Ikeo K

References (6)

Title : The dynamic genome of Hydra - Chapman_2010_Nature_464_592
Author(s) : Chapman JA , Kirkness EF , Simakov O , Hampson SE , Mitros T , Weinmaier T , Rattei T , Balasubramanian PG , Borman J , Busam D , Disbennett K , Pfannkoch C , Sumin N , Sutton GG , Viswanathan LD , Walenz B , Goodstein DM , Hellsten U , Kawashima T , Prochnik SE , Putnam NH , Shu S , Blumberg B , Dana CE , Gee L , Kibler DF , Law L , Lindgens D , Martinez DE , Peng J , Wigge PA , Bertulat B , Guder C , Nakamura Y , Ozbek S , Watanabe H , Khalturin K , Hemmrich G , Franke A , Augustin R , Fraune S , Hayakawa E , Hayakawa S , Hirose M , Hwang JS , Ikeo K , Nishimiya-Fujisawa C , Ogura A , Takahashi T , Steinmetz PR , Zhang X , Aufschnaiter R , Eder MK , Gorny AK , Salvenmoser W , Heimberg AM , Wheeler BM , Peterson KJ , Bottger A , Tischler P , Wolf A , Gojobori T , Remington KA , Strausberg RL , Venter JC , Technau U , Hobmayer B , Bosch TC , Holstein TW , Fujisawa T , Bode HR , David CN , Rokhsar DS , Steele RE
Ref : Nature , 464 :592 , 2010
Abstract : The freshwater cnidarian Hydra was first described in 1702 and has been the object of study for 300 years. Experimental studies of Hydra between 1736 and 1744 culminated in the discovery of asexual reproduction of an animal by budding, the first description of regeneration in an animal, and successful transplantation of tissue between animals. Today, Hydra is an important model for studies of axial patterning, stem cell biology and regeneration. Here we report the genome of Hydra magnipapillata and compare it to the genomes of the anthozoan Nematostella vectensis and other animals. The Hydra genome has been shaped by bursts of transposable element expansion, horizontal gene transfer, trans-splicing, and simplification of gene structure and gene content that parallel simplification of the Hydra life cycle. We also report the sequence of the genome of a novel bacterium stably associated with H. magnipapillata. Comparisons of the Hydra genome to the genomes of other animals shed light on the evolution of epithelia, contractile tissues, developmentally regulated transcription factors, the Spemann-Mangold organizer, pluripotency genes and the neuromuscular junction.
ESTHER : Chapman_2010_Nature_464_592
PubMedSearch : Chapman_2010_Nature_464_592
PubMedID: 20228792
Gene_locus related to this paper: 9burk-c9y6c0 , 9burk-c9y8q9 , 9burk-c9y9d4 , 9burk-c9ya28 , 9burk-c9yb37 , 9burk-c9ycr9 , 9burk-c9ydq0 , 9burk-c9ydr2 , 9burk-c9yew1 , 9burk-c9yf78 , 9burk-c9ygh2 , 9burk-c9y7j2

Title : The Rice Annotation Project Database (RAP-DB): 2008 update - Tanaka_2008_Nucleic.Acids.Res_36_D1028
Author(s) : Tanaka T , Antonio BA , Kikuchi S , Matsumoto T , Nagamura Y , Numa H , Sakai H , Wu J , Itoh T , Sasaki T , Aono R , Fujii Y , Habara T , Harada E , Kanno M , Kawahara Y , Kawashima H , Kubooka H , Matsuya A , Nakaoka H , Saichi N , Sanbonmatsu R , Sato Y , Shinso Y , Suzuki M , Takeda J , Tanino M , Todokoro F , Yamaguchi K , Yamamoto N , Yamasaki C , Imanishi T , Okido T , Tada M , Ikeo K , Tateno Y , Gojobori T , Lin YC , Wei FJ , Hsing YI , Zhao Q , Han B , Kramer MR , McCombie RW , Lonsdale D , O'Donovan CC , Whitfield EJ , Apweiler R , Koyanagi KO , Khurana JP , Raghuvanshi S , Singh NK , Tyagi AK , Haberer G , Fujisawa M , Hosokawa S , Ito Y , Ikawa H , Shibata M , Yamamoto M , Bruskiewich RM , Hoen DR , Bureau TE , Namiki N , Ohyanagi H , Sakai Y , Nobushima S , Sakata K , Barrero RA , Souvorov A , Smith-White B , Tatusova T , An S , An G , S OO , Fuks G , Messing J , Christie KR , Lieberherr D , Kim H , Zuccolo A , Wing RA , Nobuta K , Green PJ , Lu C , Meyers BC , Chaparro C , Piegu B , Panaud O , Echeverria M
