Genetic, biochemical characterization and mutagenesis of the chromosomal class A β-lactamase of Raoultella (formerly Klebsiella) terrigena

Pathologie-biologie Pub Date : 2015-09-01 DOI:10.1016/j.patbio.2015.05.002

E. Walckenaer , J. Delmas , V. Leflon-Guibout , R. Bonnet , M.-H. Nicolas-Chanoine

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引用次数: 4

Abstract

Background

Chromosomal class A β-lactamases have been characterized in Raoultella ornithinolytica and Raoultella planticola. The purpose of this study was to characterize that of Raoultella terrigena.

Materials and methods

The bla_TER-1 gene of R. terrigena strain ATCC33257^T was cloned (pACter-1) and sequenced. It was then used to detect the bla gene of strains BM 85 01 095 and SB2796. The hypermutable Escherichia coli strain AB1157 mutS::Tn10 was transformed with pACter-1 and mutants growing on plates containing > 2 mg/L ceftazidime were studied. Notably, the impact of mutations only observed in the promoter region on β-lactam resistance was assessed by site-directed mutagenesis experiments.

Results

R. terrigena strains ATCC33257^T and BM 85 01 095 had the same bla gene and deduced protein (TER-1) whereas there were 3 substitutions in those of strain SB2796 (TER-2). Class A β-lactamases TER showed 78%, 69.9% and 38.7% identity with PLA or ORN, TEM-1 and KOXY, respectively. Compared with TEM-1, TER-1 and TER-2 showed 2 particular substitutions, Leu75Pro and Glu240Asn demonstrated to be involved in the inherent β-lactam resistance profile of R. terrigena. TER-1 (pI of 7.6) had a high activity against penicillin G and a significantly low one against amoxicillin. Substitution G/T observed in the -35 region of the bla_TER gene harbored by strains growing in the presence of ≥ 2 mg/L ceftazidime was shown to be responsible for this growth.

Conclusion

TER is a new class A β-lactamase belonging to functional group 2b.

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特里氏拉乌尔氏菌(原克雷伯氏菌)染色体A类β-内酰胺酶的遗传、生化特性和诱变

染色体A类β-内酰胺酶已在溶鸟拉乌尔菌和足底拉乌尔菌中发现。本研究的目的是表征terrigena Raoultella。材料与方法克隆terrigena菌株ATCC33257T的blaTER-1基因(pACter-1)并进行测序。然后用该方法检测菌株bm85 01 095和SB2796的bla基因。用pACter-1转化超变大肠杆菌AB1157 mutS::Tn10，并在含有>2 mg/L头孢他啶。值得注意的是，仅在启动子区域观察到的突变对β-内酰胺抗性的影响通过定点诱变实验进行了评估。terrigella菌株ATCC33257T和BM 85 01 095具有相同的bla基因和推断蛋白(TER-1)，而菌株SB2796 (TER-2)的bla基因和推断蛋白(TER-1)有3个替换。A类β-内酰胺酶TER与PLA、ORN、TEM-1和KOXY的同源性分别为78%、69.9%和38.7%。与TEM-1相比，TER-1和TER-2显示了2个特殊的取代，Leu75Pro和Glu240Asn被证明参与了土霉素固有的β-内酰胺抗性谱。TER-1对青霉素G的活性较高，对阿莫西林的活性较低(pI为7.6)。在≥2 mg/L头孢他啶存在下生长的菌株，在blaTER基因-35区观察到G/T取代，表明这是导致这种生长的原因。结论ter是一种新的a类β-内酰胺酶，属于功能族2b。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Pathologie-biologie 医学-病理学

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审稿时长

6-12 weeks