Altered secretary efficiency of Streptomyces hygroscopicus transglutaminase in Escherichia coli by the pro-peptide modification

Streptomyces transglutaminase (TGase) is naturally synthesized as a zymogen (pro-TGase), which is then processed to produce the active enzyme through removal of its pro-peptide. In this study, we investigated the effect of the pro-peptide on the secretion of Streptomyces hygroscopicus TGase in Escherichia coli by modifying its pro-peptide. Four N-terminal amino acid residues (Tyr12, Asn27, Asn30, and Arg32) in the pro-peptide predicted to interact with TGase region through hydrogen bonds. When the four amino acid residues were mutated into Ala, the secretion of TGase was partially or completely inhibited. Furthermore, deletion of the C-terminal α-helix^37–42 in the pro-peptide concomitantly decreased the secretion of TGase. However, deletion of the C-terminal loop^43–52 of the pro-peptide, resulted in increased secretion of TGase by approximately 70% as compared with the control native pro-peptide. These findings indicate that modification of the pro-peptide has a significant impact on the secretory efficiency of TGase in E. coli.     

Streptomyces hygroscopicus谷氨酰胺转胺酶酶原基因的鉴定及在大肠杆菌中的表达

[目的]鉴定来源于吸水链霉菌的谷氨酰胺转胺酶基因;研究其在大肠杆菌系统的克隆与表达;分析该酶与其同源酶的活性中心氨基酸序列.[方法]从本实验室筛选的吸水链霉菌(Streptomyces hygroscopicus;CCTCC M203062)发酵液中,分离纯化得到谷氨酰胺转胺酶酶原(pro-MTGase),测得N-端前十个氨基酸序列并与其它链霉菌来源的相应基因序列比较设计引物,扩增得到pro-MTGase 基因,将该基因插入到表达载体pET-20b( )信号肽pelB下游,构建分泌型表达载体pET/pro-MTG,并转化不同的大肠杆菌宿主BL21(DE3)和Rosetta(DE3)pLysS.[结果]获得了pro-MTGase的完整基因序列,多重碱基序列比对表明其与S.platensis和S.caniferus的pro-MTGase基因同源性高达92%.利用Rosetta(DE3)pLysS通过降温至24℃诱导策略,获得部分胞外表达的酶原.SDS-PAGE显示,胞外表达重组蛋白的分子量约为44kDa,与吸水链霉菌表达的天然酶原相符.诱导4 h后发酵液中的重组酶原经胰蛋白酶活化为成熟酶后测得最高酶活为0.24U/mL.[结论]该研究是对吸水链霉菌的谷氨酰胺转胺酶基因的首次报道,也是国内首次利用大肠杆菌实现pro-MTGase的胞外可溶性表达.     

Improvement of transglutaminase production by extending differentiation phase of Streptomyces hygroscopicus: mechanism and application

Streptomyces transglutaminase (TGase) is an important industrial enzyme that catalyzes cross-linking of proteins. It is secreted as a zymogene and then is activated by proteases under physiological conditions. Although the activation process of TGase has been well investigated, the physiological function of TGase in Streptomyces has not been revealed. In this study, physiological function of TGase from Streptomyces hygroscopicus was found to be involved in differentiation by construction of a TGase gene interruption mutation strain (Δtg). The mutant Δtg showed an absence of differentiation compared with the parent strain. Furthermore, the production of TGase was found to be increased with the extending growth arrest phase of mycelium in submerged cultures. Thus, to enhance yield of TGase, the mycelium differentiation of Streptomyces was regulated via low temperature stress in a 3-L stirred-tank fermenter. The production of TGase increased by 39 % through extending the growth arrest phase for 4 h. This study found that TGase is involved in Streptomyces differentiation and proposed an approach to improve TGase production by regulation of mycelium differentiation in submerged cultures.     

Depletion of phosphatidylethanolamine affects secretion of Escherichia coli alkaline phosphatase and its transcriptional expression

In this report we demonstrate that depletion of the major phospholipid phosphatidylethanolamine, a single non-bilayer forming phospholipid of Escherichia coli, significantly reduces the secretion efficiency of alkaline phosphatase in vivo. Secretion, however, is correlated with the content in membranes of cardiolipin, which in combination with selected divalent cations has a strong tendency to adopt a non-bilayer state indicating the possible involvement of lipid polymorphism in efficient protein secretion. Depletion of this zwitterionic phospholipid also inhibits expression of the protein controlled by the endogenous P(PHO) promoter but not the P(BAD) promoter, which is suggested to be due to the effect of unbalanced phospholipid composition on the orthophosphate signal transduction system (Pho regulon) through an effect on its membrane bound sensor.     

