Amino acid sequence of alcohol dehydrogenase from the thermophilic bacterium Thermoanaerobium brockii

The complete amino acid sequence of alcohol dehydrogenase of Thermoanaerobium brockii (TBAD) is presented. The S-carboxymethylated protein was cleaved at methionine residues (with cyanogen bromide) to provide a set of 10 nonoverlapping fragments accounting for 90% of the sequence. These fragments were then overlapped and aligned, and the sequence was completed by using peptides generated by proteolytic cleavage at lysine residues (with Achromobacter protease I). The protein subunit contained 352 amino acid residues corresponding to a molecular weight of 37,652. The sequence showed about 35% identity with that of the prokaryotic Alcaligenes eutrophus alcohol dehydrogenase and about 25% identity with any one of the eukaryotic alcohol/polyol dehydrogenases known today. Of these, only 18 residues (5%) are strictly conserved: 11 Gly, 2 Asp, and 1 each of Cys, His, Glu, Pro, and Val.     

Complete amino acid sequence of human liver cytosolic alanine aminotransferase (GPT) determined by a combination of conventional and mass spectral methods

The complete amino acid sequence of human liver cytosolic alanine aminotransferase (GPT) (EC 2.6.1.2) is presented. Two primary sets of overlapping fragments were obtained by cleavage of the pyridylethylated protein at methionyl and lysyl bonds with cyanogen bromide and Achromobacter protease I, respectively. Isolated peptides were analyzed with a protein sequencer or with a plasma desorption time of flight mass spectrometer and placed in the sequence on the basis of their molecular mass and homology to the sequence of rat GPT. The protein was found to be acetylated at the amino terminus and contained 495 amino acid residues. The Mr of the subunit was calculated to be 54,479, which was in good agreement with a Mr of 55,000 estimated by SDS-PAGE, and also indicated that the active enzyme with a Mr of 114,000 was a homodimer composed of two identical subunits. The amino acid sequence is highly homologous to that of rat GPT (87.9% identity) recently determined [Ishiguro, M., Suzuki, M., Takio, K., Matsuzawa, T., & Titani, K. (1991) Biochemistry 30, 6048-6053]. All of the crucial amino acid residues are conserved in human GPT, which seem to be hydrogen bonding to pyridoxal 5'-phosphate in rat GPT by the sequence homology to other alpha-aminotransferases with known tertiary structures.     

Chemical characterization of recombinant human leukocyte interferon A using fast atom bombardment mass spectrometry

Proteolytic digests of biologically active fractions of recombinant human leukocyte interferon A expressed in large quantities in Escherichia coli were analyzed by fast atom bombardment mass spectrometry and high-performance liquid chromatography. The values observed in the mass spectra of digests of the major fraction of recombinant human leukocyte interferon A with trypsin and Staphylococcus aureus protease V8 accounted for 93% of the amino acid sequences of human leukocyte interferon A predicted from the nucleotide sequence of the gene encoding the protein, indicating that the major fraction of recombinant human leukocyte interferon A was expressed with the same amino acid sequence as that translated from the nucleotide sequence of the gene encoding the protein. Mass spectrometry of proteolytic digests of two minor fractions of recombinant human leukocyte interferon A and mass and amino acid analyses of their high-performance liquid chromatography fractions showed that the amino group of the N-terminal amino acid residue of interferon was in part acetylated, and the Cys-1 and Cys-98 residues were oxidized to cysteic acid or linked to glutathione. These findings suggest that amino acid residues in recombinant proteins prepared in large quantities in E. coli are modified post-translationally.     

猪CuZnSOD基因的克隆、表达及功能分析

为了进一步了解和认识CuZnSOD基因的结构和功能,揭示CuZnSOD对猪抗氧化机能的影响,寻找与肉质性状相关联的分子标记,文章采用RACE(Rapid amplification of cDNA end)方法,对莱芜猪CuZnSOD基因cDNA进行克隆测序,分析其结构和功能,并用Real-timePCR检测CuZnSOD基因的表达.结果表明,CuZnSOD基因cDNA序列全长658 bp(GenBank登录号:GU944822),包含76 bp的5'UTR和120 bp的3'UTR序列.全部CDS序列462 bp,编码153个氨基酸,分子量为15.9 kDa,等电点为6.03.CuZnSOD基因编码的氨基酸序列中,第3氨基酸残基处存在1个O-糖基化位点,第86氨基酸残基处存在1个N-糖基化位点.二级结构中α螺旋仅占1.31%.在进化过程中高度保守,与人、牛、小鼠和褐鼠的编码区同源性分别为87.74%、87.66%、83.44%和83.23%;氨基酸序列同源性分别为90.26%、94.12%、92.21%和91.50%.CuZnSOD存在典型的金属结合配体结构域(GFHVHQFGDNT).基于蛋白序列所构建的分子进化树表明猪与牛的亲缘关系最近.在mRNA水平上,CuZnSOD是一个广谱表达基因,在大脑、心脏、脾脏、肝脏、肾脏、肺、大肠、小肠、脊髓,肌肉、背膘和胃中都能检测到,其在肾脏,小肠和肺中表达量较高,在心脏和肌肉组织中表达量较低.     

