Assessment of three Resistance-Nodulation-Cell Division drug efflux transporters of Burkholderia cenocepacia in intrinsic antibiotic resistance

Background  

Burkholderia cenocepacia are opportunistic Gram-negative bacteria that can cause chronic pulmonary infections in patients with cystic fibrosis. These bacteria demonstrate a high-level of intrinsic antibiotic resistance to most clinically useful antibiotics complicating treatment. We previously identified 14 genes encoding putative Resistance-Nodulation-Cell Division (RND) efflux pumps in the genome of B. cenocepacia J2315, but the contribution of these pumps to the intrinsic drug resistance of this bacterium remains unclear.     

Purple acid phosphatase-like sequences in prokaryotic genomes and the characterization of an atypical purple alkaline phosphatase from Burkholderia cenocepacia J2315

Purple acid phosphatases (PAP) are a group of dimetallic phosphohydrolase first identified in eukaryotes. Bioinformatics analysis revealed 57 prokaryotic PAP-like sequences in the genomes of 43 bacteria and 4 cyanobacteria species. A putative PAP gene (BcPAP) from the bacteria Burkholderia cenocepacia J2315 was chosen for further studies. Synteny analysis showed that this gene is present as an independent gene in most of the members of the genus Burkholderia. The predicted 561 a.a. polypeptide of BcPAP was found to harbour all the conserved motifs of the eukaryotic PAPs and an N-terminal twin-arginine translocation signal. Expression and biochemical characterization of BcPAP in Escherichia coli revealed that this enzyme has a relatively narrow substrate spectrum, preferably towards phosphotyrosine, phosphoserine and phosphoenolpyruvate. Interestingly, this enzyme was found to have a pH optimum at 8.5, rather than an acidic optima exhibited by eukaryotic PAPs. BcPAP contains a dimetallic ion centre composed of Fe and Zn, and site-directed mutagenesis confirmed that BcPAP utilizes the invariant residues for metal-ligation and catalysis. The enzyme is secreted by the wild type bacteria and its expression is regulated by the availability of orthophosphate. Our findings suggest that not all members in the PAP family have acidic pH optimum and broad substrate specificity.     

Burkholderia xenovorans LB400联苯双加氧酶及突变体对DDTs的降解

DDTs（dichlorodiphenyltrichloroethane,1,1,1-三氯-2,2-双氯苯基乙烷）是一种典型的持久性有机污染物,曾在疟疾防治和农业除虫方面被广泛应用。虽然包括我国在内的很多国家已经禁止使用DDTs,但目前对环境中DDTs的检测发现它仍然广泛存在且具有新的输入源。DDTs的持续存在对近海生态系统和人类健康具有一定危害,因此它所造成的环境污染问题仍然值得关注。由于Rieske型芳香羟化双加氧酶能够起始多种持久性污染物的降解,过去的几十年里一直是芳香化合物降解领域的焦点。[目的] 为探讨联苯双加氧酶对DDTs的降解特性及机制,本研究选取了食异生素伯克霍尔德氏菌LB400（Burkholderia xenovorans）联苯双加氧酶及突变体对p,p''-DDT和o,p''-DDT的降解过程进行研究。[方法] 以BphAE_LB400为亲本,通过两步定点突变将283位的丝氨酸突变为蛋氨酸,获得突变体BphAE_S283M。通过比较亲本酶与突变体对DDTs的催化性能,模拟突变蛋白结构和分子对接等方法,探究其降解特性及机制。[结果] BphAE_LB400和突变体BphAE_S283M都无法降解对位的p,p''-DDT,但突变体BphAE_S283M可以代谢o,p''-DDT并产生2个立体异构体。对接p,p''-DDT的BphAE_LB400和BphAE_S283M的结构分析表明,BphAE_LB400和BphAE_S283M中p,p''-DDT的反应环均不与原晶体结构中的联苯反应环重合。而对接o,p''-DDT的BphAE_S283M的结构分析表明o,p''-DDT的反应环与晶体结构中的联苯反应环距离很近,且2、3位的碳原子与单核铁原子催化中心的距离在0.5 nm以内,此外,BphAE_S283M的催化腔表面积和体积比BphAE_LB400更大,这很可能有助于BphAE_S283M与o,p''-DDT的结合。[结论] 283位氨基酸是影响BphAE_LB400对DDTs的催化代谢能力的关键氨基酸残基,它可以通过调节反应碳原子与催化中心的距离以及催化腔的大小来影响底物特异性。本次研究进一步阐明了283位氨基酸残基的影响机理,为更有效修复DDTs污染提供理论依据和技术支持。     

