectively; more preferably, wherein the 5 th, 8 th, 11 th, and 14 th nucleotides from the 5 'end to the 3' end of the aforementioned mutation probe are modified to form a bridge between the oxygen atom at the 2 'position and the carbon atom at the 4' position thereof;

preferably, wherein the aforementioned wild-type probe comprises the sequence shown in SEQ ID NO 18: 5'-CACCAGATGGTTCGTACA-3', respectively; more preferably, wherein the 5 th, 8 th, 11 th, and 14 th nucleotides from the 5 'end to the 3' end of the aforementioned wild-type probe are modified to form a bridge between the oxygen atom at the 2 'position and the carbon atom at the 4' position thereof.

9. The kit of claim 6, further comprising an anchor probe, wherein the anchor probe is conjugated to a fluorophore donor;

preferably, wherein the at least one mutation probe comprises the sequence shown in SEQ ID NO 21 and is conjugated to a fluorophor acceptor;

preferably, wherein said at least one wild-type probe comprises the sequence shown in SEQ ID NO 20 and is conjugated to a fluorophor acceptor;

preferably, wherein the aforementioned anchor probe comprises the sequence shown in SEQ ID NO 22.

10. The kit of claim 6, further comprising a primer set, wherein the primer set is used to amplify at least a portion of the MLH1 gene to obtain a replicate; wherein the aforementioned replicon comprises a position corresponding to the aforementioned V384 mutation;

preferably, wherein the aforementioned primer set is:

a forward primer comprising the sequence shown in SEQ ID NO 12 and a reverse primer comprising the sequence shown in SEQ ID NO 13; and/or

A forward primer comprising the sequence shown in SEQ ID NO 14 and a reverse primer comprising the sequence shown in SEQ ID NO 15.

Technical Field

The present invention relates to a kit for cancer detection; more specifically, it relates to a kit having a primer set or probe for calibrating the mutation V384D.

Background

Cancer has been listed as a leading cause of death for a long period of time in human history. Numerous studies have focused on the detection and treatment of cancer. Unfortunately, most of the cancer treatments used in the clinic today are still insufficient to eliminate the cancer threat. Nevertheless, research and clinical experience have shown that earlier treatment increases the survival of cancer patients. These evidences support the importance of cancer detection, particularly in the early stages of carcinogenesis.

Typically, the detection of a cancerous state is by the determination of a biomarker (biomarker) that is specifically present in the body of the cancer patient. The biomarkers may be substances specifically released by cancer cells, cell surface markers specifically expressed by cancer cells, genes specifically silenced or overexpressed in cancer cells, or mutations of genes specifically present in cancer cells.

In recent reports it has been mentioned that missense mutations in the DNA mismatch repair gene (hMLH1) can be used as biomarkers in a variety of cancers. The V384D missense mutation of hMLH1 was first observed in colorectal cancer and was specifically present in chinese patients by comparison of german patients with chinese patients (Yaping Wang, et al, 1997). Subsequent studies have confirmed the foregoing findings, and it is more clearly indicated in the study conducted by Zhang et al in gongyuan 2004 that the V384D missense mutation of hMLH1 occurs in four cancers, including colorectal, gastric, breast, and esophageal cancers. Another study by Xianzhe Shi et al in 2003 showed that the V384D missense mutation occurred in lung cancer.

The previous studies indicate that the V384D missense mutation of hMLH1 has the potential to be a candidate target for cancer detection. In addition, studies conducted by the present team have further demonstrated that the V384D missense mutation of hMLH1 is associated with resistance to EGFR-TKIs therapy for lung cancer (the experimental data are described in subsequent paragraphs).

Accordingly, a detection tool well designed for calibrating the mutation V384D is of great help and value for the pharmaceutical industry and clinical use. Although some of the studies have revealed some primers and probes for the purpose of the previous disclosure, the present invention aims to provide primer sets and/or probes with better specificity and sensitivity than the conventional techniques.

Disclosure of Invention

Accordingly, it is an object of the present invention to provide a cancer detection kit that uses reliable biomarkers.

It is another object of the present invention to provide a kit for evaluating the efficacy of EGFR-TKIs therapy and/or progression-free survival (progression-free survival) of individuals undergoing such therapy, thereby allowing for early follow-up of therapy with EGFR-TKIs.

In order to achieve the above object, the present invention provides a kit for detecting a V384 mutation in a protein encoded by MLH1 gene of an individual, comprising:

a first primer comprising a sequence shown as SEQ ID NO 06; and a second primer comprising a sequence shown as SEQ ID NO 07; and/or

A first primer comprising a sequence shown as SEQ ID NO 08; and a second primer comprising the sequence shown in SEQ ID NO 09.

Preferably, the kit further comprises a third primer, wherein the third primer comprises a sequence shown in SEQ ID NO 05.

Preferably, the kit of claim 1, further comprising a DNA polymerase.

Preferably, the kit further comprises a double-stranded DNA binding stain.

Preferably, the double-stranded DNA binding dye isGreen I、Green II、Gold、Oxazole Yellow、Thiazole Orange、PicoGreen、And combinations thereof.

The present invention also provides a kit for detecting a V384 mutation in a protein encoded by MLH1 gene of an individual, comprising: a first primer comprising a sequence shown as SEQ ID NO 08; and a second primer comprising the sequence shown in SEQ ID NO 09.

The present invention further provides a kit for detecting a V384 mutation in a protein encoded by MLH1 gene in a subject, comprising: at least one mutation probe comprising the sequence CAGATGGATC (SEQ ID NO 10); wherein the probe is conjugated with a phosphor; and/or at least one wild-type probe comprising the sequence CAGATGGTTC (SEQ ID NO 11); wherein the probe is conjugated with a phosphor.

Preferably, the at least one mutation probe and/or the at least one wild-type probe are further coupled with a quencher

(quincher) conjugation. Preferably, the fluorescent substance is conjugated to the 5 'end of the probe, and the quencher is conjugated to the 3' end of the probe. Preferably, the at least one mutation probe comprises a sequence shown in SEQ ID NO 17. Preferably, the at least one wild-type probe comprises the sequence shown in SEQ ID NO 16.

Preferably, at least one nucleotide in the at least one mutant probe and/or the at least one wild-type probe is modified to form a bridge between the oxygen atom at its 2 'position and the carbon atom at its 4' position. Preferably, the mutation probe comprises a sequence shown in SEQ ID NO 19:

5’-CACCAGATGGATCGTACA-3’。

preferably, the 5 th, 8 th, 11 th, and 14 th nucleotides from the 5 'end to the 3' end of the aforementioned mutation probe are modified to form a bridge between the oxygen atom at the 2 'position and the carbon atom at the 4' position.

Preferably, the wild-type probe comprises the sequence shown in SEQ ID NO 18: 5'-CACCAGATGGTTCGTACA-3' are provided.

Preferably, nucleotides 5, 8, 11, and 14 from the 5 'end to the 3' end of the wild-type probe are modified to form a bridge between the oxygen atom at the 2 'position and the carbon atom at the 4' position.

Preferably, the kit further comprises an anchor probe, wherein the anchor probe is conjugated to a fluorophore donor. Preferably, the at least one mutation probe comprises the sequence shown in SEQ ID NO 21 and is conjugated to a fluorophor acceptor. Preferably, the at least one wild-type probe comprises the sequence shown in SEQ ID NO 20 and is conjugated to a fluorophor acceptor. Preferably, the anchor probe comprises the sequence shown in SEQ ID NO 22.

Preferably, the kit further comprises a primer set for amplifying at least a portion of the MLH1 gene to obtain a replicon; wherein the aforementioned replicon comprises a position corresponding to the aforementioned V384 mutation.

Preferably, the primer set is:

a forward primer comprising the sequence shown in SEQ ID NO 12 and a reverse primer comprising the sequence shown in SEQ ID NO 13; and/or

A forward primer comprising the sequence shown in SEQ ID NO 14 and a reverse primer comprising the sequence shown in SEQ ID NO 15.

Preferably, the kit further comprises a DNA polymerase.

In summary, the present invention provides a novel primer set or probe for detecting the V384 mutation of MLH1 gene. The invention also provides a kit comprising the primer set or the probe. By using the kit of the present invention, the detection of V384 mutation can be more specific and sensitive than conventional techniques.

Drawings

Fig. 1 shows the experimental results of the real-time pcr of example one (n ═ 2); wherein the experimental results of the primer set SEQ ID NO 07/SEQ ID NO 05 are indicated as curve (1), the experimental results of the primer set SEQ ID NO 07/SEQ ID NO06 are indicated as curve (2), and the experimental results of the negative control group are indicated as curve (3). (A) Genomic DNA of individuals without the V384D mutation. (B) Genomic DNA of individuals with the V384D mutation (heterotypic zygotes). (C) An artificial plasmid which has been established with a partial sequence (homozygote) of the wild-type MLH1 gene. (D) An artificial plasmid which has been established with a partial sequence (homozygote) of MLH1 gene carrying a T1151A mutation.

Fig. 2 shows the result of the HRM test method of example two (n-2). (A) A standard stage; (B) and (4) melting off a curve stage. Curve 1: an artificial plasmid which has been established with a partial sequence (homozygote) of the wild-type MLH1 gene. Curve 2: an artificial plasmid which has been established with a partial sequence (homozygote) of MLH1 gene carrying a T1151A mutation.

Fig. 3 shows the results of the TaqMan assay of example three (n-2). (A) An artificial plasmid which has been established with a partial sequence (homozygote) of the wild-type MLH1 gene. (B) An artificial plasmid which has been established with a partial sequence (homozygote) of MLH1 gene carrying a T1151A mutation. Curve (1): wild-type probe (negative probe, ML-TP-Wt, SEQ ID NO 16); curve (2): mutation probe (positive probe, ML-TP-Mt, SEQ ID NO 17); curve (3): control group (no template added).

Fig. 4 shows the experimental results of the LNA test method of example four (n ═ 3). (A) The method comprises the following steps An artificial plasmid which has been established with a partial sequence (homozygote) of the wild-type MLH1 gene. (B) An artificial plasmid which has been established with a partial sequence (homozygote) of MLH1 gene carrying a T1151A mutation. Curve (1): wild-type probe (negative probe, ML-TP-Wt, SEQ ID NO 18); curve (2): mutation probe (positive probe, ML-TP-Mt, SEQ ID NO 19); curve (3): control group (no template added).

Fig. 5 shows the experimental results of the FRET test method of example five (n ═ 2). (A) (B): an ML-sensor-Wt (SEQ ID NO 20) probe and an ML-anchor (SEQ ID NO 22) probe were used. (C) (D): ML-sensor-Mt (SEQ ID NO 21) probe and ML-anchor (SEQ ID NO 22) probe were used. Curve (1): an artificial plasmid which has been established with a partial sequence (homozygote) of the wild-type MLH1 gene. Curve (2): an artificial plasmid which has been established with a partial sequence (homozygote) of MLH1 gene carrying a T1151A mutation. Curve (3): control group (no template added). Curve (4): VP13_0052 (heterotypic zygote). Curve (5): VP13_0055

(wild type; homozygote).

Detailed Description

The present study provides primer sets and/or probes suitable for analyzing the DNA sequence of MLH1, the mRNA sequence of MLH1, and/or the cDNA sequence of MLH1, which are derived from the mRNA sequence of MLH1 described above, to determine whether an individual carries a V384 mutation in the protein encoded by the MLH1 gene.

The determination of the aforementioned mutation may provide an authentic likelihood that the detected individual has had cancer, such as colorectal cancer, gastric cancer, breast cancer, esophageal cancer, lung cancer, or a combination thereof. Furthermore, in the treatment of lung cancer, the determination of the aforementioned mutations in an individual may provide information for assessing the efficacy of EGFR-TKIs therapy and/or assessing progression-free survival of the individual after treatment with EGFR-TKIs.

As used herein, "EGFR-TKI therapy" refers to a targeted therapy based on the integral mutation of the tyrosine kinase domain of epidermal growth factor receptor in tumor cells of many non-small cell lung cancer patients. More specifically, "EGFR-TKI therapy" is performed by using an EGFR tyrosine kinase inhibitor to target the somatic mutation of the tyrosine kinase domain of epidermal growth factor receptor of tumor cells.

The term "effect of EGFR-TKI therapy" as used herein refers to the effect of EGFR-TKI therapy on tumor progression. A therapy is considered clinically ineffective if the tumor continues to deteriorate within 3 months after the EGFR-TKI therapy is initiated. Conversely, if the tumor is at least 30% reduced in size, the therapy is deemed to be effective for the individual.

As used herein, "survival without exacerbations" refers to the period from the day of initiation of treatment to the point at which the observed tumor begins to worsen again. In other words, the term refers to the length of the duration of the period during which the tumor is not progressing or shrinking in size.

As used herein, "analyzing" refers to assessing or examining a property of an individual by at least one technique. Such techniques include, but are not limited to, polymerase chain reaction, Southern blot (Southern blot), or Western blot (Western blot).

The "V384 mutation of a protein encoded by MLH1 gene" as described herein refers to a mutation present in the sequence of MLH1 gene, which results in mutation of amino acid at position V384 of the protein encoded by MLH1 gene. In a possible embodiment of the invention, the aforementioned V384 mutation refers to the V384D mutation of the protein encoded by the MLH1 gene. In one possible embodiment, the V384D mutation can be identified as a T1151A mutation in the cDNA of the MLH1 gene or a T1349A mutation in the mRNA of the MLH1 gene. As used herein, "wild-type" is a relative term and refers to genes and/or proteins that lack the aforementioned mutations.

As used herein, "V384" refers to the 384 th amino acid in the amino acid sequence of MLH1 protein (i.e., the protein encoded by the MLH1 gene); wherein "V" is an abbreviation for Valine (Valine; Val). As used herein, the "V384 mutation" refers to a change from the valine at amino acid 384 to another amino acid other than valine. The "V384D mutation" as described herein means that the valine at amino acid 384 has been changed to aspartic acid; wherein "D" is an abbreviation for Aspartic acid (Asp). Please refer to the amino acid sequence of SEQ ID NO01 with the aforementioned mutations and the DNA sequence of SEQ ID NO 02 with the aforementioned mutations.

As used herein, "U1349" refers to the 1349 th nucleotide of the nucleotide sequence of mRNA encoding MLH1 protein; wherein "U" is an abbreviation for uracil. The "U1349 mutation" as used herein means that the uracil located at nucleotide 1349 is mutated to another nucleotide that is not uracil. The "U1349A mutation" as used herein means that the uracil located at nucleotide 1349 is mutated to adenine; wherein "A" is an abbreviation for adenine. Please refer to the mRNA sequence shown in SEQ ID NO 03 with the aforementioned mutations.

"T1151" as used herein refers to the 1151 st nucleotide of the nucleotide sequence encoding cDNA; wherein the cDNA is mRNA derived from the aforementioned MLH1 gene; "T" is an abbreviation for thymine. As used herein, the term "T1151 mutation" refers to a mutation of the thymine located at the 1151 st nucleotide to another non-thymine nucleotide. The "T1151A mutation" as used herein means that the thymine located at the 1151 st nucleotide is mutated to adenine; wherein "A" is an abbreviation for adenine. Please refer to the cDNA sequence shown in SEQ ID NO 04 with the aforementioned mutations.

Primer set, probe, and kit using the same

First facing

In the first aspect of the present invention, the V384 mutation of the protein encoded by the MLH1 gene was detected using a primer set. The aforementioned "V384 mutation of the protein encoded by the MLH1 gene" is as defined in the preceding paragraphs. Preferably, the detection is performed by real-time simultaneous polymerase chain reaction (real-time PCR) using the primer set.

In the first aspect of the present invention, a kit for determining the V384 mutation of a protein encoded by MLH1 gene is provided. The kit comprises a primer set designed for analyzing the DNA sequence of MLH1, the mRNA sequence of MLH1, and/or the cDNA sequence of MLH1, which is derived from the mRNA sequence of MLH1, to determine whether the protein encoded by the MLH1 gene of an individual carries a V384 mutation.

In a preferred embodiment, the primer set comprises a first primer and a second primer. The first primer is designed to contain a sequence that hybridizes to MLH1 gene with the V384 mutation at position V384. The second primer is designed to contain a sequence that is hybridizable to a sequence-preserved region (conserved region) of the MLH1 gene. The presence of the V384 mutation is indicated by the presence of the PCR product of the first primer and the second primer.

The phrase "being heterozygous with the MLH1 gene having the aforementioned V384 mutation at the V384 position" as used herein means that the aforementioned sequence can form base-pairing (base-pairing) with at least one nucleotide of the aforementioned MLH1 gene encoding the codon encoding the aforementioned V384 mutation. Codons are known in the art to comprise three nucleotides. In a preferred embodiment, the sequence can form base pairing with at least two nucleotides of the MLH1 gene encoding the codon encoding the V384 mutation.

The "sequence-retaining region of MLH1 gene" as used herein means a sequence of the aforementioned MLH1 gene that is retained or not altered between the wild-type MLH1 gene and the MLH1 gene carrying the aforementioned V384 mutation. As used herein, "wild-type" is a relative term and refers to genes and/or proteins that lack the aforementioned mutations.

In a possible embodiment, the kit further comprises a third primer. The third primer is designed to contain a sequence that is heterozygous for the wild-type MLH1 gene at position V384. Said "heterozygous with …" is as defined in the preceding paragraph.

In a preferred embodiment, the kit comprises a first primer shown as SEQ ID NO06, a second primer shown as SEQ ID NO 07, and a third primer shown as SEQ ID NO 05. This embodiment is for use in the SYBR-green assay. The detection of the presence of the PCR products of the first and second primers indicates the presence of the V384 mutation, and in this embodiment, the products of the third and second primers are control groups.

In another practical embodiment, the aforementioned kit comprises a first primer as shown in SEQ ID NO 08 and a second primer as shown in SEQ ID NO 09. This embodiment is used for High Resolution Melting testing (HRM). In the HRM assay, the DNA binding dye used binds to the PCR product obtained during the standard phase, and fluorescence is detected. When in the stage of the melting curve, the PCR product will be melted (melted) and the decay of the fluorescence of the DNA binding dye will be detected. The V384 mutation can be identified by comparing the decay pattern of samples from the wild-type control or mutant control.

In a preferred embodiment, the kit further comprises a DNA polymerase and/or a DNA binding stain. Preferably, the DNA polymerase is, but not limited to, Pfu DNA polymerase, Taq DNA polymerase, or a combination thereof. Preferably, the DNA binding stain is, but not limited to,Green I、Green II、Gold、Oxazole Yellow、Thiazole Orange、PicoGreen、or a combination thereof.

Second facing

In the second aspect of the present invention, the V384 mutation of the protein encoded by the MLH1 gene was detected using a probe. The aforementioned "V384 mutation of the protein encoded by the MLH1 gene" is as defined in the preceding paragraphs.

In the second aspect of the present invention, a kit for determining the V384 mutation of a protein encoded by MLH1 gene is provided.

In a preferred embodiment, the kit comprises probes designed for analyzing the DNA sequence of MLH1, the mRNA sequence of MLH1, and/or the cDNA sequence of MLH1 (which is derived from the mRNA sequence of MLH1) to determine positively or negatively whether the protein encoded by the MLH1 gene of the subject carries a V384 mutation.

