KR101955072B1 - Snp markers for discrimination of raphanus sativus - Google Patents

Abstract

The present invention relates to SNPs for genetic genetic analysis capable of classifying various genomes of radishes and capable of classifying different strains and strains, and to its use. Specifically, 702 SNPs capable of distinguishing 17 kinds of radishes The selection of 203 SNPs on chromosomes 4 and 5 of middle and radish allows easy and rapid identification of various non-genetic resources by system and species, and it is possible to analyze the genome structure, Development, identification of origin of imports and exports of agricultural and marine products, possession and maintenance of non-dielectrics, and so on.

Description

{SNP MARKERS FOR DISCRIMINATION OF RAPHANUS SATIVUS}

The present invention relates to SNPs for genetic genetic analysis capable of classifying various genomes of radishes and capable of classifying different strains and strains and their uses.

With the advancement of molecular genetics and the development of sequencing technology, it has become possible to distinguish the diversity of plant species at the genome level, and the molecular markers developed using these information are very important for the identification and evaluation of genetic resources.

The rice belonging to Chinese cabbage is a crop used as a root vegetable in Asia. It has morphologically diverse roots. Physiologically, there are various differences in flowering time and nutritional components, so it is essential to secure or maintain genetic resources for producing high quality. The development of accurate and versatile molecular markers is essential for growth of non-new variety through crops and molecular breeding. In particular, rice is an essential food crop, which is equivalent to major crops such as rice and cabbage, and is therefore an economically important crop. Therefore, various studies on the development of molecular markers have been reported. However, a method of identifying the species and the variety of the organism developed so far has been used in a morphological or physicochemical method. However, since the chromosomal composition of the crop including the radish belonging to the Chinese cabbage is difficult to establish, In which cultivars and species are distinguished.

As a result of attempting to develop a set of SNP molecular markers based on a genomic sequence for the evaluation of a non-genetic resource, the inventors have searched the sequence polymorphism based on the results of a non-standard genome and 16 cultivars and wild- The present invention has been accomplished by selecting molecular markers.

Korean Patent Publication No. 2013-022328

Accordingly, an object of the present invention is to provide SNP markers capable of distinguishing radishes of various species, and to use them to discriminate radish species, strains or seed purity.

To the accomplishment of the above object, the present invention is free (Raphanus SNP markers for species, system or seed purity discrimination of S. sativus .

The present invention also provides a kit for determining the species, system or seed purity of radish.

In addition, the present invention provides a method for determining species, system or seed purity of radish.

The present invention relates to SNP markers capable of detecting radish species or strains, and it is possible to easily and quickly identify various non-genetic resources by SNP markers according to the present invention. There is an effect that it can be usefully used for the development of high quality unreformed varieties, the discrimination of origin of import and export of agricultural and marine products, and the retention and maintenance of a non-genome.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic diagram illustrating species of radishes that can be distinguished using the SNP of the present invention.
FIG. 2 is a view for identifying phenotypes of radish species that can be distinguished using the SNP of the present invention.
FIG. 3 is a diagram showing the shapes of radish species that can be distinguished using the SNP of the present invention. FIG.
FIG. 4 is a view showing the position of a non-standard genome (9 chromosomes) of a SNP molecule marker set for evaluation of a non-genetic circle of the present invention.

The present invention relates to SNP markers capable of detecting radish species or strains, and is based on the R.raphanistrum sequence (Origin: USA, Accession: Moghe et al. (2014)) reported in 2013 and the cultivar WK10039 (Origin: Korea, Aceession: National Institute of Horticultural & Herbal Science; WK10039), WK10024 (Origin: Europe, Accession: NIHHS (WK10024)), Long Scarlet (Origin: USA, Accession: National Institute of Agricultural Science (Origin: Europe, Accession: Dongbu), DB104 (origin: Korea, Accession: Dongbu), DB109 (origin: China, Accession: Dongbu) (Origin: Japan, Accession: Dongbu), Aokubi (Origin: Japan, Accession: Kitashiba et al. (2014)) and Sayatori (origin: Japan, Accession: Kitashiba et al Raphanistroides 1 (origin: Japan, Accession: RDA-GIC (Rural Development Administration-Genebank IT234955)), Raphanistroides2 (origin: Japan, Accession: RDA-GIC (IT260989)), Wild Radish2 (origin: India, Accession: RDA-GIC (IT32722)), and Wild (Rice-GIC polymorphism was analyzed for radish3 (origin: India, Accession: RDA-GIC (IT32723)). Among them, 203 SNP polymorphic markers present in 4th and 5th out of 9 chromosomes of radish were selected.

In general, methods for identifying plant cultivars are divided into two methods: morphological characterization method through cultivation test, assay method using difference of isoenzymes between species or cultivars, and assay method using DNA-based molecular markers. Among them, the method using molecular markers provides information useful for the genetic diversity and phylogeny analysis and the conservation and management of plant genetic resources in crop genetic and breeding studies (Smith et al., 1997. Theor. Appl Genet. 95: 163-173), compared to traditional identification methods based on phenotypes, are not affected by the growing environment and the growth stage of crops, so they are objective and highly reproducible.

On the other hand, systematic taxonomy has not been completed yet, which can be said to be the main crop of food, and there is no molecular marker that can quickly distinguish the genetic resources such as origin and variety.

In this respect, the present inventors have discovered a molecular marker based on SNP that can distinguish various kinds of radishes, strains, and origin by a simple and rapid method.

Accordingly, the present invention provides a polynucleotide comprising 8 to 200 polynucleotides comprising the 51st SNP (single nucleotide polymorphism) nucleotide of any one of the nucleotide sequences of SEQ ID NOS: 1 to 203, or a polynucleotide comprising a complementary polynucleotide sequence thereof SNP markers for species, system or seed purity discrimination are provided.

The SNP markers of the present invention are applied to radish and most preferably applied to seeds of radish and applied to unknown seeds whose species or system is not known, such as WK10039, WK10024, Long Scarlet, DB102, DB104, DB 109, DB 110, DB 113, Aokubi; It can be confirmed that wild species such as Raphanistroides 1, Raphanistroides 2, Raphanistroides 3, Wild radish 1, Wild radish 2 and Wild radish 3 are distinguishable from the seed stage.

As used herein, the term " nucleotide " is a deoxyribonucleotide or ribonucleotide present in single or double stranded form, and includes analogs of natural nucleotides unless specifically stated otherwise.

In addition, when the SNP base mutation of the present invention is found in a double-stranded gDNA (genomic DNA), it is also interpreted to include a polynucleotide sequence complementary to the above-described nucleotide sequence. Thus, the base at the SNP position in the complementary polynucleotide sequence is a complementary base.

According to another aspect of the present invention there is provided a method for determining species, strain or seed purity of radish comprising the following steps of the invention:

a) separating the nucleic acid molecule from the sample;

b) identifying the base type of the 51st SNP (single nucleotide polymorphism) polynucleotide of any one or more of the nucleotide sequences of SEQ ID NOS: 1 to 203;

The sample of the present invention may be seeds of radish or radish whose species or system is not determined.

The term " nucleic acid molecule " in the present invention has the meaning that it encompasses DNA (gDNA and cDNA) and RNA molecules, and the nucleotide which is a basic constituent unit in the nucleic acid molecule includes not only natural nucleotides but also analogues analogue).

When the starting material in the method of the present invention is gDNA, the separation of gDNA can be carried out according to conventional methods known in the art (Rogers & Bendich (1994)). When the starting material is mRNA, the total RNA is isolated by a conventional method known in the art (see Sambrook, J. et al., Molecular Cloning, A Laboratory Manual, 3rd ed. Cold Spring Harbor Press (1987); and Chomczynski, P. et al., Anal. Biochem. 162: 156 (1987)). The isolated total RNA is synthesized by cDNA using reverse transcriptase. Since the total RNA is isolated from plant cells, it has a poly-A tail at the end of mRNA. CDNA can be easily synthesized using oligo dT primers and reverse transcriptase using such sequence characteristics (see PNAS USA, 85: 8998 (1988); Libert F, et al., Science, 244: 569 (1989); and Sambrook, J. et al., Molecular Cloning, A Laboratory Manual, 3rd ed. Cold Spring Harbor Press )).

In the method of the present invention, step (b) may be carried out by applying various methods known in the art used for identifying a specific sequence. For example, techniques that may be applied to the present invention include fluorescence in situ hybridization (FISH), direct DNA sequencing, PFGE analysis, Southern blot analysis, single-strand conformational analysis (SSCA, Orita et al., PNAS, USA 86: 2776 (1989)), RNase protection analysis (Finkelstein et al., Genomics, 7: 167 (1990)), dot blot analysis, denaturing gradient gel electrophoresis (DGGE, Wartell et al., Nucl. Acids Res. (Modrich, Ann. Rev. Genet., 25: 229-253 (1991)) using a protein recognizing a nucleotide mismatch (e.g., mutS protein of E. coli) But are not limited to, allelic-specific PCR.

Sequence changes result in differences in base-linkage within the single-stranded molecule, leading to the appearance of different bands of mobility, and SSCA detects this band. DGGE analysis uses a denaturing gradient gel to detect sequences that represent wild type sequences and other mobility. Other techniques generally use probes or primers complementary to sequences comprising the SNPs of the invention. For example, in an RNase protection assay, a riboprobe complementary to a sequence comprising a SNP of the present invention is used. The riboprobe is hybridized with DNA or mRNA isolated from a plant, and then cleaved with an RNase A enzyme capable of detecting a mismatch. If there is a mismatch and RNase A recognizes, a smaller band is observed.

In the analysis using a hybridization signal, a probe complementary to the sequence containing the SNP of the present invention is used. In this technique, a hybridization signal of the probe and the target sequence is detected to directly determine whether or not the SNP variant is present.

As used herein, the term " probe " means a linear oligomer having a natural or modified monomer or linkage comprising a deoxyribonucleotide and a ribonucleotide that can hybridize to a particular nucleotide sequence. Preferably, the probe is single stranded for maximum efficiency in hybridization. The probe is preferably a deoxyribonucleotide. As the probe used in the present invention, a sequence complementary to the sequence including the SNP may be used, but a sequence substantially complementary to the sequence that does not interfere with the specific hybridization is used It is possible.

Preferably, the probe used in the present invention may be hybridized to a sequence comprising 8-100 consecutive nucleotides including the 51st nucleotide of any one of the nucleotide sequences of SEQ ID NOS: 1 to 203 which are SNP nucleotides Sequence.

More preferably, the 3'-end or the 5'-end of the probe has a base complementary to the SNP base. Generally, the stability of the duplex formed by hybridization tends to be determined by the agreement of terminal sequences, so that in a probe having a base complementary to the SNP base at the 3'-terminal or 5'-terminal, If the part is not hybridized, such a duplex can be disassembled under stringent conditions. Suitable conditions for hybridization include, but are not limited to, Nucleic Acid Hybridization, A Practical Approach, Hayes, BD, et al., Molecular Cloning, A Laboratory Manual, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, IRL Press, Washington, DC (1985). ≪ / RTI > The stringent condition used for hybridization can be determined by controlling the temperature, the ionic strength (buffer concentration) and the presence of a compound such as an organic solvent, and the like. This stringent condition can be determined differently depending on the sequence to be hybridized.

Step (b) of the method of the present invention can be carried out by an allele-specific gene amplification method. When the SNP is applied to a gene amplification method, it is collectively referred to as SNAP (single nucleotide amplified polymorphism). According to a preferred embodiment of the present invention, such gene amplification is performed by using a primer pair (primer pair) constructed to amplify a polynucleotide comprising the 51st nucleotide of any one of the nucleotide sequences of SEQ ID NOS: 1 to 203, which is a SNP nucleotide pair) is basically used.

As used herein, the term "primer" refers to a single strand of oligonucleotides that is hybridized under suitable conditions (the presence of four different nucleoside triphosphates and a polymerase such as a DNA or RNA polymerase) Quot; means acting as a starting point for initiating template-directed DNA synthesis under the buffer.

The suitable length of the primer is determined by the characteristics of the primer to be used, but is usually 15 to 30 bp in length. The primer need not be exactly complementary to the sequence of the template, but must be complementary enough to form a hybridcomplex with the template.

Amplification techniques that may be used in the methods of the invention include PCR amplification (Miller, HI (WO 89/06700) and Davey, C. et al. (EP 329,822)), ligase chain reaction (LCR, Wu, DY (PCR), and the GAP-LCR (WO 90/01069), the repair chain (Genomics 4: 560 (1989)), polymerase ligase chain reaction (Barany, PCR Methods and Appl., 1: But are not limited to, reactions (EP 439,182), 3SR (Kwoh et al., PNAS, USA, 86: 1173 (1989)) and NASBA (US Pat. No. 5,130,238). Most preferably by PCR amplification step. Where amplification techniques are applied, it is important to design suitable primers to identify the SNP bases of the present invention.

According to a preferred embodiment of the present invention, the present invention provides a method for producing a nucleic acid comprising the steps of (i) annealing with a sequence adjacent to the 51st nucleotide of any one of the nucleotide sequences of SEQ ID NOS: 1 to 203, (ii) There is provided a method for analyzing a base type of a SNP nucleotide using a genotyping primer designed to match a nucleotide at a -1 position from an SNP nucleotide.

In a preferred embodiment of the present invention, dideoxy adenosine triphosphate (ddATP), dideoxy cytosine triphosphate (ddCTP), dideoxy guanosine triphosphate (ddGTP ), And dideoxy thymidine triphosphate (ddTTP).

When a genotyping primer designed as described above and ddATP, ddCTP, ddGTP and ddTTP as a reaction substrate are added to a reaction solution and subjected to an amplification reaction, only one base matching the target SNP nucleotide from the 3 'end of the genotyping primer is amplified extension, and the type of the extended base can be easily confirmed by fluorescence. By this method, the type of SNP nucleotide can be determined.

The conditions of the amplification reaction by PCR and the reagents and enzymes used can be those conventionally known in the art.

According to another aspect of the present invention, there is provided a primer pair comprising a pair of primers designed to amplify a polynucleotide comprising the 51st nucleotide of any one of the nucleotide sequences of SEQ ID NOS: Provides a kit for determining species, system or seed purity.

According to a preferred embodiment of the present invention, the primer pair is (i) annealed with a sequence adjacent to the 51st nucleotide of any one of the nucleotide sequences of SEQ ID NOS: 1 to 203, (ii) the nucleotide at the 3 ' And a genotyping primer matching the nucleotide at position -1 from the nucleotide.

According to another preferred embodiment of the present invention there is provided a kit comprising a kit comprising at least one kit of dideoxy adenosine triphosphate (ddATP), dideoxycytosine triphosphate (ddCTP), dideoxy guanosine triphosphate (ddGTP), dideoxy thymidine triphosphate (ddTTP).

When the kit of the present invention is applied to a PCR amplification process, the kit of the present invention may optionally comprise reagents necessary for PCR amplification, such as a buffer, a DNA polymerase (e.g., Thermus aquaticus (Taq), Thermus thermophilus filiformis, Thermisflavus, Thermococcus literalis, or Pyrococcus furiosus (Pfu)), DNA polymerase joins and dNTPs. The kit of the present invention may be made from a number of separate packaging or compartments containing the above reagent components.

Yet another aspect of the invention relates to a polynucleotide comprising a SNP according to the invention, a microarray comprising complementary polynucleotides thereof.

The microarray according to the present invention can be produced by a conventional method known to those skilled in the art using SNPs for discriminating species or lines of plants.

For example, the nucleotide can be immobilized on a substrate coated with an activator selected from the group consisting of amino-silane, poly-L-lysine and aldehyde. In addition, the substrate may be selected from the group consisting of a silicon wafer, glass, quartz, metal, and plastic. Methods for immobilizing the polynucleotide on a substrate include micropipetting using a piezo electric method and a method using a pin-type spotter.

Another aspect of the present invention relates to a kit for determining the system, species or seed purity of radish comprising the microarray according to the present invention.

The kit according to the present invention may further include a primer set used for isolating and amplifying the DNA containing the SNP from the sample in addition to the microarray of the present invention. Such a suitable primer set can be easily designed by those skilled in the art with reference to the sequence of the present invention.

In the case of SEQ ID NO: 1, accession number RSS0338: 3030 is located on the chromosome 4 of the mouse. The position of the SNP is located at 99669th position of the entire chromosome. The sequence of the SNP is G or A, Of the 17 species, DB102, Wild radish2, WK10024, R. raphanistrum paper A, and the remaining 13 species can have G.

