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构巢曲霉中漆酶水平的发育调控

Developmental regulation of laccase levels in Aspergillus nidulans.

作者信息

Law D J, Timberlake W E

出版信息

J Bacteriol. 1980 Nov;144(2):509-17. doi: 10.1128/jb.144.2.509-517.1980.

DOI:10.1128/jb.144.2.509-517.1980
PMID:7000747
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC294697/
Abstract

Asexual spores (conidia) of Aspergillus nidulans contain a dark green pigment which is not present in other cell types. Synthesis of this pigment is catalyzed, in part, by a developmentally controlled p-diphenol oxidase, or laccase, encoded at the gamma A genetic locus (A. J. Clutterbuck, J. Gen. Microbiol. 70:423-435, 1972). We have investigated the mechanisms regulating expression of the gamma A gene of A. nidulans. Vegetative hyphae grown in submerged culture lacked detectable laccase enzyme activity and neither contained nor synthesized immunoprecipitable laccase protein. When such cultures were induced to conidiate by harvesting the cells onto filter papers and aerating them, laccase levels began to increase after 10 to 16 h, reached a peak at 20 to 36 h, and then declined slowly. Immunological assays showed that increases in laccase enzyme activity were (i) proceded by a transient rise in the relative rate of laccase protein synthesis and (ii) closely paralleled by increases in the amount of laccase protein. Addition of cycloheximide to cultures at any time after inducing conidiation inhibited further accumulation of laccase enzyme activity. These data are most consistent with increases in laccase levels being due to regulated, de novo synthesis of laccase protein. Addition of inhibitors of ribonucleic acid synthesis to conidiating cultures also inhibited further accumulation of laccase, suggesting that laccase expression is regulated by alterations in the transcriptional activity of the gamma A locus.

摘要

构巢曲霉的无性孢子(分生孢子)含有一种深绿色色素,这种色素在其他细胞类型中不存在。这种色素的合成部分由一种受发育调控的对二酚氧化酶或漆酶催化,该酶由γA基因座编码(A. J. 克拉特巴克,《普通微生物学杂志》70:423 - 435,1972)。我们研究了构巢曲霉γA基因表达的调控机制。在深层培养中生长的营养菌丝缺乏可检测到的漆酶活性,既不含有也不合成可免疫沉淀的漆酶蛋白。当通过将细胞收获到滤纸上并通气诱导这些培养物产生分生孢子时,漆酶水平在10至16小时后开始增加,在20至36小时达到峰值,然后缓慢下降。免疫分析表明,漆酶活性的增加:(i)在漆酶蛋白合成相对速率短暂上升之后;(ii)与漆酶蛋白量的增加密切平行。在诱导分生孢子形成后的任何时间向培养物中添加环己酰亚胺会抑制漆酶活性的进一步积累。这些数据最符合漆酶水平的增加是由于漆酶蛋白的调控性从头合成这一观点。向产生分生孢子的培养物中添加核糖核酸合成抑制剂也会抑制漆酶的进一步积累,这表明漆酶的表达受γA基因座转录活性变化的调控。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8c66/294697/9566c1197e11/jbacter00572-0034-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8c66/294697/a068b0fe2f66/jbacter00572-0032-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8c66/294697/9566c1197e11/jbacter00572-0034-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8c66/294697/a068b0fe2f66/jbacter00572-0032-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8c66/294697/9566c1197e11/jbacter00572-0034-a.jpg

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