Structural analysis of a putative aminoglycoside N-acetyltransferase from Bacillus anthracis

For the last decade, worldwide efforts for the treatment of anthrax infection have focused on developing effective vaccines. Patients that are already infected are still treated traditionally using different types of standard antimicrobial agents. The most popular are antibiotics such as tetracyclines and fluoroquinolones. While aminoglycosides appear to be less effective antimicrobial agents than other antibiotics, synthetic aminoglycosides have been shown to act as potent inhibitors of anthrax lethal factor and may have potential application as antitoxins. Here, we present a structural analysis of the BA2930 protein, a putative aminoglycoside acetyltransferase, which may be a component of the bacterium's aminoglycoside resistance mechanism. The determined structures revealed details of a fold characteristic only for one other protein structure in the Protein Data Bank, namely, YokD from Bacillus subtilis. Both BA2930 and YokD are members of the Antibiotic_NAT superfamily (PF02522). Sequential and structural analyses showed that residues conserved throughout the Antibiotic_NAT superfamily are responsible for the binding of the cofactor acetyl coenzyme A. The interaction of BA2930 with cofactors was characterized by both crystallographic and binding studies.     

Aminoglycoside resistance 16S rRNA methyltransferases block endogenous methylation,affect translation efficiency and fitness of the host

In Gram-negative bacteria, acquired 16S rRNA methyltransferases ArmA and NpmA confer high-level resistance to all clinically useful aminoglycosides by modifying, respectively, G1405 and A1408 in the A-site. These enzymes must coexist with several endogenous methyltransferases that are essential for fine-tuning of the decoding center, such as RsmH and RsmI in Escherichia coli, which methylate C1402 and RsmF C1407. The resistance methyltransferases have a contrasting distribution—ArmA has spread worldwide, whereas a single clinical isolate producing NpmA has been reported. The rate of dissemination of resistance depends on the fitness cost associated with its expression. We have compared ArmA and NpmA in isogenic Escherichia coli harboring the corresponding structural genes and their inactive point mutants cloned under the control of their native constitutive promoter in the stable plasmid pGB2. Growth rate determination and competition experiments showed that ArmA had a fitness cost due to methylation of G1405, whereas NpmA conferred only a slight disadvantage to the host due to production of the enzyme. MALDI MS indicated that ArmA impeded one of the methylations at C1402 by RsmI, and not at C1407 as previously proposed, whereas NpmA blocked the activity of RsmF at C1407. A dual luciferase assay showed that methylation at G1405 and A1408 and lack of methylation at C1407 affect translation accuracy. These results indicate that resistance methyltransferases impair endogenous methylation with different consequences on cell fitness.     

多重耐药鲍曼不动杆菌氨基糖苷类修饰酶与16S rRNA甲基化酶基因的研究

了解氨基糖苷类修饰酶、16S rRNA甲基化酶基因在多重耐药鲍曼不动杆菌中的流行情况。收集2014年12月至2015年3月厦门大学附属成功医院住院患者临床分离的多重耐药鲍曼不动杆菌共28株,采用VIKET Compact 2全自动细菌鉴定系统进行细菌鉴定,应用纸片扩散法(K-B法)检测鲍曼不动杆菌对抗菌药物的耐药性,采用聚合酶链反应(PCR)法检测氨基糖苷类修饰酶、16S rRNA甲基化酶基因。结果显示,多重耐药鲍曼不动杆菌除对头孢哌酮/舒巴坦耐药率为21.4%外,对其他所测药物耐药率均50%,本组28株多重耐药鲍曼不动杆菌共检出5种氨基糖苷类修饰酶基因aac(3)-Ⅰ、aac(3)-Ⅱ、aac(6')-Ⅰb、ant(3")-Ⅰ、aph(3')-Ⅰ和1种16S rRNA甲基化酶基因arm A,阳性率分别为85.7%(24株)、7.14%(2株)、67.8%(19株)、92.9%(26株)、53.6%(15株)和82.1%(23株)。氨基糖苷类修饰酶、16S rRNA甲基化酶耐药基因是多重耐药鲍曼不动杆菌对氨基糖苷类耐药的重要原因。     

RIPOR2-mediated autophagy dysfunction is critical for aminoglycoside-induced hearing loss

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Identification and Diversity of Putative Aminoglycoside-Biosynthetic Aminotransferase Genes from Deep-Sea Environmental DNA

We obtained DNA fragments encoding putative aminotransferases possibly involved in the biosynthesis of aminoglycoside antibiotics from deep-sea sediments of the northwest Pacific Ocean by nested PCR, and 34 individual genes (total 89 clones) were identified. About half of the deep-sea sequences showed similarity with genes of known aminoglycoside-producers, but others were deep-sea specific genes. Furthermore, we found that temperature-gradient gel electrophoresis (TGGE) can be an effective tool in the analysis of these DNA fragments.     