When the V384 mutation is measured in the forward direction, the aforementioned probe (i.e., mutation probe) is a fragment of genomic DNA, mRNA, and/or cDNA designed to be hybridized with the aforementioned MLH1 gene; wherein the aforementioned fragment contains a sequence corresponding to the aforementioned V384 mutation of the protein encoded by the MLH1 gene. For example, the aforementioned fragments may contain the aforementioned T1349A mutation of mRNA, or the aforementioned T1151A mutation of cDNA. By examining the results of heterozygosity, the presence of the aforementioned V384 mutation can be determined. In the case of this forward assay, detection of a heterozygous signal for the probe and the target position indicates the presence of the V384 mutation. In a preferred embodiment, the mutation probe comprises the sequence CAGATGGATC (SEQ ID NO 10).

When the V384 mutation is determined in the negative assay, the aforementioned probe (i.e., wild-type probe) is a fragment of genomic DNA, mRNA, and/or cDNA designed to be heterozygous for the wild-type MLH1 gene. In the case of this negative determination, failure to detect a heterozygous signal for the probe and the target position indicates the absence of the wild-type MLH1 gene, i.e., the possible presence of the V384 mutation. In a preferred embodiment, the wild-type probe comprises the sequence CAGATGGTTC (SEQ ID NO 11).

Nevertheless, one skilled in the art will appreciate that the subject may have a heterozygote MLH1 genotype. That is, one of the alleles (allele) of MLH1 gene of the individual is wild-type, while the other allele has V384 mutation. In such a case, it is preferable to detect the mutation probe or both the mutation probe and the wild-type probe.

Preferably, the probe (mutant probe or wild-type probe) is modified for the purpose of the aforementioned V384 mutation of MLH1 gene. In one embodiment of the invention, the probe is conjugated with a fluorophore and/or a isotope. In a preferred embodiment, the probe is conjugated with a fluorophore and a quencher (TaqMan method). In a preferred embodiment, the probe is further modified to form a bridge between the oxygen atom at its 2 'position and the carbon atom at its 4' position (in this way, the LNA method). In a preferred embodiment, the kit comprises a mutation probe and/or a wild-type probe, and an anchor probe (Anchor probe) (this method is a FRET method).

Preferably, the fluorescent substance is conjugated to the 5 'end of the probe, and the quencher is conjugated to the 3' end of the probe. The aforementioned phosphors include, but are not limited to: 6-carboxy phosphor, tetrachloro phosphor (tetrachlorofluoroscein), FAM, VIC, LC640, or a combination thereof. The aforementioned quenchers include, but are not limited to: tetramethylrhodamine (tetramethylrhodamine), BHQ1, or a combination thereof.

In a preferred embodiment of the invention, the kit is designed for use in a TaqMan assay based on the polymerase chain reaction technique. The aforementioned kit comprises a mutation probe comprising the sequence shown in SEQ ID NO.17 and/or a wild-type probe comprising the sequence shown in SEQ ID NO. 16. The two probes are conjugated with a phosphor and a quencher at both ends thereof, respectively.

In a preferred embodiment, the kit is designed for use in a Polymerase Chain Reaction (PCR) -based LNA (locked nucleic acid) assay. The aforementioned kit comprises a mutation probe comprising the sequence shown in SEQ ID NO.19 and/or a wild-type probe comprising the sequence shown in SEQ ID NO. 18. Both of the two probes are conjugated with a phosphor and a quencher at both ends thereof, respectively.

Preferably, the aforementioned probe comprising a sequence shown in SEQ ID NO.19 or SEQ ID NO.18 has at least one nucleotide modified to form a bridge between an oxygen atom at the 2 'position and a carbon atom at the 4' position thereof, thereby forming a locked nucleic acid (locked nucleic acid). For example, nucleotides 5, 8, 11, and 14 (from the 5 'end to the 3' end) of the aforementioned probes are modified to form a bridge between the oxygen atom at its 2 'position and the carbon atom at its 4' position.

In a preferred embodiment, the kit is designed for use in a FRET (fluorescence resonance energy transfer) assay based on the PCR technique. In a practical embodiment, the kit comprises a mutation probe and/or a wild-type probe, and an anchor probe (anchor probe). The mutant probe or the wild-type probe is conjugated with a first fluorophore as an acceptor, and the anchor probe is conjugated with a second fluorophore as a donor. Preferably, the mutation probe comprises a sequence shown in SEQ ID NO.21, the wild-type probe comprises a sequence shown in SEQ ID NO.20, and the anchor probe comprises a sequence shown in SEQ ID NO. 22. In a preferred embodiment, the kit comprises the mutation probe, the wild-type probe, and the anchor probe.

In a preferred embodiment, the first phosphor is FAM, HEX, LC Red 640, Cy5, or a combination thereof. In a preferred embodiment, the second phosphor is fluorescein (fluorescein).

In one possible embodiment, the kit further comprises a DNA polymerase. Preferably, the aforementioned DNA polymerase has exonuclease activity.

In a preferred embodiment, the kit further comprises a primer set for amplifying at least a portion of the MLH1 gene to obtain a replicate (amplicon); wherein said replicate comprises a position corresponding to said V384. The primer set can be:

-a forward primer comprising the sequence shown in SEQ ID NO 12 and a reverse primer comprising the sequence shown in SEQ ID NO 13; and/or

A forward primer comprising the sequence shown in SEQ ID NO 14 and a reverse primer comprising the sequence shown in SEQ ID NO 15.

The following table 1 lists the primer sets and probes of the present invention mentioned in the above paragraphs, together with the techniques used.

Table 1: the primer set and probe of the present invention and the application technique thereof are listed correspondingly.

The first embodiment is as follows: the primer group designed by the invention (SYBR Green test method) is verified.

In this example, the real-time simultaneous polymerase chain reaction was performed using the primers SB-MT-sF3(SEQ ID NO 06), SB-sR3(SEQ ID NO 07), and SB-WT-sF3(SEQ ID NO 05) to verify the ability of the aforementioned primers to calibrate the V384D mutation.

These experiments used 4 templates (templates) including: total DNA purified from individuals without the V384D mutation, total DNA purified from individuals with the V384D mutation (heterotype), an artificial plasmid established with a partial sequence of the wild-type MLH1 gene (homozygote), and an artificial plasmid established with a partial sequence of the MLH1 gene with the T1151A mutation (homozygote). The templates and primer sets used in this example are listed in table 2 below.

TABLE 2

These experiments are referenced EZTime^TMReal Time PCR premix (Yeaster Biotech Co., Ltd.) was performed. The polymerase chain reaction mixture prepared in the experiment contained: mu.l of template (2.5. mu.g/. mu.l if total DNA is used as template; 1. mu.g/. mu.l if plasmid template is used), 12.5. mu.l of 2 XEZTime Real-time PCR Premix, 1.0. mu.l of forward primer (5. mu.M), 1.0. mu.l of reverse primer (5. mu.M), and 9.5. mu.l of ddH₂And O. The reaction conditions are as follows: denaturation at 95 ℃ for 10 min, denaturation at 95 ℃ for 20 sec, adhesion/extension at 66 ℃ for 1 min, and 40 cycles; then, in the stage of the melting curve: 15 seconds at 95 ℃,1 minute at 60 ℃, 30 seconds at 95 ℃ and 15 seconds at 60 ℃. The instant simultaneous PCR apparatus used in this experiment was 7500fast (applied biosystem), and was loaded with Open 7500Software v2.0.6.

The experimental results are shown in fig. 1(a) to (D); wherein the experimental results of the primer set SEQ ID NO 05/SEQ ID NO 07 are indicated as curve (1), the experimental results of the primer set SEQ ID NO 06/SEQ ID NO 07 are indicated as curve (2), and the experimental results of the negative control group are indicated as curve (3).

According to the results of these experiments, the wild-type primer set (SEQ ID NO 05/SEQ ID NO 07) was able to amplify only the sequence of wild-type MLH1 (FIGS. 1A, 1B, and 1C), while the mutant primer set (SEQ ID NO 06/SEQ ID NO 07) was able to amplify only the sequence of MLH1 with the V384D mutation (FIGS. 1B and 1D). The magnified map shown in FIG. 1A only shows curve (1), representing that the sample in the experiment is indeed a wild-type sample of homozygotes. On the other hand, the enlarged map shown in fig. 1B shows curves (1) and (2), which represent that the specimen in the experiment is indeed heterotypic zygote. FIGS. 1C and 1D, which use the artificial plasmid, show only curve (1) and curve (2), respectively, indicating that the samples in the experiments of these two figures are indeed homozygotes.

These experimental data show that the mutant primer set of the present invention can specifically target the V384D mutation of MLH1 gene, and the wild type of the present invention can specifically target the MLH1 gene without the V384D mutation. These results confirmed that the primer set of the present invention clearly identified the V384D mutation in the sample, and had excellent specificity and sensitivity.

Example two: the primer set designed by the present invention was verified (HRM test method).

In this example, the immediate simultaneous polymerase chain reaction was performed using the primers HR-1-F (SEQ ID NO 08) and HR-1-R (SEQ ID NO 09) to verify the ability of the aforementioned primers to calibrate the V384D mutation.

2 templates were used in these experiments, including: an artificial plasmid established with a partial sequence (homozygote) of the wild-type MLH1 gene, and an artificial plasmid established with a partial sequence (homozygote) of the MLH1 gene with a T1151A mutation.

The experiments were performed with reference to the product specification. Briefly, the polymerase chain reaction mixture prepared in the experiment comprised: 20ng of template, Brilliant HRM Ultra-Fast Loci Master Mix, 0.5. mu.M forward primer (HR-1-F), and 0.5. mu.M reverse primer (HR-1-R). The reaction conditions are as follows: pre-reaction at 95 ℃ for 3 minutes, denaturation at 95 ℃ for 5 seconds and adhesion/extension at 60 ℃ for 10 seconds, and repeating 40 cycles; then, in the stage of the melting curve: 30 seconds at 95 ℃, 30 seconds at 65 ℃ and 30 seconds at 95 ℃. The real-time simultaneous PCR apparatus used in this experiment was Agilent Mx3000p (Applied Biosystem), which was loaded with Open Applied Biosystem Software and set various parameters according to the above-described conditions.

Fig. 2 shows the experimental results of the HRM test method of this example. It is noted that the primer set (HR-1-F/HR-1-R) amplified both the wild-type MLH1 gene sequence and the MLH1 gene with the V384D mutation (FIG. 2 (A)). In the melt-off stage, the mutant form has a separation curve (dissociated curve) different from that of the wild type since it has mismatching of nucleotides. The decay pattern of the signal of curve (2) indicates the presence of the mutation (FIG. 2(B)), which confirms that the primer set of the present invention can indeed identify the V384 mutation.

Example three: the probe designed by the present invention was verified (TaqMan assay).

In this example, the real-time simultaneous polymerase chain reaction was performed using the primers TP-2-F (SEQ ID NO 12) and TP-1-R (SEQ ID NO 13). Also, mutation probes (ML-TP-Mt; SEQ ID NO 17; labeled VIC and TAMRA) and wild-type probes (ML-TP-Wt; SEQ ID NO 16; labeled FAM and TAMRA) were used to verify their ability to recognize the V384D mutation.

2 templates were used in these experiments, including: an artificial plasmid established with a partial sequence (homozygote) of the wild-type MLH1 gene, and an artificial plasmid established with a partial sequence (homozygote) of the MLH1 gene with a T1151A mutation.

The experiments were performed with reference to the product specification. Briefly, the polymerase chain reaction mixture prepared in the experiment comprised: mu.l (25 ng/. mu.l) of template, 10. mu.l of 2X Brilliant III Ultra-Fast QPCR Master Mix (which contains Low ROX), 1.0. mu.l of forward primer (10. mu.M), 1.0. mu.l of reverse primer (10. mu.M), 0.5. mu.l of ML-TP-Wt (10. mu.M), 0.5. mu.l of ML-TP-Mt (10. mu.M), 5.0. mu.l of ddH₂And O. The reaction conditions are as follows: denaturation at 95 ℃ for 3 min, denaturation at 95 ℃ for 12 sec, adhesion at 55 ℃ for 30 sec, extension at 72 ℃ for 1 min, and 40 cycles were repeated. The real-time simultaneous PCR apparatus used in this experiment was 7500fast (applied biosystem), and was loaded with Open 7500Software v2.0.6, and parameters were set according to the above-mentioned conditions.

The results of the experiment are shown in figure 3. The ML-TP-Wt probe can specifically detect the wild-type MLH1 gene sequence (FIG. 3(A)), and the ML-TP-Mt probe can specifically detect the mutant MLH1 gene sequence (FIG. 3 (B)). These experimental results demonstrate that the probe of the present invention has excellent specificity in detecting the V384 mutation.

Example four: the probe designed according to the invention was verified (LNA assay).

In this example, the real-time simultaneous polymerase chain reaction was performed using the primers TP-2-F (SEQ ID NO 12) and TP-2-R (SEQ ID NO 13). Also, a mutation probe (ML-LNA-Mt; SEQ ID NO 19; labeled with VIC and BHQ 1) and a wild-type probe (ML-LNS-Wt; SEQ ID NO 18; labeled with FAM and BHQ 1) were used to verify their ability to recognize the V384D mutation.

2 templates were used in these experiments, including: an artificial plasmid established with a partial sequence (homozygote) of the wild-type MLH1 gene, and an artificial plasmid established with a partial sequence (homozygote) of the MLH1 gene with a T1151A mutation.

The experiments were performed with reference to the product specification. Briefly, the polymerase chain reaction mixture prepared in the experiment comprised: mu.l (2.5 ng/. mu.l) of template or plasmid DNA as control, 12.5. mu.l of 2 XEZTime Real-time PCR Premix, 1.0. mu.l of forward primer (10. mu.M), 1.0. mu.l of reverse primer (10. mu.M), 0.5. mu.l of ML-LNA-Wt (10. mu.M), 0.5. mu.l of ML-LNA-Mt (10. mu.M), 4.5. mu.l of ddH₂And O. The reaction conditions are as follows: denaturation at 95 ℃ for 10 min, denaturation at 95 ℃ for 15 sec, adhesion at 50 ℃, extension at 72 ℃ for 1 min, and 40 cycles; and in the stage of the melting-off curve: 15 seconds at 95 ℃,1 minute at 60 ℃, 30 seconds at 95 ℃ and 15 seconds at 60 ℃. The real-time simultaneous PCR apparatus used in this experiment was 7500fast (applied biosystem), and was loaded with Open 7500Software v2.0.6, and parameters were set according to the above-mentioned conditions.

The results of the experiment are shown in FIG. 4. The ML-LNA-Wt probe can specifically detect the wild-type MLH1 gene sequence (FIG. 4(A)), and the ML-LNA-Mt probe can specifically detect the mutant MLH1 gene sequence (FIG. 4 (B)). These experimental results demonstrate that the probe of the present invention has excellent specificity in detecting the V384 mutation.

Example five: the probe designed in the present invention was verified (FRET assay).

In this example, the real-time simultaneous polymerase chain reaction was performed using the primers FR-1-F (SEQ ID NO 14) and FR-1-R (SEQ ID NO 15). And, a mutation probe (ML-sensor-Mt; SEQ ID NO 21; labeled with LC 640), a wild-type probe (ML-sensor-Wt; SEQ ID NO 20; labeled with LC 640), and an anchor probe (ML-anchor; SEQ ID NO 22; labeled with fluorescein) were used to verify their ability to recognize the V384D mutation.

2 templates were used in these experiments, including: an artificial plasmid established with a partial sequence (homozygote) of the wild-type MLH1 gene, and an artificial plasmid established with a partial sequence (homozygote) of the MLH1 gene with a T1151A mutation. In addition, two clinically collected samples (VP13_0055 and VP13_0052) were used in this experiment. VP13_0055 is a wild-type homozygote, and VP13_0052 is a mutant heterozygote (this was previously verified by experiments using next generation sequencing (Ion PGM System) in this study, but this data is not disclosed here).

These experiments were performed with reference to the product specifications. Briefly, the polymerase chain reaction mixture prepared in the experiment comprised: mu.l (2.5 ng/. mu.l) of template, 2.0. mu.l of 10 XLightCycler FastStart DNA Master Hyb probe, 1.0. mu.l of forward primer (10. mu.M; SEQ ID NO 14), 1.0. mu.l of reverse primer (10. mu.M; SEQ ID NO 15), 0.4. mu.l of ML-sensor-Wt (10. mu.M), 0.4. mu.l of ML-sensor-Mt (10. mu.M), 0.4. mu.l of ML-anchor (10. mu.M), 8.6. mu.l of ddH₂And O. The reaction conditions are as follows: denaturation at 95 ℃ for 10 min, denaturation at 95 ℃ for 10 sec, adhesion at 55 ℃ for 10 sec, extension at 72 ℃ for 30 sec, and repeating 45 cycles; and in the stage of the melting-off curve: 1 minute at 95 ℃, 2 minutes at 40 ℃ and 1 minute at 95 ℃. The Real-Time simultaneous PCR equipment used in this experiment was a LightCycler 480Real-Time PCR System (Roche), which was loaded with Open LightCycler 480software 1.5, and each parameter was set according to the above-mentioned conditions.

The results of the experiment are shown in fig. 5. The ML-sensor-Wt probe and the ML-anchor probe can specifically detect the wild MLH1 gene sequence, and the ML-sensor-Mt probe and the ML-anchor probe can specifically detect the mutant MLH1 gene sequence. When the ML-sensor-Wt probe and the ML-anchor probe were used, it was observed that both the wild-type plasmid (curve 1) and VP13_0055 (curve 5) exhibited melting-off curves (FIGS. 5(A) and (B)). When the ML-sensor-Mt probe and the ML-anchor probe were used, it was observed that the mutant plasmid (Curve 2) showed a melting-off curve (FIGS. 5(C) and (D)). Furthermore, VP13_0052 (curve 4) is a heterotype, and therefore shows an ablation curve regardless of whether an ML-sensor-Wt probe or an ML-anchor probe, or an ML-sensor-Mt probe or an ML-anchor probe is used (FIGS. 5(A) and (C)). These experimental results demonstrate that the probe of the present invention has excellent specificity in detecting the V384 mutation.

