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Analysis of the self-defense gene (fmrO) of a fortimicin A (astromicin) producer, Micromonospora olivasterospora: comparison with other aminoglycoside-resistance-encoding genes.橄榄小单孢菌(福提霉素A(阿司米星)产生菌)的自我防御基因(fmrO)分析:与其他氨基糖苷类抗性编码基因的比较
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2
Characterization of two different types of resistance genes among producers of fortimicin-group antibiotics.福提霉素类抗生素生产菌中两种不同类型抗性基因的特征分析
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Isolation and characterization of mutants with impaired regulation of rpsA, the gene encoding ribosomal protein S1 of Escherichia coli.大肠杆菌核糖体蛋白S1编码基因rpsA调控受损突变体的分离与鉴定
Mol Gen Genet. 1993 Jul;240(1):23-8. doi: 10.1007/BF00276879.
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Cloning and sequences of two macrolide-resistance-encoding genes from mycinamicin-producing Micromonospora griseorubida.来自产生麦迪霉素的微红小单孢菌的两个大环内酯抗性编码基因的克隆与序列分析
Gene. 1994 Apr 8;141(1):39-46. doi: 10.1016/0378-1119(94)90125-2.
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Mutational analysis of the pseudoknot structure of the S15 translational operator from Escherichia coli.大肠杆菌S15翻译操纵子假结结构的突变分析
Mol Microbiol. 1994 Oct;14(1):31-40. doi: 10.1111/j.1365-2958.1994.tb01264.x.
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Functional effects of base changes which further define the decoding center of Escherichia coli 16S ribosomal RNA: mutation of C1404, G1405, C1496, G1497, and U1498.进一步界定大肠杆菌16S核糖体RNA解码中心的碱基变化的功能效应:C1404、G1405、C1496、G1497和U1498的突变
Biochemistry. 1993 Jul 20;32(28):7172-80. doi: 10.1021/bi00079a014.
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Transcriptional attenuation control of the tylosin-resistance gene tlrA in Streptomyces fradiae.弗氏链霉菌中泰乐菌素抗性基因tlrA的转录衰减控制
Mol Microbiol. 1994 Nov;14(4):833-42. doi: 10.1111/j.1365-2958.1994.tb01319.x.
8
Localization of the target site for translational regulation of the L11 operon and direct evidence for translational coupling in Escherichia coli.大肠杆菌中L11操纵子翻译调控靶位点的定位及翻译偶联的直接证据。
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9
New versatile plasmid vectors for expression of hybrid proteins coded by a cloned gene fused to lacZ gene sequences encoding an enzymatically active carboxy-terminal portion of beta-galactosidase.新型多功能质粒载体,用于表达由与编码β-半乳糖苷酶酶活性羧基末端部分的lacZ基因序列融合的克隆基因所编码的杂交蛋白。
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Sequence diversity among related genes for recognition of specific targets in DNA molecules.用于识别DNA分子中特定靶标的相关基因间的序列多样性。
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来自锡安小单孢菌的sgm基因的翻译自调控。

Translational autoregulation of the sgm gene from Micromonospora zionensis.

作者信息

Kojic M, Topisirovic L, Vasiljevic B

机构信息

Institute of Molecular Genetics and Genetic Engineering, Belgrade, Yugoslavia.

出版信息

J Bacteriol. 1996 Sep;178(18):5493-8. doi: 10.1128/jb.178.18.5493-5498.1996.

DOI:10.1128/jb.178.18.5493-5498.1996
PMID:8808941
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC178373/
Abstract

The sisomicin-gentamicin resistance methylase gene (sgm) from Micromonospora zionensis (the producer of antibiotic G-52 [6-N-methyl-sisomicin]) encodes an enzyme that modifies 16S rRNA and thereby confers resistance to 4,6-disubstituted deoxystreptamine aminoglycosides. Here, we report that this gene is regulated on the translational level. The Escherichia coli lacZ gene and operon fusion system was used, and it was shown that an extra copy of the sgm gene decreases the activity of the fusion protein. These results suggested that expression of the sgm gene is regulated by the translational autorepression because of binding of the methylase to its own mRNA. It was shown by computer analysis that the same hexanucleotide (CCGCCC) is present 14 bp before the ribosome-binding site and in the C-1400 region of 16S rRNA, i.e., the region in which most of the aminoglycosides act. A deletion that removes the hexanucleotide before the gene fusion is not prone to negative autoregulation. This mode of regulation of the sgm gene ensures that enough methylase molecules protect the cell from the action of its own antibiotic. On the other hand, if all of the ribosomes are modified, Sgm methylase binds to its own mRNA in an autorepressive manner.

摘要

来自锡安小单孢菌(抗生素G-52 [6-N-甲基西索米星]的产生菌)的西索米星-庆大霉素抗性甲基化酶基因(sgm)编码一种修饰16S rRNA的酶,从而赋予对4,6-二取代脱氧链霉胺氨基糖苷类抗生素的抗性。在此,我们报道该基因在翻译水平受到调控。使用了大肠杆菌lacZ基因和操纵子融合系统,结果表明sgm基因的额外拷贝会降低融合蛋白的活性。这些结果表明,由于甲基化酶与其自身mRNA的结合,sgm基因的表达受到翻译自抑制的调控。通过计算机分析表明,相同的六核苷酸(CCGCCC)存在于核糖体结合位点前14 bp处以及16S rRNA的C-1400区域,即大多数氨基糖苷类抗生素作用的区域。在基因融合前去除该六核苷酸的缺失突变不易受到负向自调控的影响。sgm基因的这种调控模式确保了足够数量的甲基化酶分子保护细胞免受自身抗生素的作用。另一方面,如果所有核糖体都被修饰,Sgm甲基化酶会以自抑制的方式与其自身mRNA结合。