Characterization of two truncated forms of xylanase recombinantly expressed by Lactobacillus reuteri with an introduced rumen fungal xylanase gene

The xylanase R8 gene (xynR8) from uncultured rumen fungi was cloned and successfully expressed in Lactobacillus reuteri. A xylanase activity of 132.1 U/mL was found in the broth of L. reuteri R8, the transformant containing pNZ3004 vector with xynR8 gene insertion. Two distinct forms of recombinant xylanase with different hydrophobicities and molecular weights were found in the broth after purification. According to the results of Western blotting, only the T7-tag, fused in the N-terminus of XynR8, could be bound to the expressed proteins, which indicated that the C-terminus of XynR8 had been truncated. These results, combined with tryptic digestion and mass spectrometry analyses, allow us to attribute the two xylanase forms to an optional cleavage of C-terminal sequences, and XynR8A, a 13 amino acid residues truncated form, and XynR8B, a 22 amino acid residues truncated form, were the main products in the extracellular fraction of L. reuteri R8. The specific activities of XynR8A and R8B were 1028 and 395 U/mg protein. Both forms of recombinant xylanase displayed a typical endoxylanase activity when they were reacted with xylan, but XynR8A demonstrated a better specific activity, catalytic efficiency and thermostability than XynR8B according to the results of enzyme characterization. These changes in enzyme properties were highly possibly caused by the present of the β-sheet in the C-terminal undeleted fragment of XynR8A. This study demonstrates that modified forms with different enzyme properties could be produced when a gene was recombinantly expressed by a L. reuteri transformant.     

Molecular characterization of a novel glucosyltransferase from Lactobacillus reuteri strain 121 synthesizing a unique,highly branched glucan with alpha-(1-->4) and alpha-(1-->6) glucosidic bonds

Lactobacillus reuteri strain 121 produces a unique, highly branched, soluble glucan in which the majority of the linkages are of the alpha-(1-->4) glucosidic type. The glucan also contains alpha-(1-->6)-linked glucosyl units and 4,6-disubstituted alpha-glucosyl units at the branching points. Using degenerate primers, based on the amino acid sequences of conserved regions from known glucosyltransferase (gtf) genes from lactic acid bacteria, the L. reuteri strain 121 glucosyltransferase gene (gtfA) was isolated. The gtfA open reading frame (ORF) was 5,343 bp, and it encodes a protein of 1,781 amino acids with a deduced M(r) of 198,637. The deduced amino acid sequence of GTFA revealed clear similarities with other glucosyltransferases. GTFA has a relatively large variable N-terminal domain (702 amino acids) with five unique repeats and a relatively short C-terminal domain (267 amino acids). The gtfA gene was expressed in Escherichia coli, yielding an active GTFA enzyme. With respect to binding type and size distribution, the recombinant GTFA enzyme and the L. reuteri strain 121 culture supernatants synthesized identical glucan polymers. Furthermore, the deduced amino acid sequence of the gtfA ORF and the N-terminal amino acid sequence of the glucosyltransferase isolated from culture supernatants of L. reuteri strain 121 were the same. GTFA is thus responsible for the synthesis of the unique glucan polymer in L. reuteri strain 121. This is the first report on the molecular characterization of a glucosyltransferase from a Lactobacillus strain.     

Amino acid substitutions in the N-terminus, cord and α-helix domains improved the thermostability of a family 11 xylanase XynR8

The thermostability of xylanase XynR8 from uncultured Neocallimastigales rumen fungal was improved by combining random point mutagenesis with site-directed mutagenesis guided by rational design, and a thermostable variant, XynR8_VNE, was identified. This variant contained three amino acid substitutions, I38V, D137N and G151E, and showed an increased melting temperature of 8.8?°C in comparison with the wild type. At 65?°C the wild-type enzyme lost all of its activity after treatment for 30?min, but XynR8_VNE retained about 65?% activity. To elucidate the mechanism of thermal stabilization, three-dimensional structures were predicted for XynR8 and its variant. We found that the tight packing density and new salt bridge caused by the substitutions may be responsible for the improved thermostability. These three substitutions are located in the N-terminus, cord and α-helix domains, respectively. Hence, the stability of these three domains may be crucial for the thermostability of family 11 xylanases.     

