Expression and characterization of glutamate decarboxylase from <Emphasis Type="Italic">Lactobacillus brevis</Emphasis> HYE1 isolated from <Emphasis Type="Italic">kimchi</Emphasis>

A putative gene (gadlbhye1) encoding glutamate decarboxylase (GAD) was cloned from Lactobacillus brevis HYE1 isolated from kimchi, a traditional Korean fermented vegetable. The amino acid sequences of GADLbHYE1 showed 48% homology with the GadA family and 99% identity with the GadB family from L. brevis. The cloned GADLbHYE1 was functionally expressed in Escherichia coli using inducible expression vectors. The expressed recombinant GADLbHYE1 was successfully purified by Ni–NTA affinity chromatography, and had a molecular mass of 54 kDa with optimal hydrolysis activity at 55 °C and pH 4.0. Its thermal stability was determined to be higher than that of other GADs from L. brevis, based on its melting temperature (75.18 °C). Kinetic parameters including K_m and V_max values for GADLbHYE1 were 4.99 mmol/L and 0.224 mmol/L/min, respectively. In addition, the production of gamma-aminobutyric acid in E. coli BL21 harboring gadlbhye1/pET28a was increased by adding pyridoxine as a cheaper coenzyme.     

Complete chloroplast genome sequence of <Emphasis Type="Italic">Capsicum</Emphasis><Emphasis Type="Italic">baccatum</Emphasis> var. <Emphasis Type="Italic">baccatum</Emphasis>

Molecular markers derived from the complete chloroplast genome can provide effective tools for species identification and phylogenetic resolution. Complete chloroplast (cp) genome sequences of Capsicum species have been reported. We herein report the complete chloroplast genome sequence of Capsicum baccatum var. baccatum, a wild Capsicum species. The total length of the chloroplast genome is 157,145 bp with 37.7 % overall GC content. One pair of inverted repeats, 25,910 bp in length, was separated by a small single-copy region (17,974 bp) and large single-copy region (87,351 bp). This region contains 86 protein-coding genes, 30 tRNA genes, 4 rRNA genes, and 11 genes contain one or two introns. Pair-wise alignments of chloroplast genome were performed for genome-wide comparison. Analysis revealed a total of 134 simple sequence repeat (SSR) motifs and 282 insertions or deletions variants in the C. baccatum var. baccatum cp genome. The types and abundances of repeat units in Capsicum species were relatively conserved, and these loci could be used in future studies to investigate and conserve the genetic diversity of the Capsicum species.     

Increasing seed oil content and altering oil quality of <Emphasis Type="Italic">Brassica napus</Emphasis> L. by over-expression of diacylglycerol acyltransferase 1 (<Emphasis Type="Italic">SsDGAT1</Emphasis>) from <Emphasis Type="Italic">Sapium sebiferum</Emphasis> (L.) Roxb.

Sapium sebiferum (L.) Roxb. [S. sebiferum] is one of the most important woody oil trees and traditional herbal medicines in China. Diacylglycerol acyltransferases (DGATs) esterify sn-1,2-diacylglycerol with a long-chain fatty acyl-CoA acting as a key enzyme at the last and rate-limiting step of triacylglycerol (TAG) biosynthesis in eukaryotic organisms. Although at least 61 DGAT1 sequences from 48 organisms have been identified, until now there have been almost no reports on the DGAT1 gene in S. sebiferum (SsDGAT1). In an attempt to clarify SsDGAT1’s function, we cloned the CDS (coding sequence) of SsDGAT1 by RACE (rapid amplification of cDNA ends) technology. The full-length CDS of SsDGAT1 contains 1524 bp, encoding a protein of 507 amino acids. Even recombinant SsDGAT1 was able to restore TAG biosynthesis in the yeast strain S. cerevisiae H1246 TAG-deficient mutant. Moreover, when SsDGAT1 was placed under the control of 35S promoter in Brassica napus L. W10, the total oil content of transgenic rape plants showed an increase of 12.3–14.7 % compared with the wild type. In addition, the transgenic rapeseed with heterologous expression of SsDGAT1 showed an alteration in seed oil composition overall: a significant decrease in oleic acid levels but a tendency towards an increase in linolenic acid levels. The result confirmed that SsDGAT1 may be involved in flux control of oil biosynthesis and could be used specifically to manipulate and improve oil content and composition in plants. These experimental findings suggest that we might be able to develop a plant high in industrial oils by over-expression of SsDGAT1 in S. sebiferum.     