Amino acid sequence of the L-arabinose-binding protein from Escherichia coli B/r.

The amino acid sequence of the L-arabinose-binding protein of Escherichia coli B/r was determined by sequenator analyses of reduced and S-pyridylethylated L-arabinose-binding protein and fragments derived by chemical and enzymatic cleavage of the native protein. The fragments were the products of cleavage by cyanogen bromide. BNPS-skatole, hydroxylamine, mild acid hydrolysis, limited trypsin digestion, chymotrypsin subdigestion, and subdigestion with Staphylococcus aureus protease V8. The COOH-terminal sequence was determined using bovine carboxypeptidases A and B and amino acid analyses. The L-arabinose-binding protein was determined to contain 306 amino acid residues, the sequence of which is presented below.     

苜蓿夜蛾中肠丝氨酸蛋白酶cDNA的克隆、序列分析及原核表达

【目的】本研究旨在从苜蓿夜蛾Heliothis viriplaca中肠克隆出丝氨酸蛋白酶（serine protease, SP）基因的cDNA序列,测定原核表达后的蛋白经纯化及复性后的活性。【方法】运用RT-PCR和cDNA末端快速扩增方法（rapid amplification of cDNA ends, RACE）克隆苜蓿夜蛾幼虫中肠丝氨酸蛋白酶cDNA全序列,用大肠杆菌Escherichia coli表达系统进行表达。重组蛋白经纯化后,利用梯度透析法进行复性,以BApNA为底物,进行活性测定。【结果】克隆获得的苜蓿夜蛾中肠丝氨酸蛋白酶基因命名为HvSP（GenBank登录号：JX866720）,该基因全长880 bp,开放阅读框长762 bp,编码254个氨基酸,推测分子量和pI值分别为26.9 kDa和9.49。由HvSP推导的氨基酸与鳞翅目昆虫SP氨基酸序列的一致性在52%~95%之间,其中与棉铃虫Helicoverpa armigera SP（GenBank登录号：CAA72962）的氨基酸序列一致性最高,达95%。成功构建重组载体pET21b-HvSP进行原核表达,Western-blot鉴定确定为目的蛋白。蛋白可溶性分析发现重组蛋白为包涵体。在Glycine-NaOH缓冲液中,当pH为10.0时,复性的重组蛋白活性达到最高,为35.74 U/mL。【结论】本研究在苜蓿夜蛾体内获得了一个新的丝氨酸蛋白酶基因,且原核表达后的重组蛋白经过变性、纯化及复性后具有活性。该结果为进一步研究丝氨酸蛋白酶在鳞翅目昆虫体内的生理功能奠定了基础。     

A cDNA coding for human sex hormone binding globulin. Homology to vitamin K-dependent protein S

Affinity purified antibodies to human sex hormone binding globulin (SHBG) were used in screening a human liver cDNA library, constructed in the expression vector lambda gt11. One clone, identified as producing recombinant SHBG, carried a cDNA insert of 1.1 kb. The nucleotide sequence of the insert had an open reading frame coding for 356 amino acid residues. The coding sequence was followed by a short 3'-region of 19 non-translated nucleotides and a poly(A) tail. Confirmation that the cDNA clone represented human SHBG was obtained by the finding of a complete agreement in amino acid sequence with several peptide fragments generated from purified SHBG by proteolytic cleavage. The primary structure of SHBG shows a considerable homology to that of protein S, a vitamin K-dependent protein with functions in the coagulation system.     