Cloning and characterization of the termination site tI for the gene int transcript in phage lambda

A series of plasmid vectors containing the multiple cloning site (MCS7) of M13mp7 has been constructed. In one of these vectors a kanamycin-resistance marker has been inserted into the center of the symmetrical MCS7 to yield a restriction-site-mobilizing element (RSM). The drug-resistance marker can be cleaved out of this vector with any of the restriction enzymes that recognize a site of the flanking sequences of the RSM to generate an RSM with either various sticky ends or blunt ends. These fragments can be used for insertion mutagenesis of any target molecule with compatible restriction sites. Insertion mutants are selected by their resistance to kanamycin. When the drug-resistance marker is removed with PstI, a small in-frame insertion can be generated. In addition, two new MCSs having single restriction sites have been formed by altering the symmetrical structure of MCS7. The resulting plasmids pUC8 and pUC9 allow one to clone doubly digested restriction fragments separately with both orientations in respect to the lac promoter. The terminal sequences of any DNA cloned in these plasmids can be characterized using the universal M13 primers.     

Dependence of aminoglycoside 3′-phosphotransferase VIII activity on serine/threonine protein kinases in <Emphasis Type="Italic">Streptomyces rimosus</Emphasis>

In Streptomyces rimosus, selection for resistance to the aminoglycoside antibiotic kanamycin triggers the normally silent aminoglycoside 3-phosphotransferase VIII gene (aphVIII). The expression of APHVIII is accompanied by amplification of the chromosomal DNA fragment containing the aphVIII gene. Earlier, S. rimosus aphVIII gene was isolated and sequenced. Using in vitro labeling and immunoprecipitation with anti-APHVIII antibodies, we have demonstrated that endogenous protein kinases (PKs) in extracts of S. rimosus strain S683 actively phosphorylate two serine residues in the APHVIII molecule. The amount of phosphate incorporated into APHVIII in the presence of Ca²⁺ is 1.84-fold greater than that without Ca²⁺. Analysis of ingel autophosphorylation and phosphorylation of the substrate incorporated into the gel matrix has shown that modification of APHVIII is catalyzed by two serine/threonine PKs (74 kDa and 55 kDa). The activity of 55-kDa PK is dependent on Ca²⁺ and calmodulin. The specific kanamycin phosphotransferase activity of exhaustively phosphorylated APHVIII is 3.72 times higher than that of the unmodified enzyme. It is proposed that the above PKs may be involved in the regulation of kanamycin resistance in S. rimosus.__________Translated from Molekulyarnaya Biologiya, Vol. 39, No. 2, 2005, pp. 255–263.Original Russian Text Copyright © 2005 by Elizarov, Sergienko, Sizova, Danilenko.     

Maintenance and expression of heterologous genes in chloroplast ofChlamydomonas reinhardtii

The chloroplast genome ofChlamydomonas reinhardtii has been transformed with a chimeric gene consisting of the chloroplastatpA promoter and the bacterial gene for aminoglycoside adenine transferase (aadA). TheatpA-aadA cassette has been placed within the chloroplast DNAEcoRI restriction enzyme fragment 14, or within the chloroplastBamH1 fragment 10. The chimeric constructs were introduced into the chloroplast by particle bombardment. Integration of the cassette into chloroplast DNA then occurred via homologous recombination of sequences flanking the cassette with their corresponding chloroplast sequences. We demonstrate that the chloroplastatpA promoter inatpA-aadA routinely recombines with its endogenous counterpart, resulting in heteroplasmic chloroplast DNA populations that may persist for many generations. The heterologous gene does not require a 3 inverted repeat sequence for its expression. TheatpA-aadA gene copy number, which is dictated here by its position in the chloroplast genome, is proportional to the steady state level ofatpA-aadA mRNA. However, neither genomic position, gene copy number, or mRNA level have a significant effect on cellular resistance to spectinomycin, nor activity of theaadA gene productin vitro. These results suggest that, in the case ofaadA, the limiting step for expression of this gene is at the translational or post-translational level. TheatpA-aadA cassette should prove a useful model for future studies on the maintenance and expression of heterologous genes inC. reinhardtii chloroplasts.