Ref : Nucleic Acids Research , 36 :D1028 , 2008
Abstract : The Rice Annotation Project Database (RAP-DB) was created to provide the genome sequence assembly of the International Rice Genome Sequencing Project (IRGSP), manually curated annotation of the sequence, and other genomics information that could be useful for comprehensive understanding of the rice biology. Since the last publication of the RAP-DB, the IRGSP genome has been revised and reassembled. In addition, a large number of rice-expressed sequence tags have been released, and functional genomics resources have been produced worldwide. Thus, we have thoroughly updated our genome annotation by manual curation of all the functional descriptions of rice genes. The latest version of the RAP-DB contains a variety of annotation data as follows: clone positions, structures and functions of 31 439 genes validated by cDNAs, RNA genes detected by massively parallel signature sequencing (MPSS) technology and sequence similarity, flanking sequences of mutant lines, transposable elements, etc. Other annotation data such as Gnomon can be displayed along with those of RAP for comparison. We have also developed a new keyword search system to allow the user to access useful information. The RAP-DB is available at: http://rapdb.dna.affrc.go.jp/ and http://rapdb.lab.nig.ac.jp/.
ESTHER : Tanaka_2008_Nucleic.Acids.Res_36_D1028
PubMedSearch : Tanaka_2008_Nucleic.Acids.Res_36_D1028
PubMedID: 18089549
Gene_locus related to this paper: orysa-Q9FW17 , orysa-Q0JK71 , orysa-B9EWJ8 , orysa-Q5N7L1 , orysa-pir7a , orysa-q2qyj1 , orysj-q6yse8 , orysa-q6yzk1 , orysa-Q8S0U8 , orysa-q33aq0 , orysa-Q0J0A4 , orysi-a2z179 , orysi-a2zef2 , orysi-b8a7e6 , orysi-b8a7e7 , orysi-b8bfe5 , orysi-b8bhp9 , orysj-b9fi05 , orysj-b9fkb0 , orysj-cgep , orysj-q0djj0 , orysj-q0dud7 , orysj-q0jaf0 , orysj-q0jga1 , orysj-q5jl22 , orysj-q5jlw7 , orysj-q6h7q9 , orysj-q6yvk6 , orysj-q7f8x1 , orysj-q7xcx3 , orysj-q9fwm6 , orysj-q10j20 , orysj-q10ss2 , orysj-q69uw6 , orysj-q94d71 , orysj-q0iq98 , orysj-b9gbs4 , orysj-b9gbs1 , orysj-pla4 , orysj-pla1

Title : Curated genome annotation of Oryza sativa ssp. japonica and comparative genome analysis with Arabidopsis thaliana - Itoh_2007_Genome.Res_17_175
Author(s) : Itoh T , Tanaka T , Barrero RA , Yamasaki C , Fujii Y , Hilton PB , Antonio BA , Aono H , Apweiler R , Bruskiewich R , Bureau T , Burr F , Costa de Oliveira A , Fuks G , Habara T , Haberer G , Han B , Harada E , Hiraki AT , Hirochika H , Hoen D , Hokari H , Hosokawa S , Hsing YI , Ikawa H , Ikeo K , Imanishi T , Ito Y , Jaiswal P , Kanno M , Kawahara Y , Kawamura T , Kawashima H , Khurana JP , Kikuchi S , Komatsu S , Koyanagi KO , Kubooka H , Lieberherr D , Lin YC , Lonsdale D , Matsumoto T , Matsuya A , McCombie WR , Messing J , Miyao A , Mulder N , Nagamura Y , Nam J , Namiki N , Numa H , Nurimoto S , O'Donovan C , Ohyanagi H , Okido T , Oota S , Osato N , Palmer LE , Quetier F , Raghuvanshi S , Saichi N , Sakai H , Sakai Y , Sakata K , Sakurai T , Sato F , Sato Y , Schoof H , Seki M , Shibata M , Shimizu Y , Shinozaki K , Shinso Y , Singh NK , Smith-White B , Takeda J , Tanino M , Tatusova T , Thongjuea S , Todokoro F , Tsugane M , Tyagi AK , Vanavichit A , Wang A , Wing RA , Yamaguchi K , Yamamoto M , Yamamoto N , Yu Y , Zhang H , Zhao Q , Higo K , Burr B , Gojobori T , Sasaki T