Cloning of erythromycin-resistance determinants and replication origins from indigenous plasmids of Lactobacillus reuteri for potential use in construction of cloning vectors.

Lactobacillus reuteri L1 and N16 strains contain a 7.0-kb plasmid (pTE80) and a 15-kb plasmid (pTE15), respectively, encoding resistance to erythromycin (Em(r)). Physical maps of both plasmids were established. Nucleotide sequences of the genetic determinants encoding Em(r) on pTE80 and pTE15 revealed the existence of a very similar (ca. 99% nucleotide sequence and ca. 98% amino acid sequence identity) open reading frame for an Em(r) transmethylase gene (erm) in both plasmids. These structural erm genes, 753 and 750 bp in length, respectively, were highly related (ca. 98% nucleotide sequence and ca. 97% amino acid sequence identity) to the erm gene of L. fermentum plasmid pLEM3. Sequence analysis showed that these two erm genes from pTE80 and pTE15 could be categorized under the ermB (ermAM) class. These are the first members of the ermB (ermAM) class of Em(r) determinant from L. reuteri to be characterized at the nucleotide sequence level. The Em(r) gene from pTE80 (erm80) was then ligated into pUC18/19 to construct replication origin (RO)-screening vectors pUE80(+) and pUE80(-) (pUE80(+/-)). These plasmids contain the pUC18/19-derived multiple cloning site, ampicillin-resistance trait, and the LacZ' gene, which enable direct screening for recombinants in Escherichia coli. Once the recombinant contains a RO from L. reuteri, the Em(r) trait of erm80 is used as a selection marker for the replication of the chimeric plasmid as it is transformed into L. reuteri using the cloned RO as a replicon. Replication regions from pTE80 and pTE15 were successfully cloned into the constructed vector pUE80(-). The RO cloned from pTE80 was further identified as being highly stable in L. reuteri and also bearing a relatively narrow host range compared with that of pTE15. The Em(r) determinant (erm80) and RO cloned from pTE80 could be used in the future construction of derivatives of cloning vectors for this microbe. Moreover, the pUE80(+/-) and pTE80-RO constructed in this study have the potential to be developed as a suicide vector and an E. coli-L. reuteri shuttle vector, respectively.     

南极嗜冷假单胞菌7197 S- 腺苷同型半胱氨酸水解酶 ( SAHH) 基因的克隆与序列分析

从南极普利兹湾深海沉积物中筛选到一株耐冷菌株7197,其16S rDNA序列分析表明该菌株属于假单胞菌属（Pseudomonas）。作者通过设计引物,从该菌的全基因组DNA中克隆到编码S-腺苷-L-高半胱氨酸（SAHH）的完整ORF,全长为1424bp。使用DNAMAN（5,1）软件对全长ORF为1424bp的SAHH基因进行分析,SAHH基因编码一个由474AA残基组成、分子量预计为52523Da的SAHH蛋白质,与Psychrobacter sp．273—4的SAHH有96．84％的相似性;与Acinetobacter sp．ADP1的SAHH有79％的相似性;与Pseudomonas fluorescens Pf-5的SAHH有75％的相似性。     

Structure and expression of the Lactococcus lactis gene for phospho-beta-galactosidase (lacG) in Escherichia coli and L. lactis

The Lactococcus lactis subsp. lactis 712 lacG gene encoding phospho-beta-galactosidase was isolated from the lactose mini-plasmid pMG820 and cloned and expressed in Escherichia coli and L. lactis. The low phospho-beta-galactosidase activity in L. lactis transformed with high-copy-number plasmids containing the lacG gene contrasted with the high activity found in L. lactis containing the original, low-copy-number lactose plasmid pMG820, and indicated that the original lactose promoter was absent from the cloned DNA. In E. coli the phospho-beta-galactosidase could be overproduced using the strong inducible lambda PL promoter, which allowed a rapid purification of the active enzyme. The complete nucleotide sequence of the L. lactis lacG gene and its surrounding regions was determined. The deduced amino acid sequence was confirmed by comparison with the amino acid composition of the purified phospho-beta-galactosidase and its amino-terminal sequence. This also allowed the exact positioning of the lacG gene and identification of its characteristic Gram-positive translation initiation signals. The homologous expression data and the sequence organization of the L. lactis lacG gene indicate that the gene is organized into a large lactose operon which contains an intergenic promoter located in an inverted repeat immediately preceding the lacG gene. The organization and sequence of the L. lactis lacG gene were compared with those of the highly homologous lacG gene from Staphylococcus aureus. A remarkable bias for leucine codons was observed in the lacG genes of these two species. Heterogramic homology was observed between the deduced amino acid sequence of the L. lactis phospho-beta-galactosidase, that of the functionally analogous E. coli phospho-beta-glucosidase, and that of an Agrobacterium beta-glucosidase (cellobiase).     

