苏云金杆菌以色列亚种几丁质酶基因的克隆及序列分析

从苏云金芽孢杆菌以色列亚种（Bacillus thuringiensis subsp israelensis)中提取基因组DNA,通过合成1对特异性引物,用touchdown PCR的方法扩增几丁质酶ichi基因序列（GenBank登录号：AF526379）。ichi序列全长为2570bp,含有1个2067bp的开放阅读框（ORF）,编码688个氨基酸,推测分子量为75.79kDa,等电点pI=5.90的几丁质酶前体。序列和结构比较分析表明：Ichi氨基酸序列与蜡状芽孢杆菌（Bacillus cereus)28-9几丁质酶CW、蜡状芽孢杆菌CH几丁质酶B及苏云金芽孢杆菌墨西哥亚种几丁质酶的同源性分别为97.24%、97.18%、97.63%,而与苏云金芽孢杆菌巴基斯坦亚种的同源性只有63.07%。Ichi编码区由分泌信号肽（46AA）、催化区（105AA)、粘蛋白Ⅲ型同源区（74AA）及几丁质结合区（40AA）组成。     

中华眼镜蛇短链神经毒素cDNA的克隆及在大肠杆菌中的表达

利用RT－PCR技术从中华眼镜蛇毒腺组织中成功地克隆了短链神经毒素CDNA。测序结果表明,该基因开放阅读框架编码83个氨基酸残基,其中对个为信号肽,成熟肽为62个氨基酸残基。该基因与GenBank报道的相同物种的神经毒素基因有相当的同源性,不同物种之间的信号肽序列十分保守。将短链神经毒素CDNA再经PCR扩增除去信号肽序列,克隆到pT7ZZ表达质粒中,转化E.coliBL21（DE3）后,经IPTG诱导可高效表达分子量为23kDa②左右的融合蛋白。表达产物占菌体总蛋白的25％左右。     

粉棒束孢几丁质酶基因cDNA全序列克隆及结构特征分析

通过设计基因保守区的特异性简并引物,运用SMARTRACERT-PCR技术,首次从粉棒束孢中克隆出完整的几丁质酶基因。该基因cDNA全长1549bp,5'端非翻译区89bp,3'端非翻译区有188bp,开放阅读框(ORF)1272bp,编码423个氨基酸。信号肽长度为22个氨基酸。信号肽很可能需要两次剪切。成熟的蛋白理论分子量为43.9kDa,理论等电点为5.67。氨基酸序列具有几丁质酶18族的两个高度保守的活性区域,一个是酶作用活性位点,另一个是几丁质结合区域。该蛋白可归于几丁质酶18族V类。成熟蛋白的氨基酸序列与裂虫壳AAV98691、白色扁丝霉CAA45468、菌生轮枝孢AAP45631、莱氏野村菌AAP04616和球孢白僵菌AAN41261的同源性分别为91%,89%,80%,76%和75%。     

斜纹夜蛾核型多角体病毒BamHI—J片段序列分析

报道了斜纹夜蛾核型多角体病毒（SpltMNPV)BamHI-J片段的序列结构。该片段定位于SpltMNPV基因组25.8-29.9图单位（msp unit）,包括4个完整的开放读码框,几丁质酶基因（chiA）的3′端部分序列和一个同源区（hr）的部分序列。4个完整的读码框包括lef-8基因,杆状病毒J结构域蛋白基因（baculovirus J domain protein gene,bjdp),ORF570和ORF165。序列分离表明：ORF570与毒蛾核型多角体病毒（Lymantria dispar MNPV）的解旋酶－2基因有31％的氨基酸同源性。ORF165为SpltMNPV特有。J结构域蛋白在其他杆状病毒基因组中尚未见报道,其氨基酸序列N端存在J结构域,推断该蛋白质具有与DnaJ蛋白类似特征。lef-8基因编码的氨基酸与已报道的杆状病毒基因组中的lef-8基因编码的氨基酸具有高的同源性,且其C端具有与其他杆状病毒LEF－8类似的保守序列CIKICGIHGQKG。     