Ref : Genome Res , 17 :175 , 2007
Abstract : We present here the annotation of the complete genome of rice Oryza sativa L. ssp. japonica cultivar Nipponbare. All functional annotations for proteins and non-protein-coding RNA (npRNA) candidates were manually curated. Functions were identified or inferred in 19,969 (70%) of the proteins, and 131 possible npRNAs (including 58 antisense transcripts) were found. Almost 5000 annotated protein-coding genes were found to be disrupted in insertional mutant lines, which will accelerate future experimental validation of the annotations. The rice loci were determined by using cDNA sequences obtained from rice and other representative cereals. Our conservative estimate based on these loci and an extrapolation suggested that the gene number of rice is approximately 32,000, which is smaller than previous estimates. We conducted comparative analyses between rice and Arabidopsis thaliana and found that both genomes possessed several lineage-specific genes, which might account for the observed differences between these species, while they had similar sets of predicted functional domains among the protein sequences. A system to control translational efficiency seems to be conserved across large evolutionary distances. Moreover, the evolutionary process of protein-coding genes was examined. Our results suggest that natural selection may have played a role for duplicated genes in both species, so that duplication was suppressed or favored in a manner that depended on the function of a gene.
ESTHER : Itoh_2007_Genome.Res_17_175
PubMedSearch : Itoh_2007_Genome.Res_17_175
PubMedID: 17210932
Gene_locus related to this paper: orysa-Q7XTC5 , orysa-Q852M6 , orysa-Q8GSE8 , orysa-Q9FYP7 , orysa-Q5ZA26 , orysa-Q5JLP6 , orysa-Q8H5P5 , orysa-Q7F1Y5 , orysa-cbp3 , orysa-cbpx , orysa-Q6YSZ8 , orysa-Q9FW17 , orysa-Q84QZ6 , orysa-Q0JK71 , orysa-B9EWJ8 , orysa-Q6ZDG6 , orysa-Q6ZDG5 , orysa-Q658B2 , orysa-Q5N7L1 , orysa-Q8RYV9 , orysa-Q8H3R3 , orysa-Q5SNH3 , orysa-pir7a , orysa-q2qnj4 , orysa-q2qyj1 , orysa-q2r077 , orysa-Q4VWY7 , orysa-q5smv5 , orysa-q5z901 , orysa-Q5ZBI5 , orysa-q6atz0 , orysa-q6i5q3 , orysa-q6j657 , orysa-q6k4q2 , orysj-q6yse8 , orysa-q6yy42 , orysa-q6yzk1 , orysa-q6z8b1 , orysa-q6z995 , orysa-q6zjq6 , orysa-q7x7y5 , orysa-Q7XC50 , orysa-q7xr62 , orysa-q7xr63 , orysa-q7xsg1 , orysa-q7xsq2 , orysa-q7xts6 , orysa-q7xv53 , orysa-Q8LQS5 , orysa-Q8RZ79 , orysa-Q8S0U8 , orysa-Q8W3C6 , orysa-Q9LHX5 , orysa-q53m20 , orysa-q53nd8 , orysa-q60e79 , orysa-q67iz2 , orysa-q67iz3 , orysa-q67iz7 , orysa-q67iz8 , orysa-q67j02 , orysa-q67j05 , orysa-q67j09 , orysa-q67j10 , orysa-q67tr6 , orysa-q67tv0 , orysa-q69j38 , orysa-q69y21 , orysa-q75hy1 , orysa-q75hy2 , orysa-Q0J0A4 , orysa-q651a8 , orysa-q652g4 , orysa-q688m8 , orysa-Q6H8G1 , orysi-a2z179 , orysi-a2zef2 , orysi-b8a7e6 , orysi-b8a7e7 , orysi-b8bfe5 , orysi-b8bhp9 , orysj-b9fi05 , orysj-q0djj0 , orysj-q0jaf0 , orysj-q0jga1 , orysj-q0jhi5 , orysj-q5jl22 , orysj-q5jlw7 , orysj-q6h7q9 , orysj-q6yvk6 , orysj-q7f8x1 , orysj-q7xcx3 , orysj-q9fwm6 , orysj-q10j20 , orysj-q10ss2 , orysj-q69uw6 , orysj-q94d71 , orysj-q0iq98 , orysj-b9gbs4 , orysj-b9gbs1

