Intracellular degradation of two structurally different polyhydroxyalkanoic acids accumulated in Pseudomonas putida and Pseudomonas citronellolis from mixtures of octanoic acid and 5-phenylvaleric acid.

From a set of mixed carbon sources, 5-phenylvaleric acid (PV) and octanoic acid (OA), polyhydroxyalkanoic acid (PHA) was separately accumulated in the two pseudomonads Pseudomonas putida BM01 and Pseudomonas citronellolis (ATCC 13674) to investigate any structural difference between the two PHA accumulated under a similar culture condition using one-step culture technique. The resulting polymers were isolated by chloroform solvent extraction and characterized by fractional precipitation and differential scanning calorimetry. The solvent fractionation analysis showed that the PHA synthesized by P. putida was separated into two fractions, 3-hydroxy-5-phenylvalerate (3HPV))-rich PHA fraction in the precipitate phase and 3-hydroxyoctanoate (3HO)-rich PHA fraction in the solution phase whereas the PHA produced by P. citronellolis exhibited a rather little compositional separation into the two phases. According to the thermal analysis, the P. putida PHA exhibited two glass transitions indicative of the PHA not being homogeneous whereas the P. citronellolis PHA exhibited only one glass transition. It was found that the structural heterogeneity of the P. putida PHA was caused by a significant difference in the assimilation rate between PV and OA. The structural heterogeneity present in the P. putida PHA was also confirmed by a first order degradation kinetics analysis of the PHA in the cells. The two different first-order degradation rate constants (k₁), 0.087 and 0.015/h for 3HO- and 3HPV-unit, respectively, were observed in a polymer system over the first 20 h of degradation. In the later degradation period, the disappearance rate of 3HO-unit was calculated to be 0.020 h. The k₁ value of 0.083/h, almost the same as for the 3HO-unit in the P. putida PHA, was obtained for the P(3HO) accumulated in P. putida BM01 grown on OA as the only carbon source. In addition, the k₁ value of 0.015/h for the 3HPV-unit in the P. putida PHA, was also close to 0.019/h for the P(3HPV) homopolymer accumulated in P. putida BM01 grown on PV plus butyric acid. On the contrary, the k₁ values for the P. citronellolis PHA were determined to be 0.035 and 0.029/h for 3HO- and 3HPV-unit, respectively, thus these two relatively close values implying a random copolymer nature of the P. citronellolis PHA. In addition, the faster degradation of P(3HO) than P(3HPV) by the intracellular P. putida PHA depolymerase indicates that the enzyme is more specific against the aliphatic PHA than the aromatic PHA.     

A novel Pseudomonas putida strain with high levels of hydantoin-converting activity, producing -amino acids

Optically pure chiral amino acids and their derivatives can be efficiently synthesised by the biocatalytic conversion of 5-substituted hydantoins in reactions catalysed by stereo-selective microbial enzymes: initially a hydantoinase catalyses the cleavage of the hydantoin producing an N-carbamyl amino acid. In certain bacteria where an N-carbamyl amino acid amidohydrolase (NCAAH) is present, the N-carbamyl amino acid intermediate is further converted to amino acid, ammonia and CO₂. In this study we report on a novel Pseudomonas putida strain which exhibits high levels of hydantoin-converting activity, yielding -amino acid products including alanine, valine, and norleucine, with bioconversion yields between 60% and 100%. The preferred substrates are generally aliphatic, but not necessarily short chain, 5-alkylhydantoins. In characterizing the enzymes from this microorganism, we have found that the NCAAH has -selectivity, while the hydantoinase is non-stereoselective. In addition, resting cell reactions under varying conditions showed that the hydantoinase is highly active, and is not subject to substrate inhibition, or product inhibition by ammonia. The rate-limiting reaction appears to be the NCAAH-catalysed conversion of the intermediate. Metal-dependence studies suggest that the hydantoinase is dependent on the presence of magnesium and cobalt ions, and is strongly inhibited by the presence of copper ions. The relative paucity of -selective hydantoin-hydrolysing enzyme systems, together with the high level of hydantoinase activity and the unusual substrate selectivity of this P. putida isolate, suggest that is has significant potential in industrial applications.     