红花花青素合成酶基因的克隆及表达分析

根据红花转录物测序结果中得到的中间序列,采用R11-PCR和RACE方法从红花花瓣中克隆到1个4嬲基因的全长cDNA,该基因全长序列1226bp,具有完整的开放阅读框（ORF）,共1050bp,编码349个氨基酸。生物信息学软件分析显示,该基因编码的蛋白理论分子量约为82．27kDa,等电点为5．09,序列里含有典型的加尾信号序列AATAA和Poly（A）。保守结构域预测表明,该基因编码的蛋白具有典型的ANS蛋白功能结构域,其保守结构域中含有铁离子及2．0-酮戊二酸结合位点。结合其他物种的臌因构建系统树表日月,红花ANS蛋基因与其他物种氨基酸具有一定的同源性,其中与芍药的亲缘关系最近。应用实时荧光定量PCR分析表明,ANS基因在红花的初花期和盛花期的表达量最高。     

绿色木霉内切几丁质酶cDNA的克隆及其编码蛋白的序列分析

根据已克隆的内切几丁质酶基因序列的同源性比较,设计引物,采用PCR技术从绿色木霉基因组中分离出一个大小为1467bp的特异DNA片段,采用RT．PeR技术从绿色木霉总RNA中分离出大小约1276bp的eDNA片段。序列对比后发现该内切几丁质酶DNA含有三个内含子,大小分别为52bp,69bp,64bp。同源性分析表明其全长eDNA序列和已经报道的内切几丁质酶序列的同源性高达95％以上,预测其编码蛋白的氨基酸序列含424个氨基酸残基,分子量为46kDa,氨基酸序列分析表明该内切几丁质酶164～172位氨基酸是其活性中心,用同源建模法模拟其空间结构模型,为进一步研究其作用机制奠定了良好基础。     

烟夜蛾组织蛋白酶B酶原基因的克隆、序列分析和原核表达

利用反转录多聚酶链式反应（RT-PCR）技术从烟夜蛾Helicoverpa assulta (Guenée)雌虫卵巢中扩增得到了组织蛋白酶B酶原基因（cathepsin B,CB）cDNA片段,将其克隆至pMD19-T载体。测序结果表明, 该片段长度为1 017 bp,含有组织蛋白酶B酶原基因完整开放阅读框架（ORF）（GenBank登录号：EF154237）。序列分析结果显示：烟夜蛾组织蛋白酶B（HassCB）编码338个氨基酸残基,预测N-末端含有长度为21个氨基酸残基的信号肽序列;去除信号肽序列后,预测成熟蛋白分子量为35.5 kDa,等电点为5.96。氨基酸序列比对结果表明,HassCB与其他昆虫的组织蛋白酶B酶原氨基酸序列有较高的一致性。将去除信号肽序列的HassCB（HassCBa）重组到表达载体pGEX-4T-1中,并转入原核细胞中表达,SDS-PAGE和Western印迹分析表明：该基因能在大肠杆菌BL21中表达,电泳检测到一条大约61 kDa的目的条带,与预测的融合蛋白分子量相符。用该基因制备多克隆抗体并测得该抗体对重组表达的HassCBa的效价为1∶51 200。通过免疫印迹检测证实,此抗体既能识别重组表达的HassCBa,又能识别烟夜蛾卵巢匀浆液中的HassCB。     

西伯利亚蓼几丁质酶基因Class Ⅳ的克隆及生物信息学分析

根据西伯利亚蓼抑制消减文库（SSH）中获得的几丁质酶（CHI）基因的部分序列,采用RACE技术克隆了具完整编码区的cDNA序列,基因全长1017bp,开放阅读框编码270个氨基酸。序列分析表明,该基因的编码蛋白（PsCHI1）以前体形式存在,N端分别有22个氨基酸的信号肽和35个氨基酸的几丁质结合域（CBD）,C端199个氨基酸为催化区（CD）,连接CBD与CD的14个氨基酸为可变交联区,成熟蛋白为不含信号肽部分,呈碱性,带正电荷。PsCHI1与所选其它植物classⅣCHI前体序列具有高度的同源性（53％-69％）,而与classⅠ和classⅡCHI的氨基酸序列同源性较低,推测为植物classⅣCHI。根据日本水稻CHI晶体结构构建了PsCHI1三维分子模型,分析显示PsCHI1可以识别比classⅠ和classⅡCHI短的几丁质片段,并以其它植物CHI的已知结构域和功能为基础,确定PsCHI1具有能够水解真菌细胞壁的结构,推测其可能有抗病原微生物的功能。     

