Efficient Production of Artificially Designed Gelatins with a Bacillus brevis System

Artificially designed gelatins comprising tandemly repeated 30-amino-acid peptide units derived from human αI collagen were successfully produced with a Bacillus brevis system. The DNA encoding the peptide unit was synthesized by taking into consideration the codon usage of the host cells, but no clones having a tandemly repeated gene were obtained through the above-mentioned strategy. Minirepeat genes could be selected in vivo from a mixture of every possible sequence encoding an artificial gelatin by randomly ligating the mixed sequence unit and transforming it into Escherichia coli. Larger repeat genes constructed by connecting minirepeat genes obtained by in vivo selection were also stable in the expression host cells. Gelatins derived from the eight-unit and six-unit repeat genes were extracellularly produced at the level of 0.5 g/liter and easily purified by ammonium sulfate fractionation and anion-exchange chromatography. The purified artificial gelatins had the predicted N-terminal sequences and amino acid compositions and a solgel property similar to that of the native gelatin. These results suggest that the selection of a repeat unit sequence stable in an expression host is a shortcut for the efficient production of repetitive proteins and that it can conveniently be achieved by the in vivo selection method. This study revealed the possible industrial application of artificially designed repetitive proteins.     

Efficient production of artificially designed gelatins with a Bacillus brevis system

Artificially designed gelatins comprising tandemly repeated 30-amino-acid peptide units derived from human alphaI collagen were successfully produced with a Bacillus brevis system. The DNA encoding the peptide unit was synthesized by taking into consideration the codon usage of the host cells, but no clones having a tandemly repeated gene were obtained through the above-mentioned strategy. Minirepeat genes could be selected in vivo from a mixture of every possible sequence encoding an artificial gelatin by randomly ligating the mixed sequence unit and transforming it into Escherichia coli. Larger repeat genes constructed by connecting minirepeat genes obtained by in vivo selection were also stable in the expression host cells. Gelatins derived from the eight-unit and six-unit repeat genes were extracellularly produced at the level of 0.5 g/liter and easily purified by ammonium sulfate fractionation and anion-exchange chromatography. The purified artificial gelatins had the predicted N-terminal sequences and amino acid compositions and a solgel property similar to that of the native gelatin. These results suggest that the selection of a repeat unit sequence stable in an expression host is a shortcut for the efficient production of repetitive proteins and that it can conveniently be achieved by the in vivo selection method. This study revealed the possible industrial application of artificially designed repetitive proteins.     

蜘蛛拖丝蛋白基因的构建及在大肠杆菌中的表达

蜘蛛大壶腹线产生的拖丝是非常优良的纤维蛋白, 具有独特的强度和弹性。基于拖丝蛋白高度重复序列和部分cDNA序列, 合成蜘蛛拖丝蛋白基因单体, 通过头尾相连的构建策略, 得到拖丝蛋白多聚体, 与原核高效表达载体pET30a(+)连接, 转化大肠杆菌BLR(DE3), 用IPTG诱导表达。 表达产物经His.Bind树脂金属螯合亲和层析一步纯化, 纯度达90%以上, 表达量为20mg/L。SDS-PAGE和蛋白质印迹图谱显示表达产物分子量为37kD, 其值与氨基酸组分分析结果与理论推算值基本符合。      

Simultaneous production of endoglucanase and β-glucosidase using synthetic two cistron genes

Summary Simultaneous production of endoglucanase and -glucosidase by using a synthetic two cistron system inEscherichia coli was attempted as a possible way of reducing production cost. The first cistron in this system we constructed is an endoglucanase gene fused to a tac promoter that provides for efficient expression. The second cistron is a -glucosidase structural gene. A ribosome binding site sequence of 33-base was inserted between the two cistron genes.E. coli cells transformed with the system produced 12.4 units/mg protein of endoglucanase and 327 units/mg protein of -glucosidase, which represent 15% and 22% of total cellular protein, respectively, in L medium within three hours after induction with IPTG.     

