Morphological development of the fungal pathogen Candida albicans is profoundly affected by ambient pH. Acidic pH restricts growth to the yeast form, whereas neutral pH permits development of the filamentous form. Superimposed on the pH restriction is a temperature requirement of approximately 37 degrees C for filamentation. The role of pH in development was investigated by selecting revertants of phr2Delta mutants that had gained the ability to grow at acid pH. The extragenic suppressors in two independent revertants were identified as nonsense mutations in the pH response regulator RIM101 (PRR2) that resulted in a carboxy-terminal truncation of the open reading frame. These dominant active alleles conferred the ability to filament at acidic pH, to express PHR1, an alkaline-expressed gene, at acidic pH, and to repress the acid-expressed gene PHR2. It was also observed that both the wild-type and mutant alleles could act as multicopy suppressors of the temperature restriction on filamentation, allowing extensive filamentation at 29 degrees C. The ability of the activated alleles to promote filamentation was dependent upon the developmental regulator EFG1. The results suggest that RIM101 is responsible for the pH dependence of hyphal development.

译文

:真菌病原体白色念珠菌的形态发育受到环境pH的深刻影响。酸性pH限制了酵母形式的生长,而中性pH允许形成丝状形式。在pH限制上叠加了长丝所需的温度约为37摄氏度。通过选择具有在酸性pH条件下生长能力的phr2Delta突变体的回复株,研究了pH在发育中的作用。在两个独立回复子中的外源抑制剂被鉴定为pH响应调节剂RIM101(PRR2)中的无意义突变,导致开放阅读框的羧基末端被截断。这些占优势的活性等位基因赋予了在酸性pH下发丝,表达PHR1(在碱性pH下表达碱性表达的基因)和抑制酸性表达基因PHR2的能力。还观察到,野生型和突变型等位基因均可以充当丝状体温度限制的多拷贝抑制剂,从而允许在29摄氏度下广泛地丝状化。活化的等位基因促进丝状体形成的能力取决于发育调节剂EFG1。结果表明RIM101负责菌丝发育的pH依赖性。

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