|Table of Contents|

Characterization Analysis of Microsatellite in Chloroplast of Allium mongolicum

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2023年03
Page:
1-7
Research Field:
Publishing date:

Info

Title:
Characterization Analysis of Microsatellite in Chloroplast of Allium mongolicum
Author(s):
WANG Hongxia123LI Wenqi1
(1.College of Ecological Environment and Resources,Qinghai University for Nationalities,Xining,Qinghai 810000;2.Qinghai Provincial Key Laboratory of High Value Utilization of Characteristic Economic Plants,Xining,Qinghai 810000;3.Laboratory of Biotechnology and Analytical Testing,Xining,Qinghai 810000)
Keywords:
Allium mongolicumchloroplastmicrosatellite
PACS:
-
DOI:
10.11937/bfyy.20222346
Abstract:
Taking Allium mongolicum as test material,the chloroplast genome was sequenced by Illumina NovaSep high-throughput sequencing technology,and the chloroplast genome microsatellites were searched and analyzed by using MISA v1.0 software,in order to provide reference for the species identification,population genetics and phylogenetic studies of A.mongolicum.The results showed that a total of 260 SSR sites were detected on the 153 376 bp chloroplast genome sequence of A.mongolicum.One SSR locus occurred per 590 bp on average,mainly distributed in the large copy region.There were 5 repeat types,of which the largest number of single nucleotide repeat type accounted for 66.79%,followed by trinucleotide (23.99%) and the least number of pentanucleotide,accounting for only 0.37%.The cpSSR was 8-29 bp,mainly in the range of 8-10 bp (75.77%),of which 9 cpSSR were 20 bp and above in length,indicating that the cpSSR on the chloroplast genome of A.mongolicum have a high polymorphic potential.

References:

[1]王媛媛,杨美青.蒙古韭叶绿体基因组密码子使用偏好性分析[J].分子植物育种,2021,19(4):1084-1092.[2]张莹花,刘世增,尉秋实,等.蒙古韭(Allium mongolicum)的分布和结实特性[J].中国沙漠,2014,34(2):391-395.[3]侯燕茹.不同居群蒙古韭遗传多样性及其风味品质分析研究[D].呼和浩特:内蒙古农业大学,2021.[4]张美莉,高聚林.蒙古韭生物学特性及营养价值初探[J].内蒙古农业科技,1997(5):26-27.[5]唐式敏.蒙古韭主要生物学特性及生理基础的研究[D].乌鲁木齐:新疆农业大学,2010.[6]斯琴巴特尔,刘新民.蒙古韭的营养成分及民族植物学[J].中国草地,2002(3):53-55.[7]郝丽珍,杨忠仁,王六英,等.三种葱属植物花形态及花药解剖结构观察[J].植物研究,2005(3):277-280.[8]秦丽丽.蒙古韭(Allium mongolicum Regel)遗传多样性研究[D].呼和浩特:内蒙古师范大学,2008.[9]王国庆,聂莹莹,杜广明.蒙古韭种子萌发特性研究[J].当代畜牧,2016(33):69-72.[10]向倩.叶绿体微卫星分析麻疯树的遗传多样性[D].成都:四川农业大学,2010.[11]PROVAN J,POWELL W,HOLLINGSWORTH PM.Chloroplast microsatellites:New tools for studies in plant ecology and evolution[J].Trends Ecol Evol,2001,16(3):142-147.[12]王越.内蒙古10种葱属植物分子系统学研究[D].呼和浩特:内蒙古师范大学,2014.[13]郭元元,陈振东,张力,等.基于NCBI香葱转录组数据库的SSR标记开发[J].分子植物育种,2021,19(20):6767-6781.[14]田保华,王永勤,裴雁曦.应用ITS序列分析葱属植物发育关系[J].山西大学学报(自然科学版),2013,36(2):261-266.[15]BANKEVICH A,NURK S,ANTIPOV D,et al,SPAdes:A new genome assembly algorithm and its applications to single-cell sequencing[J].Computational Biol,2012,19(5):455-477.[16]TILLICH M,LEHWARK P,PELLIZZER T,et al,GeSeq-versatile and accurate annotation of organelle genomes[J].Nucleic Acids Research,2017,45:6-11.[17]张闻婷,焦萌,王继华.药用植物基因组学研究进展[J].广东农业科学,2021,48(12):138-150.[18]邢少辰,CLARKE J,LIU H.叶绿体基因组研究进展[J].生物化学与生物物理进展,2008(1):21-28.[19]莫冰棋,李艺,张骏骁,等.宽叶韭与峨眉韭系统发育及叶绿体基因组密码子偏好分析[J/OL].分子植物育种,(2022-05-21)[2022-02-11],http://kns.cnki.net/kcms/detail/46.1068.S.20220210.1602.004.html.[20]杨新雨,严贤春,侯哲.双荚决明(Senna bicapsularis(L.) Roxb)叶绿体基因组序列分析[J/OL].分子植物育种,(2022-05-21)[2022-03-29],http://kns.cnki.net/kcms/detail/46.1068.s.20220328.1052.006.html.[21]白慧慧,张凯,杜忠毓,等.红砂(Reaumuria songarica)叶绿体基因组解析及系统发育分析[J/OL].分子植物育种,(2022-05-21)[2022-03-07],http://kns.cnki.net/kcms/detail/46.1068.S.20220303.1345.012.html.[22]王仕奇,王倩倩,许晓晨,等.龙船花叶绿体基因组结构与特征分析[J/OL].分子植物育种,(2022-05-21)[2022-02-25],http://kns.cnki.net/kcms/detail/46.1068.S.20220223.1836.019.html.[23]孙志轩,敖平星,毕玉芬,等.‘德钦’紫花苜蓿叶绿体基因组序列及特征分析[J].草地学报,2022,30(2):320-328.[24]靳媛茜,王钰双,高永巍,等.中药女贞子的叶绿体基因组及高变分子标记开发[J].中国中药杂志,2022,47(7):10.[25]石汝杰,张元媛,蒋雪梅,等,铁皮石斛转录组微卫星序列统计分析[J].浙江农业科学,2020,61(11):2241-2244.[26]吴林世,廖菊阳,刘艳,等.基于高通量测序的羊踯躅叶绿体基因组及SSR序列分析[J].经济林研究,2022(1):123-131.[27]任延靖,邵登魁.芜菁叶绿体基因组结构与进化关系分析[J].种子,2022,41(2):59-64,75.[28]CUI Y X.Comparative and phylogenetic analyses of Ginger (Zingiber officinale) in the family zingiberaceae based on the complete chloroplast genome[J].Plants,2019,8(8):283-283.[29]吴东洋,业宁,徐逸卿,等,狗枣猕猴桃叶绿体基因组微卫星特征分析[J].北方园艺,2018(9):30-35.[30]TOTH G,GASPARI Z,JURKA J.Microsatellites in different eukaryotic genomes:Survey and analysis[J].Genome Res,2000,10(7):967-981.[31]童治军,焦芳婵,肖炳光,普通烟草及其祖先种基因组SSR位点分析[J].中国农业科学,2015,48(11):2108-2117.[32]宋琳琳,王豆豆,周晓君.基于高通量测序的大叶铁线莲基因组微卫星特征分析[J].分子植物育种,2022,20(4):1087-1094.[33]LI S X,YIN T M.Map and analysis of microsatellites in the genome of Populus:The first sequenced perennial plant[J].Science in China Series C:Life Sciences,2007,50(5):690-699.[34]乔雨.EMS诱导蒙农红豆草优良突变体筛选及花色变异机理研究[D].呼和浩特:内蒙古农业大学,2020.[35]CHO Y G,LSHII T,TEMNYKHS,et al.Diversity of microsatellites derived from genomic libraries and GenBank sequences in rice (Oryza sativa L.)[J].Theoretical and Applied Genetics,2000,100:713-722.[36]TEMNYKH S,DECLERCK G,LUKASHOVA A,et al.Computational and experimental analysis of microsatellites in rice (Oryza sativa L.) frequency,length variation,transposon associations,and genetic marker potential[J].Genome Res,2001,11(8):1441-1452.[37]YANG Y,JING Z B,RUAN X.F,et al.Development of simple sequence repeat markers in persimmon(Diospyros L.) and their potential use in related species[J].Genetics and Molecular Research,2015,14(1):609-618.[38]陈怀琼,隋春,魏建和.植物SSR引物开发策略简述[J].分子植物育种,2009,7(4):845-851.[39]张利达,唐克轩.植物EST-SSR标记开发及其应用[J].基因组学与应用生物学,2010,29(3):534-541.[40]ZALAPA J E.Using next-generation sequencing approaches to isolate simple sequence repeat (SSR) loci in the plant sciences[J].American Journal of Botany,2012,99(2):193-208.

Memo

Memo:
-
Last Update: 2023-02-21