High level expression of human endostatin in Pichia pastoris using a synthetic gene construct

Endostatin, a 20-kDa C-terminal fragment derived from type XVIII collagen, is a potent angiogenesis inhibitor and an antitumor factor. To improve the production of recombinant human endostatin on increasing demand in clinical practice, we constructed an artificial gene encoding its mature peptide sequence in human collagen XVIII. The synthetic gene consisted of 20 codons in preference in methylotropic yeast—Pichia pastoris and was cloned into expression vector pPICZαA; and the recombinant protein was expressed in P. pastoris strain SMD1168 and purified to near homogeneity using heparin affinity chromatography. The amount of expressed recombinant protein in cultural media using described strategy was 80 mg/l in shake flask cultivation and 435 mg/l in high-density bioreactor fermentation. Methylthiazolium assay demonstrated that human endostatin expressed in P. pastoris using artificial synthetic gene of preference in P. pastoris was able to inhibit the acidic fibroblast growth factor-induced proliferation of endothelial cells in vitro.     

Construction and Overexpression of a Synthetic Gene for Human DNA Methylguanine Methyltransferase: Renaturation and Rapid Purification of the Protein

A synthetic gene was constructed that encodes human DNA methylguanine methyltransferase (hMGMT). The synthetic gene was designed with a number of unique restriction sites to facilitate cassette mutagenesis and to reflect the preferences found among genes inEscherichia coli.Both the full-length gene and a gene for a functional variant (hMGMTΔC) that lacks the C-terminal 28 codons were constructed, and the genes were overexpressed using a T7 RNA polymerase promoter. The proteins are made in the form of insoluble aggregates but the truncated form of the protein (hMGMTΔC) has been successfully denatured, renatured, and purified to near homogeneity by ion exchange. Methyltransferase activity assays of hMGMTΔC demonstrate that the reconstituted protein has substantial DNA repair activity, though somewhat less than full-length hMGMT that had been expressed and purified in a soluble form. Mass spectrometry of a mixture of proteolytic fragments confirmed the protein sequence and indicated no detectable oxidation of the active site cysteine. The protein was determined to be monomeric by gel filtration chromatography, and circular dichroism spectra for renatured hMGMTΔC and fully soluble hMGMT are consistent with the renatured protein preparation being fully folded. Refolded hMGMTΔC had a curious propensity to form large aggregates in a time-dependent manner when injected into a dynamic light scattering instrument; this aggregation behavior was not observed for hMGMT purified in a soluble form. Differences in susceptibility to aggregation may account for differences in methyltransfer activity. Yields of purified protein were approximately 5 mg/liter of culture.     

High-level heterologous expression and secretion in Streptomyces lividans of two major antigenic proteins from Mycobacterium tuberculosis

Two major antigens from Mycobacterium tuberculosis were produced by Streptomyces lividans as secreted extracellular proteins. An expression-secretion vector had been constructed that contained the promoter of xylanase A and the signal sequence of cellulase A. The latter contained two initiation codons preceded by a Shine-Dalgarno sequence plus eight nucleotides complementary to the 16S rRNA. The genes encoding the 38-kDa (Rv0934) and 19-kDa (Rv3763) proteins, respectively, were amplified by polymerase chain reaction and cloned into that vector. The recombinant proteins were then purified from the culture supernatants of the clones. The yields after purification were 80 mg/L for the 38-kDa protein and 200 mg/L for the 19-kDa protein. Sequence analysis of the N-terminal sequences showed a deletion of seven or eight amino acids for the 38-kDa protein, while in the 19-kDa protein 22 or 23 amino acids were lost, as compared with the respective wild-type proteins. However, the 19 kDa recombinant protein had the same N-terminal sequence as the one recovered from the M. tuberculosis culture supernatant. The high yields obtained for these two proteins demonstrated the potential of S. lividans as an alternative host for the production of recombinant proteins from M. tuberculosis. The culture conditions have yet to be worked out to minimize proteolytic degradation and to recover intact products.     

Production of a bacterial thermophilic xylanase inSaccharomyces cerevisiae

ThexynA gene (encoding xylanase) from the obligately anaerobic thermophilic bacteriumCaldocellum saccharolyticum has been inserted into the yeast expression vector, pFLAGU2. Yeast cells containing this vector were able to produce and secrete active xylanase into the growth medium. Xylanase was purified by the use of an affinity column specific for a rare peptide sequence fused to the N-terminus of the xylanase. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis of the purified fractions revealed that the enzyme had been fortuitously glycosylated. The specific activity of the purified xylanase was found to be 90 international units/mg protein. The amount of xylanase secreted into the surrounding medium was approximately 10 mg/l.     

