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1.
The pullulanase gene (pul) of Klebsiella aerogenes was cloned into a pBR322 vector in Escherichia coli. Deletion analysis of the recombinant plasmid showed that the pul coding sequence, probably with the regulator gene, was located entirely within a 4.2-kilobase segment derived from the chromosomal DNA of K. aerogenes. E. coli cells carrying the recombinant plasmids produced about three- to sevenfold more pullulanase than did the wild-type strain of K. aerogenes W70. When the cloned cells of E. coli were grown with pullulan or maltose, most pullulanase was produced intracellularly, whereas K. aerogenes produced pullulanase extracellularly. Transfer of the plasmid containing the pul gene into K. aerogenes W70 resulted in about a 20- to 40-fold increase in total production of pullulanase, and the intracellular enzyme level was about 100- to 150-fold higher than that of the parent strain W70. The high level of pullulanase activity in K. aerogenes cells carrying the recombinant plasmid was maintained for at least 2 weeks.  相似文献   

2.
The pullulanase gene (pul) of Klebsiella aerogenes was cloned into a pBR322 vector in Escherichia coli. Deletion analysis of the recombinant plasmid showed that the pul coding sequence, probably with the regulator gene, was located entirely within a 4.2-kilobase segment derived from the chromosomal DNA of K. aerogenes. E. coli cells carrying the recombinant plasmids produced about three- to sevenfold more pullulanase than did the wild-type strain of K. aerogenes W70. When the cloned cells of E. coli were grown with pullulan or maltose, most pullulanase was produced intracellularly, whereas K. aerogenes produced pullulanase extracellularly. Transfer of the plasmid containing the pul gene into K. aerogenes W70 resulted in about a 20- to 40-fold increase in total production of pullulanase, and the intracellular enzyme level was about 100- to 150-fold higher than that of the parent strain W70. The high level of pullulanase activity in K. aerogenes cells carrying the recombinant plasmid was maintained for at least 2 weeks.  相似文献   

3.
The expressed gene (pul) for a thermostable pullulanase from Clostridium thermohydrosulfuricum was cloned into Escherichia coli. The enzyme was purified from cell extracts of E. coli by thermoinactivation, ammonium sulphate precipitation and gel exclusion. The purified enzyme was characterized as monomer with both pullulanase and glucoamylase activities. The general physico-chemical and catalytic properties of this enzyme were obtained. In particular, pullulanase and glucoamylase activities were stable and optimally active at 65 degrees C. The pH optimum for activity was 5.8. The amino acid composition and amino acid sequence of N-terminal end were estimated.  相似文献   

4.
The fatty acid-acylated enzyme pullulanase is normally found in either of two locations in Escherichia coli, depending on whether or not the producing strains also express the genes specifically required for the second step in pullulanase secretion. When they are expressed, the enzyme is localized to the cell surface, while in their absence, it is directed to an unidentified location in the cell envelope which, upon lysis, forms vesicles whose density is intermediate between those of outer and cytoplasmic membrane vesicles. In order to test the role of the putative lipoprotein sorting signal, Asp2, in pullulanase sorting and secretion, the structural gene (pulA) was subjected to site-directed mutagenesis. Replacement of the Asp2 residue by Asn, Glu, or Ser caused the enzyme to fractionate with outer membrane-derived vesicles rather than with intermediate density vesicles from E. coli cells devoid of pullulanase secretion genes. A pronounced secretion defect was observed in a two-step secretion assay in which the first (sec gene-dependent) and second (pul gene-dependent) secretion steps were uncoupled. We propose that the Asp residue increases the efficiency of pullulanase secretion by allowing the enzyme to be initially sorted to a region of the cell envelope wherein most of the pullulase-specific secretion factors are located.  相似文献   

5.
When expressed in Escherichia coli, the 15 Klebsiella oxytoca pul genes that encode the so-called Pul secreton or type II secretion machinery promote pullulanase secretion and the assembly of one of the secreton components, PulG, into pili. Besides these pul genes, efficient pullulanase secretion also requires the host dsbA gene, encoding a periplasmic disulfide oxidoreductase, independently of disulfide bond formation in pullulanase itself. Two secreton components, the secretin pilot protein PulS and the minor pseudopilin PulK, were each shown to posses an intramolecular disulfide bond whose formation was catalyzed by DsbA. PulS was apparently destabilized by the absence of its disulfide bond, whereas PulK stability was not dramatically affected either by a dsbA mutation or by the removal of one of its cysteines. The pullulanase secretion defect in a dsbA mutant was rectified by overproduction of PulK, indicating reduced disulfide bond formation in PulK as the major cause of the secretion defect under the conditions tested (in which PulS is probably present in considerable excess of requirements). PulG pilus formation was independent of DsbA, probably because PulK is not needed for piliation.  相似文献   