Sequence listing

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Asn Arg Ile Ala Ala Gly Glu Val Ile Gln Arg Pro Ala Asn Ala Ile

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Ser Tyr Ser Asp Gly Lys Leu Lys Ala Pro Pro Lys Pro Cys Ala Gly

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Asn Gln Gly Thr Gln Ile Thr Val Glu Asp Leu Phe Tyr Asn Ile Ala

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Thr Arg Arg Lys Ala Leu Lys Asn Pro Ser Glu Glu Tyr Gly Lys Ile

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Leu Glu Val Val Gly Arg Tyr Ser Val His Asn Ala Gly Ile Ser Phe

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Ser Val Lys Lys Gln Gly Glu Thr Val Ala Asp Val Arg Thr Leu Pro

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Asn Ala Ser Thr Val Asp Asn Ile Arg Ser Ile Phe Gly Asn Ala Val

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Ser Arg Glu Leu Ile Glu Ile Gly Cys Glu Asp Lys Thr Leu Ala Phe

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Lys Met Asn Gly Tyr Ile Ser Asn Ala Asn Tyr Ser Val Lys Lys Cys

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Ile Phe Leu Leu Phe Ile Asn His Arg Leu Val Glu Ser Thr Ser Leu

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Arg Lys Ala Ile Glu Thr Val Tyr Ala Ala Tyr Leu Pro Lys Asn Thr

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His Pro Phe Leu Tyr Leu Ser Leu Glu Ile Ser Pro Gln Asn Val Asp

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Val Asn Val His Pro Thr Lys His Glu Val His Phe Leu His Glu Glu

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Ser Ile Leu Glu Arg Val Gln Gln His Ile Glu Ser Lys Leu Leu Gly

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Ser Asn Ser Ser Arg Met Tyr Phe Thr Gln Thr Leu Leu Pro Gly Leu

340 345 350

Ala Gly Pro Ser Gly Glu Met Val Lys Ser Thr Thr Ser Leu Thr Ser

355 360 365

Ser Ser Thr Ser Gly Ser Ser Asp Lys Val Tyr Ala His Gln Met Asp

370 375 380

Arg Thr Asp Ser Arg Glu Gln Lys Leu Asp Ala Phe Leu Gln Pro Leu

385 390 395 400

Ser Lys Pro Leu Ser Ser Gln Pro Gln Ala Ile Val Thr Glu Asp Lys

405 410 415

Thr Asp Ile Ser Ser Gly Arg Ala Arg Gln Gln Asp Glu Glu Met Leu

420 425 430

Glu Leu Pro Ala Pro Ala Glu Val Ala Ala Lys Asn Gln Ser Leu Glu

435 440 445

Gly Asp Thr Thr Lys Gly Thr Ser Glu Met Ser Glu Lys Arg Gly Pro

450 455 460

Thr Ser Ser Asn Pro Arg Lys Arg His Arg Glu Asp Ser Asp Val Glu

465 470 475 480

Met Val Glu Asp Asp Ser Arg Lys Glu Met Thr Ala Ala Cys Thr Pro

485 490 495

Arg Arg Arg Ile Ile Asn Leu Thr Ser Val Leu Ser Leu Gln Glu Glu

500 505 510

Ile Asn Glu Gln Gly His Glu Val Leu Arg Glu Met Leu His Asn His

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Ser Phe Val Gly Cys Val Asn Pro Gln Trp Ala Leu Ala Gln His Gln

530 535 540

Thr Lys Leu Tyr Leu Leu Asn Thr Thr Lys Leu Ser Glu Glu Leu Phe

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Tyr Gln Ile Leu Ile Tyr Asp Phe Ala Asn Phe Gly Val Leu Arg Leu

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Ser Glu Pro Ala Pro Leu Phe Asp Leu Ala Met Leu Ala Leu Asp Ser

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Pro Glu Ser Gly Trp Thr Glu Glu Asp Gly Pro Lys Glu Gly Leu Ala

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Glu Tyr Ile Val Glu Phe Leu Lys Lys Lys Ala Glu Met Leu Ala Asp

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Tyr Phe Ser Leu Glu Ile Asp Glu Glu Gly Asn Leu Ile Gly Leu Pro

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Leu Leu Ile Asp Asn Tyr Val Pro Pro Leu Glu Gly Leu Pro Ile Phe

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Phe Glu Ser Leu Ser Lys Glu Cys Ala Met Phe Tyr Ser Ile Arg Lys

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Gln Tyr Ile Ser Glu Glu Ser Thr Leu Ser Gly Gln Gln Ser Glu Val

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Asp Gly Asn Ile Leu Gln Leu Ala Asn Leu Pro Asp Leu Tyr Lys Val

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gaagagaccc agcaacccac agagttgaga aatttgactg gcattcaagc tgtccaatca 60