In case of SEQ ID NO: 2, COS 1079: 446 is located at the chromosome 4 of the radish, the SNP position is 466561 th of the chromosome 4, and the SNP sequence is G or T. Among the above 17 species, DB104, DB109, wild radish2, wild radish3, WK10024, and G in the remaining 12 species.

In the case of SEQ ID NO: 3, the approval number COS0917: 5097 is located in the chromosome 4 of the radish. The SNP is located at 1377088th position of the entire chromosome. The sequence of the SNP is G or A. Among the 17 species, Long scarlet, wild radish , wild radish2, Raphanistroides3, Sayatori, WK10024, and G in the remaining eleven species.

In the case of SEQ ID NO: 4, the approval number RsSNP08559: 5228 is located on the chromosome 4 of the mouse, the SNP position is located at the 1520373 th position of the entire chromosome 4 and the sequence of the SNP is T or G. Among the 17 species, DB110 and Wild radish3, Aokubi_S_h, WK10039, and G in the remaining 13 species.

In the case of SEQ ID NO: 5, the approval number RS2CL4127s: 5375 is located in the chromosome 4 of the mouse. The SNP position is located at the 1546364th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB102, wild radish2, WK10024, and C in the remaining 13 species.

In the case of SEQ ID NO: 6, an approval number RSS3928: 3241 is located in the chromosome 4 of the radish, the SNP position is located at the 1991265th position of the entire chromosome 4, and the sequence of the SNP is A or C. Among these 17 species, DB109 and DB110 , DB113, Wild radish3, Raphanistroides1, Sayatori, WK10039, and C in the remaining 10 species.

In the case of SEQ ID NO: 7, the approval number RsSNP09009: 7965 is located in the chromosome 4 of the radish, the position of the SNP is located at the 2131940th position of the entire chromosome 4, the sequence of the SNP is G or A, A in WK10024 species, and G in the remaining 15 species.

In the case of SEQ ID NO: 8, an approval number RS2CL1264s: 3483 is located in chromosome 4 of mouse, the position of SNP is 2626869 of the entire chromosome 4 and the sequence of SNP is G or A. Among the 17 species, DB102 and DB104 , Wild radish1, WK10024, A in Aokubi species, and G in the remaining 12 species.

In the case of SEQ ID NO: 9, the accession number is RsSNP04320: 2682, which is located on the chromosome 4 of the mouse. The SNP position is located at the 3638618th position of the entire chromosome 4 and the sequence of the SNP is G or T. Among the 17 species, DB109 and WK10024 , T in Raphanistroides 1, and G in the remaining 14 species.

In the case of SEQ ID NO: 10, the approval number is RSS0551: 318, located on the chromosome 4 of the radish, the SNP position is located at the 4050492 th position of the entire chromosome 4, and the sequence of the SNP is T or C. Among the 17 species, DB113, Aokubi And C in WK10024, and T in the remaining 14 species.

In the case of SEQ ID NO: 11, the approval number is RSS0328: 3575, which is located on chromosome 4 of mouse, the position of SNP is 4193384 of the entire chromosome 4, the sequence of SNP is A or C, C in WK10024, and A in the remaining 15 species.

In the case of SEQ ID NO: 12, the approval number COS0241: 4066 is located in the chromosome 4 of the radish, the SNP position is located at the 4780569th position of the entire chromosome 4, the sequence of the SNP is T or C, , And the remaining 16 species can have T.

In the case of SEQ ID NO: 13, the approval number RSS2003: 976 is located on chromosome 4 of mouse, the position of SNP is 6175839 of the entire chromosome 4, the sequence of SNP is A or G and Long scarlet, DB102, DB104, DB109, WK10024, G in the R. raphanistrum species, and A in the remaining eleven species.

In the case of SEQ ID NO: 14, the approval number is RSS2409: 5618, located at the chromosome 4 of the radish, the SNP position is located at the 7155365 th position of the entire chromosome 4, the sequence of the SNP is A or G and Raphanistroides 3 and WK10024 G in species, and A in the other 15 species.

In the case of SEQ ID NO: 15, an approval number RsSNP11657: 1478 is located in the chromosome 4 of the radish, the SNP position is located at the 7865242 th position of the entire chromosome 4, and the sequence of the SNP is T or C, Radish1, Wild radish2, Wild radish3, Raphanistroides2, Aokubi, Sayatori, WK10024 and C in the other nine species.

In the case of SEQ ID NO: 16, an approval number RsSNP08153: 2224 is located on the chromosome 4 of the radish, the SNP position is 8199983rd of the entire chromosome 4 and the sequence of the SNP is C or T. Among the 17 species, DB109 and DB110 , DB113, Wild radish1, Raphanistroides1, Raphanistroides3, WK10039, C in R. raphanistrum species, and T in the remaining nine species.

In the case of SEQ ID NO: 17, the sequence number of RS2CL2726s: 2982 is located in chromosome 4 of mouse, the position of SNP is 8265642 of the entire chromosome 4 and the sequence of SNP is T or A. Among the 17 species, DB104 and DB110 , DB113, Wild radish2, Wild radish3, Raphanistroides2, WK10039, and A in the remaining nine species.

In the case of SEQ ID NO: 18, an approval number RsSNP15290: 2724 is located in the chromosome 4 of the mouse. The SNP position is located at the 8403438th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, T, and the remaining 16 species can have C.

In the case of SEQ ID NO: 19, the approval number is RSS2780: 3519, located at the chromosome 4 of the mouse, the position of the SNP is located at the 10147718th position of the entire chromosome 4, the sequence of the SNP is C or T, T in DB109, Aokubi and WK10024, and C in the remaining 13 species.

In the case of SEQ ID NO: 20, the approval number COS0462: 9781 is located in the chromosome 4 of the radish. The SNP position is located at the 10183980th position of the entire chromosome 4 and the sequence of the SNP is G or A. Among the 17 species, DB104 and DB110 , DB113, Wild radish2, Raphanistroides3, WK10039, and A in the remaining eleven species.

In the case of SEQ ID NO: 21, the sequence number is COS0492: 6571, located on chromosome 4 of mouse, the position of SNP is 10299428 of the entire chromosome 4, the sequence of SNP is T or C, DB102, WK10024, C in R.raphanistrum species, and T in the remaining 13 species.

In the case of SEQ ID NO: 22, an approval number COS0518: 38197 is located on the chromosome 4 of the radish. The SNP is located at the 10913728th position of the entire chromosome 4, and the sequence of the SNP is T or C. Among the 17 species, Long Scarlet, WK10024, C in R.raphanistrum species, and T in the remaining 14 species.

In the case of SEQ ID NO: 23, the approval number is RSS2603: 2335, located at the chromosome 4 of the radish, the position of the SNP is 11506963 of the chromosome 4, the sequence of the SNP is C or A and Long Scarlet, DB102, WK10024, and C in the remaining 14 species.

In the case of SEQ ID NO: 24, the approval number is RSS1982: 1161, located on the chromosome 4 of the mouse, the position of the SNP is 11726537th of the entire chromosome 4, the sequence of the SNP is G or T, DB102, wild radish1, wild radish2, wild radish3, Raphanistroides1, Raphanistroides2, Aokubi, WK10039, and G in the remaining seven species.

In the case of SEQ ID NO: 25, an approval number RsSA103: 1421 is located in the chromosome 4 of the mouse, the SNP position is located at the 12346825th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long Scarlet, T in WK10024 species, and C in the remaining 15 species.

In the case of SEQ ID NO: 26, an approval number RSS1864: 12270 is located on the chromosome 4 of the mouse, the SNP position is located at the 13974860 th position of the entire chromosome 4, and the sequence of the SNP is A or T. Among the 17 species, DB102 and DB110 , DB113, WK10024 and T in the remaining 13 species.

In the case of SEQ ID NO: 27, an approval number RsSNP12165: 3774 is located in the chromosome 4 of the radish, the SNP position is located at the 14104984 position of the entire chromosome 4, the sequence of the SNP is A or G, DB104, DB109, Wild radish1, Wild radish3, Raphanistroides3, Sayatori, WK10039, and G in the remaining nine species.

In the case of SEQ ID NO: 28, an approval number COS0684: 1727 is located in the chromosome 4 of the mouse, the SNP position is located at the 15527288 th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among these 17 species, WK10024, R T in the raphanistrum species, and C in the remaining 15 species.

In the case of SEQ ID NO: 29, the approval number COS0526: 352 is located on the chromosome 4 of the radish, the position of the SNP is 16628266-th position of the entire chromosome 4 and the sequence of the SNP is C or T. Among the 17 species, DB104 and DB110 , wild radish2, wild radish3, RRaphanistroides1, Aokubi, Sayatori, WK10024, and C in the remaining nine species.

In the case of SEQ ID NO: 30, an approval number RsSNP10691: 5017 is located in the chromosome 4 of the mouse. The SNP position is located at 17105190th position of the entire chromosome 4 and the sequence of the SNP is A or C. Among the 17 species, DB102, wild radish3, Sayatori, WK10024, R. raphanistrum C in five species, and A in the remaining nine species.

In the case of SEQ ID NO: 31, the approval number is RSS0902: 3441, located on the chromosome 4 of the mouse, the position of the SNP is 17654524th of the entire chromosome 4, the sequence of the SNP is A or G, It is G in two kinds of WK10024, and can have A in the remaining 15 species.

In the case of SEQ ID NO: 32, the sequence number is COS0635: 1025, located on chromosome 4 of mouse, the position of SNP is 19748828 of the entire chromosome 4, and the sequence of SNP is C or G. Among the 17 species, DB102 and DB104 , DB110, Raphanistroides 1, WK10024, and C in the remaining 12 species.

In the case of SEQ ID NO: 33, an approval number of RSS1538: 9367 is located in the chromosome 4 of the radish. The SNP is located at the 20351489th position of the entire chromosome 4 and the sequence of the SNP is T or G. Among the 17 species, Long scarlet, DB102, DB104, wild radish1, WK10024 and R.raphanistrum, and T in the remaining eleven species.

In the case of SEQ ID NO: 34, an approval number RSS2423: 13057 is located on the chromosome 4 of the mouse. The SNP position is located at 22101199th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB102, DB104, Wild radish1, Wild radish3, Raphanistroides1, Raphanistroides2, Aokubi, WK10024, and C in the remaining eight species.

In the case of SEQ ID NO: 35, the sequence number of the SNP is A or G, and among the 17 species, long scarlet, DB102, DB104, Wild radish1, Wild radish2, Raphanistroides1, Raphanistroides2, Aokubi, WK10024.

In the case of SEQ ID NO: 36, the approval number RsSNP03348: 4796 is located on the chromosome 4 of the radish, the SNP position is located at the 25408360th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB104, DB113, Raphanistroides2, Aokubi, WK10024, and C in the remaining 11 species.

In the case of SEQ ID NO: 37, the approval number is RSS3199: 1472, located at the chromosome 4 of the radish, the SNP is located at the 28817249th position of the entire chromosome 4, and the sequence of the SNP is A or T. Long scarlet, DB102, DB110, DB113, Wild radish1, Raphanistroides1, Raphanistroides2, WK10024, and A in the remaining nine species.

In the case of SEQ ID NO: 38, the approval number is RSS1590: 3574, which is located in chromosome 4 of mouse. The position of SNP is located at 29382042th position of the entire chromosome 4 and the sequence of SNP is G or A. Among these 17 species, Sayatori, WK10024 And G in the remaining 15 species.

In the case of SEQ ID NO: 39, the approval number is RSS0347: 7152, located at the chromosome 4 of the radish, the SNP position is located at 30648400 of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long Scarlet, DB102, DB104, DB109, Aokubi, WK10024, and C in the remaining eleven species.

In the case of SEQ ID NO: 40, an approval number RSS3218: 1875 is located on the chromosome 4 of the radish, the SNP position is 32134490th of the entire chromosome 4, the sequence of the SNP is A or C and DB109, Sayatori , C in WK10024, and A in the remaining 14 species.

In the case of SEQ ID NO: 41, an approval number COS0546: 176 is located on the chromosome 4 of the radish, the position of the SNP is located at the position of 32723888th of the entire chromosome 4, the sequence of the SNP is A or C, C in DB102, Raphanistroides2, WK10024, and A in the remaining 13 species.

In the case of SEQ ID NO: 42, the approval number is RSS1960: 4017, located on chromosome 4 of mouse, the position of SNP is located at the position of 32736978 of the entire chromosome 4, and the sequence of SNP is A or G. Among these 17 species, DB102, Raphanistroides2 , G in WK10024, and A in the remaining 14 species.

In the case of SEQ ID NO: 43, the approval number is RSS3634: 2888, located on the chromosome 4 of the mouse, the position of the SNP is located 33037592th of the entire chromosome 4 and the sequence of the SNP is T or A. Among the 17 species, DB109 and DB113 Wild radish2, Raphanistroides2, WK10024, and the remaining 12 species can have T.

In the case of SEQ ID NO: 44, COS1128: 864, which is located at the chromosome 4 of the mouse, the position of SNP is 33234380 of the entire chromosome 4 and the sequence of the SNP is C or T, , And C in the other species.

In the case of SEQ ID NO: 45, an approval number RsSNP13368: 7018 is located in the chromosome 4 of the mouse, the position of the SNP is 33355383 of the chromosome 4 and the sequence of the SNP is A or G. Among the 17 species, DB102 and DB113 , Wild radish2, Raphanistroides1, Aokubi, Sayatori, WK10024, R. raphanistrum and G in the remaining nine species.

In the case of SEQ ID NO: 46, the approval number RS2CL4453s: 2812 is located on the chromosome 4 of the mouse, the position of the SNP is located at the 33418644th position of the entire chromosome 4 and the sequence of the SNP is A or G. Among the 17 species, DB102 and DB104 , Wild radish2, WK10024, R. raphanistrum G, and the remaining 12 species can have A.

In the case of SEQ ID NO: 47, the accession number is RsSNP14401: 5798, which is located on the chromosome 4 of the mouse, the position of the SNP is 33633370th of the entire chromosome 4, the sequence of the SNP is C or A, DB102, WK10024, and C in the remaining 14 species.

In the case of SEQ ID NO: 48, an approval number COS1004: 6874 is located on the chromosome 4 of the mouse. The SNP is located at position 34186324 of the entire chromosome 4 and the sequence of the SNP is T or C. Among these 17 species, Long scarlet, C in DB102, DB104, DB109, DB113, Raphanistroides2, Aokubi, WK10024, and T in the remaining nine species.

In the case of SEQ ID NO: 49, an approval number RsSNP13835: 9946 is located in the chromosome 4 of the mouse, the position of the SNP is located at the 34415928th position of the entire chromosome 4, and the sequence of the SNP is C or T. Long scarlet, DB102, WK10024, and R. raphanistrum, and C in the remaining 13 species.

In the case of SEQ ID NO: 50, an approval number RSS3904: 5912 is located in the chromosome 4 of the radish, the SNP position is located at the 34746092nd position of the entire chromosome 4, the sequence of the SNP is G or A, DB102, WK10024, R. A in the raphanistrum, and G in the remaining thirteen species.

In the case of SEQ ID NO: 51, an approval number COS1000: 6319 is located in the chromosome 4 of radish, the position of the SNP is located at the 34832683rd position of the entire chromosome 4, the sequence of the SNP is T or C, C in DB102, DB104, Aokubi, Sayotori, WK10024, and T in the remaining eleven species.

In the case of SEQ ID NO: 52, the approval number is RSS0484: 2370, located on the chromosome 4 of the radish, the position of the SNP is located at 34926491 th position of the entire chromosome 4, the sequence of the SNP is A or T, It is T in DB102, DB104, DB109, Wild radish1, Wild radish2, Wild radish3, Raphanistroides2, Raphanistroides3, Sayotori, WK10024, and can have A in the remaining six species.

In the case of SEQ ID NO: 53, the approval number RsSNP10794: 2088 is located on the chromosome 4 of the radish, the SNP position is located at the 35529829 th position of the entire chromosome 4, the sequence of the SNP is T or G, DB102, DB113, WK10024, and T in the remaining 14 species.

In case of SEQ ID NO: 54, the approval number is RSS0214: 17153, located on chromosome 4 of mouse, the position of SNP is 35692333 of the entire chromosome 4, the sequence of SNP is G or A, And G in the remaining 11 species.