PHAMCL biosynthesis systems in Pseudomonas aeruginosa and Pseudomonas putida strains show differences on monomer specificities

The production of PHA from plant oils by Pseudomonas species soil isolated from a sugarcane crop was evaluated. Out of 22 bacterial strains three were able to use efficiently plant oils to grow and to accumulate PHA. Pseudomonas putida and Pseudomonas aeruginosa strains produced PHA presenting differences on monomer composition compatible with variability on monomer specificity of their PHA biosynthesis system. The molar fraction of 3-hydroxydodecanoate detected in the PHA was linearly correlated to the oleic acid supplied. A non-linear relationship between the molar fractions of 3-hydroxy-6-dodecenoate (3HDdΔ₆) detected in PHA and the linoleic acid supplied was observed, compatible with saturation in the biosynthesis system capability to channel intermediate of β-oxidation to PHA synthesis. Although P. putida showed a higher 3HDdΔ₆ yield from linoleic acid when compared to P. aeruginosa, in both species it was less than 10% of the maximum theoretical value. These results contribute to the knowledge about the biosynthesis of PHA with a controlled composition from plant oils allowing in the future establishing the production of these polyesters as tailor-made polymers.     

Pseudomonas putida KT2440低特异性L-苏氨酸醛缩酶的表达、酶学性质及温度稳定性提高

【目的】从Pseudomonas putida KT2440基因组中,钓取低特异性L-苏氨酸醛缩酶基因(lta E),构建重组大肠杆菌。研究目标酶的酶学性质,和关键氨基酸位点突变对酶活和温度稳定性的影响。【方法】以P. putida KT2440基因组DNA为模板,PCR扩增出lta E基因,构建重组表达质粒p ET28a-KT2440并转化Escherichia coli BL21 (DE3),获得重组菌E. coli BL21 (DE3)/p ET-KT2440,利用Ni~(2+)柱亲和层析纯化低特异性L-苏氨酸醛缩酶(LTA),对关键氨基酸位点Thr206和Lys207实施定点突变。【结果】SDS-PAGE结果表明LTA在大肠杆菌中获得高效表达,分子量为40k Da左右,与理论值大小相符。Ni~(2+)柱亲和层析纯化LTA,获得单一条带。利用双酶耦联法测得LTA酶活为5577.3U/mg,最适反应温度为50°C,最适p H为8.0。在温度低于45°C,p H 5.0-9.0时,重组酶较稳定。LTA酶的Km和kcat值为23.95 mmol/L和19216.6 s–1。Mg~(2+)、Ca~(2+)金属离子对LTA有明显的促进作用,而Ni~(~(2+))、Cu~(2+)、Zn~(2+)、Fe~(2+)等对酶有明显的抑制作用。该酶在叔丁基甲基醚溶剂中具有良好的耐受性,在叔丁基甲基醚中保存1h后仍保留90%以上的酶活。Thr206Ser突变明显提高了酶对温度的稳定性。Lys207对酶催化功能是必需的,该位点突变对酶活都是致死的。【结论】克隆并表达P. putida KT2440的LTA酶,研究了酶学性质,通过定点改造提高了酶的温度稳定性,筛选获得一种酶耐受性好的有机溶剂,为LTA酶在有机溶剂中高效稳定催化β-羟基-α-氨基酸奠定了较坚实的研究基础。     

Localization and organization of phenol degradation genes ofPseudomonas putida strain H

The genetic organization of the DNA region encoding the phenol degradation pathway ofPseudomonas putida H has been investigated. This strain can utilize phenol or some of its methylated derivatives as its sole source of carbon and energy. The first step in this process is the conversion of phenol into catechol. Catechol is then further metabolized via themeta-cleavage pathway into TCA cycle intermediates. Genes encoding these enzymes are clustered on the plasmid pPGH1. A region of contiguous DNA spanning about 16 kb contains all of the genetic information necessary for inducible phenol degradation. The analysis of mutants generated by insertion of transposons and cassettes indicates that all of the catabolic genes are contained in a single operon. This codes for a multicomponent phenol hydroxylase andmeta-cleavage pathway enzymes. Catabolic genes are subject to positive control by the gene product(s) of a second locus.     

