Reconstitution of plant nitrate reductase by Escherichia coli extracts and the molecular cloning of the chlA gene of Escherichia coli K12.

Journal of molecular and applied genetics Pub Date : 1983-01-01
J L Taylor, J R Bedbrook, F J Grant, A Kleinhofs
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Abstract

Extracts from Escherichia coli, wild type and chlB, chlC, chlD, chlE, and chlG, but not chlA mutants, were able to reconstitute the nitrate reductase activity in Nicotiana tabacum cnx68 and Hyoscyamus muticus MA-2 mutant extracts. Because cnx68 and MA-2 lack the molybdenum cofactor required for nitrate reductase activity, these results indicate that the functional chlA gene is essential to produce the molybdenum cofactor in E. coli. A clone containing a gene capable of complementing the chlA mutation SA493 was obtained on a large cosmid pJT1. A 1.9 kb BclI fragment subcloned from pJT1 in the vector plasmid pBR322 was shown to complement the chlA SA493 mutant when inserted in either of the two possible orientations. This suggested that the chlA gene was contained intact, including its own promoter, on the 1.9 kb BclI fragment.

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用大肠杆菌提取物重构植物硝酸还原酶和大肠杆菌 K12 的 chlA 基因的分子克隆。
大肠杆菌野生型、chlB、chlC、chlD、chlE 和 chlG 的提取物,而不是 chlA 突变体的提取物,能够重建烟草 cnx68 和蕙兰 MA-2 突变体提取物中硝酸还原酶的活性。由于 cnx68 和 MA-2 缺乏硝酸还原酶活性所需的钼辅助因子,这些结果表明,功能性 chlA 基因对于在大肠杆菌中产生钼辅助因子至关重要。在一个大的宇宙片 pJT1 上获得了一个克隆,该克隆含有一个能够补充 chlA 突变 SA493 的基因。将 pJT1 中的 1.9 kb BclI 片段亚克隆到载体质粒 pBR322 中,结果表明,当以两种可能的方向中的任何一种插入时,都能与 chlA SA493 突变体互补。这表明在 1.9 kb BclI 片段中含有完整的 chlA 基因,包括其自身的启动子。
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Journal of molecular and applied genetics
Journal of molecular and applied genetics
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