地衣芽孢杆菌2709碱性蛋白酶编码序列的PCR扩增、克隆及序列测定

在地衣芽孢杆菌NCIB 6816菌株碱性蛋白酶基因已知序列的基础上,通过设计合适的引物,利用PCR(Polymerase Chain Reaction)技术从地衣芽孢杆菌2709菌株的柒色体DNA中扩增了2709碱性蛋白酶的编码序列。对两个克隆的PCR片段的全序列分析结果显示,2709碱性蛋白酶的编码序列同相应的NCIB 6816序列相比有3％左右的碱基组成差异。由此推定的2709碱性蛋白酶的氨基酸序列肯定了2709碱性蛋白酶属典型的subtilisin Carlsberg类,同时还表明来源于不同地衣芽孢杆菌菌株的subtilisin Carlsberg存在着若干氨基酸组成上的差异。     

地衣芽孢杆菌2709碱性蛋白酶基因的克隆、序列测定及其表达

以克隆的地衣芽孢杆菌2709碱性蛋白酶编码序列的PCR扩增片段为探针。通过原位杂交从2709基因文库中筛选出两个含有完整的2709碱性蛋白酶基因的阳性克隆：Psci和Psc7。对Psc7中的插入片段构建若干亚克隆后测定了其全部DNA序列,结果显示该插入片段含2709碱性蛋白酶及其信号肽与导肽(Pro—peptide)在内的全部编码序列(1140碱基对)及长度分别为299和832碱基对的上、下游序列,该序列同M．Jacobs等克隆的地衣芽孢杆菌NcIB 6816的subtlisin Carlsberg基因序列显示了极高的同源性。通过枯草杆菌-大肠杆菌穿梭质粒Pbe2将克隆的2709碱性蛋白酶基因转入到蛋白酶缺陷型的枯草芽孢杆菌DB104中,结果表明2709碱性蛋白酶基因在枯草芽孢杆菌中得到了明显的表达。     

Extracellular proteases modify cell wall turnover in Bacillus subtilis.

The rate of turnover of peptidoglycan in exponentially growing cultures of Bacillus subtilis was observed to be sensitive to extracellular protease. In protease-deficient mutants the rates of cell wall turnover were greater than that of wild-type strain 168, whereas hyperprotease-producing strains exhibited decreased rates of peptidoglycan turnover. The rate of peptidogylcan turnover in a protease-deficient strain was decreased when the mutant was grown in the presence of a hyperprotease-producing strain. The addition of phenylmethylsulfonyl fluoride, a serine protease inhibitor, to cultures of hyperprotease-producing strains increased their rates of cell wall turnover. Isolated cell walls of all protease mutants contained autolysin levels equal to or greater than that of wild-type strain 168. The presence of filaments, or cells with incomplete septa, was observed in hyperprotease-producing strains or when a protease-deficient strain was grown in the presence of subtilisin. The results suggest that the turnover of cell walls in B. subtilis may be regulated by extracellular proteases.     

Extracellular serine proteinase from Bacillus licheniformis

The serine proteinase from B. licheniformis was purified by affinity chromatography on the sorbent obtained by attachment of p-(omega-aminomethyl)-phenylboronic acid via an amino group to CH-Sepharose. The use of this sorbent specific to the serine proteinases active sites resulted in a 35-fold purification of the enzyme with an apparent activity yield of 288%. Such a high activity yield is due to a removal of the enzyme inhibitors. The N-terminal sequence of B. licheniformis extracellular serine proteinase traced for 35 amino acid residues coincides with that of subtilisin Carlberg, a serine proteinase presumed to be secreted by a B. subtilis strain. Since the amino acid composition as well as the functional properties of these two enzymes did not reveal any noticeable differences, it was assumed that both proteinases are very similar, if not identical. This conclusion leads to reconsideration of the existing concept on an extremely fast rate of subtilisin evolution. Three multiple forms of B. licheniformis extracellular serine proteinase were found to differ only in their net charges, presumably as a result of partial deamidation of Asn or Gln residues within their structure.     

