YIN Yarui,WU Junkai,MA Juze,et al.Identification and Sequence Analysis of S-RNase Genes From Prunus humilis Bunge[J].Northern Horticulture,2019,43(24):28-35.[doi:10.11937/bfyy.20191520]
欧李自交不亲和S-RNase基因型鉴定及序列分析
- Title:
- Identification and Sequence Analysis of S-RNase Genes From Prunus humilis Bunge
- 关键词:
- 欧李; S-RNase基因; 克隆; 自交不亲和性
- Keywords:
- Prunus humilis Bunge; S-RNase gene; cloning; self-incompatibility
- 文献标志码:
- A
- 摘要:
- 以欧李4个品种为试验材料,采用同源克隆的试验方法,克隆S-RNase基因并分析其序列特征,确定不同品种基因型,以期为欧李杂交育种亲本选择提供参考依据。结果表明:克隆鉴定得到5个新的S-RNase基因,编码氨基酸168~172个,相对分子质量为19.87~20.34 kDa,等电点(PI)为9.60~9.73,以丝氨酸磷酸化为主;二级结构主要以α-螺旋和不规则卷曲为主;同源性比对和结构分析表明,5个新的S-RNase均属于RNase T2基因家族,推导的氨基酸序列包含5个保守区(C1、C2、C3、RC4和C5)和1个高变区(HV),具有与李属、梨属、苹果属S-RNase相似的保守结构;进化分析显示欧李S-RNase与李属果树S-RNase聚类在一起,亲缘关系较近。
- 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.
参考文献/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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备注/Memo
第一作者简介:殷亚蕊(1993-),女,硕士研究生,研究方向为果树遗传育种与分子生物学。E-mail:1174932343@qq.com.责任作者:张立彬(1962-),男,硕士,教授,硕士生导师,现主要从事果树遗传育种与分子生物学等研究工作。E-mail:zhanglibin9364@163.com.基金项目:河北省科技计划资助项目(15236802D);国家自然科学基金资助项目(31401853)。收稿日期:2019-07-24