EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The MAK3 gene is necessary for propagation of the L-A double-stranded RNA virus of Saccharomyces cerevisiae. MAK3 encodes a protein with substantial homology to the Escherichia coli rimI N-acetyltransferase that acetylates the NH2 terminus of ribosomal protein S18, and shares consensus sequences with a group of N-acetyltransferases. The NH2 terminus of the viral major coat protein encoded by L-A is normally blocked, but we find that it is unblocked in a mak3-1 mutant. L-A virus-encoded proteins produced from a cDNA clone of L-A can encapsidate the L-A (+)-strands in a wild-type host, but not in a mak3-1 mutant strain. The amount of major coat protein found in the particle fraction is reduced greater than 100-fold, and the amount in the total cell extract is reduced 5-10-fold. A modified beta-galactosidase, having as its NH2-terminal the NH2-terminal 13 residues of the L-A-encoded major coat protein, is blocked in a wild-type host, but not in a mak3-1 host. We propose that MAK3 encodes an N-acetyltransferase whose modification of the L-A major coat protein NH2 terminus is essential for viral assembly, and that unassembled coat protein is unstable.
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PMID:MAK3 encodes an N-acetyltransferase whose modification of the L-A gag NH2 terminus is necessary for virus particle assembly. 140 Mar 44

The aarP gene has been identified in a search for activators of the 2-N-acetyltransferase [encoded by aac(2')-Ia] in Providencia stuartii. Introduction of aarP into P. stuartii on a multicopy plasmid resulted in a 9.9-fold increase in the accumulation of beta-galactosidase from an aac(2')-lacZ fusion. Northern (RNA) blot analysis demonstrated that this increased aac(2')-Ia expression occurred at the level of mRNA accumulation. The deduced AarP protein was 15,898 Da in size and exhibited significant homology to a number of transcriptional activators in the AraC/XyIS family, including TetD,Rob, MarA, and SoxS. The similarity of AarP to the MarA and SoxS proteins prompted an investigation to determine whether AarP is involved in activation of genes in either the multiple antibiotic resistance (Mar) phenotype or redox stress (SoxRS) system. Introduction of aarP on a multicopy plasmid into either P. stuartii or Escherichia coli conferred a Mar phenotype with higher levels of resistance to tetracycline, chloramphenicol, and ciprofloxacin. Multiple copies of aarP in E. coli also resulted in activation of the endonuclease IV gene (nfo), a gene in the SoxRS regulon of E. coli. The function of aarP in its single-copy state was addressed by using allelic replacement to construct an aarP::Cm disruption, which resulted in a fivefold reduction in the accumulation of aac(2')-Ia mRNA. Analysis of aarP regulation showed that aarP mRNA accumulation was slightly increased by exposure to tetracycline and dramatically increased in cells containing the aarB3 (aar3) mutation, which was previously shown to increase transcription of the aac(2')-Ia gene. (P.N. Rather, E. Oroz, K.J. Shaw, R. Hare, and G. Miller, J. Bacteriol. 175:6492-6498).
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PMID:Identification and analysis of aarP, a transcriptional activator of the 2'-N-acetyltransferase in Providencia stuartii. 776 49

We have cloned the chromosomally encoded 2'-N-acetyltransferase gene [aac(2')-Ia] from Providencia stuartii. DNA sequence analysis of the cloned insert identified a single open reading frame, which is capable of encoding a protein with a predicted molecular mass of 20,073 Da. The deduced AAC(2')-Ia protein showed no significant homology to other proteins, including all of the AAC(3) and AAC(6') proteins. Primer extension analysis was used to identify the aac(2')-Ia promoter, which contained an unusual sequence (CTTTTT) at the -35 region. Expression of the aac(2')-Ia gene occurs at low levels in wild-type P. stuartii strains; therefore, they are aminoglycoside susceptible. We have isolated mutants with high-level AAC(2')-Ia expression at a frequency of 4.8 x 10(-6). Detailed analysis of one mutant demonstrated a 12.2-fold increase in the accumulation of aac(2')-Ia mRNA. In addition, the levels of beta-galactosidase expression from a plasmid-encoded aac(2')-lacZ transcriptional fusion were increased 11.5-fold in this mutant relative to those in an isogenic wild-type strain. These results suggested that a trans-acting factor, designated aar (for aminoglycoside acetyltransferase regulator), controls AAC(2')-Ia expression in P. stuartii.
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PMID:Characterization and transcriptional regulation of the 2'-N-acetyltransferase gene from Providencia stuartii. 840 25

In a search for genes involved in regulation of the 2'-N-acetyltransferase in Providencia stuartii, a mini-Tn5Cm insertion has been isolated in a locus designated aarD. The aarD1::mini-Tn5Cm mutation resulted in a 4.7-fold increase in the levels of beta-galactosidase accumulation from an aac(2')-lacZ transcriptional fusion and a 32-fold increase in the levels of gentamicin resistance in P. stuartii. The wild-type aarD locus was cloned on a 5.0 kb Cla I fragment and complemented the aarD1 mutation. Nucleotide sequence analysis of this fragment identified two large open reading frames whose deduced products displayed significant amino acid identity, 64% and 64%, respectively, to the CydD and CydC proteins of Escherichia coli, which are involved in formation of the cytochrome d oxidase complex. Physical mapping indicated the aarD1::mini-Tn5Cm insertion was within the open reading homologous to CydD. The strain containing the aarD1 mutation was unable to grow in the presence of toluidine blue or on glycerol minimal media in the presence of zinc, suggesting that aarD is functionally equivalent to cydD. Additional phenotypes resulting from the aarD1 mutation included: altered cell morphology, a reduced growth rate and the inability of cells to grow beyond early log phase. Further examination of this phenomenon revealed that the aarD1 mutant was unable to grow in the presence of a self-produced extracellular factor(s). This novel phenotype was limited to P. stuartii as E. coli cydD and delta cydAB::kan mutants were also sensitive to a self-produced extracellular factor.
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PMID:aarD, a Providencia stuartii homologue of cydD: role in 2'-N-acetyltransferase expression, cell morphology and growth in the presence of an extracellular factor. 883 Feb 42

The 2'-N-acetyltransferase [AAC(2')-Ia] in Providencia stuartii has a dual function where it is involved in the acetylation of peptidoglycan and certain aminoglycosides. A search for negative regulators of the aac(2')-Ia gene has resulted in the identification of aarC. A missense allele (aarC1) resulted in an 8.9-fold increase in beta-galactosidase accumulation from an aac(2')-lacZ transcriptional fusion. Northern blot analysis demonstrated an increase in aac(2')-Ia mRNA accumulation that was specific to cells at high density. In addition, the aarC1 allele also resulted in a substantial increase in the expression of aarP, a transcriptional activator of the aac(2')-Ia gene. The wild-type aarC gene was isolated by complementation and encodes a predicted protein of 365 amino acids with a molecular mass of 39,815 Da. The predicted AarC protein exhibited 88% amino acid homology to the previously identified GcpE protein of Escherichia coli and 86% homology to a gene product from Haemophilus influenzae. The E. coli gcpE gene was able to functionally complement the aarC1 allele in P. stuartii. The aarC1 allele was identified as a T to G transversion that resulted in a valine to glycine substitution at position 136 in the AarC protein. The aarC gene appears to be essential for cell viability as construction of a disrupted copy (aarC::lacZ) was possible only in cells that carried an episomal copy of aarC or gcpE.
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PMID:aarC, an essential gene involved in density-dependent regulation of the 2'-N-acetyltransferase in Providencia stuartii. 907 12