atagctgccg ctgaagggtg gggctggatg gcgtaagcta cagctgaagg aagaacgtga 120

gcacgaggca ctgaggtgat tggctgaagg cacttccgtt gagcatctag acgtttcctt 180

ggctcttctg gcgccaaaat gtcgttcgtg gcaggggtta ttcggcggct ggacgagaca 240

gtggtgaacc gcatcgcggc gggggaagtt atccagcggc cagctaatgc tatcaaagag 300

atgattgaga actggtacgg agggagtcga gccgggctca cttaagggct acgacttaac 360

gggccgcgtc actcaatggc gcggacacgc ctctttgccc gggcagaggc atgtacagcg 420

catgcccaca acggcggagg ccgccgggtt ccctgacgtg ccagtcaggc cttctccttt 480

tccgcagacc gtgtgtttct ttaccgctct cccccgagac cttttaaggg ttgtttggag 540

tgtaagtgga ggaatatacg tagtgttgtc ttaatggtac cgttaactaa gtaaggaagc 600

cacttaattt aaaattatgt atgcagaaca tgcgaagtta aaagatgtat aaaagcttaa 660

gatggggaga aaaacctttt ttcagagggt actgtgttac tgttttcttg cttttcattc 720

attccagaaa tcatctgttc acatccaaag gcacaattca ttttgagttt ctttcaaaac 780

aaatcgtttg tagttttagg acaggctgat gcactttggg cttgacttct gattacccta 840

ttgttaaatt agtgacccct cttagtgttt tcctgtcctt tatttcggag gacgcacttc 900

gaagatacca gattttatgg gtcatccttg gattttgaag cttataactg tgacaaaaaa 960

tgtgaaggga agagatttga aacatgtgga aggaaaagtg agtgcagact ataaacttcc 1020

aaaaagacaa gcccaaaata cacctaaacg ttatgtcaga ttattttgtt aaaatcagtt 1080

gttagtgacg tccgtacgtt aatagaaaaa agaatgcttc agtttggagt ggtaggtttc 1140

tagagggatt tattgtgaaa gtataaacta ttcagggcaa tgggactgag agaacagtgg 1200

gtagaaagga ccactgaagg aaaggaagag aattggaagg tagatgaaag aaggagcaag 1260

aacctgggga tgttttttcc ttttcacttg taatagtagt aacagaagca atggcagact 1320

ggcttttgtt tctactgtgt tagaatgaat tgacaggaca actgggccta ttattgtact 1380

gtgccagaat actgtaaaac aaaactaaac atactagctt ggtggcttgt aattaattac 1440

ttaagtggag atttttattt tttttttatt ttttttttag acggagtctc actttgtcac 1500

ccaggctgga gtgcagtggc gcgatctcag ctgactgcaa cctcctcctc acaggttcaa 1560

gggagattct cctgcctcag cctcccgagt agctaggact ataggcatgt gccaccacac 1620

ctggctaatt ttgtattttt agtagagatg ggatttctcc atgttggtca ggctggtgtc 1680

aaaactctcg atctcaggtg aaccgcctgc ctcagccttc caaagtgctg ggattacagg 1740

cgtgagccac cgcgccctgc agttttttgt atttttaata gagacagggt ttcaccatgt 1800

tagccaggat ggtctcgatt tcctgacctc aggtgatctg cccgctttgg cctcccaaag 1860

tgctgggatt acaagcatga gccaccgcgc ccggctcaag tggagatttt tatatggagt 1920

ccagttatac tctttttaat atataagttg agatgactaa tacaacttca atacaggggc 1980

tcatgagaaa tgtctgtaat atttaagtaa cttattgtct tctttctttt ttttttaaga 2040

tgaagtctta ctctgttgcc caggcggaag tgcagtggcg tgatcttggc tcagggcaac 2100

ctctgcctcc tggtttcaag cgatcttcct gcctcagcct cccgagtagc tgggagtaca 2160

ggcgtgcatg accacacccg gctaattttt ttatttttag tagagacggg gtttctccat 2220

gttggccggg ctggtcttga actcctgacc tcaggtgatc cgcccacctc agcctcccca 2280

agtgttggga ttacaggtgt gagcccccgt gcccagccta ttatcttatt tctgaataaa 2340

gaattgtctg tgtggggaat agataactct ttctcatgca gcccctgcta gaaaatttgt 2400

tttctctagc agttggtctg tgcttatagg ctactctttg aaagcacaaa aaatttattg 2460

acttcttttt tttgggtttt tttttttttt tgagacagag ttttgccctt gttgcccagg 2520

ttggagtgca atggcgcgat ctcagctcac cgcaacctcc acctcctggg ttcaagtgat 2580

tctcctgcct tagcctcctg agtagctggg attacaggca tgcgtcacca tgcctggcta 2640

attttgtatt tttagtacaa atggggtttc tccatgttgg tcaggctggt ctcaaactcc 2700

tgacctcagg tgatccaccc gccttggcct cccaaagtgc tgggattatg ggtgtgagcc 2760

attgcgcctg gccagaaaat tcattgactt cctaaagatt tattaacttt ctgcattact 2820

tttttttttc ccctccatcg taaatataaa agggaatagt agagaaaatc attcagaatt 2880

ttatttttta gtgacattat ttagtgacat tttattagag tcacttagga acctgaggct 2940

gaataaagtt caggtaaaag taaaattagt tgagaagaga catctgccaa aagaaatcta 3000

tttttaactt cacttgctgt ctttcctaga ggaacagaaa tagtgctgaa tgtcctatta 3060

gaaatgatgg ttgctctgcc cgtctcttcc ctctctctca cacaatatgt aaactcatac 3120

agtgtatgag cctgtaagac aaaggaaaaa cacgttaatg aggcactatt gtttgtattt 3180

ggagtttgtt atcattgctt ggctcatatt aaaatatgta cattagagta gttgcagact 3240

gataaattat tttctgtttg atttgccagt ttagatgcaa aatccacaag tattcaagtg 3300

attgttaaag agggaggcct gaagttgatt cagatccaag acaatggcac cgggatcagg 3360

gtaagtaaaa cctcaaagta gcaggatgtt tgtgcgcttc atggaagagt caggaccttt 3420

ctctgttctg gaaactaggc ttttgcagat gggatttttt cactgaaaaa ttcaacacca 3480

acaataaata tttattgagt acctattatt tgctgggcac tgttcagggg atgtgtcagt 3540

gaataaaata gattaaaatc tattctcttc tgatgcttac attatagtgg tgggagacaa 3600

aatgggtata ataaatatta tattagatag cattaagtgc tgtggagaaa actaaagcag 3660

ggaggaagat aggagtgtgc aagccagaaa ggttgcaatt aaattgagta gttcaggaag 3720

gcttcaatat ggatgtgata tttgagagac cggtggaagt caaggagcaa gttgtgaggc 3780

tatttaaagg tattcttggc ttacagaaca atatacgcaa agactattaa atggaagcat 3840

acctgacatg ttaaaggact atcaaggagg ccagtttgtc tagaggctga aaaggaaaga 3900

gtaataggag atgaggtctg agtgaaaaca cgtaaatcct tgtgggccaa ggtaaaatct 3960

ttagcttttt ttctgaatat ggtgggatac tgttagaggg ttttaagcag aggttacgtg 4020

gtgtggtgag tttttttttt ttaatccttt gtctttctgt gtggaaaata gcaggacagg 4080

gcagaagcag tctgtcctgc agactgcttg gtcgcagtag agatgtaaga agcagtgaga 4140

ttctgggtta attatggagg caaagttctc agaatttgct gatatagggt atgagagaaa 4200

gaggaatcag gaatgatttc aaggttttgg tctgctaaat ggaaggagtt gccatttact 4260

aagatgggaa agactatgaa agaagcagat tttcagagag atcagaagtt cattttgggg 4320

catgttcaat ttaagatgcc tgttagttgg atgtttatgt gagtttggaa tgcagggtag 4380

agatttaggg atgaatattt ggtagttgtc tgcattttaa tggtattaaa agccacgaga 4440

aggatgggca tggtggctca cacctgtaat cccagcactt tgggaggcca aggcgggcag 4500

atcacctgag gtcgggagtt cgagaccagc ctgaccaaca tggagaaacc ccatctctac 4560

taaaaatata taattagccg ggcgtggtgg cacatgcctg taatcccagc tactcgggag 4620

gctgaggcag gagaatcgct tgaacctggg aggtggaggt tgcgatgagc cgagatcgca 4680

ccgttgcact ccagcttggg caacaagagc aaaactccat caaaaaaaaa aaaaaaaaaa 4740

aaaaaaagcc ttgagactca cctgaaaaga tgctcaacat tattggtcat taggaaaatg 4800

aatgaaaacc acaatgagat accacttcac acctattagg atggctatta tcaaaaacaa 4860

aaacaagtgt ttgcaaggat gtagagattg gaattcttgt gtattgctag agggaatgta 4920

aaatagtgca gggtgctgtg gaaaatgctg tggtgattcc tcaaaaaatt aaacataatt 4980

atataatcca gtaattccac ttctgagtta ttcccaaaag aagggatgca agcagatatt 5040

tgtacactca tattcatggc agcattattt acagtagcca aaaggtgaaa gcaacctaag 5100

tgtccgtcag tggatgaatg gataaacaaa atggaataat ttcagcctta aatagaaata 5160

aaatgttgac acatgttgca acatatacga accttgaaga catcatgtta agttaaataa 5220

gttggtcact aaaggacaaa tattgtatga ttccccttat gaggttccta gagtagtcac 5280

attcatagag acagtagagt ggtggttgcc cagggccggg gggagcgagg agaatggaaa 5340

ttattgttta ttgggtacag agtttctgtt tggggaagat gaaaaaattc tggagatgga 5400

tcatgatgat agttaacaca gcagtgtgaa tatagttaat ggcacagaac tgtacattta 5460

aaaatggtta agatggaaaa ttttctgtta catatatttt actgcaattt ttttaaattt 5520

tattattata ctttaagttt tagggtacat gtgcacaaca tgcaggtttg ttacatatgt 5580

atacatgtgc catgttggtg tgctgcaccc attaagtcat catttagcat taggtatatc 5640

tcctaatgct atccctcccc cctcccccac cccacaacag tccccagtgt gtgatgttcc 5700

cctttctgtg tccatgtgtt ctcattgttc aattcccacc tatgagtgag cacatgcagt 5760

gtttggtttt ttgtccttgt gatagtttgc tgagaatgat ggtttccagc ttcatccatg 5820

tccctgcaaa ggacatgaac tcatcatttt ttgtggctgc atagtattcc atggtgtata 5880

tgtgccacct tttcttaatc cagtctatca ttgttggaca tttgggttgg ttccaagtct 5940

ttgctgttgc gaatagtgct gcagtaaaca tacgtgtgca tgtgtcttta tagcagcatg 6000

atttataatc ctttgggtat atacccagta atgggatggc tgggtcaaat ggtatttcta 6060

gttctagatc cctgaggaat tgccacactg acttccacaa tggttgaact agtttacagt 6120

cccaccaaca gtgtaaaagt gttcctattt ctccacatcc tctccagcac ctgttgtttc 6180

ctgacttttt aagatcgcca ttctaactgg tgtgagatgg tatctcattg tggttttgat 6240

ttgcatttct ctgatggcca gtgatgatga gcatttcttc atgtgttttt tggctgcata 6300

aatgtcttct ttcgagaagt gtctgttcat atccttcact cactttttga tggggttgtt 6360

tgtttttttc ttgtaaattt gagttcattg aaaaattaga attttttttt ttttcccttt 6420

tttagaggca aggtctcact ctgtcgccca cactggagtg cagtagtgta agcatagctc 6480

actgtaacct tgaactcctg ggctcaagca attctgtcat ctcagccagc tgaagtagta 6540

actgtaggtt cacaccacca tgcctatttt tgtttttgta gaaatagggc cttgctttgt 6600

tgccaaggct ggtcttgaac tcctgacctc aagcagtcct cctgtctcag cctcccaaag 6660

tgctgggatt ataggtgtga gccactgcac ccagccttgg agatttttaa taaagaagct 6720

tgtcaattaa acaaacaaca aaaagccctg agactgaatg agataatcaa gagagtatgt 6780

gtagatagag aagaggtcca aggaaggagt cttgggtgac tctgatgtca agtgaggaca 6840

tgaggcagaa acagcagtga ctgagaagga gccacctagt aagaaaggag gaacaccagg 6900

acagtgtggt attctggatt ccaaacaagg aagttactgc taattttaaa gctcttctca 6960

ggctgggcat ggtggctcac acctgtagtc ccagcacttc gggaggctga ggtaggtaaa 7020

tcacttgagc tcatgtgttt gagaccagct tgggcaacat ggtgaaacct catctctact 7080

aaaaatataa gaaattaagg ccaggtgtgg tagttcatgc ctgtaatccc agtgctttgg 7140

gaggtcaagg cagccagatc atttgagatc aggagttcga gaccagcatg gccagcatag 7200

tgaagcccca tctctactaa aaatacaaga aaaaattaac caagcatggt ggcgcatacc 7260

tgtaatccca gccactctgg aggctgagac atgaaaattg cttgaacccg ggaggcggag 7320

gttgcagtga gctgagatct cgccactgca cttcagcctg ggtgacagag caagactctg 7380

tctcaaagga ggttgcagtg agctgagatc tcgccactgc acttcagcct gggtgacaga 7440

gcaagactct gtctcaaaaa aaaaaaaaac aaaaaccaag aaaagaaaaa aaaactcttc 7500

taagaggatt tttttttcct ggattaaatc aagaaaatgg gaattcaaag agatttggaa 7560

aaatgagtaa catgattatt tactcatctt tttggtatct aacagaaaga agatctggat 7620

attgtatgtg aaaggttcac tactagtaaa ctgcagtcct ttgaggattt agccagtatt 7680

tctacctatg gctttcgagg tgaggtaagc taaagattca agaaatgtgt aaaatatcct 7740

cctgtgatga cattgtctgt catttgttag tatgtatttc tcaacataga taaataaggt 7800

ttggtacctt ttacttgtta aatgtatgca aatctgagca aacttaatga actttaactt 7860

tcaaagactg agaattgttc ataaataaac tattttacct gcagagacct ctgatatatg 7920

tttcttgatg gaagtaccca gtaccaccta tgaagttttc ttgtcaaaaa atcaaatgtg 7980

aatctgatca ttacttagat ctaagtacca atatatgaaa aatataggag acaaggaagc 8040

atggtaaatg atactgagat tgggagacta catggaaaaa gacttgttcc cttcaacaga 8100

tagacagcag ggaaaaaaga atagagaaag gagtaaagaa cctgtagatt aaaagacatt 8160

taagggacat atgaaccagg tccagtgtat agatcttacc taaatcctga tggagcaaac 8220

tataaaaaaa tttttttgag acaaatgttt gaatacaggt tgactatttg atggcattaa 8280

ggagaaatta tgaattatct tggtataaga atattgtcat gggttttttt ttttgagtcc 8340

ttacctgtta agatacatac taaaatattt gtgggtaaaa ttatatgacg tataggagta 8400

tatgatttag aaaacggatt aaaatataaa aggataaaat aggatcttat attttgtgac 8460

tcacttcctg ttggatatct ttctacccag taaatatagt cctatctagg ttttaatggc 8520

tacatgtatg tactgtagtt tgtttaaatg gtttcctatt gaacatttat gctctttgcc 8580

attttttcct gtttaacgtt ctgttttttt ttttgttttt tttttttttt gagacagtct 8640

tgctctgtta tccagactgg agtgcagtga catgatctca gctcactgca acctctgcct 8700

tctgggttca agctattctc ctgcctcagc ctcctgaata gctgtgatta caggcgtgca 8760

ccactatgcc cagctaattt ttgtattttg ggtagagaca gggtttggcc atgttggcca 8820

ggctggtctt gaactcctga ccttgaatga tctgcccgcc ttggccttgc aaagtgctgg 8880

ggttacaggc atgagccacc acgtctggcc ttgtttaagg tcctgatgag tattcttata 8940

ggtacactgt gtttcgttta attatttcct taggataaat ttatagaaat aacattcctt 9000

ggtaaaagaa tacatatttt aaaaactgta ttagtttcct gttgctgtca aaaaatttcc 9060

agaaacttag tggcattaaa caatacaaat taattattct acagttctgg agatcagaag 9120

atacgggtct tactaggcct cactaggcta aaatcaaggt tttggcaggg ctgtgttcct 9180

ctatggaggt tccaagggac cagagaaact actttacagt agttatttta agggaatgaa 9240

agtgaagatg gggttgggca gtcaaagagg ctgttacttt tcatttttgg cctttcagta 9300

gtttgaattt ttttatcata tacatgtatt actttaattt ttaaaaagta aaaagcagct 9360

gtgattcagt ctctgtaatt tagatcaatt tacatcaaac tagggtggtc tcatgtgttg 9420

tcttgctcac agtgaccact agattattcc aagaagggac aatttccaag acttggttta 9480

cactgagacg gctcctgatt ttaaggatac cttagatcaa actctaggaa ggcagtttca 9540

ttttggcctt gcagttccct gggtcatttt ccaagcccat ggcctcctgg agtcttcgcc 9600

tagctgtagg ttatctttgt ggctattatt tcactgtaat tatacaggaa gatttattga 9660

gggatttctg tgtaccagcc gtggttctca gcactttgta tactttgtat taactctgac 9720

tcctgacagt aactctacag aggttctgct gttacccagt tttacataga aacatggcca 9780

gcggacgcag ttagaaaatg gcaaagtggg gattagaaac taggcagttt gactccagag 9840

tctgtgcccc tgtccacttg gctccactgc tggggaagag gcctctgaag cagcaggacc 9900

atctgctgtg ccgtgtgtag tggtactcta tcttcctggt gtgatgttgt gttctacttt 9960

gcattttcat gtctttcctt atacaggtct caaaatcatt tacttttttt tttttttttt 10020

tgagacggag tctcactctg ttgcccaggc tagagtgtag tggcatagtc tcactcactg 10080

caacctccgc ctccgaggtt caagtaattc tcctgcctca gcctcccaag tagctcggat 10140

tacaggcaca tgccaccaca gctagcaaat ttttgtattt ttagtagaga ttggtgtttc 10200

accatgttgg ccaggctgtt cttgaactcc tgacctcagg tgatccaccc acctaggcct 10260

cccaaagtgc tgggattaca ggcgtgagcc accccaccca gccttatatt ttttaatgat 10320

gcacattagc tcaattacat aaaccaggga aatccagcta ggacctggtg atttctgagc 10380

ctgacccatg tgactttcaa tgaactgaac ttgccacagc tgtatttact gtctactgag 10440

atgctgtcac acagaccccg tcatagcaca gttcctgagt tacatcttta catactgtag 10500

tatccttctt gtgaaaaaag atacagattc caaaggtctg agaaaccaat cttggttata 10560

aaggggaaaa atggtcatgg gtttttaaaa tttgttttgt cttaattgca tttcaaattt 10620

acatttctaa atgaataatt gcttatataa agcagttttg attaacaata taaaacacta 10680

tctatttgga gtgattcctt tacccatttc tgaaggcaag ttttaaaaat tactagaaga 10740

cacttcattg agaatattat taaacatgcc tatagttcta ccacctcaac acaattgctt 10800

attaacacat taatgttttg gtgtgttttg gactttttaa tatgtatttt tcacttgttc 10860

tagtaattat gctacagatt gatcatttct ttttcaacat gtcatcaaag caagtgagca 10920

aagtgctcat cgttgccaca tattaataca aaatggaagc agcagttcag ataacctttc 10980

cctttggtga ggtgacagtg ggtgacccag cagtgagttt ttctttcagt ctattttctt 11040

ttcttcctta ggctttggcc agcataagcc atgtggctca tgttactatt acaacgaaaa 11100

cagctgatgg aaagtgtgca tacaggtata gtgctgactt cttttactca tatatattca 11160

ttctgaaatg tattttttgc ctaggtctca gagtaatcct gtctcaacac cagtgttatc 11220

ttttttggca gagatcttga gtacgttttc ttttctcctt attgataaat tgataatcct 11280

caaggatgat tattaggtga tactcttact tcatggattc ttaaaagata tgatttaaca 11340

tattacaagt gcctagcaag gtgtctgtta cacgtaggta ttttaagtaa atggtagctg 11400

ctgatgtaat ttctgcccct ttgcccttca gttggggtat tgctttggac cgattagagg 11460

gctgtggctg ggatgctaaa ggttcatgtt tccttagctg gctcctgagc caccagctcc 11520

caccacctgt gtatacctgt gctagtttgc cttcccacaa gtagctgctg gctatctgtt 11580

atgctggtac agttttcaga aactgatgaa tggcctttga acagaacaaa aatgagattc 11640

agaataacaa aattgcacct ttgtttttat aagcactggc cattcactag ttgaagactg 11700

gtaggaatac ctaattcatg ccaaaagaaa gataattttt aaaaatcaca caggttgttt 11760

gtagattaaa agggaaaata ggctaggtat agtggctttg cctgtgagtt tgggaggctg 11820

aagtgggagg attgcttgaa gtcaggagtt tgagaccagc ctgggaaaca gagcaagacc 11880

ccgtctctac agaaaatttt taaaaaatta gctgggcatg gtgatgcata tctgtagtct 11940

tagctactcc ggaggtggga agattgcttg agcccagcag tttgaggctg cagtgagctg 12000

tgattacacc actgtactcc aaccttaaaa taaataaata aataagggaa aatatcttca 12060

acaaaggata gttctgtctg tttctcagtc ttcctcaaca gataaatgtg tgaagtaatg 12120

gaaggtggag atttcagatt acacaacatt aatgctaagg gcgtttgact ctgtgtgaat 12180

tctaattgcc ctagatctag acgggctgat actattagaa tcccctgtca ctaactgaag 12240

acagagttgt aagttaatgc cttcctagat agcctagatt gtggtatgct gctgcatgct 12300

aaaatggctc cccttccata gcaggatgaa atagagtcat tatcttggca accagcccct 12360

gccaatgtgc tctcagtctg cctttccagc cccttctctc tacctattcc cagctgccat 12420

gtattctaaa gcctctatgc tttcattttt gtttttgcct tcctggatgg tctttcctgc 12480

tgtctccacc tgaaactatt cctctctaaa gaacagatga attgccatct ctctgggatg 12540

cttttaccca ccctcactcc cacctcaggc tgaatggacc cttctctaga tcgcttagca 12600

tattgttcta cagttaggta aaaagtctac ctatcactag atcaagagct ttgttttttt 12660

ttattaattt aattttcttt tttttttttc tttttttttt gagacagagt ctcgctctgt 12720

cgcccaggct ggagtgcagt gcacaatctt ggctcactgc aagctccgcc tcccaggttc 12780

acaccattct cctgcctcag cctcccgagt agccgggact acaggcgccc accaccacgc 12840

ccagctaatt ttttgtattt ttagtagaga cggggtttca ccatgttagt tagccaggat 12900

ggtctcgatc tcctgacctc gtgatccacc cacctcggcc tcccaaagca ctgggattac 12960