烟曲霉几丁质酶基因的克隆与表达

Chi4 4是烟曲霉 (Aspergillusfumigatus)YJ-407产生的一种胞外几丁质酶。通过用真菌几丁质酶保守氨基酸序列与Chi44的N-端序列检索烟曲霉部分基因组序列数据库 ,获得一个编号为contig555的烟曲霉基因组序列 ,可能包含烟曲霉几丁质酶的基因。根据检索结果用RT-PCR方法从烟曲霉YJ-407中克隆到1.4kb的cDNA片段 ,该cDNA的ORF编码一个395个氨基酸的蛋白 ,分子量为43.6kD。对其推导氨基酸序列分析表明该蛋白与其它真菌来源的几丁质酶同源 ,而且活性中心与人巨噬细胞几丁质酶高度同源。该cDNA已在E .coli与PichiapastorisGS115中获得表达 ,分别获得 43kD和44kD的重组蛋白 ,两种重组蛋白均有几丁质酶活性。与野生酶相比 ,大肠杆菌表达的43kD重组酶及Pichia酵母表达的44kD重组酶稳定性下降 ,说明Chi44的糖基化修饰可稳定酶蛋白.     

丹参中硫堇基因SmTHI的克隆和表达分析

丹参EST序列的Blast分析表明,一条序列与硫堇（thionin,THI）基因有较高的同源性,该序列长575bp,包含1个长366bp的开放阅读框（ORF）,编码121个氨基酸,命名为SmTHI,GenBank登陆号为DQ212984。在此基础上设计引物,分别从cDNA和gDNA水平上克隆到该基因的全编码区序列的结果表明,该基因无内含子。序列分析表明,该编码蛋白与大多数植物的THI蛋白前体高度同源,并符合植物硫堇类蛋白的序列模式和特征：C—C—x（5）．R．x（2）-[FY]-x（2）-C,N端具17个氨基酸的信号肽,中间46个氨基酸为成熟THI部分,C端的58个氨基酸为酸性多肽部分。成熟的THI蛋白带正电荷,偏碱性,推测可能有抗病原微生物活性。实时定量PCR检测SmTHI在丹参不同组织部位的表达以及在黄瓜细菌性角斑病菌（PSL）、NaCl和水杨酸（sA）溶液诱导下的表达结果表明：SmTHI在植物的根、茎和叶中均有不同程度的表达,其表达丰度为叶〉茎〉根：在PSL、NaCl和sA溶液诱导下该基因的表达呈上调趋势。     

Cloning and Expression of a Chitinase Gene from Sanguibacter sp. C4

The chitinase Chi58 is an extracellular chitinase produced by Sanguibacter sp.strain C4. The gene-specific PCR primers were used to detect the presence of the chiA gene in strain C4. A chiA fragment (chiA-F) was amplified from the C4 genomic DNA and was used to blast-search the related sequences from the GenBank dadabase. By alignment and selection of the highly conserved regions of the homologous sequences, two pairs of primers were designed to amplify the open reading frame (ORF) of the chitinase from strain C4 by nested PCR. The results revealed that the Chi58 ORF consisted of 1 692 nucleotides encoding a protein of 563 amino acid residues. The molecular weight of the mature protein was predicted to be 58.544 kDa. The Chi58 ORF was a modular enzyme composed of a signal peptide sequence, a polycystic kidney disease I domain, and a glycosyl hydrolase family 18 domain. The chitinase of C4 exhibited a high level of similarity to the chitinase A of Serratia (88.9%-99.6%) at the amino acid sequence level. The Chi58 gene was cloned into the expression vector pET32a to construct the recombinant plasmid pChi58 and was expressed in E. coli BL-21 (DE3) cells with IPTG induction. The molecular weight of the Trx-Chi58 fusion protein was estimated to be 81.1 kDa by SDS-PAGE.     