In the case of SEQ ID NO: 55, the approval number RsSNP09565: 2849 is located on the chromosome 4 of the radish. The SNP position is located at the 35709563 th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB102, DB109, DB113, WK10024, and R. raphanistrum, and C in the remaining eleven species.

In the case of SEQ ID NO: 56, an approval number RsSNP09586: 573 is located in the chromosome 4 of the radish, the SNP position is located at the 35877497 th position of the entire chromosome 4, the sequence of the SNP is T or A, A in DB102, DB109, Aokubi, WK10024, and T in the remaining twelve species.

In the case of SEQ ID NO: 57, an approval number COS0034: 1717 is located in the chromosome 4 of the radish. The SNP position is located at the 35894074th position of the entire chromosome 4, and the sequence of the SNP is G or C. Among the 17 species, Long scarlet, DB102, DB109, Aokubi, WK10024, R. raphanistrum, and G in the remaining eleven species.

In the case of SEQ ID NO: 58, an approval number RS2CL3689s: 3890 is located in the chromosome 4 of the mouse. The SNP position is located at the 35896247th position of the entire chromosome 4, and the sequence of the SNP is A or T. Among the 17 species, Long scarlet, DB102, WK10024, and the remaining 14 species can have A.

In the case of SEQ ID NO: 59, the approval number is RSS2713: 11380, located at the chromosome 4 of the radish, the SNP position is located at the 36224559th position of the entire chromosome 4, and the sequence of the SNP is A or T. Among the 17 species, DB102, WK10024 And T in the remaining 15 species.

In the case of SEQ ID NO: 60, the approval number RsSNP10509: 11085 is located in the chromosome 4 of the radish, the SNP position is located at the 36469617th position of the entire chromosome 4, and the sequence of the SNP is A or C. Among the 17 species, DB102, WK10024 , C in R. raphanistrum, and A in the remaining 14 species.

In the case of SEQ ID NO: 61, an approval number RSS0759: 9084 is located in the chromosome 4 of the mouse, the SNP position is located at the 37205304th position of the entire chromosome 4, the sequence of the SNP is A or G, G in DB102, DB109, Wild radish2, Wild radish3, Raphanistroides1, Aokubi, WK10024, and can have A in the remaining nine species.

In the case of SEQ ID NO: 62, the approval number RSS0815: 29310 is located on the chromosome 4 of the radish, the SNP position is located at the 38127512th position of the entire chromosome 4, the sequence of the SNP is T or C, DB102, Raphanistroides1, WK10024, and T in the remaining 13 species.

In the case of SEQ ID NO: 63, an approval number RsSNP12769: 3500 is located in the chromosome 4 of the mouse, the position of the SNP is located at position 38913963 of the entire chromosome 4 and the sequence of the SNP is C or A. Among the 17 species, DB102 and DB110 , Wild radish2, Wild radish3, Raphanistroides1, Raphanistroides3, WK10039, and the remaining 10 species can have A.

In the case of SEQ ID NO: 64, the approval number is RSS2453: 6414, located on the chromosome 4 of the mouse, the position of the SNP is 40398371 of the entire chromosome 4 and the sequence of the SNP is G or T. Among the 17 species, DB104 and DB110 , DB113, Raphanistroides3, Aokubi, Sayatori, WK10039, and T in the remaining 10 species.

In the case of SEQ ID NO: 65, an approval number of RSS3617: 6641 is located in the chromosome 4 of the radish. The SNP is located at position 40773189 of the entire chromosome 4, and the sequence of the SNP is T or C. Among these 17 species, DB104 and DB110 , DB113, Aokubi, WK10039, R. raphanistrum, and C in the remaining eleven species.

In case of SEQ ID NO: 66, the approval number is RSS2602: 4614, located at the chromosome 4 of the radish, the position of the SNP is 40782328th of the entire chromosome 4, the sequence of the SNP is T or C and DB109, Raphanistroides2 , Sayatori, C in WK10024, and T in the remaining 13 species.

In case of SEQ ID NO: 67, the approval number is RSS3781: 759, which is located on the chromosome 4 of the radish. The SNP position is located at 41121882 positions of the entire chromosome 4, and the sequence of the SNP is C or G. Among the 17 species, And C in the remaining 16 species.

In the case of SEQ ID NO: 68, an approval number RS2CL1956s: 2142 is located in the chromosome 4 of the mouse, the SNP position is located at the 41317496 th position of the entire chromosome 4, the sequence of the SNP is C or A, DB102, WK10024, and R. raphanistrum, and C in the remaining 13 species.

In the case of SEQ ID NO: 69, the SNP is located at the 41330264th position of the entire chromosome 4, and the sequence of the SNP is G or A. Among the 17 species, Long Scarlet, A in DB102, DB110, WK10024, and G in the remaining 14 species.

In the case of SEQ ID NO: 70, the approval number RsSNP09317: 4232 is located on the chromosome 4 of the mouse. The SNP position is located at the 41774224th position of the entire chromosome 4 and the sequence of the SNP is G or A. Among the 17 species, Long Scarlet, DB102, DB104, WK10024, R. It is A in the raphanistrum, and G in the remaining twelve species.

In the case of SEQ ID NO: 71, an approval number RSS0801: 17000 is located in the chromosome 4 of the radish, the SNP position is located at the 42142618th position of the entire chromosome 4 and the sequence of the SNP is C or G. Among the 17 species, Long Scarlet, DB102, Wild radish2, WK10024, and can have C in the remaining 13 species.

In the case of SEQ ID NO: 72, an approval number RsSNP06056: 1252 is located in the chromosome 4 of the radish. The SNP position is located at 42354514th position of the entire chromosome 4 and the sequence of the SNP is T or C. Among the 17 species, Long Scarlet, C in DB113, WK10024, and T in the remaining 14 species.

In the case of SEQ ID NO: 73, an approval number RSS3320: 10634 is located on the chromosome 4 of the radish, the SNP position is located at the 42962127th position of the entire chromosome 4, and the sequence of the SNP is G or T. Among the 17 species, Long Scarlet, DB102, Wild radish2, Sayatori, WK10024, and R. raphanistrum, and G in the remaining eleven species.

In the case of SEQ ID NO: 74, an approval number RSS2099: 6046 is located on the chromosome 4 of the radish, the SNP position is located at 43622292th position of the entire chromosome 4, and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB102, DB104, DB109, Sayatori, WK10024, and R. raphanistrum, and C in the remaining ten species.

In the case of SEQ ID NO: 75, the recognition number COS0437: 5610 is located in the chromosome 4 of the radish, the SNP position is located at 43869731 th position of the entire chromosome 4, the sequence of the SNP is C or G, And C in the remaining 16 species.

In the case of SEQ ID NO: 76, an approval number COS1187: 8578 is located in the chromosome 4 of the radish. The SNP is located at position 44264085 of the entire chromosome 4 and the sequence of the SNP is G or T. Among the 17 species, And G in the remaining 16 species.

In the case of SEQ ID NO: 77, an approval number COS0006: 765 is located on the chromosome 4 of the mouse, the SNP position is located at 44418572 of the entire chromosome 4, the sequence of the SNP is A or T, And can have A in the remaining 16 species.

In the case of SEQ ID NO: 78, an approval number RsSNP14062: 8528 is located in the chromosome 4 of the radish. The SNP is located at position 44509471 of the entire chromosome 4 and the sequence of the SNP is T or C. Among these 17 species, Long scarlet, DB102, DB113, Wild radish2, WK10024, R. raphanistrum C, and the remaining 11 species can have T.

In the case of SEQ ID NO: 79, the recognition number RsSNP14583: 3279 is located in the chromosome 4 of the radish, the SNP position is located at the 44683378 th position of the entire chromosome 4 and the sequence of the SNP is A or T. Among the 17 species, DB102, WK10024 And T in the remaining 15 species.

In the case of SEQ ID NO: 80, the recognition number RsSNP09805: 8262 is located on the chromosome 4 of the mouse, the SNP position is located at 44766088th position of the entire chromosome 4, the sequence of the SNP is A or G, G in raphanistrum, and A in the remaining 15 species.

In the case of SEQ ID NO: 81, the approval number is RSS2426: 5367, located at the chromosome 4 of the radish, the SNP position is located at the 45892360th position of the entire chromosome 4, the sequence of the SNP is G or T, Wild radish1, Wild radish3, WK10024, R. It is T in raphanistrum, and G in the remaining twelve species.

In the case of SEQ ID NO: 82, the approval number RsSNP14827: 4248 is located on the chromosome 4 of the radish, the position of the SNP is located at the 46577307 th position of the entire chromosome 4, the sequence of the SNP is T or C, radish2, Wild radish3, Raphanistroides3, WK10024, and T in the remaining 12 species.

In the case of SEQ ID NO: 83, the sequence number of the SNP is G or T, and the sequence of the SNP is located at the position of 47445875 of the chromosome 4, And G in the remaining 16 species.

In the case of SEQ ID NO: 84, an approval number COS0090: 11768 is located in the chromosome 4 of the radish. The SNP is located at the 48044748th position of the entire chromosome 4 and the sequence of the SNP is G or T. Among the 17 species, Long scarlet, DB102, DB110, Raphanistroides2, WK10024, and G in the remaining twelve species.

In the case of SEQ ID NO: 85, an approval number RsSNP10330: 5679 is located in the chromosome 4 of the radish, the SNP position is located at the 48449605 th position of the entire chromosome 4, and the sequence of the SNP is T or C. Among the 17 species, DB104 and DB113 , Wild radish1, Raphanistroides3, Aokubi, WK10039, and the remaining 11 species can have C.

In the case of SEQ ID NO: 86, the approval number is RSS0103: 4584, located on the chromosome 4 of the radish, the SNP position is located at 49071729th of the entire chromosome 4, and the sequence of the SNP is C or G. Among the 17 species, DB104, Raphanistroides3 , WK10024, R in raphanistrum, and C in the remaining 13 species.

In the case of SEQ ID NO: 87, an approval number RsSNP15238: 11419 is located in the chromosome 5 of the radish, the position of the SNP is 338093th of the entire chromosome 5 and the sequence of the SNP is A or G. Among the 17 species, DB102 and DB104 , Sayatori, WK10024, R. raphanistrum G, and the remaining 12 species can have A.

In the case of SEQ ID NO: 88, the approval number COS0883: 5466 is located in the chromosome 5 of the radish. The SNP position is located at the 415433rd position of the entire chromosome 5, and the sequence of the SNP is T or A. Among the 17 species, DB104, Sayatori , A in WK10024, and T in the remaining 14 species.

In the case of SEQ ID NO: 89, an approval number N1: 5920 is located in the chromosome 5 of the radish. The SNP position is located at 1162480th position of the entire chromosome 5, and the sequence of the SNP is A or G. Among the 17 species, DB104 and DB109 , DB110, Wild radish2, Raphanistroides3, WK10039, and G in the remaining eleven species.

In the case of SEQ ID NO: 90, the approval number RS2CL6670s: 9119 is located in the chromosome 5 of the radish, the SNP position is located at the 1231514th position of the entire chromosome 5 and the sequence of the SNP is G or C. Among the 17 species, DB102 and DB113 , Wild radish 3, Raphanistroides 1, Raphanistroides 2, Aokubi, WK10024, and G in the remaining 10 species.

In the case of SEQ ID NO: 91, an approval number RSS2296: 800 is located in the chromosome 5 of radish, the SNP position is located at 1544017th position of the entire chromosome 5, the sequence of SNP is T or C, Wild radish2, Raphanistroides2, Raphanistroides3, WK10039, and the remaining 15 species can have C.

In the case of SEQ ID NO: 92, an approval number RSS2055: 3646 is located in the chromosome 5 of the radish, the SNP is located at 222504 of the entire chromosome 5, the sequence of the SNP is T or C, DB102, DB110, Wild radish1, Wild radish2, Raphanistroides1, Aokubi, WK10024, R. raphanistrum, and T in the remaining eight species.

In the case of SEQ ID NO: 93, an approval number RSS3978: 65 is located in the chromosome 5 of the radish, the SNP position is located at the 2547413 th position of the entire chromosome 5, the sequence of the SNP is A or C, C in raphanistrum, and A in the remaining 15 species.

In the case of SEQ ID NO: 94, the sequence number is COS0892: 521, located on chromosome 5 of radish, the position of SNP is 2700933 of the entire chromosome 5, the sequence of SNP is A or C and DB102, DB104 , DB110, DB113, Raphanistroides2, Aokubi, Sayatori, WK10024, and A in the remaining nine species.

In the case of SEQ ID NO: 95, the accession number RsSNP06168: 4246 is located on the chromosome 5 of the radish, the SNP position is located at the 3286488th position of the entire chromosome 5, and the sequence of the SNP is G or T. DB109, Raphanistroides3 , T in WK10024, and G in the remaining 14 species.

In the case of SEQ ID NO: 96, an approval number COS0263: 7460 is located in the chromosome 5 of the radish, the position of the SNP is 3370586th position of the entire chromosome 5, the sequence of the SNP is G or A and DB102 and DB110 , Wild radish2, Aokubi, WK10024, and G in the remaining 12 species.

In the case of SEQ ID NO: 97, an approval number RSS0209: 5124 is located in the chromosome 5 of the radish, the SNP position is located at the 3657019th position of the entire chromosome 5, the sequence of the SNP is T or C, and DB102 and DB109 , Raphanistroides 1, Raphanistroides 3, WK10039, and C in the remaining 12 species.

In the case of SEQ ID NO: 98, an approval number COS1121: 1772 is located in the chromosome 5 of the radish. The SNP position is located at the 3660372 th position of the entire chromosome 5 and the sequence of the SNP is G or A. Among the 17 species, DB102 and DB104 , DB109, DB110, Wild radish1, Wild radish2, WK10024, and G in the remaining ten species.

In the case of SEQ ID NO: 99, the SNP is located at position 3903525 of the entire chromosome 5, the sequence of the SNP is A or C, and the long scarlet, DB102, DB113, Wild radish1, Raphanistroides1, WK10024, R. raphanistrum C, and the remaining ten species can have A.

In the case of SEQ ID NO: 100, an approval number RSS1111: 828 is located in the chromosome 5 of the radish, the SNP position is located at the 3937531 th position of the entire chromosome 5, the sequence of the SNP is C or G, DB102, DB110, Sayatori, WK10024, and R. raphanistrum, and C in the remaining eleven species.

In case of SEQ ID NO: 101, the approval number COS0204: 15097 is located in the chromosome 5 of the radish. The SNP position is located at 4047634th position of the entire chromosome 5 and the sequence of the SNP is G or C. Among the 17 species, DB110 and Wild Radish1, Wild radish2, Raphanistroides2, Sayatori, WK10039, R. G in raphanistrum, and C in the remaining ten species.

In the case of SEQ ID NO: 102, the approval number RS2CL5065s: 4467 is located in the chromosome 5 of the radish, the SNP position is located at the 4405802-th position of the entire chromosome 5, the sequence of the SNP is A or G, DB102, DB109, DB113, WK10024, and R. raphanistrum, and can have A in the remaining 16 species.

In the case of SEQ ID NO: 103, the approval number RsSNP06030: 1432 is located on the chromosome 5 of the radish, the SNP position is located at the 5431215th position of the entire chromosome 5, the sequence of the SNP is A or C, DB102, Wild radish2, Aokubi, Sayatori, WK10024, R. raphanistrum C, and the remaining ten species can have A.

In the case of SEQ ID NO: 104, an approval number RSS2124: 2473 is located in the chromosome 5 of the radish, the SNP position is 5808236th of the entire chromosome 5 and the sequence of the SNP is A or C. Among the 17 species, DB104 and DB109 , Wild radish1, Raphanistroides1, WK10039, and C in the remaining 12 species.

In the case of SEQ ID NO: 105, the accession number is RSS0837: 9819, which is located on the chromosome 5 of the radish. The SNP is located at the 5941077th position of the entire chromosome 5 and the sequence of the SNP is C or G. DB102 and DB104 , DB110, DB113, Wild radish1, Wild radish2, WK10039, and G in the remaining ten species.

In the case of SEQ ID NO: 106, the accession number is RSS0139: 8572, located at the chromosome 5 of the radish, the SNP position is located at the 6059180th position of the entire chromosome 5, and the sequence of the SNP is C or T. DB102, WK10024 , T in R. raphanistrum, and C in the remaining 14 species.

