地衣芽孢杆菌MY75菌株几丁质酶基因的异源表达及特性

【目的】地衣芽孢杆菌MY75菌株的几丁质酶基因的异源表达,并对表达蛋白的特性进行研究。【方法】制备MY75菌株培养上清粗蛋白,利用酶谱分析确定具有几丁质酶活的蛋白分子量。将该蛋白进行飞行时间质谱分析,确定其部分氨基酸序列,设计PCR引物对MY75菌株的几丁质酶基因进行克隆及异源表达。对表达蛋白的最适反应温度及pH,温度耐受性及金属离子对酶活力的影响等特性进行了研究,并测定了表达蛋白对真菌孢子萌发的抑制活性和对甜菜夜蛾幼虫的杀虫增效作用。【结果】酶谱分析证明MY75菌株培养上清液中仅含有一种55kDa的几丁质酶。将该编码基因chiMY克隆及序列分析后发现,基因长度为1797bp,编码599个氨基酸。在大肠杆菌中异源表达的几丁质酶ChiMY蛋白的分子量为67kDa。质谱分析证明,55kDa蛋白与67kDa蛋白序列相同。ChiMY最适pH和最适温度分别为7.0和50°C,为中性几丁质酶。Li+,Na+,和Mg2+离子对表达蛋白的酶活力具有促进作用,Mn2+,Cr3+,Zn2+和Ag+离子则能显著抑制酶活力,Cu2+和Fe3+离子完全抑制酶活性。生物测定的结果显示,异源表达的MY75几丁质酶能够抑制小麦赤霉及黑曲霉的孢子萌发,并且对苏云金芽孢杆菌的杀虫活力具有增效作用。【结论】地衣芽孢杆菌MY75菌株中仅有一种55kDa几丁质酶,其编码基因能够在大肠杆菌中大量表达,表达蛋白分子量与野生型蛋白之间有显著差异,由此证明MY75菌株中存在着几丁质酶的剪切加工过程。明确了地衣芽孢杆菌几丁质酶ChiMY具有抑制真菌活性及杀虫增效作用。上述全部研究结论在国内首次报道。     

Chitinase from Bacillus thuringiensis subsp. pakistani

The chitinase gene (chiA71) from Bacillus thuringiensis subsp. pakistani consists of an open reading frame of 1,905 nucleotides encoding 635 amino acid residues with an estimated molecular mass of 71 kDa. Comparison of the deduced amino acid sequence of the mature enzyme to other microbial chitinases shows a putative catalytic domain and a region with conserved amino acids similar to that of the type III module of fibronectin and a chitin-binding domain. By activity detection of chitinase on SDS-PAGE after renaturation, the molecular mass of protein bands with chitinase activity were 66, 60, 47, and 32 kDa. The N-terminal amino acid sequence of each chitinase activity band was the same (Asp-Ser-Pro-Lys-Gln), suggesting that the 60-, 47-, and 32-kDa chitinases were derived from the 66-kDa chitinase by processing step(s) at the C-terminus. The enzyme was identified as an exochitinase, since it generated N-acetylglucosamine from early stage of colloidal chitin hydrolysis. The crude protein (2.3-18.4 mg/ml), containing chitinase at final activities of 8, 16, 32, and 64 mU/ml, was toxic to Aedes aegypti larvae and caused mortalities of 7.5, 15.0, 51.3, and 70.0% respectively, but the same amount of crude protein from a B. thuringiensis subsp. pakistani mutant lacking chitinase was not toxic.     

Cloning, sequence, and expression of a chitinase gene from a marine bacterium, Altermonas sp. strain O-7.

The gene encoding an extracellular chitinase from marine Alteromonas sp. strain O-7 was cloned in Escherichia coli JM109 by using pUC18. The chitinase produced was not secreted into the growth medium but accumulated in the periplasmic space. A chitinase-positive clone of E. coli produced two chitinases with different molecular weights from a single chitinase gene. These proteins showed almost the same enzymatic properties as the native chitinase of Alteromonas sp. strain O-7. The N-terminal sequences of the two enzymes were identical. The nucleotide sequence of the 3,394-bp SphI-HindIII fragment that included the chitinase gene was determined. A single open reading frame was found to encode a protein consisting of 820 amino acids with a molecular weight of 87,341. A putative ribosome-binding site, promoter, and signal sequence were identified. The deduced amino acid sequence of the cloned chitinase showed sequence homology with chitinases A (33.4%) and B (15.3%) from Serratia marcescens. Regardless of origin, the enzymes of the two bacteria isolated from marine and terrestrial environments had high homology, suggesting that these organisms evolved from a common ancestor.     

