Tatsunari Nishi scite author profile

As a base for human transcriptome and functional genomics, we created the "full-length long Japan" (FLJ) collection of sequenced human cDNAs. We determined the entire sequence of 21,243 selected clones and found that 14,490 cDNAs (10,897 clusters) were unique to the FLJ collection. About half of them (5,416) seemed to be protein-coding. Of those, 1,999 clusters had not been predicted by computational methods. The distribution of GC content of nonpredicted cDNAs had a peak at ∼58% compared with a peak at ∼42%for predicted cDNAs. Thus, there seems to be a slight bias against GC-rich transcripts in current gene prediction procedures. The rest of the cDNAs unique to the FLJ collection (5,481) contained no obvious open reading frames (ORFs) and thus are candidate noncoding RNAs. About one-fourth of them (1,378) showed a clear pattern of splicing. The distribution of GC content of noncoding cDNAs was narrow and had a peak at ∼42%, relatively low compared with that of protein-coding cDNAs.

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Expression cloning of cDNA encoding a human β-1,3-N-acetylglucosaminyltransferase that is essential for poly-N-acetyllactosamine synthesis

Sasaki

Kurata-Miura

Ujita

et al. 1997

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

145

109

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The structure and biosynthesis of poly-Nacetyllactosamine display a dramatic change during development and oncogenesis. Poly-N-acetyllactosamines are also modified by various carbohydrate residues, forming functional oligosaccharides such as sialyl Le x . Herein we describe the isolation and functional expression of a cDNA encoding ␤-1,3-N-acetylglucosaminyltransferase (iGnT), an enzyme that is essential for the formation of poly-Nacetyllactosamine. For this expression cloning, Burkitt lymphoma Namalwa KJM-1 cells were transfected with cDNA libraries derived from human melanoma and colon carcinoma cells. Transfected Namalwa cells overexpressing the i antigen were continuously selected by f luorescenceactivated cell sorting because introduced plasmids containing Epstein-Barr virus replication origin can be continuously amplified as episomes. Sibling selection of plasmids recovered after the third consecutive sorting resulted in a cDNA clone that directs the increased expression of i antigen on the cell surface. The deduced amino acid sequence indicates that this protein has a type II membrane protein topology found in almost all mammalian glycosyltransferases cloned to date. iGnT, however, differs in having the longest transmembrane domain among glycosyltransferases cloned so far. The iGnT transcript is highly expressed in fetal brain and kidney and adult brain but expressed ubiquitously in various adult tissues. The expression of the presumed catalytic domain as a fusion protein with the IgG binding domain of protein A enabled us to demonstrate that the cDNA encodes iGnT, the enzyme responsible for the formation of GlcNAc␤1 3 3Gal␤1 3 4GlcNAc 3 R structure and poly-N-acetyllactosamine extension.

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Cloning and expression of cDNA for salmon growth hormone in Escherichia coli

Sekine

Mizukami

Nishi

et al. 1985

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

167

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ABSTRACTcDNA clones encoding chum salmon (Oncorhynchus keta) growth hormone (sGH) have been isolated from a cDNA library prepared from chum salmon pituitary gland poly(A)+ RNA. Synthetic oligodeoxynucleotide mixtures based on amino acid residues 23-28 of sGH were used as hybridization probes to select recombinant plasmids carrying the sGH coding sequence. The complete nucleotide sequence of sGH cDNA has been determined. The cDNA sequence codes for a polypeptide of 210 amino acids, including a putative signal sequence of 22 amino acids. The 5' and 3' untranslated regions of the message were 64 and 426 bases long, respectively. Mature sGH was efficiently expressed in Escherichia coli carrying a plasmid in which the sGH cDNA was under control of the E. coli trp promoter; sGH comprised about 15% of the total cellular protein in such bacteria. The partially purified sGH from E. coli stimulated the growth of rainbow trout and the activity was indistinguishable from that of natural sGH.Human growth hormone now can be produced by genetically engineered organisms and can be used as a therapeutic agent. Salmon growth hormone (sGH) can be synthesized by use of similar techniques, and the massive supply of sGH may be extremely important to fish culture. Growth hormone (GH), together with prolactin and chorionic somatomammotropin (placental lactogen), forms a set of proteins that are structurally related and have partially overlapping biological activities (1). Primary structure analysis of the peptides and of the genes suggests that these hormone genes evolved from a common ancestral origin (1-5). Therefore, these genes provide an excellent model system for studying structurefunction relationships, evolution, and regulation of expression. GH genes have been isolated from several mammalian species and characterized in detail (3,(6)(7)(8). To obtain information about the evolution and the mechanisms of organization of this set of genes, it is essential to compare the structures of these hormone genes isolated from many organisms at various evolutionary stages. No information, however, has been available about lower vertebrates such as fish.