In the case of SEQ ID NO: 107, the approval number RS2CL1405s: 6173 is located in the chromosome 5 of radish, the position of the SNP is located at 6276930th position of the entire chromosome 5, and the sequence of the SNP is G or T. DB110 and DB113 , Wild radish2, Raphanistroides 1, Raphanistroides 3, Aokubi, WK10039, and the remaining 10 species can have A.

In the case of SEQ ID NO: 108, the approval number is RSS0618: 4756, located on the chromosome 5 of the radish, the position of the SNP is located at 6640851 of the entire chromosome 5, the sequence of the SNP is T or A, DB110, Wild radish3, Raphanistroides1, Raphanistroides2, Aokubi, Sayatori, WK10024, R. A in the raphanistrum, and T in the remaining eight species.

In the case of SEQ ID NO: 109, an approval number RSS1891: 6832 is located in the chromosome 5 of the radish. The SNP position is located at the 7124762 th position of the entire chromosome 5, and the sequence of the SNP is A or G. Wild radish 1, G in WK10024, and A in the remaining 15 species.

In the case of SEQ ID NO: 110, an approval number COS0755: 9324 is located on the chromosome 5 of the radish, the SNP position is located at the 7604298th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among these 17 species, DB109, Raphanistroides3 , WK10024, A in R. raphanistrum, and G in the remaining 13 species.

In the case of SEQ ID NO: 111, an approval number RSS0944: 15977 is located in the chromosome 5 of the radish, the SNP position is located at 8281468th position of the entire chromosome 5 and the sequence of the SNP is T or A. Among the 17 species, DB109 and DB113 , Raphanistroides2, Raphanistroides3, WK10024, R. in raphanistrum, and the remaining 11 species can have T.

In the case of SEQ ID NO: 112, an approval number of RSS1598: 16492 is located in the chromosome 5 of the radish. The position of the SNP is located at the position of RSS1598: 16492 of the entire chromosome 5, the sequence of the SNP is G or A, scarlet, DB102, Wild radish2, Raphanistroides2, WK10024, and G in the remaining twelve species.

In the case of SEQ ID NO: 113, an approval number RsSNP07911: 6933 is located in the chromosome 5 of radish, the SNP position is located at 8674381 of the entire chromosome 5, and the sequence of the SNP is C or T. Among the 17 species, DB102 and DB109 , Raphanistroides 3, WK10024, R. raphanistrum and C in the remaining 12 species.

In the case of SEQ ID NO: 114, the recognition number RsSNP15687: 1379 is located in the chromosome 5 of the mouse, the SNP position is located at the 9137124 th position of the entire chromosome 5, the sequence of the SNP is T or C, And the remaining 16 species can have T.

In the case of SEQ ID NO: 115, the approval number COS1175: 5809 is located in the chromosome 5 of the radish, the SNP position is located at the 9146369th position of the entire chromosome 5, the sequence of the SNP is G or A, A in WK10024, and G in the remaining 15 species.

In the case of SEQ ID NO: 116, the approval number RsSNP08026: 4581 is located on the chromosome 5 of the radish, the SNP is located at the 9283886th position of the entire chromosome 5, the sequence of the SNP is T or C, DB102, DB109, Raphanistroides1, WK10024, and R. raphanistrum, and T in the remaining twelve species.

In the case of SEQ ID NO: 117, the approval number COS0798: 15934 is located in the chromosome 5 of the radish, the SNP position is located at the 9339740th position of the entire chromosome 5, the sequence of the SNP is G or A, And G in the remaining 16 species.

In the case of SEQ ID NO: 118, an approval number RsSNP08036: 1238 is located in the chromosome 5 of the radish, the SNP position is located at the 9488340th position of the entire chromosome 5, the sequence of the SNP is A or C and DB109 and DB110 , DB113, Raphanistroides2, Sayatori, WK10024, and A in the remaining 11 species.

In the case of SEQ ID NO: 119, the sequence number is COS0886: 16389, located on the chromosome 5 of the radish, the SNP position is located at the 23991769th position of the entire chromosome 5, the sequence of the SNP is G or C, C in DB113, WK10024, and G in the remaining 14 species.

In the case of SEQ ID NO: 120, an approval number RSS1437: 7123 is located in the chromosome 5 of radish, the SNP position is located at the 10297564th position of the entire chromosome 5, the sequence of the SNP is T or A and DB109, DB110 , Wild radish1, Raphanistroides1, WK10039, and the remaining 12 species can have A.

In the case of SEQ ID NO: 121, an approval number COS1062: 8693 is located in the chromosome 5 of the radish. The SNP is located at position 10313416 of the entire chromosome 5 and the sequence of the SNP is G or C. Among these 17 species, Long scarlet, DB104, Wild radish2, Raphanistroides2, Aokubi, WK10024, R. raphanistrum, and G in the remaining ten species.

In the case of SEQ ID NO: 122, the approval number is RSS0169: 14233, located at the chromosome 5 of the radish, the SNP position is 10707787th of the entire chromosome 5, the sequence of the SNP is A or C, C in raphanistrum, and A in the remaining 15 species.

In the case of SEQ ID NO: 123, the approval number COS0415: 10065 is located on the chromosome 5 of the radish, the SNP position is located at the 10711956 th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, WK10024, R . It can be A in raphanistrum, and G in the remaining 15 species.

In the case of SEQ ID NO: 124, an approval number RsSNP13632: 3777 is located in the chromosome 5 of the radish, the SNP position is 10750797th of the entire chromosome 5, the sequence of the SNP is G or A, A in the raphanistrum, and G in the remaining 14 species.

In the case of SEQ ID NO: 125, the approval number is RSS1657: 2597, located on the chromosome 5 of the radish, the SNP position is 11066090th of the entire chromosome 5, and the sequence of the SNP is A or G. Among the 17 species, DB109 and DB113 , Wild radish 1, Raphanistroides 1, Raphanistroides 3, Aokubi, Sayatori, WK10024, and the remaining 9 species can have A.

In the case of SEQ ID NO: 126, an approval number RS2CL6248s: 662 is located in the chromosome 5 of the radish. The SNP is located at 11157383 of the entire chromosome 5 and the sequence of the SNP is A or G. Among the 17 species, And can have A in the remaining 16 species.

In the case of SEQ ID NO: 127, an approval number RS2CL4474s: 1500 is located in the chromosome 5 of the radish, the SNP position is located at 11735017th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, DB104 and DB113 , Raphanistroides 1, Raphanistroides 3, Sayatori, WK10039, and the remaining 11 species can have A.

In the case of SEQ ID NO: 128, the approval number RSS0242: 5906 is located on the chromosome 5 of the radish, the SNP position is located at 11876936 th position of the entire chromosome 5, the sequence of the SNP is T or G, DB102, Wild radish1, Raphanistroides2, WK10024, and R. raphanistrum, and T in the remaining eleven species.

In the case of SEQ ID NO: 129, an approval number COS0115: 10176 is located on the chromosome 5 of the radish. The SNP is located at the 12014039th position of the entire chromosome 5 and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB102, DB110, WK10024, and R. raphanistrum, and C in the remaining twelve species.

In the case of SEQ ID NO: 130, the accession number is RSS0039: 1728, located in the chromosome 5 of the radish, the SNP position is located at the 13456922 th position of the entire chromosome 5, the sequence of the SNP is C or G, DB102, WK10024, and C in the remaining 14 species.

In the case of SEQ ID NO: 131, an approval number RSS2598: 6209 is located in the chromosome 5 of the radish, the SNP position is located at 13851175 th position of the entire chromosome 5, and the sequence of the SNP is G or T, And G in the remaining 16 species.

In the case of SEQ ID NO: 132, an approval number COS0663: 1132 is located on the chromosome 5 of the radish, the SNP position is located at 14089856th position of the entire chromosome 5, the sequence of the SNP is A or G, radish2, Raphanistroides2, Aokubi, WK10024, and can have A in the remaining 12 species.

In the case of SEQ ID NO: 133, an approval number RsSNP08310: 1754 is located in the chromosome 5 of the radish, the SNP position is located at the 15549623rd position of the entire chromosome 5, and the sequence of the SNP is T or A. Among the 17 species, Long scarlet, DB102, Wild radish3, WK10024, R. It is A in raphanistrum and can have T in the remaining eleven species.

In the case of SEQ ID NO: 134, the approval number RS2CL3218s: 6510 is located in the chromosome 5 of the radish, the SNP position is located at the 15671212th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, DB104 and DB109 , DB110, Raphanistroides1, Raphanistroides2, Aokubi, WK10039, and the remaining 10 species can have A.

In the case of SEQ ID NO: 135, an approval number COS0396: 11598, located on the chromosome 5 of the radish, the SNP position is located at the 15841843 th position of the entire chromosome 5, and the sequence of the SNP is T or A. Among the 17 species, Long scarlet, DB102, DB113, Wild radish3, Raphanistroides3, Aokubi, WK10024, R. In raphanistrum, A, and the remaining nine species may have T.

In the case of SEQ ID NO: 136, an approval number RsSNP12533: 2304 is located on the chromosome 5 of the radish. The SNP is located at the position 17542734 of the entire chromosome 5 and the sequence of the SNP is C or T. Among the 17 species, Long scarlet, DB109, DB113, Aokubi, WK10024, and the remaining 12 species can have C.

In the case of SEQ ID NO: 137, the approval number is RSS0152: 12734, which is located in the chromosome 5 of the radish. The SNP is located at 20603096th position of the entire chromosome 5 and the sequence of the SNP is T or A. Among these 17 species, WK10024, R A in raphanistrum, and T in the remaining 15 species.

In the case of SEQ ID NO: 138, the approval number COS0495: 13229 is located in the chromosome 5 of the radish, the SNP is located at the 23270606th position of the entire chromosome 5, the sequence of the SNP is A or G, DB102, DB110, DB113, Raphanistroides1, Raphanistroides3, Aokubi, WK10024, and the remaining 9 species can have A.

In the case of SEQ ID NO: 139, the approval number RS2CL6306s: 5018 is located in the chromosome 5 of the radish, the SNP position is located at the 23341942 th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, WK10024, R . It can be A in raphanistrum, and G in the remaining 15 species.

In the case of SEQ ID NO: 140, an approval number RsSNP14140: 3204 is located on the chromosome 5 of the radish, the SNP position is located at the 23571987 th position of the entire chromosome 5, and the sequence of the SNP is T or A. Among the 17 species, DB109 and DB113 , Sayatori, A in K10024, and T in the remaining 13 species.

In the case of SEQ ID NO: 141, the recognition number RsSNP14096: 7772 is located in the chromosome 5 of the radish, the SNP position is located at the 23696377th position of the entire chromosome 5, the sequence of the SNP is A or T, And can have A in the remaining 16 species.

In the case of SEQ ID NO: 142, the SNP is located at the chromosome 5 of chromosome 5, and the sequence of SNP is A or T. Among the 17 species, long scarlet, Wild radish2, Raphanistroides1, Raphanistroides2, Sayatori, WK10039, R. A in the raphanistrum, and ten in the remaining ten species.

In the case of SEQ ID NO: 143, an approval number RSS1125: 5351 is located in the chromosome 5 of the radish, the SNP position is located at the 25210242-th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, Long scarlet, Wild radish2, Wild radish3, Aokubi, WK10024, and G in the remaining 12 species.

In the case of SEQ ID NO: 144, the approval number is RSS0908: 2185, located at the chromosome 5 of the radish, the SNP position is located at the 25235626 th position of the entire chromosome 5, the sequence of the SNP is A or C, DB102, Wild radish3, WK10024, R. raphanistrum C, and the remaining 12 species can have A.

In the case of SEQ ID NO: 145, the approval number COS0599: 3453 is located in the chromosome 5 of the radish. The SNP position is located at 26401560th of the entire chromosome 5 and the sequence of the SNP is C or T. Among the 17 species, Wild radish1, C in Raphanistroides2, WK10039, and T in the remaining 14 species.

In the case of SEQ ID NO: 146, the recognition number is RsSNP13752: 3769, which is located in the chromosome 5 of the radish. The SNP position is located at 26670124th position of the entire chromosome 5 and the sequence of the SNP is A or C. Among the 17 species, DB109 and WK10024 C in the other 15 species and A in the remaining 15 species.

In the case of SEQ ID NO: 147, an approval number RsSNP13753: 4805 is located on the chromosome 5 of the radish, the position of the SNP is 26671160th of the entire chromosome 5, and the sequence of the SNP is G or T. DB109, WK10024 , T in R. raphanistrum, and G in the remaining 14 species.

In case of SEQ ID NO: 148, the approval number is RSS3257: 680, located at the chromosome 5 of radish, the position of the SNP is 27633397 of the entire chromosome 5, the sequence of the SNP is A or G and DB102, WK10024 And G in the remaining 15 species.

In the case of SEQ ID NO: 149, the approval number MLO (8): 6453 is located in the chromosome 5 of the radish, the SNP is located at the 27674652-th position of the entire chromosome 5, and the sequence of the SNP is C or T, DB104, DB109, DB110, DB113, Wild radish1, Aokubi, WK10024, and C in the remaining ten species.

In the case of SEQ ID NO: 150, an approval number RS2CL1583s: 7532, located in the chromosome 5 of radish, the position of the SNP is 27792434 of the entire chromosome 5 and the sequence of the SNP is G or A. Among these 17 species, DB109 and DB110 , DB113, Wild radish3, Aokubi, Sayatori, A100 in K10024, and G in the remaining 10 species.

In the case of SEQ ID NO: 151, the approval number RsSNP09148: 6099 is located on the chromosome 5 of the radish, the SNP position is located at the 28692089th position of the entire chromosome 5, the sequence of the SNP is G or A, DB102, Raphanistroides1, Raphanistroides3, WK10024, and G in the remaining twelve species.

In the case of SEQ ID NO: 152, SN2 is located at chromosome 5 of the radish, the position of the SNP is 29481251-th of the entire chromosome 5, the sequence of the SNP is G or C, And G in the remaining 16 species.

In the case of SEQ ID NO: 153, an approval number RsSNP15591: 1289 is located on the chromosome 5 of the radish, the SNP position is located at 30389263th position of the entire chromosome 5, and the sequence of the SNP is T or A. Among the 17 species, Long scarlet, Raphanistroides3, WK10024, R. A in the raphanistrum, and T in the remaining nine species.

In the case of SEQ ID NO: 154, the accession number is COS0616: 1529, which is located in the chromosome 5 of the radish. The SNP position is located at the 32125563th position of the entire chromosome 5 and the sequence of the SNP is G or A. Among the 17 species, DB104 and DB109 , DB113, Wild radish1, Raphanistroides2, Sayatori, WK10024, and G in the remaining ten species.

In the case of SEQ ID NO: 155, the approval number RS2CL3943s: 1970 is located on the chromosome 5 of the radish, the SNP position is located at the 32181524th position of the entire chromosome 5, and the sequence of the SNP is G or T. Among the 17 species, DB104 and DB113 , Aokubi, WK10024, and G in the remaining 13 species.

In the case of SEQ ID NO: 156, the accession number RsSNP07928: 1632 is located on the chromosome 5 of the radish, the SNP position is located at the 32206435th position of the entire chromosome 5, and the sequence of the SNP is C or T. Among the 17 species, DB102 and DB109 , DB113, Wild radish2, Raphanistroides1, Raphanistroides3, Sayatori, WK10024, R. raphanistrum, and C in the remaining eight species.

In the case of SEQ ID NO: 157, the approval number RS2CL4099s: 4341 is located in the chromosome 5 of the radish. The SNP position is located at the 32633218th position of the entire chromosome 5 and the sequence of the SNP is G or C. Among the 17 species, Raphanistroides 3, WK10024 And C in the remaining 15 species.

In the case of SEQ ID NO: 158, the approval number is RSS2396: 3686, located at the chromosome 5 of the radish, the position of the SNP is 33609517th of the entire chromosome 5, the sequence of the SNP is A or G, DB102, Raphanistroides3, WK10024, and A in the remaining 13 species.

In the case of SEQ ID NO: 159, the approval number is RSS1491: 7195, located on chromosome 5 of radish, the position of SNP is 33808971 of the entire chromosome 5, and the sequence of SNP is T or A. Among the 17 species, DB110 and DB113 , Wild radish1, Wild radish3 Raphanistroides2, Aokubi, Sayatori, WK10039, and can have A in the remaining nine species.

In the case of SEQ ID NO: 160, an approval number COS0282: 2314 is located in the chromosome 5 of radish, the position of the SNP is located at the position 34716221 of the entire chromosome 5, the sequence of the SNP is C or T, DB102, DB113, Wild radish2, WK10024, and C in the remaining twelve species.

