Suzuki O

References (3)

Title : Complete sequencing and characterization of 21,243 full-length human cDNAs - Ota_2004_Nat.Genet_36_40
Author(s) : Ota T , Suzuki Y , Nishikawa T , Otsuki T , Sugiyama T , Irie R , Wakamatsu A , Hayashi K , Sato H , Nagai K , Kimura K , Makita H , Sekine M , Obayashi M , Nishi T , Shibahara T , Tanaka T , Ishii S , Yamamoto J , Saito K , Kawai Y , Isono Y , Nakamura Y , Nagahari K , Murakami K , Yasuda T , Iwayanagi T , Wagatsuma M , Shiratori A , Sudo H , Hosoiri T , Kaku Y , Kodaira H , Kondo H , Sugawara M , Takahashi M , Kanda K , Yokoi T , Furuya T , Kikkawa E , Omura Y , Abe K , Kamihara K , Katsuta N , Sato K , Tanikawa M , Yamazaki M , Ninomiya K , Ishibashi T , Yamashita H , Murakawa K , Fujimori K , Tanai H , Kimata M , Watanabe M , Hiraoka S , Chiba Y , Ishida S , Ono Y , Takiguchi S , Watanabe S , Yosida M , Hotuta T , Kusano J , Kanehori K , Takahashi-Fujii A , Hara H , Tanase TO , Nomura Y , Togiya S , Komai F , Hara R , Takeuchi K , Arita M , Imose N , Musashino K , Yuuki H , Oshima A , Sasaki N , Aotsuka S , Yoshikawa Y , Matsunawa H , Ichihara T , Shiohata N , Sano S , Moriya S , Momiyama H , Satoh N , Takami S , Terashima Y , Suzuki O , Nakagawa S , Senoh A , Mizoguchi H , Goto Y , Shimizu F , Wakebe H , Hishigaki H , Watanabe T , Sugiyama A , Takemoto M , Kawakami B , Watanabe K , Kumagai A , Itakura S , Fukuzumi Y , Fujimori Y , Komiyama M , Tashiro H , Tanigami A , Fujiwara T , Ono T , Yamada K , Fujii Y , Ozaki K , Hirao M , Ohmori Y , Kawabata A , Hikiji T , Kobatake N , Inagaki H , Ikema Y , Okamoto S , Okitani R , Kawakami T , Noguchi S , Itoh T , Shigeta K , Senba T , Matsumura K , Nakajima Y , Mizuno T , Morinaga M , Sasaki M , Togashi T , Oyama M , Hata H , Komatsu T , Mizushima-Sugano J , Satoh T , Shirai Y , Takahashi Y , Nakagawa K , Okumura K , Nagase T , Nomura N , Kikuchi H , Masuho Y , Yamashita R , Nakai K , Yada T , Ohara O , Isogai T , Sugano S
Ref : Nat Genet , 36 :40 , 2004
Abstract : 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 approximately 58% compared with a peak at approximately 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 approximately 42%, relatively low compared with that of protein-coding cDNAs.
ESTHER : Ota_2004_Nat.Genet_36_40
PubMedSearch : Ota_2004_Nat.Genet_36_40
PubMedID: 14702039
Gene_locus related to this paper: human-ABHD1 , human-ABHD4 , human-ABHD12 , human-ABHD16A , human-ACOT1 , human-LDAH , human-ABHD18 , human-CES1 , human-CES4A , human-CES5A , human-CPVL , human-DAGLB , human-EPHX2 , human-KANSL3 , human-LIPA , human-LPL , human-MEST , human-NDRG1 , human-NLGN1 , human-NLGN4X , human-PRCP , human-PRSS16 , human-SERAC1 , human-TMEM53

Title : Cloning, characterization, and expression of cDNA encoding a lipase from Kurtzmanomyces sp. I-11 - Kakugawa_2002_Biosci.Biotechnol.Biochem_66_1328
Author(s) : Kakugawa K , Shobayashi M , Suzuki O , Miyakawa T
Ref : Biosci Biotechnol Biochem , 66 :1328 , 2002
Abstract : A cDNA clone of the lipase secreted by Kurtzmanomyces sp. I-11 was isolated from a cDNA library of this yeast by PCR screening using oligonucleotide primers designed on the basis of the partial amino acid sequence of the lipase. The cloned cDNA (lip1) encoded a hydrophobic protein of 484 amino acids, where the first 20 amino acids and the following 6 amino acid sequences were predicted to be the signal sequence for secretion and a pro-sequence, respectively. The deduced amino acid sequence of the Kurtzmanomyces lipase was most similar to Candida antarctica DSM 3855 lipase A (74% identity) and weakly to other lipases. The consensus pentapeptide (-Gly-X-Ser-X-Gly-) that forms a part of the interfacial lipid recognition site in lipases was conserved. A high level of lipase was produced by Pichia pastoris transformed with the lip1 cDNA, indicating that the cloned cDNA indeed encodes a lipase.
ESTHER : Kakugawa_2002_Biosci.Biotechnol.Biochem_66_1328
PubMedSearch : Kakugawa_2002_Biosci.Biotechnol.Biochem_66_1328
PubMedID: 12162555
Gene_locus related to this paper: kursp-LIP

Title : Purification and characterization of a lipase from the glycolipid-producing yeast Kurtzmanomyces sp. I-11 - Kakugawa_2002_Biosci.Biotechnol.Biochem_66_978
Author(s) : Kakugawa K , Shobayashi M , Suzuki O , Miyakawa T
Ref : Biosci Biotechnol Biochem , 66 :978 , 2002
Abstract : An extracellular lipase produced by the glycolipid-producing yeast Kurtzmanomyces sp. I-11 was purified by ammonium sulfate precipitation and column chromatographies on DEAE-Sephadex A-25, SP-Sephadex C-50, and Sephadex G-100. Based on the analysis of the purified lipase on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the purified lipase was judged to be homogeneous and its molecular mass was estimated to be approximately 49 kDa. The optimum temperature for the activity was 75 degrees C, and the activity was very stable at temperatures below 70 degrees C. The active pH range of this lipase was 1.9-7.2, and the activity was stable at pH below 7.1. The lipase showed a preference for C18 acyl groups by measurements with p-nitrophenyl esters and triglycerides as substrates. The lipase was very stable in the presence of various organic solvents at a concentration of 40%. Although the N-terminal sequence of the Kurtzmanomyces lipase was very similar to that of lipase A from Candida antarctica, the pH profiles of the two lipases were significantly different.
ESTHER : Kakugawa_2002_Biosci.Biotechnol.Biochem_66_978
PubMedSearch : Kakugawa_2002_Biosci.Biotechnol.Biochem_66_978
PubMedID: 12092849