6.
克隆嗜热枯草芽孢杆菌WY-34普鲁兰酶基因并在大肠杆菌中进行表达,对重组酶进行纯化和酶学性质研究,根据枯草芽孢杆菌的普鲁兰酶蛋白序列,设计PCR引物对WY-34的普鲁兰酶基因进行克隆及异源表达.对表达蛋白的最适pH、pH稳定性及最适温度、温度稳定性等特性进行研究,并测定重组普鲁兰酶的底物特异性.将普鲁兰酶基因pluA克隆及分析序列后,发现基因长度为2.2 kb,编码718个氨基酸,在大肠杆菌中异源表达.通过Ni-IDA亲和层析一步纯化得到比活力为93.2 U/mg的纯酶,SDS-PAGE和凝胶层析测定的分子量分别为76.2 kD和74.3 kD.酶学性质研究表明,该酶的最适温度为40℃,在温度不高于45℃条件下稳定;最适pH为6.0,同一温度下pH 6.0-9.0范围内处理30 min可以保持80%以上的酶活力,此酶对普鲁兰糖有很强的底物特异性.此重组普鲁兰酶的酶学性质表明此酶具有一定的工业化应用价值.  相似文献   

7.
Abstract The gene coding for a thermostable pullulanase from a thermophile, Thermus sp. strain AMD-33, was cloned in Escherichia coli using pDR540 as a vector. A restriction map was determined for the plasmid pTPS131 which contained the fragment carrying the pullulanase gene. DNA-DNA hybridisation analysis showed that the DNA fragment contained the gene from Thermus sp. strain AMD-33. The strain of E. coli harbouring the plasmid pTPS131 produced most of the pullulanase protein cellularly, whereas Thermus sp. strain AMD-33 produced pullulanase extracellularly. Comparative studies of the enzyme from the thermophile and the plasmid-encoded enzyme in E. coli demonstrated that the optimum temperature and pH of the enzymes were closely similar.  相似文献   

8.
Linker insertions in the pullulanase structural gene (pulA) were examined for their effects on pullulanase activity and cell surface localization in Escherichia coli carrying the cognate secretion genes from Klebsiella oxytoca. Of the 23 insertions, 11 abolished pullulanase activity but none were found to prevent secretion. To see whether more drastic changes affected secretion, we fused up to five reporter proteins (E. coli periplasmic alkaline phosphatase, E. coli periplasmic maltose-binding protein, periplasmic TEM beta-lactamase, Erwinia chrysanthemi extracellular endoglucanase Z, and Bacillus subtilis extracellular levansucrase) to three different positions in the pullulanase polypeptide: close to the N terminus of the mature protein, at the C terminus of the protein, or at the C terminus of a truncated pullulanase variant lacking the last 256 amino acids. Only 3 of the 13 different hybrids were efficiently secreted: 2 in which beta-lactamase was fused to the C terminus of full-length or truncated pullulanase and 1 in which maltose-binding protein was fused close to the N terminus of pullulanase. Affinity-purified endoglucanase-pullulanase and pullulanase-endoglucanase hybrids exhibited apparently normal levels of pullulanase activity, indicating that the conformation of the pullulanase segment of the hybrid had not been dramatically altered by the presence of the reporter. However, pullulanase-endoglucanase hybrids were secreted efficiently if the endoglucanase component comprised only the 60-amino-acid, C-terminal cellulose-binding domain, suggesting that at least one factor limiting hybrid protein secretion might be the size of the reporter.  相似文献   

