|Table of Contents|

RAPD ANALYSIS OF THREE SOYBEAN LINES FROMTHE CROSS OF ( Glycine soja× Glycine max ) × G. max(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2000年02期
Page:
97-104
Research Field:
Publishing date:

Info

Title:
RAPD ANALYSIS OF THREE SOYBEAN LINES FROMTHE CROSS OF ( Glycine soja× Glycine max ) × G. max
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
Keywords:
Soy bean lines Glycine soja × Gl ycine max RAPD markers
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2000.02.0097
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.

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

2 王振民等,栽培大豆×半野生大豆F1 代优势及其与亲本关系的研究,吉林农业大学学报, 1997, 19( 4): 14- 19
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
4 李莹等,大豆种间杂种后代产量性状的遗传变异,《中国野生大豆资源研究进展》, 中国农业出版社, 1995
5 杨光宇等,栽培大豆( G. max ) × 半野生大豆(G. g raci li s )后代主要农艺性状遗传参数的初步分析, 《中国野生大豆资源研究进展》, 中国农业出版社, 1995
6 陈绍江等,大豆育种过程中亲子遗传关系的RAPD研究初报,东北农业大学学报, 1996, 27( 2): 137- 141
7 林红,野生大豆的利用与优异资源的创新,中国油料, 1996, 18( 4): 70- 72
8 姚振纯,大豆种间杂交新种质遗传潜力评价,大豆科学, 1996, 15( 4): 310- 316
9 李星华,山东主要大豆品系分析,山东农业科学, 1987, 3: 4- 7
10 张国栋,黑龙江省大豆推广品种细胞质来源初步分析,大豆科学, 1987, 6( 5) : 313- 316
11 Ert l , D. S. and Feh r, W. R. Ag ronomi c perf ormance of s oybean g enot ypes f rom Gl ycine max × Gl ycine so jacross es. Crop Science. 1985, 25: 589- 592
12 Rogers and Bendi ch. Theory apply Genet. 1995, 91: 893- 898
13 Bail ey M A, Pod dehi scence of soybean : identi fi cation of quant it ative trai t l oci . J. Hered. 1997, 88: 152- 154
14 Rebetzk e GJ. Genotypic variation f or f at ty acid cont en t in select ed Gl ycine max × G. soja population s cropsci ence. 1997, 37( 5): 1636- 1640
15 Rail oy V, Phy tic acid lev els in s eeds of Gl ycine max× G. So ja as inf luenced by ph osphorus s tatus. Crop Sci ence.1993, 33( 6): 1300- 1305
16 Sun ZQ, A study of apid resi st an t character of wild s oybean. Soybean Sci. 1991, 10( 2): 98- 103

Memo

Memo:
-
Last Update: 2016-12-27