Isotricha jalaludinii N. Sp. Found from the Rumen of Lesser Mouse Deer, Tragulus javanicus, in Malaysia

Isotricha jalaludinii n. sp. found in the rumen of lesser mouse deer, Tragulus javanicus, in Malaysia was described and illustrated. This new species is characterized by the location and direction of the vestibulum, shape of the macronucleus, and absence of a dent at the vestibular opening. The presence of single peculiar isotrichid species in the rumen of mouse deer, which is recognized as one of the most primitive ruminants, suggests that the isotrichid ciliates similar to I. jalaludinii and Isotricha intestinalis were established at a fairly early period during the evolution of ruminants.     

Lipid Metabolism of Rumen Ciliates and Bacteria: II. Uptake of Fatty Acids and Lipid Analysis of Isotrichia intestinalis and Rumen Bacteria with Further Information on Entodinium simplex

The total lipid and free fatty acid contents of Isotricha intestinalis, Entodinium simplex, and the rumen bacterial flora of the respective protozoa were determined. Warburg manometric data showed that the sodium salts of tributyrin, oleic, and acetic acids stimulated gas production in I. intestinalis, whereas tributyrin was stimulatory with E. simplex and less active with oleic and acetic acids. Rumen bacteria provided fatty acids produced lower manometric gaseous increases when compared with the protozoa. Volatile fatty acids were produced by I. intestinalis and rumen bacteria with tributyrin, but not with tripalmitin. Sodium oleate gave little volatile fatty acid response with I. intestinalis or rumen bacteria. Washed suspensions of I. intestinalis and rumen bacteria concentrated C¹⁴-labeled oleic, palmitic, stearic, and linoleic acids within the cells during short incubation periods. Autoradiographs demonstrated the conversion of C¹⁴-labeled oleic, palmitic, stearic, linoleic, and acetic acids in the rumen protozoa and bacterial cells.     

Genomic Differences between Fibrobacter succinogenes S85 and Fibrobacter intestinalis DR7, Identified by Suppression Subtractive Hybridization

Fibrobacter is a highly cellulolytic genus commonly found in the rumen of ruminant animals and cecum of monogastric animals. In this study, suppression subtractive hybridization was used to identify the genes present in Fibrobacter succinogenes S85 but absent from F. intestinalis DR7. A total of 1,082 subtractive clones were picked, plasmids were purified, and inserts were sequenced, and the clones lacking homology to F. intestinalis were confirmed by Southern hybridization. By comparison of the sequences of the clones to one another and to those of the F. succinogenes genome, 802 sequences or 955 putative genes, comprising approximately 409 kb of F. succinogenes genomic DNA, were identified that lack similarity to those of F. intestinalis chromosomal DNA. The functional groups of genes, including those involved in cell envelope structure and function, energy metabolism, and transport and binding, had the largest number of genes specific to F. succinogenes. Low-stringency Southern hybridization showed that at least 37 glycoside hydrolases are shared by both species. A cluster of genes responsible for heme, porphyrin, and cobalamin biosynthesis in F. succinogenes S85 was either missing from or not functional in F. intestinalis DR7, which explains the requirement of vitamin B₁₂ for the growth of the F. intestinalis species. Two gene clusters encoding NADH-ubiquinone oxidoreductase subunits probably shared by Fibrobacter genera appear to have an important role in energy metabolism.     

人淋巴细胞CD2基因5’侧翼序列的克隆和鉴定

本文报告以ＣＤ２ｃＤＮＡ５’端的片段作探针,从人Ｔ淋巴细胞基因组文库筛选阳性重组克隆,经限制性内切酶降解和Ｓｏｕｔｈｅｒｎ杂交分析,证明其中一个阳性克隆的插入片段中含ＣＤ２基因５’侧翼顺序。经插入片段的亚克隆、限制性内切酶图谱及ＤＮＡ序列分析,鉴定出一含转录起始点及其上游序列的４．０ｋｂ片段。将此片段中含转录起始点和两个ＤＮ（ａｓｅ）Ⅰ高敏感位点的２．５ｋｂ片段定向克隆到以虫萤光素酶为报告基因的表达载体ｐＭＧ３中,并用限制性内切酶对此２．５ｋｂ片段作不同程度缺失,构成一系列突变子。这些重组的表达质粒转染人ＪｕｒｋａｔＴ细胞后,以瞬时表达实验分析各突变子驱动虫萤光素酶基因的表达,结果发现在ＣＤ２基因５’上游具有很弱的启动子活性,初步测定该启动子位于－１．２ｋｂ～－９８ｂｐ域。ＣＤ２基因具有弱启动子、强增强子的特点与Ｔ细胞表面其它抗原分子基因是相似的。     