aggcatgagc caccgcgccg agccccaaga cctttcttta ttaccagggc ttccacagac 13020

ctgacacatg gtagttcctc aataaataat tgcagaatta ctgaaaaatt ttactgttaa 13080

cttaggcagt ggtaaaacca ttgtttggta gctcagaact cagcaagtaa atagcaacat 13140

ttgctggaag aacagatagt ttttcaaatc caattcaagg actgggtatg gtggctcatg 13200

cctgtaatcc cagcactttg ggaggccgag gcaggcgtat ccaggagttc gagactagcc 13260

tgaccaacat ggtgaaactc cgtctctact aaaaatacaa aattagccag gtgtggtggt 13320

gggcacctgt aatctcagct acttgggagg ctgaggcagg agaatcgctt gaacctggta 13380

ggcggaggtt gtagtgagct gagattgtgc cattgctctc cagcctggga aacaagagca 13440

aaactccgtc tcaaaaaaaa aaaaaatcca attcaaatga ttatggaagt agtggagaaa 13500

taaacaggaa aatgataaat aattaagata atatataata tggctatatt ttaatctatt 13560

gttgatatga ttttctcttt tccccttggg attagtatct atctctctac tggatattaa 13620

tttgttatat tttctcatta gagcaagtta ctcagatgga aaactgaaag cccctcctaa 13680

accatgtgct ggcaatcaag ggacccagat cacggtaaga atggtacatg ggagagtaaa 13740

ttgttgaagc tttgtttgta taaatattgg aataaaaaat aaaattgctt ctaagttttc 13800

agggtaataa taaaatgaat ttgcactagt taatggaggt cccaagatat cctctaagca 13860

agataaatga ctattggctt ttgtggcatg gcagcctgcc acgtccttgt cttttttaag 13920

ggctaggaga ttctttattg ggatggcaaa agtcaatggc agggtagttg tcattgaaag 13980

aagattaagc ttgaccccag aaggcatggg ttagagccca gccttgtcac tcaatggttg 14040

tatgtccaga ggcaagtcac ttaacatccc ttaaccccag ttttctcatc tgtcaaatga 14100

agcaaagaat acttgccctc ttgacttaaa gggtgtctga tgagacatat gactgtatca 14160

ttagctggga gaaagtccat cgtgctgcct atgtatagtg cctcaagttg gtctctttcc 14220

cttctatgat tacacaaagc actccgctgt catgttatcc atcccgcccc tccattccaa 14280

gtcccatcta gagcacatct tcttgaagtc cactgtaacc tgcctaatcc tggatgtgac 14340

gagccaggca ggaggcagaa aagaatgtgt gttttgcaat acatgttaag agacatcttg 14400

ggctgggcac ggtggctcac acctgtaatc tcagcacttt gggaggctga ggagggcgga 14460

tcatctgagg ttgggagttc gagaccagcc tgaccaacat ggagaaaccc catctctact 14520

aaaaatacaa aattagccag gcgtgatggc gcatgcctgt aatcccagct actcaggaag 14580

gctgaggcag gagaattgct tgaacccggg aggcagaggt tgtggtgagt tgagatcatg 14640

ccactgcact ccagcctggg caacaagagt gaaacagggt ctcaaaaaca aaaacaaaca 14700

aacaaaaaaa atcttttacc acggtgacca ccatgtgatt tccaagaact tcaaatgatc 14760

taagaaattt tgtgattatt actagtttga aaaatacttt tttttttttt gagacaaagt 14820

ctcactctgt tgcccaggct gaagtgcagt ggtgtgatct cagctcactg caatcactac 14880

ctcttgagtt caagcagttg tcctgcctca gcctcttgag tacctgggat tacaggcatg 14940

cgtcaccatg cccggctaat ttttgtattt ttagtagaga cagggtttca ccatgttggc 15000

caggctggtc tcgaactcct gacctcaggt gacccaccca ccttggcctc ccaaagttct 15060

gggattacag acgtgagcca ctgcacccag cctgaaaaat atctttgaat gccatgtgat 15120

actatacttg tcagtttaca tgtgtgtccc actaaatcat gtactctcct gagcaggatc 15180

atgctttgtc ttcatatttt ctgtacaaag caaagactct gacacaaagc tagcccccag 15240

tgcatagttg agaaatcagt gaatgaatgt gggaggcagg aaaaatgtcc tttaattctt 15300

ctgttaatgc tgtcttatcc ctggccccag tcagtgctta gaactgtgct gttggtaaat 15360

ataattggat tcactatctt aagacctcgc ttttgccagg acatcttggg ttttattttc 15420

aagtacttct atgaatttac aagaaaaatc aatcttctgt tcaggtggag gacctttttt 15480

acaacatagc cacgaggaga aaagctttaa aaaatccaag tgaagaatat gggaaaattt 15540

tggaagttgt tggcaggtac agtccaaaat ctgggagtgg gtctctgaga tttgtcatca 15600

aagtaatgtg ttctagtgct catacattga acagttgctg agctagatgg tgaaaagtaa 15660

aactagctta cagatagttt ctggtcaagg tttagccacc aattttgcag tttctctcat 15720

ctccccagga aagagcagtt ggtctttaga tcaatgagag ctcttttatg gcagacaaaa 15780

caaagtgact ctagccaact tgagctaaaa agaaatttag tggaaggcta ggagttacca 15840

catgaagtgt gtgcagctgc cccttggaga gaataagaac cagggtgcct ctgggactta 15900

acatcattac tgtactccag ttgttttcat tcttttcctg actttgctct agagtcagtt 15960

tcctaacaga gtacattcga tgatcatgtg cccatatctg tggggagaag atttcttgat 16020

tggcagtctt actaagggtg catatcaagt agaatggaat agaggtagtt tcctaaagga 16080

agatgagagg ctgttaccag gaggaggaga agggattcag gacagatgaa aacaacgtta 16140

tatccatgat agacttacgc tgctggtaca gatggtacag gtggcttcag tataggctct 16200

ccgaacccac atatcattga ttatgatagg gatatgttaa ctatttttca gtgtatatat 16260

gtatatgtgt gtgtgtatat atatgtatat gtatatatat atgtatgtgt atatatgtat 16320

atgtatatat ttatatatgt atatgtatat atttatatat gtatatgtat atatttatat 16380

atgtatatgt atatatattt atatatgtat atgtgtgtat atatatattt atatatatgt 16440

atatgtgtgt atatatatat attttttttt gaaacggaat ttcgctcttg ttgcccaggc 16500

tggagtgcaa tggtgcgatc tcagctcact gcaacctctg cctcctgggt tcaagcgatt 16560

ctcctgtctc agcctcccga gtagctggga ttacaggcac ttgccaccat gcccggcaat 16620

tttttttttg ttttttttta gtagagaggg ggtttaatca ttttggccag gctggtcttg 16680

aactcctgac ctcaggtgat ctgcctgcct tggcctccta aagtgctggg attacaggcg 16740

tgagccacca tgcctggcca tttttcagta tttctttttt tttttttttt tttttttttt 16800

ttgagacaga gtttcactct tgttgcacag gctggagtac aatggtgtga tctcggctca 16860

ccgcaacctc tacttcccag gttcaagcaa ttcgcctgcc tcagccttct caagtagctg 16920

ggattacagg catatgccac catgcccggc taattttgtg tttttagtag agatggggtt 16980

tctccatgtt ggtcaggcta gtctcaaact cccgacctca gatgatcctc ccgccttggc 17040

ctcccagagt gctgggatta ctggcatgag ccagcgctcc tggcccattt ttcagtattt 17100

ctaaaaaaaa tctaaagtgg gtcaaacatt tcaccttaat agaatgacag gtttgtacat 17160

caagtttctt tgctttttct tggaatttta tacttttttt ttttttttgg agacagagtc 17220

ttgctgtgtt acccaggctg gagtgcagtg gtgcgatctc agctcaccac aacctccacc 17280

tccaggttga agcaattctc ctacctcagc ctcctgagta gctgggatta caggcacatg 17340

ccaccacacc cggctaattt tttttttttt tttgtatttt tagtagagac agggtttcac 17400

catgttgtcc aggctggtct cgaactcctg acctcaggtg atccgcccat ctcggcccac 17460

caaagtgctg ggattacagg cgtgagccac tgcacccggc ctttttcttg gaattttatc 17520

aatcagtgtc agaatattca ttacctccta aaaataaagg agttctagtt ggctgttttg 17580

attctaggtg tggtaaagtg aaatattgtt acttaataaa tgcattttgc tagacacaat 17640

ccttcggttc acgagctctg tagagaaaag agaaataacc gccaaccaag aaaagattgg 17700

gagatactag aataagaccc aggggcagga agaagccagt gagaaggagg gcatgttgag 17760

agctctgaga gagaataaaa gcaggggttg ttggagctag cttctcaaga tgtccttgag 17820

gcaaaccaga cctttgggac actctgaaaa taaaactgaa agtgaagaga ttgtgggccg 17880

aatgtggtgg ctcacgcctg taatcccagc actttgggag gtcgaggcgg gtggatcacc 17940

tgagatcagg agttcgatac cagcctggcc aacatggcga aacgccatct ctactaaaaa 18000

tacaaaaaaa attagctggg cctggtggca ggcgcctata atcccagcta ctcgggaggc 18060

tgaggcggga gaatcgcttg agtccaggag gcggaggttg cagtgagctg agatcgtgcc 18120

attgcactcc agcctgggca acaagagcaa aactctgtct caaaaataaa taaaaataaa 18180

taaaaaagag atagtggcgt gatatccttg attctatcag caacctataa aagtagagag 18240

gagtctgtgt tttgattcag tcacctttag catttttatt tccatgaagt ttctgctggt 18300

ttatttttct gtgggtaaaa tattaatagg ctgtatggag atatttttct ttatatgtac 18360

ctttgtttag attactcaac tccactaatt tatttaacta aaagggggct ctgacatcta 18420

gtgtgtgttt ttggcaactc ttttcttact cttttgtttt tcttttccag gtattcagta 18480

cacaatgcag gcattagttt ctcagttaaa aaagtaagtt cttggtttat gggggatggt 18540

tttgttttat gaaaagaaaa aaggggattt ttaatagttt gctggtggag ataaggttat 18600

gatgtttcag tctcagccat gagacaataa atccttgtgt cttctgctgt ttgtttatca 18660

gcaaggagag acagtagctg atgttaggac actacccaat gcctcaaccg tggacaatat 18720

tcgctccatc tttggaaatg ctgttagtcg gtatgtcgat aacctatata aaaaaatctt 18780

ttacatttat tatcttggtt tatcattcca tcacattatt ttggaacctt tcaagatatt 18840

atgtgtgtta agagtttgct ttagtcaaat acacaggctt gttttatgct tcagatttgt 18900

taatggagtt cttatttcac gtaatcaaca ctttctaggt gtatgtaatc tcctagattc 18960

tgtggcgtga atcatgtgtt ctttcaaggt cttagtcttg aaaatattta tagtgtagta 19020

gaactatttt atcctccaat gctccttctt ttccttgtat ttccattatc atcactttag 19080

gatttcactt atttatcatt caacatttat taattgcctc tcatattcca ggctttgtgc 19140

tagaagttag ggatataaag acaaataaga tatttcctgc ccttaaagac tagattcgtg 19200

ttgctaagtc ttcattatca agaaaagcat aagtggggaa aagtgcttgc attatggatt 19260

cctcatagtt gctcccctct gcatgtaaaa atcaccattt ccatcataga ttcctagcgg 19320

tctcaggact ttataaagcc caaagtgcct atgtcataat atgaggaaaa atactgagac 19380

ccttccatat atgggaggta tatggatgag acagctcctg acttcacttt tcccagaaat 19440

ctgaaaagca gcagcagtca ttccagagcc cagtttctac tttgaagggc agattattta 19500

ttctttgagc taacctgact gaggaacaat tagtttgctt ttaatttact attttctttt 19560

tcttttcttt tcttttttga gacagagtct cactctgttg cctaggctgg agtgcagtgg 19620

ctcaaacttg gctcactgca agctccgcct cccgggttca cgccattctc ctgcctcagc 19680

ctcccgagta gctgggacta caggcgcctg tcaccacacc cagctaattt tttgtatttt 19740

ttagtagaga cggggtttca tcgtgttagc caggatgatc tcgatctcca gacctcgtga 19800

tccacccacc tcggcctccc aaagtgctgg gattacaggc gtgagccacc gtgcccagcc 19860

actattttct ttctaattgt taatgaatta attttttaaa actgtgctcc tagagcgaag 19920

ggagagctct gtttacagtg taacttttca gagcttcttt aactagattt taagatcaga 19980

attagttgtt gtgaaatctt agggactgta caagattaga aatcctctat agcagcattt 20040

cccaaagcag gcttccagaa cactagcctc atgaggcatt ttgggaaaaa agagtttgct 20100

ggttcagtgt gtatgggcag tgccacaagc cgtaccctcc gttgaagaca ctcattccac 20160

acattactgc ataaaaagct tccaccagcc attcggcaaa cttattgagt gtctgctatt 20220

tcctgggtat tgtgctatat ggtagggtta tagtagtgaa caaagaagaa atgatgcctg 20280

ctctcagctg actttgcagt tggaaagaca catgaaataa ttacgccatt cattagcaga 20340

ttgtgctaga tgcctcactg gaaaaataaa ggacatgatg gaaaactctg tagggtcaga 20400

gaaagggatc attagagaag gttctttgaa gaaatatttt ttgaaatatg aaggataaat 20460

aggaattaac taggtaccaa taggttagga gtagagcttt ccagacagag ggactagttc 20520

ttgggaaggt ctccagacag aaataagtgt ggcttgtctg aggacctctt attcgcctat 20580

taaccttccc tccccagtaa acactcctgg gaacaacaca cattgtagaa ccacgttgtg 20640

gtgctgttca gtatagcaag taattcagca gagataagtt cttggaatct catctttggg 20700

atttagttac taagatacat tcaagtttga gcaaaataag gtctcagagc ttggattcat 20760

tgttctgttc cagcaattag agcagtacct ggcacatagc acaagtgctt gaaaacactg 20820

actgagtagg gtaggtgggt gagtgggtgg gtgggtgggt gggtggatgg atggatggga 20880

ggatgggtgg gtgaatgggt gaacagacaa atggatggat gaatggacag gcacaggagg 20940

acctcaaatg gaccaagtct tcggggccct catttcacaa agttagttta tgggaaggaa 21000

ccttgtgttt ttaaattctg attcttttgt aatgtttgag ttttgagtat tttcaaaagc 21060

ttcagaatct cttttctaat agagaactga tagaaattgg atgtgaggat aaaaccctag 21120

ccttcaaaat gaatggttac atatccaatg caaactactc agtgaagaag tgcatcttct 21180

tactcttcat caaccgtaag ttaaaaagaa ccacatggga aatccactca caggaaacac 21240

ccacagggaa ttttatggga ccatggaaaa atttctgatc cataggtttg attaaacatg 21300

gagaaacctc atggcaaagt ttggttttat tgggaagcat gtataatttt tgtcctaagt 21360

ctgtgctcag ccctcccaca tgtgctcatt gctggttgac tgttggagtc tggttcttac 21420

ctctaagagg aagcccagga gagggcataa agccagcaca ctgtcctcac ctgatggtgt 21480

cagagtcctt acgagtaagc cctagccaga acattgctgg aagagatcaa gggccactgt 21540

ttgaaattgc acagcaggat acggaaaagg ggtaccttag gtataggcat tgtcattaaa 21600

gaaattgcta agatacttga gattttcctg tttaaggaat gagctttatg atacaaagag 21660

cagttctaaa aattagggag ggaattaact aaattaatta ggatatttct caaattcctt 21720

tacagttttt gtctctctgc tgatatagtg tttacatgat tgttatttac taaacaaatg 21780

ctattttgta ttgtgctcct tataacttaa ttgtttatta caaggttttg atggtgacct 21840

accaacaaca agtaatccca aacacagtct gaattttttg ttttccatcc agaaataaga 21900

tgaatctttc catttccgtg ttttcagttt tcatcatttt tatcctatag gttacttatc 21960

tttattttaa agcatttcat aataatttta tagtttttgt tttgtttgct tgtttgctgt 22020

tggaaatgga atattccctc cttccattta gactgctaac cagctgtaaa tgtttcaaaa 22080

tatgcatgtt ttacagcagt tgttcaaagc aatacaggaa cagtaaggac agagccagtc 22140

attttacaac cacattctgt taaactgatg tctattagca gggtttttcc tattttatta 22200

ggaaggactt acacctgata tataacaaag cttgttttaa tcaaggctca gaaaatgttt 22260

ttcattagtt tttttcctaa ccatgaagaa taactgcttt gtaacacaca tgctggctat 22320

aaagcagaca aaaaattcac tgtaggtgct gcctgactgg cctctgtccg tgtttctgtt 22380

ggggctgctt accacagcct ctgcattatc attagctagt gtgttcacaa taccaagttc 22440

ccagtagcaa agaaaggtca agctcttacg catgccattc atttatctac actgtgcagg 22500

cgcactcagg tggcagggac aaagaccact cctttggcgc atctcaagtt cagaattctc 22560

agtagagggg ctccagctgt ccttttgtca ggtgcccatg cctgctccag gcctgtgtgg 22620

tcaggacacg tgttacagag tacagtgaca ttaatgatgg ggccatggat atggtcagca 22680

ctcagaggat gttagtctct tcattgataa agtcacaacc acttttcctg ttggaaataa 22740

aaagatttga cgtatccttg tctacagcaa cacaggacaa cagataatca gcaggtcatc 22800

taaatctgtt cagagagaaa ggagagctgt ttcctgaaaa tacatcttcc cctgatttta 22860

gtcttatttt tttctgcctt tattgctttc taccctcttc aaaccagcct catttcctaa 22920

attaccttga atatgcattg acacttgtac tgcctgaaat tctggaaaac tcagtatggc 22980

tactccaccg tcagaacttc ctgagcaaag ttagttgctc tctcggctca ctgttttgtt 23040

ttgttttgtt ttcctgcctc aggtttattt gtacaaatag cacaggagga ccagccccat 23100

gcagatggta gcccaggggc gggggtaggg ggtcacacca gtccttctgt cctcatgttg 23160

gcagagatat ctactctgaa gcctttgtag gggcctgggc acctttggga gcctgagctg 23220

gaactgaagg tggagctgca gcctgggcct tggtttgatc cttggccttg gcctttggcc 23280

ggcacagcct gagccccttg gcaatacggg cacgagcacg cttcccaagc ttgggatggg 23340

caatgtaggc aagtcgatcg agcttgcggc tgacaccctt tgggatcttg ggcttaacct 23400

ccttgggctt tacgagggcc ttgatagcct cggcacgtgc actcatggcc ttggcattgt 23460

tggcctgcat cttctttagg cccttcttgt tgtgcttctt ggcaaagtgc atgttcctca 23520

ggaacttggg gtccaccccc ttaagagatt cgtatctttg tgatcggggt ttcttgatac 23580

catttctgtg ccattttcgg gactggttgt gtgtggtgtg gttcttggac ttcgccatgt 23640

ctacacctta agccgcggct cccgaagcac ctagaaccgg aagagttggc tcactattta 23700

gcacacacac acgtctataa tagtgctggc cacttggggt tggaattagt ttatttatca 23760

gcatgttgtc tcccagcact tggtgtgtgt gatatgcagt atgtatttgc agaatgaaaa 23820

gtctgagggc tgacatcata tttcccactg tgcccagaaa gagcacagtt agtccacatg 23880

agctaatggg ggcaaaggga agtgaggagg gagaatgtac tgccttatca tgttttctat 23940

tacttggctg aagtaaaaca gtcccaagcc gatagtaaga tagtgggctg gaaagtggcg 24000

acaggtaaag gtgcaccttt cttcctgggg atgtgatgtg catatcacta cagaaatgtc 24060

tttcctgagg tgatttcatg actttgtgtg aatgtacacc tgtgacctca cccctcagga 24120

cagttttgaa ctggttgctt tctttttatt gtttagatcg tctggtagaa tcaacttcct 24180

tgagaaaagc catagaaaca gtgtatgcag cctatttgcc caaaaacaca cacccattcc 24240

tgtacctcag gtaatgtagc accaaactcc tcaaccaaga ctcacaagga acagatgttc 24300

tatcaggctc tcctctttga aagagatgag catgctaata gtacaatcag agtgaatccc 24360

atacaccact ggcaaaagga tgttctgtcc cttcttacag gtacaaggca cagttttcct 24420

tcatttattc actaatttag cagaacctca ctaagagcct cctatatgcc aggctctgcg 24480

ttagcaataa aaggaatgcc atgcctcacc ccatcaggag gtgctgatag cttgtaggcg 24540

gagtggaaac agatgtgctc tagaggctct aaatattact tctgctgggg tcagttggga 24600

agccacaaca gctactgttc atcttccata aaagacaatc agccgggcac agtggctcac 24660

acctgtaaat cccagcactt tgggaggctg aggtgggtgg atcacaaggt caggtgtttg 24720

agaccagcct ggccaacgtg gcgaaaccct gtctctacta aaaatacaaa aattagccag 24780

gcatggtggc gggcgcctgt agtcccagct actcgggagg ctgaggcagg agaatcgctt 24840

gaacctagga ggtggaggtt gcagtgagct gagactgtac cactgcactc cagcctgggc 24900

gacagagcga gactccatct caaaaaaaaa aaaaaaaaga ctgggttctg ttctgtggag 24960

gttcttgtct taacatatcc actgttgatt gcccagatgt tgatgtaatt aatttagcag 25020

tcgtaaatag tttagcactt gcattaaata gaccaaaccc catagtaggt atttgaaata 25080

cagaataaat gtgaggtacc cctgctctaa aggagtttat agtccagagc tgacttatgg 25140

aggatttctt tctattattt ctgggtctgc tactaatttg tctatttcat atcctaatta 25200

tccttgtttt cattttgatt gaaaggggga gagcatagaa attgtggtaa aaggtagttt 25260

tattttttat ttgagatgga gtcttgctct gtcacccagg ctggagtgca gtggcacaat 25320

ctcatctcat tgcaacctcc acctcccgcg ttcaagcaat tctcctgcct cagcctcccg 25380

agtagctggg attacaggtg tgcaccacca cgcccagcta atttttgtat ttttagtaga 25440

gatggatttt accatgttgg ccagtctggt cttgaactcc cgacctcagg tgatcctctc 25500

actttggcct cccaaagtgt taggattaca ggcctcagcc actgcaccca gcctaaagtt 25560

agttttagat taagtgtttt catgttttcc cttgcaaagt aataaactgg tcaagttatc 25620

accttgttcc atctccatat taatcagggt ccaaacagga gatagaaacc atgcaacaat 25680

ttgagtagtt gaataaagaa ttataaacag gagattagag taatagggga ttagatagta 25740

