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PAC1,一种来自轮枝镰孢菌的pH调节基因。

PAC1, a pH-regulatory gene from Fusarium verticillioides.

作者信息

Flaherty Joseph E, Pirttilä Anna Maria, Bluhm Burton H, Woloshuk Charles P

机构信息

Department of Botany and Plant Pathology, Purdue University, West Lafayette, Indiana 47907, USA.

出版信息

Appl Environ Microbiol. 2003 Sep;69(9):5222-7. doi: 10.1128/AEM.69.9.5222-5227.2003.

DOI:10.1128/AEM.69.9.5222-5227.2003
PMID:12957906
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC194909/
Abstract

Fumonisins are a group of mycotoxins that contaminate maize and cause leukoencephalomalacia in equine, pulmonary edema in swine, and promote cancer in mice. Fumonisin biosynthesis in Fusarium verticillioides is repressed by nitrogen and alkaline pH. We cloned a PACC-like gene (PAC1) from F. verticillioides. PACC genes encode the major transcriptional regulators of several pH-responsive pathways in other filamentous fungi. In Northern blot analyses, a PAC1 probe hybridized to a 2.2-kb transcript present in F. verticillioides grown at alkaline pH. A mutant of F. verticillioides with a disrupted PAC1 gene had severely impaired growth at alkaline pH. The mutant produced more fumonisin than the wild type when grown on maize kernels and in a synthetic medium buffered at an acidic pH, 4.5. The mutant, but not the wild type, also produced fumonisin B(1) when mycelia were resuspended in medium buffered at an alkaline pH, 8.4. Transcription of FUM1, a gene involved in fumonisin biosynthesis, was correlated with fumonisin production. We conclude that PAC1 is required for growth at alkaline pH and that Pac1 may have a role as a repressor of fumonisin biosynthesis under alkaline conditions.

摘要

伏马菌素是一类污染玉米的霉菌毒素,可导致马患白质软化症、猪患肺水肿,并可促进小鼠患癌。轮枝镰孢菌中伏马菌素的生物合成受氮和碱性pH值的抑制。我们从轮枝镰孢菌中克隆了一个类PACC基因(PAC1)。PACC基因编码其他丝状真菌中几种pH响应途径的主要转录调节因子。在Northern印迹分析中,PAC1探针与在碱性pH值下生长的轮枝镰孢菌中存在的一个2.2 kb转录本杂交。一个PAC1基因被破坏的轮枝镰孢菌突变体在碱性pH值下生长严重受损。该突变体在玉米粒上以及在pH值为4.5的酸性缓冲合成培养基中生长时,产生的伏马菌素比野生型更多。当菌丝体重悬于pH值为8.4的碱性缓冲培养基中时,该突变体而非野生型也产生伏马菌素B(1)。参与伏马菌素生物合成的FUM1基因的转录与伏马菌素的产生相关。我们得出结论,PAC1是碱性pH值下生长所必需的,并且Pac1在碱性条件下可能作为伏马菌素生物合成的抑制因子发挥作用。

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