阅读说明：本技术 向酿酒酵母中导入线性质粒的方法及制备的酵母菌 (Method for introducing linear plasmid into saccharomyces cerevisiae and prepared saccharomyces cerevisiae ) 是由 张生学 吴业春 吴艳斌 王金羽 于 2020-12-10 设计创作，主要内容包括：本申请公开了一种向酿酒酵母中导入线性质粒的方法及制备的酵母菌,该方法包括向源酿酒酵母的线性质粒P1中整合筛选标记基因,并删除酵母交配时负责核融合的KAR1基因的部分序列,由此得到改造后的源酿酒酵母；经改造后的源酿酒酵母与目标酿酒酵母交配,使线性质粒P1和P2导入目标酿酒酵母菌株中。本方法操作简单,且能够高效、高质量的向酿酒酵母中导入线性质粒,经PCR检测,导入成功率可达95％以上。(The application discloses a method for introducing linear plasmids into saccharomyces cerevisiae and yeast prepared by the method, wherein the method comprises the steps of integrating a screening marker gene into the linear plasmid P1 of source saccharomyces cerevisiae, and deleting a partial sequence of KAR1 gene which is responsible for nuclear fusion during yeast mating, so as to obtain modified source saccharomyces cerevisiae; the transformed source Saccharomyces cerevisiae was mated with the target Saccharomyces cerevisiae to introduce the linear plasmids P1 and P2 into the target Saccharomyces cerevisiae strain. The method is simple to operate, can efficiently introduce linear plasmids into the saccharomyces cerevisiae with high quality, and the introduction success rate can reach more than 95% through PCR detection.)

1. A method for introducing linear plasmids into Saccharomyces cerevisiae is characterized in that the method comprises the steps of integrating a screening marker gene into the linear plasmid P1 of the source Saccharomyces cerevisiae, and enabling KAR1 gene which is responsible for nuclear fusion during yeast mating to not perform the nuclear fusion function, thereby obtaining the modified source Saccharomyces cerevisiae; the transformed source Saccharomyces cerevisiae was mated with the target Saccharomyces cerevisiae to introduce the linear plasmids P1 and P2 into the target Saccharomyces cerevisiae strain.

2. The method for introducing linearized plasmids in s.cerevisiae according to claim 1, wherein the method further comprises transforming the mating types of the modified s.cerevisiae before mating when the mating types of the source and target s.cerevisiae are the same.

3. The method of introducing linearized plasmids in s.cerevisiae according to claim 1 or 2, characterized in that it comprises one or more of the following (1) to (5):

(1) two linear plasmids, P1 and P2, were present in the source Saccharomyces cerevisiae;

(2) the screening marker gene is a defective gene of the target yeast strain;

(3) the linear plasmid P1 or P2 is not present in the target s.cerevisiae;

(4) the failure of the KAR1 gene responsible for nuclear fusion to function in mating yeast is deletion of a portion of the sequence of KAR1 gene;

(5) the mating type of the transformed source saccharomyces cerevisiae is obtained by introducing MAT alpha or MATa gene sequence into the transformed source saccharomyces cerevisiae strain in a homologous recombination mode according to actual needs.

4. The method of introducing linearized plasmids in Saccharomyces cerevisiae according to claim 2, wherein the source Saccharomyces cerevisiae is GA-Y233 strain obtained by inactivating the URA3 gene and Trp1 gene of Saccharomyces cerevisiae F102-2 strain, wherein the Saccharomyces cerevisiae F102-2 strain is derived from the center for global biological resources and has accession number of 200585; the target saccharomyces cerevisiae is an AH109 strain;

the method specifically comprises the following steps:

(1) integrating a Trp1 selection marker gene on a P1 plasmid of a GA-Y233 strain of a source saccharomyces cerevisiae;

(2) knocking out 285 bases in total between coding region 289 and 573 of KAR1 gene by using a CRISPR-Cas9 mediated homologous recombination method;

(3) cloning an MAT alpha gene sequence, and modifying the mating type of the transformed Saccharomyces cerevisiae GA-Y233 obtained in the step (2) into MAT alpha by using a CRISPR-Cas9 mediated homologous recombination method;

(4) mating the transformed Saccharomyces cerevisiae GA-Y233 strain obtained in the step (3) with target Saccharomyces cerevisiae AH109, culturing on a defective medium without uracil and tryptophan, and PCR-screening the AH109 strain containing P1 and P2 plasmids.

5. The method of introducing linearized plasmids in Saccharomyces cerevisiae according to claim 4, comprising one or more of the following (a) - (g):

(a) the coding sequence of the Trp1 selection marker gene integrated in the step (1) is shown as SEQ ID No. 2;

(b) the primer pairs used in the detection in the step (1) are F-P1-Trp and R-P1-Trp, and the sequences are respectively shown as SEQ ID No.4 and SEQ ID No. 5;

(c) the sequence of the editing vector pCAS-KAR1 with the target site of KAR1 gene adopted by the gene recombination in the step (2) is shown as SEQ ID No. 13;

(d) the primer pairs used in the detection in the step (2) are F-KAR1-JC and R-KAR1-JC, and the sequences are shown as SEQ ID Nos. 14 and 15 respectively;

(e) the sequence of the editing vector pCAS-MATa with the target site of MATa gene adopted in the gene recombination in the step (3) is shown as SEQ ID No. 22;

(f) the primers used in the detection in the step (3) are F-alpha-JC, F-a-JC and R-alpha/a-JC, and the sequences of the primers are respectively shown as SEQ ID No. 23-25;

(g) the primer pairs used in the detection in the step (4) are F-P1-Trp, R-P1-Trp, F-KAR1-JC, R-KAR1-JC, F-alpha-JC, R-alpha/a-JC, F-a-JC and R-alpha/a-JC.

6. The recombinant engineered saccharomyces cerevisiae strain is prepared by the method of claims 1-5.

7. A saccharomyces cerevisiae recombinant engineering bacterium is characterized in that a GA-Y233 strain is used as an initial strain, and a Trp1 screening marker gene is integrated on a P1 plasmid of the GA-Y233 strain; and the KAR1 gene of the saccharomyces cerevisiae recombinant engineering bacteria can not perform the nuclear fusion function; the GA-Y233 strain is obtained by inactivating URA3 gene and Trp1 gene of a Saccharomyces cerevisiae F102-2 strain, wherein the Saccharomyces cerevisiae F102-2 strain is derived from the global biological resource center and has the preservation catalog number of 200585.

8. The recombinant engineered saccharomyces cerevisiae strain of claim 7, wherein the mating type of the recombinant engineered saccharomyces cerevisiae strain is MAT alpha type.

9. The method of any one of claims 1 to 5 and the application of the saccharomyces cerevisiae recombinant engineering bacteria of any one of claims 6 to 8 in the field of directed evolution.

10. Use according to claim 9, characterized in that the use is in particular in the field of directed evolution of interacting protein pairs.

Technical Field

The application relates to the technical field of molecular biology, in particular to a method for introducing linear plasmids into saccharomyces cerevisiae and a prepared saccharomyces cerevisiae.

Background

In the course of directed evolution, biomolecules are remodeled to search for novel biomolecules that exert beneficial new functions. This technology is drastically changing drug development, chemical engineering and other applications. Two directed evolution methods developed in recent years, PAGE (evolution, Kevin, M, et al. a system for the connected directed evolution of biomolecules. [ J ]. Nature,2011) and orthorep (Ravikumar a, arriita a, Liu C. an orthogonal DNA replication system in yeast. [ J ]. Nature Chemical Biology,2014,10(3):175-7), simplify the directed evolution process, reduce laboratory work, and improve the directed evolution efficiency.

The principle of OrthRep directed evolution is that Kluyveromyces lactis cytoplasm contains two linear plasmids pGKluyveromyces lactis 1(P1) and pGKl2(P2), and the replication of P1 and P2 is performed by using an independent DNA polymerase encoded on each linear plasmid, and the two DNA polymerases cannot replicate nuclear genomic DNA and other plasmid DNA, and conversely, the DNA polymerase replicating the nuclear genomic DNA and other plasmid DNA cannot replicate P1 and P2. These are two completely unrelated sets of DNA replication systems. The DNA polymerase (TP-DNAP1) responsible for replicating P1 is mutated to improve the incorporation rate of wrong bases when P1 is replicated, and meanwhile, the gene codon encoding the TP-DNAP1 mutant is optimized according to the bias of the yeast nuclear gene codon and then is expressed in the yeast nucleus, thereby generating the mutated TP-DNAP 1. The mutated TP-DNAP1 can incorporate wrong base with high frequency when replicating the P1 plasmid, thereby leading the gene on the P1 plasmid to have high frequency mutation.

Drug-resistant malaria dihydrofolate reductase has been successfully evolved using the OrthRep directed Evolution system (ArjunRavikumar, et al. scalable, Continuous Evolution of genetic Mutation sites above Genomic ErrorThresholds. [ J ]. Cell, 2018). At present, no report of the evolution of the interaction protein pair by using the OrthRep directed evolution system is available.

The most abundant yeast strains used for the study of interacting protein pairs were the commercial strains Saccharomyces cerevisiae AH109(MATa, trp1-901, leu2-3,112, URA3-52, HIS3-200, GAL 4. delta., GAL 80. delta., LYS2:: GAL1UAS-GAL1TATA-HIS3, MEL1 GAL2UAS-GAL2TATAADE2, URA3:: MEL1UAS-MEL1 TATA-lacZ). The strain has clear genetic background, is used for researching interaction protein pairs for many years, accumulates abundant experience, and is easy to purchase a reagent matched with the strain. In order to establish the OrthRep directed evolution system for evolved protein pairs, plasmids P1 and P2 were introduced into the target s.cerevisiae, such as the commercial strain s.cerevisiae AH 109. Methods for introducing P1 and P2 into yeast have been reported, for example, as protoplast fusion method (Gunge N, Sakaguchi K. endogenous transfer of heterologous acid killers, pGKl1 and pGKl2, from Kluyveromyces lactis inter Saccharomyces cerevisiae by cell fusion. J. Journal of Bacteriology,1981,147 (155), purified P1 and P2 linear plasmids directly into protoplasts method (Gunge N, Murata K. Sackaguchi K. transformation of Saccharomyces cerevisiae with DNA library DNA from Kluyveromyces strain J. Journal of 1981, 462, Kluyveromyces. J. Journal of Bacillus journal.462, J. Journal of Bacillus strain, 1984). Both methods use protoplasts, which are cumbersome to operate and inefficient. At present, no method for introducing P1 and P2 into saccharomyces cerevisiae simply, efficiently and high-quality exists.

Disclosure of Invention

The invention provides a method for introducing linear plasmids into saccharomyces cerevisiae, which comprises the steps of integrating screening marker genes into the linear plasmid P1 of source saccharomyces cerevisiae, and enabling KAR1 genes responsible for nuclear fusion during yeast matching to not perform the nuclear fusion function, thereby obtaining the modified source saccharomyces cerevisiae; the transformed source Saccharomyces cerevisiae was mated with the target Saccharomyces cerevisiae to introduce the linear plasmids P1 and P2 into the target Saccharomyces cerevisiae strain. When the mating types of the source saccharomyces cerevisiae and the target saccharomyces cerevisiae are the same, the method further comprises the step of converting the mating type of the modified source saccharomyces cerevisiae before mating.

Specifically, the method comprises one or more of the following (1) to (5):

(1) two linear plasmids, P1 and P2, were present in the source Saccharomyces cerevisiae;

(2) the screening marker gene is a defective gene of the target yeast strain;

(3) the linear plasmid P1 or P2 is not present in the target s.cerevisiae;

(4) the failure of the KAR1 gene to perform nuclear fusion in yeast mating is the deletion of a portion of the sequence of KAR1 gene, specifically the deletion of 285 bases in total between the coding region 289 and 573 of KAR1 gene;

(5) the mating type of the transformed source saccharomyces cerevisiae is obtained by introducing MAT alpha or MATa gene sequence into the transformed source saccharomyces cerevisiae strain in a homologous recombination mode according to actual needs.

Specifically, the source saccharomyces cerevisiae can be a GA-Y233 strain, the strain is obtained by inactivating URA3 gene and Trp1 gene of a saccharomyces cerevisiae F102-2 strain, the saccharomyces cerevisiae F102-2 strain is derived from the global biological resource center (American Type cultureselection, PO Box 1549, Manassas, VA20108USA), and the preservation catalog number is 200585; the target saccharomyces cerevisiae is an AH109 strain; the method specifically comprises the following steps:

(1) integrating a Trp1 selection marker gene on a P1 plasmid of a GA-Y233 strain of the original Saccharomyces cerevisiae to facilitate selection of an AH109 strain containing P1 and P2 plasmids after mating;

(2) since KAR1 gene mutant yeast strain can not perform cell nucleus fusion, 285 bases are knocked out between KAR1 gene coding region 289 and 573 by using CRISPR-Cas9 mediated homologous recombination, thus facilitating cytoplasm fusion of two yeast strains after mating without cell nucleus fusion;

(3) considering that the mating types of the saccharomyces cerevisiae GA-Y233 and the saccharomyces cerevisiae AH109 are MATa, the two strains cannot mate, an MAT alpha gene sequence is cloned, and the mating type of the transformed source saccharomyces cerevisiae GA-Y233 obtained in the step (2) is modified into MAT alpha by using a CRISPR-Cas9 mediated homologous recombination method, so that the mating of the saccharomyces cerevisiae GA-Y233 and the saccharomyces cerevisiae AH109 is facilitated;

(4) mating the transformed Saccharomyces cerevisiae GA-Y233 strain obtained in the step (3) with target Saccharomyces cerevisiae AH109, culturing on a defective medium without uracil and tryptophan, and PCR-screening the AH109 strain containing P1 and P2 plasmids.

Further, the method comprises one or more of the following (a) - (g):

(a) the coding sequence of the Trp1 selection marker gene integrated in the step (1) is shown as SEQ ID No. 2;

(b) the primer pairs used in the detection in the step (1) are F-P1-Trp and R-P1-Trp, and the sequences are respectively shown as SEQ ID No.4 and SEQ ID No. 5;

(c) the sequence of the editing vector pCAS-KAR1 with the target site of KAR1 gene adopted by the gene recombination in the step (2) is shown as SEQ ID No. 13;

(d) the primer pairs used in the detection in the step (2) are F-KAR1-JC and R-KAR1-JC, and the sequences are shown as SEQ ID Nos. 14 and 15 respectively;

(e) the sequence of the editing vector pCAS-MATa with the target site of MATa gene adopted in the gene recombination in the step (3) is shown as SEQ ID No. 22;

(f) the primers used in the detection in the step (3) are F-alpha-JC, F-a-JC and R-alpha/a-JC, and the sequences of the primers are respectively shown as SEQ ID No. 23-25;

(g) the primer pairs used in the detection in the step (4) are F-P1-Trp, R-P1-Trp, F-KAR1-JC, R-KAR1-JC, F-alpha-JC, R-alpha/a-JC, F-a-JC and R-alpha/a-JC.

