一株耐热脂肪酶产生菌的鉴定及其脂肪酶基因的克隆

目的:从北方堆肥土样中分离、筛选获得产耐热脂肪酶的嗜热菌株 FS32b,确定该菌株的分类学地位及其所产耐热脂肪酶基因.方法:通过研究该菌株 16S rDNA 基因序列的系统进化树,进行菌种分类鉴定并利用PCR技术获得其脂肪酶基因.结果:FS32b 与报道过的 Bacillus subtilis X60646 有紧密的亲缘关系,二者的 16S rDNA 序列相似性为 99%,其脂肪酶基因经序列测定分析表明,该菌株含长度为 639bp 的耐热脂肪酶基因的完整开放阅读框架(ORF).此片断编码有 213 个氨基酸的酶.结论:FS32b初步鉴定为Bacllus subtilis,其脂肪酶基因的克隆为以后高效基因工程菌的构建奠定了基础.     

拆分获得(S)-酮基布洛芬脂肪酶基因在枯草芽孢杆菌中的克隆与表达

【目的】筛选具有不对称拆分消旋酮基布洛芬氯乙酯能力的脂肪酶基因,构建其表达分泌型工程菌,并进一步提高该脂肪酶的立体选择性。【方法】以自筛选出的一株具有不对称拆分消旋酮基布洛芬氯乙酯能力的菌株NK13为材料,通过构建其基因组文库,筛选具有不对称拆分消旋酮基布洛芬氯乙酯能力的脂肪酶基因。通过构建该脂肪酶基因的分泌型诱导表达载体pHY300-plk-sacR-gene,将其转入枯草芽孢杆菌WB600,获得基因重组菌WB600(pHY300-plk-sacR-gene)。用SDS-PAGE检测其表达和转化情况,采用非变性聚丙烯酰胺凝胶电泳的方法纯化脂肪酶;并利用TLC和HPLC检测该酶的立体选择专一性。【结果】得到了具有专一性拆分获得(S)-酮基布洛芬能力、长度为633bp的脂肪酶基因(GenBank登录号为:EU381317)。该脂肪酶在枯草芽孢杆菌WB600中得到了分泌表达。TLC和HPLC检测结果显示,纯化的脂肪酶对底物转化40h时转化率为30%,生成(S)-酮基布洛芬的e.e.%值最高,达60.02%,与未加Tween-80的枯草芽孢杆菌转化子体系相同。而在含Tween-80的环境下,枯草芽孢杆菌表达重组菌对底物转化36h时转化率约为45%,生成(S)-酮基布洛芬的e.e.%值最高,达93.64%,是野生菌NK13的16倍。【结论】从NK13号菌株中筛选得到的新的脂肪酶具有很高的不对称拆分获得(S)-酮基布洛芬的能力,实现了NK13菌中633bp脂肪酶基因在枯草芽孢杆菌中的分泌表达,研究证明Tween-80能提高该脂肪酶的拆分专一性。     

斜带石斑鱼2种胰脂肪酶基因全长cDNA序列的克隆与分析

利用RT-PCR和RACE方法克隆得到斜带石斑鱼（Epinephelus coioides）肝胰脏中胆盐活化的胰脂肪酶(bile salt-activated lipase,BSAL)和依赖于辅酶的胰脂肪酶(colipase-dependent pancreatic lipase,PL)基因的全长cDNA序列.BSAL基因全长cDNA序列1 796 bp,编码558个氨基酸,该蛋白序列含有BSAL的全部特征结构区,与其他脊椎动物BSAL的氨基酸序列同源性为49.9%～57.3%.PL基因的全长cDNA序列1 503bp,编码465个氨基酸,该蛋白序列含有PL全部的特征结构区,与其它脊椎动物PL的氨基酸同源性为49.1%～73.9%.系统树分析表明,斜带石斑鱼BSAL和PL与其它物种BSAL、PL和胰脂肪酶相关蛋白(PL-RP)聚于进化树的两个不同分支,属于2种不同的胰脂肪酶.结果证实,在同一鱼类体内也存在BSAL和PL两种胰脂肪酶基因.     