A flow cytometry-based screening system for directed evolution of proteases

Proteases are industrially important enzymes but often have to be improved for their catalytic efficiency and stabilities to suit applications. Flow cytometry screening technology based on in vitro compartmentalization in double emulsion had been developed and applied on directed evolution of paraoxonase and β-galactosidase. Further advancements of flow cytometry-based screening technologies will enable an ultra-high throughput of variants offering novel opportunities in directed enzyme evolution under high mutational loads. For the industrially important enzyme class of proteases, a first flow cytometry-based screening system for directed protease evolution has been developed based on an extracellular protease-deficient Bacillus subtilis strain (WB800N), a model protease (subtilisin Carlsberg), and a water-in-oil-in-water double-emulsion technology. B. subtilis WB800N cells are encapsulated in double emulsion with a fluorogenic substrate (rhodamine 110-containing peptide), allowing the screening of protease variants in femtoliter compartments at high throughput. The protease screening technology was validated by employing an epPCR mutant library with a high mutational load and screened for increased resistance toward the inhibitor antipain dihydrochloride. A variant (K127R, T237P, M239I, I269V, Y310F, I372V) with an improved relative resistance was isolated from a small population of active variants, validating the reported protease flow cytometry screening technology for increased inhibitor resistance.     

The subtilisin Carlsberg pro-region is a membrane anchorage for two fusion proteins produced in Bacillus subtilis

The extracellular serylprotease subtilisin Carlsberg (SubC) of Bacillus licheniformis is produced in a precursor form which includes a signal peptide (sp) and a pro-region. We have constructed a fusion protein in which the sp, pro-region and 38 amino acids (aa) at the N terminus of SubC were joined to the immunoglobulin (Ig) G-binding protein G produced by group G streptococci. The fused SubC::protein G was purified on IgG-Sepharose. IgG-binding material derived from membrane or supernatant fractions had different N termini, indicating that release from the membrane occurred only after removal of the pro-region. The proteolytic pattern was identical when SubC::protein G was produced in Bacillus subtilis 168 wild type or in a protease-deficient strain. The sp cleavage point was also defined in the membrane-derived material.     

Subtilisin 72: a serine protease from Bac. subtilis strain 72 - an enzyme similar to subtilisin Carlsberg]

Subtilisin 72, a serine proteinase secreted by Bac. subtilis strain 72 was purified by covalent chromatography on Sepharose sorbent containing p-(omega-aminomethyl)phenylboronic acid as a ligand. The homogeneity of subtilisin 72 was confirmed by isoelectrofocusing in a thin layer of polyacrylamide gel (pl 8.6). The amino acid composition of this enzyme is different from that of other subtilisins, e. g. subtilisin Carlsberg. The N = terminal amino acid sequence of subtilisin 72 traced up to the 35th residue turned to be the same as that of subtilisin Carlsberg with the exception of the 21st (Tyr) and the 30th (Ile) residues. This very pronounced extent of homology shows that subtilisin 72 is very similar although not identical to subtilisin Carlsberg.     

Serine proteinase with lytic properties

A thermophilic Bacillus licheniformis strain can synthesize extracellular serine proteinase, which is similar to subtilisin of the Carlsberg type in its amino acid composition, the specificity of its action, the character of its inhibition by certain compounds and immunochemical properties, but differs from the latter in its greater thermostability and in the ability to cause lysis of Gram-negative bacteria and yeast living cells.     

Identification of two novel fibrinolytic enzymes from Bacillus subtilis QK02

Two fibrinolytic enzymes (QK-1 and QK-2) purified from the supernatant of Bacillus subtilis QK02 culture broth had molecular masses of 42,000 Da and 28,000 Da, respectively. The first 20 amino acids of the N-terminal sequence are AQSVPYGISQ IKAPALHSQG. The deduced protein sequence and its restriction enzyme map of the enzyme QK-2 are different from those of other proteases. The enzyme QK-2 digested not only fibrin but also a subtilisin substrate, and PMSF inhibited its fibrinolytic and amidolytic activities completely; while QK-1 hydrolyzed fibrin and a plasmin substrate, and PMSF as well as aprotinin inhibited its fibrinolytic activity. These results indicated QK-1 was a plasmin-like serine protease and QK-2 a subtilisin family serine protease. Therefore, these enzymes were designated subtilisin QK. The sequence of a DNA fragment encoding subtilisin QK contained an open reading frame of 1149 base pairs encoding 106 amino acids for signal peptide and 257 amino acids for subtilisin QK, which is highly similar with that of a fibrinolytic enzyme, subtilisin NAT (identities 96.8%). Asp32, His64 and Ser221 in the amino acid sequence deduced from the QK gene are identical to the active site of nattokinase (NK) produced by B. subtilis natto.     