The amino acid sequence of the enterotoxin from Clostridium perfringens type A

The amino acid sequence of the enterotoxin from Clostridium perfringens type A was determined by analysis of peptides derived from the protein by digestion with trypsin chymotrypsin, thermolysin, pepsin, a lysine-specific protease. S. aureus V8 protease and a proline-specific protease, and fragments generated by cleavage with cyanogen bromide or by dilute acetic acid in 7 M guanidine HCl. The sequence which is complete except for the definite order of 3 small peptides between residues 88 and 103 consists of 309 amino acids and contains a correction to our preliminary announcement [(1984) FEMS Symp. 24, 329-330].     

Synthetic HIV-2 protease cleaves the GAG precursor of HIV-1 with the same specificity as HIV-1 protease

A 99-amino acid protein having the deduced sequence of the protease from human immunodeficiency virus type 2 (HIV-2) was synthesized by the solid phase method and tested for specificity. The folded peptide catalyzes specific processing of a recombinant 43-kDa GAG precursor protein (F-16) of HIV-1. Although the protease of HIV-2 shares only 48% amino acid identity with that of HIV-1, the HIV-2 enzyme exhibits the same specificity toward the HIV-1 GAG precursor. Fragments of 34, 32, 24, 10, and 9 kDa were generated from F-16 GAG incubated with the protease. N-terminal amino acid sequence analysis of proteolytic fragments indicate that cleavage sites recognized by HIV-2 protease are identical to those of HIV-1 protease. The verified cleavage sites in F-16 GAG appear to be processed independently, as indicated by the formation of the intermediate fragments P32 and P34 in nearly equal ratios. The site nearest the amino terminus is quite conserved between the two viral GAG proteins (...VSQNY-PIVQN...in HIV-1,...KGGNY-PVQHV...in HIV-2). In contrast, the putative second site (...IPFAA-AQQKG...) of HIV-2 GAG shares minimal sequence identity with site 2 of HIV-1 GAG (...SATIM-MQRGN...). These sequence variations in the substrates suggest higher order structural features that may influence recognition by the proteases. Pepstatin A inhibits HIV-2 protease, whereas 1,10-phenanthroline and phenylmethylsulfonylfluoride do not; these results are in agreement with the finding that proteases of HIV and other retroviruses are aspartyl proteases.     

Complete amino acid sequence of the catalytic chain of human complement subcomponent C1-r

The amino acid sequence of human C1-r b chain hs been determined, from sequence analysis performed on fragments obtained by CNBr cleavage, dilute acid hydrolysis, tryptic cleavage of the succinylated protein, and subcleavages by staphylococcal protease. The polypeptide chain contains 242 amino acids (Mr 27 096), and the sequence shows strong homology with other mammalian serine proteases. The histidine, aspartic acid, and serine residues of the active site (His-57, Asp-102, and Ser-195 in bovine chymotrypsinogen) are located at positions 39, 94, and 191, respectively. The chain which lacks the "histidine-loop" disulfide bridge, contains five half-cystine residues, of which four (positions 157-176 and 187-217) are homologous to residues involved in disulfide bonds generally conserved in serine proteases, whereas the half-cystine residue at position 114 is likely to be involved in the single disulfide bridge connecting the catalytic b chain to the n-terminal a chain. Two carbohydrate moieties are attached to the polypeptide chain, both via asparagine residues at positions 51 and 118.     

Complete amino acid sequence of the A chain of human complement-classical-pathway enzyme C1r.

The amino acid sequence of human C1r A chain was determined, from sequence analysis performed on fragments obtained from C1r autolytic cleavage, cleavage of methionyl bonds, tryptic cleavages at arginine and lysine residues, and cleavages by staphylococcal proteinase. The polypeptide chain has an N-terminal serine residue and contains 446 amino acid residues (Mr 51,200). The sequence data allow chemical characterization of fragments alpha (positions 1-211), beta (positions 212-279) and gamma (positions 280-446) yielded from C1r autolytic cleavage, and identification of the two major cleavage sites generating these fragments. Position 150 of C1r A chain is occupied by a modified amino acid residue that, upon acid hydrolysis, yields erythro-beta-hydroxyaspartic acid, and that is located in a sequence homologous to the beta-hydroxyaspartic acid-containing regions of Factor IX, Factor X, protein C and protein Z. Sequence comparison reveals internal homology between two segments (positions 10-78 and 186-257). Two carbohydrate moieties are attached to the polypeptide chain, both via asparagine residues at positions 108 and 204. Combined with the previously determined sequence of C1r B chain [Arlaud & Gagnon (1983) Biochemistry 22, 1758-1764], these data give the complete sequence of human C1r.     