agaggtgaag agataggaac agcagatata aagaacaacc atttcctcct atggctgaga 25800

taccatcccc tcaccacact cccccaccta ctcactgaga tgcagacctt attgaagaga 25860

atgtaactgg cttgctgcga ggtaaagtca atgaggcgct ccccagtacc actctgaggg 25920

gatgctgggg aaaactgccc atgagaagag ggcacatgct gctggccact tgtgctaaag 25980

aacttgaagt ctgataggag tgcaccctaa cctggcatag aaaccctttc ttcctgctga 26040

gtccctctag caccttatac tggcaaagct ttacattgca aacctccatt atcacagagc 26100

aagcaatgaa agatggactc agagctgagg cgataaattg atagctagca tagcctctaa 26160

actgactttt atgactacat tttatggata gaaagtgttc ttatatatat tgtttcttta 26220

cataataggg gacttattca tggctgcaga tgagaaaaca gatcctaaga agttaagtga 26280

cttgcccaag gtcacacaaa gaattccact agttctaaaa tgacagtaat tacagttaac 26340

atacattgta tgtggcagat acatataaag cacatggcat taattttttt ttttgagatg 26400

gagtcttgct ctgtcgccaa gctggagtgc agtggcacga tctcggctta ctgcaacctc 26460

tgactccctg gttgaaggga ttctcctccc tcagcctccc gagtacctgg gattacaggc 26520

atgcgccacc acgcccagct aatttttgta tttttagtag agacgtggtt tcatcatgtt 26580

ggccaggatg gtctcgatct cctgaccttg tgatccaccc gcctcggcct ccccaaatgc 26640

tgggattaca ggcgtgagcc accacgcccg gccacttggc atgaatttaa ttcccgccat 26700

aaacctgtga gataggtaat tctgttatat ccactttaca aatgaagaga ctgaggcaaa 26760

gaaagatgat gtaacttacg caaagctaca cagctcttaa gtagcagtgc caatatttga 26820

acacactcag actcgatcct gaggttttga ccactgtgtc atctggcctc aaatcttctg 26880

gccaccacat acaccatatg tgggcttttt ctccccctcc cactatctaa ggtaattgtt 26940

ctctcttatt ttcctgacag tttagaaatc agtccccaga atgtggatgt taatgtgcac 27000

cccacaaagc atgaagttca cttcctgcac gaggagagca tcctggagcg ggtgcagcag 27060

cacatcgaga gcaagctcct gggctccaat tcctccagga tgtacttcac ccaggtcagg 27120

gcgcttctca tccagctact tctctggggc ctttgaaatg tgcccggcca gacgtgagag 27180

cccagatttt tgcctgttat ttaggaactt tctttgcaag tattacctgg atagttttaa 27240

cattttcttc tttgaaccta gttataaagg tattgtgctg ttgttcctag gcttagagtc 27300

ataaggcctg agctcacttc ctcactttgc ctccatctgg aaccttagac caacttccta 27360

ggaaaacgag ctgtctgaaa acagaatagg gtgcctcttc aatgtgctct tcactggaga 27420

tgttcaggag gaggctactc ccacctacac agggtgcagt ggagggtctg ggccccaggg 27480

aggcagcagg aagagtggaa agagcggagg ctctactgtt ggacagacct gggttaccag 27540

ccgtgtgact agccttccct ggcctccata tccccctcag taatgaagga atgtgtcatc 27600

cccaaatcca gggacagtta caagcagtca gtgaacagaa agtgtctggt acaggttcta 27660

agtgcttatt attctaagtc acttcactta cctgagttct cagttttcct atctataaga 27720

taagcaggtt ggataaaatg ttctccaata tactcctggt cctgagatga tgtgattgtg 27780

ggcagccctt taatcatggt gaagatgttc atcataagca cactgaaact acaaaatagg 27840

aatataaata ttttctccat taaattatgc tggatcctag aagcaaaaac tggaactgtg 27900

aaaccctact tcacagaaaa cttaaaattc ccaagcagat gaatgcttct cggaaggaca 27960

ctgacagtta cctacctgga aagaatctag atggaggtgg catgggcact aagcggtgag 28020

attaaaccca gttagggcag ccccaccagc cttggaaccc acacatctgg agattgttga 28080

tgcagagaga aaggttccta ctggtgagac ctgaaaggga tatgtggcag gtgggaggaa 28140

gaagttctgt ctggaaacca acccttgttc ctccgttatt gattgactcc tggtaccaac 28200

atgagcccta ggtcttatag aggccataag tccctatgcc ttatagtgcc catggatgag 28260

atgaggccac acatgccccc agtgggttaa catgtctagc gtgggtaagg ctcttggagc 28320

actatgatac acaggaaatg cccagtaact cttagttggt ttgatatctg ttcccattgc 28380

tcacttaagc tcagtgcccc tttactgatc cttttattct gcctccctct gcacatgtgc 28440

attgagactc ctatctgaga cacacactgt gttgggtgcc cagggatgca gcatagatgt 28500

tgctgccttc cacagaagcg ctcatggtct gctagagaat atatcccatg ggagagaaaa 28560

acagactcgg gagaatatag caggggccct tgtcctggac tttggcagtt aggaaaggga 28620

gggaagagac atggaggctg ggacccaaag gctaaatagg aatttgctgg gccaaagggg 28680

agggggaatg aaaagagtgt ttctggcaga ggaaatggca aggataaagg cctggaggcg 28740

caagagaata tgtgtttgag gatctgaaag ttgagtgcag tgggtccagt gttctctacc 28800

ctggctgcca ttagaattac ctgggaaact tttagaaaat tccagtgtct gggccctccc 28860

taaaacaata aatcattctt gggtggtggg gtctgggcat caggattgtt taaaaccctc 28920

cccaggtact gtcatgtgca gctggggtta agctgtgctg gggtctgagt atggatctgt 28980

tagggcaagt ggcggtgatg gagttgaggc tgcagaattc aggccaaata gagaggtttt 29040

catcaggata ttaaagagtt tagatttcaa tttggtggga atggatggga tcttatttgc 29100

attttatgaa gagctccctg gttgcaatat cagaatggat tggagaggag caagatggaa 29160

gcctacagtg atttgggaga agtggtgagg gacttgagac acaggaagta gccccattca 29220

ctaatagttg agtatgtaga tttgctagga cctggaaatg gtttggctgg tggggagtgg 29280

gaagaaaggc ccaaagtgtg aaatgaagat ggagagcaca ttgcctagcc cagagtgatt 29340

gccatttgct ctgtcccagt tgaggtccaa ggggttggcc agagatcatg gagtctgtgg 29400

ctccatgggg agaagaacct ctcagcatgc ctccttgtct tatcctgggt tagtcagatt 29460

cattttgtta gattacattt tttttccagt ggaactctgc ttaagtcctg accagtatgt 29520

tttcagaagg atcagagggc ctgcccttgt ccattggtgc atgacaccag cttggtgggt 29580

tccttgctgc tccctgtttt catagggtta tcagaatacc ttctctccct gccaccagca 29640

ggtcacactg gctcctgact ttttggccca tggaaccacc atctttctgc ttcttagatt 29700

gtgccttgta ctccactgat catggccagt acatcagaag ccctggtttg cagtgaatgc 29760

atttgatatg gaaatcagga accctgggga taccactcat catatttggt tgctgtgttt 29820

ttcctccaat ctttcaccat aacaacaatc aactcaaaag atttctataa ccacttgtgt 29880

gggggtttct ccccacacac taaacaagca gtcagttcca gagtggacag cagctggtct 29940

cctccaattt aattccaaca ctgtctactt ggagatagca ttagatccca caggttgagg 30000

gtgcagtccc ctagactgcc cccagtctcc tgcttcagac accagtcaca agtccaggac 30060

tctagaagtt ctgaccagtt tcaagttggg gttcccacaa ccccccactt tatttttgat 30120

taatttgctg gagtggctca tagaactcag ggaaacactt agttttctgg acttattaca 30180

aagatttaaa aagataccaa taaatagcca aataaagaga tatacagggc tagatctgga 30240

agggtctgga gcgcaggagc ttctgtcccc atctacttgg ctcccagcag atggatgagt 30300

tcttattcat tttcttgtca gcttcgacat gttcagctct ctggaagccc gcaaactctt 30360

gtcttcttgg gccttttatg gagacgtcgt taggcaggca tgattgaaac atggacaact 30420

gtgtcgaaat atgattggac ataaaggggt ctaaactcag tgaggcctgt ttgttcagat 30480

tcttcttggc ctctctgtgg ccattctttc ctccaggata tggggcagga cccctatgga 30540

atgagggtct tatgacccac aatcaaatta gagtcctgcc ttgggcaagt gaaaggaaag 30600

caggagaagg taagagaaat tctgttgcct aagaccttct gaggcctaaa gcaccccaac 30660

attataacag aagacgataa caggactatg ggagttatga gctgggaacc ttggacaaaa 30720

atatatacat attaaataaa tattaagtgt atatatatac ttacgtatat taagtgtatg 30780

tgtgtgtgtg tatatatata tttttttaat ttactggttg gttttgggaa gcagaaatta 30840

ccataactac tcttaaaaat cttttaagtc tctttgaagt tagaaaagtc actgtacctt 30900

tttgtttcca ttggccctgt acttcttatt ataccccagc aggaggagca taatgtgttg 30960

ttatatcatt ctggtgataa gattcataag tgggttcagc tggtgacagc ctgattccct 31020

cattgtaaac ttatccatca acatgtagct taatcgtttc accttttgtg atgaccatta 31080

cctgaatcag ttatttcatt agattgcaag attatgcttt tctgatttta tcatttcttc 31140

tgtattgact gtaattcttt ggtatagaag aactttccct tgttaatagc tatttggttg 31200

tcctgaagta cagttcttac tagaaagtaa gaccaaatgc tgaattatat ccctctagct 31260

atcaattttc gaaggaatga atggtgtcct agtaatttcc agtggtgttt aattacgttt 31320

tcccttctct ttctccttct cttattccct ccctctccat ctcctccctc ctcactttca 31380

gttttttgct ctttcagtat tttgtcatag ctgttaacag agcaacatat tttaatcaat 31440

tgtagtcatt tttctttttg gtgctcaaat tatcccgtct tagtcccatg gaagcaagcc 31500

cttggagcta gggccctcta ccttttgatg gatttccatt tgtcttgata atttccttgt 31560

ttctgacaag acaagatgtt gcaggcacat tttatacttt cccagcccaa accctggaat 31620

aggccttttc tccgaggagc tctagttcat tttagtggga aatggtattt agagactata 31680

atctgggatc tgggagtcct cattgctact gagtagtcat tacttttagg cttttccagt 31740

ggtcagagct aggaaatatg tatatttaaa aatggacagt tgaatggttg ttgccaggag 31800

ctgggaggaa ggggaagtga gaaattgttt aatgggcaca gagtttcagt ttggggaaga 31860

tgaaaaagtt ctagagatag ctggtggtga tggttgcgca acaatgtaaa tgccactgag 31920

ctctcattta aaaatggtta aaatggtaaa ttttatatat attttaccac aataaaaaaa 31980

agtcttcttc tgggagcacc cccccaagac aaaaatatga aaattttaca ctgatacttc 32040

catttcaaga taattttaag attataagga ttttgcttaa ttcttgaatt ttatacctgt 32100

aaacctttta tacttcaaat ttcgggcaga attgcttcta taacaatgat aattatacct 32160

catactagct tctttcttag tactgctcca tttggggacc tgtatatcta tacttcttat 32220

tctgagtctc tccactatat atatatatat atatatatat tttttttttt tttttttttt 32280

aatacagact ttgctaccag gacttgctgg cccctctggg gagatggtta aatccacaac 32340

aagtctgacc tcgtcttcta cttctggaag tagtgataag gtctatgccc accagatgga 32400

tcgtacagat tcccgggaac agaagcttga tgcatttctg cagcctctga gcaaacccct 32460

gtccagtcag ccccaggcca ttgtcacaga ggataagaca gatatttcta gtggcagggc 32520

taggcagcaa gatgaggaga tgcttgaact cccagcccct gctgaagtgg ctgccaaaaa 32580

tcagagcttg gagggggata caacaaaggg gacttcagaa atgtcagaga agagaggacc 32640

tacttccagc aaccccaggt atggcctttt gggaaaagta cagcctacct cctttattct 32700

gtaataaaac tgccttctaa ctttggcttt tcatgaatca cttgcatctt ctctctgcct 32760

gacttgccct ctggaatggt gctggaatgg tcctgtggcc ttgtccactg tctgcctttg 32820

accataactt gaaagtcacc caccatagtg tcctttgaaa taacttaaat gtccacagtt 32880

ccaagcatga gttaaaaaca cttcagaatg tagagtagtt gttcaattga ataaacacac 32940

acaccagaaa aaaaagcaag tttatctttt atttttagta aagaattttg atagagcctc 33000

aacaccagaa atggctagag agagaagcct aacatatctg gaggattatt tttcatccta 33060

cttaaagctg ctttcacttt tttcaggaaa aaacacacgt tctgaatcta atttataaaa 33120

ctccctggcc gggtgctgtg gctcacacct ataatcccag cactttggga ggctgaggca 33180

ggtggatcac ctgaaatcaa gagttcaaga ccagcctgac caacatggtg aaaccccatc 33240

tctactaaaa atacaaaatt agccagacgt ggtggcgcat gcctgtaatc cccgctactc 33300

gggaggctga gacaggagaa tgacttgaac ccgggaggcg gaggttgcag tgagccgaga 33360

tcgcgccatt gcactccagc ctgggcaaca agagcgaaac tccgtctcaa aacaaacgaa 33420

caaacaaaaa ccccaaaaat ccctgaagta cgtgagctag tggtgaaaga aagctggaga 33480

aaaggagcag gaataataat aataataata ataataataa agattgtcat ttaattttga 33540

gtacttccag tgtacacttt gcaggtactc taagacatta cctcactgaa atctctaagg 33600

tagatattct ttatttaaag tgtacttgta tgaaacctgg agctcaaggt gaaggaattt 33660

gcccaaggct gcacttgcac tatcgtggca ctaattagcc gtgtgaactg ggacacgtta 33720

cttcagtttg ctcatttctg agtcagccta gcaagatgac ttctaagaat tttttccagc 33780

cgggtacatt ggcctgtaat cccagcactt cgagaggcca aggtggaagg gtcacttgag 33840

tctaggagtt acacacaaca cacacacaca cacacacaca cacactagcc aggcatggtg 33900

gcaaatgcct gtagtctcag ctactccgga ggctcaggtg gaaggatcac ttgagcccag 33960

gaggttgggg ctgcagtgag ccatgatcac gccactgcac tccagcctgg ctgacagagt 34020

gagatcctct gtctcaaaaa aagaaaaaaa aaaagatttt tttccaggga ataataaagg 34080

aagctaatat ttatggagca tctacggtgt gccaaatact ttgcatacgt tatctcattt 34140

aatgctctta tccctgcagg gaaagtatta acatttgttt atcacttgca gaactaagtg 34200

atatttacca cagagtagac aaatattttc aagcccaaaa tcaagtggta tcacttttct 34260

gctgagaatg tttcagtggt ttcctttgct cttgggataa aacttaaatc cctcacccta 34320

cccttgctcc aaccctccac tttccttctc ccatgtggtg atttggccat acagctcttg 34380

tggctgatct gaactgactg agctttttac ccttttgctc ttgctgttct tacagcctgg 34440

gaaccccctg gttacctctt ggcttggtgt ggtggcttac atctgtaatc ccagcactct 34500

gggaggccaa ggcggacgga tcacctgagg ttgggagtat gagaccagca agtcacctct 34560

tgccagtggc ctttgtccat tgagtctgaa gttctttctc ctctcatttc cccatcattc 34620

tattatgcta ccttgtttta ttttcttcat tgtgtttatt gatacttaaa atgatctctt 34680

ttctgttgct gtttgactct cccactagaa agtaagcatt gtagatcggg cactgtggct 34740

cacacctgta atcccagcac tttgtggggc agaggcgggt ggatcacctg aggtcaggag 34800

ttcgagacca gcctggccaa cacggtgaaa ccccatctct actaaaaata caaaaaatag 34860

ctgggtatgg tggctcgtac ctgtaatccc agctactcag gaggctgaga catgagactc 34920

acttgaacct gggaggcaga ggctgcagtg agctgagatc acaccacagc actccagcct 34980

ggaagacata gtgagactct ctctcaaaaa aaaaaaaaaa aaaaaaggaa gtaagcattg 35040

tgagggcagg taccttctct gttttgttca ttgctggatg tagttagtat acagcagtat 35100

ctgatggatg gatagatgga ggaatgaatg aatgagactt cacaaattca gctcacttgc 35160

tcaaggccct gcagctctac gggatgaagc tatactccag agtcctgcta cattggctgt 35220

gtggccagct gctgggatct gagggttgtc agataagcag tctaccagag aacagactga 35280

tcttgttggc cttctgccag cacaggggtt cattcacagc tctgtagaac cagcacagag 35340

aagttgcttg ctcctccaaa atgcaaccca caaaatttgg ctaagtttaa aaacaagaat 35400

aataatgatc tgcacttcct tttcttcatt gcagaaagag acatcgggaa gattctgatg 35460

tggaaatggt ggaagatgat tcccgaaagg aaatgactgc agcttgtacc ccccggagaa 35520

ggatcattaa cctcactagt gttttgagtc tccaggaaga aattaatgag cagggacatg 35580

agggtacgta aacgctgtgg cctgcctggg atgcataggg cctcaactgc caaggttttg 35640

gaaatggaga aagcagtcat gttgtcagag tggccactac agttttgctg ggcaagctcc 35700

tcttccttta ctaacccaca atagcatcag cttaaagaca atttttgatt gggagaaaag 35760

ggagaaaaat aatctctgtt tattttaatt agcattaatt ggtattcttg ttaaaccata 35820

ggagtcagag taaatcagcc atttcaccaa ttttcagttt gtttctgtct tagctaacag 35880

cagtgtaatg gtcagcaaaa ttcttatctt gtgtactgaa tggcatgtcc tgttgctgaa 35940

agtgcacagg cttgggaggt agccatgagc tcaaatcctg gcactaccac ctctcttgtg 36000

tgaccttaga ctcctgacct ttctatgcct cagttctttc ttacctataa aatgaaatta 36060

attttaccct taaagatcat cgtgctgatt agagataaaa tataaataat aacacttgtt 36120

acagagcaag gagttgacac ttttatattc tgaagacaaa gtggtaaatc attatcatct 36180

atgtcagaaa tagcttttga gaatacctga gtatagaact atcttgatcc ctgttacttc 36240

aaaactaaaa taatggtttt aggaattaaa aggtgaggct agtcacctcc aagggatgaa 36300

ctgactcagg gattgaggta tataacagtg aactggtcca aacaacagtc ctgaccccac 36360

tttatgagtg agactatgag taatggtcta agtgtagaca tcattgtcca gggctccagt 36420

aggcagctct gtacttgaga atttagcagt gacccttcta tttttcatct attatacctt 36480

tttttttttt tttttttgac acagggtctc actttgtcac ccagctggag tgtggtggtg 36540

caatcatggc ccactgcagc ctcaacctcc ctgggcttag gtgatcctcc cacctcagct 36600

tcctgagtag ctgtaattac aggcatgtgc catcatgccc agctaatttt tcttttctta 36660

gaggtggggt tttgccatgt ttcccaggct ggtcttgaac tcctaggctc tcacctctgt 36720

cttccaaagt gctgggatta caggtgtgag ccaccacacc tggcctatta cacatttctt 36780

aattaaagta gtcaaatttg aaaactgtta caaagtgtat cttaaaatac gacgatctgg 36840

tttaattttt aaaagatatg agtagccaag gagcaattct gtgcctttcc cactagtccc 36900

taacctttta aagcagctgc ttcttggctg ggctcagtgg ttcacccctg taatcccagc 36960

actttgggag gccaaggcgg gtggatcatg agtcgagatc atcctggcta acacagtgaa 37020

accctgtctc tactaaaaat agaaaaaaat agctgggcgg ggtggcggat gcctatagtc 37080

ccagctactc gggaggctga ggcaggagaa tggcatgaac acgggaggca gaggttgcag 37140

tgagtcgaga ttgtggcact gcactccagc ctgggcgaca gagcgagact ccatctcaaa 37200

aggaaaaaaa aaaaaaaaac ccatctgctt ttgattcagt ggcttcttta attttgtcgg 37260

tctcagtcac catttgtcta agcaaattca ggcaggcttc accttgcctt tctacatttg 37320

ttcccttttc ttagcatttt gggcctttgt ttacacgtgg gaaaagaccc acaggtcgtc 37380

tctccctttg ggcaggatac aggcttcctg tgactgaggt tttgctagct gtagaagtgg 37440

ctgccaattg gcttctggtt tttatttcca tgatttgctc cagtggctct tcccttccat 37500

cattgttagc tttcaagcta ggaactttta aaatgctttt aaataaaagt gagctgttac 37560

ttgatgcatt tagcagtctt cctcacagtg gttttgatag acagactccc tcagtttgga 37620

atttatgagt tttctttaag ggtttgtctc cctcatgtat agcaggctgt tgaaagttac 37680

aatgtcaata actttctgaa tagtatcaaa ctgttttcag tgcagtgtat taacaaaact 37740

aacctgcctc aagtttggtc agctttggag tcttactgag gctaaaatga taaatctaaa 37800

tgatttaaaa ttgtgtattc ctacacagta tctcacttaa ttatgtaata gtcttgtgag 37860

tgaggcagag cagatgccgt tttctctatt ttaaagatga ggaaaatgga atggaaaatg 37920

gaaaggacag actaattgca acatcctcgc aatcaaaaac aggcccaggt tcatgccttg 37980

ttggcagtgg gttgctactg gctgtggcct tcatgcagga aggctagatg cataaccagg 38040

tcaacagccc gtgcaggaca agcacgccat gtaattctga ttccatcgac tgaggctggt 38100

gttttcaaac gtgctggtgt agggtcttac agacagagtc atctgtgcta tggggaatgg 38160

aatgtgctct tgctttggag ccagaactcc tctgaagctc ccaccaccta caccattcag 38220

aggccagaca gaaatttgtt caccattttg ggcatgattt tcgtgctttt gtaaaatgtg 38280

cttcactgca gcccttactg ggctgtggtg atgaacactt aagatactgt gtgtgtgctt 38340

tataatctgt aaggcactgt tcaaggggag ggacctctgc catgagcccc tacccactgg 38400

tatctggttg acatccaaag ccccagcctg ggagaagctg attctctagt tgaatgctgt 38460

