|Table of Contents|

Molecular Identification of Hybrids between Prunus fruticosa and Prunus pseudocerasus by SRAP Method(PDF)

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2012年01期
Page:
116-119
Research Field:
Publishing date:

Info

Title:
Molecular Identification of Hybrids between Prunus fruticosa and Prunus pseudocerasus by SRAP Method
Author(s):
WANG JingZHANG Xiao-mingYAN Guo-huaZHOU YuZHANG Kai-chun
Institute of Forestry and Pomology,Beijing Academy of Agricultural and Forestry Sciences,Beijing 100093
Keywords:
Prunus fruticosa Prunus pseudocerasus (Duiying) SRAP hybrid identification
PACS:
S 662.5
DOI:
-
Abstract:
Prunus fruticosa Pal1. had the advantages in cold, drought, pest and disease resistance. Prunus pseudocerasus Lind1. cv. Duiying is a Prunus pseudocerasus vairety adaptable to Beijing environment. Hybridizations between Prunus fruticosa and Prunus pseudocerasus (Duiying) were done in 2005 and 2006 respectively to breed stress tolerant cherry stock for Beijing and North China area. Total 17 hybrids were obtained. The truth of the 17 hybrids were identified by SRAP. In addition, cluster analysis results showed that more genetic substances were from Prunus fruticosa than Prunus pseudocerasus in 17 hybrids.

References:

[1]杨凤军,李宝江.草原樱桃花粉特性及其授粉试验[J].北方园艺,2005(3):69-70.

2]闫国华,张开春,周宇,等.中国樱桃‘对樱桃’不定根离体再生植株的研究[J].园艺学报,2003,30(5):583-585.
[3]Li G,Quiros C F.Sequence-related amplified polymorphism (SRAP), a new marker system based on a simple PCR reaction: it’s application to mapping and gene tagging in Brassica[J].Theor Appl Genet,2001,103:455-46l.
[4]Ferriol M,Pico B,Nuez F.Genetic diversity of a germplasm collection of Cucubita pepo using SRAP and AFLP markers [J].Theor Appl Genet,2003,107(2):271-282.
[5]Ferriol M,Pico B,Nuez F.Genetic diversity of Some accession of Cucubita maxima from Spain using RAPD and SBAP markers[J]. Genetic Resources and Crop Evolution,2003,50(3):227-238.
[6]Ferriol M,Pico B,Pascual F.Molecular diversity of a germplasm collection of squash(Cucurbita moschata)determined by SRAP and AFLP marker[J].Crop Science,2004,44:653-664.
[7]王关林,方宏筠.植物基因工程[M].2版.北京:科学出版社,2002: 742-744.
[8]耿广东,张素勤,贾开家,等.提莫菲维小麦与葡萄牙野燕麦远缘杂交后代的SRAP分析[J].华北农学报,2010,25(1):110-112.
[9]陈罡,关明东,叶景丰,等.杨树SRAP-PCR反应体系的建立与优化[J].北方园艺,2010(16):132-134.
[10]李爱贤,刘庆昌,王庆美,等.利用SRAP标记构建甘薯分子连锁图谱[J].作物学报,2010,36(8):1286-1295.
[11]路娟,张绍铃,刘庆忠,等.樱桃SRAP-PCR体系优化及其遗传多样性分析[J].果树学报,2009,26(2):163-169.
[12]睢薇,丁晓东,霍俊伟,等.草原樱桃与欧洲甜樱桃远缘杂交不亲和原因初探[J].东北农业大学学报,1999,30(2):148-153.
[13]蔡宇良,李珊,曹东伟,等.利用DNA扩增片段序列对樱桃种质资源的遗传分析[J].园艺学报,2006,33(2):249-254.
[14]王金龙,杨弘,吴婷婷,等.奥利亚罗非鱼(♀)×鳜(♂)远缘杂交子代的遗传结构[J].中国水产科学,2007,14(1):32-38.
[15]涂玉琴,孙建,葛贤宏,等.芥蓝与菘蓝族间原生质体融合及杂种愈伤分析[J].中国油料作物学报,2009,31(4):522-526.
[16]史永忠,邓秀新.柑桔原生质体融合再生叶肉亲本型植株的遗传分析[J].遗传学报,1999,26(3):244-248.
[17] Song K,Lu P,Tang K,et al.Rapid genome change in synthetic polyploids of Brassicaand its implications for polyploidy evolution[J].Proc Natl Acad Sci,1995,92:7719-7723.
[18]Liu B,Wendel J F. Epigenetic phenomena and the evolu-tion of plantal lopolyploids[J].Mol. Phyl. Evo.,2003, 29:365-379.
[19]Ma X F,Gustafson J P.Genome evolution of polyploids:a process of cytological and genetic diploidization[J].Cytogenet Genome Res.,2005,109:236-249.
[20]Madlung A,Comai L. The effect of stress on genome regulation and structure [J]. Ann. Bot.,2004, 94:481-495.

Memo

Memo:
-
Last Update: 2014-08-23