Cloning and expression of an antifungal chitinase gene of a novel Bacillus subtilis isolate from Taiwan potato field

A chitinase producing Bacillus subtilis CHU26 was isolated from Taiwan potato field. This strain exhibited a strong extra-cellular chitinase activity on the colloidal chitin containing agar plate, and showed a potential inhibit activity against phytopathogen, Rhizoctonia solani. The gene encoding chitinase (chi18) was cloned from the constructed B. subtilis CHU26 genomic DNA library. The chi18 consisted of an open reading frame of 1791 nucleotides and encodes 595 amino acids with a deduced molecular weight of 64kDa, next to a promoter region containing a 9 base pair direct repeat sequence (ATTGATGAA). The deduced amino acid sequence of the chitinase from Bacillus subtilis CHU26 exhibits 62% and 81% similarity to those from B. circulans WL-12 and B. licheniformis, respectively. Subcloned chi18 into vector pGEM3Z and pYEP352 to construct recombinant plasmid pGCHI18 and pYCHI18, respectively, chitinase activity could be observed on the colloidal chitin agar plate from recombinant plasmid containing Escherichia coli transformant. Cell-free culture broth of pYCHI18 containing E. coli transformant decreased R. solani pathogenic activity more than 90% in the antagonistic test on the radish seedlings (Raphanus sativus Linn.).     

甜菜夜蛾SeGluCl剪接变异体的敲除及其对杀虫剂敏感性的影响

【目的】本研究旨在利用CRISPR/Cas9基因编辑技术,探索甜菜夜蛾Spodoptera exigua谷氨酸门控氯离子通道(glutamate-gated chloride channels, GluCls)基因不同转录变异体编码的SeGluCls对杀虫剂敏感性是否存在差异。【方法】采用RT-PCR和RACE技术获得甜菜夜蛾SeGluCl的全长cDNA序列,并对其进行生物信息学分析;利用CRISPR/Cas9基因编辑技术敲除SeGluCl两个剪接变异体SeGluCl 3a和SeGluCl 3b,并构建甜菜夜蛾敲除品系(3a-KO和3b-KO),生物测定甜菜夜蛾敏感品系WH-S(对照品系)及3a-KO和3b-KO品系的3龄幼虫对阿维菌素、甲维盐和氟虫腈3种杀虫剂敏感性的差异。【结果】获得了甜菜夜蛾SeGluCl全长cDNA序列,并发现其2种剪接变异体(SeGluCl 3a和SeGluCl 3b),SeGluCl 3a(GenBank登录号：OM304353)的开放阅读框(open reading frame, ORF)长1 362 bp,编码454个氨基酸,SeGluCl 3b(Gen...     

Gene cloning of chitinase A1 from Bacillus circulans WL-12 revealed its evolutionary relationship to Serratia chitinase and to the type III homology units of fibronectin

A chitinase gene of Bacillus circulans WL-12 was cloned into Escherichia coli by transforming HB101 cells with a recombinant plasmid composed of chromosomal DNA fragments prepared from B. circulans WL-12 and the plasmid vector pKK223-3. DNA sequencing analysis revealed that the region necessary for the normal expression of chitinase activity contained one open reading frame of 2097 base pairs which codes for the precursor of chitinase A1. The precursor of chitinase A1 contained a long signal sequence of 41 amino acids with an extremely long N-terminal hydrophilic segment of 15 amino acids. Cloned chitinase produced in E. coli had at its N terminus an additional 8 amino acids that were not found in B. circulans mature chitinase A1. The N-terminal two-thirds of the deduced amino acid sequence of chitinase A1 showed a 33% amino acid match to chitinase A of Serratia marcescens. This region of chitinase A1 is immediately followed by tandemly repeating 95-amino acid segments that are 70% homologous to each other. Statistical analysis revealed that these repeating segments are homologous to the type III homology units of fibronectin, a multifunctional extracellular matrix and plasma protein of higher eukaryotes. This observation indicates that type III homology units originated prior to the emergence of eukaryotes and may be distributed in a wide range of organisms.     