The invention also provides a saccharomyces cerevisiae recombinant engineering bacterium, which is prepared by adopting the method.

The invention also provides a saccharomyces cerevisiae recombinant engineering bacterium, which takes the GA-Y233 strain as an initial strain, and integrates a Trp1 screening marker gene on the P1 plasmid of the GA-Y233 strain; the KAR1 gene of the Saccharomyces cerevisiae recombinant engineering bacteria can not perform the nuclear fusion function, and specifically, 285 basic groups are totally knocked off between the coding region 289 and 573 of the KAR1 gene so that the nuclear fusion function can not be performed; the GA-Y233 strain is obtained by inactivating URA3 gene and Trp1 gene of a Saccharomyces cerevisiae F102-2 strain, wherein the Saccharomyces cerevisiae F102-2 strain is derived from the global biological resource center (American Type CultureCo., PO Box 1549, Manassas, VA20108USA) and has the preservation catalog number of 200585.

Further, the mating type of the saccharomyces cerevisiae recombinant engineering bacteria is MAT alpha type. Specifically, the mating type of the saccharomyces cerevisiae recombinant engineering bacteria is modified into MAT alpha by cloning MAT alpha gene sequence and using a CRISPR-Cas9 mediated homologous recombination method.

The invention also provides an application of the method and the saccharomyces cerevisiae recombinant engineering bacteria prepared by the method in the field of directed evolution. In particular, the application is in the field of directed evolution of interacting protein pairs.

The beneficial effects of the invention include: the method for introducing the linear plasmids into the saccharomyces cerevisiae is simple to operate, can efficiently introduce the linear plasmids into the saccharomyces cerevisiae with high quality, and has the introduction success rate of over 95 percent through PCR detection.

Drawings

FIG. 1 is a PCR identification electrophoretogram of a Saccharomyces cerevisiae strain, wherein primers used for detection in line I are F-P1-Trp and R-P1-Trp; the primers used in the detection in line II are F-KAR1-JC and R-KAR 1-JC; primers used for the detection in the third row are F-a-JC and R-alpha/a-JC; the primers used in the detection of line IV are F-alpha-JC and R-alpha/a-JC; the sample M is Trans2K Plus II DNA Marker; sample 1 was GA-Y233; sample 2 was GA-Y233-Trp; sample 3 was GA-Y233-Trp-Kar 1; sample 4 was GA-Y233-Trp-Kar1-MAT α; sample 5 was AH 109; sample 6 was AH109 XGA-Y233; sample 7 was AH 109-P1-Trp.

Detailed Description

The present invention will be further illustrated and described with reference to the following examples, but the examples described are only a part of the examples of the present invention, and not all of the examples. All other inventions and embodiments based on the present invention and obtained by a person of ordinary skill in the art without any creative effort belong to the protection scope of the present invention.

Unless otherwise indicated, the examples are carried out according to conventional experimental conditions, such as the molecular cloning Laboratory Manual written by Sambrook et al (New York: Gold Spring Harbor Laboratory Press,1989), the Yeast operating instructions written by Clontech (PT3024-1, 2009), or the conditions as suggested by the manufacturer's instructions.

Materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

Example 1 method for introducing linearized plasmid into Saccharomyces cerevisiae AH109

The method comprises the following steps:

(1) saccharomyces cerevisiae GA-Y233P 1 plasmid integrated Trp1 screening marker gene

Saccharomyces cerevisiae strain F102-2(MATa, leu 2-32-112, his4-519, can1, rho) deposited at the Global center for biological resources⁰) (ATCC, catalog No.200585) can grow on a uracil-deficient medium (SC-Ura) and also on a tryptophan-deficient medium (SC-Trp). In order to facilitate post-mating screening of yeast strains AH109 containing the linear plasmids P1 and P2, the URA3 gene and Trp1 gene of the F102-2 strain were knocked out by means of CRISPR-CAS9 mediated homologous recombination. A strain in which the URA3 gene and the Trp1 gene were knocked out was designated GA-Y233, and this strain could not grow on a uracil-deficient medium (SC-Ura) nor on a tryptophan-deficient medium (SC-Trp).

Saccharomyces cerevisiae AH109(MATa, Trp1-901, leu2-3,112, URA3-52, HIS3-200, GAL 4. delta., GAL 80. delta., LYS2:: GAL1UAS-GAL1TATA-HIS3, MEL1 GAL2UAS-GAL2TATAADE2, URA3:: MEL1UAS-MEL1TATA-lacZ) can grow on defective medium lacking uracil (SC-Ura) and cannot grow on defective medium lacking tryptophan (SC-Trp).

The sequence SEQ ID No.3 was artificially synthesized based on the complete sequence SEQ ID No.1 of the GA-Y233P 1 plasmid of Saccharomyces cerevisiae and the coding sequence SEQ ID No.2 of the Trp1 gene in yeast. The two ends of the sequence SEQ ID No.3 are respectively a BamH I restriction site and a Kpn I restriction site, which is convenient for restriction enzyme recovery of the synthetic fragment. The sequence SEQ ID No.3Trp1 gene coding sequence is followed by a Poly (A) structure for enhancing the expression of Trp1 gene.

After the sequence fragment of SEQ ID No.3 is cut and recovered, a saccharomyces cerevisiae GA-Y233 competent cell is transformed. The transformed cells were plated on SC-deficient medium lacking tryptophan (SC-Trp) and cultured. After 72h, the grown clone was subjected to PCR detection using F-P1-Trp: GAATGGTCATCTGTAAACACTG (SEQ ID No.4) and R-P1-Trp: CGGAATCTAGAGCACATTC (SEQ ID No.5), the amplified fragment is 1554bp, and the specific sequence is shown in SEQ ID No. 6.

The P1 plasmid into which the gene encoding Trp1 had been integrated was designated as P1-Trp. The GA-Y233 strain in which the P1 plasmid was changed to the P1-Trp plasmid was designated GA-Y233-Trp. When the Trp1 encoding gene was integrated into the P1 plasmid, the second and third encoding genes originally present on the P1 plasmid were deleted. The specific sequence of P1-Trp is shown in SEQ ID No. 7.

(2) Knocking out the sequence between bases 289 and 573 of the coding region 289 of the KAR1 gene of the Saccharomyces cerevisiae GA-Y233-Trp strain

The KAR1 gene sequence was searched in the yeast genome database (SGD database for short, https:// www.yeastgenome.org /). Based on the query results, primers F-KAR1: CCAACAATTCAATTTTAACTAAC (SEQ ID No.8) and R-KAR1: CCATCACATGACCAAAAGATATC (SEQ ID No.9) were designed. PCR amplification was carried out using the above primer set with Saccharomyces cerevisiae GA-Y233 genomic DNA as a template to obtain a 2174bp fragment. The fragment contains 441bp upstream of the KAR1 gene start codon and 431bp downstream of the KAR1 gene stop codon, and has the sequence identical to that of the database S288C strain, and the specific sequence is shown in SEQ ID No. 10.

According to the sequence of SEQ ID No.10, a 900bp fragment of the sequence between bases 289 and 573 of the coding region 289 of KAR1 gene is deleted artificially, and the specific sequence is shown in SEQ ID No. 11. The two ends of the fragment are EcoRI enzyme cutting sites, so that the fragment can be conveniently recovered.

Based on the SEQ ID No.10 sequence and the functional domain of KAR1 gene, the target site sequence of CRISPR-Cas9 is designed to be ACCCTTTCTACAATGGATCA (SEQ ID No. 12). The sequence is inserted into a yeast genome editing vector pCAS (Addgene, 60847) to obtain an editing vector pCAS-KAR1 with a target site of KAR1 gene, and the specific sequence is shown in SEQ ID No. 13.

The 900bp restriction fragment and pCAS-KAR1 plasmid were mixed to co-transform Saccharomyces cerevisiae GA-Y233-Trp competent cells. The transformed cells were plated on YPDA medium containing 100mg/L G418 and cultured. After 72h, the colonies were streaked out onto YPDA medium without G418 and grown for a further 36 h. The streaked clones were subjected to PCR using F-KAR 1-JC: GGATCTGATTCAGCACATTG (SEQ ID No.14) and R-KAR 1-JC: GAAGTCTATGCCATTTAGAC (SEQ ID No. 15). If the KAR1 gene is not recombined, the PCR product is 817bp, and the specific sequence is shown in SEQ ID No. 16; if KAR1 gene is recombined, the PCR product is 532bp, and the specific sequence is shown in SEQ ID No. 17.

The GA-Y233-Trp yeast strain in which the KAR1 gene was recombined was named GA-Y233-Trp-Kar 1. The strain can be mated with a yeast strain with mating type MAT alpha, linear plasmids P1-Trp and P2 are introduced into the latter, cytoplasm is fused and nucleus is not fused after mating.

(3) Mating type conversion of Saccharomyces cerevisiae GA-Y233-Trp-Kar1 Strain to MAT alpha

The MAT alpha gene sequence was queried in the SGD database (https:// www.yeastgenome.org /). The specific sequence of MAT alpha gene of the strain S288C is shown in SEQ ID No. 18. Designing a primer F-alpha according to the sequence: GAATTCTTGTATTAGACGAGGGACGGAGTG (SEQ ID No.26) and R- α:

GAATTCTTGATTGTTTGCTTGAGTCTGAG (SEQ ID No. 27). PCR amplification is carried out by using the primer pair and using Saccharomyces cerevisiae GA-Y233 genome DNA as a template to obtain a 2519bp fragment. The two ends of the fragment are EcoRI enzyme cutting sites, the difference of 7 basic groups is found by comparing with SEQ ID No.18, and the specific sequence is shown in SEQ ID No. 19.

According to the specific sequence (SEQ ID No.20) of the MATa gene of the S288C strain searched in the SGD database and the specific marking information of the gene, the target site sequence of CRISPR-Cas9 is designed to be ACAAAAATATTTCTAACAAT (SEQ ID No.21), the sequence is inserted into a yeast genome editing vector pCAS, and the editing vector pCAS-MATa with the target site being the MATa gene is obtained, and the specific sequence is shown in SEQ ID No. 22.

The 2519bp fragment MAT alpha gene fragment recovered by EcoRI enzyme digestion and the pCAS-MATa plasmid are mixed to co-transform the saccharomyces cerevisiae GA-Y233-Trp-Kar1 competent cells. The transformed cells were plated on YPDA medium containing 100mg/L G418 and cultured. After 72h, the colonies were streaked out onto YPDA medium without G418 and grown for a further 36 h. The streaked clones were subjected to PCR using primers F- α -JC: GCACGGAATATGGGACTACTTCG (SEQ ID No.23), F-a-JC: ACTCCACTTCAAGTAAGAGTTTG (SEQ ID No.24) and R- α/a-JC: AGTCACATCAAGATCGTTTATGG (SEQ ID No. 25). The amplification fragments of the F-alpha-JC and the R-alpha/alpha-JC are 404bp, and the amplification fragments of the F-alpha-JC and the R-alpha/alpha-JC are 544 bp. If a 404bp fragment is amplified, the mating type of the strain is MAT alpha; if a 544bp fragment is amplified, the mating type of the strain is MATa. If a 404bp fragment and a 544bp fragment are amplified simultaneously, the strain is diploid.

The GA-Y233-Trp-Kar1 yeast strain whose mating type was converted to MAT α was designated GA-Y233-Trp-Kar1-MAT α. This strain can be mated with commercial yeast strain AH109, to which the linear plasmids P1-Trp and P2 were introduced.

(4) P1-Trp and P2 were introduced into AH109 yeast strain with GA-Y233-Trp-Kar 1-MAT. alpha. yeast strain

Selecting GA-Y233-Trp-Kar1-MAT alpha yeast strain clone and AH109 yeast strain clone grown on YPDA plate, placing into 50mL test tube containing 5mL YPDA liquid culture medium, and shaking to light absorption OD₆₀₀To 0.5-0.6. The two yeast solutions 1:1 were mixed, and the mixed solution was dropped one drop by one drop on a YPDA plate using a pipette gun. Culturing at 30 deg.C for 5h, eluting with defective liquid culture lacking tryptophan and uracil (SC-Trp-Ura), spreading the eluate on SC-Trp-Ura plate, and culturing at 30 deg.C for 96h to obtain monoclonal antibody on the plate.

And selecting a yeast monoclonal growing on the SC-Trp-Ura plate, streaking on the SC-Trp-Ura plate, and detecting the genotype of the clone by PCR after growing for 36 hours. The yeast clones tested were divided into two categories: one is AH109 strain containing P1-Trp and P2 plasmids, named AH 109-P1-Trp; the other is diploid produced by crossing AH109 strain with GA-Y233-Trp-Kar1-MAT alpha strain and is named AH109 XGA-Y233. The primer pairs used for detection are: F-P1-Trp and R-P1-Trp, F-KAR1-JC and R-KAR1-JC, F-alpha-JC and R-alpha/a-JC, F-a-JC and R-alpha/a-JC. As shown in FIG. 1, the amplified genotype of AH109-P1-Trp strain was: F-P1-Trp and R-P1-Trp are subjected to PCR amplification to generate a 1554bp fragment; F-KAR1-JC and R-KAR1-JC are PCR amplified to generate a 817bp fragment; F-alpha-JC and R-alpha/alpha-JC cannot amplify fragments by PCR, and F-alpha-JC and R-alpha/alpha-JC amplify fragments of 544 bp. The amplified genotype of the AH109 XGA-Y233 diploid strain was: F-P1-Trp and R-P1-Trp are subjected to PCR amplification to generate a 1554bp fragment; F-KAR1-JC and R-KAR1-JC are amplified by PCR to generate 817bp fragments and 532bp fragments; F-alpha-JC and R-alpha/alpha-JC are amplified by PCR to generate 404bp fragments, and F-alpha-JC and R-alpha/alpha-JC are amplified to generate 544bp fragments.

Through the four-primer PCR detection, most of yeast clones growing are AH109-P1-Trp strains, accounting for more than 95%.