9.
The gene encoding a type I pullulanase was identified from the genome sequence of the anaerobic thermoalkaliphilic bacterium Anaerobranca gottschalkii. In addition, the homologous gene was isolated from a gene library of Anaerobranca horikoshii and sequenced. The proteins encoded by these two genes showed 39% amino acid sequence identity to the pullulanases from the thermophilic anaerobic bacteria Fervidobacterium pennivorans and Thermotoga maritima. The pullulanase gene from A. gottschalkii (encoding 865 amino acids with a predicted molecular mass of 98 kDa) was cloned and expressed in Escherichia coli strain BL21(DE3) so that the protein did not have the signal peptide. Accordingly, the molecular mass of the purified recombinant pullulanase (rPulAg) was 96 kDa. Pullulan hydrolysis activity was optimal at pH 8.0 and 70 degrees C, and under these physicochemical conditions the half-life of rPulAg was 22 h. By using an alternative expression strategy in E. coli Tuner(DE3)(pLysS), the pullulanase gene from A. gottschalkii, including its signal peptide-encoding sequence, was cloned. In this case, the purified recombinant enzyme was a truncated 70-kDa form (rPulAg'). The N-terminal sequence of purified rPulAg' was found 252 amino acids downstream from the start site, presumably indicating that there was alternative translation initiation or N-terminal protease cleavage by E. coli. Interestingly, most of the physicochemical properties of rPulAg' were identical to those of rPulAg. Both enzymes degraded pullulan via an endo-type mechanism, yielding maltotriose as the final product, and hydrolytic activity was also detected with amylopectin, starch, beta-limited dextrins, and glycogen but not with amylose. This substrate specificity is typical of type I pullulanases. rPulAg was inhibited by cyclodextrins, whereas addition of mono- or bivalent cations did not have a stimulating effect. In addition, rPulAg' was stable in the presence of 0.5% sodium dodecyl sulfate, 20% Tween, and 50% Triton X-100. The pullulanase from A. gottschalkii is the first thermoalkalistable type I pullulanase that has been described.  相似文献   

10.
Some strains of Klebsiella pneumonia secrete pullulanase, a debranching enzyme which produces linear molecules (maltodextrins, amylose) from amylopectin and glycogen. pulA, the structural gene for pullulanase, was introduced into Escherichia coli, either on a multiple-copy-number plasmid or as a single copy in the chromosome. When in E. coli, pulA was controlled by malT, the positive regulatory gene of the maltose regulon. Indeed, pulA expression was undetectable in a malT-negative mutant and constitutive in a malTc strain. Furthermore, the plasmid carrying pulA titrated the MalT protein. When produced in E. coli, pullulanase was not localized in the same way as in K. pneumoniae. In the latter case it was first exported to the outer membrane, with which it remained loosely associated, and was then released into the growth medium. In E. coli the enzyme was distributed both in the inner and the outer membranes and was never released into the growth medium.  相似文献   

11.
Hybrid proteins were constructed in which C-terminal regions of the bacterial cell surface and extracellular protein pullulanase were replaced by the mature forms of the normally periplasmic Escherichia coli proteins beta-lactamase or alkaline phosphatase. In E. coli strains expressing all pullulanase secretion genes, pullulanase-beta-lactamase hybrid protein molecules containing an N-terminal 834-amino-acid pullulanase segment were efficiently and completely transported to the cell surface. This hybrid protein remained temporarily anchored to the cell surface, presumably via fatty acids attached to the N-terminal cysteine of the pullulanase segment, and was subsequently specifically released into the medium in a manner indistinguishable from that of pullulanase itself. These results suggest that the C-terminal extremity of pullulanase lacks signal(s) required for export to the cell surface. When beta-lactamase was replaced by alkaline phosphatase, the resulting hybrid also became exposed at the cell surface, but exposition was less efficient and specific release into the medium was not observed. We conclude that proteins that do not normally cross the outer membrane can be induced to do so when fused to a permissive site near the C-terminus of pullulanase.  相似文献   

12.
A series of fusions between the gene for the Klebsiella pneumoniae secreted lipoprotein pullulanase (pulA) and the genes for cytoplasmic beta-galactosidase (lacZ) or periplasmic alkaline phosphatase (phoA) were created by transposon mutagenesis using mini-MudII1681 or TnphoA, respectively. The hybrid genes were expressed in Escherichia coli K-12 with or without the K. pneumoniae genes that promote pullulanase secretion in E. coli. We characterized seven different pulA-lacZ gene fusions encoding hybrid polypeptides containing from 14 to c. 1060 residues of pro-pullulanase. All but the smallest hybrid were fatty acylated and were toxic to producing cells, causing the accumulation of precursors of other exported proteins. Four different pulA-phoA gene fusions encoded hybrids with alkaline phosphatase activity. All four hybrids were fatty acylated, but were not toxic. Although the hybrids were apparently membrane-associated, they were not secreted into the medium either by E. coli carrying pullulanase secretion genes or by K. pneumoniae. Immunofluorescence tests indicated that the pullulanase secretion genes promoted the localization of one of these hybrids to the outer face of the E. coli outer membrane, which may have important implications for the design of live vaccine strains and of immobilized enzymes.  相似文献   