atagggattt gactgaggct cagatttggt gaggaagacc actaacctta acagaccaac 38520

aggctggcta ctccctgatg aagttcccca ggccatgaaa gaagtaagag atacattcct 38580

tgtaacagct ttcttagttg cacctgtatg attatttgat cagtgtgttg tctgtgcagg 38640

gatcatgtct gtggagctca ccacctcgtc ctcggtgctg agcagagtgc ctggcatgtg 38700

tactcagtag atatttgcta agggagcgag tcagtgattg agaggagcag cctgggaggt 38760

aaagccctag aatctttatt ttaaagggat atcaaagttg aacattcagt tagacagttc 38820

tcttgagtcc agggatttac ccatccatgg tggacacact ttcagttaaa aagtaaggtt 38880

aattttgaca ggttgcagta tccaggcaag cattctatgg aataaggctc atctcaggga 38940

ttagtaatga ctgaattaac ttactgctag tcccataatt ttgacgttaa ttaatggggt 39000

taagaaatgt cataagctat ttggtaccat ttaaagtgaa aataccctta acgttttttg 39060

cctccagata tccacactta atttcatttt cttgctcttt ggtgaacagt cctgggtctg 39120

aatgtatata tccatggttt gtcactaggt gacaggtttt tttggaacaa gaaatcagtt 39180

cagtgaacat ttgtcaagta tcttctctgt aaaaagtgta atgtgccaag ctcagaagta 39240

ggaagtgaaa tggataaact atgacccctg ccttaaagaa caccatggtg ttgtatggga 39300

attgtttagg tagaatgaaa gaaatcctct aatagagata tgaggccagt tcagcagaaa 39360

gccagggtga gatctcctga gagggatgga agggtgtctt gatcatctct ggtagcagca 39420

aaggcactgg catacagtgg ccactggaag acaaccagca ggggatgggg gcgtttaccc 39480

ttgcaagtga gcattaggaa ctagaggact gattgccctt tcttcagctt tggtttccct 39540

tgctgcagaa aaagatgctg agactcatgg cctcggttat gaactcagat atgtggtttg 39600

gctttgaagc acagatggat tttgtccgat tttggcaggg aaatgcctac agacagcact 39660

atgggcatat ttaggttagg gacgaaatgc aagttgatta agtcctgata agaggctgtg 39720

aagaggtcca agaagcctca caatgcccaa tgaagaaaag ccctgtgctt ggtgctgccg 39780

cctcccttcc ccgtcctgct ggcagggctg cgcttcagta gctctggatg cgtcagagca 39840

gtccatgaac attctgtgtg gaaaatctct gactgtttta gtggattaca ctgctctccc 39900

tttcctccag tgcctcgtta ttcagtatta tttgatgttc tccagctttt aaaataatca 39960

ttttccgcct acgcagaaca tcctgtagag acgttgaggt tccagtggga acagagagga 40020

atacttattc taaaaatgaa gaaaataaac ctttttttat ggagtgggtg atagtattgc 40080

agaacttcta taatagtatg agaattcact tgtggtgcca aagcttaaaa aaaaagtata 40140

gtaaaaacat aatgtatagg cttattgctg tgctatgacc catgccccgt tttctccaac 40200

ctctcttgtc ctcactcttc ctttttgctg gtgatatttt tacttatttc atgaaaaaaa 40260

agataacata tacacacaca tagatatatg cacaagtata tgtatatatg tgtgcataac 40320

acacataaac atatacattg gtaaatttaa aaacatattt atgaaatata tgtagcatct 40380

acagaaaaac atgaacactt gtgagaatag catctgccta aaaaatagga catcaccatc 40440

acctttgagg ctcttatgtg ctgctcccct gtgccattcc cttcccttct tccttagagg 40500

tgattactat tctaaatttt gggattatta tttccttttt ttattatagt gttttaatta 40560

cagttttatt acctgtattt gtattcctaa aaatttgttt acttttgcaa gctttagatt 40620

ttataaaagt agaattacac tgtaagttta atttttctgt aatttatata tagctacaca 40680

tatattccta agattcatcc atcttgttac atatagctct ggtttacctt ttctgtataa 40740

tatagattct gcttcgtgaa tttacagttc attcattctt ctgttaaagg acagttggag 40800

gactcatatg gcctcagtct ctgtgtcccc acatgccacc ctgcttccca gcctcatatg 40860

agttgattgg tggcctggca tactggatga gaagctctag gtcatatatt taagagagtt 40920

attgctgggt cataaaatga cagattgttt tccagagggg tcatattgat ttaaattatc 40980

accaacaatt atattgtcag atttttacca gtttggtgat tgtgaaacag tgtctgatgg 41040

tagtttttat ttgcattttc ttggttgaaa taaagttgtg tatttcagcc aggtgcgttg 41100

gctcatgcct ataatcccag cactttagga ggccaaggtg ggcagatcac ttgaggccag 41160

gagttcaaga ccagcccagc caacgtggca aaaccccatc tctactaaaa atacaaaaat 41220

tagatgggta tggtgtcaca tgcctgtaat cccagctact caggaggctg aggcacaaga 41280

cttacttgaa cccgggagat agatgttgca gtgagccgag attgtaccac tgcactccag 41340

cctgggcaac agagcaataa ctaaataaat aagtaatcaa ttaataaata agtatatttc 41400

ctcagctgtt aagtacctgt tcaagttttt tacccaatat ttgatgggct ctttttttgt 41460

cttttctaat taatttttgg agtttttgat atattctaga tagtaatgag ttacatgaaa 41520

atatccctag tttagggatc ctctagtaac tttttaaaat gaatacttgt tttaggaaca 41580

gaaattctta gatttaatgt aggcagattt tatcaattgt tctttacaga ttggctttgt 41640

agcttaagaa atccttccta actttgcaat aattaaagat atgctcttag attgtttcct 41700

aaaagactga tacttaagcc tctagcccac ctggaattga ttttcacaga tactacattt 41760

tttactagtt atagattggc cccttcgtag agcaagtccg atagctgcca tttttatggc 41820

agcatgtgct cacttagtgt ctctgtcaaa ttttggtaat tctcacaata tttccaactt 41880

tttcattatt actatatctg ttatggtgat ctgtgatcac tgatctttgg cattactatt 41940

gtaattgttt ggggcaccat taagctcact gtcttatgtg ggcataaacc atgcccacat 42000

aagacagtga gcttaattaa taaatgtgtg tgctcagacc cctccactga ctgggtgttc 42060

acatgtcttc cttactctcc tcaggcctcc ttattccttg agacgcaata atatggaaac 42120

taggcaaatt aataacccca cagcgtccac aagtgtttaa gtgaaaggaa gaggctgggc 42180

gcaatggctc acatttgagc tcacaaatga gcccatgctc atttgccatt ccaaaaatcc 42240

cagggccctt aagaattatg ctaactctac tctgcctctg ctctataaat ggaacaacaa 42300

agcctagatg acagcacatc tttttagaac atgatttact gaatatttta agcccattgt 42360

ggagacctac tgctcagaaa aaaagattcc tttcaaaagc ctgtaatccc agcactttgg 42420

gaggccaatg caggtcgatc acctgaggtc aagagttcga gaccagcctg gccaacatgg 42480

tgaaacacgt ctttattaaa aatacaaaaa ttagccaggc ctggtggtag atgcctgtag 42540

tcctggctat tcaggaggct gaggcatgag aatcacctga acccaggagg tggaggttgc 42600

agtgagccga tatcatgcca ttgcactcca gcctgggcac cagagtgaga ctacgtctca 42660

aaaacaaaac aaaaaaaaaa aactgaaagg aagagcttaa tgagaaaggc atattaaaag 42720

ccagtatagg ttgaaagcta ggcctcttgt gcaagttagc caagttatac atgaatggta 42780

aagcaaaaca gctttattgc tgtaataaag aaagttttag tggtctggat agaagatcaa 42840

atcagtcaca gcattccctt aagccaaagc ctaatccagg gtaaagccct aacttgcttc 42900

aattctttga agactgagag gggtgaggaa gctacagaag aaaacttgga agccagcaga 42960

gattgatgag gtttaaggga agaagccaca agtgctgatg tagaagctgt agcaagttat 43020

ccaaaagatc taattgatga aggtggctta cactaaacaa cagattttca atgtagacaa 43080

aacaatcttc tattagaagg tgtcatctat gacttacata gttaaagagg aaaagtcact 43140

gcctggcttc aaagcttcaa aagacaggtt gactctaata ggtactaatg catctggtga 43200

ctttaagttg aagccagtgc tcatttgcta ttccaaaaat cccagggccc ttaagaatta 43260

tgctaactct actctgcctg tgctctataa atggaacaac aaagcctaga tgacagcatc 43320

tttttagaac atgatttact gaatatttta agcccattgt tgagacctac tgttcagaaa 43380

aaaagattcc tttcaaaata ttactgctca ttaacaatgt acctggccac cctagatctg 43440

taatggagat atataaggac atgaacacta acacagcatc cattctgcaa cccatggatc 43500

aaggagtgat actgactttc aagtcttatt taagaaatac atttcatagg gctctagctg 43560

ccatagatag tgattcttct gatggatctg agccaagtaa attgaaaacc tctggaaaga 43620

attcatcatt ttagatgtcc tgagaaacat tcgagattcc tgggaagaag tcaaaatatc 43680

aacattaaca ggagtttgga agaaattgca tccagccctc atggataact ttgaggggtt 43740

caagacttca gtggaggaag tagctgcaga tgtggtggaa atcacaagaa aattagaatt 43800

agaagtggag cctgaggata tgactgaatt gctgcaatcc catgataaaa tttgaacaga 43860

tgaggagttg cttcttatgg atgagcatag aaagtagttt cttgagaaag aacttaattc 43920

tggtgaagat gctgttaata ttgttgaaat ggcaacaaag gatttagaat attatataaa 43980

cttggtaaag cagcagcagg gtttgagtgg attgacacta gttttggaag aatttctact 44040

gtgagtaaaa tgctatcaaa caacatgaca agctacagag aaatctttca tgaaaggaaa 44100

aatcaattga tgcagcaaac ttcactgttg tcttatttca agaaattgca acagcttcct 44160

cagccttcag caatcaccac cctgatcagt caacagccat catcagggct agatcctcca 44220

ccagcaaaaa gataacaatt cgccgacagc tcagatgact gttaccattt tttagcaaaa 44280

acctttttaa ttttatttat ttatttattg gagacagaga ttcactctgt cgcccaggct 44340

ggagtgcagt ggcacaatct cagctcactg caaccaccac ctcccaggtt caagtgactc 44400

ttgtgcctca gcctcccaag tagctgggat tataagcatg tgccaccacg cctggccaat 44460

ttttgtattt ttagtagagg caggatttta ctatgttggc caggcttgtc tcgaactcat 44520

gatctctggt gatctgccca cctcgggttc ccaaagtgct ggtattattg gcatgagcca 44580

ctgcgcccgg ccagcaaaaa agtgttttta aattaagcta cctacgttga ttttagacat 44640

aatgctattt gcacacttaa tagattacag tgtggtgtaa acataagttt tatatgcact 44700

gaaaaacaaa aaatttcaca tgacttgctt tattgtgata ttgactttat tcctgtagtc 44760

tggaactgaa cctgcaatat ctcagaggta tgcctgtatc tacttgttct gtgatacttg 44820

ttattgtcag tttgtttgga tttaccacat attatttgat cataattctt tcctgtagat 44880

gttttatggt ctgcctaaac ctttagtggg gcctttgatg gcttagtcct ttcaggctta 44940

agacaataga agtttatttc tcagagttct aaaagctggg aagtccaaga tcaaggcacc 45000

gacagattta gtgtctagtg aaggcccgct tcctcataca tggcaccttc tagctgtatc 45060

cttacatagt ggaagggaat agctagctct ctggagtttc tttcataagg gctaatccca 45120

ctaatcccaa ttatgaggga agacctaatc acctcccaaa ggccccacct cctaatagta 45180

tcaccttggg ggttaggatt taacatatga attttgtggg gacacagaca ttcaaacaat 45240

agccatggca aacttttttg ctttgtctaa ttcactctta ttttgaaaag tatttgtgtt 45300

gggtttaaaa ctccagattg gtaattattt tttcttagtg cattgaaggt aatagtgtat 45360

cattttctga tttctactct tgctcttgaa aattcagcta tcaatcttaa aatttattac 45420

ctgttgaaaa tccagctacc agtcttatat tttatttact tagtgggtaa tctctcttct 45480

gagtaccttt aagatctcct ttcagaaata ccatgtagta accctgtgtg tcacgtgtgg 45540

attttgttgg gcttgctagc tgagacttga cagttttcat cacttctggg atattctcag 45600

gtattttgtc ttcaaagtct tcagatattg tcctcttcct gccctctctc cgactccttc 45660

tggaacatga gttatgtatt tattatctcc catgtgcata agttatcttt acatattttc 45720

aatttcttta tctttctgtg ctacattctg gataattttg ttgatctacc ttccagttaa 45780

ttagcttgtt aactttgtca aatctctttt taagtctatc ttgatttttc ttttcaatta 45840

ttgtattttt catttttaaa aactttatgt gctcttttgg aaatcttgat cccaggagat 45900

agtggatagt gtcctgctgc ttactcatgg ttttaatagt tcttgagcat gctgaacata 45960

cttattttat gttatttgct aatctttcca attcctgaaa cctttacaga tctcattctg 46020

tggattcttc tggattctaa ttcatggggc attttttttg ttttttgtta attcctcata 46080

ctttatctgt ggggaattac ttgaagcctg ggttgacaat gaaattctgc agagagaatt 46140

tgcatttgat tctactggag gaacagtcag ccccgatatc agtttaaatt aaaatctctg 46200

cttaaggttt tcaggcaacc tgcttagcat gaatcctggc tggaaaagca tgtgaggacc 46260

agtttatgat tacacattca cagggtgtca tgttttcttc caacaccaat gctagaggtg 46320

gcagttttgc ttactgccct tggagggaca ggggagtggg catgggcata gtagtatggt 46380

tttccttttc actgggggtg cagcccttgg agtctcagct taatgtgttg gggaagtggt 46440

ctcctattag actctccatt tcaaaccatt ccatgatttt gtcctccttt tgccaccttc 46500

cgagcctgta aaaactaatg tttgtgattc ctgaggtttc tctaatgtct tttaataaag 46560

ttgacctcag agatctcgtt acctctctga gttcctgctt tgtcttagat tttgatcctt 46620

gagtgttctt taatctttta gcaattcctt gttgcatgtt aaaagattag ttatatttta 46680

ttcctcattt gtgttcgttt tcaccaggag gctcaattca ggcttctttg cttacttggt 46740

gtctctagtt ctggtgcctg gtgctttggt caatgaagtg gggttggtag gattctatta 46800

cttacctgtt ttttggtttt attttttgtt ttgcagttct ccgggagatg ttgcataacc 46860

actccttcgt gggctgtgtg aatcctcagt gggccttggc acagcatcaa accaagttat 46920

accttctcaa caccaccaag cttaggtaaa tcagctgagt gtgtgaacaa gcagagctac 46980

tacaacaatg gtccagggag cacaggcaca aaagctaagg agagcagcat gaggtagttg 47040

ggagggcaca ggctttggag tcagacacat gtggtttcaa atccaagttc gaccatttcc 47100

catttatttg actgtagaca agttacattc ctaaactatg tctcagattt ctcatctgta 47160

agttgtggta ttactagtta acatgcaggg gttttgtttg tttgtttgtt tgtttgtttg 47220

tgagggtaag aaataaccca agaagcctag tccttggtag ttgctcagtg ccctataaat 47280

gttgtgaacc aggtggtgag ggtttggtgc tgctagagaa ttctggtatc tgctctgtgc 47340

aacagagtac tgtaggtgat gcaagagaaa gaagacctga tgccttcttt cctcccagct 47400

ttgagaatgg agcaaaggcc taccccagcc accaagtgag ccagtgggct tgatcagcac 47460

aggaaaggtg accccggcag tttcatttga ctattgcatg gctggcaaca tttctattga 47520

ttgtttccag ggaccttggc ggatgagctc ctgttgagtc tagcatctct gttaaatctg 47580

ttctcaaata ggtaatgcat atgggaggat gctgccacct tgcatctact agacatcacc 47640

tatctactgt gagactctcc ctctaagccc tgctgtggcc tcagagtgct tattggccct 47700

gtgagtgggg cagccactat acattgcatg gagttggtac atgagataga aacctattcg 47760

ccatcccttg aaactgcccc agtccagaag cttcctgtta gcacatgtac ctccttgtat 47820

gtattcagaa ctcattccat ttaggcttgg aaacccgttt ggtgcaactc tgttcaagtt 47880

ccattgtctg ctttgagaat gcttgggctt gtatagtgag ctgtcacttt ttaatttgtt 47940

aggaattcta ctcgccttgc tttttctttt ccagcatgtt taagggaatg acctccaagg 48000

ccccaaatca cagttgtatt catgttcttt catttcacag atacaatcca ggccagtccc 48060

agatttgcag ctgttaataa atgtgaatgg ttttccagta agggggtaga aaaacatagg 48120

gagagaaccg ggttcagagt tcaatatctg gattcaagtc cttcctttag cactttacta 48180

actgatgtag aataagtcag ctactcaata ggtgcctcag tttccccacc aaaatgcaga 48240

catagaaggt gctttgtctg ctttgatgag aagtctttaa gcaagtctat ggggttcaat 48300

gtgttttaag aactataaag taccatataa atgtggcctt tattcccatt gtgttcttgg 48360

aagtaattca atatagtgtg tacttcatag ctgcttttgg actattgcca gccagtgtat 48420

catcctaaac tacatgtcag catagtataa tcctgcctta ggtctacttt tgattattta 48480

ggaagactcc ctgcccttcc tatacatttc acataatttt taataagttg taaaaaagtg 48540

atttatagga ttctttgtaa gtgggggaag ttaagcagac aaaaagtttt taaatcttac 48600

tgcagagtgt caggaacctt ttatagcacc agacaggtag ggacagaaca tgagtggcag 48660

caagccagac ttggtcttag tgctctaacc tgtctgttag aggctggcca gtcagacccc 48720

tggttgaaga cgttgggaat cccagctctt tggaggggta agagattttg ttagactgtt 48780

aaccagattc cacagccagg cagaactatt tctgtctcat ccatgtttca gggattactt 48840

ctcccatttt gtcccaactg gttgtatctc aagcatgaat tcagcttttc cttaaagtca 48900

cttcattttt attttcagtg aagaactgtt ctaccagata ctcatttatg attttgccaa 48960

ttttggtgtt ctcaggttat cggtaagttt agatcctttt cacttctgaa atttcaactg 49020

atcgtttctg aaaatagtag ctctccacta atatcttatt tgtagtatgt taaatttttc 49080

taaaacttct aaggatagtt gctgtattgt atgatttgca tatggaggta tctataagaa 49140

gttttatact ttttagcaaa atagtcattt ggtagccaac ttaaacaaat gtttattaat 49200

atagaagtta ataatatcta ctgatactcg gccgggtgcg gtggctcatg cctgtaatcc 49260

caccactttg ggaggctgag gcgggcagat catttgaggt caggagttca agaccagcct 49320

gaccaatatg atgaaaccct gtctctacta aattacaaat attagcaggg tatggtggtg 49380

ggcgcctgta atcccagcta ctcaggaggc taaggcagga gaatcatttg aacccaggag 49440

gcagaggttg caatgagctg agatcacgcc actgcactcc agcctgggca acagagcaag 49500

attccctcaa aaaaataaat atctactgac acttaatact tggaaaggga taaaaataaa 49560

cattgtctaa agccgtggtc caaacacaac ccctgccaac aattttagtc catttcttcc 49620

aagacttttt tttttctatg ccttttgtga aaactgtcaa aaactttttc aatgctgaat 49680

tttagttctg agttaaaaat catactacct gtttatatgg tttcatatcc acttttttca 49740

tgtgatatac tctacaaaaa gcctgctgag attttgattg ggattatgtt gaatctagat 49800

caatttaggg tgaaaaactt ttgttagata aatcccttag tatttcacat ttttaaatgc 49860

taaatggcat ttttcaaaaa ttttcttttt tcttttcttt tttgagacag agtcttgctc 49920

tgttgcccag gctggagtgc aatggcaaaa tcttggttca ctgcaacctc cgcctcctgg 49980

gttcaagcga ttctcaaact gcctcagcct cccaagtagc tgggattaca ggcatgtgcc 50040

accatgcccg gctaattttt taaactattt atagtagaga gggggtttca ccatgttggc 50100

caggctggtc ttgaactcct gacctcaggt gatctgccca ccttggcttc ccaaagtgct 50160

gggattacag gtgtgagcca ctgcacctgg cctcaaattt tttttttttt tttttttaag 50220

agacaggggt ctcactcttg cctaggctgg agtgcagtgg cgtgatcata ggtcactgaa 50280

gctttgaact cctaggctca agtagctagg aatacaagtg tgtaccacta cacctggcta 50340

atttttttaa aaaaattttt ttcgtagaaa cgggagtctt gtgttaccaa ggctaatctc 50400

aaactcatgg cctcaagtga tactcttgcc tcagcctccc agagtgctag gattgtaggc 50460

atgagttact tcacccagcc aaaaaacttc aatttcctat tgtttatttg ctagtatata 50520

gaaatacata tagttttgta ccttgatgct gtatcttgca accttgttaa actcacttac 50580

tagttctagt atattttttg tagattctat cagattttct atatatgtat catgtcttct 50640

gagaataaag aaacttttac ttcttgctgt gcaaactgaa caccttttct ttctttcttt 50700

ctttttttaa gacggagttt tgctcttgtc acccaggctg gagtgcagtg gctggatctc 50760

ggcttactgc aacctccacc tcctgggttc aggcaattct cctgcctcag cctcctgagt 50820

agctgggatt acaggcgctc gccaccacgc ccggctaatt tttttgtatt tttagtagag 50880

atggggtttc accatgtggc cgagctggtc ttgaactcct gacctcaggt aatctgcttg 50940

tctcggcctc ccaaagtgct gggattacag gcgtgaatta ctgcgcccgg ctgcctttta 51000

tttctttctc ttgactgact gcactggcta gagcctccaa tacaatgttg aatagaagtg 51060

gtaagaatgg gccaggcatg gtggctcatg cctctaatcc tagcactttg ggagagtatg 51120

gtgggcaggt tacttgaggc caggagtttg agatcagcct ggcgaacatg gtgaaactct 51180

gtctctatta aaaatacaaa atatagttgg gtgtggcagt tcacgtctgt aatcccagct 51240

