[1]郑翠明常汝镇邱丽娟李玉清郭蓓.利用RAPD技术分析野生大豆×栽培大豆后代品系遗传组成[J].大豆科学,2000,19(02):97-104.[doi:10.11861/j.issn.1000-9841.2000.02.0097]
 Zheng CuimingChang RuzhenQiu LijuanLi YuqingGuo Pei.RAPD ANALYSIS OF THREE SOYBEAN LINES FROMTHE CROSS OF ( Glycine soja× Glycine max ) × G. max[J].Soybean Science,2000,19(02):97-104.[doi:10.11861/j.issn.1000-9841.2000.02.0097]
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利用RAPD技术分析野生大豆×栽培大豆后代品系遗传组成

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第19卷 期数: 2000年02期 页码: 97-104 栏目: 出版日期: 2000-05-25
Title:
RAPD ANALYSIS OF THREE SOYBEAN LINES FROMTHE CROSS OF ( Glycine soja× Glycine max ) × G. max
作者:
郑翠明1常汝镇1邱丽娟1李玉清2郭蓓1
1.中国农业科学院作物品种资源研究所北京100081;?
2. 河北省承德市农业科学研究所
Author(s):
Zheng Cuiming1 Chang Ruzhen1 Qiu Lijuan1 Li Yuqing2 Guo Pei1
1. Inst itute of Crop Germplasm Resources, CA AS , Bei jing 100081, China;
2. Institute of Agricul tural Science in Chengde City , Hebei Prov ince
关键词:
大豆品系 野生大豆 栽培大豆 RAPD
Keywords:
Soy bean lines Glycine soja × Gl ycine max RAPD markers
DOI:
10.11861/j.issn.1000-9841.2000.02.0097
文献标志码:
A
摘要:
本研究通过对育成品系及亲本DN A组成位点的分析,探讨亲本遗传物质在后代中所占的比例,为大豆育种提供理论指导。本研究所用的三个优良品系8702- 2- 4、8702- 2- 8、8650- 1- 4是从种间杂交组合{ (固新野生大豆( P1 ) (承豆1号( P2 ) (通交81- 1543( P3 ) } 选育出的。前2个姊妹系是在组合( P1× P2 ) 的F2 代用P3 进行回交选育成的, 8650- 1- 4是在组合( P1× P2 ) 的F1 代用P3 回交选育成的。用79个引物进行RAPD分析亲本及后代品系细胞核DN A,其中15个引物在亲本间具有多态性,这15个引物总扩增位点121个, P1、P2、P3的特异位点数分别是19、4、9个,表明野生大豆的遗传基础丰富。8702- 2- 4具有P1、P2、P3 的特异位点数分别是2、2、5个。8702- 2- 8具有P1、P2、P3 的特异位点数分别为1、2、8个,农艺性状表现更象P3 ,如荚熟色、褐斑率。8650- 1- 4具有P1、P2、P3 的特异位点数分别为11、1、2个, 在农艺性状上更多的继承了野生大豆的遗传特点,如多荚、多分枝。证明RAPD技术对于研究亲本和后代遗传关系是有效的。另外,亲本的一些特异位点在后代中加强,可能与杂种优势有关,但有待于进一步研究。
Abstract:
Three soybea n eli te lines( 8650- 1- 4 a nd 8702- 2- 4, 8702- 2- 8) w asdev elo ped by using Gly cine soja as female parent and Glycine max as male parent. 8650- 1- 4 was dev elo ped by backcrossing o f To ng jiao 81- 1543 wi th F1 o f ( G. so ja ×Chengdou No. 1) , and 8702- 2- 4, 8702- 2- 8 w ere dev eloped by backcrossing ofTongjiao 81 - 1543 wi th F2 o f ( G. soja × Cheng do u No. 1) . Parental and prog enynuclear DN A w as analy sised by RAPD method. A total o f 79 primers were a naly zedw ith parent s, fi f teen of w hich w ere po lymo rphic betw een parents. Using these 15primers, G. Soja amplified 19 special loci, 4 in Cheng dou a nd 9 in To ng jiaorespectiv ely , which indica tes that genetic backg round of G. soja di ffer f rom G. max .The number of special loci coming from G. so ja , Chengdou No. 1 and Tong jiao 81- 1543is 2, 2 and 5 for 8702- 2- 4; . 1, 2 and 8 fo r 8702- 2- 8; 11, 1 and 2 fo r 8650- 1- 4,respectiv ely. These resul ts w ere in accorda nce wi th their ag ro nomic characterperfo rmance, 8702- 2- 8 w as mo re simila r to Tong jiao 81- 1543 and 8650- 1- 4inheri ted more characters f rom G. soja , w hich indicated tha t RAPD markers i s an usefultoo l to study rela tionship betw een pa rent s and prog enies . In addition , w e also foundsome RAPD loci w ere st ronger in 8702- 2- 4 a nd 8702- 2- 8 than thei r parents, butthe mechani sm i s no t clear.

参考文献/References:

1 王荣昌,大豆栽培种与野生种种间杂交后代遗传变异研究,《中国野生大豆资源研究进展》, 中国农业出版社, 1995

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3 李文滨等,大豆品种间与种间杂种后代农艺性状遗传的比较研究,大豆科学, 1986, 5( 4): 265- 276
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更新日期/Last Update: 2016-12-27