13.
This article describes the reconstitution in Escherichia coli of a heterologous protein secretion system comprising a gene for an extracellular protein together with its cognate secretion genes. The protein concerned, pullulanase, is a secreted lipoprotein of the Gram-negative bacterium Klebsiella pneumoniae. It is initially localized to the cell surface before being specifically released into the medium. E. coli carrying the cloned pullulanase structural gene (pulA) produces pullulanase but does not expose or secrete it. Secretion genes were cloned together with pulA in an 18.8 kbp fragment of K. pneumoniae chromosomal DNA. E. coli carrying this fragment exhibited maltose-inducible production, exposition and specific secretion of pullulanase. Transposon mutagenesis showed that the secretion genes are located on both sides of pulA. Secretion genes located 5' to pulA were transcribed in the opposite orientation to pulA under the control of the previously identified, malT-regulated malX promoter. Thus these secretion genes are part of the maltose regulon and are therefore co-expressed with pulA. Transposon mutagenesis suggested that secretion genes located 3' of pulA are not co-transcribed with pulA, raising the possibility that some secretion functions are not maltose regulated.  相似文献   

14.
The gene encoding a type I pullulanase from the hyperthermophilic anaerobic bacterium Thermotoga neapolitana (pulA) was cloned in Escherichia coli and sequenced. The pulA gene from T. neapolitana showed 91.5% pairwise amino acid identity with pulA from Thermotoga maritima and contained the four regions conserved in all amylolytic enzymes. pulA encodes a protein of 843 amino acids with a 19-residue signal peptide. The pulA gene was subcloned and overexpressed in E. coli under the control of the T7 promoter. The purified recombinant enzyme (rPulA) produced a 93-kDa protein with pullulanase activity. rPulA was optimally active at pH 5-7 and 80°C and had a half-life of 88 min at 80°C. rPulA hydrolyzed pullulan, producing maltotriose, and hydrolytic activities were also detected with amylopectin, starch, and glycogen, but not with amylose. This substrate specificity is typical of a type I pullulanase. Thin layer chromatography of the reaction products in the reaction with pullulan and aesculin showed that the enzyme had transglycosylation activity. Analysis of the transfer product using NMR and isoamylase treatment revealed it to be α-maltotriosyl-(1,6)-aesculin, suggesting that the enzyme transferred the maltotriosyl residue of pullulan to aesculin by forming α-1,6-glucosidic linkages. Our findings suggest that the pullulanase from T. neapolitana is the first thermostable type I pullulanase which has α-1,6-transferring activity.  相似文献   

15.
对地衣芽孢杆菌基因组序列分析显示。其中标注为amyX的基因可能编码普鲁兰酶。以PCR方法,从地衣芽孢杆菌染色体DNA中扩增出amyX基因蛋白编码区,插入大肠杆菌表达载体pET28aT7启动予下游。含重组质粒的大肠杆菌BL21(DE3)在IPTG诱导下表达出有活性的普鲁兰酶。酶学性质初步分析表明,重组普鲁兰酶最适反应温度为40℃,最适pH值为6.0。  相似文献   

16.
以表达普鲁兰酶的重组大肠杆菌作为出发菌株,在摇瓶培养的基础上,建立了大肠杆菌工程菌产普鲁兰酶的高密度发酵工艺。通过测定细胞密度、细胞干重、分离菌体可溶性成分与不溶性成分及SDS-PAGE电泳,分析重组大肠杆菌的生长和普鲁兰酶的表达情况。摇瓶试验使用合成培养基和LB培养基,重组大肠杆菌在合成培养基生长较慢,诱导5 h的普鲁兰酶表达量高于LB培养基,包涵体比例低于LB培养基。重组大肠杆菌的高密度发酵使用合成培养基,补料阶段采用指数流加的工艺,在设定细胞的比生长速率为0.12的前提下,限制补料中碳源的供应,以阻止乙酸的产生。当细胞密度OD600达到70.0开始诱导,最终细胞密度为每升53.3 g细胞干重,细胞内可溶性普鲁兰酶为每升1.35 g。  相似文献   