Structure and targeted mutagenesis of the gene encoding 8-kDa subunit of photosystem I from the cyanobacterium Synechocystis sp. PCC 6803

Photosystem I reaction center of the cyanobacterium Synechocystis sp. PCC 6803 contains seven different polypeptide subunits. The subunit with a molecular mass of about 8 kDa was isolated, and the sequence of its amino-terminal residues was determined. Oligonucleotide probes corresponding to this sequence were used to isolate the gene encoding this subunit. The gene, termed as psaE, codes for a polypeptide with a mass of 8075 Da. It is present as a single copy in the genome and is transcribed as a monocistronic messenger. The amino acid sequence of the 8-kDa subunit deduced from the gene sequence shows high homology with the deduced amino acid sequence of subunit IV of photosystem I from spinach. The DNA fragment sequenced in these studies also contains two other unidentified major open reading frames. A stable deletion mutation for the psaE gene was generated by transforming Synechocystis sp. PCC 6803 with a cloned DNA in which the psaE gene for 8-kDa subunit was replaced by a gene conferring resistance to kanamycin. The mutant strain shows minor differences in growth under photoautotrophic conditions and in the photosystem I activity in comparison to the wild type.     

Nucleotide sequence of the tcml gene (ribosomal protein L3) of Saccharomyces cerevisiae.

The yeast tcml gene, which codes for ribosomal protein L3, has been isolated by using recombinant DNA and genetic complementation. The DNA fragment carrying this gene has been subcloned and we have determined its DNA sequence. The 20 amino acid residues at the amino terminus as inferred from the nucleotide sequence agreed exactly with the amino acid sequence data. The amino acid composition of the encoded protein agreed with that determined for purified ribosomal protein L3. Codon usage in the tcml gene was strongly biased in the direction found for several other abundant Saccharomyces cerevisiae proteins. The tcml gene has no introns, which appears to be atypical of ribosomal protein structural genes.     

非核糖体肽合成酶基因腺苷酰化结构域序列克隆及分析

微生物许多非核糖体肽类次生代谢产物主要是由非核糖体肽合成酶(NRPS)催化合成。参考Gontang发布的非核糖体肽合成酶(NRPS)通用引物设计扩增NRPS腺苷酰化结构域基因序列的特异引物,从海洋链霉菌L1的基因组DNA中扩增获得一个715 bp的NRPS基因序列。测序结果及比对分析表明该片段属于NRPS腺苷酰化结构域部分序列。对其拟翻译的氨基酸序列组成成分、理化性质进行分析,显示其包含AFD class I超基因家族核心结合区,为NRPS腺苷酰化结构域(A结构域)所在区域。对氨基酸序列的二级结构预测和三级结构模拟,发现与数据库中肠菌素合酶F组分的结构相似。为后续研究A结构域的特异性及完整NRPS基因簇克隆提供了参考。     

The primary structure of rat ribosomal protein L26

The amino acid sequence of rat ribosomal protein L26 was deduced from the sequence of nucleotides in a recombinant cDNA and confirmed from the NH2-terminal amino acid sequence of the protein. Rat L26 contains 145 amino acids and has a molecular mass of 17,266 Da. Hybridization of the cDNA to digests of nuclear DNA suggests that there are 8-16 copies of the L26 gene. The mRNA for the protein is about 650 nucleotides in length. Protein L26 has a sequence of 9 residues that may be repeated in three places.     

