Identification of<i>S</i>-haplotype-specific<i>S-RNase</i>and<i>SFB</i>alleles in native Chinese apricot (<i>Prunus armeniaca</i>L.)
TL;DRAbstract
SummaryChinese apricot (Prunus armeniaca L.) shows gametophytic self-incompatibility (GSI) controlled by a single locus containing at least two linked genes [i.e., the S-RNase gene and the pollen-expressed SFB (or SLF) gene] as do other fruit species in the family, Rosaceae. To elucidate the S-genotypes of 14 native Chinese apricot cultivars, PCR was performed using primers designed from Prunus S-RNase and SFB consensus sequences. After cloning and sequencing the PCR products, the S-genotypes of all 14 apricot cultivars were determined, and eight new S-RNase alleles and nine SFB alleles were identified. The S-RNases shared typical structural features with S-RNases from other Prunus spp. exhibiting GSI. The SFB genes showed similar structural characteristics to SFB genes in other Prunus spp. The intron sequences of the SFB genes revealed sequence and length polymorphisms. The deduced level of amino acid sequence identity for the eight new S-RNase alleles was 66.4 – 100% in P. armeniaca,
Chat with Paper
AI Agents for this Paper
SummaryChinese apricot (Prunus armeniaca L.) shows gametophytic self-incompatibility (GSI) controlled by a single locus containing at least two linked genes [i.e., the S-RNase gene and the pollen-expressed SFB (or SLF) gene] as do other fruit species in the family, Rosaceae. To elucidate the S-genotypes of 14 native Chinese apricot cultivars, PCR was performed using primers designed from Prunus S-RNase and SFB consensus sequences. After cloning and sequencing the PCR products, the S-genotypes of all 14 apricot cultivars were determined, and eight new S-RNase alleles and nine SFB alleles were identified. The S-RNases shared typical structural features with S-RNases from other Prunus spp. exhibiting GSI. The SFB genes showed similar structural characteristics to SFB genes in other Prunus spp. The intron sequences of the SFB genes revealed sequence and length polymorphisms. The deduced level of amino acid sequence identity for the eight new S-RNase alleles was 66.4 – 100% in P. armeniaca,
Keywords
Chat
Click to start Chat