Sequence listing

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acacataaca taggggagag tactaaaagt gagattattg gaagattagt acgtctccat 60

ttttttctgt ttttttgttt ttatatatta ggttattttt tttcagtttt atatcaactc 120

tgtataacaa gtctattttt ttatatttta agtctatttt acacttttga cctataagtc 180

attttattat acacattttc caactataat atatgaatta cattattaat ttaaaaatgg 240

attacaaaga taaggcttta aatgatctaa gaaatgtata tgccgacttt gattcacttc 300

ctttagattt tagacaaata ttaataaaag atagagccac acttcttcaa aaagaagatg 360

tagaaaagaa aatattggaa agacaagaag atgcaaagaa atatgcagaa tatttaaaac 420

aatcagaaat accagaacga atatctttgc ctaacattaa aagacataaa ggtgtttcta 480

tatcttttga agaaacatca gaagatatgg ttttggaacc aagacctttt atttttgatg 540

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acatggtaaa agaaagttct tcttttaaaa atgtttctag acaatcagtt tctttcatgt 660

attttaaaat ttttaataaa gggaaagtta tagcttctac aaaaagtgta aatatttatg 720

aagataaaat agatgagaga ttagaagatt tgtgtaataa ttttgacgat gtattaaaga 780

aaattataga tgtaacttat ggttatgaaa gtttatttgt ttcagaaaca tattcttatg 840

ttatatttta tgctaaatct atatatttcc ctcaacctag atgtgtgaat aattggggta 900

ataatattcc taatattctt actttcgata gttttaagct tttcacagct aataaaaata 960

atgtttcttg tattaaacag tgctctcgtt ttctgtggca aaaagatttt aatacattag 1020

aagaaatgat agaatataaa aatggtaata tttgtatagt tactcctcaa ttacatataa 1080

atgatgtaag agacataaaa tcatttaacg acatacgttt atattcagaa agtcctatta 1140

aaacattcag tgttatagat aatactataa catatttgtt ttattttaaa gaacatttag 1200

gagttatatt taatattact aaatccagac atgatagaag agtcactaaa tttagtcctt 1260

tgtcaaaatt ttctgatgtt aaaaatataa cagtatgttt tgatatagaa tcttattttg 1320

atccagaaaa agaatctaat caagttaata taccctttat atgttgtgca tctataatat 1380

ataataaagt cataggaaat attgtagatt ttgaaggaag agattgtgta gctcaaatga 1440

tagaatatgt tgtagatata tgtggagagc ttaatatatc ttcagtggaa ctaattgcac 1500

ataatggtgg aggttatgat tttcattata ttttaagtag tatgtataat cctgcagcta 1560

ttaaaaatat attaattaga aataactcat ttataagttt taattttgct cacgatggag 1620

tcaaattttc tgtaaaagat tcctatagtt tcttgttatg tagtttagca aatgcttcaa 1680

aagcattttt aaacgaagaa acctttaaga aaacagattt tccccatcat gatttaaaaa 1740

cagcagatga tttatataaa gtatataaag aatggtcatc tgtaaacact gaaataaatc 1800

atgtagtgga aaaagaaaaa cttcttataa catcagaaca tatagttaat ttcactaaaa 1860

atgataaatc taaaactcta atagaatggt ctaaagatta ttgtagaaat gatgttttgg 1920

ttttatctaa ggtatggtta gaatttaaaa atgctgtaga agatattttt aattgtgaat 1980

tagtagatca aactatgaca ttagcaggac taagttataa attatttcaa gcaaatatgc 2040

cttttgatgt tgaattaaga catccaaata aagaagatta ttttaacatg agagaggctt 2100

taataggagg gagatgtatt agtgtcaatg gaatatataa agatgtttta tgtttagatg 2160

taaaatcatt atatccagca tctatggcat tttatgacca gccatatgga tctttcaaaa 2220

gagtatctag tagacctaaa gatgaattag gtatttatta tgtcagagta actcctaata 2280

gaaataataa atccaacttt tttcctataa gaagtcacaa taaaattact tataataatt 2340

ttgaagaaag tacatatata gcatggtata caaatgtaga tatagatata ggtttgtctg 2400

aaggtcataa tatagaatat atcccctttg attcttatgg aaatataggt tattcttggt 2460

ctaaaaaagg taaaatattc gaaaaatata taaaagacgt gctgtacaaa ttaaaaataa 2520

agtatgaaaa acaaaacaat aaagttaaaa gaaatgttat caaaattatt atgaacagtt 2580

tatggggcaa attcgcacaa aaatgggtaa attttgagta ttttataaaa tcagaagatg 2640

atatagattt tgagtcagaa gaggcatata agatatggga cactgatttt atgctgataa 2700

agaaaattaa agaatctact tattcatcta aacctataca aaatggagta tttacattaa 2760

gttgggcaag ataccacatg aaaagtatat gggatgcagg ggctaaagaa ggagcagaat 2820

gtatctattc ggacacagat agtatttttg tacataaaga acattttaaa aagaatgcta 2880

aatttatgtt aaatggttta aaagttccta ttataggatc agaagtagga caattagaat 2940

tagaatgtga gtttgataaa ttgttatgtg caggtaaaaa gcaatacatg ggattttata 3000

cttattttca agatggaaaa ccatgtataa aagaaaagaa aagatttaag ggtattccta 3060

gtaattatat aatacctgaa ttatatgctc atttactttc aggtgcagac aaagaagcta 3120

aaatacaatt tttgaaattt agaagagaat ggggatcagt taaaggatat atagaaaata 3180

agaccgtgaa agctacttaa tatatgaaag tttttataat aattataaaa tgaatatatt 3240

ttacatattt ttgtttttgc tgtcattcgt tcaaggtttg gagcatactc atcgaagagg 3300

ctccttagtc aaaagagcag tatgttatga cactgatcaa gttccactta atattttctt 3360

tggttataat agagcagata agactgattc taataagaat atggctctaa acatctttaa 3420

tgtttttaga ggttttctag ctggagaagg tggagagtct ttttacaatt ctaatggtaa 3480

tgtttatgga tttatgtggg taggtagtat ggttcataat agaggtttta aagataatat 3540

tttacctata atggaaaatg aagttaagaa ttatggtatt cctaaaacct tgtatttaga 3600

atatgacgga ggtggagatc ctatgaaatc ttttggtatt attttagata caacaagtag 3660

agatactgta gttaaagctg caaaattatg gagtcaaggt aaaaaattaa atagttatga 3720

aggatctaaa aattatcaag ctactgcatg ctatttatct tatgcatata gaaagcccat 3780

tgttaatgat aattttgtag gaacttgcga ctatttcact ttagaaagtg gtaaaacacc 3840

agcagaccaa tctggtatta atggagagtc tctacaaggt tataatccta atttagattt 3900

ctctaaatta tcagcaggac aacctatttg taaaaccata ggtaatcctc ctaattttaa 3960

accttctaag aattcagacg gttcttgtaa aacatacaag gtatcatctg gagagtcttg 4020

ttcttctata gcagttaaat attatccatt aagtttaaat gatatagaaa attataataa 4080

aggtaattat ggatggaaag gatgttctag tcttcaaaaa gattataact tatgtgtgag 4140

tgatggtagt gctcctagac cagtttcaaa tcctatagca gaatgtggtc cattagctcc 4200

aggagagaaa tataatgcta aatgtccttt aaatgcttgt tgtagtgaat ttggtttctg 4260

tggtttaact aaagattatt gtgacaaaaa gagtagtact actggtgctc ctggtacaga 4320

tggctgtttt tctaattgtg gttatggttc tacttctaat gtaaaatcat ctacttttaa 4380

aaagattgct tattggttag atgctaaaga taaattagct atggatccga agaatattcc 4440

taatggtcct tatgatattt tacattatgc ttttgttaat ataaattcag actttagtat 4500

tgatgattct gcattttcaa aatctgcctt tttaaaagtt acttcttcca aaaagatacc 4560

tagttttggt ggttgggatt ttagtacatc tcctagtact tacactatat ttagaaatgc 4620

tgttaaaaca gatcaaaata gaaatacgtt tgctaacaat ttaatcaatt ttatgaataa 4680

atataatctt gatggtatag atttagattg ggaatatcca ggtgctcctg atattccaga 4740

tattcctgct gatgattcaa gtagtggatc taattatcta actttcctta agttattaaa 4800

gggtaaaatg ccttctggta aaaccttatc tatagccatt ccttcttcct attggtattt 4860

aaaaaatttc cctatttctg atattcaaaa cactgtagat tatatggttt acatgacgta 4920

tgatatacat ggtatatggg aatacggtaa agccaatagt tatataaact gccatactcc 4980

tcgtaaagaa attgaagatg ctataaaaat gttagataaa gctggagtta aatttaataa 5040

agtatttgga ggtgtggcaa attacggtag atcctacaaa atggttaata caaattgtta 5100

taattatgga tgcggttttc aaagagaggg aggaaattct agagatatga ctaatacacc 5160

aggtgttctt tctgattcag aaattattga tattgatagt tcagataaaa agaatgatag 5220

atgggtagat actaacacag attgtatttt tatgaaatat gacggaaatt ctgttgtttc 5280

atggcctaaa agtagatacg atttagaaga tatgtttaaa aattatggat ttgctggtac 5340

ttctttatgg gccgctaatt atttcaaaca tgatgaatgg aagaacgatg aagatgataa 5400

taatgatgat acagaagatc ctttcgatga agagaatgta tatttcgatg tttatgattg 5460

caaaaacaaa gctggttatg atctggacaa tccagtttat gggtgtagat tagaaacagc 5520

tataaatatt attatatgga atggtacaga atctgttaat acagttttaa atatattaaa 5580

tgattacgat aattatatta aatattatga agctctaact agagcacatt atgattcagt 5640

catggaaaaa tacgaaaaat ggctgtttga agaagatgga tattacacat attatactga 5700

tgtagacgga gatgatataa ttataactcc tccagataag aagaaaagag attacataca 5760

agagaaatat tcttttgaaa aagaatttat gatgtctcaa aatatgacag aattaacaga 5820

aattaaagtt aataaaacta ttaattttat gttaaatgga acatctctag ctgtaaaaga 5880

atataacaac gaaaaagttt tatataaaag aggagatata cctcctcctg gttctaataa 5940

tagattaatt agaaacagta ttattttaga taaagataaa gaagcagcta ttgcgtcttt 6000

caaacaatat tctggaatag aattatctaa agattctttt gtacaaagag ataaagataa 6060

aaagtttgat ctaaatggta aacattatac atttatgcat agtactattc tgaatgctat 6120

tgttttattc cctaatgttt taacaaatat tgattctgac tatattcatc atatttcaga 6180

tttaattgaa caagctcata acagtttagg taatgaaagt cctgataata tttatgaggt 6240

cttagaaagt gtggttgttt ttatgtctgt atcagaaata gctgattata catatacaga 6300

aggtaaaaag ataaaagaaa aatacgataa gatgaagaaa actatgattg ttggtattat 6360

attgggtatc ataggtggtt tgtctctatt tttaggacct ataggtatag ctacatctgt 6420

tcttgcagat tttgctctat taggagcaga tgccgctata aacggagagt taaatccatc 6480

agacctagca ttcgctttag caggtttatt cttaccagta tttgcttctt taggaaaaac 6540

atttaaattt gctgaagctt tacaaaaaat taatattaat aaatctaaaa actttgataa 6600

tttaaatgaa tttgagaaaa taagattttt cagatctaaa ttagggaaag ttaagatgtg 6660

tggctcttaa aagtaatgga tgaccattat tcttgtgtaa attgtcaaaa tctacatctt 6720

catatttatg atatttaaat atatattttt cgttttcaaa atctaaatgt tgacacatac 6780

ctccttcttt ttttgcttta ttcatcataa tattataaaa ttcaatacta ccagaagcat 6840

aagctattct tattaaatct atatctggac tataattttc taaatcttca gttatattca 6900

taatagcata atttactaat attgcatatc tttggcgtgg aaaatcgata agtagttttt 6960

gaaccatata tttatttaaa gttttataag tgtaaaaata aaaaggccta taaagagaca 7020

caaagtttga atcataaata tcattcacta ataaatttaa tactgctttt ttacacaaat 7080

catctggata ttctttatga tgtttaagta cataagctga atttaaaaaa ttaaattcaa 7140

ctgtatttat atttatatct aaataaggtt tataagagac catattatag tacacacttt 7200

tatctacaga aacacaatcc ataggaccaa attctgtatt ttgactataa tctatatatg 7260

tatataacat atcatctata atttgttcta tattactttg tttagaagta taattatatt 7320

taaaaaatat ttctaaagtt gtgtctttat tcctgagtat agtttcagga agtaaatatt 7380

tgtctttttc tactttttct aaaatatttt tattttcatg tattttataa ttatatatag 7440

tatcttcttc gcaaaaagat cttctattaa aaattataga taatctaaaa caaacttctg 7500

tacatatttt atcacattta tcacaaacat catcccaacc taataaaaca catattgttt 7560

taataactaa actatattta ggatcttttt ctaataaata tatacaagtt tctttagtag 7620

gaacattagg ataccaaatt cctgaaggca aatatttaaa attaaaatca caaaccttgt 7680

tactcataat atatctagca gatatactgg aaagtattcc agatgttaat tttaaacctg 7740

aattttccat tttaactgca aaattataac tatttcttat tcctatacat aaatgaaagt 7800

ttaaatcatc ttcatcaaaa agctcttcat tatcataata tttaataaaa ttttcataat 7860

ctgaataata agcataagta catgctttaa aataatctga aagattatta tctaattcta 7920

aacacatttt taattaaaat gaagatatat catatattta gtgtttgtta tctaataaca 7980

ttatgtgctg ctgcagctac tactgcgaga gaggagtttt tcttatgtta tgatttaatt 8040

agatatttaa aacaatatga aaaaacagga gagagtaaat tagtagaaca aacatttttt 8100

aatagtatta aaaacttaga cataaactct agagagtata tggaacttgt atataacaaa 8160

atagcaggta tttccaatga aagaaataaa tttgaaaata tatataaaga tggagattct 8220

ataagtcaag ttgtagaaag agctgtaagc gaaaagaaac ttacatttgg attaaacggt 8280

aaaggattat atgttccaga aaacggagaa ccccgactaa aaggttatgc ttctattata 8340