Characterization of Nontoxic-Nonhemagglutinin Component of the Two Types of Progenitor Toxin (M and L) Produced by Clostridium botulinum Type D CB-16

A 9.8-kbp DNA fragment which contained a neurotoxin gene and its upstream region was cloned from Clostridium botulinum type D strain CB-16. Nucleotide sequencing of the fragment revealed that genes encoding for hemagglutinin (HA) subcomponents and one for a nontoxic-nonhemagglutinin (NTNH) component were located upstream of the neurotoxin gene. This strain produced two toxins of different molecular size (approximately 300 kDa and 500 kDa) which were designated as progenitor toxins (M and L toxins). The molecular size of the NTNH component of L toxin was approximately 130 kDa on SDS-PAGE and its N-terminal amino acid sequence was M-D-I-N-D-D-L-N-I-N-S-P-V-D-N-K-N-V-V-I which agreed with that deduced from the nucleotide sequence. In contrast, the M toxin had a 115-kDa NTNH component whose N-terminal sequence was S-T-I-P-F-P-F-G-G-Y-R-E-T-N-Y-I-E, corresponding to the sequence from Ser141 of the deduced sequence. A 15-kDa fragment, which was found to be associated with an M toxin preparation, possessed the same N-terminal amino acid sequence as that of the 130-kDa NTNH component. Furthermore, five major fragments generated by limited proteolysis with V8 protease were shown to have N-terminal amino acid sequences identical to those deduced from the nucleotide sequence of 130-kDa NTNH. These results indicate that the 130-kDa NTNH of the L toxin is cleaved at a unique site, between Thr and Ser, leading to the 115-kDa NTNH of the M toxin.     

Screening of lactic acid bacteria from Indonesia reveals glucansucrase and fructansucrase genes in two different Weissella confusa strains from soya

Homopolysaccharide (glucan and fructan) synthesis from sucrose by sucrase enzymes in lactic acid bacteria (LAB) has been well studied in the genera Leuconostoc, Streptococcus and Lactobacillus . This study aimed to identify and characterize genes encoding glucansucrase/glucosyltransferase (GTF) and fructansucrases/fructosyltransferase (FTF) enzymes from genomic DNA of 'rare' Indonesian exopolysaccharide-producing LAB. From a total of 63 exopolysaccharide-producing LAB isolates obtained from foods, beverages and environmental samples, 18 isolates showing the most slimy and mucoid colony morphologies on sucrose were chosen for further study. By comparing bacterial growth on De Man, Rogosa and Sharpe (MRS)-sucrose with that on MRS-raffinose, and using the results of a previous PCR screening study with degenerate primer pairs targeting the conserved catalytic domain of GTFs, various strains were identified as producers of fructan (13), of glucan only (five) or as potential producers of both glucan and fructan (nine). Here, we report the characteristics of three gtf genes and one ftf gene obtained from Weissella confusa strains MBF8-1 and MBF8-2. Strain MBF8-1 harbored two putative gtf genes with high sequence similarity to GTFB of Lactobacillus reuteri 121 and GTF180 of L. reuteri 180, respectively. Strain MBF8-2 possessed single gtf and ftf genes with high sequence similarity to GTFKg3 of Lactobacillus fermentum Kg3 and DSRWC of Weissella cibaria , and FTF levansucrase of L. reuteri 121, respectively.     

The primary structure of rat ribosomal protein L8.

The amino acid sequence of the rat 60S ribosomal subunit protein L8 was deduced from the sequence of nucleotides in a recombinant cDNA. Ribosomal protein L8 has 257 amino acids and has a molecular weight of 28,007. Hybridization of the cDNA to digests of nuclear DNA suggests that there are 4 or 5 copies of the L8 gene. The mRNA for the protein is about 950 nucleotides in length. Rat L8 is homologous to ribosomal proteins from other eukaryotes and to proteins from eubacterial, archaebacterial, and chloroplast ribosomes.     

The primary structure of rat ribosomal protein L18a

The amino acid sequence of rat ribosomal protein L18a was deduced from the sequence of nucleotides in a recombinant cDNA. Ribosomal protein L18a contains 175 amino acids and has a molecular mass of 20,047 Da. Hybridization of the cDNA to digests of rat nuclear DNA and to a preparation of poly(A)+ mRNA suggests that there are 8-11 copies of the L18a gene and that the mRNA for the protein is about 700 nucleotides in length. Rat L18a is related to Schizosaccharomyces pombe L17 and perhaps to Halobacterium marismortui L19.     

