|Table of Contents|

Identification and Sequence Analysis of S-RNase Genes From Prunus humilis Bunge

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2019年24
Page:
28-35
Research Field:
Publishing date:

Info

Title:
Identification and Sequence Analysis of S-RNase Genes From Prunus humilis Bunge
Author(s):
YIN YaruiWU JunkaiMA JuzeWANG HaijingLI XiaoyingZHANG Libin
(College of Horticulture Science and Technology,Hebei Normal University of Science and Technology,Qinhuangdao,Hebei 066004)
Keywords:
Prunus humilis BungeS-RNase genecloningself-incompatibility
PACS:
-
DOI:
10.11937/bfyy.20191520
Abstract:
The S-RNase gene was cloned from four cultivars of Prunus humilis by homologous cloning and its sequence characteristics were analyzed to determin the genotypes of different cultivars.It could provide reference for parents selection in Prunus humilis hybrid breeding.The results showed that five new S-RNase alleles were cloned and identified,encoding 168-172 amino acids with relative molecular weight of 19.87-20.34 kDa and theoretical PI was 9.60-9.73,whose phosphorylation was mainly serine.The main components of their secondary structure were alpha-helix and irregular curl.Homology comparison and structural analysis revealed that all the five S-RNases belonged to RNase T2 family.The deduced amino acid sequence consisted of five conservative regions (C1,C2,C3,RC4 and C5) and one highly variable region (HV),which had a conservative structure similar to S-RNase of Prunus,Pyrus and Malus.

References:

[1]李洋,李长龙,王晶,等.甜樱桃‘拉宾斯’自交亲和性与SFB4′基因的关系研究[J].园艺学报,2015,42(7):1251-1259.[2]李亚兰,刘小芳,刘海楠,等.2个中亚杏S-RNase基因全长的克隆与序列分析[J].果树学报,2015,32(6):1047-1054.[3]杨芩,付燕,王永清,等.4个枇杷品种S基因型鉴定及新基因S31-RNase序列分析[J].果树学报,2015,32(1):37-42.[4]姜新,曹晓艳,王大江,等.南疆杏品种自交不亲和S-RNase基因型的鉴定[J].果树学报,2012,29(4):569-576.[5]吴俊,谷超,张绍铃,等.11个中国杏品种S-RNase基因的检测与序列分析[J].南京农业大学学报,2008,31(4):37-42.[6]RILDAN J A,QUIROGA R,GOLDRAIJ A.Molecular and genetic characterization of novel S-RNases from a natural population of Nicotianaalata[J].Plant Cell Reports,2010,29(7):735-746.[7]SAMUEL M A,CHONG Y T,HAASEN K E,et al.Cellular pathways regulating responses to compatible and self-incompatible pollen in Brassica and Arabidopsis stigmas intersect at Exo70A1,a putative component of the exocyst complex[J].Plant Cell,2009,21(9):2655-2671.[8]SASSA H,KAKUI H,MIYAMOTO M,et al.S locus F-Box brothers:Multiple and pollen-specific F-box genes with S haplotype-specific polymorphisms in apple and Japanese pear[J].Genetics,2007,175(4):1869-1881.[9]TAO R,WATARI A,HANADA T,et al.Self-compatible peach (Prunuspersica) has mutant versions of the S haplotypes found in self-incompatible Prunus species[J].Plant Molecular Biology,2007,63(1):109-123.[10]TSUKAMOTO T,HAUCK N R,TAO R,et al.Molecular characterization of three non-functional S-haplotypes in sour cherry (Prunus cerasus)[J].Plant Molecular Biology,2006,62(3):371-383.[11]王鹏飞,曹琴,何永波,等.欧李果实发育期糖和酸组分及其含量的动态变化特性[J].西北植物学报,2011(7):1411-1416.[12]马建军,于凤鸣,张立彬,等.野生欧李果实发育期不同叶位叶片中主要矿质元素含量的变化[J].果树学报,2010(1):34-38.[13]王鹏飞,李利锋,杜俊杰,等.不同地域野生欧李及其近缘植物亲缘关系的RAPD分析[J].植物遗传资源学报,2015(1):119-126.[14]张红,张艳敏,陈晓流,等.欧李自交不亲和S基因的克隆及序列分析[J].西北植物学报,2008(5):876-881.[15]吴瑞姣,刘连芬,丁方兵,等.湖北海棠DNA的CTAB改良法提取及其SSR反应体系优化[J].基因组学与应用生物学,2013,32(2):227-231.[16]OHNO K,TAKEDA J I,MASUDA A.Rules and tools to predict the splicing effects of exonic and intronic mutations[J].Wiley Interdiscip Rev RNA,2018,9(1):e1451.[17]ZHAO P,WANG M,ZHAO L.Dissecting stylar responses to self-pollination in wild tomato self-compatible and self-incompatible species using comparative proteomics[J].Plant Physiol Biochem,2016,106:177-186.[18]MATSUMOTO D,TAO R.Recognition of S-RNases by an S locus F-box like protein and an S haplotype-specific F-box like protein in the Prunus-specific self-incompatibility system[J].Plant Mol Biol,2019,100(4-5):367-378.[19]GOLDRAIJ A,KONDO K,LEE C B,et al.Compartmentalization of S-RNase and HT-B degradation in self-incompatible Nicotiana[J].Nature,2006,439(7078):805-810.[20]XU C,LI M,WU J,et al.Identification of a canonical SCF(SLF) complex involved in S-RNase-based self-incompatibility of Pyrus (Rosaceae)[J].Plant Mol Biol,2013,81(3):245-57.[21]CHEN Q,MENG D,GU Z,et al.SLFL genes participate in the ubiquitination and degradation reaction of S-RNase in self-compatible peach[J].Front Plant Sci,2018,9:227.[22]ROMERO C,VILANOVA S,BURGOS L,et al.Analysis of the S-locus structure in Prunus armeniaca L.identification of S-haplotype specific S-RNase and F-box genes[J].Plant Molecular Biology,2004,56(1):145-157.[23]成建红,李天忠,韩振海,等.花粉特异F-box基因及其表达产物可能参与的SCF途径[J].植物生理学通讯,2005,41(1):90-94.[24]成建红,白松龄,韩振海,等.樱桃自交不亲和S9-单元型特异的F-box基因克隆及其表达分析[J].中国农业科学,2006,39(5):976-983.[25]吴能表.甘蓝自交不亲和性引起的蛋白质磷酸化及其相关特征研究[D].重庆:西南农业大学,2003.[26]乌云塔娜.中国白梨自交不亲和基因的分离鉴定[D].长沙:中南林学院,2003.[27]姚婷,张开春,闫国华,等.欧李离体叶片再生体系的建立[J].果树学报,2012,29(4):589-592.

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Last Update: 2019-12-30