1989
DOI: 10.1002/j.1460-2075.1989.tb03615.x
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Identification and characterization of genes and mutants for an N-terminal acetyltransferase from yeast.

Abstract: 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 prev… Show more

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Cited by 316 publications
(284 citation statements)
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“…In contrast, deletion of NAT1 in a [PSI ϩ ] strain reversed the prion phenotype, leading to the formation of pink colonies on rich media and the inability to grow in the absence of adenine ( Figure 1C). Double mutant ⌬ard1⌬nat1 [PSI ϩ ] and [psi Ϫ ] strains were phenotypically indistinguishable from the single disruptions ( Figure 1C), consistent with the roles of Ard1 and Nat1 as subunits of a single enzyme complex (Mullen et al, 1989;Park and Szostak, 1992).…”
Section: Nata Null Strains Do Not Display the [Psi ؉ ] Phenotypesupporting
confidence: 65%
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“…In contrast, deletion of NAT1 in a [PSI ϩ ] strain reversed the prion phenotype, leading to the formation of pink colonies on rich media and the inability to grow in the absence of adenine ( Figure 1C). Double mutant ⌬ard1⌬nat1 [PSI ϩ ] and [psi Ϫ ] strains were phenotypically indistinguishable from the single disruptions ( Figure 1C), consistent with the roles of Ard1 and Nat1 as subunits of a single enzyme complex (Mullen et al, 1989;Park and Szostak, 1992).…”
Section: Nata Null Strains Do Not Display the [Psi ؉ ] Phenotypesupporting
confidence: 65%
“…In contrast, deletion of NAT1 in a [PSI ϩ ] strain reversed the prion phenotype, leading to the formation of pink colonies on rich media and the inability to grow in the absence of adenine ( Figure 1C). Double mutant ⌬ard1⌬nat1 [PSI ϩ ] and [psi Ϫ ] strains were phenotypically indistinguishable from the single disruptions ( Figure 1C), consistent with the roles of Ard1 and Nat1 as subunits of a single enzyme complex (Mullen et al, 1989;Park and Szostak, 1992).Overproduction of Nat1 has previously been linked to chromosome instability (Ouspenski et al, 1999), raising the possibility that another unknown genetic lesion leads to the observed reversal of the prion phenotype in NatA null strains. However, the NAT1 or ARD1 disruptions cosegregated with adenine auxotrophy in 100% of tetrads analyzed (11 or 16 tetrads, respectively), indicating tight linkage.…”
supporting
confidence: 70%
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“…We propose that the synthesis of these proteins may result from derepression or activation of genes regulated by regulatory proteins, which are no longer acetylated, as has been suggested to be the case for a protein regulating aspecific mating type genes in the aaal mutant [17,19].…”
Section: Resultsmentioning
confidence: 88%
“…The enzyme is encoded by a single gene (AAA I; also called NA 77 [ 171) [ 181. A null mutation deficiency created by gene replace-ment (au&), while not lethal, makes cells grow slowly and heterogeneously, sporulate defectively, become sensitive to heat shock, fail to enter the stationary phase, and display reduced a-type functions [17,19]. In order to study the effect of N"-acetyltransferase deficiency on protein synthesis in yeast, a comparison between the soluble proteins, isolated and then separated by two-dimensional gel electrophoresis, from wild type and aaal mutant was carried out by computer-based analysis of two-dimensional protein gels.…”
Section: Introductionmentioning
confidence: 99%