gaaagaataa ctctggattt aatggaaata tattctatta aaggacttaa tgatatacct 8400

agagatataa aatttaatat ggaaaaaata agacaagaaa gatacaacca aatgaaagaa 8460

gctctaaata gtgttgaagg ttataaagga aaaattgtag cctcagactc agattggtgt 8520

ttcaaagatc ctcaaggcaa tagaataaca gattttgata gtattaataa agaattaggt 8580

cttggtagaa gagatgtaaa attagataaa ggtcatgatg atttaattaa attatgtact 8640

gaaaaaatag atagtatgaa taatctacag aatggaaaat gtgtataata aaatgactta 8700

taggtcaaaa gtgtaaaata gacttaaaat ataaaaaaat agacttgtta tacagagttg 8760

atataaaact gaaaaaaaat aacctaatat ataaaaacaa aaaaacagaa aaaaatggag 8820

acgtactaat cttccaataa tctcactttt agtactctcc cctatgttat gtgt 8874

<210> 2

<211> 675

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 2

atgtctgtta ttaatttcac aggtagttct ggtccattgg tgaaagtttg cggcttgcag 60

agcacagagg ccgcagaatg tgctctagat tccgatgctg acttgctggg tattatatgt 120

gtgcccaata gaaagagaac aattgacccg gttattgcaa ggaaaatttc aagtcttgta 180

aaagcatata aaaatagttc aggcactccg aaatacttgg ttggcgtgtt tcgtaatcaa 240

cctaaggagg atgttttggc tctggtcaat gattacggca ttgatatcgt ccaactgcat 300

ggagatgagt cgtggcaaga ataccaagag ttcctcggtt tgccagttat taaaagactc 360

gtatttccaa aagactgcaa catactactc agtgcagctt cacagaaacc tcattcgttt 420

attcccttgt ttgattcaga agcaggtggg acaggtgaac ttttggattg gaactcgatt 480

tctgactggg ttggaaggca agagagcccc gaaagcttac attttatgtt agctggtgga 540

ctgacgccag aaaatgttgg tgatgcgctt agattaaatg gcgttattgg tgttgatgta 600

agcggaggtg tggagacaaa tggtgtaaaa gactctaaca aaatagcaaa tttcgtcaaa 660

aatgctaaga aatag 675

<210> 3

<211> 2800

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 3

ggatccgatc aaactatgac attagcagga ctaagttata aattatttca agcaaatatg 60

ccttttgatg ttgaattaag acatccaaat aaagaagatt attttaacat gagagaggct 120

ttaataggag ggagatgtat tagtgtcaat ggaatatata aagatgtttt atgtttagat 180

gtaaaatcat tatatccagc atctatggca ttttatgacc agccatatgg atctttcaaa 240

agagtatcta gtagacctaa agatgaatta ggtatttatt atgtcagagt aactcctaat 300

agaaataata aatccaactt ttttcctata agaagtcaca ataaaattac ttataataat 360

tttgaagaaa gtacatatat agcatggtat acaaatgtag atatagatat aggtttgtct 420

gaaggtcata atatagaata tatccccttt gattcttatg gaaatatagg ttattcttgg 480

tctaaaaaag gtaaaatatt cgaaaaatat ataaaagacg tgctgtacaa attaaaaata 540

aagtatgaaa aacaaaacaa taaagttaaa agaaatgtta tcaaaattat tatgaacagt 600

ttatggggca aattcgcaca aaaatgggta aattttgagt attttataaa atcagaagat 660

gatatagatt ttgagtcaga agaggcatat aagatatggg acactgattt tatgctgata 720

aagaaaatta aagaatctac ttattcatct aaacctatac aaaatggagt atttacatta 780

agttgggcaa gataccacat gaaaagtata tgggatgcag gggctaaaga aggagcagaa 840

tgtatctatt cggacacaga tagtattttt gtacataaag aacattttaa aaagaatgct 900

aaatttatgt taaatggttt aaaagttcct attataggat cagaagtagg acaattagaa 960

ttagaatgtg agtttgataa attgttatgt gcaggtaaaa agcaatacat gggattttat 1020

acttattttc aagatggaaa accatgtata aaagaaaaga aaagatttaa gggtattcct 1080

agtaattata taatacctga attatatgct catttacttt caggtgcaga caaagaagct 1140

aaaatacaat ttttgaaatt tagaagagaa tggggatcag ttaaaggata tatagaaaat 1200

aagaccgtga aagctactta atatatgaaa gtttttataa taattataaa atgtctgtta 1260

ttaatttcac aggtagttct ggtccattgg tgaaagtttg cggcttgcag agcacagagg 1320

ccgcagaatg tgctctagat tccgatgctg acttgctggg tattatatgt gtgcccaata 1380

gaaagagaac aattgacccg gttattgcaa ggaaaatttc aagtcttgta aaagcatata 1440

aaaatagttc aggcactccg aaatacttgg ttggcgtgtt tcgtaatcaa cctaaggagg 1500

atgttttggc tctggtcaat gattacggca ttgatatcgt ccaactgcat ggagatgagt 1560

cgtggcaaga ataccaagag ttcctcggtt tgccagttat taaaagactc gtatttccaa 1620

aagactgcaa catactactc agtgcagctt cacagaaacc tcattcgttt attcccttgt 1680

ttgattcaga agcaggtggg acaggtgaac ttttggattg gaactcgatt tctgactggg 1740

ttggaaggca agagagcccc gaaagcttac attttatgtt agctggtgga ctgacgccag 1800

aaaatgttgg tgatgcgctt agattaaatg gcgttattgg tgttgatgta agcggaggtg 1860

tggagacaaa tggtgtaaaa gactctaaca aaatagcaaa tttcgtcaaa aatgctaaga 1920

aatagctgca ggaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 1980

aaaaaaaaaa aaaaaaaaaa aaacctgtca ccggatgtgt tttccggtct gatgagtccg 2040

tgaggacgaa acagggaatt ctgaagatat atcatatatt tagtgtttgt tatctaataa 2100

cattatgtgc tgctgcagct actactgcga gagaggagtt tttcttatgt tatgatttaa 2160

ttagatattt aaaacaatat gaaaaaacag gagagagtaa attagtagaa caaacatttt 2220

ttaatagtat taaaaactta gacataaact ctagagagta tatggaactt gtatataaca 2280

aaatagcagg tatttccaat gaaagaaata aatttgaaaa tatatataaa gatggagatt 2340

ctataagtca agttgtagaa agagctgtaa gcgaaaagaa acttacattt ggattaaacg 2400

gtaaaggatt atatgttcca gaaaacggag aaccccgact aaaaggttat gcttctatta 2460

tagaaagaat aactctggat ttaatggaaa tatattctat taaaggactt aatgatatac 2520

ctagagatat aaaatttaat atggaaaaaa taagacaaga aagatacaac caaatgaaag 2580

aagctctaaa tagtgttgaa ggttataaag gaaaaattgt agcctcagac tcagattggt 2640

gtttcaaaga tcctcaaggc aatagaataa cagattttga tagtattaat aaagaattag 2700

gtcttggtag aagagatgta aaattagata aaggtcatga tgatttaatt aaattatgta 2760

ctgaaaaaat agatagtatg aataatctac agaaggtacc 2800

<210> 4

<211> 22

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 4

gaatggtcat ctgtaaacac tg 22

<210> 5

<211> 19

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 5

cggaatctag agcacattc 19

<210> 6

<211> 1554

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 6

gaatggtcat ctgtaaacac tgaaataaat catgtagtgg aaaaagaaaa acttcttata 60

acatcagaac atatagttaa tttcactaaa aatgataaat ctaaaactct aatagaatgg 120

tctaaagatt attgtagaaa tgatgttttg gttttatcta aggtatggtt agaatttaaa 180

aatgctgtag aagatatttt taattgtgaa ttagtagatc aaactatgac attagcagga 240

ctaagttata aattatttca agcaaatatg ccttttgatg ttgaattaag acatccaaat 300

aaagaagatt attttaacat gagagaggct ttaataggag ggagatgtat tagtgtcaat 360

ggaatatata aagatgtttt atgtttagat gtaaaatcat tatatccagc atctatggca 420

ttttatgacc agccatatgg atctttcaaa agagtatcta gtagacctaa agatgaatta 480

ggtatttatt atgtcagagt aactcctaat agaaataata aatccaactt ttttcctata 540

agaagtcaca ataaaattac ttataataat tttgaagaaa gtacatatat agcatggtat 600

acaaatgtag atatagatat aggtttgtct gaaggtcata atatagaata tatccccttt 660

gattcttatg gaaatatagg ttattcttgg tctaaaaaag gtaaaatatt cgaaaaatat 720

ataaaagacg tgctgtacaa attaaaaata aagtatgaaa aacaaaacaa taaagttaaa 780

agaaatgtta tcaaaattat tatgaacagt ttatggggca aattcgcaca aaaatgggta 840

aattttgagt attttataaa atcagaagat gatatagatt ttgagtcaga agaggcatat 900

aagatatggg acactgattt tatgctgata aagaaaatta aagaatctac ttattcatct 960

aaacctatac aaaatggagt atttacatta agttgggcaa gataccacat gaaaagtata 1020

tgggatgcag gggctaaaga aggagcagaa tgtatctatt cggacacaga tagtattttt 1080

gtacataaag aacattttaa aaagaatgct aaatttatgt taaatggttt aaaagttcct 1140

attataggat cagaagtagg acaattagaa ttagaatgtg agtttgataa attgttatgt 1200

gcaggtaaaa agcaatacat gggattttat acttattttc aagatggaaa accatgtata 1260

aaagaaaaga aaagatttaa gggtattcct agtaattata taatacctga attatatgct 1320

catttacttt caggtgcaga caaagaagct aaaatacaat ttttgaaatt tagaagagaa 1380

tggggatcag ttaaaggata tatagaaaat aagaccgtga aagctactta atatatgaaa 1440

gtttttataa taattataaa atgtctgtta ttaatttcac aggtagttct ggtccattgg 1500

tgaaagtttg cggcttgcag agcacagagg ccgcagaatg tgctctagat tccg 1554

<210> 7

<211> 4975

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 7

acacataaca taggggagag tactaaaagt gagattattg gaagattagt acgtctccat 60

ttttttctgt ttttttgttt ttatatatta ggttattttt tttcagtttt atatcaactc 120

tgtataacaa gtctattttt ttatatttta agtctatttt acacttttga cctataagtc 180

attttattat acacattttc caactataat atatgaatta cattattaat ttaaaaatgg 240

attacaaaga taaggcttta aatgatctaa gaaatgtata tgccgacttt gattcacttc 300

ctttagattt tagacaaata ttaataaaag atagagccac acttcttcaa aaagaagatg 360

tagaaaagaa aatattggaa agacaagaag atgcaaagaa atatgcagaa tatttaaaac 420

aatcagaaat accagaacga atatctttgc ctaacattaa aagacataaa ggtgtttcta 480

tatcttttga agaaacatca gaagatatgg ttttggaacc aagacctttt atttttgatg 540

gattaaatat tagatgtttt agacgagaga caattttctc tctcaaaaat aaaatattaa 600

acatggtaaa agaaagttct tcttttaaaa atgtttctag acaatcagtt tctttcatgt 660

attttaaaat ttttaataaa gggaaagtta tagcttctac aaaaagtgta aatatttatg 720

aagataaaat agatgagaga ttagaagatt tgtgtaataa ttttgacgat gtattaaaga 780

aaattataga tgtaacttat ggttatgaaa gtttatttgt ttcagaaaca tattcttatg 840

ttatatttta tgctaaatct atatatttcc ctcaacctag atgtgtgaat aattggggta 900

ataatattcc taatattctt actttcgata gttttaagct tttcacagct aataaaaata 960

atgtttcttg tattaaacag tgctctcgtt ttctgtggca aaaagatttt aatacattag 1020

aagaaatgat agaatataaa aatggtaata tttgtatagt tactcctcaa ttacatataa 1080

atgatgtaag agacataaaa tcatttaacg acatacgttt atattcagaa agtcctatta 1140

aaacattcag tgttatagat aatactataa catatttgtt ttattttaaa gaacatttag 1200

gagttatatt taatattact aaatccagac atgatagaag agtcactaaa tttagtcctt 1260

tgtcaaaatt ttctgatgtt aaaaatataa cagtatgttt tgatatagaa tcttattttg 1320

atccagaaaa agaatctaat caagttaata taccctttat atgttgtgca tctataatat 1380

ataataaagt cataggaaat attgtagatt ttgaaggaag agattgtgta gctcaaatga 1440

tagaatatgt tgtagatata tgtggagagc ttaatatatc ttcagtggaa ctaattgcac 1500

ataatggtgg aggttatgat tttcattata ttttaagtag tatgtataat cctgcagcta 1560

ttaaaaatat attaattaga aataactcat ttataagttt taattttgct cacgatggag 1620

tcaaattttc tgtaaaagat tcctatagtt tcttgttatg tagtttagca aatgcttcaa 1680

aagcattttt aaacgaagaa acctttaaga aaacagattt tccccatcat gatttaaaaa 1740

cagcagatga tttatataaa gtatataaag aatggtcatc tgtaaacact gaaataaatc 1800

atgtagtgga aaaagaaaaa cttcttataa catcagaaca tatagttaat ttcactaaaa 1860

atgataaatc taaaactcta atagaatggt ctaaagatta ttgtagaaat gatgttttgg 1920

ttttatctaa ggtatggtta gaatttaaaa atgctgtaga agatattttt aattgtgaat 1980

tagtagatca aactatgaca ttagcaggac taagttataa attatttcaa gcaaatatgc 2040

cttttgatgt tgaattaaga catccaaata aagaagatta ttttaacatg agagaggctt 2100

taataggagg gagatgtatt agtgtcaatg gaatatataa agatgtttta tgtttagatg 2160

taaaatcatt atatccagca tctatggcat tttatgacca gccatatgga tctttcaaaa 2220

gagtatctag tagacctaaa gatgaattag gtatttatta tgtcagagta actcctaata 2280

gaaataataa atccaacttt tttcctataa gaagtcacaa taaaattact tataataatt 2340

ttgaagaaag tacatatata gcatggtata caaatgtaga tatagatata ggtttgtctg 2400

aaggtcataa tatagaatat atcccctttg attcttatgg aaatataggt tattcttggt 2460

