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不同类型大豆同工酶的研究 被引量:1

ISOZYMIC STUDIES ON DIFFERENT SOYBEAN SPECIES
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摘要 本文系用聚丙烯酰胺凝胶垂直平板电泳方法对不同纬度的野生、半野生及栽培大豆的苹果酸脱氢酶、酸性磷酸酯酶同工酶进行了研究,提出大豆同工酶模式酶谱。G.soja 亚属大豆苹果酸脱氢酶共有6条酶带,酸性磷酸酯酶共有12条酶带。所有材料都出现苹果酸脱氢酶Ⅳ带,反映了遗传的同源性,并可作为 G.soja 亚属大豆的共同酶带。种间酶带出现频率和相对含量分析表明,半野生大豆处于野生大豆和栽培大豆中间,栽培大豆系由野生大豆经过中间类型进化而来。在进化过程中既有原酶带缺失又有新酶带产生,苹果酸脱氢酶Ⅳ带,酸性磷酸酯酶Ⅶ、Ⅷ、Ⅸ带平均相对含量在30°—35°N 最高,说明与地理分布有关。 The polyacrylamidevertical slabgel electrophoresis was used to exame the isozymes of malate dehydrogcnase and acid phosphatase of G.soja, G.gracilis and G.max,grown in 25°N,30°N,35°N,40°N,45°N and 50°N.There are six bands of malate dehydrogenase and twelve of acid phosphatase in G.soja subgenus.Five bands of malate dehydrogenase existed in all kinds of soybeans tested,reflecting the same origin of genetics and can be used as a basical band of G.soja subgenus.The analysis of frequency and relative quantity of isozymic bands of different species showed that the frequency and the relative quantity of G.gracilis were between those of G.soja and G.max,indicating that G.max evolved from G.soja,through G.racilis,while some original bands disappeared and some new bands were produced.The average relative quantity of band Ⅳ of malate dehydrogenase and bands Ⅶ Ⅷ Ⅸ of acid phosphatase were the highest at 30°N and 35°N,which showed that the isozymes was associated with geographic (?)ocation.
作者 张维民 苗以农 徐豹
机构地区 东北师范大学生物系 吉林省农科院大豆所
出处 《吉林农业科学》 CSCD 北大核心 1990年第1期83-87,共5页 Journal of Jilin Agricultural Sciences
基金 国家自然科学基金资助
关键词 大豆 同功酶 研究
分类号 S565.101 [农业科学—作物学]
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  • 1林宝刚,张明龙,张龙.甘蓝型油菜杂种优势和过氧化物酶的关系分析[J].华北农学报,2005,20(4):36-39. 被引量:6
  • 2HIRANO R,NAITO K,FUKUNAGE K,et al. Genetic structure of landraces in foxtail millet (Setaria italica (L.) P. Beauv. ) revealed with transposon display and interpretation to crop evolution of foxtail millet[J]. Genome, 2011,54(6) :498-506.
  • 3DOUST A N,DEVOS K M,GADBERRY M D,et al. Genetic control of branching in foxtail millet[J]. Proc. Natl. Acad. Sci. USA ,2004,101(24):9 045-9 050.
  • 4LAPLANTE J,RAJCAN I,TARDIF F J. Multiple allelic forms of acetohydroxyacid synthase are responsible for herbicide resistance in Setaria viridis[J]. Theor. Appl. Genet. , 2009,119(4) : 577- 85.
  • 5LIJG(李继耕),ZENGMQ(曾孟潜).Studies on isozymes with heterosis in maize[J].遗传,1981,31(6):31-33.
  • 6ZHUYG(朱英国),ZHANGWG(张卫国).Studies on isozymes with heterosis in the seedlings of hybrid rice[J].作物学报,1987,13(2):89-95.
  • 7CAKMAK I, MARSCHNER H. Magnesium deficiency and high light intensity enhance activities of superoxi-dedismutase,aseorbate per- oxidase,and glutathione reductase in bea leave[J]. Plant Physiol. , 1992,98:1 222-1 227.
  • 8BROWN A H D,WEIR B S. Measuring genetic variability in plant population[M]//TANKSLCY S D,ORTON T J. Isozymes in Plant Genetics and Breeding,Part A. Amersterdam:Elsevier Science Publishers,1983:219-239.
  • 9CHAPARRO J X, WEINER D J, MALLEY. Targeted mapping and linkage analysis of morphological,isozyme, and RAPD markers in peach[J]. Theor. Appl. Genet. , 1994, (87) 805- 815.
  • 10SCHUZE J, TESFAYE M, LITJENS R H ,et al. Malate plays a central role in plant nutrition[J]. Plant and Soil, 2002,247:133-139.

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吉林农业科学
1990年 第1期

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