Aizawa K

References (4)

Title : Collection, mapping, and annotation of over 28,000 cDNA clones from japonica rice - Kikuchi_2003_Science_301_376
Author(s) : Kikuchi S , Satoh K , Nagata T , Kawagashira N , Doi K , Kishimoto N , Yazaki J , Ishikawa M , Yamada H , Ooka H , Hotta I , Kojima K , Namiki T , Ohneda E , Yahagi W , Suzuki K , Li CJ , Ohtsuki K , Shishiki T , Otomo Y , Murakami K , Iida Y , Sugano S , Fujimura T , Suzuki Y , Tsunoda Y , Kurosaki T , Kodama T , Masuda H , Kobayashi M , Xie Q , Lu M , Narikawa R , Sugiyama A , Mizuno K , Yokomizo S , Niikura J , Ikeda R , Ishibiki J , Kawamata M , Yoshimura A , Miura J , Kusumegi T , Oka M , Ryu R , Ueda M , Matsubara K , Kawai J , Carninci P , Adachi J , Aizawa K , Arakawa T , Fukuda S , Hara A , Hashizume W , Hayatsu N , Imotani K , Ishii Y , Itoh M , Kagawa I , Kondo S , Konno H , Miyazaki A , Osato N , Ota Y , Saito R , Sasaki D , Sato K , Shibata K , Shinagawa A , Shiraki T , Yoshino M , Hayashizaki Y , Yasunishi A
Ref : Science , 301 :376 , 2003
Abstract : We collected and completely sequenced 28,469 full-length complementary DNA clones from Oryza sativa L. ssp. japonica cv. Nipponbare. Through homology searches of publicly available sequence data, we assigned tentative protein functions to 21,596 clones (75.86%). Mapping of the cDNA clones to genomic DNA revealed that there are 19,000 to 20,500 transcription units in the rice genome. Protein informatics analysis against the InterPro database revealed the existence of proteins presented in rice but not in Arabidopsis. Sixty-four percent of our cDNAs are homologous to Arabidopsis proteins.
ESTHER : Kikuchi_2003_Science_301_376
PubMedSearch : Kikuchi_2003_Science_301_376
PubMedID: 12869764
Gene_locus related to this paper: orysa-Q852M6 , orysa-Q8GSE8 , orysa-Q9FYP7 , orysa-Q5JLP6 , orysa-Q8H5P5 , orysa-Q7F1Y5 , orysa-cbp3 , orysa-Q6YSZ8 , orysa-Q8S5X5 , orysa-Q8LIG3 , orysa-Q7F1B1 , orysa-Q9FW17 , orysa-Q337C3 , orysa-Q84QZ6 , orysa-Q84QY7 , orysa-Q6ZDG5 , orysa-Q658B2 , orysa-Q8H3R3 , orysa-Q5SNH3 , orysa-q2qnj4 , orysa-q2qyi1 , orysa-Q4VWY7 , orysa-q5smv5 , orysa-q5z901 , orysa-Q5ZBI5 , orysa-q6atz0 , orysa-q6i5q3 , orysj-q6yse8 , orysa-q6z8b1 , orysa-q6z995 , orysa-q7x7y5 , orysa-q7xkj9 , orysa-q7xr63 , orysa-q7xsq2 , orysa-q7xts6 , orysa-Q8LQS5 , orysa-Q8W3C6 , orysa-q53m20 , orysa-q67iz3 , orysa-q67j02 , orysa-q67j05 , orysa-q67j09 , orysa-q67j10 , orysa-q67tv0 , orysa-q67uz1 , orysa-q69xr2 , orysa-q69y21 , orysa-q75hy2 , orysa-q75i01 , orysa-q688m8 , orysa-q688m9 , orysa-Q6H8G1 , orysi-b8a7e7 , orysi-b8bfe5 , orysj-cgep , orysj-q0djj0 , orysj-q0jaf0 , orysj-q5jl22 , orysj-q6h7q9 , orysj-q6yvk6 , orysj-q7f8x1 , orysj-q10j20 , orysj-q10ss2 , orysj-q69uw6