An allelic exchange system for compliant genetic manipulation of the select agents Burkholderia pseudomallei and Burkholderia mallei

Burkholderia pseudomallei and B. mallei are Gram-negative bacterial pathogens that cause melioidosis in humans and glanders in horses, respectively. Both bacteria are classified as category B select agents in the United States. Due to strict select-agent regulations, the number of antibiotic selection markers approved for use in these bacteria is greatly limited. Approved markers for B. pseudomallei include genes encoding resistance to kanamycin (Km), gentamicin (Gm), and zeocin (Zeo); however, wild type B. pseudomallei is intrinsically resistant to these antibiotics. Selection markers for B. mallei are limited to Km and Zeo resistance genes. Additionally, there are few well developed counter-selection markers for use in Burkholderia. The use of SacB as a counter-selection method has been of limited success due to the presence of endogenous sacBC genes in the genomes of B. pseudomallei and B. mallei. These impediments have greatly hampered the genetic manipulation of B. pseudomallei and B. mallei and currently few reliable tools for the genetic manipulation of Burkholderia exist. To expand the repertoire of genetic tools for use in Burkholderia, we developed the suicide plasmid pMo130, which allows for the compliant genetic manipulation of the select agents B. pseudomallei and B. mallei using allelic exchange. pMo130 harbors an aphA gene which allows for Km selection, the reporter gene xylE, which allows for reliable visual detection of Burkholderia transformants, and carries a modified sacB gene that allows for the resolution of co-integrants. We employed this system to generate multiple unmarked and in-frame mutants in B. pseudomallei, and one mutant in B. mallei. This vector significantly expands the number of available tools that are select-agent compliant for the genetic manipulation of B. pseudomallei and B. mallei.     

Anaerobic degradation of phenylacetic acid by mixed and pure cultures

Summary A phenylacetic acid-degrading mixed culture was enriched from effluent of an anaerobic reactor for the treatment of waste water from cellulose bleaching. From this consortium a phenylacetic acid-degrading pure culture, strain DSU3, was isolated and, due to its typical morphology and substrate spectrum, tentatively classified as a Desulfosarcina sp. It could grow on and degrade phenylacetic acid, cyclohexane carboxylate, cyclohexylacetate, benzoate, fumaric acid and several volatile fatty acids, while phenol, o-hydroxybenzoate, p-hydroxybenzoate and glucose were not utilized. Production of mandelic acid from phenylacetic acid by the enrichment culture and utilization of benzoate, an intermediate of the mandelic acid pathway, by strain DSU3 may presumably indicate degradation of phenylacetic acid via the mandelic acid pathway.     

日化产品中洋葱伯克霍尔德氏菌复合群(Bcc)的分类和神秘伯克霍尔德氏菌的耐药性研究

【目的】对从2020–2022年不同日化产品中分离的29株洋葱伯克霍尔德氏菌复合群(Burkholderia cepacia complex,Bcc)进行分类和分型,另将2020年前来源于日化产品中6株被鉴定为Burkholderia lata的菌株进行分类更正。探究神秘伯克霍尔德氏菌(Burkholderia aenigmatica)的耐药性。【方法】本文主要应用多位点分型研究方法(multilocus sequence typing,MLST),PCR扩增atpD、gltB、gyrB、recA、lepA、phaC和trp B 7个管家基因片段,将测序结果与MLST数据库中的数据比对分析,获得菌株各管家基因的编号和ST型(sequence type),对本检测中心分离自日化产品的Bcc进行分型;利用多位点序列分析(multilocus sequence analysis,MLSA),结合MLST中等位基因的核苷酸序列构建进化树,从而对Bcc进行系统发育分析和鉴定。利用最小抑菌浓度法(minimum inhibitory concentration,MIC)测定Bcc对常见防腐剂(1,...     

The evolution of the phenylacetic acid degradation pathway in bacteria

The phenylacetic acid (PhAc) degradation pathway becomes an interesting model for the catabolism of aromatic compounds. To determine the molecular basis for this environmentally important process, we did a phylogenic analysis based on the PhAc CoA ligase gene. It suggests that the PhAc CoA ligase genes are distributing widely and subject to frequent lateral gene transfer within and across bacterial phylum.     