扩展青霉PF898碱性脂肪酶基因组DNA的克隆及序列分析

扩展青霉 (Penicilliumexpansum)PF898可产生一种具有重要工业生产价值的碱性脂肪酶(PEL) .在通过 3′RACE和 5′RACE获得PEL完整的cDNA序列的基础上 ,通过PCR方法首次克隆了该脂肪酶的完整的基因组DNA序列 (GenBank登录号为AF330 6 35 ) .该脂肪酶DNA全长 14 0 4bp ,包括PEL编码区、3′非翻译区和部分 5′非翻译区基因的序列 .编码区DNA由 1135个碱基组成 ,含有 5个内含子 ,大小分别为 5 8bp、4 7bp、5 0bp、5 6bp和 6 9bp .在已报道的丝状真菌脂肪酶中 ,PEL基因的内含子数量最多 ,而其大小与其它丝状真菌脂肪酶基因的内含子一样 ,均为只有几十个碱基的小内含子 .PCR扩增获得的PLEDNA序列还包括由 195个碱基组成的 3′端非编码区序列 ,74个碱基的部分 5′端非编码区序列 .PELDNA全长序列中的 - 2 4至 - 2 7nt为TATAbox ,终止码TGA下游15 6nt出现AATAAA序列 ,TGA下游 182位出现poly(A)尾 ,为典型的真核基因结构 .同源性序列分析表明 ,PEL与其它真菌来源脂肪酶的基因组DNA序列同源性约为 39%～ 4 9% ,PEL内含子之间或PEL内含子与其它丝状真菌脂肪酶基因的内含子之间的序列同源性约 4 2 %～ 5 7% .     

腐生葡萄球菌M36耐有机溶剂脂肪酶基因的克隆与原核表达

脂肪酶是重要的工业用酶,在食品加工、生物柴油的合成等领域具有广泛的应用。但是在应用中有机溶剂对脂肪酶具有一定的毒性,因此获得耐有机溶剂的脂肪酶基因并实现高效表达是脂肪酶规模化应用的前提。本研究应用PCR技术首次从耐有机溶剂脂肪酶产生菌腐生葡萄球菌M36基因组DNA中扩增得到脂肪酶Ⅲ基因lip3(GenBank AccessionNo.FJ979867),其编码区长度为741bp,编码247个氨基酸,推测蛋白分子量大小为31.6kD。它与腐生葡萄球菌lip3推测的基因(GenBank AccessionNo.AP008934)只有83%的同源性。将该基因与大肠杆菌表达载体pET-DsbA连接,转化大肠杆菌EscherichiacoliBL21(DE3)获得重组菌株BL21(DE3)/pET-DsbA-lip3,在pH8、25oC条件下,OD600为1.0时用0.4mmol/LIPTG诱导12h酶活达到25.8U/mL。重组酶在甲醇、正己烷、异辛烷、正庚烷等有机溶剂中具有较好的耐性。lip3基因的克隆及在大肠杆菌中有效表达的研究为进一步进行基因工程改造和脂肪酶应用奠定了基础。     

南极耐冷 Pseudomonas sp. 7323低温脂肪酶的性质及基因克隆

 南极微生物是筛选低温酶的良好来源,但尚未得到充分的研究与开发.低温脂肪酶具有广阔的应用前景,其基因结构特征也具有重要的研究意义. 本文对南极微生物开展了低温脂肪酶产生菌的筛选、基因克隆及特征分析.采用功能筛选的方法,从南极普里兹湾深海沉积物中获得一株产低温脂肪酶的菌株7323,其最适温度和最高生长温度分别为20℃和30℃,属于耐冷菌.16S rDNA序列分析表明,该菌属于假单胞菌属（Pseudomonas）.通过设计引物扩增出的脂肪酶基因全长为1854　bp,该基因编码一个由617氨基酸、分子量预计为64466的蛋白质.氨基酸序列分析表明,该酶与Pseudomonas sp. UB48 的脂肪酶有89%的相似性,在催化区和C末端信号肽中存在高度保守的序列.纯化后的酶学性质研究表明,该脂肪酶的最适温度为35℃,最适pH值为9.0,为碱性低温酶.     

