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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A gene from Saccharomyces cerevisiae has been mapped, cloned, sequenced and shown to encode a catalytic subunit of an N-terminal acetyltransferase. Regions of this gene, NAT1, and the chloramphenicol acetyltransferase genes of bacteria have limited but significant homology. A nat1 null mutant is viable but exhibits a variety of phenotypes, including reduced acetyltransferase activity, derepression of a silent mating type locus (HML) and failure to enter G0. All these phenotypes are identical to those of a previously characterized mutant, ard1. NAT1 and ARD1 are distinct genes that encode proteins with no obvious similarity. Concomitant overexpression of both NAT1 and ARD1 in yeast causes a 20-fold increase in acetyltransferase activity in vitro, whereas overexpression of either NAT1 or ARD1 alone does not raise activity over basal levels. A functional iso-1-cytochrome c protein, which is N-terminally acetylated in a NAT1 strain, is not acetylated in an isogenic nat1 mutant. At least 20 other yeast proteins, including histone H2B, are not N-terminally acetylated in either nat1 or ard1 mutants. These results suggest that NAT1 and ARD1 proteins function together to catalyze the N-terminal acetylation of a subset of yeast proteins.
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PMID:Identification and characterization of genes and mutants for an N-terminal acetyltransferase from yeast. 255 74

Proacrosin, the zymogen form of the serine protease acrosin, is located within the acrosomal vesicle of mammalian spermatozoa and has been suggested to be involved in the fertilization process. In mouse and rat, expression of the proacrosin gene starts in pachytene spermatocytes and continues through the early stages of spermiogenesis. We have shown recently that 2.3 kilobase pairs of the 5'-flanking region of the rat proacrosin gene is sufficient to direct chloramphenicol acetyltransferase gene expression in a germ cell-specific and developmental stage-specific manner in the mouse. Additional transgenic lines have been generated which include two deletions in the 5'-flanking region and a tyrosinase minigene as marker for gene expression. Transgenic mice bearing these two truncated fragments showed different patterns of reporter gene expression. Transgenic lines (BM, B3, B2) harboring the 397-base pair (bp) fragment (from 45 to 442 bp upstream of ATG) showed no chloramphenicol acetyltransferase (CAT) activity in either testis or other tissues, but analysis via reverse transcription polymerase chain reaction confirmed low levels of reporter gene transcription in testis. Transgenic line TC bearing a longer fragment of 877 bp (from 45 to 922 bp upstream of ATG) showed a reporter gene expression and chloramphenicol acetyltransferase enzyme activity which was identical to that found in mice harboring the 2.3-kilobase pair 5'-flanking region. The analysis of the CAT gene expression during testicular development showed diploid transcription and haploid translation. It can be concluded that all sequences required for a basic level of testis-specific transcription of transgene are present within the 397-bp fragment, and other DNA sequences located outside of the 397-bp fragment but present within the 877-bp fragment can function as enhancer elements. Two fragments within the 877-bp region were identified by gel retardation assays as binding exclusively to nuclear factor(s) from testis protein extracts. In both fragments we identified sequence elements which are present in the promoter region of the germ cell-specific genes for histone H2B and protamine 1, respectively.
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PMID:Functional and molecular characterization of the transcriptional regulatory region of the proacrosin gene. 779 16