Marczak J E, Brandriss M C
Department of Microbiology and Molecular Genetics, University of Medicine and Dentistry of New Jersey-Graduate School of Biomedical Sciences, Newark 07103.
Mol Cell Biol. 1991 May;11(5):2609-19. doi: 10.1128/mcb.11.5.2609-2619.1991.
The Saccharomyces cerevisiae PUT3 gene encodes a transcriptional activator that binds to DNA sequences in the promoters of the proline utilization genes and is required for the basal and induced expression of the enzymes of this pathway. The sequence of the wild-type PUT3 gene revealed the presence of one large open reading frame capable of encoding a 979-amino-acid protein. The protein contains amino-terminal basic and cysteine-rich domains homologous to the DNA-binding motifs of other yeast transcriptional activators. Adjacent to these domains is an acidic domain with a net charge of -17. A second acidic domain with a net charge of -29 is located at the carboxy terminus. The midsection of the PUT3 protein has homology to other activators including GAL4, LAC9, PPR1, and PDR1. Mutations in PUT3 causing aberrant (either constitutive or noninducible) expression of target genes in this system have been analyzed. One activator-defective and seven activator-constitutive PUT3 alleles have been retrieved from the genome and sequenced to determine the nucleotide changes responsible for the altered function of the protein. The activator-defective mutation is a single nucleotide change within codon 409, replacing glycine with aspartic acid. One activator-constitutive mutation is a nucleotide change at codon 683, substituting phenylalanine for serine. The remaining constitutive mutations resulted in amino acid substitutions or truncations of the protein within the carboxy-terminal 76 codons. Mechanisms for regulating the activation function of the PUT3 protein are discussed.
酿酒酵母PUT3基因编码一种转录激活因子,该因子可与脯氨酸利用基因启动子中的DNA序列结合,是该途径中酶的基础表达和诱导表达所必需的。野生型PUT3基因的序列显示存在一个大的开放阅读框,能够编码一种979个氨基酸的蛋白质。该蛋白质包含与其他酵母转录激活因子的DNA结合基序同源的氨基末端碱性和富含半胱氨酸的结构域。在这些结构域附近是一个净电荷为-17的酸性结构域。一个净电荷为-29的第二个酸性结构域位于羧基末端。PUT3蛋白的中间部分与其他激活因子包括GAL4、LAC9、PPR1和PDR1具有同源性。已分析了PUT3中导致该系统中靶基因异常(组成型或不可诱导型)表达的突变。已从基因组中检索到一个激活因子缺陷型和七个激活因子组成型PUT3等位基因并进行测序,以确定导致蛋白质功能改变的核苷酸变化。激活因子缺陷型突变是密码子409内的单个核苷酸变化,用天冬氨酸取代甘氨酸。一个激活因子组成型突变是密码子683处的核苷酸变化,用苯丙氨酸取代丝氨酸。其余的组成型突变导致蛋白质在羧基末端76个密码子内发生氨基酸取代或截短。文中讨论了调节PUT3蛋白激活功能的机制。