Hayer Kimran, Stratford Malcolm, Archer David B
School of Life Sciences, University of Nottingham, University Park, Nottingham, United Kingdom.
School of Life Sciences, University of Nottingham, University Park, Nottingham, United Kingdom
Appl Environ Microbiol. 2014 Oct;80(19):6046-53. doi: 10.1128/AEM.01078-14. Epub 2014 Jul 25.
Conidial germination is fundamentally important to the growth and dissemination of most fungi. It has been previously shown (K. Hayer, M. Stratford, and D. B. Archer, Appl. Environ. Microbiol. 79:6924-6931, 2013, http://dx.doi.org/10.1128/AEM.02061-13), using sugar analogs, that germination is a 2-stage process involving triggering of germination and then nutrient uptake for hyphal outgrowth. In the present study, we tested this 2-stage germination process using a series of nitrogen-containing compounds for the ability to trigger the breaking of dormancy of Aspergillus niger conidia and then to support the formation of hyphae by acting as nitrogen sources. Triggering and germination were also compared between A. niger and Aspergillus nidulans using 2-deoxy-D-glucose (trigger), D-galactose (nontrigger in A. niger but trigger in A. nidulans), and an N source (required in A. niger but not in A. nidulans). Although most of the nitrogen compounds studied served as nitrogen sources for growth, only some nitrogen compounds could trigger germination of A. niger conidia, and all were related to L-amino acids. Using L-amino acid analogs without either the amine or the carboxylic acid group revealed that both the amine and carboxylic acid groups were essential for an L-amino acid to serve as a trigger molecule. Generally, conidia were able to sense and recognize nitrogen compounds that fitted into a specific size range. There was no evidence of uptake of either triggering or nontriggering compounds over the first 90 min of A. niger conidial germination, suggesting that the germination trigger sensors are not located within the spore.
分生孢子萌发对于大多数真菌的生长和传播至关重要。先前已表明(K. 海耶、M. 斯特拉特福和D. B. 阿彻,《应用与环境微生物学》79:6924 - 6931,2013,http://dx.doi.org/10.1128/AEM.02061 - 13),使用糖类类似物发现,萌发是一个两阶段过程,包括萌发的触发以及随后为菌丝生长进行的养分吸收。在本研究中,我们使用一系列含氮化合物测试了这个两阶段萌发过程,以探究其触发黑曲霉分生孢子休眠打破的能力,然后作为氮源支持菌丝的形成。还使用2 - 脱氧 - D - 葡萄糖(触发剂)、D - 半乳糖(在黑曲霉中不是触发剂,但在构巢曲霉中是触发剂)和一种氮源(黑曲霉需要但构巢曲霉不需要)比较了黑曲霉和构巢曲霉之间的触发和萌发情况。尽管所研究的大多数氮化合物作为生长的氮源,但只有一些氮化合物能触发黑曲霉分生孢子的萌发,并且所有这些都与L - 氨基酸有关。使用没有胺基或羧基的L - 氨基酸类似物表明,胺基和羧基对于L - 氨基酸作为触发分子都是必不可少的。一般来说,分生孢子能够感知并识别适合特定大小范围的氮化合物。在黑曲霉分生孢子萌发的最初90分钟内,没有证据表明触发或非触发化合物被吸收,这表明萌发触发传感器不在孢子内。