The covalent structure of apolipoprotein A-I from canine high density lipoproteins

The complete amino acid sequence of apolipoprotein A-I (apo-A-I) from canine serum high density lipoproteins (HLD) has been determined by automated Edman degradation of the intact protein and proteolytic fragments derived therefrom. The major strategy involved analysis of overlapping sets of peptides generated by cleavage at lysyl residues with Myxobacter protease and by tryptic hydrolysis at arginines in the citraconylated protein derivative. Canine apo-A-I has 232 residues in its single polypeptide chain and its covalent structure is highly homologous to one of the two reported sequences for human apo-A-I. As in the case for the human apoprotein, predictive analysis of the canine apo-A-I sequence suggests that it comprises a series of amphiphilic alpha helices punctuated by a periodic array of prolyl residues. Human HDL contains a second major protein component, apolipoprotein A-II (apo-A-II) that is lacking in HDL from dog serum. The absence of apo-A-II in canine HDL raised the possibility that the apo-A-I from this source might contain within its primary structure sequences related to apo-A-II and thus perform the dual function of both proteins in one. Our analysis proves that canine apo-A-I has all of the structural features of human apo-A-I and that it is not an A-I: A-II hybrid molecule.     

Cloning and expression of truncated form of tissue plasminogen activator in Leishmania tarentolae

An expression cassette containing kringle 2 and serine protease domains (K2S), tissue plasminogen activator (tPA), together with a signal sequence derived from Leishmania tarentolae and two fragments of the small subunit ribosomal RNA locus, was introduced into L. tarentolae. The transfected cells produced recombinant K2S (rK2S) protein extracellularly with serine protease activity. Expression and enzyme activity of rK2S in the supernatant was 930 i.u./ml. The specific activity of purified rK2S was 7.4 U/mg of protein. Replacement of the human signal sequence tPA with the signal sequence derived from Leishmania increased the secretion of recombinant protein up to 30 times.     

Protein sequence analysis, cloning, and expression of flammutoxin, a pore-forming cytolysin from Flammulina velutipes. Maturation of dimeric precursor to monomeric active form by carboxyl-terminal truncation

Flammutoxin (FTX), a 31-kDa pore-forming cytolysin from Flammulina velutipes, is specifically expressed during the fruiting body formation. We cloned and expressed the cDNA encoding a 272-residue protein with an identical N-terminal sequence with that of FTX but failed to obtain hemolytically active protein. This, together with the presence of multiple FTX family proteins in the mushroom, prompted us to determine the complete primary structure of FTX by protein sequence analysis. The N-terminal 72 and C-terminal 107 residues were sequenced by Edman degradation of the fragments generated from the alkylated FTX by enzymatic digestions with Achromobacter protease I or Staphylococcus aureus V8 protease and by chemical cleavages with CNBr, hydroxylamine, or 1% formic acid. The central part of FTX was sequenced with a surface-adhesive 7-kDa fragment, which was generated by a tryptic digestion of FTX and recovered by rinsing the wall of a test tube with 6 M guanidine HCl. The 7-kDa peptide was cleaved with 12 M HCl, thermolysin, or S. aureus V8 protease to produce smaller peptides for sequence analysis. As a result, FTX consisted of 251 residues, and protein and nucleotide sequences were in accord except for the lack of the initial Met and the C-terminal 20 residues in protein. Recombinant FTX (rFTX) with or without the C-terminal 20 residues (rFTX271 or rFTX251, respectively) was prepared to study the maturation process of FTX. Like natural FTX, rFTX251 existed as a monomer in solution and assembled into an SDS-stable, ring-shaped pore complex on human erythrocytes, causing hemolysis. In contrast, rFTX271, existing as a dimer in solution, bound to the cells but failed to form pore complex. The dimeric rFTX271 was converted to hemolytically active monomers upon the cleavage between Lys(251) and Met(252) by trypsin.     

Expression of a kallikrein-like protease from the snake venom: engineering of autocatalytic site in the fusion protein to facilitate protein refolding