ctaaaaaagg taaaatattc gaaaaatata taaaagacgt gctgtacaaa ttaaaaataa 2520

agtatgaaaa acaaaacaat aaagttaaaa gaaatgttat caaaattatt atgaacagtt 2580

tatggggcaa attcgcacaa aaatgggtaa attttgagta ttttataaaa tcagaagatg 2640

atatagattt tgagtcagaa gaggcatata agatatggga cactgatttt atgctgataa 2700

agaaaattaa agaatctact tattcatcta aacctataca aaatggagta tttacattaa 2760

gttgggcaag ataccacatg aaaagtatat gggatgcagg ggctaaagaa ggagcagaat 2820

gtatctattc ggacacagat agtatttttg tacataaaga acattttaaa aagaatgcta 2880

aatttatgtt aaatggttta aaagttccta ttataggatc agaagtagga caattagaat 2940

tagaatgtga gtttgataaa ttgttatgtg caggtaaaaa gcaatacatg ggattttata 3000

cttattttca agatggaaaa ccatgtataa aagaaaagaa aagatttaag ggtattccta 3060

gtaattatat aatacctgaa ttatatgctc atttactttc aggtgcagac aaagaagcta 3120

aaatacaatt tttgaaattt agaagagaat ggggatcagt taaaggatat atagaaaata 3180

agaccgtgaa agctacttaa tatatgaaag tttttataat aattataaaa tgtctgttat 3240

taatttcaca ggtagttctg gtccattggt gaaagtttgc ggcttgcaga gcacagaggc 3300

cgcagaatgt gctctagatt ccgatgctga cttgctgggt attatatgtg tgcccaatag 3360

aaagagaaca attgacccgg ttattgcaag gaaaatttca agtcttgtaa aagcatataa 3420

aaatagttca ggcactccga aatacttggt tggcgtgttt cgtaatcaac ctaaggagga 3480

tgttttggct ctggtcaatg attacggcat tgatatcgtc caactgcatg gagatgagtc 3540

gtggcaagaa taccaagagt tcctcggttt gccagttatt aaaagactcg tatttccaaa 3600

agactgcaac atactactca gtgcagcttc acagaaacct cattcgttta ttcccttgtt 3660

tgattcagaa gcaggtggga caggtgaact tttggattgg aactcgattt ctgactgggt 3720

tggaaggcaa gagagccccg aaagcttaca ttttatgtta gctggtggac tgacgccaga 3780

aaatgttggt gatgcgctta gattaaatgg cgttattggt gttgatgtaa gcggaggtgt 3840

ggagacaaat ggtgtaaaag actctaacaa aatagcaaat ttcgtcaaaa atgctaagaa 3900

atagctgcag gaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa 3960

aaaaaaaaaa aaaaaaaaaa aacctgtcac cggatgtgtt ttccggtctg atgagtccgt 4020

gaggacgaaa cagggaattc tgaagatata tcatatattt agtgtttgtt atctaataac 4080

attatgtgct gctgcagcta ctactgcgag agaggagttt ttcttatgtt atgatttaat 4140

tagatattta aaacaatatg aaaaaacagg agagagtaaa ttagtagaac aaacattttt 4200

taatagtatt aaaaacttag acataaactc tagagagtat atggaacttg tatataacaa 4260

aatagcaggt atttccaatg aaagaaataa atttgaaaat atatataaag atggagattc 4320

tataagtcaa gttgtagaaa gagctgtaag cgaaaagaaa cttacatttg gattaaacgg 4380

taaaggatta tatgttccag aaaacggaga accccgacta aaaggttatg cttctattat 4440

agaaagaata actctggatt taatggaaat atattctatt aaaggactta atgatatacc 4500

tagagatata aaatttaata tggaaaaaat aagacaagaa agatacaacc aaatgaaaga 4560

agctctaaat agtgttgaag gttataaagg aaaaattgta gcctcagact cagattggtg 4620

tttcaaagat cctcaaggca atagaataac agattttgat agtattaata aagaattagg 4680

tcttggtaga agagatgtaa aattagataa aggtcatgat gatttaatta aattatgtac 4740

tgaaaaaata gatagtatga ataatctaca gaatggaaaa tgtgtataat aaaatgactt 4800

ataggtcaaa agtgtaaaat agacttaaaa tataaaaaaa tagacttgtt atacagagtt 4860

gatataaaac tgaaaaaaaa taacctaata tataaaaaca aaaaaacaga aaaaaatgga 4920

gacgtactaa tcttccaata atctcacttt tagtactctc ccctatgtta tgtgt 4975

<210> 8

<211> 23

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 8

ccaacaattc aattttaact aac 23

<210> 9

<211> 23

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 9

ccatcacatg accaaaagat atc 23

<210> 10

<211> 2174

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 10

ccaacaattc aattttaact aactgaatgt gaagaaaaag atcaactaaa taagtttatt 60

cagataaatc ttcattatct gatccattat ttttaagttt ttcttttaat gtatataaga 120

aattctaatc ttttaattcg cacaatagta ttttcatgta ctagttcgta cagtattctc 180

tttctctggg gtttttccct tttatagaag ttgacttgtt ctatagttgt tatatatgta 240

ttgctgggtt ttttaatcta ttttgcggaa gacgccaaaa ataagaaaaa aattggaaag 300

acacaagaaa aaagtaagaa tatccacagc tgaaagatct aacaggcgta tttttatttt 360

cgaagaaacg tcctaaaagg atctgattca gcacattgat aatagcatag gcatttttat 420

ctttcttttt tgagttcatg aatgaatgta acttctccaa aagatgggaa tcacagtttc 480

tcgaagaaaa atagatttaa tacaaataaa ccgcgattcc acaaactaaa tgagcaggcg 540

cagagtataa atttaccaga agaccgtgat tcaattgttt caagtaatac aacgtcaatt 600

atgacagatg atgcatttga ttacaatgag ggcattgcat cgcgtaccaa aaatattaat 660

tctgatagtg atagaagcaa tgataccata aaacaaaaca actacaataa aagggagacc 720

ggatataacc ctttctacaa tggatcaggg atcaatcagc gatatacaca gtttcgaaaa 780

agagagtttg aaccaacact tgcagaaaac aaagccgaag agtacatatc ggacgaagat 840

aatgtaaaaa ttgatgaaga taatatagag aacgaactcc agtttacgcc gaaaattaaa 900

gaggctagta tactccgatc tagtttacta ggacaaagaa atgttttaaa tactcggaat 960

ccaaaatcaa aagaatcaca cattaaagta aaacccatca tcaataacaa gagctcctca 1020

caaagaaaat ctagtgcagc acttcggaaa caattaggaa aacccctacc gctgccgtat 1080

ttgaatagcc ctaatagtga tagtacaccc acattacaga gaaaagaaga agtattcaca 1140

gacgaagtgc ttcaaaaaaa gagagaattg attgagtcta aatggcatag acttctcttt 1200

catgacaaaa aaatggtgga aaaaaagcta gaaagtttaa gagaatacga aaggaaaaga 1260

atgcctccac gaggaactga tgtttctagc tctgagcagg acaattcttt caaaatatcg 1320

acgccaacaa aatcgtatgt ttctttggag caaaaaccct taccaaatct ctctgctatg 1380

aataacttta atgatgttac cgacaataag gagaaagaag aaacgaacaa caatatatta 1440

aagttccaag cgcaacgaga tccattacaa atactacagt ctgagatcga aatgcatact 1500

aagaaacttg acacgataat agagttacta aaagacgata ccgattcaaa ggaaaaaagg 1560

aaagtagtga ctaatgacaa cgcagcgcct gaacaaatgg tcaacaaagg atggcggaaa 1620

aacgtgatga tgatctacaa aaaatcagga aatattatga aaaagtatag ggaatatttc 1680

ttatggacaa tttgtatttt aatattgtta tattgcaata tatatgtgta ttataggttt 1740

taaaccatat aaaggttagt acatgaagaa gtgtgtacag ttatggcaat aactgttctc 1800

ttccgtttta aagagagtat tatcacggtc tgaaaattaa gcaaaaaaag aaaagcgtgc 1860

acttaaaaat cggtggtgga cagaccgcat attccataaa catagatggt acaagggcat 1920

tatgagtcct tgaatagaaa aaatgatgaa agaatgaatg caattccgta ttgcgacact 1980

ggcgaagtgt tcgaggctga cacgatagcg aatgtatgga aaagagaaga taaggaatgg 2040

ttaaaaagga ctcaaagtga tcgaagtgga tacgagtatc cacgactagg agaatcacca 2100

tatatcaata tgacagacga cttcagaatg gaaaagaagg taatatgtca agatatcttt 2160

tggtcatgtg atgg 2174

<210> 11

<211> 900

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 11

gaattcatga atgtaacttc tccaaaagat gggaatcaca gtttctcgaa gaaaaataga 60

tttaatacaa ataaaccgcg attccacaaa ctaaatgagc aggcgcagag tataaattta 120

ccagaagacc gtgattcaat tgtttcaagt aatacaacgt caattatgac agatgatgca 180

tttgattaca atgagggcat tgcatcgcgt accaaaaata ttaattctga tagtgataga 240

agcaatgata ccataaaaca aaacaactac aataaaaggg agaccggata taactcctca 300

caaagaaaat ctagtgcagc acttcggaaa caattaggaa aacccctacc gctgccgtat 360

ttgaatagcc ctaatagtga tagtacaccc acattacaga gaaaagaaga agtattcaca 420

gacgaagtgc ttcaaaaaaa gagagaattg attgagtcta aatggcatag acttctcttt 480

catgacaaaa aaatggtgga aaaaaagcta gaaagtttaa gagaatacga aaggaaaaga 540

atgcctccac gaggaactga tgtttctagc tctgagcagg acaattcttt caaaatatcg 600

acgccaacaa aatcgtatgt ttctttggag caaaaaccct taccaaatct ctctgctatg 660

aataacttta atgatgttac cgacaataag gagaaagaag aaacgaacaa caatatatta 720

aagttccaag cgcaacgaga tccattacaa atactacagt ctgagatcga aatgcatact 780

aagaaacttg acacgataat agagttacta aaagacgata ccgattcaaa ggaaaaaagg 840

aaagtagtga ctaatgacaa cgcagcgcct gaacaaatgg tcaacaaagg atgggaattc 900

<210> 12

<211> 20

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 12

accctttcta caatggatca 20

<210> 13

<211> 8743

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 13

gaacagaaat gcaacgcgag agcgctattt taccaacaaa gaatctatac ttcttttttg 60

ttctacaaaa atgcatcccg agagcgctat ttttctaaca aagcatctta gattactttt 120

tttctccttt gtgcgctcta taatgcagtc tcttgataac tttttgcact gtaggtccgt 180

taaggttaga agaaggctac tttggtgtct attttctctt ccataaaaaa agcctgactc 240

cacttcccgc gtttactgat tactagcgaa gctgcgggtg cattttttca agataaaggc 300

atccccgatt atattctata ccgatgtgga ttgcgcatac tttgtgaaca gaaagtgata 360

gcgttgatga ttcttcattg gtcagaaaat tatgaacggt ttcttctatt ttgtctctat 420

atactacgta taggaaatgt ttacattttc gtattgtttt cgattcactc tatgaatagt 480

tcttactaca atttttttgt ctaaagagta atactagaga taaacataaa aaatgtagag 540

gtcgagttta gatgcaagtt caaggagcga aaggtggatg ggtaggttat atagggatat 600

agcacagaga tatatagcaa agagatactt ttgagcaatg tttgtggaag cggtattcgc 660

aatattttag tagcccgtta cagtccggtg cgtttttggt tttttgaaag tgcgtcttca 720

gagcgctttt ggttttcaaa agcgctctga agttcctata ctttctagag aataggaact 780

tcggaatagg aacttcaaag cgtttccgaa aacgagcgct tccgaaaatg caacgcgagc 840

tgcgcacata cagctcactg ttcacgtcgc acctatatct gcgtgttgcc tgtatatata 900

tatacatgag aagaacggca tagtgcgtgt ttatgcttaa atgcgtatat gtgttatgta 960

gtatactctt tcttcaacaa ttaaatactc tcggtagcca agttggttta aggcgcaaga 1020

ctgtaattta tcactacgaa atcttgagat cgggcgttcg actcgccccc gggagagatg 1080

gccggcatgg tcccagcctc ctcgctggcg ccggctgggc aacaccttcg ggtggcgaat 1140

gggactttac cctttctaca atggatcagt tttagagcta gaaatagcaa gttaaaataa 1200

ggctagtccg ttatcaactt gaaaaagtgg caccgagtcg gtgctttttt tattttttgt 1260

cactattgtt atgtaaaatg ccacctctga cagtatggaa cgcaaacttc tgtctagtgg 1320

atataggtct agagatctgt ttagcttgcc tcgtccccgc cgggtcaccc ggccagcgac 1380

atggaggccc agaataccct ccttgacagt cttgacgtgc gcagctcagg ggcatgatgt 1440

gactgtcgcc cgtacattta gcccatacat ccccatgtat aatcatttgc atccatacat 1500

tttgatggcc gcacggcgcg aagcaaaaat tacggctcct cgctgcagac ctgcgagcag 1560

ggaaacgctc ccctcacaga cgcgttgaat tgtccccacg ccgcgcccct gtagagaaat 1620

ataaaaggtt aggatttgcc actgaggttc ttctttcata tacttccttt taaaatcttg 1680

ctaggataca gttctcacat cacatccgaa cataaacaac catgggtaag gaaaagactc 1740

acgtttcgag gccgcgatta aattccaaca tggatgctga tttatatggg tataaatggg 1800

ctcgcgataa tgtcgggcaa tcaggtgcga caatctatcg attgtatggg aagcccgatg 1860

cgccagagtt gtttctgaaa catggcaaag gtagcgttgc caatgatgtt acagatgaga 1920

tggtcagact aaactggctg acggaattta tgcctcttcc gaccatcaag cattttatcc 1980

gtactcctga tgatgcatgg ttactcacca ctgcgatccc cggcaaaaca gcattccagg 2040

tattagaaga atatcctgat tcaggtgaaa atattgttga tgcgctggca gtgttcctgc 2100

gccggttgca ttcgattcct gtttgtaatt gtccttttaa cagcgatcgc gtatttcgtc 2160

tcgctcaggc gcaatcacga atgaataacg gtttggttga tgcgagtgat tttgatgacg 2220

agcgtaatgg ctggcctgtt gaacaagtct ggaaagaaat gcataagctt ttgccattct 2280

caccggattc agtcgtcact catggtgatt tctcacttga taaccttatt tttgacgagg 2340

ggaaattaat aggttgtatt gatgttggac gagtcggaat cgcagaccga taccaggatc 2400