Overexpression of <Emphasis Type="Italic">SsDGAT2</Emphasis> from <Emphasis Type="Italic">Sapium sebiferum</Emphasis> (L.) Roxb Increases Seed Oleic Acid Level in <Emphasis Type="Italic">Arabidopsis</Emphasis>

Sapium sebiferum (L.) Roxb is one of the most important oil trees in China. Diacylglycerol acyltransferases (DGATs) esterify sn-1, 2-diacylglycerol with a long-chain fatty acyl-CoA, the last step and the rate-limiting step of triacylglycerol (TAG) biosynthesis in prokaryotic and eukaryotic organisms. At least 74 DGAT2 sequences from 61 organisms have been identified, but the SsDGAT2 gene had not been reported to date. To clarify the function of SsDGAT2, we cloned the CDS (rapid amplification of cDNA end) of SsDGAT2 by RACE technology. The full-length CDS of SsDGAT2 contains 1011 bp and encodes a protein of 336 amino acids. Recombinant SsDGAT2 restored TAG biosynthesis to the yeast strain Saccharomyces cerevisiae H1246 TAG-deficient mutant and preferentially incorporated unsaturated C18 fatty acids into lipids. To investigate the biotechnological potential of SsDGAT2, it was expressed under the control of the 35S promoter in Arabidopsis Col-4. The oleic acid content increased by 50 % in transgenic plants relative to the control. The results indicated that most of the oleic acid increase was at the expense of linolenic acid (18:3) content, which suggests that high-oleic-acid-content seeds can be created by the overexpression of SsDGAT2 in S. sebiferum (L.) Roxb.     

The complete chloroplast genome sequence and phylogenetic analysis of <Emphasis Type="Italic">Chuanminshen</Emphasis> (<Emphasis Type="Italic">Chuanminshenviolaceum</Emphasis> Sheh et Shan)

Chloroplast genome sequences are very useful for species identification and phylogenetics. Chuanminshen (Chuanminshen violaceum Sheh et Shan) is an important traditional Chinese medicinal plant, for which the phylogenetic position is still controversial. In this study, the complete chloroplast genome of Chuanminshen violaceum Sheh et Shan was determined. The total size of Chuanminshen chloroplast genome was 154,529 bp with 37.8% GC content. It has the typical quadripartite structure, a large single copy (17,800 bp) and a small single copy (84,171 bp) and a pair of inverted repeats (26,279 bp). The whole genome harbors 132 genes, which includes 85 protein coding genes, 37 tRNA genes, eight rRNA genes, and two pseudogenes. Thirty-nine SSR loci, 32 tandem repeats and 49 dispersed repeats were found. Phylogenetic analyses results with the help of MEGA showed a new insight for the Chuanminshen phylogenetic relationship with the reported chloroplast genomes in Apiales plants.     

Molecular characterization and expression analysis of <Emphasis Type="Italic">Hsp90</Emphasis> in <Emphasis Type="Italic">Schizothorax prenanti</Emphasis>

Aquatic animals suffer from various environmental stresses because the aquatic environment is a very complex system. To monitor the health status of fish, Hsp90 a potential early warning marker was determined in Schizothorax prenanti after infection with a bacterium. In this study, we cloned Hsp90 from S. prenanti for the first time. The full-length cDNA sequence of SpHsp90 was 2663 bp, contains an open reading frame of 2181 bp, and has a gene encoding 726 amino acids, an estimated molecular mass of 83.38 kDa, and a theoretical isoelectric point of 4.91. The SpHsp90 amino acid sequence has five conserved HSP90 family signatures and shares 87.0–95.5 % identity with other vertebrates. Phylogenetic analysis and structure comparison indicated that SpHsp90 should be a β isoform of the HSP90 family. SpHsp90 was ubiquitously expressed in all examined tissues, and the highest level of expression was in the kidney. After Streptococcus agalactiae infection, the level of SpHsp90 expression had significant changes (P < 0.05) in the hepatopancreas, spleen, kidney, and blood. The expression increased to the highest level at 6 h in the blood and at 24 h in the hepatopancreas, spleen, and kidney. The results suggested that the SpHsp90 gene could be induced by S. agalactiae in S. prenanti and that SpHsp90 may be involved in resistance to bacterial infection and provide an early warning information. The kidney is the most suitable for detecting SpHsp90 after bacterial infection.     

Cloning,characterization and function analysis of <Emphasis Type="Italic">DAX1</Emphasis> in Chinese loach (<Emphasis Type="Italic">Paramisgurnus dabryanus</Emphasis>)

The mechanisms of sex determination and differentiation have not been elucidated in most fish species. In this study, the full-length cDNAs of DAX1 was cloned and characterized in aquaculture fish Chinese loach (Paramisgurnus dabryanus), designated as Pd-DAX1. The cDNA sequence of Pd-DAX1 was 1261 bp, including 795 bp open reading frame (ORF) encoding 264 amino acids. Pd-DAX1 shares highly identical sequence with DAX1 homologues from different species. The expression profiles of Pd-DAX1 in different developmental stages and diverse adult tissues were analyzed by quantitative real-time RT-PCR and in situ hybridization (ISH). Pd-DAX1 was continuously expressed during embryogenesis, with the extensive distribution in the development of the central nervous system. Tissue distribution analysis revealed that Pd-DAX1 expressed widely in adult tissues, with the highest expression level found in testis, moderate level in ovary, showing a sex-dimorphic expression pattern. Pd-DAX1 mainly located in spermatogonia cells, spermatocytes, primary oocytes and previtellogenic oocyte cells, implying that Pd-DAX1 may involve in gametogenesis. These preliminary findings suggest that Pd-DAX1 gene is highly conserved during vertebrate evolution and involved in a wide range of developmental processes including embryogenesis, central nervous system development and gonad development.     