重组人IL-4大肠杆菌表达与纯化

根据大肠杆菌密码子偏爱性优化并合成人白细胞介素4基因,以pET30a( )为载体构建了重组表达质粒pET30a( )/rhIL-4,将重组质粒转化大肠杆菌BL21(DE3)感受态细胞,诱导表达并超声破菌检测重组蛋白的表达形式。采用5L发酵罐培养工程菌,发酵液OD600为0.6时诱导3.5h收集菌体,检测目的蛋白的表达量。收集的菌体经压榨破菌获得包涵体,通过包涵体变性、层析、透析复性等方法对rhIL-4进行纯化。采用人红细胞白血病细胞(TF-1)测定纯化的rhIL-4的生物活性。测序表明目的基因已插入载体pET30a( )中,重组蛋白以包涵体形式表达,单位体积重组蛋白的表达量达200mg/L发酵液,建立了对包涵体形式表达的rhIL-4纯化方法,最终得率为40mg/L发酵液,纯度大于98%,回收率为20%以上。免疫印迹法检测诱导表达的重组蛋白和纯化的蛋白为IL-4,N端氨基酸序列测定结果与理论相符,生物活性检测纯化的蛋白比活性达2.5×106AU/mg。这为rhIL-4进一步产业化研究建立了基础。     

Codon preference optimization increases heterologous PEDF expression

Pigment epithelium-derived factor (PEDF) is widely known for its neurotrophic and antiangiogenic functions. Efficacy studies of PEDF in animal models are limited because of poor heterologous protein yields. Here, we redesigned the human PEDF gene to preferentially match codon frequencies of E coli without altering the amino acid sequence. Following de novo synthesis, codon optimized PEDF (coPEDF) and the wtPEDF genes were cloned into pET32a containing a 5' thioredoxin sequence (Trx) and the recombinant Trx-coPEDF or Trx-wtPEDF fusion constructs expressed in native and two tRNA augmented E coli hosts - BL21-CodonPlus(DE3)-RIL and BL21-CodonPlus(DE3)-RP, carrying extra copies of tRNAarg,ile,leu and tRNAarg,pro genes, respectively. Trx-PEDF fusion proteins were isolated using Ni-NTA metal affinity chromatography and PEDF purified after cleavage with factor Xα. Protein purity and identity were confirmed by western blot, MALDI-TOF, and UV/CD spectral analyses. Expression of the synthetic gene was ～3.4 fold greater (212.7 mg/g; 62.1 mg/g wet cells) and purified yields ～4 fold greater (41.1 mg/g; 11.3 mg/g wet cell) than wtPEDF in the native host. A small increase in expression of both genes was observed in hosts supplemented with rare tRNA genes compared to the native host but expression of coPEDF was ～3 fold greater than wtPEDF in both native and codon-bias-adjusted E coli strains. ΔGs at -3 to +50 of the Trx site of both fusion genes were -3.9 kcal/mol. Functionally, coPEDF was equally as effective as wtPEDF in reducing oxidative stress, promoting neurite outgrowth, and blocking endothelial tube formation. These findings suggest that while rare tRNA augmentation and mRNA folding energies can significantly contribute to increased protein expression, preferred codon usage, in this case, is advantageous to translational efficiency of biologically active PEDF in E coli. This strategy will undoubtedly fast forward studies to validate therapeutic utility of PEDF in vivo.     