In the case of SEQ ID NO: 161, an approval number RSS3903: 2141 is located in the chromosome 5 of the radish, the SNP position is located at the 34864253 th position of the entire chromosome 5, the sequence of the SNP is G or A, Raphanistroides 1, Raphanistroides 3, WK10024, and G in the remaining 13 species.

In the case of SEQ ID NO: 162, the approval number RS2CL804s: 14778 is located in the chromosome 5 of the mouse, the SNP position is located at the 35475306 th position of the entire chromosome 5, the sequence of the SNP is A or T, T in DB102, DB109, Wild radish3, Raphanistroides1, Raphanistroides3, Sayatori, WK10024, and A in the remaining nine species.

In the case of SEQ ID NO: 163, an approval number RSS1879: 7979 is located on the chromosome 5 of the radish. The SNP position is located at the 35733164 th position of the entire chromosome 5, and the sequence of the SNP is A or G. Among the 17 species, WK10024, R G in raphanistrum, and A in the remaining 15 species.

In the case of SEQ ID NO: 164, the approval number is RSS3680: 8855, located in the chromosome 5 of the radish, the position of the SNP is located at the 36002728th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, DB109 and WK10024 And G in the remaining 15 species.

In the case of SEQ ID NO: 165, an approval number COS1147: 2669 is located on the chromosome 5 of the radish. The SNP is located at 36023202 of the chromosome 5 and the sequence of the SNP is A or G. Among the 17 species, DB109 and WK10024 , G in R. raphanistrum, and A in the remaining 14 species.

In the case of SEQ ID NO: 166, the approval number RsSNP13334: 941 is located on the chromosome 5 of the radish, the position of the SNP is located at the 36035691 th position of the entire chromosome 5, and the sequence of the SNP is A or T. Wild radish 2, WK10024, T in R. raphanistrum, and A in the remaining 14 species.

In the case of SEQ ID NO: 167, the approval number RS2CL6459s: 3021 is located in the chromosome 5 of the mouse, the SNP position is located at the 36146605 th position of the entire chromosome 5, the sequence of the SNP is A or C, C in WK10024, and A in the remaining 16 species.

In the case of SEQ ID NO: 168, an approval number RSS3295: 18681 is located in the chromosome 5 of the radish, the position of the SNP is located at the 36162266th position of the entire chromosome 5 and the sequence of the SNP is G or A. Among the 17 species, DB104 and DB109 , Wild radish1, Raphanistroides1, Raphanistroides2, Raphanistroides3, Aokubi, WK10039, and the remaining nine species can have A.

In the case of SEQ ID NO: 169, the approval number COS0132: 8433 is located in the chromosome 5 of the radish, the SNP position is located at the 36450237th position of the entire chromosome 5, and the sequence of the SNP is G or C. Among the 17 species, DB113 and WK10024 , C in R. raphanistrum, and G in the remaining 14 species.

In the case of SEQ ID NO: 170, the approval number is RSS0610: 479, located at the chromosome 5 of the radish, the SNP position is located at the 37091851 th position of the entire chromosome 5, and the sequence of the SNP is G or T. DB102, WK10024 And G in the remaining 15 species.

In the case of SEQ ID NO: 171, an approval number COS0809: 8593 is located in the chromosome 5 of the radish, the SNP position is located at the 37138157th position of the entire chromosome 5, and the sequence of the SNP is G or T. Among the 17 species, Long scarlet, T in WK10024, and G in the remaining 15 species.

In the case of SEQ ID NO: 172, the approval number RS2CL5210s: 16247 is located in the chromosome 5 of the radish, the SNP position is located at 37597782th position of the entire chromosome 5, and the sequence of the SNP is G or A. Among the 17 species, DB113, Raphanistroides2 , Sayatori, G in WK10039, and A in the remaining 13 species.

In the case of SEQ ID NO: 173, an approval number RSS0575: 9658, located on the chromosome 5 of the radish, the SNP position is located at the 37898064 th position of the entire chromosome 5, and the sequence of the SNP is C or T. Among the 17 species, DB104 and DB110 , Wild radish1, Wild radish2, Wild radish3, Raphanistroides2, Sayatori, WK10039, and T in the remaining nine species.

In the case of SEQ ID NO: 174, an approval number COS0356: 4500 is located in the chromosome 5 of the radish, the SNP position is located at the 38164880th position of the entire chromosome 5, the sequence of the SNP is A or G, DB102, DB110, Raphanistroides2, Sayatori, WK10024, and R. raphanistrum, and the remaining 10 species can have A.

In the case of SEQ ID NO: 175, an approval number of RSS1372: 4956 is located in the chromosome 5 of radish, the SNP position is located at the 38437796 th position of the entire chromosome 5 and the sequence of the SNP is G or A. Among the 17 species, Long scarlet, DB102, WK10024, and G in the remaining 14 species.

In the case of SEQ ID NO: 176, an approval number of RSS1390: 4671 is located in the chromosome 5 of the radish, the SNP position is located at the 38852531 th position of the entire chromosome 5 and the sequence of the SNP is G or A. Among the 17 species, Raphanistroides 3, WK10024 , A in R. raphanistrum, and G in the remaining 14 species.

In the case of SEQ ID NO: 177, the approval number RS2CL7234s: 5607 is located on the chromosome 5 of the radish. The SNP is located at position 39014182 of the entire chromosome 5 and the sequence of the SNP is A or G. Among the 17 species, DB104 and DB110 , Raphanistroides3, Sayatori, WK10024, and the remaining 12 species can have A.

In the case of SEQ ID NO: 178, the approval number is RSS2132: 30852, located on the chromosome 5 of the radish, the SNP position is located at the 39182581th position of the entire chromosome 5, the sequence of the SNP is C or T, radish3, Raphanistroides3, WK10024, and R. raphanistrum, and C in the remaining 12 species.

In the case of SEQ ID NO: 179, the approval number RS2CL4098s: 7189 is located in the chromosome 5 of radish, the position of the SNP is located at the 39510090th position of the entire chromosome 5, the sequence of the SNP is C or G and DB102, Raphanistroides1 , Aokubi, WK10024, R. raphanistrum and G in the remaining 12 species.

In the case of SEQ ID NO: 180, the approval number is RSS3462: 3034, which is located on chromosome 5 of radish, the position of SNP is 39710613 of the entire chromosome 5, the sequence of SNP is T or C, and DB110, Raphanistroides3 , C in WK10024, and T in the remaining 14 species.

In the case of SEQ ID NO: 181, an approval number COS0531: 2102 is located in the chromosome 5 of radish, the position of the SNP is located at position 39802589 of the entire chromosome 5, and the sequence of the SNP is G or C, radish3, Raphanistroides2, Raphanistroides3, WK10024, and R. raphanistrum, and G in the remaining eleven species.

In the case of SEQ ID NO: 182, an approval number COS0845: 25281 is located in the chromosome 5 of radish, the position of the SNP is located at 40665112th position of the entire chromosome 5, the sequence of the SNP is T or C, DB102, DB104, Wild radish2, Aokubi, WK10024, and T in the remaining eleven species.

In the case of SEQ ID NO: 183, the sequence number is COS1158: 16894, located on chromosome 5 of mouse, the position of SNP is located at position 40840083 of the entire chromosome 5 and the sequence of SNP is A or G. Among the 17 species, DB102, WK10024 , G in R. raphanistrum, and A in the remaining 14 species.

In the case of SEQ ID NO: 184, the approval number is RSS3538: 1623, located on chromosome 5 of radish, the position of SNP is 40960849 of the entire chromosome 5 and the sequence of SNP is C or T. DB104, Sayatori , T in WK10024, and C in the remaining 14 species.

In the case of SEQ ID NO: 185, an approval number RSS1593: 1920 is located in the chromosome 5 of the radish, the SNP position is located at 41130597 th position of the entire chromosome 5, the sequence of the SNP is G or A, And G in the remaining 16 species.

In the case of SEQ ID NO: 186, an approval number COS0978: 4737 is located on the chromosome 5 of the radish. The SNP position is located at the 41155656 position of the entire chromosome 5 and the sequence of the SNP is A or T. In the 17 species, And can have A in the remaining 16 species.

In the case of SEQ ID NO: 187, the approval number Rs1SSR5023: 7133 is located in the chromosome 5 of the radish, the SNP position is located at the 41635804 th position of the entire chromosome 5, and the sequence of the SNP is T or C. Among the 17 species, DB102 and DB109 , DB110, Raphanistroides3, WK10024, and T in the remaining 12 species.

In the case of SEQ ID NO: 188, an approval number RSS3062: 6936 is located on the chromosome 5 of the radish. The SNP position is located at the 42097810th position of the entire chromosome 5, and the sequence of the SNP is G or A. Wild radish 2, Wild radish3, A in WK10024, and G in the remaining 14 species.

In the case of SEQ ID NO: 189, an approval number COS 0335: 902 is located in the chromosome 5 of the radish, the SNP position is located at the 42299830 th position of the entire chromosome 5, the sequence of the SNP is C or G, DB104, DB113, Raphanistroides1, Raphanistroides2, WK10024, and C in the remaining eleven species.

In the case of SEQ ID NO: 190, an approval number RSS2704: 1551 is located in the chromosome 5 of the radish, the SNP position is located at the 42586491 th position of the entire chromosome 5, the sequence of the SNP is C or A, A in K10024, and C in the remaining 15 species.

In the case of SEQ ID NO: 191, an approval number of RSS1393: 13337 is located on the chromosome 5 of the radish, the SNP position is located at the 42848213 th position of the entire chromosome 5, the sequence of the SNP is A or G, DB102, Wild radish2, Wild radish3, Sayatori, WK10024, and can have A in the remaining eleven species.

In the case of SEQ ID NO: 192, an approval number RS2CL2032s: 7189 is located in the chromosome 5 of the radish, the SNP is located at 43024228th position of the entire chromosome 5, the sequence of the SNP is C or T, DB104, DB109, DB113, Wild radish2, Wild radish3, WK10024, and C in the remaining ten species.

In the case of SEQ ID NO: 193, an approval number COS0998: 10082 is located in the chromosome 5 of the radish, the SNP position is located at 43046921 of the entire chromosome 5, the sequence of the SNP is A or G, G in raphanistrum, and A in the remaining 15 species.

In the case of SEQ ID NO: 194, the approval number is RSS0153: 5981, located at the chromosome 5 of the radish, the SNP position is located at the 43713273 th position of the entire chromosome 5, the sequence of the SNP is G or C, And G in the remaining 16 species.

In the case of SEQ ID NO: 195, the accession number is RSS0048: 10428, located on the chromosome 5 of the radish, the SNP position is located at the 43806236th position of the entire chromosome 5, the sequence of the SNP is A or T, DB109, Wild radish2, Wild radish3, Raphanistroides3, WK10024, R. raphanistrum, and the remaining ten species can have A.

In the case of SEQ ID NO: 196, the approval number COS0230: 130 is located on the chromosome 5 of the radish, the SNP position is located at the 43825131 th position of the entire chromosome 5 and the sequence of the SNP is T or A. Among the 17 species, DB109, Raphanistroides3 , A in WK10024, and T in the remaining 14 species.

In the case of SEQ ID NO: 197, the approval number RSS3941: 220 is located on the chromosome 5 of the mouse, the SNP position is located at 44438655 positions of the entire chromosome 5, the sequence of the SNP is A or T, And can have A in the remaining 16 species.

In the case of SEQ ID NO: 198, the approval number RS2CL8651s: 4982 is located in the chromosome 5 of the radish, the SNP position is located at position 44774497 of the entire chromosome 5 and the sequence of the SNP is C or T. DB102, WK10024 And C in the remaining 15 species.

In the case of SEQ ID NO: 199, the recognition number COS0217: 7761 is located in the chromosome 5 of the radish. The SNP is located at position 45208711 of the entire chromosome 5 and the sequence of the SNP is C or A. Among the 17 species, And C in the remaining 16 species.

In the case of SEQ ID NO: 200, the sequence number of RS2CL5773s: 1561 is located at the chromosome 5 of radish, the position of SNP is located at 45651895th position of the entire chromosome 5 and the sequence of SNP is A or G. DB104, WK10024 , G in R. raphanistrum, and A in the remaining 14 species.

In the case of SEQ ID NO: 201, the approval number RsSNP09835: 3360 is located on the chromosome 5 of the radish. The SNP is located at position 45783282 of the entire chromosome 5 and the sequence of the SNP is T or G. Among the 17 species, DB113, WK10024 And G in the remaining 15 species.

In the case of SEQ ID NO: 202, an approval number COS0634: 10305 is located on the chromosome 5 of the radish. The SNP is located at position 45893583 of the entire chromosome 5, and the sequence of the SNP is A or C. Among the 17 species, Long scarlet, C in DB102, WK10024, and A in the remaining 14 species.

In the case of SEQ ID NO: 203, the approval number RsSNP09819: 4607 is located on the chromosome 5 of the radish. The SNP is located at position 45899283 of the entire chromosome 5 and the sequence of the SNP is C or G. Among the 17 species, Long scarlet, DB102, DB104, Raphanistroides2, Raphanistroides3, WK10024, and C in the remaining eleven species.

Hereinafter, the present invention will be described in more detail with reference to Examples. It will be apparent to those skilled in the art that the following examples are merely illustrative of the present invention and that the scope of the present invention is not limited to these examples.

Example  1. Cultivars for dielectric reanalysis and Wild moo  quest

Nuclear DNA of 48 varieties collected from Korea and overseas were extracted and genotyped using 18 InDel molecular markers. UPGMA clustering was performed based on these genotypes. Based on these clustering results, morphological characteristics, and origin, 17 non - cultivars and wild species were selected. The results are shown in FIG. 1 and Table 1.

type name origin Source (Accession) ¹ Cultivar WK10039 Korea NIHHS (WK10039) WK10024 Europe NIHHS (WK10024) Long Scarlet USA NIAS (JP27291) DB102 Europe Dongbu DB104 Korea Dongbu DB109 China Dongbu DB110 China Dongbu DB113 Japan Dongbu Aokubi Japan Kitashiba et al. (2014) Sayatori Japan Kitashiba et al. (2014) Wild type Raphanistroides1 Japan RDA-GIC (IT234955) Raphanistroides2 Korea RDA-GIC (IT260989) Raphanistroides3 Korea RDA-GIC (IT264026) Wild radish1 Vietnam RDA-GIC (IT182537) Wild radish2 India RDA-GIC (IT32722) Wild radish3 India RDA-GIC (IT32723) Raphanistrum USA Moghe et al. (2014)

Figure 1 is a UPGMA diagram showing the genetic association of 48 non-deposited numbers based on 18 InDel genetic markers. Accession numbers used in the resequencing analysis are indicated in red. Coefficient was calculated by simple matching, and the diagram was constructed by NTSYSpc v2.2.

Example 2. Dielectric Reanalysis and SNP Polymorphism Analysis

DNA was extracted from 17 selected cultivars and wild species (FIG. 2) and produced a shotgun sequence of 25X or more using Illumina HiSeq2000. The produced sequences were filtered by the criteria of adapter contamination, PCR duplicates and low quality. In addition, Kitashiba et al. Reported in 2014 that R. sativus cv. Aokubi and cv. R. raphanistrum sequences reported by Sayatori and Moghe in 2013 were downloaded from NCBI and filtered in the same manner. The filtered reads were mapped to the non-canonical genomic sequence Rs1.0 using BWA-MEM 0.7.9a and the SNP was searched. At this time, SNP selected only homozygous in each accession.

Example 3. SNP detection for non-genetic resource evaluation

Among the large number of SNPs searched through Examples 1 and 2, the following selection criteria were arbitrarily selected to select the SNPs for non-genetic evaluation. A. SNPs present between the molecular markers +1 and -1 kb when various molecular markers registered in Japan Plant Genome DataBase Japan (PGDB) are mapped to WK10039; B. presence of polymorphism in at least one of 16 varieties / wild radishes except Raphanistrum; C. less than or equal to one SNP, other than himself, within +/- 50 bp of a particular SNP; And D. The number of different SNPs per SNP was small. When the number of SNPs was the same, random selection was performed.