恶臭假单胞菌ND6菌株catA基因的克隆和表达及其儿茶酚裂解途径探讨

恶臭假单胞菌ND6菌株的萘降解质粒pND6-1中编码儿茶酚1,2-双加氧酶的catA基因在大肠杆菌中进行了克隆和表达,并研究表达产物的酶学性质。结果表明:酶的K_m为0.019μmol/L,V_max为1.434μmol/(min.mg);具有很好的耐热性,在50℃保温45min后仍能够保留酶活力的93.7%;Fe²⁺对酶活性有显著的促进作用,其比活力是对照反应的292%;酶对4-氯儿茶酚的催化活性非常低,属于Ⅰ型儿茶酚1,2-双加氧酶。以萘为底物生长时,ND6菌株的细胞提取液中既存在催化邻位裂解途径的儿茶酚1,2-双加氧酶活性,也存在催化间位裂解途径的儿茶酚2,3-双加氧酶活性。以苯甲酸、对羟基苯甲酸和苯乙酸为唯一碳源生长时,ND6菌株细胞提取液的儿茶酚1,2-双加氧酶活性远远大于儿茶酚2,3-双加氧酶活性。表明ND6菌株既能通过儿茶酚间位裂解途径降解萘,也能通过儿茶酚邻位裂解途径降解萘,而以苯甲酸、对羟基苯甲酸和苯乙酸为诱导物时只利用儿茶酚邻位裂解途径。     

恶臭假单胞菌中3-酮脂酰ACP还原酶FabG5是脂肪酸合成关键酶

3-酮脂酰ACP还原酶(FabG)催化脂肪酸合成中的第一步还原反应,是细菌生长的关键酶之一.恶臭假单胞菌在环境污染治理和工业聚羟基脂肪酸(PHA)的生产中,都具有重要的应用价值.生物信息学分析显示,恶臭假单胞菌基因组编码6个FabG同源蛋白质,与大肠杆菌FabG相比较,PpFabG5序列相似性最高(76.5%),其他几个PpFabG也都具有较高的序列相似性(约50%).除PpFabG4之外,其他的同源蛋白质都具有催化活性位点和N端辅因子结合位点.为研究恶臭假单胞菌中这6个FabG同源蛋白质的生物学功能,本文进行了异体遗传互补、体外酶学活性分析、体内基因敲除与突变株性状分析等研究.结果显示,只有PpfabG1、PpfabG3、PpfabG5能恢复大肠杆菌fabG温度敏感突变株CL104在42℃时生长,其中PpfabG1互补株生长较弱.而在体外活性检测中,PpFabG1、PpFabG3和PpFabG5在脂肪酸合成起始反应和延伸反应中都具有催化活性,但PpFabG1活性较弱,PpFabG6仅在起始反应中具有催化活性. PpfabG5是恶臭假单胞菌生长的必需基因,不能被敲除,而其他几个PpfabG基因敲除后不影响菌体的生长,突变株的脂肪酸组成与野生菌也无差异.但PpfabG1、PpfabG2敲除后菌体的运动性下降,PpfabG3、PpfabG6突变影响了生物被膜的合成量,而PpfabG4、PpfabG6敲除突变株对H2O2的耐受性增强,表明这些基因具有不同的生理功能,可能在菌体的不同逆境中发挥作用.     

