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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2020年09

Page:

131-139

Research Field:

Publishing date:

Info

Title:

Establishment and Optimization of AFLP Molecular Marker Technology System of Meconopsis punicea

Author(s):

OU Zhi; YAN Pengfei; ZHANG Yingxin; JIA Weijia; QU Yan

(College of Landscape Architecture and Horticulture Sciences,Southwest Forestry University/Southwest Landscape Architecture Engineering Research Center of State Forestry Administration/Provincial Key Laboratory of Ornamental Plants and Horticulture,Kunming,Yunnan 650224)

Keywords:

Meconopsis punicea; AFLP; system of establishment and optimization

PACS:

-

DOI:

10.11937/bfyy.20192991

Abstract:

The Meconopsis puniceawas used as template in this study.Used orthogonal experimental design,the effect of relevant factors such as the digestion time,the amount of Mg2+,the amount of dNTPS,and the template DNA dilution factor on the AFLP reaction system were studied.The goal was to establish an AFLP reaction system suitable for M.punicea and screen 64 pairs of AFLP primers with the optimized system.The results showed that the clear bands could be obtained through the established AFLP reaction system,and 8 pairs of primer combinations suitable for AFLP analysis of M.punicea were screened by using this system.This study provided a certain reference for future genetic diversity analysis and germplasm identification of AFLP markers in M.Vig.

References:

[1]屈燕,区智.绿绒蒿属植物国内外研究进展[J].北方园艺,2012(2):191-194.[2]吴征镒,庄璇.绿绒蒿属分类系统的研究[J].云南植物研究,1980(4):371-381.[3]庄璇.绿绒蒿属的系统演化及地理分布[J].云南植物研究,1981(2):139-146.[4]刘玉珊,高兰阳,王辉,等.红花绿绒蒿的研究现状[J].现代园艺,2012(6):14-15.[5]吴扬,邓婷婷,李娟,等.黄金茶种质资源遗传多样性的AFLP分析[J].茶叶科学,2013,33(6):526-531.[6]吴妙丽.竹亚科的系统发育与叶绿体基因组进化[D].福州:福建农林大学,2016.[7]卢毅军.蜡梅属系统发育及蜡梅栽培起源研究[D].杭州:浙江大学,2013.[8]杨旭,吴德智,袁伟,等.基于AFLP的茶花种质资源遗传多样性研究[J].江苏农业科学,2018,46(3):99-102,111.[9]ABDALLA A,REDDY O,EL-ZIK K.et al.Genetic diversity and relationships of diploid and tetraploid cottons revealed using AFLP[J].Theor Appl Genet,2001,102(2),222-229.[10]LI S W,WEI F C,DU J,et al.Genetic diversity and spread of Lissorhoptrus oryzophilus (Coleoptera:Curculionidae) in China,based on amplified fragment length polymorphism[J].Journal of Asia-Pacific Entomology,2017,20(3):935-941.[11]DANG Z G,CHEN Y Y.Construction of a genetic linkage map of mango based on SRAP,AFLP and ISSR markers[J].Agricultural Biotechnology,2017,6(6):9-12,16.[12]胡普炜,段磊,王美娜,等.基于AFLP分析的伯乐树(Bretschneidera sinensis)谱系地理学研究[J].植物科学学报,2017,35(6):815-824.[13]刘洋,王凯玺,张宁,等.优化的黍子(Panicum miliaceum L.)AFLP分子标记体系及其在真伪杂交种鉴定中的应用[J].分子植物育种,2016,14(8):2133-2138.[14]何正文,刘运生,陈立华,等.正交设计直观分析法优化PCR条件[J].湖南医科大学学报,1998(4):76-77.[15]赵凤,张和新歌,白睿峰,等.藏药多刺绿绒蒿的化学和药理学研究进展[J].中国中药杂志,2017,42(19):3676-3683.[16]吴海峰,宋志军,朱华结,等.藏药红花绿绒蒿的化学成分[J].天然产物研究与开发,2011,23(2):202-207.[17]倪梁红,赵志礼,孟千万,等.ITS和psbA-trnH序列鉴别绿绒蒿属藏药植物[J].中草药,2014,45(4):541-545.[18]贺水莲,吴红芝,孟静,等.应用DNA条形码鉴定滇西北4种传统藏药绿绒蒿[J].西部林业科学,2017,46(5):1-5,12.[19]屈燕,赵琬玥,区智,等.绿绒蒿属藏药植物ndhF和rbcL序列片段特征分析[J].中南林业科技大学学报,2018,38(6):84-89.[20]赵琬玥,冷秋思,熊健,等.全缘叶绿绒蒿ISSR体系的建立与优化[J].北方园艺,2018(13):80-86.[21]熊健,屈燕,冷秋思,等.绿绒蒿SSR-PCR反应体系的建立与优化[J].江苏农业科学,2019,47(8):60-63.[22]赵琬玥.全缘叶绿绒蒿的ISSR和SSR遗传多样性研究[D].昆明:西南林业大学,2018.[23]孙允东,王建民,郝小静,等.AFLP和SSR技术简介及比较[J].山东畜牧兽医,2002(2):32-33.[24]杨春勇,李海涛,李学兰,等.栽培沉香遗传多样性的ISSR和AFLP分析比较[J].植物遗传资源学报,2013,14(3):553-559.[25]GUO J L,ZHANG X Y,ZHANG J W,et al.Genetic diversity of Meconopsis integrifolia (Maxim.) Franch.In the East Himalaya-Hengduan Mountains inferred from fluorescent amplified fragment length polymorphism analysis[J].Biochemical Systematics and Ecology,2016,69(12):67-75.

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Last Update: 2020-07-24