苏云金芽孢杆菌chiA,chiB全基因的克隆、表达及其序列分析

以苏云金芽孢杆菌科默尔亚种15A3菌株基因组DNA为模版,用touchdown PCR方法扩增几丁质酶ChiA和ChiB的全基因序列(GenBank登录号:EF103273和DQ512474)。将PCR产物连接pUCm-T克隆载体,获得重组质粒pUCm-chiA和pUCm-chiB,分别转化E.coliXL-Blue。克隆的几丁质酶基因可以利用本身的启动子异源表达各自的蛋白,不需要几丁质作为诱导物。表达的几丁质酶能够分泌到胞外。证明15A3菌株可组成型表达2种几丁质酶。经核苷酸及氨基酸序列分析证明,chiA基因全长1426bp,含有343bp的上游非编码区和1083bp的ORF,编码360个氨基酸。推测成熟蛋白分子量为36kD,只有一个几丁质酶催化域。chiB基因全长2279bp,含有248bp的上游非编码区和2031bp的ORF,编码676个氨基酸。推测成熟蛋白分子量约为70.6kD,具有三个功能域。核苷酸序列分析显示chiA和chiB的启动子所处的位置及转录起始碱基都不相同,-35区相同,而-10区有两个碱基不同,SD序列也不完全一致。     

苏云金芽孢杆菌chiA,chiB全基因的克隆、表达及其序列分析

以苏云金芽孢杆菌科默尔亚种15A3菌株基因组DNA为模版,用touchdown PCR方法扩增几丁质酶ChiA和ChiB的全基因序列(GenBank登录号:EF103273和DQ512474)。将PCR产物连接pUCm-T克隆载体,获得重组质粒pUCm-chiA和pUCm-chiB,分别转化E.coliXL-Blue。克隆的几丁质酶基因可以利用本身的启动子异源表达各自的蛋白,不需要几丁质作为诱导物。表达的几丁质酶能够分泌到胞外。证明15A3菌株可组成型表达2种几丁质酶。经核苷酸及氨基酸序列分析证明,chiA基因全长1426bp,含有343bp的上游非编码区和1083bp的ORF,编码360个氨基酸。推测成熟蛋白分子量为36kD,只有一个几丁质酶催化域。chiB基因全长2279bp,含有248bp的上游非编码区和2031bp的ORF,编码676个氨基酸。推测成熟蛋白分子量约为70.6kD,具有三个功能域。核苷酸序列分析显示chiA和chiB的启动子所处的位置及转录起始碱基都不相同,-35区相同,而-10区有两个碱基不同,SD序列也不完全一致。     

Characterization of a chitinase gene from Stenotrophomonas maltophilia strain 34S1 and its involvement in biological control

A chitinase gene was cloned on a 2.8-kb DNA fragment from Stenotrophomonas maltophilia strain 34S1 by heterologous expression in Burkholderia cepacia. Sequence analysis of this fragment identified an open reading frame encoding a deduced protein of 700 amino acids. Removal of the signal peptide sequence resulted in a predicted protein that was 68 kDa in size. Analysis of the sequence indicated that the chitinase contained a catalytic domain belonging to family 18 of glycosyl hydrolases. Three putative binding domains, a chitin binding domain, a novel polycystic kidney disease (PKD) domain, and a fibronectin type III domain, were also identified within the sequence. Pairwise comparisons of each domain to the most closely related sequences found in database searches clearly demonstrated variation in gene sources and the species from which related sequences originated. A 51-kDa protein with chitinolytic activity was purified from culture filtrates of S. maltophilia strain 34S1 by hydrophobic interaction chromatography. Although the protein was significantly smaller than the size predicted from the sequence, the N-terminal sequence verified that the first 15 amino acids were identical to the deduced sequence of the mature protein encoded by chiA. Marker exchange mutagenesis of chiA resulted in mutant strain C5, which was devoid of chitinolytic activity and lacked the 51-kDa protein in culture filtrates. Strain C5 was also reduced in the ability to suppress summer patch disease on Kentucky bluegrass, supporting a role for the enzyme in the biocontrol activity of S. maltophilia.     