Cloning and over-expression of an alkaline protease from Bacillus licheniformis

The alkaline protease gene, apr, from Bacillus licheniformis 2709 was cloned into a Bacillus shuttle expression vector, pHL, to yield the recombinant plasmid pHL-apr. The pHL-apr was expressed in Bacillus subtilis WB600, yielding a high expression strain BW-016. The amount of alkaline protease produced in the recombinant increased by 65% relative to the original strain. SDS-PAGE analysis indicated a Mr of 30.5 kDa. The amino acid sequence deduced from the DNA sequence analysis revealed a 98% identity to that of Bacillus licheniformis 6816.     

Peptide diazomethyl ketones are inhibitors of subtilisin-type serine proteases

Peptide diazomethyl ketones, well known as specific cysteine protease inhibitors are also potent inhibitors of the microbial serine proteases thermitase (EC 3.4.21.14) and subtilisin Carlsberg (EC 3.4.21.14). The affinity of the enzymes towards the synthetic inhibitors Z-Ala(n)-PheCHN2 (n = 0, 1, 2) depends on the chain length and is in the same range as for the corresponding chloromethyl ketones. Both kinds of inhibitors react irreversibly in a 1:1 ratio with the enzymes and covalently bind to the active site histidine of both subtilisin Carlsberg and thermitase despite the fact that thermitase contains an active-site cysteinyl residue. The mechanism of the inhibition reaction is discussed.     

Molecular cloning of a subtilisin J gene from Bacillus stearothermophilus and its expression in Bacillus subtilis.

The structural gene for a subtilisin J from Bacillus stearothermophilus NCIMB10278 was cloned in Bacillus subtilis using pZ124 as a vector, and its nucleotide sequence was determined. The nucleotide sequence revealed only one large open reading frame, composed of 1,143 base pairs and 381 amino acid residues. A Shine-Dalgarno sequence was found 8 bp upstream from the translation start site (GTG). The deduced amino acid sequence revealed an N-terminal signal peptide and pro-peptide of 106 residues followed by the mature protein comprised of 275 residues. The productivity of subtilisin in the culture broth of the Bacillus subtilis was about 46-fold higher than that of the Bacillus stearothermophilus. The amino acid sequence of the extracellular alkaline protease subtilisin J is highly homologous to that of subtilisin E and it shows 69% identity with subtilisin Carlsberg, 89% with subtilisin BPN' and 70% with subtilisin DY. Some properties of the subtilisin J that had been purified from the Bacillus subtilis were examined. The subtilisin J has alkaline pH characteristics and a molecular weight of 27,500. It retains about 50% of its activity even after treatment at 60 degrees C for 30 min in the presence of 2 mM calcium chloride.     

A serine alkaline protease from the fungusConidiobolus coronatus with a distinctly different structure than the serine protease subtilisin Carlsberg

In view of the functional similarities between subtilisin Carlsberg and the alkaline protease fromConidiobolus coronatus, the biochemical and structural properties of the two enzymes were compared. In spite of their similar biochemical properties, e.g., pH optima, heat stability, molecular mass, pI, esterase activity, and inhibition by diisopropyl fluorophosphate and phenylmethlysulfonylfluoride, the proteases were structurally dissimilar as revealed by (1) their amino acid compositions, (2) their inhibition by subtilisin inhibitor, (3) their immunological response to specific anti-Conidiobolus protease antibody, and (4) their tryptic peptide maps. Our results demonstrate that although they are functionally analogous, theConidiobolus protease is structurally distinct from subtilisin Carlsberg. TheConidiobolus protease was also different from other bacterial and animal proteases (e.g. pronase, protease K, trypsin, and chymotrypsin) as evidenced by their lack of response to anti-Conidiobolus protease antibody in double diffusion and in neutralization assays. TheConidiobolus serine protease fails to obey the general rule that proteins with similar functions have similar primary sequences and, thus, are evolutionarily related. Our results strengthen the concept of convergent evolution for serine proteases and provide basis for research in evolutionary relationships among fungal, bacterial, and animal proteases.     