17.
Results from previous studies have suggested that an intramolecular disulphide bond in the exoprotein pullulanase is needed for its recognition and transport across the outer membrane. This interpretation of the data is shown here to be incorrect: pullulanase devoid of all potential disulphide bonds is secreted with apparently the same efficiency as the wild-type protein. Furthermore, the periplasmic disulphide bond, oxidoreductase DsbA, previously shown to catalyse the formation of a disulphide bond in pullulanase and to decrease its transit time in the periplasm, is shown here to be required for the rapid secretion of pullulanase devoid of disulphide bonds. Several possible explanations for the role of DsbA in pullulanase secretion are discussed.  相似文献   

18.
The secreton (type II secretion) and type IV pilus biogenesis branches of the general secretory pathway in Gram-negative bacteria share many features that suggest a common evolutionary origin. Five components of the secreton, the pseudopilins, are similar to subunits of type IV pili. Here, we report that when the 15 genes encoding the pullulanase secreton of Klebsiella oxytoca were expressed on a high copy number plasmid in Escherichia coli, one pseudopilin, PulG, was assembled into pilus-like bundles. Assembly of the 'secreton pilus' required most but not all of the secreton components that are essential for pullulanase secretion, including some with no known homologues in type IV piliation machineries. Two other pseudopilins, pullulanase and two outer membrane-associated secreton components were not associated with pili. Thus, PulG is probably the major component of the pilus. Expression of a type IV pilin gene, the E.coli K-12 gene ppdD, led to secreton-dependent incorporation of PpdD pilin into pili without diminishing pullulanase secretion. This is the first demonstration that pseudopilins can be assembled into pilus-like structures.  相似文献   

19.
根据文献报道的核苷酸序列合成Bacillus deramificans普鲁兰酶成熟肽编码基因BdP。将BdP基因插入芽孢杆菌分泌表达载体pUC980信号肽编码区下游,获得重组质粒pUC980-BdP,重组质粒转化中温α-淀粉酶生产菌解淀粉芽孢杆菌BF7658菌株。摇瓶发酵实验表明,重组转化子发酵液有明显普鲁兰酶酶活,约48h酶活达到最高水平,为2.8ASPU/mL。酶学性质分析表明,重组酶最适作用温度约为60℃,最适反应pH为5.0,60℃保温3h仍保存50%的活性。重组酶性质适合淀粉糖化工艺的要求。  相似文献   

20.
The gene encoding the type I pullulanase from the extremely thermophilic anaerobic bacterium Fervidobacterium pennavorans Ven5 was cloned and sequenced in Escherichia coli. The pulA gene from F. pennavorans Ven5 had 50.1% pairwise amino acid identity with pulA from the anaerobic hyperthermophile Thermotoga maritima and contained the four regions conserved among all amylolytic enzymes. The pullulanase gene (pulA) encodes a protein of 849 amino acids with a 28-residue signal peptide. The pulA gene was subcloned without its signal sequence and overexpressed in E. coli under the control of the trc promoter. This clone, E. coli FD748, produced two proteins (93 and 83 kDa) with pullulanase activity. A second start site, identified 118 amino acids downstream from the ATG start site, with a Shine-Dalgarno-like sequence (GGAGG) and TTG translation initiation codon was mutated to produce only the 93-kDa protein. The recombinant purified pullulanases (rPulAs) were optimally active at pH 6 and 80 degrees C and had a half-life of 2 h at 80 degrees C. The rPulAs hydrolyzed alpha-1,6 glycosidic linkages of pullulan, starch, amylopectin, glycogen, alpha-beta-limited dextrin. Interestingly, amylose, which contains only alpha-1,4 glycosidic linkages, was not hydrolyzed by rPulAs. According to these results, the enzyme is classified as a debranching enzyme, pullulanase type I. The extraordinary high substrate specificity of rPulA together with its thermal stability makes this enzyme a good candidate for biotechnological applications in the starch-processing industry.  相似文献   

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