粗糙脉孢菌中精氨酸生物合成的遗传学

Genetics of arginine biosynthesis in Neurospora crassa.

作者信息

Davis R H

出版信息

Genetics. 1979 Nov;93(3):557-75. doi: 10.1093/genetics/93.3.557.

DOI:10.1093/genetics/93.3.557

PMID:161750

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1214098/

Abstract

A large number of arginine-requiring mutants of Neurospora was isolated, using a strain already partially impaired in an enzyme of the pathway. Among the mutants, all previously described loci, except one, were represented, and several new loci were defined and mapped. Four groups of mutants were of particular interest. First, the large group of arg-6 mutants, when tested for intragenic complementation, suggested a bifunctional gene, possibly controlling two steps in ornithine synthesis. This is consistent with the limited enzymic information about this locus. Second, the arg-13 locus was represented by 14 new mutants. All five tested were quite leaky, suggesting that the function controlled by this gene can be carried out to a limited extent spontaneously or by another gene product. Third, a new locus, arg-14, was defined. It controls a step in ornithine syntheses. It lies in a 1 to 2 map-unit interval between arg-2 and pyr-3 on LG IVR, as shown by mapping in relation to translocation breakpoints. Fourth, a second new locus whose mutants render the partial mutation in starting material auxotrophic was defined and mapped near the centromere of LG VIL. These new mutants are unable to derepress enzymes of the pathway and may qualify as regulatory mutants.

摘要

利用一个已经在该途径的一种酶中部分受损的菌株，分离出了大量需要精氨酸的脉孢菌突变体。在这些突变体中，除了一个位点外，所有先前描述的位点都有代表，并且定义和定位了几个新的位点。有四组突变体特别令人感兴趣。第一，大量的arg - 6突变体在进行基因内互补测试时，表明存在一个双功能基因，可能控制鸟氨酸合成中的两个步骤。这与关于该位点的有限酶学信息一致。第二，arg - 13位点有14个新突变体代表。所测试的5个突变体都有相当程度的渗漏，这表明由该基因控制的功能可以在有限程度上自发进行或由另一种基因产物来执行。第三，定义了一个新的位点arg - 14。它控制鸟氨酸合成中的一个步骤。如通过与易位断点的定位所示，它位于LG IVR上arg - 2和pyr - 3之间1到2个图距的区间内。第四，定义并定位了第二个新位点，其突变体使起始材料中的部分突变体成为营养缺陷型，该位点位于LG VIL的着丝粒附近。这些新突变体无法解除该途径中酶的阻遏，可能属于调节突变体。

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J Gen Microbiol. 1965 Apr;39:63-74. doi: 10.1099/00221287-39-1-63.

NEUROSPORA MUTANTS LACKING ORNITHINE TRANSCARBAMYLASE.缺乏鸟氨酸转氨甲酰酶的粗糙脉孢菌突变体。

Genetics. 1964 May;49(5):845-53. doi: 10.1093/genetics/49.5.845.

STRUCTURAL GENE FOR ORNITHINE TRANSCARBAMYLASE IN NEUROSPORA.脉孢菌中鸟氨酸转氨甲酰酶的结构基因。

Genetics. 1963 Nov;48(11):1551-8. doi: 10.1093/genetics/48.11.1551.

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