Improved growth and viability of lactobacilli in the presence of Bacillus subtilis (natto), catalase, or subtilisin

In an effort to demonstrate the potential usefulness of Bacillus subtilis (natto) as a probiotic, we examined the effect of this organism on the growth of three strains of lactobacilli co-cultured aerobically in vitro. Addition of B. subtilis (natto) to the culture medium resulted in an increase in the number of viable cells of all lactobacilli tested. Since B. subtilis (natto) can produce catalase, which has been reported to exhibit a similar growth-promoting effect on lactobacilli, we also examined the effect of bovine catalase on the growth of Lactobacillus reuteri JCM 1112 and L. acidophilus JCM 1132. Both catalase and B. subtilis (natto) enhanced the growth of L. reuteri JCM 1112, whereas B. subtilis (natto) but not catalase enhanced the growth of L. acidophilus JCM 1132. In a medium containing 0.1 mM hydrogen peroxide, its toxic effect on L. reuteri JCM 1112 was abolished by catalase or B. subtilis (natto). In addition, a serine protease from B. licheniformis, subtilisin, improved the growth and viability of L. reuteri JCM 1112 and L. acidophilus JCM 1132 in the absence of hydrogen peroxide. These results indicate that B. subtilis (natto) enhances the growth and (or) viability of lactobacilli, possibly through production of catalase and subtilisin.     

Crystal structure of the high-alkaline serine protease PB92 from Bacillus alcalophilus.

The crystal structure of a serine protease from the alkalophilic strain Bacillus alcalophilus PB92 has been determined by X-ray diffraction at 1.75 A resolution. The structure has been solved by molecular replacement using the atomic model of subtilisin Carlsberg. The model of the PB92 protease has been refined to an R-factor of 14.0% and contains 1882 protein atoms, two calcium ions and 188 water molecules. The overall folding of the polypeptide chain closely resembles that of the subtilisins. Furthermore, almost all of the secondary structure elements found in subtilisin Carlsberg are also present in the PB92 protease. The major differences between the two structures are located around the deletion regions (residues 37 and 158-161 in subtilisin Carlsberg) and in two loops which are known to be the most variable parts of subtilisin structures. Flexibility of one of these loops (residues 126-130 in the PB92 protease) is believed to account for the induced-fit mechanism of substrate binding.     

Assignment of histidine resonances in the 1H NMR (500 MHz) spectrum of subtilisin BPN' using site-directed mutagenesis

A spin-echo pulse sequence has been used to resolve the six histidine C-2H protons in the 500-MHz NMR spectrum of subtilisin BPN'. Five of these residues have been substituted by site-directed mutagenesis, and this has enabled a complete assignment of these protons to be obtained. Analysis of the pH titration curves of these signals has provided microscopic pKas for the six histidines in this enzyme. The pKas of the histidine residues in subtilisin BPN' have been compared with the values obtained for the histidines in the homologous enzyme from Bacillus licheniformis (subtilisin Carlsberg). Four of the five conserved histidines titrate with essentially identical pKa's in the two enzymes. It therefore appears that the assignments made for these residues in subtilisin BPN' can be transferred to subtilisin Carlsberg. On the basis of these assignments, the one histidine that titrates with a substantially different pKa in the two enzymes can be assigned to histidine-238. This difference in pKa has been attributed to a Trp to Lys substitution at position 241 in subtilisin Carlsberg.     

Enzyme activation in organic solvents: co-lyophilization of subtilisin Carlsberg with methyl-beta-cyclodextrin renders an enzyme catalyst more active than the cross-linked enzyme crystals

In this study we explored the efficiency of the additive methyl-beta-cyclodextrin (M beta CD) to enhance the activity and enantioselectivity of the serine protease subtilisin Carlsberg in organic solvents. These two parameters, measured for different transesterification reactions and in several solvents, are compared with results obtained by using two additional preparations of the same enzyme: lyophilized powder and cross-linked enzyme crystals (CLEC). The results suggest that co-lyophilization of subtilisin with M beta CD preserves the enzyme's active site tertiary structure rendering a highly active and enantioselective catalyst.     

枯草杆菌蛋白酶E的156和165位突变

应用定点突变方法,在M222A突变的枯草杆菌蛋白酶E基因上进行E156S和V165I定点突变. 将突变基因插入大肠杆菌-枯草杆菌穿梭质粒pBE-2中,在碱性和中性蛋白酶缺陷型的枯草杆菌DB104中进行表达,得到突变种(M222A,E156S)和(M222A,E156S,V165I)蛋白酶E. 性质测定表明,E156S突变使蛋白酶比活力增加90%,并不影响酶的热稳定性和抗氧化性. 而V165I突变使蛋白酶比活力降低.