Isolation and Characterization of Group II Introns from Pseudomonas alcaligenes and Pseudomonas putida

Group II introns isolated from Pseudomonas alcaligenes NCIB 9867, Pseudomonas putida NCIB 9869, and P. putida KT2440 were closely related with nucleotide sequence identities of between 87 and 96%. The genome of P. alcaligenes also harbored a truncated group II intron of 682 bp that lacks the gene for the intron-encoded protein (IEP). Unlike most bacterial group II introns, the Pseudomonas introns were found to lack the Zn domains in their IEPs, did not appear to interrupt any genes, and were located downstream of open reading frames which were adjacent to hairpin loop structures that resemble rho-independent terminators. These structures also contain the intron binding sites 1 and 2 (IBS1 and IBS2 sequences) that were required for intron target site recognition in transposition. One of the group II introns found in P. alcaligenes, Xln3, was shown to have transposed from the chromosome to the endogenous pRA2 plasmid at a site adjacent to IBS1- and IBS2-like sequences.     

趋化信号转导基因cheA突变对Pseudomonas putida DLL-1甲基对硫磷的趋化性及原位降解的影响

Pseudomonas putida DLL-1是一株甲基对硫磷(MP)高效降解菌株,同时对MP具有趋化性。cheA基因是菌株趋化信号转导过程中负责编码组氨酸激酶的基因,为了研究菌株趋化性在农药原位降解中的作用,通过基因打靶的方式使P.putida DLL-1染色体上单拷贝的cheA基因失活,成功地获得了MP的趋化突变株P.putida DAK,突变株与野生菌株生长能力没有显著差异。通过土壤盆钵试验(MP浓度为50mg/kg),发现在灭菌与未灭菌土壤中趋化突变株对MP的降解能力低于原始出发菌株DLL-1约20%~30%,说明菌株DLL-1趋化性的丧失会减慢其对农药的降解,趋化性在农药的原位降解过程中发挥重要作用。     

Isolation and Characterization of a Pseudomonas putida Strain able to Grow with Trimethyl-1,2-dihydroxy-propyl-ammonium as Sole Source of Carbon, Energy and Nitrogen

Trimethyl-1,2-dihydroxypropyl-ammonium (TM) originates from the hydrolysis of the parent esterquat surfactant, which is widely used as softener in fabric care. Based on test procedures mimicking complex biological systems, TM is supposed to degrade completely when reaching the environment. However, no organisms able to degrade TM were isolated nor has the degradation pathway been elucidated so far. We isolated a Gram-negative rod able to grow with TM as sole source of carbon, energy and nitrogen. The strain reached a maximum specific growth rate of 0.4 h^–1 when growing with TM as the sole source of carbon, energy and nitrogen. TM was degraded to completion and surplus nitrogen was excreted as ammonium into the growth medium. A high percentage of the carbon in TM (68% in continuous culture and 60% in batch culture) was combusted to CO₂ resulting in a low yield of 0.54 mg cell dry weight per mg carbon during continuous cultivation and 0.73 mg cell dry weight per mg carbon in batch cultures. Choline, a natural structurally related compound, served as a growth substrate, whereas a couple of similar other quaternary aminoalcohols also used in softeners did not. The isolated bacterium was identified by 16S-rDNA sequencing as a strain of Pseudomonas putida with a difference of only one base pair to P. putida DSM 291^T. Despite their high identity, the reference strain P. putida DSM 291^T was not able to grow with TM and the two strains differed even in shape when growing on the same medium. This is the first microbial isolate able to degrade a quaternary ammonium softener head group to completion. Previously described strains growing on quaternary ammonium surfactants (decyltrimethylammonium, hexadecyltrimethylammonium and didecyldimethylammonium) either excreted metabolites or a consortium of bacteria was required for complete degradation.     