Thermal stability and conformational changes of transglutaminase from a newly isolated Streptomyces hygroscopicus

Thermal stability and conformational changes of transglutaminase (TGase) from a newly isolated Streptomyces hygroscopicus were investigated in this study. The inactivation kinetics of the microbial transglutaminase (MTGase) was fitted using one-step inactivation model. It was much more stable under 40 degrees C. The half-lives for the MTGase at 50 degrees C and 60 degrees C were only 20 min and 8 min, respectively. Spectroscopic studies of the enzyme suggested conformational transition from ordered secondary structural elements (alpha/beta-protein) to unordered structure during thermal denaturation. Some polyols could improve the thermal stability of the enzyme. Among the polyols examined, the prolonged half-lives of 40 min at 50 degrees C and 20 min at 60 degrees C were gained by adding 10% glycerol. The results of differential scanning calorimetric (DSC) analysis showed a distinct transition peak with a significant greater Tm and DeltaH for the MTGase mixed with polyols in comparison with the control, which indicated that the polyols could maintain the natural structure of the enzyme to some extent. The SDS-PAGE electrophoresis of cross-linked casein confirmed that the stabilizers could protect the MTGase from thermal denaturation.     

Ester antibiotic accumulation by Streptomyces hygroscopicus

In an attempt to maximize the ester antibiotic production by Streptomyces hygroscopicus D1.5, its efficacy was found to be enhanced by manipulation of the nutrient and physical environment. The two stage fermentation using seed inoculum (10% v/v) resulted in better production while fermentation continued for 5 days in pH 7.0 at 30 degrees C. Enhanced yield was also observed in whole cell immobilization. Under entrapment, maximum yield was achieved at 7th and 9th day of fermentation for mycelia and spore. In addition, the beads could be reused up to the 3rd cycle.     

Heterologous expression and secretion of a Streptomyces scabies esterase in Streptomyces lividans and Escherichia coli.

The esterase gene from Streptomyces scabies FL1 was cloned and expressed in Streptomyces lividans on plasmids pIJ486 and pIJ702. In S. lividans, the esterase gene was expressed during later stages of growth and was regulated by zinc, as is seen with S. scabies. The 36-kDa secreted form of the esterase was purified from S. lividans. N-terminal amino acid sequencing indicated that the processing site utilized in S. lividans for the removal of the signal sequence was the same as that recognized for processing in S. scabies. Western blots (immunoblots) revealed the presence of a 40-kDa precursor form of the esterase in cytoplasmic extracts. A 23-amino-acid deletion was introduced into the putative signal sequence for the esterase. When this deleted form of the esterase was expressed in S. lividans, a cytoplasmic 38-kDa precursor protein was produced but no secreted esterase was detected, suggesting the importance of the deleted sequence for efficient processing and secretion. The esterase gene was also cloned into the pUC119 plasmid in Escherichia coli. By using the lac promoter sequence, the esterase gene was expressed, and the majority of the esterase was localized to the periplasmic space.     

掺入大肠杆菌膜中的磷脂酰胆碱(PC)影响青霉素b-内酰胺酶的分泌

[目的]为了研究磷脂酰胆碱(PC)在原核生物细胞中的生物学作用,探讨PC对细菌膜系统的功能的影响.[方法]使用ptac 85质粒作载体,将螺旋菌pcs基因导入E.coli Top10细胞构建了E.coli Fop10 pcs 菌株,并在特定的条件下培养细菌,使细菌膜磷脂中合成30%左右的磷脂酰胆碱.然后再使用抗生素抗性分析、β-内酰胺酶的酶活测定以及Western blot杂交技术,分析质粒编码的β-内酰胺酶从细胞质到细胞问质的分泌情况.[结果]抗生素抗性分析发现,高浓度的氨苄青霉素抑制E.coliTop10 pcs 细菌的生长的氨苄青霉素剂量低于对照组,其半致死剂量IC50在700～800μg/mL之间.酶活检测显示E.coli Top10 pcs 细菌周质内β-内酰胺酶的酶活性只有对照菌株的1,5,Western blot进一步分析发现周质内β-内酰胺酶的含量也为对照菌株的1/5.由此可见,周质内低含量的β-内酰胺酶是导致E.coli Top10pcs 细菌氨苄青霉素抗性降低的原因.[结论]掺入细菌膜磷脂双分子层的PC影响p.内酰胺酶通过Sec转运途径从细胞质分泌到细菌周质空间内,提示细菌磷脂酰胆碱可能在调节蛋白转运和分泌方面起着重要的作用.     