Isolation and characterization of chitinases from Verticillium lecanii

Degenerate PCR primers corresponding to conserved domains of fungal chitinases were designed, and PCR was performed on genomic DNA of the entomogenous fungus Verticillium lecanii (Zimmermann) Viegas. Two distinct PCR fragments, chf1 and chf2, were isolated and used to identify two DNA contigs. Analyses of these two contigs revealed that we had obtained the full-length DNA sequence including the promoter, 5' untranslated region, open reading frame (ORF), and 3' untranslated regions for two distinct chitinase-like genes. These two genomic DNA sequences exhibited 51% identity at the amino acid (aa) level and were designed as acidic (chi1) and basic (chi2) chitinase-like genes. The isolated cDNA for chi1 gene is 1110 bp with a predicted protein of 370 aa and molecular mass of 40.93 kDa, and its ORF was uninterrupted in its corresponding genomic DNA sequence. The cDNA for the chi2 gene is 1269 bp, a predicted ORF of 423 aa and molecular mass of 45.95 kDa. In contrast, the ORF was interrupted by three introns in its corresponding genomic DNA. The basic chitinase gene (chi2) was successfully expressed in the Pichia pastoris system; optimum enzymatic activity was observed at 22 degrees C and at pH 7.5. CHI1 and CHI2 were clustered into two different phylogenetic groups according to their sequence alignments with 28 other fungal chitinases. A chitin-binding domain, comprising two sub-domains that exhibit similarities at the aa level to chitin binding domains in bacteria, was identified in 30 fungal chitinase sequences examined.     

Cloning, expression, and characterization of a chitinase from the chitinolytic bacterium Aeromonas hydrophila strain SUWA-9

The chitinolytic bacterium Aeromonas hydrophila strain SUWA-9, which was isolated from freshwater in Lake Suwa (Nagano Prefecture, Japan), produced several kinds of chitin-degrading enzymes. A gene coding for an endo-type chitinase (chiA) was isolated from SUWA-9. The chiA ORF encodes a polypeptide of 865 amino acid residues with a molecular mass of 91.6 kDa. The deduced amino acid sequence showed high similarity to those of bacterial chitinases classified into family 18 of glycosyl hydrolases. chiA was expressed in Escherichia coli and the recombinant chitinase (ChiA) was purified and examined. The enzyme hydrolyzed N-acetylchitooligomers from trimer to pentamer and produced monomer and dimer as a final product. It also reacted toward colloidal chitin and chitosan with a low degree of deacetylation. When cells of SUWA-9 were grown in the presence of colloidal chitin, a 60 kDa-truncated form of ChiA that had lost the C-terminal chitin-binding domain was secreted.     

Cloning,sequencing, and expression of the chitinase gene chiA74 from Bacillus thuringiensis

The endochitinase gene chiA74 from Bacillus thuringiensis serovar kenyae strain LBIT-82 was cloned in Escherichia coli DH5 alpha F'. A sequence of 676 amino acids was deduced when the gene was completely sequenced. A molecular mass of 74 kDa was estimated for the preprotein, which includes a putative 4-kDa signal sequence located at the N terminus. The deduced amino acid sequence showed high degree of identity with other chitinases such as ChiB from Bacillus cereus (98%) and ChiA71 from Bacillus thuringiensis serovar pakistani (70%). Additionally, ChiA74 showed a modular structure comprised of three domains: a catalytic domain, a fibronectin-like domain, and a chitin-binding domain. All three domains showed conserved sequences when compared to other bacterial chitinase sequences. A ca. 70-kDa mature protein expressed by the cloned gene was detected in zymograms, comigrating with a chitinase produced by the LBIT-82 wild-type strain. ChiA74 is active within a wide pH range (4 to 9), although a bimodal activity was shown at pH 4.79 and 6.34. The optimal temperature was estimated at 57.2 degrees C when tested at pH 6. The potential use of ChiA74 as a synergistic agent, along with the B. thuringiensis insecticidal Cry proteins, is discussed.     