Cloning and sequencing of the gene for a 120-kDa immunodominant protein of Ehrlichia chaffeensis

Ehrlichia chaffeensis is the tick-borne, obligately intracellular bacterium that causes human monocytic ehrlichiosis. A 120-kDa protein is one of the immunodominant proteins of E. chaffeensis that stimulates production of specific antibodies in infected humans. A genomic library of E. chaffeensis was constructed in a λZAP II phage vector, and a clone expressing the 120-kDa protein of E. chaffeensis was identified using canine anti-E. chaffeensis serum. DNA sequence analysis of the cloned 120-kDa protein gene of E. chaffeensis identified a 1884-bp open reading frame with an ehrlichial promoter. Five identical 240-bp tandem repeat units were identified in the 120-kDa protein gene of E. chaffeensis, comprising 60% of the entire gene. Aside from the first repeat unit, all the other repeat units are identical. In the first repeat unit there are four nucleotides that are different from the other repeats. Hydropathy analysis of the deduced amino-acid sequence demonstrated that the repeat domain contains highly hydrophilic segments. The 120-kDa protein should be evaluated for a role in stimulating protective immunity.     

Design of an expression vector and its application to heterologous protein expression in Bacillus subtilis

An expression vector, pUBEX, was constructed for extracellular production of heterologous proteins in Bacillus subtilis using a polyhistidine tag on the C-terminal sequence, providing an efficient and easy purification of the protein. A CII protein, a member of Bowman–Birk protease inhibitors, which was expressed as an inactive protein in Escherichia coli, was successfully expressed in Bacillus subtilis using the pUBEX vector and was purified to 6.4 mg l^–1 by the immobilized metal affinity chromatography.     

Utilization of the TEF1-a gene (TEF1) promoter for expression of polygalacturonase genes, pgaA and pgaB, in Aspergillus oryzae

For the development of an efficient gene expression system in a shoyu koji mold Aspergillus oryzae KBN616, the TEF1 gene, encoding translation-elongation factor 1α, was cloned from the same strain and used for expression of polygalacturonase genes. The TEF1 gene comprised 1647 bp with three introns. The TEF1-α protein consisted of 460 amino acids possessing high identity to other fungal TEF proteins. Two nucleotide sequences homologous to the upstream activation sequence, characterized for the ribosomal protein genes in Saccharomyces cerevisiae, as well as the pyrimidine-rich sequences were present in the TEF1 gene promoter region, suggesting that the A. oryzae TEF1 gene has a strong promoter activity. Two expression vectors, pTFGA300 and pTFGB200 for production of polygalacturonases A and B respectively, were constructed by using the TEF1 gene promoter. A polygalacturonase (PGB) gene cloned from the same strain comprised 1226 bp with two introns and encoded a protein of 367 amino acids with high similarity to other fungal polygalacturonases. PGA and PGB were secreted at approximately 100 mg/l in glucose medium and purified to homogeneity. PGA had a molecular mass of 41 kDa, a pH optimum of 5.0 and temperature optimum of 45 °C. PGB had a molecular mass of 39 kDa, a pH optimum of 5.0 and temperature optimum of 55 °C. Received: 28 November 1997 / Received revision: 24 February 1998 / Accepted: 6 March 1998     

Ferredoxin-dependent Nitrite Reductase from Spinach Leaves

A ferredoxin-dependent nitrite reductase from Spinacea oleracea was purified approximately 180-fold, with a specific activity of 285 units/mg protein. This purified enzyme also had methyl viologen-dependent nitrite reductase activity, with a specific activity of 164 units/mg protein. After disc electrophoresis with polyacrylamide gel, the purified enzyme showed one major and one minor protein band.

The molecular weight of the enzyme was estimated to be 86,000 from Ultrogel filtration. This purified enzyme in oxidized form had absorption peaks at 278, 390, 573 and 690 nm. The absorbance ratios, A₃₉₀: A₂₇₈ and A₆₇₃: A₃₉₀ were 0.61 and 0.37, respectively.

By applying the purified enzyme to DEAE-Sephadex A–50 column chromatography, the ferredoxin-dependent nitrite reductase activity was selectively decreased. However, the methyl viologen-dependent nitrite reductase activity was increased, with a specific activity of 391 units/mg protein. This modified enzyme was homogeneous by disc electrophoresis with polyacrylamide gel.     