Binding of protegrin-1 to Pseudomonas aeruginosa and Burkholderia cepacia

Background  

Pseudomonas aeruginosa and Burkholderia cepacia infections of cystic fibrosis patients' lungs are often resistant to conventional antibiotic therapy. Protegrins are antimicrobial peptides with potent activity against many bacteria, including P. aeruginosa. The present study evaluates the correlation between protegrin-1 (PG-1) sensitivity/resistance and protegrin binding in P. aeruginosa and B. cepacia.     

Quantum mechanical study of Burkholderia cepacia lipase enantioselectivity

Quantum mechanical, semiempirical (AM1) and ab initio (6-31G*) study of the Burkholderia cepacia lipase (BCL) catalysed reactions of the secondary alcohol esterification and its ester hydrolysis is presented. We have selected BCL for our study because of numerous experimental results available, but also because of its broad selectivity and stability that makes it interesting for industrial use. Previously we developed models for predicting lipase stereo-selectivity towards primary and secondary alcohols according to their structural parameters. In this work we show that not all of the experimentally determined binding modes are catalytically competent and that additional molecular modelling should be accomplished in order to find good starting points to study chemical reactions. The binding modes from which chemical modification of a substrate is possible are the most relevant for understanding enzyme selectivity and for the rational enzyme engineering.

We also investigated the influence of the tetrahedral atom type, C and P, upon the energy barriers in the proton transfer reactions from the catalytic histidine (His286) to either the catalytic serine (Ser87) or the alcohol oxygen of the substrate.     

Crystal structure of phenylacetic acid degradation protein PaaG from Thermus thermophilus HB8

Microbial degradation of phenylacetic acid proceeds via the hybrid pathway that includes formation of a coenzyme A thioester, ring hydroxylation, non‐oxygenolytic ring opening, and β‐oxidation‐like reactions. A phenylacetic acid degradation protein PaaG is a member of the crotonase superfamily, and is a candidate non‐oxygenolytic ring‐opening enzyme. The crystal structure of PaaG from Thermus thermophilus HB8 was determined at a resolution of 1.85 Å. PaaG consists of three identical subunits related by local three‐fold symmetry. The monomer is comprised of a spiral and a helical domain with a fold characteristic of the crotonase superfamily. A putative active site residue, Asp136, is situated in an active site cavity and surrounded by several hydrophobic and hydrophilic residues. The active site cavity is sufficiently large to accommodate a ring substrate. Two conformations are observed for helix H2 located adjacent to the active site. Helix H2 is kinked at Asn81 in two subunits, whereas it is kinked at Leu77 in the other subunit, and the side chain of Tyr80 is closer to Asp136. This indicates that catalytic reaction of PaaG may proceed with large conformational changes at the active site. Asp136 is the only conserved polar residue in the active site. It is located at the same position as those of 4‐chlorobenzoyl‐CoA dehalogenase and peroxisomal Δ³,Δ²‐enoyl‐CoA isomerase, indicating that PaaG may undergo isomerization or a ring‐opening reaction via a Δ³,Δ²‐enoyl‐CoA isomerase‐like mechanism. Proteins 2009. © 2009 Wiley‐Liss, Inc.     

Functional expression of Aquaspirillum magnetotacticum genes in Escherichia coli K12

Summary Gene libraries from the magnetotactic bacterium, Aquaspirillum magnetotacticum were constructed in Escherichia coli with cosmids pLAFR3 and c2RB as vectors. Recombinant cosmids able to complement the thr-1, leuB, and proA mutations of the host were identified. The Pro⁺ recombinant cosmid restored wild-type phenotype in proA and proB but not in the proC mutants of E. coli. The results of restriction endonuclease digestion and Southern hybridization analysis indicate that the relevent leu and pro biosynthetic genes of A. magnetotacticum are not closely linked on the chromosome.     

