Jei‐Fu Shaw scite author profile

In mammals, TUBBY-like proteins play an important role in maintenance and function of neuronal cells during postdifferentiation and development. We have identified a TUBBY-like protein gene family with 11 members in Arabidopsis, named AtTLP1-11. Although seven of the AtTLP genes are located on chromosome I, no local tandem repeats or gene clusters are identified. Except for AtTLP4, reverse transcription-PCR analysis indicates that all these genes are expressed in various organs in 6-week-old Arabidopsis. AtTLP1, 2, 3, 6, 7, 9, 10, and 11 are expressed ubiquitously in all the organs tested, but the expression of AtTLP5 and 8 shows dramatic organ specificity. These 11 family members share 30% to 80% amino acid similarities across their conserved C-terminal tubby domains. Unlike the highly diverse N-terminal region of animal TUBBY-like proteins, all AtTLP members except AtTLP8 contain a conserved F-box domain (51–57 residues). The interaction between AtTLP9 and ASK1 (Arabidopsis Skp1-like 1) is confirmed via yeast (Saccharomyces cerevisiae) two-hybrid assays. Abscisic acid (ABA)-insensitive phenotypes are observed for two independent AtTLP9 mutant lines, whereas transgenic plants overexpressing AtTLP9 are hypersensitive to ABA. These results suggest that AtTLP9 may participate in the ABA signaling pathway.

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Multifunctionality and diversity of GDSL esterase/lipase gene family in rice (Oryza sativa L. japonica) genome: new insights from bioinformatics analysis

Chepyshko

et al. 2012

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BackgroundGDSL esterases/lipases are a newly discovered subclass of lipolytic enzymes that are very important and attractive research subjects because of their multifunctional properties, such as broad substrate specificity and regiospecificity. Compared with the current knowledge regarding these enzymes in bacteria, our understanding of the plant GDSL enzymes is very limited, although the GDSL gene family in plant species include numerous members in many fully sequenced plant genomes. Only two genes from a large rice GDSL esterase/lipase gene family were previously characterised, and the majority of the members remain unknown. In the present study, we describe the rice OsGELP (Oryza sativa GDSL esterase/lipase protein) gene family at the genomic and proteomic levels, and use this knowledge to provide insights into the multifunctionality of the rice OsGELP enzymes.ResultsIn this study, an extensive bioinformatics analysis identified 114 genes in the rice OsGELP gene family. A complete overview of this family in rice is presented, including the chromosome locations, gene structures, phylogeny, and protein motifs. Among the OsGELPs and the plant GDSL esterase/lipase proteins of known functions, 41 motifs were found that represent the core secondary structure elements or appear specifically in different phylogenetic subclades. The specification and distribution of identified putative conserved clade-common and -specific peptide motifs, and their location on the predicted protein three dimensional structure may possibly signify their functional roles. Potentially important regions for substrate specificity are highlighted, in accordance with protein three-dimensional model and location of the phylogenetic specific conserved motifs. The differential expression of some representative genes were confirmed by quantitative real-time PCR. The phylogenetic analysis, together with protein motif architectures, and the expression profiling were analysed to predict the possible biological functions of the rice OsGELP genes.ConclusionsOur current genomic analysis, for the first time, presents fundamental information on the organization of the rice OsGELP gene family. With combination of the genomic, phylogenetic, microarray expression, protein motif distribution, and protein structure analyses, we were able to create supported basis for the functional prediction of many members in the rice GDSL esterase/lipase family. The present study provides a platform for the selection of candidate genes for further detailed functional study.