Common mechanism controlling phase and antigenic variation in pathogenic Neisseriae

The expression of the Neisseria gonorrhoeae opacity protein (Op, protein II), a major antigenic determinant of the outer membrane, is subject to frequent phase transitions. At least nine expression loci (opaE) are involved in the production of a large number of serologically distinct Op types. Using opa-specific oligonucleotides as probes in genomic blots, we detect Op-related gene sequences (opr) in N. meninglitidis as well as in N. lactamica. DNA sequence analysis of such opr genes derived from N. meninglitidis reveals distinct regions of homology with gonococcal opa E genes. As shown in the immunoblot, the proteins encoded by ops and opr are serologically related. Like the opa E genes, the 5′-coding sequences of the opr genes include a repetitive sequence composed of pentameric CTCTT units. The number of these coding repeat (CR) units is variable. This finding, together with the observation that all opr genes are constitutively transcribed, regardless of the status of protein production, suggests a translational control mechanism identical to that of the opa genes in gonococci. The related structures and control mechanisms of opa and opr genes imply a general significance of their gene products for the pathogenic character of the investigated Neisseria species.     

Characterization of DNA binding activities of over-expressedKpnI restriction endonuclease and modification methylase

The genes encoding theKpnI restriction endonuclease and methyltransferase fromKlebsiella pneumoniae have been cloned and expressed inEscherchia coli using a two plasmid strategy. The gene forKpnI methylase with its promoter was cloned and expressed in pACYC184. Even though the methylase clone is in a low copy number plasmid pACMK, high level expression of methylase is achieved. A hyper-expressing clone ofKpnI endonuclease, pETRK was engineered by cloning the R gene into the T7 expression system. This strategy resulted in over-expression ofKpnI endonuclease to about 15–30% of cellular protein. Both the enzymes were purified using a single Chromatographic step to apparent homogeneity. The yield of purified endonuclease and methylase from one liter of culture was approximately 30 and 6 mg respectively. Electrophoretic mobility shift assays show that both the enzymes are capable of binding to specific recognition sequence in the absence of any cofactors. The complexes ofKpnI methyl transferase and endonuclease with their cognate site exhibit distinctive behaviour with respect to ionic requirement.     

Cloning, expression, and identification of a novel class IIa bacteriocin in the Escherichia coli cell-free protein expression system

The NB-C1 gene, acquired from the result of data mining of the lactic acid bacteria genome, is a novel potential class IIa bacteriocin gene with the characteristic YGNGVxC cluster. To produce soluble NB-C1 efficiently and overcome issues of protein toxicity, we adopted a GFP fusion strategy using an Escherichia coli cell-free protein expression system. We constructed the expression vector pIVEX2.4d-GFP-NB-C1, which was expressed in both the batch mode and the continuous exchange cell-free (CECF) systems. The amount of soluble fusion protein achieved from the CECF system (2.2 mg/ml) was approximately three times higher than that in the batch mode (0.73 mg/ml). The soluble fusion protein was purified via one-step Ni–NTA affinity chromatography, with a concentration of 0.26 mg/ml and a purity of 95%. The purified NB-C1 showed strong antimicrobial activity against the indicator bacteria Listeria monocytogenes.     

Secretion by Saccharomyces cerevisiae of rat apolipoprotein E as a fusion to Mucor rennin

As the first step for production of rat apolipoprotein E (rApoE) in Saccharomyces cerevisiae, the rApoE cDNA was cloned and its nucleotide sequence was determined. When the intact rApoE gene including the presequence-encoding region was expressed under the control of the yeast GAL7 promoter, no protein immunoreactive with anti-rApoE antibody was detected either in the culture medium or inside the cells. For the purpose of the extracellular production of rApoE, three fusion genes were constructed in which the mature rApoE-encoding sequence was connected after the pre, prepro, and whole regions of the gene encoding a fungal aspartic proteinase, Mucor pusillus rennin (MPP), since MPP is efficiently secreted from recombinant S. cerevisiae containing the MPP gene. When these three fusion genes were expressed under the control of the GAL7 promoter, only one, encoding the mature rApoE connected to the whole MPP sequence, directed efficient secretion of the fused protein. The maximum yield of the fused protein secreted into the medium reached 11.8 mg/l and the calculated rApoE part was 5.3 mg in the fused protein. The excreted fusion protein was glycosylated at the original two sites in the MPP part. The fused protein was gradually degraded in the medium probably by proteases of the host cell, because no such degradation occured in a yeast pep4mutant strain.