产碱假单胞菌脂肪酶的克隆表达及酶学性质研究

【目的】克隆产碱假单胞菌的脂肪酶基因,实现其在大肠杆菌中异源表达并进行酶学性质研究。【方法】通过基因文库构建和PCR,获得脂肪酶基因,并以pET30a(+)为表达载体、E.coli BL21(DE3)为宿主菌,在大肠杆菌中进行异源表达,表达产物经HisTrapTM亲和层析柱纯化后进行酶学性质研究。【结果】从产碱假单胞菌中克隆得到一个脂肪酶基因,大小为1 575 bp(GenBank登录号为JN674069)。该酶分子量为55 kD,最适底物为p-NPO,最适反应温度和pH分别为35°C、pH 9.0。重组酶经1 mmol/L的Cu2+处理30 min可使酶活提高至156%。在最适反应条件下重组酶的比活力为275 U/mg,Km和Vmax分别为80μmol/L和290 mmol/(min.g protein)。【结论】产碱假单胞菌脂肪酶基因的克隆与表达不仅积累了脂肪酶基因的资源,并为其在手性拆分中的应用奠定基础。     

黑曲霉（Aspergillus niger）F044脂肪酶新型基因lipB的克隆、表达及酶学性质分析

摘要：【目的】本研究拟克隆新型的黑曲霉（Aspergillus niger）脂肪酶（EC 3.1.1.3）基因,实现其在大肠杆菌（Escherichia coli）的高效表达,并对表达产物进行系统的酶学性质分析,为该脂肪酶的工业化生产及应用奠定基础。【方法】通过PCR和RT-PCR克隆脂肪酶基因,并将其开放式阅读框（ORF）克隆入融合表达载体pET28a;表达产物经Ni-agarose纯化后对LipB进行酶学性质分析,并通过圆二色谱进行结构分析。【结果】成功地从A. niger F044中克隆了一个新型的脂肪酶基因lipB,获得了该基因的全基因组序列和cDNA序列（GenBank: FJ536287、FJ536288）,并实现了其在E. coli中的高效表达。LipB分子量约为43.0 kDa,最适底物为pNPC（C8）,酶学动力学常数Km=5.98 mmol/L,最适反应温度为50℃,最适pH为6.0;该酶能在40℃条件下保持稳定,在60℃条件下处理1 h后残余酶活仅为18.8%;该酶对Ca2+敏感,当脂肪酶经2 mmol/L Ca2+处理1 h后,酶活提高了2.6倍。圆二色谱分析表明该酶在Ca2+处理前后具有明显的结构变化。【结论】新型A. niger脂肪酶lipB基因的克隆不仅积累了脂肪酶基因资源,而且为高效基因工程菌的构建及规模化应用奠定基础;对LipB的酶学性质分析表明该酶在食品和油酯化工等领域具有广阔的应用前景。     

(S)-酮基布洛芬拆分用脂肪酶基因的克隆及表达

本实验室筛选出一株具有不对称拆分消旋酮基布洛芬氯乙酯的菌株NK13为材料,经鉴定为巨大芽孢杆菌Bacillus megaterium。通过构建其基因文库,从中筛选得到阳性克隆重组子pUC-NK1。测序分析表明,该重组子质粒中包含一长度为633bp的脂肪酶基因的完整开放阅读框,核苷酸同源性对比证明该脂肪酶基因属首次发现(GenBank Accession No.EU381317),将此基因克隆到原核表达载体pET21b(+)中构建重组表达质粒pET-NKest1,转化Escherichia coli BL21,经Isopropyl-β-D-Thiogalactoside(IPTG)诱导在宿主菌中得到表达,经SDS-PAGE电泳检测证明该脂肪酶成熟蛋白分子量约为20kDa。薄层层析与HPLC检测结果显示,表达菌株转化外消旋酮基布洛芬氯乙酯得到(S)-酮基布洛芬过量(e.e.%),由野生菌NK13的5.84%提高到75.28%,提高约15倍,说明该脂肪酶具有优先拆分得到(S)-酮基布洛芬的特性。     