As a result, all 702 molecular markers were selected. These distributions are shown in Fig. In the present invention, among 702 SNPs capable of selecting 17 species of radishes, 157 SNPs present on chromosomes 6 and 7 of Murine were selected.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

<110> catholic industry academic cooperation foundation <120> SNP MARKERS FOR DISCRIMINATION OF RAPHANUS SATIVUS <130> P-2 <160> 203 <170> KoPatentin 3.0 <210> 1 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0338: 3030 <400> 1 gcttcaccgg agctatacgc gagacgatcc ttcttggggt gcacagagca nttcatctac 60 gtcgcaatct ccaaggatca gacctctgac atccactggt t 101 <210> 2 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS 1079: 446 <400> 2 tgtttggact acggagggat cgagcaagat ttgaagacgg cgggtttgga ngaggagact 60 cagagctggg ccaatgttga tgatttcttg tggctcagag c 101 <210> 3 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0917: 5097 <400> 3 gtcttcgtct acaactgcta aggtgcaatt atgttcggag attctctgtt nccctcggaa 60 tgctctttaa tcatcgatgg actgaagcag acctcactgt g 101 <210> 4 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP08559: 5228 <400> 4 aattaatgtt gcgataattt aatagaaatt gtggtatggt ttgatgtttc ngtatagaag 60 caattagcgt catagagata tgaaatcagt aacaattttt c 101 <210> 5 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4127s: 5375 <400> 5 ctcacgttat cagtgatggc ttggacctgg tcttgcttcc ttgtccagtg nctaacactt 60 ggaatgtagt cttctccgac gtaagtacaa acagtgtctc t 101 <210> 6 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3928: 3241 <400> 6 tttccctcta ccagcaacaa caccaacttc acttaccctt aaacccgaca ntgaatccaa 60 cgacacagaa cgtctcactc gctcctgcga cttatctgct t 101 <210> 7 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09009: 7965 <400> 7 atatgaaaca taatctagtc agttcaaaac caagtctgga ccgctttaac nccataccag 60 tttatataga ttaaagctta ccttggtcac tagtattatg g 101 <210> 8 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL1264s: 3483 <400> 8 caactaataa aataatgtac attaagccac aaaatagata cgaagaaaca ncgaagttgg 60 ctgaacgaga acgacagtag ctaatgtatg gcatccgtga t 101 <210> 9 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP04320: 2682 <400> 9 ccttcatgtt tgaaacagta taataagaca tatcacaaga tcaaggagaa nacaaaaaca 60 atttaagaat cttcttcttc ttcttgcctt ttacagtttt t 101 <210> 10 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0551: 318 <400> 10 gatgcagtaa cagcaacaag ggctccattt ctatgagctt cttcgcaggc ntttgttatg 60 gtctttatag tatcaggaag ctcaaacaag tagccttcca c 101 <210> 11 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0328: 3575 <400> 11 atcattaaga gtgttctgcg caaaagttgg atccaacttt gagagattag ngaatggtac 60 cagtactctc caggatataa caagtaacct aaattccttg a 101 <210> 12 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0241: 4066 <400> 12 aatttgcaga tcatgtttca atatatggcc cgacattctc ctctgaaagt ngaagatctc 60 gcgtcgatga tttcacagga gaaccaacaa gacaagcccc c 101 <210> 13 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2003: 976 <400> 13 ttaacaatgt taataaaata ttcccatatt cataaataat tgtggacatg nttatctagt 60 gcatatgaaa cattaaaatg tttttctttt tattttaata c 101 <210> 14 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2409: 5618 <400> 14 accttgctta caattatatg tgttcttttc taatcttttc taatctttct ntacaagaaa 60 agaaattaaa caaaatcaaa ctctattgct tcaaactctt c 101 <210> 15 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP11657: 1478 <400> 15 tattgtgcct attgtttgta aggtttagtg tttatgattt ggtttgttgg ntttctatat 60 ttcgatttat atgtatcact aatctagaaa tgtaagcatt c 101 <210> 16 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP08153: 2224 <400> 16 gtactattct taaatattat tttcatattc tgtacctttt tggtaattat ntcctaactt 60 ttgatatata aaacgtgttt actggaccga tagatgtgat t 101 <210> 17 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL2726s: 2982 <400> 17 gagaatgaga tggtttttaa cgtcagcttt gttgatcaac gcaagttctc nggtcctttt 60 ctttagtggc tgtgttcttt gcttggtgaa gtttcccctt t 101 <210> 18 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP15290: 2724 <400> 18 atggcctcaa aaccatattt aaatttaatg catcaaaata gttaaaaact nattgaagaa 60 ttcatttaag cgacaagact aagaagaaga agtttacaaa a 101 <210> 19 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2780: 3519 <400> 19 aggagaaaat aatagtttcg ttttgtgtgt agatttgtct tttgcttttt ntagttcaat 60 ataggtgtca agtgattcaa cttgggatta attttagccc c 101 <210> 20 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0462: 9781 <400> 20 attaaaggac cacaagttca acagcaaaca gcattagtaa atattggcat ntatccttaa 60 gtgaggctca cctgcccagg ctcccacgtc aaaaagaagt t 101 <210> 21 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0492: 6571 <400> 21 cagaagctgc agcatttggt gagggtgaca atgagaatga ggttattcct nctactttct 60 cttactctct gtttattcct aagcttcttg agttatctga c 101 <210> 22 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0518: 38197 <400> 22 ttaccctttg ttcgtgatat gaacaccaga ggaaacatcc aacctgttgt ncgaaaagta 60 attccaaacc cactccatca aaaccgctcc tttgctgctg a 101 <210> 23 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2603: 2335 <400> 23 catagagttt gatcccttcc gcgagcttct catcttggtc tccaacctac naatccagta 60 aacaaacaag ccttaagcat ctgagtccaa ccttagataa c 101 <210> 24 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1982: 1161 <400> 24 gagagcttga gatcaatggt tagtctctga aacacctgag ataaaagtaa nacatctgac 60 aatgctctgt gagcttcacc atcccttaca aggttatagt a 101 <210> 25 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSA103: 1421 <400> 25 tctgagttaa catctgaagg tgaagttgct cggttactga actgcgctga ncactactca 60 gctttaggcg tacctcggta tgggaacgtt gacgtggctt a 101 <210> 26 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1864: 12270 <400> 26 acgtgagatg ttggtaagga ttttgcagct tcgatggttc gaaggaagtg ntgcatgtta 60 tcatcacaag tggcagcgtc atcggcatgt tccacgccgt a 101 <210> 27 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP12165: 3774 <400> 27 atgattcctt gttttatgga gttgacttcg attattctgg gtacatgttg ntcgagatac 60 tgttaaaata ggaaacattc acattatatc ttataatata g 101 <210> 28 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0684: 1727 <400> 28 tcagctgata actggtttgg tacttgctgt tgttcgtttg gagggattag ngagaagatg 60 gtagttaagt acactaactc atatgcatgc tctagtgggt t 101 <210> 29 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0526: 352 <400> 29 caacaagcaa tattctagca tcagacttat atctaaatcg tcggctatct ncttgattgt 60 cactttcttg gtgaatccaa ccatcaccac gcgcagcaag c 101 <210> 30 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP10691: 5017 <400> 30 ataatccaac tcctcgttgc ggtttttctt ttttaatatt ctttctatca ngtaattttc 60 ttctccaaga atcacgcagg aggggacctt attatcttta g 101 <210> 31 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0902: 3441 <400> 31 ccgttctcag gctctttcac tatgttctta aacaacctaa gcaaaacatc naccgaactc 60 tccgtcggtt tcccggagag atacacaacc acaagcttct c 101 <210> 32 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0635: 1025 <400> 32 atgctgatgt attggtggat cggagaaggt ttcatcgcct acgaagagtc ngagaacacg 60 gtgacgacga ttcttgatga attttcaaga aaaggattga t 101 <210> 33 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1538: 9367 <400> 33 ctttgggatg aaatcaagat taacgaatta gtcttccaag gagttaggct ntgtagccgc 60 tgcaaggtga atatccccaa cactcagatt ctcaactctg a 101 <210> 34 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2423: 13057 <400> 34 gcaaacgcgg ttctctacgt gacagacggg gaagcccatg tgcaggtggt naacgacaat 60 ggtgacagag tgttcgacgg acaagtctct caaggacagc t 101 <210> 35 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4378s: 1077 <400> 35 gagagagtca attagtgcac aactacagat atattaatac aagaaatgtt ntatttggta 60 ttacaaattt ataaattgtg ttatgaaacg tgtaaaaaat c 101 <210> 36 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP03348: 4796 <400> 36 taatgatatg ttgttcaacc acggttaaat tattcgtttg acatttacga nctgacattt 60 aataagatta gttaactgac ataatgcaat gcatcaggta a 101 <210> 37 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3199: 1472 <400> 37 ctctttgctt tgcccttctg gtctatctct actagtgata taaatccctg naaagttcat 60 aagaaggtta ccgaaagacc atagccaaag tacttcaaaa a 101 <210> 38 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1590: 3574 <400> 38 cgtaatgagc ttttgtaact tgttaatatg aagaaagaaa tgttggcagt nctgttgtat 60 tccacacaac gatcccataa agggcgaatc ttaggagcag t 101 <210> 39 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0347: 7152 <400> 39 atttctaacc aaaagcatca aagactcccg agaccaggaa cgggacacaa nggtattaga 60 cacgtgtaga taacatccgt tctaaaccct ggttcggacg a 101 <210> 40 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3218: 1875 <400> 40 agacttttct aattaataag gtttgattct ttgcttctct ttaatgtctt naggattaag 60 aagtcagttt ccttttatgt tatactatta gtcaatattt g 101 <210> 41 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0546: 176 <400> 41 aacctcctca gactaaactg cttcatctca actcctcctc cagcctctcc ntccgtcgcc 60 agctccgcta atatcctccc cacagcaggc gccatcttaa a 101 <210> 42 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1960: 4017 <400> 42 tgcttgcgac gtcaagaaga cagcttaagg aaaactaata tatgtatttc ncttaaagaa 60 tcatttttta gctgttgggt ggattggata tgctttgcta c 101 <210> 43 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3634: 2888 <400> 43 accgaagaag attccttacc atctccacct tggcttaaag aagagagtaa naggtgggtc 60 ccatagccat ggacccaatc taaaaccttt ttcatcatcg t 101 <210> 44 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1128: 864 <400> 44 ctcaactcgt cagacctttg ctgcgatagg ccgtggaaat aagacagagc ngctgaagca 60 ctccgctcaa gaatacgctt cttggcacta acatcagaca t 101 <210> 45 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13368: 7018 <400> 45 gccacaaata attttccttc aaaaggtgaa tgatataaga attgaacaat nttttctttt 60 atctctaaga agaataatgt ctaacttttt tttttgatca a 101 <210> 46 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4453s: 2812 <400> 46 tggtgtagtc tcagtctcaa acaagatgat aggtggtgta gtctctctca ntctcaaaca 60 agatgctgag ccaaagaaag gatcttgagc tgtttcttga g 101 <210> 47 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP14401: 5798 <400> 47 ctggtagatt tctacaccag ctcgggtaag agaaagccag agcatatcat natcttcagg 60 taaattactt tgtttacatc agaactttta tctttatttt t 101 <210> 48 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1004: 6874 <400> 48 aaatcaaaaa aggaggttta ttactttgtg agcaactcgg tcatctgact naggtaaaac 60 tcgttgtact caaccgtctt cccgtagctt ccgtcgtggc g 101 <210> 49 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13835: 9946 <400> 49 ggaatgagag acaaatgggt taagaagtta tgtgatcaaa tactaacatg ngatgctaac 60 acgatcaatc attgctaatt tataggcgtg tgtttactaa t 101 <210> 50 <211> 101 <212> DNA <213> Artificial Sequence <220> <233> RSS3904: 5912 <400> 50 aagtgtaagt ttgttctacc gccaatatag actcattcaa tgcttattta ncaacgtttg 60 atgtatacat gaattaattt tctagaaagc cagctttcaa a 101 <210> 51 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1000: 6319 <400> 51 cgtgagccgt agtgatcttg cgaccggttg aagactcaaa agagtttcta nagctcatgg 60 tcggacgagg aattgggatg aaaggcatct cggaagcgaa g 101 <210> 52 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0484: 2370 <400> 52 gcgattattt tgcttactat catcgtcaag gcagctacct atcctttgac naagcaacag 60 gtgatcacaa tttgcaattc ggctcaatct tggtgtccaa c 101 <210> 53 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP10794: 2088 <400> 53 tctgttatct tctctttctc tttagattaa cattacactc tcattatgaa ncatccatta 60 cattttctcc ttataaatga aagcatagtt taaccccaag c 101 <210> 54 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0214: 17153 <400> 54 caaaccatct tccttgatcc ttgtcgtctc caaagaactc aacttcctga ntcatcatct 60 cagaagctcc ggtctggttt ccatgatttg agcttgaggc c 101 <210> 55 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09565: 2849 <400> 55 aacatagcta gaaaacaaag ctaggaaagt acatcttttt gctctgtttc ngactttggt 60 gtatcttgga gacattgttt gaatctttcc actttctgaa t 101 <210> 56 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09586: 573 <400> 56 ctaatctctt agtgataagt tattggcagc gagaattata cacatttctt naaaaagtat 60 tttcttttct ttttttttga taaccgtggg ggttcccagg c 101 <210> 57 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0034: 1717 <400> 57 atggcttctt ctatggcttg aaagaatgta gcaattttgt aagtaaagaa nccaaccaac 60 attggtatca actccaagtg catgaatcca tactcaggaa c 101 <210> 58 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL3689s: 3890 <400> 58 aaaatttggg cagaaatttt aaaatcagaa cttttgagaa tttcgtgaaa ntcatataaa 60 acacttgtct taatttatat attaactaaa ttaaatttaa a 101 <210> 59 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2713: 11380 <400> 59 gagaagagat aggaggcaga gaggggaaaa cacctaagaa gcttatcatg ncacgcaagt 60 ccaggacttt cttggaagat gactttgctt tgatgaatga t 101 <210> 60 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP10509: 11085 <400> 60 acaagtgtaa ccttgttggc ttgccacatg ttgaacctca tgcatacaat nacacccaca 60 cgtatgaaag catgatctat ttctctttgc aataactctg t 101 <210> 61 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0759: 9084 <400> 61 acgccgtttt ggatcttcgt ttgtagagac agaagtaaag agataagatt nagatcaaga 60 gaagcaaacc ggctccgatt ccaactccga tgtaaatcca t 101 <210> 62 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0815: 29310 <400> 62 caatatgcgt tgaaatcaag ttctgacaat actacactaa atttacatag ngacttcatg 60 tcttaaaatt tagttaatgt catgaaatga aagaagaaac a 101 <210> 63 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP12769: 3500 <400> 63 gcagccaaca tgatctctct gctggaacgt cccaagctac gccaaaaaat naataaatca 60 gtgtgttgct aatgtaacct acgaaggaga agaaaaatgg a 101 <210> 64 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2453: 6414 <400> 64 ttggatgaat aaacaaaatg gaagtttggc gtaggaagta accaaatata naacaaaaac 60 cacgaaggat tgataaagtc aaaactatat tatacgtcaa t 101 <210> 65 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3617: 6641 <400> 65 cttggcgccg gtcacttgct gaaccatctg gcggaagttg gacggatccg nggttatgaa 60 cgtggtctga ggtttcttgg aagcgcgaga gcggcgctgc t 101 <210> 66 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2602: 4614 <400> 66 gcaatctaca ggtctggttt caagtgtgga cagtgtaaca agacatactc nagcaaagat 60 gaatacttgg atctaaccgt cactgctggt tttgattctt t 101 <210> 67 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3781: 759 <400> 67 tctaatctca actctgatgt gtaagttaaa agaattctat ggcaagacga ngacgtcgta 60 taagagtacg agcctataat ccttaaccga ctagtgtgac c 101 <210> 68 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL1956s: 2142 <400> 68 ttgtcatctt tattctcagt gtaagtaacc aatcaaaagc tgacagatac ncaatggtca 60 aagtacagca tattgagaat acaagctttt ttgttattag c 101 <210> 69 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0604: 7256 <400> 69 gtggttacct taagcacaat attggtcgcg gttggttttg gcaaagaacg ntcaaggtac 60 tgataccatg cataagaacc aggaccgtac aagagaaacc c 101 <210> 70 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09317: 4232 <400> 70 gatgtatgta ttctaagatt gattcccctg atagcttttt ttttagagta nagctttgta 60 tactcgataa gatattatgc tctgccacaa tatgcaactt c 101 <210> 71 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0801: 17000 <400> 71 gtgcttcatt aaccaatgcg gcgtgaccac gagcgcgccg tgtgacgaga ntgatgaagc 60 tgatggcgac tggagtacac gcgcggggtc cctcctccag c 101 <210> 72 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP06056: 1252 <400> 72 agcttattag ttatcatcat ttggttatta attattgagc atacaataga nggttaactt 60 tatatatgga aaatgcatgg aacatgacat agctatggag c 101 <210> 73 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3320: 10634 <400> 73 atgtataatg gatttatgta taggtagaag aatatgtgaa tgcgaatttc ntgagtgttg 60 catgatatat gtattcatcg tttcttctat ctgtatatat a 101 <210> 74 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2099: 6046 <400> 74 tcaacgttga tggatggcat ggaaaagtac tggcccagtc tcagttgtgg ntctccatca 60 tcttgccatg gtggaaaagg atcattttgg ggccatgagg t 101 <210> 75 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0437: 5610 <400> 75 agaaatgtgt tagatgcttt ctttctggga aaggcactag ctgaggttat naacgagcga 60 attgagtccg cagttggcga agttttgggt aatattggaa g 101 <210> 76 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1187: 8578 <400> 76 ttcagaattt gcatttttat gctttgtacc tttttggctt agtttagtaa naataaagtt 60 tgcaaatcac tgtttttggt tttaacttgg tttattcttg t 101 <210> 77 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0006: 765 <400> 77 ttaagcccaa caacgctgag gtattattaa ctctggataa tatattaagt ngaagtttaa 60 tgataacaca ccttttctta ccgtctcttg ttataattta g 101 <210> 78 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP14062: 8528 <400> 78 caagaataac tcaaactaga taaacgcaag aatcaatcaa aatatctaaa ncgatataaa 60 caacatatat aatttcagtc accgtatatg aatcacagtt t 101 <210> 79 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP14583: 3279 <400> 79 agtgttctag ttcaatgcaa gcaatcagta taacattcaa tacctcgcta nagcaatttt 60 gagaatacca ggatctcata gaagaaagaa atgattactt t 101 <210> 80 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09805: 8262 <400> 80 taccgtagct caaatcttaa agaaaattgt agtcaattca ttctatagtg ntagaatgat 60 tttcacttgg tagatttcag ggtctacgag cagcagacat a 101 <210> 81 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2426: 5367 <400> 81 agcagagtcg tctctgtttc gtcgttgttt atttctctct ctacttagct ntgtgtatat 60 aatttttctc ttccctatat catcgttgtt tggtaaagat a 101 <210> 82 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP14827: 4248 <400> 82 caaacttttt tttaatatat tttcgttatt gtaataaaat ggcatacatg ncttctacat 60 attatgataa aacgtataaa atatttacat gttttctatt g 101 <210> 83 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL2532s: 4266 <400> 83 accccaacat atagttcaaa ggtaaatcag gatacagaca caaacttcaa naagtttgat 60 gaaacgttat gaaagatatt aaattaccac ttgtgatcca a 101 <210> 84 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0090: 11768 <400> 84 tcgtcgaagc tctgcccttc cctccacatg aggtaggcta tcaccaagga ngtggaccgc 60 gagacgcctt ggcagcagtg gacaaagatc cttcctctct g 101 <210> 85 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP10330: 5679 <400> 85 tttgattcct ttgtgtgaat ctatcctctt cattatcttc tccttaggta nagggttctc 60 gtattcttca atgtcttcat caaacagatg tgatttaggg t 101 <210> 86 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0103: 4584 <400> 86 cactgagaca tctttgtgca taagacacgg agatgatgag aagaccggga ntttaggttc 60 tgcatcatct tgggattctt gaggcggatt cttggagttg t 101 <210> 87 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP15238: 11419 <400> 87 aataattata ctatgaccga ttaaacgatc atcactttat catcaatgat ntaaaaacca 60 ccatcactta ccgatgatgt tcttacataa cgtttttgta a 101 <210> 88 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0883: 5466 <400> 88 gatatgtagg atgaaacgga tttagccatg ttggtgcgtt gcgagggacc nccttggtcg 60 agaagatgac gggccatttg gaacatgaaa ggcaagaaac g 101 <210> 89 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> N1: 5920 <400> 89 gtgagaccaa agacattgca aatgttgttg gattcttagc cagcgacgct ngcgaatgga 60 tcaatggaca agtcatcatt gctaatggtg gctctatctt g 101 <210> 90 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL6670s: 9119 <400> 90 atcccctgaa accccgcggc ggagatgatc tccgtcgtct gtaaaccgaa ngtcgcggag 60 aggacaaccc acgagaaggt catcagcata tccccaatcg c 101 <210> 91 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2296: 800 <400> 91 gaaacgaaag ctcagttctc gaacgatggc agaacacacg atcttgtgat ngagtgtgat 60 acgagtgtag gagtatctga tccttgcctc gttgttcgtg t 101 <210> 92 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2055: 3646 <400> 92 tattgggcct tacgttaagt ctgcacgtgg caaagcgcta gatcgtgtgt nggccgttga 60 atcatgaggt ctctctctcc accaaactta ccgacaaaag g 101 <210> 93 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3978: 65 <400> 93 tacttcatag gaaacctcca gcctgctcac atggatttca gattcttcac nttgggaaac 60 ctctgggcta ttgtttcgtc tcttggtaac caggaacaga a 101 <210> 94 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0892: 521 <400> 94 tttcttttga ttcttatgtt ggtgtactta tagctaatta agtttgctta ntatatagac 60 aaggtgattc atatgtgatc aatggaacaa aatggtggac a 101 <210> 95 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP06168: 4246 <400> 95 aaagtattta ttttattaaa tttatcttac gaaacttctc tttataatta nttttgtttc 60 agttttattt ttatttttat gggtaataaa ttattgatca a 101 <210> 96 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0263: 7460 <400> 96 gcgtcgatct gcctcggagc gcccgtgtct cctcggatgt ggatgattag naacgcggag 60 aggttccgcg tcccgtcgtc ggtgctcttc acgttgttct t 101 <210> 97 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0209: 5124 <400> 97 taactttcct agcaaacaat cggatttgac tggcgtaagt gatcaaatct ncagaaacta 60 accggttagg tcacaaaaaa gtctccagaa actaggcctg g 101 <210> 98 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1121: 1772 <400> 98 gtggattcga tcgagtatcc gaacgggtcg ggttcgggtc cgcctatagt nagactccaa 60 gacggcggcg ttttgagtgc tgagttgggt gtgatactcg c 101 <210> 99 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP07955: 775 <400> 99 tatcattatg aaaatttgtc caagatctaa gcgtattacc atattcgatt natttttgtt 60 tgtttcttga gatcactcag tgatgaaagt attaatcaaa t 101 <210> 100 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1111: 828 <400> 100 ctgctgaaac tggcttagct tggtttcctg gttgaggcac agggggcggg ntcggcattg 60 ctggagaagc agctttctga tttaccaacc cttggacccg g 101 <210> 101 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0204: 15097 <400> 101 atggaaggga agatcctcaa cggacggaag ctgacggttt cgatggccgc ngataacggg 60 agggcggcgg agtttatcaa gaagagggtg tacaaggata a 101 <210> 102 