On-column refolding and purification of transglutaminase from Streptomyces fradiae expressed as inclusion bodies in Escherichia coli

Since transglutaminase (TGase) have been widely used in industry, mass production of the enzyme is especially necessary. The mature TGase gene from Streptomyces fradiae was cloned into pET21a and overexpressed in Escherichia coli BL21(DE3). The recombinant TGase was formed as inclusion bodies, and its content was as high as 55% of the total protein content. The insoluble fractions were separated from cellular debris by centrifugation and solubilized with 8 M urea. With an on-column refolding procedure based on cation SP Fast Flow chromatography with dual-gradient, the active TGase protein was recovered efficiently from inclusion bodies. The final purified product was 95% pure detected by SDS-PAGE. Under appropriate experimental conditions, the protein yield and specific activity of the TGase were up to 53% and 21 U/mg, respectively. Furthermore, the refolded recombinant protein demonstrated nearly identical ability to polymerized BSA compared with that of native TGase. One hundred and five milligrams of refolded TGase protein was obtained from 3.2g wet weight cells in the 400 ml cell culture.     

Inactivation of pgsA gene affects biosynthesis and secretion of Escherichia coli alkaline phosphatase

Inactivation of pgsA, which is responsible for biosynthesis of anionic phospholipid phosphatidylglycerol (PG), was shown to affect biosynthesis and secretion of alkaline phosphatase (PhoA) in Escherichia coli. A decrease in PG, but not in total anionic phospholipids, correlated with reduction of PhoA secretion, suggesting the role of PG in this process. A dramatic decrease in PG (from 18 to 3, but not 8, percent of the total phospholipids) inhibited not only secretion, but also synthesis of PhoA. In addition, pgsA inactivation expedited repression of PhoA synthesis by exogenous orthophosphate.     

Preferential production of rapamycin vs prolylrapamycin by Streptomyces hygroscopicus

A trace of prolylrapamycin is often produced in rapamycin fermentations carried out by strains of Streptomyces hygroscopicus. Prolylrapamycin was produced as the major rapamycin when L-proline was added to the fermentation medium. Addition of proline plus thiazolidine-2-carboxylic acid (T2CA), a sulfur-containing proline analog, prevented rapamycin production and stimulated prolylrapamycin production, thereby resulting in an even greater selective production of prolylrapamycin. T2CA addition inhibited rapamycin production even in the presence of L-lysine which is converted into pipecolic acid intracellularly and normally stimulates rapamycin formation. Addition of the rapamycin precursor, DL-pipecolic acid, surprisingly failed to stimulate rapamycin production. However, when DL-pipecolic acid was added with L-proline, it reduced the formation of prolylrapamycin and stimulated rapamycin production; this was evident especially in the presence of T2CA. The evidence suggests that T2CA suppresses rapamycin production by inhibiting intracellular conversion of L-lysine into pipecolate. Furthermore, the data suggest that uptake of pipecolate into the cell is stimulated or induced by growth in the presence of L-proline and/or T2CA. Received 24 December 1997/ Accepted in revised form 12 May 1998     

pH-Dependent Activation of Streptomyces hygroscopicus Transglutaminase Mediated by Intein

Microbial transglutaminase (MTG) from Streptomyces is naturally secreted as a zymogen (pro-MTG), which is then activated by the removal of its N-terminal proregion by additional proteases. Inteins are protein-intervening sequences that catalyze protein splicing without cofactors. In this study, a pH-dependent Synechocystis sp. strain PCC6803 DnaB mini-intein (SDB) was introduced into pro-MTG to simplify its activation process by controlling pH. The recombinant protein (pro-SDB-MTG) was obtained, and the activation process was determined to take 24 h at pH 7 in vitro. To investigate the effect of the first residue in MTG on the activity and the cleavage time, two variants, pro-SDB-MTG(D1S) and pro-SDB-MTG(ΔD1), were expressed, and the activation time was found to be 6 h and 30 h, respectively. The enzymatic property and secondary structure of the recombinant MTG and two variants were similar to those of the wild type, indicating that the insertion of mini-intein did not affect the function of MTG. This insignificant effect was further illustrated by molecular dynamics simulations. This study revealed a controllable and effective strategy to regulate the activation process of pro-MTG mediated by a mini-intein, and it may have great potential for industrial MTG production.     

Phosphate inhibition of secondary metabolism in Streptomyces hygroscopicus and its reversal by cyclic AMP

Inorganic phosphate inhibited the biosynthesis of the macrolide antibiotic turimycin in different strains of Streptomyces hygroscopicus. In the wild type strain a depression was observed with increasing phosphate concentrations. A total inhibition was found at 0.1 M phosphate. In a high producing mutant a minimum of turimycin production occured when the phosphate concentration was between 5 mM and 10 mM. Above this concentration the antibiotic synthesis increased again but the production period shifted to a later period of cultivation. Addition of inorganic phosphate resulted in an initial increase of intracellular cyclic AMP content. But a second elevation characterizing the normal level of cyclic AMP throughout the growth phase was prevented by phosphate. Exogenous cyclic AMP as well as positive effectors of the adenylyl cyclase system were able to overcome the phosphate suppression. Cyclic AMP abolished the reduction of protein synthesis following phosphate addition and caused the reappearance of a protein band which may be responsible for the turimycin biosynthesis.     