Sequence of a sea urchin hsp70 gene and its 5' flanking region

We report the nucleotide sequence of a 4470-bp fragment derived from a sea urchin genomic clone containing part of a heat-shock protein 70 (Hsp70)-encoding gene. This fragment, named hsp70 gene II, contains 1271 bp of the flanking region and 3299 bp of structural gene sequence interrupted by five introns and encoding the N-terminal 371 amino acids (aa) of the protein. The 5' flanking region contains a putative TATA element, two CCAAT boxes, four heat-shock consensus sequence elements (hse) and one consensus sequence for binding of Sp1. Remarkable homologies were observed for deduced aa sequence and intron-exon organization between hsp70 gene II and rat hsc73 gene.     

Cloning,characterization and expression of the extracellular lipase gene from <Emphasis Type="Italic">Aureobasidium </Emphasis><Emphasis Type="Italic">pullulans</Emphasis> HN2-3 isolated from sea saltern

The extracellular lipase structural gene was isolated from cDNA of Aureobasidium pullulans HN2-3 by using SMART^TM RACE cDNA amplification kit. The gene had an open reading frame of 1245 bp long encoding a lipase. The coding region of the gene was interrupted by only one intron (55 bp). It encodes 414 amino acid residues of a protein with a putative signal peptide of 26 amino acids. The protein sequence deduced from the extracellular lipase structural gene contained the lipase consensus sequence (G-X-S-X-G) and three conserved putative N-glycosylation sites. According to the phylogenetic tree of the lipases, the lipase from A. pullulans was closely related to that from Aspergillus fumigatus (XP_750543) and Neosartorya fischeri (XP_001257768) and the identities were 50% and 52%, respectively. The mature peptide encoding cDNA was subcloned into pET-24a (+) expression vector. The recombinant plasmid was expressed in Escherichia coli BL21(DE3). The expressed fusion protein was analyzed by SDS-PAGE and western blotting and a specific band with molecular mass of about 47 kDa was found. Enzyme activity assay verified the recombinant protein as a lipase. A maximum activity of 0.96 U/mg was obtained from cellular extract of E. coli BL21(DE3) harboring pET-24a(+)LIP1. Optimal pH and temperature of the crude recombinant lipase were 8.0 and 35 °C, respectively and the crude recombinant lipase had the highest hydrolytic activity towards peanut oil.     

Molecular cloning and characterization of a putative protein kinase gene from the thermophilic fungus Thermomyces lanuginosus.

Based on the conserved amino acid sequence (DLKPEN) of serine-threonine protein kinase from several fungi, a degenerate primer was designed and synthesized. Total RNA was isolated from the thermophilic fungus Thermomyces lanuginosus. Using RACE-PCR, full-length cDNA of a putative serine-threonine protein kinase gene was cloned from T. lanuginosus. The full-length cDNA of T. lanuginosus protein kinase was 2551 bp and contained an 1806 bp open reading frame encoding a putative protein kinase precursor of 601 amino acid residues. Sequencing analysis showed that the cloned cDNA of T. lanuginosus had consensus protein kinase sequences. Conservative amino acid subdomains which most serine-threonine kinases contain can be found in the deduced amino acid sequence of T. lanuginosus putative protein kinase. Comparison results showed that the deduced amino acid sequence of T. lanuginosus putative protein kinase was highly homologous to that of Neurospora crassa dis1-suppressing protein kinase Dsk1. The putative protein kinase contained three arginine/serine-rich (SR) regions and two transmembrane domains. These showed that it might be a novel putative serine-threonine protein kinase.     

A putative gene of tobacco chloroplast coding for ribosomal protein similar to E. coli ribosomal protein S19.

A partial sequence of a cloned 3.2 Md BamHI fragment from tobacco chloroplast DNA revealed the occurrence of a putative gene for ribosomal protein. The putative gene is located on the left margin of the large single-copy region in the chloroplast DNA. The coding region contains 276 bp (92 codons). The amino acid sequence deduced from the DNA sequence shows 55% homology with that of E. coli S19 (91 amino acid residues).     