Burkholderia cepacia X4降解油脂特性研究

从长期受油污染的土壤中分离筛选得到的Burkholderia cepaciaX4菌株能高效降解油脂。该菌株降解油脂的最适温度和pH分别为30℃和7.0,菌株降解油脂时适宜的氮源为硫酸铵,适宜碳氮比为4∶1。共基质碳源的添加有利于生物量的迅速增加和油脂降解率的提高,添加适量的葡萄糖能使油脂降解率提高8%~10%。50mg/L Ca2 对菌株生长和油脂降解更有利。在橄榄油浓度高达20g/L条件下最大油脂降解率仍可达83%。在油脂浓度≤2500mg/L时,该菌对油脂的降解符合抑制动力学Monod方程。     

水分活度对洋葱伯克霍尔德菌群生长的影响

研究不同调节剂作用下洋葱伯克霍尔德菌群(Burkholderia cepacia complex,Bcc)最低生长水分活度(water activity,Aw),及Aw对其生长曲线的影响.以氯化钠、甘油、蔗糖为调节剂,配制一系列Aw不同的胰酪大豆胨液体培养基,将3株Bcc分别接种其中32.5℃培养72 h,全自动生长曲...     

Regulation of 3-hydroxypropionaldehyde accumulation in Klebsiella pneumoniae by overexpression of dhaT and dhaD genes

3-Hydroxypropionaldehyde (3-HPA), an important intermediary metabolite of 1,3-propanediol (PDO) production, would be toxic to the cell growth and led to the abnormal cessation of the fermentation process. In this study, the dhaD gene encoding glycerol dehydrogenase (GDH) and dhaT gene encoding 1,3-propanediol oxidoreductase (PDOR) were overexpressed in Klebsiella pneumoniae ACCC 10082 to decrease the 3-HPA accumulation and increase the coenzyme NADH supply. By the construction of pTD plasmid, GDH and PDOR were both overexpressed and their enzyme activities were increased by 2.6- and 3.2-fold, respectively. The enzyme activity ratio of PDOR/GDHt (glycerol dehydratase) also was increased. On the other hand, NADH production was enhanced and the ratio of NADH/NAD⁺ exceeded 1 after the inducement of IPTG for the constructed strain. The two factors enhanced the transformation of 3-HPA to PDO. In the batch and fed-batch fermentation by the constructed strain, the peak of 3-HPA accumulation reduced by 52.2% and 33.3%, respectively, compared with the control. The PDO concentration and yield reached 59.2 g/L and 0.48 mol/mol, respectively. Furthermore, the fed-batch fermentation process appeared easier to be regulated. This work is considered helpful for the further understanding on the PDO metabolic mechanism of K. pneumoniae and also useful for the PDO fermentation in a large-scale bioreactor.     

Mapping of the sor genes for l-sorbose degradation in the chromosome of Klebsiella pneumoniae

Summary A series of mutants was isolated in Klebsiella pneumoniae strain 1033, among them mutants unable to grown on l-sorbose. Different R' plasmids carrying the sor genes and other surrounding chromosomal genes were also isolated. Each plasmid contained the structural genes sorA for an Enzyme II of the phosphoenolpyruvate-dependent carbohydrate: phosphotransferase system, sorD for a d-glucitol 6-phosphate dehydrogenase, sorE for an l-sorbose 1-phosphate reductase, and the corresponding regulator gene sorR. These structural genes are coordinately expressed and inducible by l-sorbose. Cis-dominant and pleiotropic mutations rendering the expression of the sor genes constitutive or eliminating it were isolated. Complementation of a series of mutations in Escherichia coli K12 and K. pneumoniae by various R' and F' plasmids and by P1 transduction in K. pneumoniae located the sor genes within the following gene sequence: rbs rha pfkA metB ppc argH ilv btuB rpoB metA ace sor pgi malB uvrA. The rbs-ilv gene loci tightly linked in E. coli K12 at 84 min, are separated in the map of K. pneumoniae 1033 and located at 86 and 89 min, respectively.     

Purification of lipase derived from Burkholderia pseudomallei with alcohol/salt-based aqueous two-phase systems

Alcohol/salt-based aqueous two-phase systems (ATPSs) were used to recover lipase derived from Burkholderia pseudomallei (B. pseudomallei). Nine biphasic systems, comprised of an alcohol-based top phase (ethanol, 2-propanol and 1-propanol) and a salt-based bottom phase (ammonium sulfate, potassium phosphate and sodium citrate), were evaluated for their effectiveness in lipase recovery. The stability of lipase in each of the solutions was tested, and phase diagrams were constructed for each system. The optimum partition efficiency for the purification of lipase was obtained in an ATPS of 16% (w/w) 2-propanol and 16% (w/w) phosphate in the presence of 4.5% (w/v) NaCl. The purified lipase had a purification factor of 13.5 and a yield of 99%.