Identification and characterization of the gene cluster involved in chitin degradation in a marine bacterium, Alteromonas sp. strain O-7.

Alteromonas sp. strain O-7 secretes chitinase A (ChiA), chitinase B (ChiB), and chitinase C (ChiC) in the presence of chitin. A gene cluster involved in the chitinolytic system of the strain was cloned and sequenced upstream of and including the chiA gene. The gene cluster consisted of three different open reading frames organized in the order chiD, cbp1, and chiA. The chiD, cbp1, and chiA genes were closely linked and transcribed in the same direction. Sequence analysis indicated that Cbp1 (475 amino acids) was a chitin-binding protein composed of two discrete functional regions. ChiD (1,037 amino acids) showed sequence similarity to bacterial chitinases classified into family 18 of glycosyl hydrolases. The cbp1 and chiD genes were expressed in Escherichia coli, and the recombinant proteins were purified to homogeneity. The highest binding activities of Cbp1 and ChiD were observed when alpha-chitin was used as a substrate. Cbp1 and ChiD possessed a chitin-binding domain (ChtBD) belonging to ChtBD type 3. ChiD rapidly hydrolyzed chitin oligosaccharides in sizes from trimers to hexamers, but not chitin. However, after prolonged incubation with large amounts of ChiD, the enzyme produced a small amount of (GlcNAc)(2) from chitin. The optimum temperature and pH of ChiD were 50 degrees C and 7.0, respectively.     

A constitutively expressed 36 kDa exochitinase from Bacillus thuringiensis HD-1

A 36 kDa chitinase was purified by ion exchange and gel filtration chromatography from the culture supernatant of Bacillus thuringiensis HD-1. The chitinase production was independent of the presence of chitin in the growth medium and was produced even in the presence of glucose. The purified chitinase was active at acidic pH, had an optimal activity at pH 6.5, and showed maximum activity at 65 degrees C. Of the various substrates, the enzyme catalyzed the hydrolysis of the disaccharide 4-MU(GlnAc)(2) most efficiently and was therefore classified as an exochitinase. The sequence of the tryptic peptides showed extensive homology with Bacillus cereus 36 kDa exochitinase. The 1083 bp open reading frame encoding 36 kDa chitinase was amplified with primers based on the gene sequence of B. cereus 36 kDa exochitinase. The deduced amino-acid sequence showed that the protein contained an N-terminal signal peptide and consisted of a single catalytic domain. The two conserved signature sequences characteristic of family 18 chitinases were mapped at positions 105-109 and 138-145 of Chi36. The recombinant chitinase was expressed in a catalytically active form in Escherichia coli in the vector pQE-32. The expressed 36 kDa chitinase potentiated the insecticidal effect of the vegetative insecticidal protein (Vip) when used against neonate larvae of Spodoptera litura.     

Cloning, Sequencing, and Expression of the Chitinase Gene chiA74 from Bacillus thuringiensis

The endochitinase gene chiA74 from Bacillus thuringiensis serovar kenyae strain LBIT-82 was cloned in Escherichia coli DH5αF′. A sequence of 676 amino acids was deduced when the gene was completely sequenced. A molecular mass of 74 kDa was estimated for the preprotein, which includes a putative 4-kDa signal sequence located at the N terminus. The deduced amino acid sequence showed high degree of identity with other chitinases such as ChiB from Bacillus cereus (98%) and ChiA71 from Bacillus thuringiensis serovar pakistani (70%). Additionally, ChiA74 showed a modular structure comprised of three domains: a catalytic domain, a fibronectin-like domain, and a chitin-binding domain. All three domains showed conserved sequences when compared to other bacterial chitinase sequences. A ca. 70-kDa mature protein expressed by the cloned gene was detected in zymograms, comigrating with a chitinase produced by the LBIT-82 wild-type strain. ChiA74 is active within a wide pH range (4 to 9), although a bimodal activity was shown at pH 4.79 and 6.34. The optimal temperature was estimated at 57.2°C when tested at pH 6. The potential use of ChiA74 as a synergistic agent, along with the B. thuringiensis insecticidal Cry proteins, is discussed.