米曲霉atfB编码一种分生孢子中应激耐受性所需的转录因子。

Aspergillus oryzae atfB encodes a transcription factor required for stress tolerance in conidia.

作者信息

Sakamoto Kazutoshi, Arima Toshi-hide, Iwashita Kazuhiro, Yamada Osamu, Gomi Katsuya, Akita Osamu

机构信息

National Research Institute of Brewing, 3-7-1 Kagamiyama, Higashihiroshima, Hiroshima, Japan.

出版信息

Fungal Genet Biol. 2008 Jun;45(6):922-32. doi: 10.1016/j.fgb.2008.03.009. Epub 2008 Mar 25.

DOI:10.1016/j.fgb.2008.03.009

PMID:18448366

Abstract

Using an Aspergillus oryzae EST database, we identified a gene encoding a transcription factor (atfB), which is a member of the ATF/CREB family. Expression of atfB was barely detectable during vegetative growth, but was readily detected during conidiation in solid-state culture. Microarray analyses showed that expression of many other genes, including catalase (catA), were downregulated in an atfB-disruptant. The expression of most of these genes was upregulated in the wild-type strain during the conidiation phase in solid-state culture, and the expression pattern was similar to that of atfB itself. In the absence of stress, e.g. heat-shock or hydrogen peroxide, the conidial germination ratios for the DeltaatfB strain and the wild-type strain were similar, but the stress tolerance of conidia carrying the DeltaatfB deletion was less than that of the wild-type conidia. CRE-like DNA motifs, which are bound by ATF/CREB proteins, were found in the promoters of most of the downregulated genes in the DeltaatfB strain. Thus, atfB appears to encode a transcription factor required for stress tolerance in conidia.

摘要

利用米曲霉EST数据库，我们鉴定出一个编码转录因子（atfB）的基因，它是ATF/CREB家族的成员之一。在营养生长阶段，atfB的表达几乎检测不到，但在固态培养产孢过程中则很容易被检测到。微阵列分析表明，包括过氧化氢酶（catA）在内的许多其他基因的表达在atfB缺失突变体中被下调。在固态培养的产孢阶段，这些基因中的大多数在野生型菌株中表达上调，并且表达模式与atfB自身相似。在没有热休克或过氧化氢等胁迫的情况下，ΔatfB菌株和野生型菌株的分生孢子萌发率相似，但携带ΔatfB缺失的分生孢子的胁迫耐受性低于野生型分生孢子。在ΔatfB菌株中大多数下调基因的启动子中发现了与ATF/CREB蛋白结合的CRE样DNA基序。因此，atfB似乎编码分生孢子胁迫耐受性所需的转录因子。

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米曲霉atfB编码一种分生孢子中应激耐受性所需的转录因子。

Aspergillus oryzae atfB encodes a transcription factor required for stress tolerance in conidia.

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