Title : Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs - Okazaki_2002_Nature_420_563
Author(s) : Okazaki Y , Furuno M , Kasukawa T , Adachi J , Bono H , Kondo S , Nikaido I , Osato N , Saito R , Suzuki H , Yamanaka I , Kiyosawa H , Yagi K , Tomaru Y , Hasegawa Y , Nogami A , Schonbach C , Gojobori T , Baldarelli R , Hill DP , Bult C , Hume DA , Quackenbush J , Schriml LM , Kanapin A , Matsuda H , Batalov S , Beisel KW , Blake JA , Bradt D , Brusic V , Chothia C , Corbani LE , Cousins S , Dalla E , Dragani TA , Fletcher CF , Forrest A , Frazer KS , Gaasterland T , Gariboldi M , Gissi C , Godzik A , Gough J , Grimmond S , Gustincich S , Hirokawa N , Jackson IJ , Jarvis ED , Kanai A , Kawaji H , Kawasawa Y , Kedzierski RM , King BL , Konagaya A , Kurochkin IV , Lee Y , Lenhard B , Lyons PA , Maglott DR , Maltais L , Marchionni L , McKenzie L , Miki H , Nagashima T , Numata K , Okido T , Pavan WJ , Pertea G , Pesole G , Petrovsky N , Pillai R , Pontius JU , Qi D , Ramachandran S , Ravasi T , Reed JC , Reed DJ , Reid J , Ring BZ , Ringwald M , Sandelin A , Schneider C , Semple CA , Setou M , Shimada K , Sultana R , Takenaka Y , Taylor MS , Teasdale RD , Tomita M , Verardo R , Wagner L , Wahlestedt C , Wang Y , Watanabe Y , Wells C , Wilming LG , Wynshaw-Boris A , Yanagisawa M , Yang I , Yang L , Yuan Z , Zavolan M , Zhu Y , Zimmer A , Carninci P , Hayatsu N , Hirozane-Kishikawa T , Konno H , Nakamura M , Sakazume N , Sato K , Shiraki T , Waki K , Kawai J , Aizawa K , Arakawa T , Fukuda S , Hara A , Hashizume W , Imotani K , Ishii Y , Itoh M , Kagawa I , Miyazaki A , Sakai K , Sasaki D , Shibata K , Shinagawa A , Yasunishi A , Yoshino M , Waterston R , Lander ES , Rogers J , Birney E , Hayashizaki Y
Ref : Nature , 420 :563 , 2002
Abstract : Only a small proportion of the mouse genome is transcribed into mature messenger RNA transcripts. There is an international collaborative effort to identify all full-length mRNA transcripts from the mouse, and to ensure that each is represented in a physical collection of clones. Here we report the manual annotation of 60,770 full-length mouse complementary DNA sequences. These are clustered into 33,409 'transcriptional units', contributing 90.1% of a newly established mouse transcriptome database. Of these transcriptional units, 4,258 are new protein-coding and 11,665 are new non-coding messages, indicating that non-coding RNA is a major component of the transcriptome. 41% of all transcriptional units showed evidence of alternative splicing. In protein-coding transcripts, 79% of splice variations altered the protein product. Whole-transcriptome analyses resulted in the identification of 2,431 sense-antisense pairs. The present work, completely supported by physical clones, provides the most comprehensive survey of a mammalian transcriptome so far, and is a valuable resource for functional genomics.
ESTHER : Okazaki_2002_Nature_420_563
PubMedSearch : Okazaki_2002_Nature_420_563
PubMedID: 12466851
Gene_locus related to this paper: mouse-1lipg , mouse-1llip , mouse-1plrp , mouse-3neur , mouse-ABH15 , mouse-abhd4 , mouse-abhd5 , mouse-Abhd8 , mouse-Abhd11 , mouse-abhda , mouse-acot4 , mouse-adcl4 , mouse-AI607300 , mouse-BAAT , mouse-bphl , mouse-C87498 , mouse-Ldah , mouse-Ces1d , mouse-Ces2e , mouse-CMBL , mouse-DGLB , mouse-dpp9 , mouse-ES10 , mouse-F135A , mouse-FASN , mouse-hslip , mouse-hyes , mouse-Kansl3 , mouse-LIPH , mouse-LIPK , mouse-lipli , mouse-LIPM , mouse-lypla1 , mouse-lypla2 , mouse-MEST , mouse-MGLL , mouse-ndr4 , mouse-OVCA2 , mouse-pafa , mouse-pcp , mouse-ppce , mouse-Ppgb , mouse-PPME1 , mouse-q3uuq7 , mouse-Q8BLF1 , mouse-ACOT6 , mouse-Q8C1A9 , mouse-Q9DAI6 , mouse-Q80UX8 , mouse-Q8BGG9 , mouse-Q8C167 , mouse-rbbp9 , mouse-SERHL , mouse-tssp