Characterization and fine mapping of <Emphasis Type="Italic">osh15</Emphasis>(<Emphasis Type="Italic">t</Emphasis>), a novel dwarf mutant gene in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Plant height is one of the most important agronomic traits of plant architecture, and also affects grain yield in rice. In this study, we obtained a novel dwarf rice mutant of japonica variety Shennong9816, designated Shennong9816d. Compared with wild-type, the Shennong9816d plant height was significantly reduced, and the tiller number significantly increased. Additionally, the mutant yield component, and the number of large and small vascular bundles were significantly decreased compared with wild-type. Genetic analysis indicated that the Shennong9816d dwarf phenotype was controlled by a recessive nuclear gene, while the plant was shown to be sensitive to gibberellic acid. Using a large F₂ population derived from a cross between Shennong9816d and the indica rice variety Habataki, the osh15(t) gene was fine mapped between RM20891 and RM20898, within a physical distance of 73.78 kb. Sequencing analysis showed that Shennong9816d carries a 1 bp mutation and a 30 bp insertion in the OSH15 region. These results suggest that osh15(t) is a novel allelic mutant originally derived from japonica variety Shennong9816, which may be useful for introducing the semi-dwarf phenotype to improve plant architecture in rice breeding practice.     

Mildew Resistance Locus O Gene Cloning,Characterization, and Expression Pattern in Mulberry (<Emphasis Type="Italic">Morus multicaulis</Emphasis>) and Its Prokaryotic Expression in <Emphasis Type="Italic">E. coli</Emphasis>

MLO (mildew resistance locus O), which encodes a transmembrane protein 7TM, is considered to be a model plant gene suitable for studying broad-spectrum resistance. It is a negative regulator of powdery mildew resistance and thus has potential applications in plant breeding. In the present paper, a full cDNA sequence encoding MLO was cloned from the leaves of mulberry (Morus multicaulis) based on mulberry expressed sequence tags (EST), homologous cloning technology, and 5′-RLM-RACE using RT-PCR;the sequence was designated MMLO (GenBank accession no. KX683296). The full cDNA was 1943 bp in length with 5′-untranslated region (UTR) of 106 bp, 3′-UTR of 160 bp, and an open reading frame (ORF) of 1677 bp encoding a protein of 558 amino acids. The estimated molecular weight and isoelectric point (pI) of the putative protein were 62.48 kDa and 9.03, respectively. The MMLO protein had Mlo domain and belonged to the Mlo superfamily. Phylogenetic analysis based on the amino acid sequences encoded by the MLO gene from various species showed that mulberry was closely related to Eucalyptus grandis, Ziziphus jujube, and Juglansregia. Quantitative real-time PCR (qRT-PCR) analysis revealed that MMLO was expressed in all the tissues tested, including leaf, bud, fruit, stem, phloem, and xylem in mulberry with the highest expression in the phloem. The expression level of the mRNA increased and significantly changed under drought, cold, and salt stress treatments compared to the normal growth environment. The ORF segment of the MMLO was inserted into the expression plasmid pET-28a(+) to construct a recombinant expression plasmid. SDS-PAGE result revealed that fusion protein was successfully expressed. Overall, these results provide a better understanding of the molecular basis for the signal transduction mechanism during the stress responses in mulberry trees.     

A constitutive expression system for <Emphasis Type="Italic">Pichia pastoris</Emphasis> based on the <Emphasis Type="Italic">PGK1</Emphasis> promoter

Objectives

To develop a new vector for constitutive expression in Pichia pastoris based on the endogenous glycolytic PGK1 promoter.

Results

P. pastoris plasmids bearing at least 415 bp of PGK1 promoter sequences can be used to drive plasmid integration by addition at this locus without affecting cell growth. Based on this result, a new P. pastoris integrative vector, pPICK2, was constructed bearing some features that facilitate protein production in this yeast: a ~620 bp PGK1 promoter fragment with three options of restriction sites for plasmid linearization prior to yeast transformation: a codon-optimized α-factor secretion signal, a new polylinker, and the kan marker for vector propagation in bacteria and selection of yeast transformants.

Conclusions

A new constitutive vector for P. pastoris represents an alternative platform for recombinant protein production and metabolic engineering purposes.