ttgccatcct atggaactgc ctcggtgagt tttctccttc attacagaaa cggctttttc 2460

aaaaatatgg tattgataat cctgatatga ataaattgca gtttcatttg atgctcgatg 2520

agtttttcta atcagtactg acaataaaaa gattcttgtt ttcaagaact tgtcatttgt 2580

atagtttttt tatattgtag ttgttctatt ttaatcaaat gttagcgtga tttatatttt 2640

ttttcgcctc gacatcatct gcccagatgc gaagttaagt gcgcagaaag taatatcatg 2700

cgtcaatcgt atgtgaatgc tggtcgctat actgctgtcg attcgatact aacgccgcca 2760

tccagtgtcg aaaacgagct ctcgagaacc cttaatagtc gaacaagaag caggcaaagt 2820

ttagagcact gcccctccgc actcaaaaaa gaaaaaacta ggaggaaaat aaaattctca 2880

accacacaaa cacataaaca catacaaata caaatacaag cttatttact tgacatcgcg 2940

cgatcttcca ctattcagcg ccgtccgccc tctctcgtgt tttttgttta cgcgacaact 3000

atgcgaaatc cggagcaacg ggcaaccgtt tggggaaaga ccacacccac gcgcgatcgc 3060

catggcaacg aggtcgcaca cgccccacac ccagacctcc ctgcgagcgg gcatgggtac 3120

aatgtccccg ttgccacaga caccacttcg tagcacagcg cagagcgtag cgtgttgttg 3180

ctgctgacaa aagaaaattt ttcttagcaa agcaaaggag gggaagcacg ggcagatagc 3240

accgtaccat acccttggaa actcgaaatg aacgaagcag gaaatgagag aatgagagtt 3300

ttgtaggtat atatagcggt agtgtttgcg cgttaccatc atcttctgga tctatctatt 3360

gttcttttcc tcatcacttt cccctttttc gctcttcttc ttgtctttta tttctttctt 3420

ttttttaatt gttccctcga ttggctatct accaaagaat ccaaacttaa tacacgtatt 3480

tatttgtcca attaccatgg ataagaaata ctcaataggc ttagatatcg gcacaaatag 3540

cgtcggatgg gcggtgatca ctgatgaata taaggttccg tctaaaaagt tcaaggttct 3600

gggaaataca gaccgccaca gtatcaaaaa aaatcttata ggggctcttt tatttgacag 3660

tggagagaca gcggaagcga ctcgtctcaa acggacagct cgtagaaggt atacacgtcg 3720

gaagaatcgt atttgttatc tacaggagat tttttcaaat gagatggcga aagtagatga 3780

tagtttcttt catcgacttg aagagtcttt tttggtggaa gaagacaaga agcatgaacg 3840

tcatcctatt tttggaaata tagtagatga agttgcttat catgagaaat atccaactat 3900

ctatcatctg cgaaaaaaat tggtagattc tactgataaa gcggatttgc gcttaatcta 3960

tttggcctta gcgcatatga ttaagtttcg tggtcatttt ttgattgagg gagatttaaa 4020

tcctgataat agtgatgtgg acaaactatt tatccagttg gtacaaacct acaatcaatt 4080

atttgaagaa aaccctatta acgcaagtgg agtagatgct aaagcgattc tttctgcacg 4140

attgagtaaa tcaagacgat tagaaaatct cattgctcag ctccccggtg agaagaaaaa 4200

tggcttattt gggaatctca ttgctttgtc attgggtttg acccctaatt ttaaatcaaa 4260

ttttgatttg gcagaagatg ctaaattaca gctttcaaaa gatacttacg atgatgattt 4320

agataattta ttggcgcaaa ttggagatca atatgctgat ttgtttttgg cagctaagaa 4380

tttatcagat gctattttac tttcagatat cctaagagta aatactgaaa taactaaggc 4440

tcccctatca gcttcaatga ttaaacgcta cgatgaacat catcaagact tgactctttt 4500

aaaagcttta gttcgacaac aacttccaga aaagtataaa gaaatctttt ttgatcaatc 4560

aaaaaacgga tatgcaggtt atattgatgg gggagctagc caagaagaat tttataaatt 4620

tatcaaacca attttagaaa aaatggatgg tactgaggaa ttattggtga aactaaatcg 4680

tgaagatttg ctgcgcaagc aacggacctt tgacaacggc tctattcccc atcaaattca 4740

cttgggtgag ctgcatgcta ttttgagaag acaagaagac ttttatccat ttttaaaaga 4800

caatcgtgag aagattgaaa aaatcttgac ttttcgaatt ccttattatg ttggtccatt 4860

ggcgcgtggc aatagtcgtt ttgcatggat gactcggaag tctgaagaaa caattacccc 4920

atggaatttt gaagaagttg tcgataaagg tgcttcagct caatcattta ttgaacgcat 4980

gacaaacttt gataaaaatc ttccaaatga aaaagtacta ccaaaacata gtttgcttta 5040

tgagtatttt acggtttata acgaattgac aaaggtcaaa tatgttactg aaggaatgcg 5100

aaaaccagca tttctttcag gtgaacagaa gaaagccatt gttgatttac tcttcaaaac 5160

aaatcgaaaa gtaaccgtta agcaattaaa agaagattat ttcaaaaaaa tagaatgttt 5220

tgatagtgtt gaaatttcag gagttgaaga tagatttaat gcttcattag gtacctacca 5280

tgatttgcta aaaattatta aagataaaga ttttttggat aatgaagaaa atgaagatat 5340

cttagaggat attgttttaa cattgacctt atttgaagat agggagatga ttgaggaaag 5400

acttaaaaca tatgctcacc tctttgatga taaggtgatg aaacagctta aacgtcgccg 5460

ttatactggt tggggacgtt tgtctcgaaa attgattaat ggtattaggg ataagcaatc 5520

tggcaaaaca atattagatt ttttgaaatc agatggtttt gccaatcgca attttatgca 5580

gctgatccat gatgatagtt tgacatttaa agaagacatt caaaaagcac aagtgtctgg 5640

acaaggcgat agtttacatg aacatattgc aaatttagct ggtagccctg ctattaaaaa 5700

aggtatttta cagactgtaa aagttgttga tgaattggtc aaagtaatgg ggcggcataa 5760

gccagaaaat atcgttattg aaatggcacg tgaaaatcag acaactcaaa agggccagaa 5820

aaattcgcga gagcgtatga aacgaatcga agaaggtatc aaagaattag gaagtcagat 5880

tcttaaagag catcctgttg aaaatactca attgcaaaat gaaaagctct atctctatta 5940

tctccaaaat ggaagagaca tgtatgtgga ccaagaatta gatattaatc gtttaagtga 6000

ttatgatgtc gatcacattg ttccacaaag tttccttaaa gacgattcaa tagacaataa 6060

ggtcttaacg cgttctgata aaaatcgtgg taaatcggat aacgttccaa gtgaagaagt 6120

agtcaaaaag atgaaaaact attggagaca acttctaaac gccaagttaa tcactcaacg 6180

taagtttgat aatttaacga aagctgaacg tggaggtttg agtgaacttg ataaagctgg 6240

ttttatcaaa cgccaattgg ttgaaactcg ccaaatcact aagcatgtgg cacaaatttt 6300

ggatagtcgc atgaatacta aatacgatga aaatgataaa cttattcgag aggttaaagt 6360

gattacctta aaatctaaat tagtttctga cttccgaaaa gatttccaat tctataaagt 6420

acgtgagatt aacaattacc atcatgccca tgatgcgtat ctaaatgccg tcgttggaac 6480

tgctttgatt aagaaatatc caaaacttga atcggagttt gtctatggtg attataaagt 6540

ttatgatgtt cgtaaaatga ttgctaagtc tgagcaagaa ataggcaaag caaccgcaaa 6600

atatttcttt tactctaata tcatgaactt cttcaaaaca gaaattacac ttgcaaatgg 6660

agagattcgc aaacgccctc taatcgaaac taatggggaa actggagaaa ttgtctggga 6720

taaagggcga gattttgcca cagtgcgcaa agtattgtcc atgccccaag tcaatattgt 6780

caagaaaaca gaagtacaga caggcggatt ctccaaggag tcaattttac caaaaagaaa 6840

ttcggacaag cttattgctc gtaaaaaaga ctgggatcca aaaaaatatg gtggttttga 6900

tagtccaacg gtagcttatt cagtcctagt ggttgctaag gtggaaaaag ggaaatcgaa 6960

gaagttaaaa tccgttaaag agttactagg gatcacaatt atggaaagaa gttcctttga 7020

aaaaaatccg attgactttt tagaagctaa aggatataag gaagttaaaa aagacttaat 7080

cattaaacta cctaaatata gtctttttga gttagaaaac ggtcgtaaac ggatgctggc 7140

tagtgccgga gaattacaaa aaggaaatga gctggctctg ccaagcaaat atgtgaattt 7200

tttatattta gctagtcatt atgaaaagtt gaagggtagt ccagaagata acgaacaaaa 7260

acaattgttt gtggagcagc ataagcatta tttagatgag attattgagc aaatcagtga 7320

attttctaag cgtgttattt tagcagatgc caatttagat aaagttctta gtgcatataa 7380

caaacataga gacaaaccaa tacgtgaaca agcagaaaat attattcatt tatttacgtt 7440

gacgaatctt ggagctcccg ctgcttttaa atattttgat acaacaattg atcgtaaacg 7500

atatacgtct acaaaagaag ttttagatgc cactcttatc catcaatcca tcactggtct 7560

ttatgaaaca cgcattgatt tgagtcagct aggaggtgac ggtggagggc caaaaaagaa 7620

aagaaaagtt gaagatgctt ctgctcatca tcaccatcac catcaccatt aaatccgctc 7680

taaccgaaaa ggaaggagtt agacaacctg aagtctaggt ccctatttat ttttttatag 7740

ttatgttagt attaagaacg ttatttatat ttcaaatttt tctttttttt ctgtacagac 7800

gcgtgtacgc atgtaacatt atactgaaaa ccttgcttga gaaggttttg ggacgctcga 7860

agtgagcaaa aggccagcaa aaggccagga accgtaaaaa ggccgcgttg ctggcgtttt 7920

tccataggct ccgcccccct gacgagcatc acaaaaatcg acgctcaagt cagaggtggc 7980

gaaacccgac aggactataa agataccagg cgtttccccc tggaagctcc ctcgtgcgct 8040

ctcctgttcc gaccctgccg cttaccggat acctgtccgc ctttctccct tcgggaagcg 8100

tggcgctttc tcatagctca cgctgtaggt atctcagttc ggtgtaggtc gttcgctcca 8160

agctgggctg tgtgcacgaa ccccccgttc agcccgaccg ctgcgcctta tccggtaact 8220

atcgtcttga gtccaacccg gtaagacacg acttatcgcc actggcagca gccactggta 8280

acaggattag cagagcgagg tatgtaggcg gtgctacaga gttcttgaag tggtggccta 8340

actacggcta cactagaaga acagtatttg gtatctgcgc tctgctgaag ccagttacct 8400

tcggaaaaag agttggtagc tcttgatccg gcaaacaaac caccgctggt agcggtggtt 8460

tttttgtttg caagcagcag attacgcgca gaaaaaaagg atctcaagaa gatcctttga 8520

tcttttctac cgaagcatct gtgcttcatt ttgtagaaca aaaatgcaac gcgagagcgc 8580

taatttttca aacaaagaat ctgagctgca tttttacaga acagaaatgc aacgcgaaag 8640

cgctatttta ccaacgaaga atctgtgctt catttttgta aaacaaaaat gcaacgcgag 8700

agcgctaatt tttcaaacaa agaatctgag ctgcattttt aca 8743

<210> 14

<211> 20

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 14

ggatctgatt cagcacattg 20

<210> 15

<211> 20

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 15

gaagtctatg ccatttagac 20

<210> 16

<211> 817

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 16

ggatctgatt cagcacattg ataatagcat aggcattttt atctttcttt tttgagttca 60

tgaatgaatg taacttctcc aaaagatggg aatcacagtt tctcgaagaa aaatagattt 120

aatacaaata aaccgcgatt ccacaaacta aatgagcagg cgcagagtat aaatttacca 180

gaagaccgtg attcaattgt ttcaagtaat acaacgtcaa ttatgacaga tgatgcattt 240

gattacaatg agggcattgc atcgcgtacc aaaaatatta attctgatag tgatagaagc 300

aatgatacca taaaacaaaa caactacaat aaaagggaga ccggatataa ccctttctac 360

aatggatcag ggatcaatca gcgatataca cagtttcgaa aaagagagtt tgaaccaaca 420

cttgcagaaa acaaagccga agagtacata tcggacgaag ataatgtaaa aattgatgaa 480

gataatatag agaacgaact ccagtttacg ccgaaaatta aagaggctag tatactccga 540

tctagtttac taggacaaag aaatgtttta aatactcgga atccaaaatc aaaagaatca 600

cacattaaag taaaacccat catcaataac aagagctcct cacaaagaaa atctagtgca 660

gcacttcgga aacaattagg aaaaccccta ccgctgccgt atttgaatag ccctaatagt 720

gatagtacac ccacattaca gagaaaagaa gaagtattca cagacgaagt gcttcaaaaa 780

aagagagaat tgattgagtc taaatggcat agacttc 817

<210> 17

<211> 532

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 17

ggatctgatt cagcacattg ataatagcat aggcattttt atctttcttt tttgagttca 60

tgaatgaatg taacttctcc aaaagatggg aatcacagtt tctcgaagaa aaatagattt 120

aatacaaata aaccgcgatt ccacaaacta aatgagcagg cgcagagtat aaatttacca 180

gaagaccgtg attcaattgt ttcaagtaat acaacgtcaa ttatgacaga tgatgcattt 240

gattacaatg agggcattgc atcgcgtacc aaaaatatta attctgatag tgatagaagc 300

aatgatacca taaaacaaaa caactacaat aaaagggaga ccggatataa ctcctcacaa 360

agaaaatcta gtgcagcact tcggaaacaa ttaggaaaac ccctaccgct gccgtatttg 420

aatagcccta atagtgatag tacacccaca ttacagagaa aagaagaagt attcacagac 480

gaagtgcttc aaaaaaagag agaattgatt gagtctaaat ggcatagact tc 532

<210> 18

<211> 2507

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 18

ttgtattaga cgagggacgg agtgattttt gtgtttgttt ttattaattg tgggatagga 60

tagtagcaac tcttggagga gagcattgtc agttgtccag tctctgaagt taagtagtaa 120

gtttgcggag tcaaaggggg atggcttttg ccatttgtga gagttgtgcg gcagcatctt 180

attcaaatag agctgtattc tgaagacctc ttgtagaaca tcatccatac taaaaagtaa 240

atcgtcctgt cccattacga gctgtattag tgctgtgacc ctctgtatat ttacgttgcc 300

atgaagaagg taatgggcga tattttgata caattcctga gttgcatgtt ggattgagtt 360