Cloning and nucleotide sequence of a novel cry1Aa-type gene from Bacillus thuringiensis subsp. kurstaki

A newly isolated strain of B. thuringiensis, BNS3, was identified as affiliated to the subsp. kurstaki and belonging to the serotype H3a, 3b, 3c. Insecticidal crystal proteins from BNS3 were active against lepidopteran larvae, particularly Prays oleae, Ephestia kuehniella, Ostrinia nubilalis and Spodoptora exigua. The cloning and sequencing from BNS3 of a cry1Aa-type gene, called crybns3-1, revealed an open reading frame of 3531 bp, encoding a protein of 1176 amino acid residues. Both nucleotide and amino acid sequences similarity analysis revealed that crybns3-1 is a new cry1Aa-type gene, presenting several differences with the other cry1Aa-type genes.     

Cloning and expression of a Bacillus circulans KA-304 gene encoding chitinase I, which participates in protoplast formation of Schizophyllum commune

KA-prep, a culture filtrate of Bacillus circulans KA-304 grown on a cell-wall preparation of Schizophyllum commune, has an activity to form protoplasts from S. commune mycelia, and a combination of alpha-1,3-glucanase and chitinase I, isolated from KA-prep, brings about the protoplast-forming activity. The gene of chitinase I was cloned from B. circulans KA-304 into pGEM-T Easy vector. The gene consists of 1,239 nucleotides, which encodes 413 amino acids including a putative signal peptide (24 amino acid residues). The molecular weight of 40,510, calculated depending on the open reading frame without the putative signal peptide, coincided with the apparent molecular weight of 41,000 of purified chitinase I estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The C-terminal domain of the deduced amino acid sequence showed high similarity to that of family 19 chitinases of actinomycetes and other organisms, indicating that chitinase I is the first example of family 19 chitinase in Bacillus species. Recombinant chitinase I without the putative signal peptide was expressed in Escherichia coli Rosetta-gami B (DE 3). The properties of the purified recombinant enzyme were almost the same as those of chitinase I purified from KA-prep, and showed the protoplast-forming activity when it was combined with alpha-1,3-glucanase from KA-prep. Recombinant chitinase I as well as the native enzyme inhibited hyphal extension of Trichoderma reesei.     

Characterization of Chitinase C from a Marine Bacterium, Alteromonas sp. Strain O-7, and Its Corresponding Gene and Domain Structure

One of the chitinase genes of Alteromonas sp. strain O-7, the chitinase C-encoding gene (chiC), was cloned, and the nucleotide sequence was determined. An open reading frame coded for a protein of 430 amino acids with a predicted molecular mass of 46,680 Da. Alignment of the deduced amino acid sequence demonstrated that ChiC contained three functional domains, the N-terminal domain, a fibronectin type III-like domain, and a catalytic domain. The N-terminal domain (59 amino acids) was similar to that found in the C-terminal extension of ChiA (50 amino acids) of this strain and furthermore showed significant sequence homology to the regions found in several chitinases and cellulases. Thus, to evaluate the role of the domain, we constructed the hybrid gene that directs the synthesis of the fusion protein with glutathione S-transferase activity. Both the fusion protein and the N-terminal domain itself bound to chitin, indicating that the N-terminal domain of ChiC constitutes an independent chitin-binding domain.     

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.     

Cloning, expression, and characterization of a chitinase gene from the Antarctic psychrotolerant bacterium Vibrio sp. strain Fi:7

A marine psychrotolerant bacterium from the Antarctic Ocean showing high chitinolytic activity on chitin agar at 5 degrees C was isolated. The sequencing of the 16S rRNA indicates taxonomic affiliation of the isolate Fi:7 to the genus Vibrio. By chitinase activity screening of a genomic DNA library of Vibrio sp. strain Fi:7 in Escherichia coli, three chitinolytic clones could be isolated. Sequencing revealed, for two of these clones, the same open reading frame of 2,189 nt corresponding to a protein of 79.4 kDa. The deduced amino acid sequence of the open reading frame showed homology of 82% to the chitinase ChiA from Vibrio harveyi. The chitinase of isolate Fi:7 contains a signal peptide of 26 amino acids. Sequence alignment with known chitinases showed that the enzyme has a chitin-binding domain and a catalytic domain typical of other bacterial chitinases. The chitinase ChiA of isolate Fi:7 was overexpressed in E. coli BL21(DE3) and purified by anion-exchange and hydrophobic interaction chromatography. Maximal enzymatic activity was observed at a temperature of 35 degrees C and pH 8. Activity of the chitinase at 5 degrees C was 40% of that observed at 35 degrees C. Among the main cations contained in seawater, i.e., Na+, K+, Ca2+, and Mg2+, the enzymatic activity of ChiA could be enhanced twofold by the addition of Ca2+.     