acttgggtgg ctgaggcatg agaatcactt gaacccagga ggcggaggtt gcagtgagcc 51300

aagaatgcac cactgcactc cagcctgggc aacacacaca cacacgaaaa acgaagtggt 51360

aaggatggaa atccttctct tcttcctgat ctaaggggga aaggggaaag ttacaaaaca 51420

ttcagtatgc tgttagccat ataggttttt ttgtagatgc ccattatgag gttgaggaag 51480

ttccctctgt tccttatttg ctacagattt tatttaggat tggatgttga atttttttca 51540

aatgcttttt ttgcatctac tgagataatc atatgatttt tcttttatag tttgttaata 51600

tagtgaatta cattgatttt cttatgttaa accaatcttt gcattcctgg gatgaactct 51660

gcttggttat aatatataat cctttttatt tattatggga tttgatttgc taaaattttt 51720

attataatta ttttatctgt gctcatgatt gttactagtt tatagttttc ttttagtctt 51780

tggtttttgt atcagggtaa tgctggcctc atagaatgag ttggtaagta tcccctcctt 51840

ttccattttc tgaaagagtt ttgtgtagaa ttgatgttaa aattattgct taatgtttgg 51900

cagaactcaa cagtgaagcc atctgggctt ggagattttc ttcatgggaa ggtttttaac 51960

tgcaaattct atttctttaa tagtatagag ctattcaggt tatctgtttc ttcttaggta 52020

agctttggta ttttgtttct ttgaagaaat ttgtcgcatt taatctaaat ttttaaattt 52080

actgacataa agttatttat aatatttctt attcttttat tatctatgga tctcttggtg 52140

acataacctc tctcattcct aatattggta atttcaggct tttcttttta acttggtcag 52200

tctggctaga ggtttatcaa ttttattgat cttctcaaag aactaacttt tggtttcata 52260

gatttttcta ttttctattt cattgatatc tgctctgact tttaatcttt cttataccta 52320

ttttggttta atttgtcttc tgtttcacat ttcttttttt tttttttttt ttttttttga 52380

gacagagtct tgctctgtcg cccaggctgg agtgcagtac agtggtgcga tcttggctca 52440

ctgtaacctc agccttccag gttcaagcga ttcctgtttc taagcctccc aagtagctga 52500

gattacaggc atgcaccacc agctaatttt tgtattttta gtagagatgg ggtttcactg 52560

tgttggccag gctggtctca aactcctgac ctcaggtgat ccacctgcct tggcctccca 52620

gagtgctggg attacaggtg tgagccactg tggctggcct gtttcacatt tcttaaggta 52680

gaagctgagg tcacggattt gagacctttc ttcttttcta atacaggtgt taagtgctac 52740

aaatatccct taagcactgc ttcaacagca tcccacaaat tttgatagtt tgttttcatt 52800

ttcattcagt tcaaaatacc ttctaatttc ccttttgatt tcgtctttga cctacaggtt 52860

ttttagaact gtgttattta gtttccaatc tcttgaggat ttttaaaaca atatgttatt 52920

gatttctaat ttatttccat ctcagtcaaa gaacatactt gccttttttt atacatttat 52980

tgaaactttt tttatggccc agaatatggt ctgtgttggt aaatgttcca tgtgtacttg 53040

aaaataattt gtattctgat ctcattgagt tgaatgttct aggtatatca agttgatagt 53100

gatgcccaag tctcctgtat ctttactgat tttctgcctg ttctgttatt gagaaagggg 53160

tattgaaact tccaactata attatgattt gtctgttctc tttgcagttc tcttagtttt 53220

tgccttcata tatatataca tatatatgta tatatatata tatttttttt tttttgagat 53280

ggagtcttgc tctgttgccc aggctggagt gcagtggtgt gatcttggct cactgcaagc 53340

tccgcctccc aggttcacgc cattctcctg cctcagcctc ccgaatagct gggactacag 53400

gcgcccacca ccacgcccag ctaatttttt gtatttttag tagagacagg gtttcaccat 53460

gttagcaagg atggtctcga tctgacctcg tgatccgccc agcttagcct cccaaagtgc 53520

tgggattaca ggcatgagcc actgcaccca gcccatatat tttaaagctc tgttattggg 53580

tacataaaca tttaggattg ttatatcctt ttgataatgg actcttctat tatgaaaaga 53640

taatatactg tgggtttata acatatgtaa aagtatgagt aacatattat cagaagggga 53700

gaaatggaag ataacttagg catcttattt ttaagcatag ttttcccttt gtttctgcat 53760

tagatgattt acctgaaatg tcattcaatt taacttactc tccatcctca cccgcccagc 53820

tttggttatg aggcagtaga aagaaatgat ctgcctgtgg ttttctagaa atacgaaagt 53880

tgagtcctta aggctacaca gaaagaaagt acctccccag ggcttcaccc ttcccatcct 53940

ttcagcaggc tttttgtctg tcgtatcttc tctgttgaaa tggccattga caagaggagg 54000

aaaggggttt tgttgtggat tgttcaggca cttcctttgg ggtatatggg ggatgagtgt 54060

tacatttatg gtttctcacc tgccattctg atagtggatt cttgggaatt caggcttcat 54120

ttggatgctc cgttaaagct tgctccttca tgttcttgct tcttcctagg agccagcacc 54180

gctctttgac cttgccatgc ttgccttaga tagtccagag agtggctgga cagaggaaga 54240

tggtcccaaa gaaggacttg ctgaatacat tgttgagttt ctgaagaaga aggctgagat 54300

gcttgcagac tatttctctt tggaaattga tgaggtgtga cagccattct tatacttctg 54360

ttgtattctt caaataaaat ttccagccgg gtgcggtggc tcatggctgt aatcccagca 54420

ctttgggagg ctgaggtggg cagataactt ggggtcagga gttcaaaacc agctggccaa 54480

catgatgaaa ccccgtctct actaaaaaaa tagaaaaatt agccaggcgt ggtggcgggt 54540

acctgtaatc caagctgctc aggaggctga ggcagaagaa tcacttaaac ccaagaggta 54600

gaagttgcag tgagccgaga ttgcaccact gcactctagc ctaggcgaca gcgagactgc 54660

gtctcaaaaa aaaaaaaaaa gaacgttcca aggtcaggac taggcctccc ctcagaagca 54720

gcaagtgaca tatgtgacat cctctccact ccctatttgc atttctaggt tatataactg 54780

tactactatc catgcatgcc tactcttgtt cccagggtga aggacccaga catggagagc 54840

cgaatccctg caggccatta taaatgagat tatgccattt gctcccattt cttcttattc 54900

tttcattttt ggggctctcc atcttgatgt gttctttgga tcgtgaacag atccaaagaa 54960

aaggttgttc tgccgtgctg tttgtcagga tgaaaaactc ttttttaagt gtttaggtct 55020

gcccccagtg cccagcccaa tcaagtaacg tggtcaccca gagtggcaga taggagcaca 55080

aggcctggga aagcactgga gaaatgggat ttgtttaaac tatgacagca ttatttcttg 55140

ttcccttgtc ctttttcctg caagcaggaa gggaacctga ttggattacc ccttctgatt 55200

gacaactatg tgcccccttt ggagggactg cctatcttca ttcttcgact agccactgag 55260

gtcagtgatc aagcagatac taagcatttc ggtacatgca tgtgtgctgg agggaaaggg 55320

caaatgacca ccctttgatc tggaatgata aagatgataa gggtgggata gctgaaggcc 55380

tgctctcatc cccactaata ttcattccca gcaatattca gcagtcccat ttacagtttt 55440

aacgcctaaa gtatcacatt tcgtttttta gctttaagta gtctgtgatc tccgtttaga 55500

atgagaatgt ttaaattcgt acctattttg aggtattgaa tttctttgga ccaggtgaat 55560

tgggacgaag aaaaggaatg ttttgaaagc ctcagtaaag aatgcgctat gttctattcc 55620

atccggaagc agtacatatc tgaggagtcg accctctcag gccagcaggt acagtggtga 55680

tgcacactgg caccccagga ctaggacagg acctcataca atctttagga gatgaaactt 55740

gcccatctct aaaatttcgg gatttctttg tacccaacaa ggttcaaaca caacagtcag 55800

cttttattca tgatttttac ttccatctgc tgatgtagaa catacctcca gagtgacctc 55860

agaaattgtc aaatgtgaaa acacaagcca tcacagtgag aaatgggagg ttgagttaga 55920

ttgtctaagg ctggagagtc catatactcc cactgttagc tctgaagtgt gtagccagtc 55980

ttcagattct gggtcagttg cctcagtctc tcttagcttt tgccttactc tttatccgac 56040

cactgccctg ccaggaaaac aaggctctat aactcctctt acaggtcagc ttgacacaaa 56100

aagggtgcct ggattcctaa tgtttcattg tcacttttcc cagtcagatg ataatgcttt 56160

tcaaatcaac atatattttg ggggaggttg gaagggagag ttgaaatatt ctaagaatca 56220

aagagtagcc cactttaatc agagtatgac ccctgattgc tcacagtcat ctcctgagca 56280

gtgtgagcga gtttcagatg aggaggctga aggccagtca ggcatgctcg aggattccaa 56340

gtctgtaggt gggagggcag agatttagtc ctgttggcca aagcctctag ggaatttctc 56400

actccagtgg agaaggcaac acacttacca aactgtgtgg aaactatctc atttgattag 56460

aaattttacc tcaagaagag gaaggacagt tgagaaagaa cattttctta cacatgagac 56520

agctaaggct tacaagaagg agaggaataa tgaggcaaaa taatcctcat taatattttc 56580

attcctcccc tggggattag aactactttc agacccgatt ttaatggtaa gttaggtact 56640

tcctacagtt gccatccaaa tatcagtcag gatcagacat gatgttagct cctgctacaa 56700

taaaaccatt ttctccctga atgaaaacaa aggttccaca ggagacagtc ccacagagca 56760

gtggcttctt ttcctccctt taaaacctca tgttggctgg acacagtggc tcacacctgt 56820

aatcccagca ttttaggagg ctgaggtggg aagatggctt aagcccagga gtttgaggct 56880

gtagagctat gatcacacca ctgcccttca gcctgggtga cagagcaaga ccttgtctct 56940

aaataaacaa acaaacaaaa aatcctcttg tgttcaggcc tgtgggatcc cctgagaggc 57000

tagcccacaa gatccacttc aaaagcccta gataacacca agtctttcca gacccagtgc 57060

acatcccatc agccaggaca ccagtgtatg ttgggatgca aacagggagg cttatgacat 57120

ctaatgtgtt ttccagagtg aagtgcctgg ctccattcca aactcctgga agtggactgt 57180

ggaacacatt gtctataaag ccttgcgctc acacattctg cctcctaaac atttcacaga 57240

agatggaaat atcctgcagc ttgctaacct gcctgatcta tacaaagtct ttgagaggtg 57300

ttaaatatgg ttatttatgc actgtgggat gtgttcttct ttctctgtat tccgatacaa 57360

agtgttgtat caaagtgtga tatacaaagt gtaccaacat aagtgttggt agcacttaag 57420

acttatactt gccttctgat agtattcctt tatacacagt ggattgatta taaataaata 57480

gatgtgtctt aacataa 57497

<210> 3

<211> 2662

<212> RNA

<213> Intelligent people

<400> 3

gaagagaccc agcaacccac agaguugaga aauuugacug gcauucaagc uguccaauca 60

auagcugccg cugaagggug gggcuggaug gcguaagcua cagcugaagg aagaacguga 120

gcacgaggca cugaggugau uggcugaagg cacuuccguu gagcaucuag acguuuccuu 180

ggcucuucug gcgccaaaau gucguucgug gcagggguua uucggcggcu ggacgagaca 240

guggugaacc gcaucgcggc gggggaaguu auccagcggc cagcuaaugc uaucaaagag 300

augauugaga acuguuuaga ugcaaaaucc acaaguauuc aagugauugu uaaagaggga 360

ggccugaagu ugauucagau ccaagacaau ggcaccggga ucaggaaaga agaucuggau 420

auuguaugug aaagguucac uacuaguaaa cugcaguccu uugaggauuu agccaguauu 480

ucuaccuaug gcuuucgagg ugaggcuuug gccagcauaa gccauguggc ucauguuacu 540

auuacaacga aaacagcuga uggaaagugu gcauacagag caaguuacuc agauggaaaa 600

cugaaagccc cuccuaaacc augugcuggc aaucaaggga cccagaucac gguggaggac 660

cuuuuuuaca acauagccac gaggagaaaa gcuuuaaaaa auccaaguga agaauauggg 720

aaaauuuugg aaguuguugg cagguauuca guacacaaug caggcauuag uuucucaguu 780

aaaaaacaag gagagacagu agcugauguu aggacacuac ccaaugccuc aaccguggac 840

aauauucgcu ccaucuuugg aaaugcuguu agucgagaac ugauagaaau uggaugugag 900

gauaaaaccc uagccuucaa aaugaauggu uacauaucca augcaaacua cucagugaag 960

aagugcaucu ucuuacucuu caucaaccau cgucugguag aaucaacuuc cuugagaaaa 1020

gccauagaaa caguguaugc agccuauuug cccaaaaaca cacacccauu ccuguaccuc 1080

aguuuagaaa ucagucccca gaauguggau guuaaugugc accccacaaa gcaugaaguu 1140

cacuuccugc acgaggagag cauccuggag cgggugcagc agcacaucga gagcaagcuc 1200

cugggcucca auuccuccag gauguacuuc acccagacuu ugcuaccagg acuugcuggc 1260

cccucugggg agaugguuaa auccacaaca agucugaccu cgucuucuac uucuggaagu 1320

agugauaagg ucuaugccca ccagauggau cguacagauu cccgggaaca gaagcuugau 1380

gcauuucugc agccucugag caaaccccug uccagucagc cccaggccau ugucacagag 1440

gauaagacag auauuucuag uggcagggcu aggcagcaag augaggagau gcuugaacuc 1500

ccagccccug cugaaguggc ugccaaaaau cagagcuugg agggggauac aacaaagggg 1560

acuucagaaa ugucagagaa gagaggaccu acuuccagca accccagaaa gagacaucgg 1620

gaagauucug auguggaaau gguggaagau gauucccgaa aggaaaugac ugcagcuugu 1680

accccccgga gaaggaucau uaaccucacu aguguuuuga gucuccagga agaaauuaau 1740

gagcagggac augagguucu ccgggagaug uugcauaacc acuccuucgu gggcugugug 1800

aauccucagu gggccuuggc acagcaucaa accaaguuau accuucucaa caccaccaag 1860

cuuagugaag aacuguucua ccagauacuc auuuaugauu uugccaauuu ugguguucuc 1920

agguuaucgg agccagcacc gcucuuugac cuugccaugc uugccuuaga uaguccagag 1980

aguggcugga cagaggaaga uggucccaaa gaaggacuug cugaauacau uguugaguuu 2040

cugaagaaga aggcugagau gcuugcagac uauuucucuu uggaaauuga ugaggaaggg 2100

aaccugauug gauuaccccu ucugauugac aacuaugugc ccccuuugga gggacugccu 2160

aucuucauuc uucgacuagc cacugaggug aauugggacg aagaaaagga auguuuugaa 2220

agccucagua aagaaugcgc uauguucuau uccauccgga agcaguacau aucugaggag 2280

ucgacccucu caggccagca gagugaagug ccuggcucca uuccaaacuc cuggaagugg 2340

acuguggaac acauugucua uaaagccuug cgcucacaca uucugccucc uaaacauuuc 2400

acagaagaug gaaauauccu gcagcuugcu aaccugccug aucuauacaa agucuuugag 2460

agguguuaaa uaugguuauu uaugcacugu gggauguguu cuucuuucuc uguauuccga 2520

uacaaagugu uguaucaaag ugugauauac aaaguguacc aacauaagug uugguagcac 2580

uuaagacuua uacuugccuu cugauaguau uccuuuauac acaguggauu gauuauaaau 2640

aaauagaugu gucuuaacau aa 2662

<210> 4

<211> 2271

<212> DNA

<213> Intelligent people

<400> 4

atgtcgttcg tggcaggggt tattcggcgg ctggacgaga cagtggtgaa ccgcatcgcg 60

gcgggggaag ttatccagcg gccagctaat gctatcaaag agatgattga gaactgttta 120

gatgcaaaat ccacaagtat tcaagtgatt gttaaagagg gaggcctgaa gttgattcag 180

atccaagaca atggcaccgg gatcaggaaa gaagatctgg atattgtatg tgaaaggttc 240

actactagta aactgcagtc ctttgaggat ttagccagta tttctaccta tggctttcga 300

ggtgaggctt tggccagcat aagccatgtg gctcatgtta ctattacaac gaaaacagct 360

gatggaaagt gtgcatacag agcaagttac tcagatggaa aactgaaagc ccctcctaaa 420

ccatgtgctg gcaatcaagg gacccagatc acggtggagg acctttttta caacatagcc 480

acgaggagaa aagctttaaa aaatccaagt gaagaatatg ggaaaatttt ggaagttgtt 540

ggcaggtatt cagtacacaa tgcaggcatt agtttctcag ttaaaaaaca aggagagaca 600

gtagctgatg ttaggacact acccaatgcc tcaaccgtgg acaatattcg ctccatcttt 660

ggaaatgctg ttagtcgaga actgatagaa attggatgtg aggataaaac cctagccttc 720

aaaatgaatg gttacatatc caatgcaaac tactcagtga agaagtgcat cttcttactc 780

ttcatcaacc atcgtctggt agaatcaact tccttgagaa aagccataga aacagtgtat 840

gcagcctatt tgcccaaaaa cacacaccca ttcctgtacc tcagtttaga aatcagtccc 900

cagaatgtgg atgttaatgt gcaccccaca aagcatgaag ttcacttcct gcacgaggag 960

agcatcctgg agcgggtgca gcagcacatc gagagcaagc tcctgggctc caattcctcc 1020

aggatgtact tcacccagac tttgctacca ggacttgctg gcccctctgg ggagatggtt 1080

aaatccacaa caagtctgac ctcgtcttct acttctggaa gtagtgataa ggtctatgcc 1140

caccagatgg atcgtacaga ttcccgggaa cagaagcttg atgcatttct gcagcctctg 1200

agcaaacccc tgtccagtca gccccaggcc attgtcacag aggataagac agatatttct 1260

agtggcaggg ctaggcagca agatgaggag atgcttgaac tcccagcccc tgctgaagtg 1320

gctgccaaaa atcagagctt ggagggggat acaacaaagg ggacttcaga aatgtcagag 1380

aagagaggac ctacttccag caaccccaga aagagacatc gggaagattc tgatgtggaa 1440

atggtggaag atgattcccg aaaggaaatg actgcagctt gtaccccccg gagaaggatc 1500

attaacctca ctagtgtttt gagtctccag gaagaaatta atgagcaggg acatgaggtt 1560

ctccgggaga tgttgcataa ccactccttc gtgggctgtg tgaatcctca gtgggccttg 1620

gcacagcatc aaaccaagtt ataccttctc aacaccacca agcttagtga agaactgttc 1680

taccagatac tcatttatga ttttgccaat tttggtgttc tcaggttatc ggagccagca 1740

ccgctctttg accttgccat gcttgcctta gatagtccag agagtggctg gacagaggaa 1800

gatggtccca aagaaggact tgctgaatac attgttgagt ttctgaagaa gaaggctgag 1860

atgcttgcag actatttctc tttggaaatt gatgaggaag ggaacctgat tggattaccc 1920

cttctgattg acaactatgt gccccctttg gagggactgc ctatcttcat tcttcgacta 1980

gccactgagg tgaattggga cgaagaaaag gaatgttttg aaagcctcag taaagaatgc 2040

gctatgttct attccatccg gaagcagtac atatctgagg agtcgaccct ctcaggccag 2100

cagagtgaag tgcctggctc cattccaaac tcctggaagt ggactgtgga acacattgtc 2160

tataaagcct tgcgctcaca cattctgcct cctaaacatt tcacagaaga tggaaatatc 2220

ctgcagcttg ctaacctgcc tgatctatac aaagtctttg agaggtgtta a 2271

<210> 5

<211> 21

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 5

ggtctatgcc caccagattg t 21

<210> 6

<211> 21

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 6

ggtctatgcc caccagattg a 21

<210> 7

<211> 21

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 7

gttcaagcat ctcctcatct g 21

<210> 8

<211> 28

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 8

ttctggaagt agtgataagg tctatgcc 28

<210> 9

<211> 19

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 9

ggtttgctca gaggctgca 19

<210> 10

<211> 10

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 10

cagatggatc 10

<210> 11

<211> 10

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 11

cagatggttc 10

<210> 12

<211> 20

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 12

ggaagtagtg ataaggtcta 20

<210> 13

<211> 18

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 13

ctgtcttatc ctctgtga 18

<210> 14

<211> 18

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 14

taaatccaca acaagtct 18

<210> 15

<211> 21

<212> DNA

<213> Artificial sequence

<220>

<223> primer

<400> 15

tagaaatatc tgtcttatcc t 21

<210> 16

<211> 23

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 16

ccaccagatg gttcgtacag att 23

<210> 17

<211> 23

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 17

ccaccagatg gatcgtacag att 23

<210> 18

<211> 18

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 18

caccagatgg ttcgtaca 18

<210> 19

<211> 18

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 19

caccagatgg atcgtaca 18

<210> 20

<211> 20

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 20

accagatggt tcgtacagat 20

<210> 21

<211> 20

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 21

accagatgga tcgtacagat 20

<210> 22

<211> 29

<212> DNA

<213> Artificial sequence

<220>

<223> Probe

<400> 22

cttctggaag tagtgataag gtctatgcc 29