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Chloroplast-coded atrazine resistance in Solanum nigrum: psbA loci from susceptible and resistant biotypes are isogenic except for a single codon change.

机译：黑茄中叶绿体编码的阿特拉津抗性：易感和抗性生物型的psbA位点是同基因的除了单个密码子变化。

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摘要

The 32-kDa photosystem II protein of the chloroplast is thought to be a target molecule for the herbicide atrazine. The psbA gene coding for this protein was cloned from Solanum nigrum atrazine-susceptible ('S') and atrazine-resistant ('R') biotypes. The 'S' and 'R' genes are identical in nucleotide sequence except for an A to G transition, predicting a Ser to Gly change at codon 264. The same predicted amino acid change in psbA was previously shown for an Amaranthus hybridus 'S' and 'R' biotypes which had, in addition, two silent nucleotide changes between the genes (Hirschberg, J. and McIntosh, L., Science 222, 1346-1349, 1983). Occurrence of the identical, non-silent change in psbA in different 'S' and 'R' weed biotype pairs suggests a functional, herbicide-related role for this codon position.

机译：叶绿体的32 kDa光系统II蛋白被认为是除草剂at去津的目标分子。编码该蛋白的psbA基因从茄茄阿特拉津敏感性（'S'）和阿特拉津抗性（'R'）生物型中克隆。除了从A到G的过渡外，“ S”和“ R”基因的核苷酸序列相同，这预示着264位密码子处Ser到Gly的变化。先前针对A菜“ S”显示了psbA中相同的预测氨基酸变化。和“ R”生物型，它们在基因之间另外具有两个沉默的核苷酸变化（Hirschberg，J。和McIntosh，L.，Science 222，1346-1349，1983）。在不同的“ S”和“ R”杂草生物型对中，psbA发生相同，非沉默的变化，表明该密码子位置具有与除草剂相关的功能。

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期刊名称 Nucleic Acids Research
作者
P Goloubinoff; M Edelman; R B Hallick;
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作者单位

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年(卷),期 1984(12),24
年度 1984
页码 9489–9496
总页数 8
原文格式 PDF
正文语种
中图分类分子生物学;
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专利

1. Chloroplast-coded atrazine resistance in Solanum nigrum: psbA loci from susceptible and resistant biotypes are isogenic except for a single codon change [J] . Marvin Edelman, Pierre Goloubinoff, Richard B. Hallick Nucleic acids research . 1984,第24期

机译：黑茄中叶绿体编码的阿特拉津抗性：易感和抗性生物型的psbA位点是同基因的，除了单个密码子改变
2. The Emergence of a Atrazine Resistant Black Nightshade (Solanum nigrum L.) Biotype and Molecular Basis of the Resistance [J] . JAROSLAV SáLAVá, DANIELA CHODOVA, KATErINA NOVáKOVá Plant Protection Science . 2004,第3期

机译：抗阿特拉津的黑色茄属植物（Solanum nigrum L.）生物型的产生及其抗性的分子基础
3. The emergence of a atrazine resistant black nightshade (Solanum nigrum L.) biotype and molecular basis of the resistance [J] . Chodová D., Nováková K.:, Salava J. Plant Protection Science . 2004,第2004期

机译：抗阿特拉津的黑色茄属植物（Solanum nigrum L.）生物型的出现和耐药性的分子基础
4. PROBING THE MOLECULAR NATURE OF THE PSII HERBICIDE BINDING SITE IN ATRAZINE-SUSCEPTIBLE AND ATRAZINE-RESISTANT BRASSICA BIOTYPES [C] . J.N. Phillips, J.L. Huppatz International Congress of Pesticide Chemistry . 1986

机译：探讨含尿嘧啶易受尿布芸苔生物型的PSII除草剂结合位点的分子性质
5. Reduction of Nitrate and Nitrite in Lambsquarters (Chenopodium album) Biotypes Resistant and Susceptible to Atrazine Toxicity [O] . John M. Lawrence, Robert J. Foster, Hedwig E. Herrick 1980

机译：对La草毒性和抗药性的羔羊硝酸盐和亚硝酸盐的减少
6. Chloroplast-coded atrazine resistance in Solanum nigrum: psbA loci from susceptible and resistant biotypes are isogenic except for a single codon change. [O] . Goloubinoff, P, Edelman, M, Hallick, R B 1984

机译：龙葵中叶绿体编码的阿特拉津抗性：易感和抗性生物型的psbA位点是同基因的，除了单个密码子变化。

Chloroplast-coded atrazine resistance in Solanum nigrum: psbA loci from susceptible and resistant biotypes are isogenic except for a single codon change.

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