tacgaagggt cgccagacgg ccagaaacct ccaggcggag ttaacaacta gtaatacggc 420

atccatgttt gcatcagcgc cgagcctata ccagtcactg agtagacgtt ttcttgctct 480

ttttatgtcc tgacttcttt tgacgagggg gcattctcta gagacacagg cagttgcttc 540

cagcaactgc cgtacggccg ttctcatgct gtcgaggatt ttttttggga cgatattgtc 600

attatagggc agtgtgtgac ttatgaattg ttgtagaagg acgtctgtga tgttggagat 660

atgtattttg ttaactcttc ttgagacgat ttggccctgg atagcgaagc gtgcggttac 720

aaataggtcg tcttgttcaa gaaggtaggc gaggacatta tctatcagta caaacatctt 780

agtagtgtct gaggagaggg ttgattgttt atgtattttt gcgaaatata tatatatata 840

ttctacacag atatatacat atttgttttt cgggctcatt ctttcttctt tgccagaggc 900

tcaccgctca agaggtccgc taattctgga gcgattgtta ttgttttttc ttttcttctt 960

ctattcgaaa cccagttttt gatttgaatg cgagataaac tggtattctt cattagattc 1020

tctaggccct tggtatctag atatgggttc tcgatgttct ttgcaaacca actttctagt 1080

attcggacat tttcttttgt aaaccggtgt cctctgtaag gtttagtact tttgtttatc 1140

atatcttgag ttaccacatt aaataccaac ccatccgccg atttattttt ctgtgtaagt 1200

tgataattac ttctatcgtt ttctatgctg cgcatttctt tgagtaatac agtaatggta 1260

gtagtgagtt gagatgttgt ttgcaacaac ttcttctcct catcactaat cttacggttt 1320

ttgttggccc tagataagaa tcctaatata tcccttaatt caacttcttc ttctgttgtt 1380

acactctctg gtaacttagg taaattacag caaatagaaa agagcttttt atttatgtct 1440

agtatgctgg atttaaactc atctgtgatt tgtggattta aaaggtcttt aatgggtatt 1500

ttattcattt tttcttgctt atcttccttt ttttcttgcc cacttctaag ctgatttcaa 1560

tctctccttt atatatattt ttaagttcca acattttatg tttcaaaaca ttaatgatgt 1620

ctgggttttg tttgggatgc aatttattgc ttcccaatgt agaaaagtac atcatatgaa 1680

acaacttaaa ctcttaacta cttcttttaa ccttcacttt ttatgaaatg tatcaaccat 1740

atataataac ttaatagacg acattcacaa tatgtttact tcgaagcctg ctttcaaaat 1800

taagaacaaa gcatccaaat catacagaaa cacagcggtt tcaaaaaagc tgaaagaaaa 1860

acgtctagct gagcatgtga ggccaagctg cttcaatatt attcgaccac tcaagaaaga 1920

tatccagatt cctgttcctt cctctcgatt tttaaataaa atccaaattc acaggatagc 1980

gtctggaagt caaaatactc agtttcgaca gttcaataag acatctataa aatcttcaaa 2040

gaaatattta aactcattta tggcttttag agcatattac tcacagtttg gctccggtgt 2100

aaaacaaaat gtcttgtctt ctctgctcgc tgaagaatgg cacgcggaca aaatgcagca 2160

cggaatatgg gactacttcg cgcaacagta taattttata aaccctggtt ttggttttgt 2220

agagtggttg acgaataatt atgctgaagt acgtggtgac ggatattggg aagatgtgtt 2280

tgtacatttg gccttataga gtgtggtcgt ggcggaggtt gtttatcttt cgagtactga 2340

atgttgtcag tatagctatc ctatttgaaa ctccccatcg tcttgctctt gttcccaatg 2400

tttgtttata cactcatatg gctataccct tatctacttg cctcttttgt ttatgtctat 2460

gtatttgtat aaaatatgat attactcaga ctcaagcaaa caatcaa 2507

<210> 19

<211> 2519

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 19

gaattcttgt attagacgag ggacggagtg atttttgtgt ttgtttttat taattgtggg 60

ataggatagt agcaactctt ggaggagagc attgtcagtt gtccagtctc tgaagttaag 120

tagtaagttt gcggagtcaa agggggatgg cttttgccat ttgtgagagt tgtgcggcag 180

catcttattc aaatagagct gtattctgaa gacctcttgt agaacatcat ccatactaaa 240

aagtaaatcg tcctgtccca ttacgagctg tattagtgca gtgaccctct gtatatttac 300

gttgccatga agaaggtaat gggcgatatt ttgatacaat tcctgagttg catgttggat 360

tgagtttacg aagggtcgcc agacggccag aaacctccag gcggagttaa caactagtaa 420

tacggcatcc atgtttgcat cagcgccgag cctataccag tcactgagta gacgttttct 480

tgctcttttt atgtcctgac ttcttttgac gagggggcat tctctagaga cacaggcagt 540

tgcttccagc aactgccgta cggccgttct catgctgtcg aggatttttt ttgggacgat 600

attgtcatta tagggcagtg tgtgacttat gaattgttgt aggaggacgt ctgtgatgtt 660

ggagatatgt attttgttaa ctcttcttga gacgatttgg ccctggatag cgaagcgtgc 720

ggttacaaat aggtcgtctt gttcaagaag gtaggcgagg acattatcta tcagtacaaa 780

catcttagta gtgtctgagg agagggttga ttgtttatgt atttttgcga aatatatata 840

tatatattct acacagatat atacatattt gtttttcggg ctcattcttt cttctttgcc 900

agaggctcac cgctcaagag gtccgctaat tctggagcga ttgttattgt tttttctttt 960

cttcttctat tcgaaaccca gtttttgatt tgaatgcgag ataaactggt attcttcatt 1020

agattctcta ggcccttggt atctagatat gggttctcga tgttctttgc aaaccaactt 1080

tctagtattc ggacattttc ttttgtaaac cggtgtcctc tgtaaggttt agtacttttg 1140

tttatcatat cttgagttac cacattaaat accaacccat ccgccgattt atttttctgt 1200

gtaagttgat aattacttct atcgttttct atgctgcgca tttctttgag taatacagta 1260

atggtagtag tgagttgaga tgttgtttgc aacaacttct tctcctcatc actaatctta 1320

cggtttttgt tggccctaga taagaatcct aatatatccc ttaattcaac ttcttcttct 1380

gttgttacac tctctggtaa cttaggtaaa ttacagcaaa tagaaaagag ctttttattt 1440

atgtctagta tgctggattt aaactcatct gtgatttgtg gatttaaaag gtctttaatg 1500

ggtattttat tcattttttc ttgcttatct tccttttttt cttgcccact tctaagctga 1560

tttcaatctc tcctttatat atatttttaa gttccaacat tttatgtttc aaaacattaa 1620

tgatgtctgg gttttgtttg ggatgcaatt tattgcttcc caatgtagaa aagtacatca 1680

tatgaaacaa cttaaactct taactacttc ttctaacctt cactttttat gaaatgtatc 1740

aaccatatat aataacttaa tagaccacat tcacaatatg tttacttcga agcctgcttt 1800

caaaattaag aacaaagcat ccaaatcata cagaaacaca gcggtttcaa aaaagctgaa 1860

agaaaaacgt ctagctgagc atgtgaggcc aagctgcttc aatattattc gaccactcaa 1920

gaaagatatc cagattcctg taccttcctc tcgattttta aataagatcc aaattcacag 1980

gatagcgtct ggaactcaaa atactcagtt tcgacagttc aataagacat ctataaaatc 2040

ttcaaagaaa tatttaaact catttatggc ttttagagca tattactcac agtttggctc 2100

cggtgtaaaa caaaatgtct tgtcttctct gctcgctgaa gaatggcacg cggacaaaat 2160

gcagcacgga atatgggact acttcgcgca acagtataat tttataaacc ctggttttgg 2220

ttttgtagag tggttgacga ataattatgc tgaagtacgt ggtgacggat attgggaaga 2280

tgtgtttgta catttggcct tatagagtgt ggtcgtggcg gaggttgttt atctttcgag 2340

tactgaatgt tgtcagtata gctatcctat ttgaaactcc ccatcgtctt gctcttgttc 2400

ccaatgtttg tttatacact catatggcta tacccttatc tacttgcctc ttttgtttat 2460

gtctatgtat ttgtataaaa tatgatatta ctcagactca agcaaacaat caagaattc 2519

<210> 20

<211> 2640

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 20

ctagtactta aaaaaactgt agtttcagtg caaaaaagtt ttaacattac gtatcttgta 60

ccctttttat tgcatataga aaggtcaaat aatccttcac atcatgaaat ataagctaaa 120

tcgcatttct tttcgtccac atttgcaaac aaaacttttc aataataatt ttataaatag 180

tatcaatata tatatatata tatatattta tttgtttact ttttctatca gtgttttcaa 240

ttttttatta aacaatgttt gattttttaa atcgcaattt aatacctaaa tataaaaaat 300

gttattatat tgcaaaaacc catcaacctt gaaaaaaagt agaaacgttt tatttaattc 360

tatcaataca tcataaaata cgaacgatcc ccgtccaagt tatgagctta atcttccata 420

aaaatatttg aaagcaatag atcatgtact aaactaaaat cagggaaatt aagactcctt 480

ttgaagtaat acctattact tactaatacg tttgagaata agcgcaggta ctcctggttt 540

ttgttaaaac tacaaattta tacttagcat tacgaagatt ctcgattccg aaaaacaaaa 600

attttatcgt catatacaaa tctagaaatt accagagcta tccatcttgt tcaagaaggt 660

aggcgaggac attatctatc agtacaaaca tcttagtagt gtctgaggag agggttgatt 720

gtttatgtat ttttgcgaaa tatatatata tatatattct acacagatat atacatattt 780

gtttttcggg ctcattcttt cttctttgcc agaggctcac cgctcaagag gtccgctaat 840

tctggagcga ttgttattgt tttttctttt cttcttctat tcgaaaccca gtttttgatt 900

tgaatgcgag ataaactggt attcttcatt agattctcta ggcccttggt atctagatat 960

gggttctcga tgttctttgc aaaccaactt tctagtattc ggacattttc ttttgtaaac 1020

cggtgtcctc tgtaaggttt agtacttttg tttatcatat cttgagttac cacattaaat 1080

accaacccat ccgccgattt atttttctgt gtaagttgat aattacttct atcgttttct 1140

atgctgcgca tttctttgag taatacagta atggtagtag tgagttgaga tgttgtttgc 1200

aacaacttct tctcctcatc actaatctta cggtttttgt tggccctaga taagaatcct 1260

aatatatccc ttaattcaac ttcttcttct gttgttacac tctctggtaa cttaggtaaa 1320

ttacagcaaa tagaaaagag ctttttattc ttgatttttg ttctttcggg gaaactgtat 1380

aaaacttcca aaaaggaaaa gtaaaacaat acatctcctt atatcaaaga aaatcaagaa 1440

ggacaacatg gatgatattt gtagtatggc ggaaaacata aacagaactc tgtttaacat 1500

tctaggtact gagattgatg aaatcaatct caatactaat aatctttata atgtatgttt 1560

tcatttcaag gatagccttt gaatcaattt actaacaata cttcagttta taatggaaag 1620

taatttgact aaagtagagc aacatacatt acacaaaaat atttctaaca ataggttaga 1680

aatataccac cacattaaaa aagagaagag cccaaaggga aaatcatcaa tatcacccca 1740

agcacgggca tttttagaac aggtttttag aagaaagcaa agccttaatt ccaaggaaaa 1800

agaagaagtt gcaaagaaat gtggcattac tccacttcaa gtaagagttt gggtatgtaa 1860

tatgagaatc aaacttaaat atatcctata ctaacaattt gtagttcata aataaacgta 1920

tgagatctaa ataaattcgt tttcaatgat taaaatagca tagtcgggtt tttcttttag 1980

tttcagcttt ccgcaacagt aaaattttat aaaccctggt tttggttttg tagagtggtt 2040

gacgaataat tatgctgaag tacgtggtga cggatattgg gaagatgtgt ttgtacattt 2100

ggccttatag agtgtggtcg tggcggaggt tgtttatctt tcgagtactg aatgttgtca 2160

gtatagctat cctatttgaa actccccatc gtcttgctct tgttctcaat gtttgtttat 2220

atactcatat ttctatgtgt ttatacaatt gctattgttt atataatgta gtgacatttt 2280

ctcttaatct tatactaatt tctatgacat ttatataaga agagacttat gatcaacata 2340

attttgcaaa ctttgagaga aatatgtctt tctactgcga taaagttatt atttagatta 2400

catgtcacca acattttcgt atatggcgat ataatttatc atgttttggt atgataattt 2460

aatttttaaa aaaacaaatt taattgacct cattaattaa tatttattaa tacctttaaa 2520

tgttgaggta aatagctatt ttctctcttc ttttccttta gttggaattt gcacaagaaa 2580

atgtttttcc acacacttta gcgttttttc ctaaatgttg gaataaaaaa caactatcat 2640

<210> 21

<211> 20

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 21

acaaaaatat ttctaacaat 20

<210> 22

<211> 8743

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 22

gaacagaaat gcaacgcgag agcgctattt taccaacaaa gaatctatac ttcttttttg 60

ttctacaaaa atgcatcccg agagcgctat ttttctaaca aagcatctta gattactttt 120

tttctccttt gtgcgctcta taatgcagtc tcttgataac tttttgcact gtaggtccgt 180

taaggttaga agaaggctac tttggtgtct attttctctt ccataaaaaa agcctgactc 240

cacttcccgc gtttactgat tactagcgaa gctgcgggtg cattttttca agataaaggc 300

atccccgatt atattctata ccgatgtgga ttgcgcatac tttgtgaaca gaaagtgata 360

gcgttgatga ttcttcattg gtcagaaaat tatgaacggt ttcttctatt ttgtctctat 420

atactacgta taggaaatgt ttacattttc gtattgtttt cgattcactc tatgaatagt 480

tcttactaca atttttttgt ctaaagagta atactagaga taaacataaa aaatgtagag 540

gtcgagttta gatgcaagtt caaggagcga aaggtggatg ggtaggttat atagggatat 600

agcacagaga tatatagcaa agagatactt ttgagcaatg tttgtggaag cggtattcgc 660

aatattttag tagcccgtta cagtccggtg cgtttttggt tttttgaaag tgcgtcttca 720

gagcgctttt ggttttcaaa agcgctctga agttcctata ctttctagag aataggaact 780

tcggaatagg aacttcaaag cgtttccgaa aacgagcgct tccgaaaatg caacgcgagc 840

