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KMID : 0903620040450060299
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Journal of the Korean Society for Horticultural Science
2004 Volume.45 No. 6 p.299 ~ p.306
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Identification of S-haplotype Based on Polymerase Chain Reaction-Restriction Fragment Length Polymorphisms and Sequence Analysis of the S-Locus Receptor Kinase Gene in Chinese Cabbage Inbred Lines
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Seo Jeong-Pal
Kim Hyun-Jung
Nou Ill-Sup
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Abstract
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Identification and DNA polymorphism of the kinase domain of S-locus receptor kinase (SRK) which participates in the self-incompatibility of Brassicaceae were analyzed by polymerase chain reaction (PCR)-restriction fragment length polymorphism and nucleotide sequencing. In the PCR experiment, a SRK-specific primer pair (KS 5 and KA 7) of the class ¥° amplified a single DNA fragment of about 900 bp from 61 lines out of 134 inbred lines. Four groups were found in a double digestion with Hinf¥° and EcoR¥± using the class ¥° SRK-specific primer pairs. Also, the rest of the lines which were not amplified with class ¥° SRK-specific primer pairs gave exactly one single DNA fragment from 1,050 bp with class ¥± SRK-specific primer pair (KS 4 and KA 8). These 1,050 kinase domains of the SRK gene in Chinese cabbage were divided into four groups when they were digested in Hinf¥° or Alu¥°, respectively. These observations suggested that these primers were able to differentiate accurately between class ¥° and ¥±. The Chinese cabbage inbred lines used consisted of eight different S-haplotypes, and 61 lines belonging to class ¥° consisted of four different S-haplotypes, and 73 lines belonging to class ¥± consisted of four different S-haplotypes. Nucleotide sequencing of the DNA fragments amplified from eight different S-haplotypes showed that exons of 3¡¯ end in SRK were highly conserved, and that there were high variations of introns. Also, the eight different S-haplotypes could be divided into two classes (class ¥° and ¥±) based on nucleotide sequence similarities. The sequence similarity within class ¥° and ¥± S-haplotypes exhibited 82-93 and 94-99% identity, respectively. While between class ¥° and ¥± S-haplotypes, there was a lower degree of sequence conservation with approximately 66-71% sequence identity.
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KEYWORD
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Brassicaceae, fertilization, pollination, self-incompatibility
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