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL5065s: 4467 <400> 102 cttcccgagc agtataggcg aaatgagatc cctgacatac ctcgacgccc ncttcaacga 60 actgcaaggc ctccctgatt ccttctgctt gctcacaaac c 101 <210> 103 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP06030: 1432 <400> 103 tgaagtctct cacacaagtc tattataaag gatctagatc tccaaataat naaaaaagct 60 aatggattat gcgcaccttt gttactatcc ctaatattta t 101 <210> 104 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2124: 2473 <400> 104 gaccatcctc cttgagtgaa aacagagcct actagatcct tcgcagacat nacctgatag 60 tttacaccct catccacttc accattaaca cgcctgaaaa t 101 <210> 105 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0837: 9819 <400> 105 acccttcgat aacacttatg ctatactttt tgtaatcttt atgtaagaat ntgtctatac 60 acattgacca tagtctgact aaacccagcc ccagacatca a 101 <210> 106 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0139: 8572 <400> 106 tgacgccccg cgatcagcgt ttggaacgct tttgcttttc cttaccttca nctggtaatc 60 gtttgtctga tcggcagctg ggaggtttcc agacgcggtg g 101 <210> 107 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL1405s: 6173 <400> 107 ccatttcggt atccacatgt attgactccc cttaacggtc cacttccgca ncatgccatc 60 ttcccttgct tgaaaccgta tcttaaagga ctgttgattc t 101 <210> 108 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0618: 4756 <400> 108 ggggaggctc caaagaatga tctgctggga atacttttgg aatctaactc nggagatcat 60 gggatgagta ccaaagatgt gatagaagag tgcaggctgt t 101 <210> 109 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1891: 6832 <400> 109 cctgaaaata tctaaatata cagctaacta gatctcatat atgatcgtca nctatgctaa 60 tctaattttt cattaacaca tgtttttctc ttttctgaaa g 101 <210> 110 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0755: 9324 <400> 110 cttctttaca gccacccttg tctgatttac atatacagta acaaacatat ntgttcatat 60 ggtgcaggat catctttcat ctgcccgcga cacaaagaga a 101 <210> 111 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0944: 15977 <400> 111 gagggctctt atggaagagt gttctacggt gttcttagaa gcggcaaggc ngctgccatt 60 aagaaacttg attccagtaa gcaacctgat caagagtttc t 101 <210> 112 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1598: 16492 <400> 112 catgatccat cgccccaaca acctcaatct tctccttaaa ctctctatcc nacatcgtca 60 catccttcag cctcttcaca gccacaagcg tcgccgcgtc a 101 <210> 113 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP07911: 6933 <400> 113 tttataaaag acatatctcg ttttctatgt aaataattat acatatattt nttggaaaaa 60 taaataagaa tatctagtta caagaaataa acaaggacct c 101 <210> 114 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP15687: 1379 <400> 114 accagctttt cttctttaac tcagattcgg cactagctag ttctgctatg ntatatctat 60 gtgggtattt ctgtgtttat acatgcccat taataacata t 101 <210> 115 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1175: 5809 <400> 115 ttgaatagca ctccctgaaa caggattgtt ataacctgcc ataaaagtat ngaaatacca 60 tctttagcaa attgaaactt aagagaaaaa tgaatgtaga c 101 <210> 116 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP08026: 4581 <400> 116 ttgtcaggag ttaaacccgt aagcttagat gcagcctctg ctagaaggaa ngcatcagga 60 atgttgtctc cttcagaaca gtaacatagc aggcatgtca c 101 <210> 117 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0798: 15934 <400> 117 gtttctcaag ctgtggattc ttcattgaat aaaggttcag ggaagcctcg nggttctggc 60 tctcctttca ggtgcatagg gttgggactt gcacaacaaa t 101 <210> 118 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP08036: 1238 <400> 118 tattcagtgt ttagaaggtt atatctatgt taaataaata gagaatatat nttgagagag 60 atagagagag ataaagtgag cgtgggtaat gattgggagg t 101 <210> 119 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0886: 16389 <400> 119 cttgtcatcg tcttttgtca agccctgaga atcaggttcg agtggagcag natctctcag 60 ggactggcgt ggcttcttat ctgtctcagt actaacatca a 101 <210> 120 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1437: 7123 <400> 120 cctcaaactc tcgacatctc cgccgcactt cgctcctcca ctcgtagccc nttgttcgcc 60 gcaggtgcag gctgcgcaac aacactcgct ggtgtttctc t 101 <210> 121 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1062: 8693 <400> 121 tccccttctt ccacatcaac catatcaaca tcttccatgg tatcaaaccc ntcatcttct 60 tcatatatag catccaacac actttcttct ccctccatga c 101 <210> 122 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0169: 14233 <400> 122 ttctctcagc caaggccagt gaactcggtt tcccagccaa ttgacttaac nggtattgga 60 gttcctgaag atggacagaa gatgatctcc gagctcatgt c 101 <210> 123 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0415: 10065 <400> 123 tcattgttga agctggtgtt agtgtgggcg gaagagatgt aaaacaggta ngtcatatct 60 ttgttttgct tagttatgta tattccttcg cagcaaagct t 101 <210> 124 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13632: 3777 <400> 124 aaatgatcta caataaatta aaagtgattg taactaaaga tagtcttttg naaactacgt 60 aactaaatac tatcccagat atggtaaagt tcacatgctt t 101 <210> 125 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1657: 2597 <400> 125 ccgggtccgg gtgtttggtc ttcttgttgt gtgtgttaac aggagaagat naagaggttg 60 atcgtttagc gttcttgcga gaaccgccgc cgacgggaac g 101 <210> 126 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL6248s: 662 <400> 126 cttagagaga gagagagaga gagatgatga agtaaagttt acctttcctc ngcaacgttc 60 ttgtcgtgtg tcaagaaagt tgatttccag ccacggccaa t 101 <210> 127 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4474s: 1500 <400> 127 tctctcattc ctctcctcaa cctatcaaca ctcgtccatt tttgctcctc ngcatacata 60 ttcgagagca aaacctgata tcctgaaaag ttctttcctt t 101 <210> 128 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0242: 5906 <400> 128 acgtataaag ctgatttgac gatagatctg tcgaagcatc atgttccgac nacgtttctt 60 gacaaaatag cttattggac tgttaaatct cttcgttggc c 101 <210> 129 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0115: 10176 <400> 129 aaaccacccc gtctccccga tccggctgct aataatagat tcatcggatc ngagttcggt 60 agattccctc ctgagttcag agatcagagg cagtgggatc g 101 <210> 130 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0039: 1728 <400> 130 gcggaggtag ctgttgtacc tctccagctt caccgtcttg cttgtatccg nagtagccga 60 cagtggcatt ttcgactttt gatggaaact cgaactgatt t 101 <210> 131 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2598: 6209 <400> 131 ttgttttata gttgattcat tatgcaactg caaagactct gagccagaca nagtatcttc 60 tccttgatat ttatttactg ccacctcagc accactctta t 101 <210> 132 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0663: 1132 <400> 132 atacccaagc aaccacttgc gtcaagactc tcgatcacgc tacccgcaat ncaagtgcct 60 ttagccgtct ctgtccctct gcatatctca tctatgagca c 101 <210> 133 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP08310: 1754 <400> 133 cttggcttta accatggtta ctttatatca tcaactgtac ttcctttcca ntagtttatt 60 tattttcttt ccgtttaatg tattaatcat acacatacac t 101 <210> 134 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL3218s: 6510 <400> 134 taagcaaaac ccagtacggt gactcaccat tttctggcgg tcatgtcatt ntaaacccaa 60 aacggagcaa aagcagagag taagcagaaa tctagactcg t 101 <210> 135 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0396: 11598 <400> 135 ccatggaaac tgaagtaatc caagaacaag tggatgcgta caaggttgat ntcagaagaa 60 tcctcaagaa cgggatgtcc aacaaaggtt gcttcaaccc c 101 <210> 136 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP12533: 2304 <400> 136 tttttttttt atgattaaag tcaaacccat ttgacttttt ttatttaatt ntttatacag 60 ccttttgtag ctagtgatgg tactaagtcc agcgtttcaa c 101 <210> 137 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0152: 12734 <400> 137 acatttaaca aacataacca aaataaatat aagaattaga gtattattat ngttcgattc 60 gtgtaaatca cttctactac catgtctttt tcatttgctt t 101 <210> 138 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0495: 13229 <400> 138 ggatagaaga tcacataaaa catcctcacc ataggtgcca agaataaggc ngcatcagct 60 actcttgagg tgatgataac gtcaggttgg tacttctcaa g 101 <210> 139 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL6306s: 5018 <400> 139 tcatgtccag tgtgggtgtt tgaataatct taatgtacca aacatcaatc ngtgatatgc 60 accattacta gtaatttatt attgtacctt aatctgaatc a 101 <210> 140 <211> 101 <212> DNA <213> Artificial Sequence <220> &Lt; 223 > RsSNP14140: 3204 <400> 140 ttttggctct tattacgctc atcaagtttg acctcgatta ctaatttttt ntagaataca 60 gaatgactca tatagtgata aactatttga ggttttcatt g 101 <210> 141 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP14096: 7772 <400> 141 taatgttttc ctttttctgt aaggatttac tagcttttcc tttttttttt natgttttag 60 gctctctata caagaggatt ttaggtcttc tgtttggcaa a 101 <210> 142 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL3856s: 2656 <400> 142 accgttccaa tgattgcttc tgctgaagct actgctgaac ttatctggcc ngaccatccg 60 agtgatcttt gtttcagact cgaaccttcc ctacaagctg t 101 <210> 143 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1125: 5351 <400> 143 caacagatcc aagtctccgc agtatgttgt tgatgccttg ctagtaatcc natccggtta 60 tatccggttt gaattaaaat gcaattagga attggtctag a 101 <210> 144 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0908: 2185 <400> 144 gcttgttcaa ctaagaactc aggtgcagat ttttcaattg gcttcccttt nggtggaggg 60 aagttttggt tgccaagccc atctttaccg tgaacgaagt c 101 <210> 145 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0599: 3453 <400> 145 agaaggtgaa ggcagtagtc agagttctat agctgacaat aattcttctt nggatagaaa 60 gccagagtct ggaatcagga atacagattt gagagcttca c 101 <210> 146 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13752: 3769 <400> 146 atttcttgct aaaataagaa tcactacatt agtgtcttgc tctacctctt nttctctgtt 60 ttatcattag taggacgaac ctaatatttc ttggaacaca a 101 <210> 147 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13753: 4805 <400> 147 atattaaaat aaacttcact ggctttaatt tgccattaaa gccatagaaa nccctgtcta 60 aatcacttat tcttttgctt tctcatattc ctaaccatca t 101 <210> 148 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3257: 680 <400> 148 agtccagcct ccatcttctc tttgtattta ccagacgcac caccgccacc nccgccgcgg 60 cttttaccgt cgtcggttgt tttcgccgtc gattgattgt t 101 <210> 149 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> MLO (8): 6453 <400> 149 aaaactgaca tcagttttca tttgaaacag gactacgttc ttacctctgg ntaccattca 60 ttccactagt tgtaagtacc acaaaccatt gaaccaataa a 101 <210> 150 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL1583s: 7532 <400> 150 aagataaagc accgagggct ttggtcctga ctctaacgtc cggatcagta ntaaagtttg 60 ttaacaaggg ctcgaagcca tttgcttcca taacaagctg c 101 <210> 151 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09148: 6099 <400> 151 aaatgactaa ataacgacga tccagttgaa tcaactcaaa cacaatatat ncaggatata 60 gacatgatct tatcgttaaa aagaattcct aacagcacaa t 101 <210> 152 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL7551s: 1173 <400> 152 ctaactccgt acttagctaa ttcttctatc atctaccatt gcctctagtt ngaatggaag 60 acacaatcaa tgcatgtata agggctaagg ctgcagaaca t 101 <210> 153 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP15591: 1289 <400> 153 acctgccctc cattacacac ataacaacaa catgatttaa ataaacggta ntttttctaa 60 gagaatgatc tgtttctttt acgccatcga aataaaacaa t 101 <210> 154 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0616: 1529 <400> 154 cttttcgaga gaggcattcc accagccgat aagctggtcc agagccacac ngtcctcgca 60 gcgtgaacaa gcggcacgga agctttgcga ggctgcgcca a 101 <210> 155 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL3943s: 1970 <400> 155 gtgaggattt tgaagttctc agttatgtta ataagtcgta atgattctat ncagaggatt 60 tgtgctaggt tgaaatggca ggacacaggg ttgcgcatgc t 101 <210> 156 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP07928: 1632 <400> 156 gatagactcg ttaaatttaa acaagacatg tacgtgcaag acgatttatt ngggccatgg 60 ttaataatgt ccagataatt ttaatcataa aggaattggt t 101 <210> 157 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4099s: 4341 <400> 157 cctataataa taacacttat gatgcttgga gagaaaattt tgagcgtgga naagcctgaa 60 ttcgaggcat gtagatcggt actcaggtct ggacctgcta g 101 <210> 158 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2396: 3686 <400> 158 atttcatttg ttaatcaaac ttatgaaatg tacaattcta tttataaaca ntatgatacc 60 aaactgatag ataaccagaa ctatcaactg gatataaccg g 101 <210> 159 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1491: 7195 <400> 159 ttggttggct cgtaggtttt ggctgcactg atggctctct ctctttcctc ngcagttaca 60 gttctctttc tatcagaagc actcttgtag aactttgagc t 101 <210> 160 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0282: 2314 <400> 160 taccgtgtct ccagccagaa cgacgaccgt atcgccttct ccttggatgt ntctcttctc 60 taccgagctg tcaagagcag tgtcagcatc tgcactgagt t 101 <210> 161 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3903: 2141 <400> 161 cagtaatttg ctctctgttc cttattcttt cttgtaattt tcaaattttc nttctcttgt 60 tctcagttct tttccgctag acctctgcca tgtgaccctt c 101 <210> 162 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL804s: 14778 <400> 162 ttcatgttta aatacaaaat catacaatta ttttatatgc tcattttaac ntttgaactt 60 tacgtatccc atgttcacca attattattt ttcttcaata t 101 <210> 163 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1879: 7979 <400> 163 gacggtaaga aatggatacc caggagcgag atgctgcggt tttcacatca ngtgccgtct 60 tggtttctca aaggtgcaac tagcggcttt cccggaaact g 101 <210> 164 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3680: 8855 <400> 164 gccctggccg accgcgaagt ccagggactc agagctcaca tcatcaagac ngagacagac 60 ggcgagattc agatccgagg ggcgctcgag aagatagcta a 101 <210> 165 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1147: 2669 <400> 165 gaagcacaag ccattggtgt atagtcgacg aatgactagg agccaaacaa ngttaagctc 60 tccaacaggt tgtcctgatg ctttgatccc acttggtgtg t 101 <210> 166 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP13334: 941 <400> 166 agttgcatgc ttgtgcagag gcttgcgaat gtagagttga gagatcagct nagcaatccg 60 gattctctga cagaagaact tatagaccga accgtctcta c 101 <210> 167 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL6459s: 3021 <400> 167 ctctttgttt atgttaacaa gctgatgatg ttgtaatgtt ctggttttgc nggtgttgtg 60 agattggttt tgttggttgc aggtgttgga gttttagcat g 101 <210> 168 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3295: 18681 <400> 168 tctcgacttg ttacggactc caacttctga tacgtcactt tgcagtctgc nagaaacgag 60 tcgatggcaa aggttgtatt cgttgcaaga gaatgattca a 101 <210> 169 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0132: 8433 <400> 169 tttctgatat tgcaggtgaa ggctgccaac aaacttctca agtcaaatgg naaaaagcaa 60 aaggtggatg gggttcctgt tttcggtgct caaaacttgg a 101 <210> 170 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0610: 479 <400> 170 tcttctaatg atggagggag gtcatctgag tatcatcctt tgcctctccc nccgggatct 60 cctacaagcc cctccgttgt gcttccgtgt tctcctacca g 101 <210> 171 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0809: 8593 <400> 171 ttggcggtgg aagggatgga ggctgtagca gaaatggtag aaaaagtggc nacggccact 60 gaagaaatgg ctgaagtaat ggaaaagaat ctgcctgagc a 101 <210> 172 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL5210s: 16247 <400> 172 cttgttcatg ttcattggac catgaaagtg agcttaccaa cttgcgaatc naagtcgttg 60 caaagcaagt agtgtgaaag agaaggctat ctcttattac a 101 <210> 173 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0575: 9658 <400> 173 gcttatgtta gggttaagaa gatgaccaag atgacagagg atgtggcaaa nggtattctc 60 tctggagtca ttaaggtttc agggttcttc accagttcag t 101 <210> 174 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0356: 4500 <400> 174 cagaatacgt taccggtggt cttaacagca acaatatgag taaactcagt naagactttg 60 ttgagaacag gacaatgaaa ctctcctaaa caaattttgg c 101 <210> 175 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1372: 4956 <400> 175 tacagaaccg gttgaaaagt gctattataa atgattaatc atttaagttt ntaaaatatt 60 aatgataaat tattggtata cgtttgaaac tagatggaca g 101 <210> 176 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1390: 4671 <400> 176 tggaaaatgt catgatcgtt tctcaagctt ccaaacctgt taacagctgc ntaaccatgt 60 cctccacaag cttctctgca gaccgagagt gacttagcgg t 101 <210> 177 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL7234s: 5607 <400> 177 ccacgtttag gcaaacggcg tcgtaaagga gtctgcccac cttcgaaacc naacttcatc 60 gtccctctcg ccttctgccc cttgtgacct ctccccgccg t 101 <210> 178 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2132: 30852 <400> 178 tcccatttct taatcgaata atgcattatg gatgggtaat agactaataa ntaagctttc 60 tcgattaatt ttttagtaaa gctcgatcaa aactcaaaag c 101 <210> 179 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL4098s: 7189 <400> 179 agcaccttga caaagagatt cgtctttggt cccgccaaga tcaaagaact naaaagcaaa 60 gcctcaagca aacttgtgac acacgctacc cgtaacgagg c 101 <210> 180 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3462: 3034 <400> 180 atacttttct tggacgacga cgtggttgtg cagaaggatt taacggggct ntgggagatt 60 gatatggatg ggaaagtgaa cggagctgtg gagacttgtt t 101 <210> 181 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS 0531: 2102 <400> 181 gaagacctaa cagaacttgg atcggggacg tatggaactg tcttccatgg naaatggcga 60 ggaactgatg tcgcaataaa gagaataagg aaaagctgct t 101 <210> 182 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0845: 25281 <400> 182 gttcaggtat ggctattaac tctggtagtt ctcccagcaa gagcaaatat ngttgtgcgt 60 ttgggacttg ttctctgtac tgctcttttg tctatctctg t 101 <210> 183 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS1158: 16894 <400> 183 aagcagacct ctcacgtctt cctctattag tttgtctctc atcctccgct nttctccttt 60 cttcagtctc ctctctccct gagccgccgc gtcgtctctt a 101 <210> 184 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3538: 1623 <400> 184 cgaagtgttg accacccaaa cgtcatgaaa tgtcacgaca tgtttgatct nagcggcgag 60 gtccatctct tgcttgagtt catggacaaa ggctctctcg a 101 <210> 185 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1593: 1920 <400> 185 aagtgggtct cgcaaatgct ggattctttt tgtcaattgt ttttatcaat ngacttgaaa 60 ctgctgataa tcaacaatta tatatagctt ccattaaaac a 101 <210> 186 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0978: 4737 <400> 186 tagtattgtt gatgagacat gagactggta ttacgttgat gacttaacaa ngaagttttc 60 tcaacatgtc tcaaaagaat cctataaatc ttgttcctca c 101 <210> 187 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> Rs1SSR5023: 7133 <400> 187 tctcatcaac agttttcata cccctcaagg agccaagcta gccaagtaac natccttaca 60 cttcttcact ttatgcttat tagtctctgc tttccttttg a 101 <210> 188 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3062: 6936 <400> 188 ctttttcatc ttctagccgg aaaaagacaa acagggttca tatttgagtc ngcttggctt 60 agcttttttc ttaatctttt caccttcatg cttgctggtc a 101 <210> 189 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS 0335: 902 <400> 189 gttcaagcca actcttagcg cttggagatg tgttcgcttt atctacgccc ncttgctctt 60 cggcagaatg actgcagcat tcggcagagg caagaaaatt a 101 <210> 190 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS2704: 1551 <400> 190 tttgagttaa ctatggcact ttctggttgt cctaccatta gtgacattac nagaaaccat 60 gttaggactg aagatgagag acttaaatct atgctctgat c 101 <210> 191 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS1393: 13337 <400> 191 caacccactt gtaagttgta actaaacaat tatgttacaa atttggtttc natttaatca 60 ttggactttt caagcttttt tttcttacca ttgtcgtagt t 101 <210> 192 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL2032s: 7189 <400> 192 ctgtttccgg taccactttc agctagaaac ctttggaggg ttttgtaaga ngtgtaccag 60 taaggatcag aaacataaag agctgtatat ttactgccag a 101 <210> 193 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0998: 10082 <400> 193 ctgcatagtt gccaaggttt taggggggtc attggcatcc attccaagca ntgcattaga 60 tagagaaatc ccaatgagat caagaaacat cctatcatcc a 101 <210> 194 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0153: 5981 <400> 194 tttttcacga tcgggatcgt ggcgtcgtgg tactcgtcga acatcggagt nctgctcctg 60 aacaagtacc tgctgagcaa ctacgggttc aagtacccga t 101 <210> 195 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS0048: 10428 <400> 195 gatagataag ctatctatgg ccgccgccgc tatgaccgag aaggaagcta nggtggatcc 60 tttcctggtc gaggctctcc agaaccctcg tcatcgtctc a 101 <210> 196 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0230: 130 <400> 196 atcgttcctg ttagcgagtt ttcagaagac cagtatctcc tgatgcttac ngtgaatggc 60 tgcatcaaga aagtaccttt gaagctattc tcagggatac g 101 <210> 197 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RSS3941: 220 <400> 197 atcatgtcca tcttaaacat catcccagcc ccgagatcgt tccctttcat ngtcccttac 60 ctcctgtttg aaaacacaat gtcggtcacc aagttcggag c 101 <210> 198 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL8651s: 4982 <400> 198 ctatcacttt cactgtcaga gctttcacta gattcatcca tattctttct nttcctcttc 60 ttctttccag tagccgttgc ctttccagag ggaccagtgg g 101 <210> 199 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0217: 7761 <400> 199 acaaaagcat ggaatgaggt gaatgtggaa tcgaagtgga gacaaaccat ntcaggagag 60 acgtccaagg atgtcaaacg aacaacactt ccatccatat c 101 <210> 200 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RS2CL5773s: 1561 <400> 200 tcatcggtat ggtcaatacc taaacttcac tcatcctctg atcaaagaca nctttaaccc 60 caatgcttgt gcttgggcct ttgggatgaa tatatttgat c 101 <210> 201 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09835: 3360 <400> 201 ttatctggtt agcgcttctt acacatgcaa gccaataatt gcttcgtggt ngtcatatgg 60 gaatgcatta tgtaatatac atctctcaag aaccatttat a 101 <210> 202 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> COS0634: 10305 <400> 202 cctggttacg ttcctgaacc gggtgttgac tatcgagttt tccattacgg ncttgagttc 60 agagtaggga actggagctt cgacaaggcc aattggagaa a 101 <210> 203 <211> 101 <212> DNA <213> Artificial Sequence <220> <223> RsSNP09819: 4607 <400> 203 tcaatcacca ggcgacaaga aagcaatcat agaagtaatt aaacacaaaa naagatgaga 60 ttgcaagtca gaggaggaca agtaaagcaa taatggaaga g 101