Identification of the coding region for the putidaredoxin reductase gene from the plasmid of Pseudomonas putida

The first 12 NH₂-terminal amino acids of the Pseudomonas putida putidaredoxin reductase were shown to be Met-Asn-Ala-Asn-Asp-Asn-Val-Val-Ile-Val-Gly-Thr. Comparison of these data with the DNA sequence of the BamHI-HindIII 197-base fragment derived from the PstI 2.2-kb fragment obtained from the P. putida plasmid showed that the putidaredoxin reductase gene was downstream from the cytochrome P-450 gene and the intergenic region had the 24-nucleotide sequence TAAACACATGGGAGTGCGTGCTAA. The Shine-Dalgarno sequence GGAG was detected in this region. The initiating triplet for the reductase gene was GTG, which normally codes for valine, but in the initiating codon position codes for methionine. From the amino acid sequence and X-ray data comparisons with other flavoproteins, what appears to be the AMP binding region of the FAD can be recognized in the NH₂-terminal portion of the reductase involving residues 5–35.This article was presented during the proceedings of the International Conference on Macromolecular Structure and Function, held at the National Defence Medical College, Tokorozawa, Japan, December 1985.     

Microbial production of 3-hydroxydodecanoic acid by pha operon and fadBA knockout mutant of Pseudomonas putida KT2442 harboring tesB gene

To produce extracellular chiral 3-hydroxyacyl acids (3HA) by fermentation, a novel pathway was constructed by expressing tesB gene encoding thioesterase II into Pseudomonas putida KTOY01, which was a polyhydroxyalkanoate (PHA) synthesis operon knockout mutant. 3HA mixtures of 0.35 g/l consisting of 3-hydroxyhexanoate, 3-hydroxyoctanoate, 3-hydroxydecanoate, and 3-hydroxydodecanoate (3HDD) were produced in shake-flask study using dodecanoate as a sole carbon source. Additional knockout of fadB and fadA genes encoding 3-ketoacyl-CoA thiolase and 3-hydroxyacyl-CoA dehydrogenase in P. putida KTOY01 led to the weakening of the β-oxidation pathway. The fadBA and PHA synthesis operon knockout mutant P. putida KTOY07 expressing tesB gene produced 2.44 g/l 3HA, significantly more than that of the β-oxidation intact mutant. The 3HA mixture contained 90 mol% 3HDD as a dominant component. A fed-batch fermentation process carried out in a 6-l automatic fermentor produced 7.27 g/l extracellular 3HA containing 96 mol% fraction of 3HDD after 28 h of growth. For the first time, it became possible to produce 3HDD-dominant 3HA monomers. Ahleum Chung and Qian Liu contributed equally to this paper.     

Characterization of type II protein secretion (xcp) genes in the plant growth-stimulatingPseudomonas putida, strain WCS358

InPseudomonas aeruginosa, the products of thexcp genes are required for the secretion of exoproteins across the outer membrane. Despite structural conservation of the Xcp components, secretion of exoproteins via the Xcp pathway is generally not found in heterologous organisms. To study the specificity of this protein secretion pathway, thexcp genes of another fluorescent pseudomonad, the plant growth-promotingPseudomonas putida strain WCS358, were cloned and characterized. Nucleotide sequence analysis revealed the presence of at least five genes, i.e.,xcpP, Q, R, S, andT, with homology toxcp genes ofP. aeruginosa. Unlike the genetic organization inP. aeruginosa, where thexcp cluster consists of two divergently transcribed operons, thexcp genes inP. putida are all oriented in the same direction, and probably comprise a single operon. Upstream ofxcpP inP. putida, an additional open reading frame, with no homolog inP. aeruginosa, was identified, which possibly encodes a lipoprotein. Mutational inactivation ofxcp genes inP. putida did not affect secretion, indicating that no proteins are secreted via the Xcp system under the growth conditions tested, and that an alternative secretion system is operative. To obtain some insight into the secretory pathway involved, the amino acid sequence of the N-terminus of the major extracellular protein was determined. The protein could be identified as flagellin. Mutations in thexcpQ andR genes ofP. aeruginosa could not be complemented by introduction of the correspondingxcp genes ofP. putida. However, expression of a hybrid XcpR protein, composed of the N-terminal one-third ofP. aeruginosa XcpR and the C-terminal two-thirds ofP. putida XcpR, did restore protein secretion in aP. aeruginosa xcpR mutant.     