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Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

Fan

Wang

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Antrodia cinnamomea, a polyporus mushroom of Taiwan, has long been used as a remedy for cancer, hypertension, and hangover, with an annual market of over $100 million (US) in Taiwan. We obtained a 32.15-Mb genome draft containing 9,254 genes. Genome ontology enrichment and pathway analyses shed light on sexual development and the biosynthesis of sesquiterpenoids, triterpenoids, ergostanes, antroquinonol, and antrocamphin. We identified genes differentially expressed between mycelium and fruiting body and 242 proteins in the mevalonate pathway, terpenoid pathways, cytochrome P450s, and polyketide synthases, which may contribute to the production of medicinal secondary metabolites. Genes of secondary metabolite biosynthetic pathways showed expression enrichment for tissuespecific compounds, including 14-α-demethylase (CYP51F1) in fruiting body for converting lanostane to ergostane triterpenoids, coenzymes Q (COQ) for antroquinonol biosynthesis in mycelium, and polyketide synthase for antrocamphin biosynthesis in fruiting body. Our data will be useful for developing a strategy to increase the production of useful metabolites.medicinal fungus | fruiting body | triterpenes | meiosis | P450

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Antroquinonol from ethanolic extract of mycelium of Antrodia cinnamomea protects hepatic cells from ethanol-induced oxidative stress through Nrf-2 activation

Kumar

Chu

Hsieh

et al. 2011

Journal of Ethnopharmacology

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Arabidopsis SFAR4 is a novel GDSL-type esterase involved in fatty acid degradation and glucose tolerance

et al. 2015

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Background SFARs (seed fatty acid reducers) belonging to the GDSL lipases/esterases family have been reported to reduce fatty acid storage and composition in mature Arabidopsis seeds. GDSL lipases/esterases are hydrolytic enzymes that possess multifunctional properties, such as broad substrate specificity, regiospecificity, and stereoselectivity. Studies on the physiological functions and biochemical characteristics of GDSL lipases/esterases in plants are limited, so it is important to elucidate the molecular functions of GDSL-type genes.ResultsWe found that SFAR4 (At3g48460), a fatty acid reducer belonging to the Arabidopsis GDSL lipases/esterases family, was intensely expressed in embryo protrusion, early seedlings, and pollen. The characterization of recombinant SFAR4 protein indicated that it has short-length p-nitrophenyl esterase activity. In addition, SFAR4 enhanced the expression of genes involved in fatty acid metabolism during seed germination and seedling development. SFAR4 elevated the expression of COMATOSE, which transports fatty acids into peroxisomes, and of LACS6 and LACS7, which deliver long-chain acetyl-CoA for β-oxidation. Furthermore, SFAR4 increased the transcription of PED1 and PNC1, which function in importing peroxisomal ATP required for fatty acid degradation. SFAR4 has another function on tolerance to high glucose concentrations but had no significant effects on the expression of the glucose sensor HXK1.ConclusionsThe results demonstrated that SFAR4 is a GDSL-type esterase involved in fatty acid metabolism during post-germination and seedling development in Arabidopsis. We suggested that SFAR4 plays an important role in fatty acid degradation, thus reducing the fatty acid content.Electronic supplementary materialThe online version of this article (doi:10.1186/s40529-015-0114-6) contains supplementary material, which is available to authorized users.

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Lipolytic activities of a lipase immobilized on six selected supporting materials

Shaw

Chang

Wang³

et al. 1990

Biotech & Bioengineering

136

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Six different types of materials including PVC, chitosan, chitin, agarose, Sepharose, and Trisacryl were evaluated for their lipase-coupling efficiencies. Among those tested, chitosan yielded the highest amount of lipase (79 mg/mL packed gel) immobilized but with lowest oil hydrolytic activity (0.03 mg eq/mL gel). The amount of lipase immobilized was affected by the length of the hydrocarbon chain attached to the PVC matrix but not by the pore size of the supports used. On the other hand, the specific activity of the immobilized lipase was affected by the pore size but not by the chain length of the hydrocarbon attached to the support. After immobilization, the optimal reaction pH was shifted from 7.5 to 8.5 and the optimal reaction temperature from 35 to 45-55 degrees C. Lipase immobilized on PVC exhibited higher thermal stability than that on agarose. The half-life of the PVC immobilized lipase operating at 30 degrees C in a packed-bed reactor was estimated to be about 400 h.