The extracellular nuclease gene of Serratia marcescens and its secretion from Escherichia coli

We are studying exoproteins of the enteric bacterium Serratia marcescens as a model system for the release of extracellular proteins from the cell. In this work we report the cloning of the gene for a secreted nuclease from S. marcescens and its complete nucleotide sequence. Following expression of the nuclease gene in both S. marcescens and Escherichia coli we were able to demonstrate the presence of the nuclease extracellularly in both organisms. Cell lysis did not occur and there was no concurrent release of cytoplasmic or periplasmic proteins. No accessory genes appeared to be required for extracellular secretion of the nuclease from E. coli. We can conclude that E. coli is capable of secreting certain proteins extracellularly, and may be a suitable host organism for the genetic analysis of extracellular protein secretion when provided with a suitable protein to export.     

Expression of the transglutaminase gene in Escherichia coli.

1. The cDNA gene coding for the enzyme transglutiminase (EC 2.3.2.13) was cloned into the pUC18 oriented for expression from the lac promoter. 2. DNA sequencing of the 5' end showed that the cDNA was missing the sequence coding of the N-terminal 30 amino acids. 3. The truncated gene was then cloned into pKK233-2, and the recombinant product was produced in Escherichia coli. 4. A gene construct coding for the complete protein was generated by inserting an oligonucleotide for the missing 30 amino acids into the Eco RI site of the pUC18 clone. 5. A consensus Shine-Dalgarno sequence and translational start codon were positioned at the 5' end of the linker. 6. Immunoblotting experiments of E. coli JM105(pUC18-TGase) indicated the expression of the transglutaminase gene. 7. The cell lysate as well as the partially purified transglutaminase showed no detectable enzyme activity.     

Effect of amino acids on rapamycin biosynthesis by Streptomyces hygroscopicus

In a chemically defined medium containing aspartate, arginine and histidine to support good growth, addition of L-lysine stimulated rapamyycin production by 150%. This was probably due to its conversion to pipecolic acid, a rapamycin precursor. Phenylalanine and methionine interfered in rapamycin production by unknown mechanisms.     

Comparative metabolic profiling-based improvement of rapamycin production by Streptomyces hygroscopicus

Rapamycin is a clinically important macrocyclic polyketide with immunosuppressive activity produced by Streptomyces hygroscopicus. To rationally guide the improvement of rapamycin production, comparative metabolic profiling analysis was performed in this work to investigate the intracellular metabolic changes in S. hygroscopicus U1-6E7 fermentation in medium M1 and derived medium M2. A correlation between the metabolic profiles and rapamycin accumulation was revealed by partial least-squares to latent structures analysis, and 16 key metabolites that most contributed to the metabolism differences and rapamycin production were identified. Most of these metabolites were involved in tricarboxylic acid cycle, fatty acids, and shikimic acid and amino acids metabolism. Based on the analysis of key metabolites changes in the above pathways, corresponding exogenous addition strategies were proposed as follows: 1.0 g/L methyl oleate was added at 0 h; 1.0 g/L lysine was added at 12 h; 0.5 g/L shikimic acid was added at 24 h; 0.5 g/L sodium succinate, 0.1 g/L phenylalanine, 0.1 g/L tryptophan, and 0.1 g/L tyrosine were added at 36 h, successively, and a redesigned fermentation medium (M3) was obtained finally on the basis of M2. The production of rapamycin in M3 was increased by 56.6 % compared with it in M2, reaching 307 mg/L at the end of fermentation (120 h). These results demonstrated that metabolic profiling analysis was a successful method applied in the rational guidance of the production improvement of rapamycin, as well as other industrially or clinically important compounds.     

Cloning of a chloramphenicol acetyltransferase gene of Streptomyces acrimycini and its expression in Streptomyces and Escherichia coli

A gene (cat) for chloramphenicol (Cm) acetyltransferase (CAT) was cloned from Streptomyces acrimycini into S. lividans 66 on the plasmid vector pIJ61. The cat gene was localized on a 1.7-kb BclI fragment, which probably also carries the cat promoter. This DNA fragment conferred Cm resistance, through CAT activity, on S. lividans, S. coelicolor and S. parvulus, but not on Escherichia coli when inserted in the BamHI site of the tetracycline-resistance(TcR) gene of pBR322. However, when inserted in a particular orientation in this site, spontaneous deletions of 0.7 kb led to CAT activity and Cm resistance. DNA homologous to the 1.7-kb BclI cat fragment was found in most, but not all, of a series of other streptomycetes that have CAT activity. The cat provides a potentially useful screening marker for Streptomyces cloning vectors.