AI-2通过甲基化趋化受体McpU调控恶臭假单胞菌KT2440的趋化运动及生物膜形成

[背景]广泛存在于革兰氏阴性菌和革兰氏阳性菌中的自诱导物autoinducer-2 (AI-2)能够介导细菌种内和种间通讯,并调节细菌的多种生理过程.然而恶臭假单胞菌KT2440能否感知AI-2信号还未见报道.[目的]挖掘介导恶臭假单胞菌KT2440对AI-2趋化反应的趋化受体,检测AI-2信号通过趋化受体对恶臭假单胞...     

Dismutation and cross-dismutation of aldehydes, and alcohol: aldehyde oxidoreduction by resting-cells of Pseudomonas putida F61-a

Pseudomonas putida F61-a defective in formaldehyde dehydrogenase was derived from the parent strain (F61). The bacterial strain grown on a nutrient broth supplemented with 1% glucose exhibited high formaldehyde dismutase activity. The dismutation and cross-dismutation of aldehydes occurred stoichiometrically in the resting-cells reaction. Many kinds of aliphatic and aromatic aldehydes that are scarcely soluble in water were utilized in these reactions as well as soluble ones. Formaldehyde at an extremely high concentration (0.5 M) was almost completely converted to equimolar amounts of methanol and formic acid by the resting-cells, which could be used three times without a loss of activity. The cross-dismutation between acrolein and formaldehyde occurred efficiently in the resting-cells reaction with 0.1 M each substrate. The alcohol: aldehyde oxidoreduction of the short-chain substrates was also shown by the resting-cells of a mutant (M6) unable to grow on n-propanol.     

铜绿假单胞菌cntRLMN操纵子介导锌离子摄取的功能鉴定

【目的】本研究以铜绿假单胞菌PAO1 (Pseudomonas aeruginosa PAO1,菌种编号ATCC15692)为对象,研究cntRLMN在锌离子摄取中的功能。【方法】在ΔznuBC的基础上,以同源重组的方法构建了cntRLMN的各种突变菌株,通过质粒接合转移的方法构建其互补菌株及lacZ转录融合报告菌株,运用β-半乳糖苷酶酶活检测研究了Zur蛋白对cntRLMN的转录调控,凝胶阻滞实验(EMSA)检验Zur蛋白与cnt启动子及cnt启动子的突变片段的体外结合,并进一步通过生长曲线分析对cntRLMN中cntR、cntL、cntN等基因的锌离子摄取功能进行了分析和鉴定。最终,通过构建大蜡螟幼虫的侵染模型来研究cntRLMN对铜绿假单胞菌毒力发挥的影响。【结果】lacZ转录融合的酶活分析显示cntRLMN受Zur蛋白的负调控,其表达以Zur蛋白依赖的方式受锌离子饥饿的诱导;EMSA实验的结果显示cntRLMN的启动子可以与His-Zur结合形成DNA-蛋白质复合体,结合位点为GCGTTATAGTATATCAT;生长曲线和大蜡螟幼虫侵染实验的分析结果显示ZnuBC和CntRLMN的功能存在互补性,仅znuBC和cntRLMN双缺失突变时菌株在限锌培养条件下的生长和对大蜡螟幼虫的毒性才受到显著抑制,说明CntRLMN代表另一种独立的锌离子摄取系统。【结论】cntRLMN是受Zur直接负调控的另一种独立的铜绿假单胞菌锌离子摄取系统,对铜绿假单胞菌毒力的发挥起重要作用。