Chromosomal location of Lg-FLO1 in bottom-fermenting yeast and the FLO5 locus of industrial yeast

Aims: To determine the chromosomal location and entire sequence of Lg-FLO1, the expression of which causes the flocculation of bottom-fermenting yeast. Methods and Results: Two cosmid clones carrying DNA from a bottom-fermenting yeast chromosome VIII right-arm end were selected by colony hybridization. Sequencing revealed that the clones contained DNA derived from a Saccharomyces cerevisiae type chromosome VIII and a Saccharomyces bayanus type chromosome VIII, both from bottom-fermenting yeast. Conclusions: Lg-FLO1 is located on the S. cerevisiae type chromosome VIII at the same position as the FLO5 gene of the laboratory yeast S. cerevisiae S288c. The unique chromosome VIII structure of bottom-fermenting yeast is conserved among other related strains. FLO5 and Lg-FLO1 promoter sequences are identical except for the presence of three 42 bp repeats in the latter, which are associated with gene activity. Flocculin genes might have been generated by chromosomal recombination at these repeats. Significance and Impact of the Study: This is the first report of the exact chromosomal location and entire sequence of Lg-FLO1. This information will be useful in the brewing industry for the identification of normal bottom-fermenting yeast. Moreover, variations in the FLO5 locus among strains are thought to reflect yeast evolution.     

Assessment of protozoa in Yunnan Yellow Cattle rumen based on the 18S rRNA sequences

Library of ruminal protozoal 18S rRNA of Yunnan Yellow Cattle has been constructed in the present study. Phylogenic analysis of sequences was meanwhile employed to reveal the diversity of protozoa in the rumen of Yunnan Yellow Cattle. One Yellow Cattle was fed malt meal (YCRPB) and the other was fed wheat straw (YCRPS). A protozoa-specific primer (P-SSU-342f) and a eukarya-specific primer (Medlin B) were used to amplify a 1,360-bp fragment of DNA encoding protozoal small subunit (SSU) ribosomal RNA from rumen fluid. The results showed as follows: A total of 121 clones were obtained and fell into four genera identified as Entodinium (66.9%), Dasytricha (5.8%), Isotricha (9.1%), and Diplodinium (18.2%). Within the genus Entidinium, 48 of the YCRPB sequences and 33 of the YCRPS sequences clustered with the Entodinium caudatum. 7 of the YCRPB sequences were phylogenetically placed within the genus Dasytricha. 11 of the YCRPB sequences were related with high confidence to Isotricha intestinalis. 22 of the YCRPS sequences were phylogenetically placed within the genus Diplodinium. The predominant protozoal genus identified in the rumen fluid belonged to the Entodinium group, and the divergences between two cattle may due to diet and individual differences.     

A wide-range integrative yeast expression vector system based on <Emphasis Type="Italic">Arxula adeninivorans</Emphasis>-derived elements

An Arxula adeninivorans integration vector was applied to a range of alternative yeast species including Saccharomyces cerevisiae, Debaryomyces hansenii, Debaryomyces polymorphus, Hansenula polymorpha and Pichia pastoris. The vector harbours a conserved A. adeninivorans-derived 25S rDNA sequence for targeting, the A. adeninivorans-derived TEF1 promoter for expression control of the reporter sequence, and the Escherichia coli-derived hph gene conferring resistance against hygromycin B for selection of recombinants. Heterologous gene expression was assessed using a green fluorescent protein (GFP) reporter gene. The plasmid was found to be integrated into the genome of the various hosts tested; recombinant strains of all species exhibited heterologous gene expressions of a similar high level.     

Construction of Synthetic Genes for Analogs of Spider Silk Spidroin 1 and Their Expression in Tobacco Plants

To obtain transgenic tobacco plants expressing recombinant analogs of spider dragline silk spidroin 1, artificial 1f5 and 1f9 coding for spidroin 1 analogs were 3"-fused in-frame with the reporter lichenase gene. The Tr2" weak constitutive promoter of Agrobacterium tumefaciens T-DNA and the strong constitutive promoter of the cauliflower mosaic virus 35S RNA gene were used as regulatory elements. The expression cassettes were used to transform agrobacteria and then introduced in tobacco leaf disks. On evidence of Southern hybridization, transgenic plants each carried a single copy of a hybrid gene, which corresponded in size to the constructed one. Zymography and Western blotting revealed full-length hybrid proteins in leaf extracts of transgenic plants. The results testified that plants can maintain and express synthetic genes for spider silks and, consequently, may be used as a convenient producer of recombinant silk analogs.     