Cloning of a novel lipase gene, <Emphasis Type="Italic">lipJ08,</Emphasis> from <Emphasis Type="Italic">Candida rugosa</Emphasis> and expression in <Emphasis Type="Italic">Pichia pastoris</Emphasis> by codon optimization

A novel lipase gene, lipJ08, was cloned from Candida rugosa ATCC14830, along with the already reported five lipase genes (lip1–lip5). Nucleotide sequencing indicated that the lipJ08 gene contains a 1650 bp open reading frame (ORF) without introns. The deduced amino acid sequence corresponds to 534 amino acid residues, including a putative signal sequence of 15 amino acid residues. Seventeen of the non-universal serine codons (CTG) of lipJ08 were converted into universal serine codons (TCT) by PCR-based mutagenesis. The native and codon-optimized lipJ08 genes were expressed in Pichia pastoris. The hydrolytic activity of the recombinant LIPJ08 was 4.7 U/ml, whereas the activity of the recombinant wild-type lipase could not be detected.     

The C1orf9 gene encodes a putative transmembrane member of a novel protein family

Here we report the characterization of a human mRNA encoding a novel protein denoted C1orf9 (chromosome 1 open reading frame 9). The cDNA sequence, derived from a testis cDNA library, contains 5700 bp which encodes an open reading frame of 1254 amino acids. The deduced protein contains a putative N-terminal signal peptide and one putative transmembrane region, indicating membrane localization. No significant homology was found with known characterized proteins. However, a 150 amino acid region has significant homology to deduced protein sequences from other organisms, including Caenorhabditis elegans (43% identity), Saccharomyces cerevisiae (47% identity), Schizosaccharomyces pombe (48% identity), and two proteins from Arabidopsis thaliana (42% and 40% identity), suggesting a novel family of conserved domains. The C1orf9 gene was assigned to chromosome 1q24. The gene spans approximately 78.7 kb and is organized into at least 24 exons. Expression analysis revealed a single C1orf9 mRNA species of approximately 6.0 kb with a predominant expression in pancreas and testis, and only low levels of expression in other tissues examined.     

Cloning and sequence analysis of the gene encoding Lactococcus lactis malolactic enzyme: Relationships with malic enzymes

Abstract Malolactic enzyme is the key enzyme in the degradation of L-malic acid by lactic acid bacteria. Using degenerated primers designed from the first 20 N-terminal amino acid sequence of lactococcal malolactic enzyme, a 60-bp DNA fragment containing part of the mleS gene was amplified from Lactococcus lactis in a polymerase chain reaction. This specific probe was used to isolate two contiguous fragments covering the gene as a whole. The 1.9-kb region sequenced contains an open reading frame of 1623 bp, coding a putative protein of 540 amino acids. The deduced amino acid sequence reveals that lactococcal putative protein (Mlep) is highly homologous to the malic enzyme of other organisms. Expression of the mleS gene in Escherichia coli results in malolactic activity.     

A novel streptomycete lipase: cloning,sequencing and high-level expression of the Streptomyces rimosus GDS(L)-lipase gene

An extracellular lipase from Streptomyces rimosus R6-554W has been recently purified and biochemically characterized. In this report the cloning, sequencing, and high-level expression of its gene is described. The cloned DNA contained an ORF of 804 bp encoding a 268-amino-acid polypeptide with 34 amino acid residues at the amino terminus of the sequence that were not found in the mature protein. The theoretical molecular mass (24.172 kDa) deduced from the amino acid sequence of the mature enzyme was experimentally confirmed. This lipase showed no overall amino acid sequence similarity to other lipases in the databases. However, two hypothetical proteins, i. e. putative hydrolases, derived from the genome sequencing data of Streptomyces coelicolor A3(2), showed 66% and 33% identity. In addition, a significant similarity to esterases from Streptomyces diastatochromogenes and Aspergillus terreus was found. Sequence analysis revealed that our novel S. rimosus lipase containing a GDS(L)-like consensus motif belongs to family II of lipolytic enzymes, previously unrecognized in Streptomyces. When the lipase gene was expressed in a S. rimosus lipase-deficient strain harboring the lipase gene on a high-copy-number vector, lipase activity was 22-fold higher than in the original strain.