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P- and E-Selectins Recognize Sialyl 6-Sulfo Lewis X, the Recently Identified L-Selectin Ligand

Ohmori

Kanda

Mitsuoka

et al. 2000

Biochemical and Biophysical Research Communications

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Expression Cloning of a Human GT3 Synthase

Nakayama

Fukuda

Hirabayashi

et al. 1996

Journal of Biological Chemistry

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Mutagenesis of human granulocyte colony stimulating factor

Kuga

Komatsu

Yamasaki

et al. 1989

Biochemical and Biophysical Research Communications

100

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Understanding the Molecular Mechanism Underlying the High Catalytic Activity of p-Hydroxybenzoate Hydroxylase Mutants for Producing Gallic Acid

et al. 2019

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p-Hydroxybenzoate hydroxylase (PHBH) is a flavoprotein monooxygenase that catalyzes the hydroxylation of p-hydroxybenzoate (p-OHB) to 3,4-dihydroxybenzoate (3,4-DOHB). PHBH can bind to other benzoate derivatives in addition to p-OHB; however, hydroxylation does not occur on 3,4-DOHB. Replacement of Tyr385 with Phe forms a mutant, which enables the production of 3,4,5-trihydroxybenzonate (gallic acid) from 3,4-DOHB, although the catalytic activity of the mutant is quite low. In this study, we report how the L199V/Y385F double mutant exhibits activity for producing gallic acid 4.3-fold higher than that of the Y385F single mutant. This improvement in catalytic activity is primarily due to the suppression of a shunt reaction that wastes reduced nicotinamide adenine dinucleotide phosphate by producing H2O2. To further elucidate the molecular mechanism underlying this higher catalytic activity, we performed molecular dynamics simulations and quantum mechanics/molecular mechanics calculations, in addition to determining the crystal structure of the Y385F·3,4-DOHB complex. The simulations showed that the Y385F mutation facilitates the deprotonation of the 4-hydroxy group of 3,4-DOHB, which is necessary for initiating hydroxylation. Moreover, the L199V mutation in addition to the Y385F mutation allows the OH moiety in the peroxide group of C-(4a)-flavin hydroperoxide to come into the proximity of the C5 atom of 3,4-DOHB. Overall, this study provides a consistent explanation for the change in the catalytic activity of PHBH caused by mutations, which will enable us to better design an enzyme with different activities.

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Complete genome sequence and comparative analysis of Shewanella violacea, a psychrophilic and piezophilic bacterium from deep sea floor sediments

et al. 2010

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Remineralization of organic matter in deep-sea sediments is important in oceanic biogeochemical cycles, and bacteria play a major role in this process. Shewanella violacea DSS12 is a psychrophilic and piezophilic gamma-proteobacterium that was isolated from the surface layer of deep sea sediment at a depth of 5110 m. Here, we report the complete genome sequence of S. violacea and comparative analysis with the genome of S. oneidensis MR-1, isolated from sediments of a freshwater lake. Unlike S. oneidensis, this deep-sea Shewanella possesses very few terminal reductases for anaerobic respiration and no c-type cytochromes or outer membrane proteins involved in respiratory Fe(iii) reduction, which is characteristic of most Shewanella species. Instead, the S. violacea genome contains more terminal oxidases for aerobic respiration and a much greater number of putative secreted proteases and polysaccharases, in particular, for hydrolysis of collagen, cellulose and chitin, than are encoded in S. oneidensis. Transporters and assimilatory reductases for nitrate and nitrite, and nitric oxide-detoxifying mechanisms (flavohemoglobin and flavorubredoxin) are found in S. violacea. Comparative analysis of the S. violacea genome revealed the respiratory adaptation of this bacterium to aerobiosis, leading to predominantly aerobic oxidation of organic matter in surface sediments, as well as its ability to efficiently use diverse organic matter and to assimilate inorganic nitrogen as a survival strategy in the nutrient-poor deep-sea floor.

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Tatsunari Nishi

Complete sequencing and characterization of 21,243 full-length human cDNAs

Expression cloning of cDNA encoding a human β-1,3-N-acetylglucosaminyltransferase that is essential for poly-N-acetyllactosamine synthesis

Cloning and expression of cDNA for salmon growth hormone in Escherichia coli

P- and E-Selectins Recognize Sialyl 6-Sulfo Lewis X, the Recently Identified L-Selectin Ligand

Expression Cloning of a Human GT3 Synthase

Mutagenesis of human granulocyte colony stimulating factor

Understanding the Molecular Mechanism Underlying the High Catalytic Activity of p-Hydroxybenzoate Hydroxylase Mutants for Producing Gallic Acid

Complete genome sequence and comparative analysis of Shewanella violacea, a psychrophilic and piezophilic bacterium from deep sea floor sediments

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