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Construction of Chromosomally Located T7 Expression System for Production of Heterologous Secreted Proteins in Bacillus subtilis

Chen

Shaw²,

Chao

et al. 2010

J. Agric. Food Chem.

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Bacillus subtilis is most commonly employed for secretion of recombinant proteins. To circumvent the problems caused by using plasmids, the T7 expression system known for its high efficiency was rebuilt in B. subtilis. Accordingly, a markerless and replicon-free method was developed for genomic insertion of DNAs. By the act of homologous recombination via the guide DNA, a suicidal vector carrying the gene of interest was integrated into genomic loci of bacteria. Removal of the inserted selection marker and replicon flanked by FRT sites was mediated by the FLP recombinase. By using the mentioned system, B. subtilis strain PT5 was constructed to harbor a genomic copy of the spac promoter-regulated T7 gene 1 located at wprA (encoding the cell wall-associated protease). Similarly, the T7 promoter-driven nattokinase or endoglucanase E1 of Thermomonospora fusca genes were also integrated into mpr (encoding an extracellular protease) of strain PT5. Consequently, the integrant PT5/Mmp-T7N or PT5/MT1-E1 resulted in a "clean" producer strain deprived of six proteases. After 24 h, the strain receiving induction was able to secret nattokinase and endoglucanase E1 with the volumetric activity reaching 10860 CU/mL and 8.4 U/mL, respectively. This result clearly indicates the great promise of the proposed approach for high secretion of recombinant proteins in B. subtilis.

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Antrocamphin A, an Anti-inflammatory Principal from the Fruiting Body of Taiwanofungus camphoratus, and Its Mechanisms

Hsieh

Chu

Wang

et al. 2010

J. Agric. Food Chem.

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The fungus Taiwanofungus camphoratus is commonly used for medicinal purposes in Taiwan. It is used as a detoxicant for food poisoning and considered to be a precious folk medicine for hepatoprotection and anti-inflammation. In this study, a lipopolysaccaride (LPS)-challenged ICR mouse acute inflammation model and a LPS-induced macrophage model were used to evaluate the anti-inflammatory activity of T. camphoratus. Ethanol extract of T. camphoratus significantly inhibited expression of iNOS and COX-2 in the liver of LPS-challenged acute inflammatory mice. The ethyl acetate fraction and its isolated compound, antrocamphin A, significantly suppressed nitrite/nitrate concentration in LPS-challenged RAW 264.7 cells. Antrocamphin A showed potent anti-inflammatory activity by suppressing pro-inflammatory molecule release via the down-regulation of iNOS and COX-2 expression through the NF-kappaB pathway. This study, therefore, first demonstrates the bioactive compound of T. camphoratus and illustrates the mechanism by which it confers its anti-inflammatory activity.

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Jei‐Fu Shaw

Molecular Analyses of the Arabidopsis TUBBY-Like Protein Gene Family

Multifunctionality and diversity of GDSL esterase/lipase gene family in rice (Oryza sativa L. japonica) genome: new insights from bioinformatics analysis

Genomic and transcriptomic analyses of the medicinal fungusAntrodia cinnamomeafor its metabolite biosynthesis and sexual development

Antroquinonol from ethanolic extract of mycelium of Antrodia cinnamomea protects hepatic cells from ethanol-induced oxidative stress through Nrf-2 activation

Arabidopsis SFAR4 is a novel GDSL-type esterase involved in fatty acid degradation and glucose tolerance

Lipolytic activities of a lipase immobilized on six selected supporting materials

Construction of Chromosomally Located T7 Expression System for Production of Heterologous Secreted Proteins in Bacillus subtilis

Antrocamphin A, an Anti-inflammatory Principal from the Fruiting Body of Taiwanofungus camphoratus, and Its Mechanisms

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