tgcgcacata cagctcactg ttcacgtcgc acctatatct gcgtgttgcc tgtatatata 900

tatacatgag aagaacggca tagtgcgtgt ttatgcttaa atgcgtatat gtgttatgta 960

gtatactctt tcttcaacaa ttaaatactc tcggtagcca agttggttta aggcgcaaga 1020

ctgtaattta tcactacgaa atcttgagat cgggcgttcg actcgccccc gggagagatg 1080

gccggcatgg tcccagcctc ctcgctggcg ccggctgggc aacaccttcg ggtggcgaat 1140

gggactttac aaaaatattt ctaacaatgt tttagagcta gaaatagcaa gttaaaataa 1200

ggctagtccg ttatcaactt gaaaaagtgg caccgagtcg gtgctttttt tattttttgt 1260

cactattgtt atgtaaaatg ccacctctga cagtatggaa cgcaaacttc tgtctagtgg 1320

atataggtct agagatctgt ttagcttgcc tcgtccccgc cgggtcaccc ggccagcgac 1380

atggaggccc agaataccct ccttgacagt cttgacgtgc gcagctcagg ggcatgatgt 1440

gactgtcgcc cgtacattta gcccatacat ccccatgtat aatcatttgc atccatacat 1500

tttgatggcc gcacggcgcg aagcaaaaat tacggctcct cgctgcagac ctgcgagcag 1560

ggaaacgctc ccctcacaga cgcgttgaat tgtccccacg ccgcgcccct gtagagaaat 1620

ataaaaggtt aggatttgcc actgaggttc ttctttcata tacttccttt taaaatcttg 1680

ctaggataca gttctcacat cacatccgaa cataaacaac catgggtaag gaaaagactc 1740

acgtttcgag gccgcgatta aattccaaca tggatgctga tttatatggg tataaatggg 1800

ctcgcgataa tgtcgggcaa tcaggtgcga caatctatcg attgtatggg aagcccgatg 1860

cgccagagtt gtttctgaaa catggcaaag gtagcgttgc caatgatgtt acagatgaga 1920

tggtcagact aaactggctg acggaattta tgcctcttcc gaccatcaag cattttatcc 1980

gtactcctga tgatgcatgg ttactcacca ctgcgatccc cggcaaaaca gcattccagg 2040

tattagaaga atatcctgat tcaggtgaaa atattgttga tgcgctggca gtgttcctgc 2100

gccggttgca ttcgattcct gtttgtaatt gtccttttaa cagcgatcgc gtatttcgtc 2160

tcgctcaggc gcaatcacga atgaataacg gtttggttga tgcgagtgat tttgatgacg 2220

agcgtaatgg ctggcctgtt gaacaagtct ggaaagaaat gcataagctt ttgccattct 2280

caccggattc agtcgtcact catggtgatt tctcacttga taaccttatt tttgacgagg 2340

ggaaattaat aggttgtatt gatgttggac gagtcggaat cgcagaccga taccaggatc 2400

ttgccatcct atggaactgc ctcggtgagt tttctccttc attacagaaa cggctttttc 2460

aaaaatatgg tattgataat cctgatatga ataaattgca gtttcatttg atgctcgatg 2520

agtttttcta atcagtactg acaataaaaa gattcttgtt ttcaagaact tgtcatttgt 2580

atagtttttt tatattgtag ttgttctatt ttaatcaaat gttagcgtga tttatatttt 2640

ttttcgcctc gacatcatct gcccagatgc gaagttaagt gcgcagaaag taatatcatg 2700

cgtcaatcgt atgtgaatgc tggtcgctat actgctgtcg attcgatact aacgccgcca 2760

tccagtgtcg aaaacgagct ctcgagaacc cttaatagtc gaacaagaag caggcaaagt 2820

ttagagcact gcccctccgc actcaaaaaa gaaaaaacta ggaggaaaat aaaattctca 2880

accacacaaa cacataaaca catacaaata caaatacaag cttatttact tgacatcgcg 2940

cgatcttcca ctattcagcg ccgtccgccc tctctcgtgt tttttgttta cgcgacaact 3000

atgcgaaatc cggagcaacg ggcaaccgtt tggggaaaga ccacacccac gcgcgatcgc 3060

catggcaacg aggtcgcaca cgccccacac ccagacctcc ctgcgagcgg gcatgggtac 3120

aatgtccccg ttgccacaga caccacttcg tagcacagcg cagagcgtag cgtgttgttg 3180

ctgctgacaa aagaaaattt ttcttagcaa agcaaaggag gggaagcacg ggcagatagc 3240

accgtaccat acccttggaa actcgaaatg aacgaagcag gaaatgagag aatgagagtt 3300

ttgtaggtat atatagcggt agtgtttgcg cgttaccatc atcttctgga tctatctatt 3360

gttcttttcc tcatcacttt cccctttttc gctcttcttc ttgtctttta tttctttctt 3420

ttttttaatt gttccctcga ttggctatct accaaagaat ccaaacttaa tacacgtatt 3480

tatttgtcca attaccatgg ataagaaata ctcaataggc ttagatatcg gcacaaatag 3540

cgtcggatgg gcggtgatca ctgatgaata taaggttccg tctaaaaagt tcaaggttct 3600

gggaaataca gaccgccaca gtatcaaaaa aaatcttata ggggctcttt tatttgacag 3660

tggagagaca gcggaagcga ctcgtctcaa acggacagct cgtagaaggt atacacgtcg 3720

gaagaatcgt atttgttatc tacaggagat tttttcaaat gagatggcga aagtagatga 3780

tagtttcttt catcgacttg aagagtcttt tttggtggaa gaagacaaga agcatgaacg 3840

tcatcctatt tttggaaata tagtagatga agttgcttat catgagaaat atccaactat 3900

ctatcatctg cgaaaaaaat tggtagattc tactgataaa gcggatttgc gcttaatcta 3960

tttggcctta gcgcatatga ttaagtttcg tggtcatttt ttgattgagg gagatttaaa 4020

tcctgataat agtgatgtgg acaaactatt tatccagttg gtacaaacct acaatcaatt 4080

atttgaagaa aaccctatta acgcaagtgg agtagatgct aaagcgattc tttctgcacg 4140

attgagtaaa tcaagacgat tagaaaatct cattgctcag ctccccggtg agaagaaaaa 4200

tggcttattt gggaatctca ttgctttgtc attgggtttg acccctaatt ttaaatcaaa 4260

ttttgatttg gcagaagatg ctaaattaca gctttcaaaa gatacttacg atgatgattt 4320

agataattta ttggcgcaaa ttggagatca atatgctgat ttgtttttgg cagctaagaa 4380

tttatcagat gctattttac tttcagatat cctaagagta aatactgaaa taactaaggc 4440

tcccctatca gcttcaatga ttaaacgcta cgatgaacat catcaagact tgactctttt 4500

aaaagcttta gttcgacaac aacttccaga aaagtataaa gaaatctttt ttgatcaatc 4560

aaaaaacgga tatgcaggtt atattgatgg gggagctagc caagaagaat tttataaatt 4620

tatcaaacca attttagaaa aaatggatgg tactgaggaa ttattggtga aactaaatcg 4680

tgaagatttg ctgcgcaagc aacggacctt tgacaacggc tctattcccc atcaaattca 4740

cttgggtgag ctgcatgcta ttttgagaag acaagaagac ttttatccat ttttaaaaga 4800

caatcgtgag aagattgaaa aaatcttgac ttttcgaatt ccttattatg ttggtccatt 4860

ggcgcgtggc aatagtcgtt ttgcatggat gactcggaag tctgaagaaa caattacccc 4920

atggaatttt gaagaagttg tcgataaagg tgcttcagct caatcattta ttgaacgcat 4980

gacaaacttt gataaaaatc ttccaaatga aaaagtacta ccaaaacata gtttgcttta 5040

tgagtatttt acggtttata acgaattgac aaaggtcaaa tatgttactg aaggaatgcg 5100

aaaaccagca tttctttcag gtgaacagaa gaaagccatt gttgatttac tcttcaaaac 5160

aaatcgaaaa gtaaccgtta agcaattaaa agaagattat ttcaaaaaaa tagaatgttt 5220

tgatagtgtt gaaatttcag gagttgaaga tagatttaat gcttcattag gtacctacca 5280

tgatttgcta aaaattatta aagataaaga ttttttggat aatgaagaaa atgaagatat 5340

cttagaggat attgttttaa cattgacctt atttgaagat agggagatga ttgaggaaag 5400

acttaaaaca tatgctcacc tctttgatga taaggtgatg aaacagctta aacgtcgccg 5460

ttatactggt tggggacgtt tgtctcgaaa attgattaat ggtattaggg ataagcaatc 5520

tggcaaaaca atattagatt ttttgaaatc agatggtttt gccaatcgca attttatgca 5580

gctgatccat gatgatagtt tgacatttaa agaagacatt caaaaagcac aagtgtctgg 5640

acaaggcgat agtttacatg aacatattgc aaatttagct ggtagccctg ctattaaaaa 5700

aggtatttta cagactgtaa aagttgttga tgaattggtc aaagtaatgg ggcggcataa 5760

gccagaaaat atcgttattg aaatggcacg tgaaaatcag acaactcaaa agggccagaa 5820

aaattcgcga gagcgtatga aacgaatcga agaaggtatc aaagaattag gaagtcagat 5880

tcttaaagag catcctgttg aaaatactca attgcaaaat gaaaagctct atctctatta 5940

tctccaaaat ggaagagaca tgtatgtgga ccaagaatta gatattaatc gtttaagtga 6000

ttatgatgtc gatcacattg ttccacaaag tttccttaaa gacgattcaa tagacaataa 6060

ggtcttaacg cgttctgata aaaatcgtgg taaatcggat aacgttccaa gtgaagaagt 6120

agtcaaaaag atgaaaaact attggagaca acttctaaac gccaagttaa tcactcaacg 6180

taagtttgat aatttaacga aagctgaacg tggaggtttg agtgaacttg ataaagctgg 6240

ttttatcaaa cgccaattgg ttgaaactcg ccaaatcact aagcatgtgg cacaaatttt 6300

ggatagtcgc atgaatacta aatacgatga aaatgataaa cttattcgag aggttaaagt 6360

gattacctta aaatctaaat tagtttctga cttccgaaaa gatttccaat tctataaagt 6420

acgtgagatt aacaattacc atcatgccca tgatgcgtat ctaaatgccg tcgttggaac 6480

tgctttgatt aagaaatatc caaaacttga atcggagttt gtctatggtg attataaagt 6540

ttatgatgtt cgtaaaatga ttgctaagtc tgagcaagaa ataggcaaag caaccgcaaa 6600

atatttcttt tactctaata tcatgaactt cttcaaaaca gaaattacac ttgcaaatgg 6660

agagattcgc aaacgccctc taatcgaaac taatggggaa actggagaaa ttgtctggga 6720

taaagggcga gattttgcca cagtgcgcaa agtattgtcc atgccccaag tcaatattgt 6780

caagaaaaca gaagtacaga caggcggatt ctccaaggag tcaattttac caaaaagaaa 6840

ttcggacaag cttattgctc gtaaaaaaga ctgggatcca aaaaaatatg gtggttttga 6900

tagtccaacg gtagcttatt cagtcctagt ggttgctaag gtggaaaaag ggaaatcgaa 6960

gaagttaaaa tccgttaaag agttactagg gatcacaatt atggaaagaa gttcctttga 7020

aaaaaatccg attgactttt tagaagctaa aggatataag gaagttaaaa aagacttaat 7080

cattaaacta cctaaatata gtctttttga gttagaaaac ggtcgtaaac ggatgctggc 7140

tagtgccgga gaattacaaa aaggaaatga gctggctctg ccaagcaaat atgtgaattt 7200

tttatattta gctagtcatt atgaaaagtt gaagggtagt ccagaagata acgaacaaaa 7260

acaattgttt gtggagcagc ataagcatta tttagatgag attattgagc aaatcagtga 7320

attttctaag cgtgttattt tagcagatgc caatttagat aaagttctta gtgcatataa 7380

caaacataga gacaaaccaa tacgtgaaca agcagaaaat attattcatt tatttacgtt 7440

gacgaatctt ggagctcccg ctgcttttaa atattttgat acaacaattg atcgtaaacg 7500

atatacgtct acaaaagaag ttttagatgc cactcttatc catcaatcca tcactggtct 7560

ttatgaaaca cgcattgatt tgagtcagct aggaggtgac ggtggagggc caaaaaagaa 7620

aagaaaagtt gaagatgctt ctgctcatca tcaccatcac catcaccatt aaatccgctc 7680

taaccgaaaa ggaaggagtt agacaacctg aagtctaggt ccctatttat ttttttatag 7740

ttatgttagt attaagaacg ttatttatat ttcaaatttt tctttttttt ctgtacagac 7800

gcgtgtacgc atgtaacatt atactgaaaa ccttgcttga gaaggttttg ggacgctcga 7860

agtgagcaaa aggccagcaa aaggccagga accgtaaaaa ggccgcgttg ctggcgtttt 7920

tccataggct ccgcccccct gacgagcatc acaaaaatcg acgctcaagt cagaggtggc 7980

gaaacccgac aggactataa agataccagg cgtttccccc tggaagctcc ctcgtgcgct 8040

ctcctgttcc gaccctgccg cttaccggat acctgtccgc ctttctccct tcgggaagcg 8100

tggcgctttc tcatagctca cgctgtaggt atctcagttc ggtgtaggtc gttcgctcca 8160

agctgggctg tgtgcacgaa ccccccgttc agcccgaccg ctgcgcctta tccggtaact 8220

atcgtcttga gtccaacccg gtaagacacg acttatcgcc actggcagca gccactggta 8280

acaggattag cagagcgagg tatgtaggcg gtgctacaga gttcttgaag tggtggccta 8340

actacggcta cactagaaga acagtatttg gtatctgcgc tctgctgaag ccagttacct 8400

tcggaaaaag agttggtagc tcttgatccg gcaaacaaac caccgctggt agcggtggtt 8460

tttttgtttg caagcagcag attacgcgca gaaaaaaagg atctcaagaa gatcctttga 8520

tcttttctac cgaagcatct gtgcttcatt ttgtagaaca aaaatgcaac gcgagagcgc 8580

taatttttca aacaaagaat ctgagctgca tttttacaga acagaaatgc aacgcgaaag 8640

cgctatttta ccaacgaaga atctgtgctt catttttgta aaacaaaaat gcaacgcgag 8700

agcgctaatt tttcaaacaa agaatctgag ctgcattttt aca 8743

<210> 23

<211> 23

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 23

gcacggaata tgggactact tcg 23

<210> 24

<211> 23

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 24

actccacttc aagtaagagt ttg 23

<210> 25

<211> 23

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 25

agtcacatca agatcgttta tgg 23

<210> 26

<211> 30

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 26

gaattcttgt attagacgag ggacggagtg 30

<210> 27

<211> 29

<212> DNA

<213> Artificial Sequence (Artificial Sequence)

<400> 27

gaattcttga ttgtttgctt gagtctgag 29