EB病毒即刻早期BRLF1基因在淋巴瘤组织中多态性研究

目的：EB病毒（Epstein．Barrvirus,EBV）感染宿主细胞包括潜伏期和裂解期,它的即刻早期基因BRLFl编码产物Rta蛋白是EBV从潜伏期到裂解期的关键性调节因子。目前,Rta蛋白已成为治疗EBV相关肿瘤的靶蛋白,但有关BRLFl基因在EBV阳性淋巴瘤中的研究甚少,本研究旨在明确EB病毒即刻早期基因BRLFl在EB病毒阳性淋巴瘤组织中的变异规律,探讨其变异意义。方法：原位杂交筛选EB病毒阳性淋巴瘤（BL）,提取EB病毒DNA。PCR结合DNA测序检测EBV阳性淋巴瘤中BRLFl基因多态性,应用DNAStar软件对序列进行对比分析。结果：共筛选出27例EBV阳性淋巴瘤标本,在27例BL阳性标本中成功扩增BRLFl基因,与B95—8标准序列比对分析,共发现20处无义突变和19处有义突变。8例属于BR1-A亚型,18例属于BRl—C亚型,1例属于BRl-E亚型,其中以BRl-A亚型和BRl-C亚型最为常见,分别为29．6％（8／27）、66．7％（18／27）。与EBVaGC、NPC和1W相比,4种人群BRLFl亚型的分布不同,其中BRl-A亚型更多出现在健康人群中,BRl-C亚型更多出现在NPC和BL中。在Rta蛋白功能区中,二聚体区域呈高度保守,在DNA结合区域和反式激活区域均检测出序列突变,16种CTL抗原表位中,只有NAA、QKE和ERP表位发生改变,且NAA和QKE在健康人群中突变率较高。结论：山东地区EB病毒阳性淋巴瘤BRLFl基因变异类型主要为BRl-A亚型和BRl-C亚型。BRl-C亚型可能与BL相关,发生在Rta蛋白DNA结合区域和反式激活区域的突变可能对其功能产生影响,多数CTL表位序列保守提示BRLFl可以用作EBV相关淋巴瘤免疫治疗的靶基因。     

Cloning and Analysis of a cDNA Encoding psbL and psbJ Gene in Rice Chloroplast Genome

A 505 bp cDNA was cloned from the leaves of rice ( Oryza sativa L.) Shanyou 63 combination. DNA sequence analysis showed that it is a part of rice chloroplast genome. Its homology comparison with those known in GenBank found that it encodes 38 amino acid peptide deduced from psbL gene and 40 amino acid peptide deduced from psbJ gene in rice chloroplast PSⅡ. Northern hybridization showed that the cDNA was differentially displayed in hybrid F1 and its parental lines.     

Cloning and nucleotide sequence of the mono- and diacylglycerol lipase gene (mdlB) of Aspergillus oryzae

Abstract Aspergillus oryzae IFO4202 produces at least two extracellular lipolytic enzymes L1 and L2 (cutinase, and mono- and diacylglycerol lipase, respectively). Southern hybridization of restriction enzyme-digested genomic DNA fragments with 23mer oligonucleotides synthesized according to the amino acid sequence of the L2 as probe suggested the presence of the L2 gene (tentatively designated as mdlB ) and an additional weakly hybridizing region. A fragment containing the genomic mdlB gene was cloned in Escherichia coli . Nucleotide sequencing of the fragment revealed an open reading frame, comprising 1021 nucleotides, which contains two introns (51 and 52 nucleotides). Putative polyadenylation signals were found 182 and 287 bp downstream of the stop codon. The deduced amino acid sequence of the mdlB gene corresponds to 306 amino acid residues including a leader sequence of 28 amino acids and is highly similar to that of the mdlA gene of Penicillium camembertii . Three residues presumed to form the catalytic triad (serine, aspartic acid and histidine) of lipases were also conserved.