Cloning and expression of β-glucosidase genes inEscherichia coli andSaccharomyces cerevisiae using shuttle vector pYES 2.0

Genes for β-glucosidase (Bgl) isolated from a genomic library of the cellulolytic bacterium,Cellulomonas biazotea, were cloned in pUC18 in itsSacI cloning site and transformed toE. coli. Ten putative recombinants showed blackening zones on esculin plates, yellow zones on pNPG plates, in liquid culture and on native polyacrylamide gel electrophoresis activity gels. They fell into three distinct groups. Three representativeE. coli clones carried recombinant plasmids designated pRM54, pRM1 and pRM17. The genes were located on 5.6-, 3.7- and 1.84-kb fragments, respectively. Their location was obtained by deletion analysis which revealed that 5.5, 3.2, and 1.8 kb fragments were essential to code for BglA, BglB, and BglC, respectively, and conferred intracellular production of β-glucosidase onE. coli. Expression of thebgl genes resulted in overproduction of β-glucosidase in the three clones. Secretion occurred into the periplasmic fractions. Three inserts carryingbgl genes from the representative recombinantE. coli were isolated withSacI ligated in the shuttle vector pYES2.0 in itsSacI site and transformed toE. coli andS. cerevisiae. The recombinant plasmids were redesignated pRPG1, pRPG2 and pRPG3 coding for BglA1, BglB1 and BglC1. The cloned genes conferred extracellular production of β-glucosidase onS. cerevisiae and enabled it to grow on cellobiose and salicin. Thegall promoter of shuttle vector pYES2.0 enabled the organisms to produce twice more β-glucosidase than that supported by thelacZ-promoter of pUC18 plasmid inE. coli. The cloned gene can be used as a selection marker for introducing recombinant plasmids in wild strains ofS. cerevisiae The enzyme produced bybgl ⁺ yeast andE. coli recombinants resembles that of the donor with respect to temperature and pH requirement for maximum activity. Other enzyme properties of the β-glucosidases fromS. cerevisiae were substantially the same as those fromC. biazotea.     

Faithful expression of green fluorescent protein (GFP) in transgenic zebrafish embryos under control of zebrafish gene promoters

Although the zebrafish has become a popular model organism for vertebrate developmental and genetic analyses, its use in transgenic studies still suffers from the scarcity of homologous gene promoters. In the present study, three different zebrafish cDNA clones were isolated and sequenced completely, and their expression patterns were characterized by whole‐mount in situ hybridization as well as by Northern blot hybridization. The first clone encodes a type II cytokeratin (CK), which is specifically expressed in skin epithelia in early embryos and prominently expressed in the adult skin tissue. The second clone is muscle specific and encodes a muscle creatine kinase (MCK). The third clone, expressed ubiquitously in all tissues, is derived from an acidic ribosomal phosphoprotein P0 (arp) gene. In order to test the fidelity of zebrafish embryos in transgenic expression, the promoters of the three genes were isolated using a rapid linker‐mediated PCR approach and subsequently ligated to a modified green fluorescent protein (gfp) reporter gene. When the three hybrid GFP constructs were introduced into zebrafish embryos by microinjection, the three promoters were activated faithfully in developing zebrafish embryos. The 2.2‐kb ck promoter was sufficient to direct GFP expression in skin epithelia, although a weak expression in muscle was also observed in a few embryos. This pattern of transgenic expression is consistent with the expression pattern of the endogenous cytokeratin gene. The 1.5‐kb mck promoter/gfp was expressed exclusively in skeletal muscles and not elsewhere. By contrast, the 0.8‐kb ubiquitous promoter plus the first intron of the arp gene were capable of expressing GFP in a variety of tissues, including the skin, muscle, lens, neurons, notochord, and circulating blood cells. Our experiments, therefore, further demonstrated that zebrafish embryos can faithfully express exogenously introduced genes under the control of zebrafish promoters. Dev. Genet. 25:158–167, 1999. © 1999 Wiley‐Liss, Inc.     

A novel promoter,derived from the isocitrate lyase gene of Candida tropicalis,inducible with acetate in Saccharomyces cerevisiae

When the isocitrate lyase gene, containing 5'-upstream and 3'-flanking regions, of an n-alkane-assimilating yeast Candida tropicalis was introduced into Saccharomyces cerevisiae, the enzyme was functionally overexpressed in the cells grown on acetate. The amount of the recombinant isocitrate lyase expressed in S. cerevisiae was as much as 30% of the total soluble proteins in the cells, being comparable to that with GAL7 functional under the control of galactose. The expression was also observed when the cells were grown on glycerol, lactate, ethanol or oleate. These facts indicate that the isocitrate lyase gene upstream region (UPR-ICL) contains a strong promoter functional in S. cerevisiae. UPR-ICL is active as a promoter on cheap carbon sources such as acetate and nonconventional carbon sources such as oleate, whereas many conventional strong promoters demand relatively expensive sugars or sugars derivatives. Therefore, it is promising to construct an economical recombinant protein production system by using UPL-ICL.     