Claims (6)

WK10039, WK10024, Long Scarlet, DB102, DB104, DB109 comprising 8 to 200 polynucleotides or a complementary polynucleotide thereof containing the 51st SNP (single nucleotide polymorphism) nucleotide of the nucleotide sequence shown in SEQ ID NO: , DB110, DB113, Aokubi, Sayatori, Raphanistroides1, Raphanistroides2, Raphanistroides3, Wild radish1, Wild radish2, Wild radish3 and Raphanistrum. A kit for determining species of radish comprising the SNP marker composition according to claim 1. (a) amplifying the nucleic acid molecule separated from the sample using a primer pair prepared so as to amplify the 51st SNP polynucleotide of the nucleotide sequence shown in SEQ ID NOS: 1 to 203;
(b) confirming the base type of the 51st SNP polynucleotide of the nucleotide sequence shown in SEQ ID NOS: 1 to 203 of (a) above. A method for identifying a species of radish selected from DB113, Aokubi, Sayatori, Raphanistroides 1, Raphanistroides 2, Raphanistroides 3, Wild radish 1, Wild radish 2, Wild radish 3 and Raphanistrum. delete The method of claim 3,
The method comprises the steps of: (i) annealing with a sequence adjacent to the 51st SNP nucleotide of the nucleotide sequence of SEQ ID NO: 1 to 203; (ii) annealing the 3'- terminal nucleotide with a nucleotide corresponding to the nucleotide at the -1 position from the SNP nucleotide Characterized in that the base type of the SNP polynucleotide is analyzed using a genotyping primer. The method of claim 3,
The method comprises analyzing the base type of the SNP polynucleotide using a probe capable of binding to 8 to 200 polynucleotides or a complementary polynucleotide thereof containing the 51st SNP nucleotide of SEQ ID NOS: 1 to 203 .

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