Title : Functional annotation of a full-length mouse cDNA collection - Kawai_2001_Nature_409_685
Author(s) : Kawai J , Shinagawa A , Shibata K , Yoshino M , Itoh M , Ishii Y , Arakawa T , Hara A , Fukunishi Y , Konno H , Adachi J , Fukuda S , Aizawa K , Izawa M , Nishi K , Kiyosawa H , Kondo S , Yamanaka I , Saito T , Okazaki Y , Gojobori T , Bono H , Kasukawa T , Saito R , Kadota K , Matsuda H , Ashburner M , Batalov S , Casavant T , Fleischmann W , Gaasterland T , Gissi C , King B , Kochiwa H , Kuehl P , Lewis S , Matsuo Y , Nikaido I , Pesole G , Quackenbush J , Schriml LM , Staubli F , Suzuki R , Tomita M , Wagner L , Washio T , Sakai K , Okido T , Furuno M , Aono H , Baldarelli R , Barsh G , Blake J , Boffelli D , Bojunga N , Carninci P , de Bonaldo MF , Brownstein MJ , Bult C , Fletcher C , Fujita M , Gariboldi M , Gustincich S , Hill D , Hofmann M , Hume DA , Kamiya M , Lee NH , Lyons P , Marchionni L , Mashima J , Mazzarelli J , Mombaerts P , Nordone P , Ring B , Ringwald M , Rodriguez I , Sakamoto N , Sasaki H , Sato K , Schonbach C , Seya T , Shibata Y , Storch KF , Suzuki H , Toyo-oka K , Wang KH , Weitz C , Whittaker C , Wilming L , Wynshaw-Boris A , Yoshida K , Hasegawa Y , Kawaji H , Kohtsuki S , Hayashizaki Y
Ref : Nature , 409 :685 , 2001
Abstract : The RIKEN Mouse Gene Encyclopaedia Project, a systematic approach to determining the full coding potential of the mouse genome, involves collection and sequencing of full-length complementary DNAs and physical mapping of the corresponding genes to the mouse genome. We organized an international functional annotation meeting (FANTOM) to annotate the first 21,076 cDNAs to be analysed in this project. Here we describe the first RIKEN clone collection, which is one of the largest described for any organism. Analysis of these cDNAs extends known gene families and identifies new ones.
ESTHER : Kawai_2001_Nature_409_685
PubMedSearch : Kawai_2001_Nature_409_685
PubMedID: 11217851
Gene_locus related to this paper: mouse-1lipg , mouse-1plip , mouse-1plrp , mouse-ABH15 , mouse-abhd5 , mouse-ABHD6 , mouse-Abhd8 , mouse-aryla , mouse-bphl , mouse-cauxin , mouse-Ces1g , mouse-CPMac , mouse-dpp8 , mouse-EPHX1 , mouse-ES10 , mouse-hslip , mouse-hyes , mouse-ABHD2 , mouse-lcat , mouse-lipli , mouse-LIPN , mouse-lypla1 , mouse-lypla2 , mouse-OVCA2 , mouse-pafa , mouse-pcp , mouse-Ppgb , mouse-PPME1 , mouse-ppt , mouse-q3uuq7 , mouse-Q9DAI6 , mouse-Q80UX8 , mouse-RISC , mouse-SERHL , mouse-SPG21 , mouse-Tex30

Title : RIKEN integrated sequence analysis (RISA) system--384-format sequencing pipeline with 384 multicapillary sequencer - Shibata_2000_Genome.Res_10_1757
Author(s) : Shibata K , Itoh M , Aizawa K , Nagaoka S , Sasaki N , Carninci P , Konno H , Akiyama J , Nishi K , Kitsunai T , Tashiro H , Sumi N , Ishii Y , Nakamura S , Hazama M , Nishine T , Harada A , Yamamoto R , Matsumoto H , Sakaguchi S , Ikegami T , Kashiwagi K , Fujiwake S , Inoue K , Togawa Y
Ref : Genome Res , 10 :1757 , 2000
Abstract : The RIKEN high-throughput 384-format sequencing pipeline (RISA system) including a 384-multicapillary sequencer (the so-called RISA sequencer) was developed for the RIKEN mouse encyclopedia project. The RISA system consists of colony picking, template preparation, sequencing reaction, and the sequencing process. A novel high-throughput 384-format capillary sequencer system (RISA sequencer system) was developed for the sequencing process. This system consists of a 384-multicapillary auto sequencer (RISA sequencer), a 384-multicapillary array assembler (CAS), and a 384-multicapillary casting device. The RISA sequencer can simultaneously analyze 384 independent sequencing products. The optical system is a scanning system chosen after careful comparison with an image detection system for the simultaneous detection of the 384-capillary array. This scanning system can be used with any fluorescent-labeled sequencing reaction (chain termination reaction), including transcriptional sequencing based on RNA polymerase, which was originally developed by us, and cycle sequencing based on thermostable DNA polymerase. For long-read sequencing, 380 out of 384 sequences (99.2%) were successfully analyzed and the average read length, with more than 99% accuracy, was 654.4 bp. A single RISA sequencer can analyze 216 kb with >99% accuracy in 2.7 h (90 kb/h). For short-read sequencing to cluster the 3' end and 5' end sequencing by reading 350 bp, 384 samples can be analyzed in 1.5 h. We have also developed a RISA inoculator, RISA filtrator and densitometer, RISA plasmid preparator which can handle throughput of 40,000 samples in 17.5 h, and a high-throughput RISA thermal cycler which has four 384-well sites. The combination of these technologies allowed us to construct the RISA system consisting of 16 RISA sequencers, which can process 50,000 DNA samples per day. One haploid genome shotgun sequence of a higher organism, such as human, mouse, rat, domestic animals, and plants, can be revealed by seven RISA systems within one month.
ESTHER : Shibata_2000_Genome.Res_10_1757
PubMedSearch : Shibata_2000_Genome.Res_10_1757
PubMedID: 11076861
Gene_locus related to this paper: mouse-1plrp , mouse-abhd5 , mouse-Abhd8 , mouse-cauxin , mouse-dpp8 , mouse-hslip , mouse-lipli , mouse-LIPN , mouse-Ppgb , mouse-q3uuq7 , mouse-Q9DAI6