An innovative protein expression system using RNA polymerase I for large-scale screening of high-nucleic-acid content Saccharomyces cerevisiae strains

Saccharomyces cerevisiae is the preferred source of RNA derivatives, which are widely used as supplements for foods and pharmaceuticals. As the most abundant RNAs, the ribosomal RNAs (rRNAs) transcribed by RNA polymerase I (Pol I) have no 5′ caps, thus cannot be translated to proteins. To screen high-nucleic-acid content yeasts more efficiently, a cap-independent protein expression system mediated by Pol I has been designed and established to monitor the regulatory changes of rRNA synthesis by observing the variation in the reporter genes expression. The elements including Pol I-recognized rDNA promoter, the internal ribosome entry site from cricket paralytic virus which can recruit ribosomes internally, reporter genes (URA3 and yEGFP3), oligo-dT and an rDNA terminator were ligated to a yeast episomal plasmid. This system based on the URA3 gene worked well by observing the growth phenotype and did not require the disruption of cap-dependent initiation factors. The fluorescence intensity of strains expressing the yEGFP3 gene increased and drifted after mutagenesis. Combined with flow cytometry, cells with higher GFP level were sorted out. A strain showed 58% improvement in RNA content and exhibited no sequence alteration in the whole expression cassette introduced. This study provides a novel strategy for breeding high-nucleic-acid content yeasts.     

Expression and secretion of a single-chain sweet protein,monellin, in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> by an α-factor signal peptide

The sweet protein monellin gene was expressed in Saccharomyces cerevisiae under the control of the GAL1 promoter and α-factor signal peptide sequence of S. cerevisiae. The gene, which was obtained through mutation of the synthesized single-chain monellin gene, was cloned into an E. coli-yeast shuttle vector pYES2.0 which carries the galactose-inducible promoter GAL1. Then the α-factor signal peptide of S. cerevisiae was linked also, resulting in the secreting expression vector pYESMTA. The recombinant plasmid was subsequently transformed into strain S. cerevisiae INVsc1. The peptide efficiently directed the secretion of monellin from the recombinant yeast cell. A maximum yield of active monellin was 0.41 g l⁻¹ of the supernatant from INVsc1 harboring pYESMTA.     

A Novel Non-wounding Transient Expression Assay for Cereals Mediated by Agrobacterium tumefaciens

A novel Agrobacterium tumefaciens-mediated transient expression assay (AmTEA) was developed for young plants of different cereal species and the model dicot Arabidopsis thaliana. AmTEA was evaluated using five promoters (six constructs) and two reporter genes, gus and egfp. The constitutive 35S promoter and the promoter of the rice glutaredoxin gene showed gus and egfp expression in the cereals analyzed in the present study. A promoter for the DEAD-box RNA helicase family protein gene from Arabidopsis showed similar expression patterns of reporter genes in stable transgenic lines as well as in transient expression lines of Arabidopsis. Agrobacterium tumefaciens co-cultivation and plant incubation times were optimized using 35S and the rice expressed protein gene promoter (R2-273). The possibility of non-specific expression of the reporter genes was ruled out by using the antibiotic carbenicillin and the comparison of expression of the reporter genes driven by full-length and truncated R2-273 promoters. AmTEA considerably reduced time, space, labor, and cost requirements. Ease of use with stress treatments is another major advantage of this method. AmTEA can be automated and used for large-scale studies to decipher promoter and gene functions with the ultimate goal to enhance the performance of cereal crops against biotic and abiotic stresses.     

Expression in Pichia pastoris of Candida antarctica Lipase B and Lipase B Fused to a Cellulose-Binding Domain

Candida antarctica lipase B (CALB) and C. antarctica lipase B fused to a cellulose-binding domain (CBD-CALB) were expressed functionally in the methylotrophic yeast Pichia pastoris. The cellulose-binding domain originates from cellulase A of the anaerobic rumen fungus Neocallimastix patriciarum. The genes were fused to the α-factor secretion signal sequence of Saccharomyces cerevisiae and placed under the control of the alcohol oxidase gene (AOX1) promoter. The recombinant proteins were secreted into the culture medium reaching levels of approximately 25 mg/L. The proteins were purified using hydrophobic interaction chromatography and gel filtration with an overall yield of 69%. Results from endoglycosidase H digestion of the proteins showed that CALB and CBD-CALB were N-glycosylated. The specific hydrolytic activities of recombinant CALB and CBD-CALB were identical to that reported for CALB isolated from its native source. The fusion of the CBD to the lipase resulted in a greatly enhanced binding toward cellulose for CBD-CALB compared with that for CALB.