In order to circumvent the difficulty encountered in the expression and purification of the recombinant products in E. coli system, we have developed a novel and facile method of removing the polyhistidine tag from target proteins after heterologous gene expression. The expression of a serine protease (Tm-5) from Taiwan habu (Trimeresurus mucrosquamatus) is taken as an exemplar to illustrate the basic rationales and protocols involved. In place of an enterokinase recognition site, a polyhistidine tag linked to an autocatalyzed site based on cleavage specificity of the serine protease flanking on the 5'-end of Tm-5 clone sequence was engineered before protein expression in E. coli system. Renaturation of the fusion protein after expression revealed that the recombinant protease had refolded successfully from the inclusion bodies. Upon autocleavage of the expressed protease, the polyhistidine tag with additional amino acid residues appended to the N-terminus of the coding sequence is found to be removed accordingly. The protein expressed and purified by this new strategy possesses a molecular weight of approximately 28,000 in accord with the expected value for this venom protease. Further characterization of the recombinant protein employing a variety of techniques which include immunoblot analysis, RP-HPLC, ESI-MS, and N-terminal amino acid sequencing all shows indistinguishable properties to those of the isolated native protease. Most noteworthy is that the recombinant Tm-5 protease also exhibits amidase activity against N-benzoyl-Pro-Phe-Arg-p-nitroanilide, a unique and strict substrate for native Tm proteases reported previously.     

Legionella pneumophila zinc metalloprotease is structurally and functionally homologous to Pseudomonas aeruginosa elastase.

The sequence of the structural gene encoding the Legionella pneumophila extracellular zinc metalloprotease has been determined and was found to possess a single large open reading frame (ORF) of 1,629 nucleotides (nt). This ORF was preceded by consensus promoter (TTAACT . . . 17 nt . . . TATAAC) and ribosome-binding (TAAGGAG) sequences. The deduced polypeptide contained a putative signal sequence and a total of 543 amino acid residues with a computed molecular size of 60,775 daltons, substantially larger than the observed 38,000 daltons of the native and recombinant proteins. A homology search revealed extensive amino acid identity with Pseudomonas aeruginosa elastase, a protein that is also encoded by an ORF substantially larger than that predicted for the mature size of the protein. The structural identity between the L. pneumophila protease and P. aeruginosa elastase was most pronounced in the regions forming the enzymatic active site of elastase. Amino acid residues constituting the active-site cleft of elastase were greater than 75% conserved. Elastase residues that interact with and mediate proteolysis of substrate peptides were 100% conserved. Competitive inhibitors of elastase and the structurally and functionally related thermolysin (phosphoramidon and a phosphoramidate analog, Z-GlyP(O)Leu-Ala), were shown to be equally potent at inhibiting the proteolytic activity of the L. pneumophila protease. These inhibitor studies along with the amino acid sequence similarities provide strong evidence that the L. pneumophila protease and P. aeruginosa elastase share a similar molecular mechanism of proteolysis.     

Enhancement of proteinase inhibitory activity of recombinant human cystatin C using random-centroid optimization

We had previously written a random-centroid optimization computer program for genetics (RCG) to optimize protein engineering, which was successfully applied to modify single site of the 16 amino acid residues at the active site of B. stearothermophilys neutral protease for improving thermostability [J. Agric. Food Chem., 46 (1998) 1655]. The same program was applied in this study to double-site mutation of the entire sequence of human cystatin C (HCC) with 120 residues for improving its protease inhibitory activity. The RCG program selected two sites simultaneously and amino acid residues to replace the sites selected in the sequence in order to find the best papain-inhibitory activity and stability of the protease inhibitor. Twenty-three double mutants and twenty-two single mutants were expressed by Pichia pastoris. Of the total 45 mutants, G12W/H86V mutant showed a 5-fold increase in the bioactivity over the recombinant wild-type (WT) cystatin. Also, P13F mutant exhibited a half-life temperature (T1/2) 5.2 degrees C higher than 68.2 degrees C of WT in addition to a 56% greater papain inhibitory activity. Mutation for diminishing beta-sheet content reduced polymerization of cystatin C, thus improving papain-inhibitory activity. The approach using RCG was able to improve the functional properties of cystatin by least relying on the prior knowledge of its molecular structure.     

The amino acid sequence of ribonuclease N1, a guanine-specific ribonuclease from the fungus Neurospora crassa

The complete amino acid sequence of ribonuclease N1 (RNase N1), a guanine-specific ribonuclease from a fungus, Neurospora crassa, was determined by conventional protein sequencing, using peptide fragments obtained by tryptic digestion of cyanogen bromide-treated RNase N1 and by Staphylococcus aureus V8 protease digestion of heat-denatured RNase N1. The results showed that the protein is composed of a single polypeptide chain of 104 amino acid residues cross-linked by two disulfide bonds and has a molecular weight of 11,174: (sequence; see text) (Disulfide bonds: C2-C10, C6-C103) The amino acid sequence was homologous with those of RNase T1 (65% identity) and related microbial RNases.