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.     

Cloning and Nucleotide Sequence of the Mycodextranase Gene from Streptomyces sp. J-13-3

Mycodextranase (EC 3.2.1.61) is an α-glucanase that cleaves α-1,4-bonds of alternating α-1,3- and α-1,4-linked D-glucan (nigeran). The gene encoding mycodextranase from Streptomyces sp. J-13-3 was cloned by hybridization with a degenerate oligonucleotide probe from the amino-terminal amino acid sequence of the enzyme and its nucleotide structure was analyzed. The open reading frame consisted of 1,803 base pairs encoding a signal peptide of 60 amino acids and a mature protein of 540 amino acids with a calculated molecular weight of 56,078. The deduced amino acid sequence showed weak similality to a chitinase homolog from Streptomyces lividans and a chitinase from Xanthomonas sp.     

Molecular cloning and characterization of 58 kDa chitinase gene fromSerratia marcescens KCTC 2172

A chitinase gene (pCHi58) encoding a 58 kDa chitinase was isolated from theSerratia marcescens KCTC 2172 cosmid library. The chitinase gene consisted of a 1686 bp open reading frame that encoded 562 amino acids.Escherichia coil harboring the pChi58 gene secreted a 58 kDa chitinase into the culture supernatant. The 58 kDa chitinase was purified using a chitin affinity column and mono-S column. A nucleotide andN-terminal amino acid sequence analysis showed that the 58 kDa chitinase had a leader peptide consisting of 23 amino acids which was cleaved prior to the 24th alanine. The 58 KDa chitinase exhibited a 98% similarity to that ofS. marcescens QMB 1466 in its nuclotide sequence. The chitinolytic patterns of the 58 kDa chitinase released N,N′-diacetyl chitobiose (NAG2) as the major hydrolysis end-product with a trace amount ofN-acetylglucosamine. When a 4-methylumbellyferyl-N-acetylglucosamin monomer, dimmer, and tetramer were used as substrates, the 58 kDa chitinase did not digest the 4-Mu-NAG monomer (analogue of NAG₂), thereby indicating that the 58 kDa chitinase was likely an endochitinase. The optimum reaction temperature and pH of the enzyme were 50°C and 5.0, respectively.     

Cloning of a cluster of chitinase genes from Aeromonas sp. No. 10S-24

A gene encoding chitinases from Aeromonas sp. No. 10S-24 was cloned into Escherichia coli DH5α using pUC19, and its nucleotides were sequenced. The chitinase gene was clustered in ORFs (open reading frame) 1 to 4, in a 8-kb fragment of DNA. ORF-1 consisted of 1608 bp encoding 535 amino acid residues, and ORF-2 consisted of 1425 bp encoding 474 amino acid residues. ORF-3 was 1617 bp long and encodes a protein consisting of 538 amino acids. ORF-4 encodes 287 amino acids of the N-terminal region. The amino acid sequences of ORF-1 and ORF-3 share sequence homology with chitinase D from Bacillus circulans, and chitinase A and B from Streptomyces lividans. The amino acid sequence of ORF-2 shared sequence homology with chitinase II from Aeromonas sp. No. 10S-24, and chitinase from Saccharopolyspora erythraea. A region of the sequence starting from Ala-28 of the amino acid sequence of ORF-3 coincided with the N-terminal amino acid sequence of chitinase III from Aeromonas sp. No. 10S-24.     

Cloning and nucleotide sequence of the mycodextranase gene from Streptomyces sp. J-13-3

Mycodextranase (EC 3.2.1.61) is an alpha-glucanase that cleaves alpha-1,4-bonds of alternating alpha-1,3- and alpha-1,4-linked D-glucan (nigeran). The gene encoding mycodextranase from Streptomyces sp. J-13-3 was cloned by hybridization with a degenerate oligonucleotide probe from the amino-terminal amino acid sequence of the enzyme and its nucleotide structure was analyzed. The open reading frame consisted of 1,803 base pairs encoding a signal peptide of 60 amino acids and a mature protein of 540 amino acids with a calculated molecular weight of 56,078. The deduced amino acid sequence showed weak similality to a chitinase homolog from Streptomyces lividans and a chitinase from Xanthomonas sp.