Title : The Rice Annotation Project Database (RAP-DB): hub for Oryza sativa ssp. japonica genome information - Ohyanagi_2006_Nucleic.Acids.Res_34_D741
Author(s) : Ohyanagi H , Tanaka T , Sakai H , Shigemoto Y , Yamaguchi K , Habara T , Fujii Y , Antonio BA , Nagamura Y , Imanishi T , Ikeo K , Itoh T , Gojobori T , Sasaki T
Ref : Nucleic Acids Research , 34 :D741 , 2006
Abstract : With the completion of the rice genome sequencing, a standardized annotation is necessary so that the information from the genome sequence can be fully utilized in understanding the biology of rice and other cereal crops. An annotation jamboree was held in Japan with the aim of annotating and manually curating all the genes in the rice genome. Here we present the Rice Annotation Project Database (RAP-DB), which has been developed to provide access to the annotation data. The RAP-DB has two different types of annotation viewers, BLAST and BLAT search, and other useful features. By connecting the annotations to other rice genomics data, such as full-length cDNAs and Tos17 mutant lines, the RAP-DB serves as a hub for rice genomics. All of the resources can be accessed through http://rapdb.lab.nig.ac.jp/.
ESTHER : Ohyanagi_2006_Nucleic.Acids.Res_34_D741
PubMedSearch : Ohyanagi_2006_Nucleic.Acids.Res_34_D741
PubMedID: 16381971
Gene_locus related to this paper: orysa-Q9FW17 , orysa-Q0JK71 , orysa-B9EWJ8 , orysa-Q5N7L1 , orysa-Q5N7J6 , orysa-pir7a , orysa-q2qyi1 , orysa-q2qyj1 , orysa-q2rbb3 , orysj-q6yse8 , orysa-q6yzk1 , orysa-Q8S0U8 , orysa-Q84ZY8 , orysa-Q0J0A4 , orysi-a2z179 , orysi-a2zef2 , orysi-b8a7e6 , orysi-b8a7e7 , orysi-b8bfe5 , orysi-b8bhp9 , orysj-b9fi05 , orysj-q0d4u5 , orysj-q0djj0 , orysj-q0jaf0 , orysj-q0jga1 , orysj-q0jhi5 , orysj-q5jl22 , orysj-q5jlw7 , orysj-q6h7q9 , orysj-q6yvk6 , orysj-q7f8x1 , orysj-q7xcx3 , orysj-q9fwm6 , orysj-q10j20 , orysj-q10ss2 , orysj-q69uw6 , orysj-q94d71 , orysj-q0iq98 , orysj-b9gbs4 , orysj-b9gbs1

Title : The transcriptional landscape of the mammalian genome - Carninci_2005_Science_309_1559
Author(s) : Carninci P , Kasukawa T , Katayama S , Gough J , Frith MC , Maeda N , Oyama R , Ravasi T , Lenhard B , Wells C , Kodzius R , Shimokawa K , Bajic VB , Brenner SE , Batalov S , Forrest AR , Zavolan M , Davis MJ , Wilming LG , Aidinis V , Allen JE , Ambesi-Impiombato A , Apweiler R , Aturaliya RN , Bailey TL , Bansal M , Baxter L , Beisel KW , Bersano T , Bono H , Chalk AM , Chiu KP , Choudhary V , Christoffels A , Clutterbuck DR , Crowe ML , Dalla E , Dalrymple BP , de Bono B , Della Gatta G , di Bernardo D , Down T , Engstrom P , Fagiolini M , Faulkner G , Fletcher CF , Fukushima T , Furuno M , Futaki S , Gariboldi M , Georgii-Hemming P , Gingeras TR , Gojobori T , Green RE , Gustincich S , Harbers M , Hayashi Y , Hensch TK , Hirokawa N , Hill D , Huminiecki L , Iacono M , Ikeo K , Iwama A , Ishikawa T , Jakt M , Kanapin A , Katoh M , Kawasawa Y , Kelso J , Kitamura H , Kitano H , Kollias G , Krishnan SP , Kruger A , Kummerfeld SK , Kurochkin IV , Lareau LF , Lazarevic D , Lipovich L , Liu J , Liuni S , McWilliam S , Madan Babu M , Madera M , Marchionni L , Matsuda H , Matsuzawa S , Miki H , Mignone F , Miyake S , Morris K , Mottagui-Tabar S , Mulder N , Nakano N , Nakauchi H , Ng P , Nilsson R , Nishiguchi S , Nishikawa S , Nori F , Ohara O , Okazaki Y , Orlando V , Pang KC , Pavan WJ , Pavesi G , Pesole G , Petrovsky N , Piazza S , Reed J , Reid JF , Ring BZ , Ringwald M , Rost B , Ruan Y , Salzberg SL , Sandelin A , Schneider C , Schonbach C , Sekiguchi K , Semple CA , Seno S , Sessa L , Sheng Y , Shibata Y , Shimada H , Shimada K , Silva D , Sinclair B , Sperling S , Stupka E , Sugiura K , Sultana R , Takenaka Y , Taki K , Tammoja K , Tan SL , Tang S , Taylor MS , Tegner J , Teichmann SA , Ueda HR , van Nimwegen E , Verardo R , Wei CL , Yagi K , Yamanishi H , Zabarovsky E , Zhu S , Zimmer A , Hide W , Bult C , Grimmond SM , Teasdale RD , Liu ET , Brusic V , Quackenbush J , Wahlestedt C , Mattick JS , Hume DA , Kai C , Sasaki D , Tomaru Y , Fukuda S , Kanamori-Katayama M , Suzuki M , Aoki J , Arakawa T , Iida J , Imamura K , Itoh M , Kato T , Kawaji H , Kawagashira N , Kawashima T , Kojima M , Kondo S , Konno H , Nakano K , Ninomiya N , Nishio T , Okada M , Plessy C , Shibata K , Shiraki T , Suzuki S , Tagami M , Waki K , Watahiki A , Okamura-Oho Y , Suzuki H , Kawai J , Hayashizaki Y
Ref : Science , 309 :1559 , 2005
Abstract : This study describes comprehensive polling of transcription start and termination sites and analysis of previously unidentified full-length complementary DNAs derived from the mouse genome. We identify the 5' and 3' boundaries of 181,047 transcripts with extensive variation in transcripts arising from alternative promoter usage, splicing, and polyadenylation. There are 16,247 new mouse protein-coding transcripts, including 5154 encoding previously unidentified proteins. Genomic mapping of the transcriptome reveals transcriptional forests, with overlapping transcription on both strands, separated by deserts in which few transcripts are observed. The data provide a comprehensive platform for the comparative analysis of mammalian transcriptional regulation in differentiation and development.
ESTHER : Carninci_2005_Science_309_1559
PubMedSearch : Carninci_2005_Science_309_1559
PubMedID: 16141072
Gene_locus related to this paper: mouse-abhd1 , mouse-abhd3 , mouse-abhd4 , mouse-acot4 , mouse-adcl4 , mouse-DGLB , mouse-ephx3 , mouse-Kansl3 , mouse-lipli , mouse-LIPN , mouse-Ppgb , mouse-q3uuq7 , mouse-srac1 , mouse-Tex30 , mouse-tmco4 , mouse-tmm53 , mouse-f172a

Title : Comparative complete genome sequence analysis of the amino acid replacements responsible for the thermostability of Corynebacterium efficiens - Nishio_2003_Genome.Res_13_1572
Author(s) : Nishio Y , Nakamura Y , Kawarabayasi Y , Usuda Y , Kimura E , Sugimoto S , Matsui K , Yamagishi A , Kikuchi H , Ikeo K , Gojobori T
Ref : Genome Res , 13 :1572 , 2003
Abstract : Corynebacterium efficiens is the closest relative of Corynebacterium glutamicum, a species widely used for the industrial production of amino acids. C. efficiens but not C. glutamicum can grow above 40 degrees C. We sequenced the complete C. efficiens genome to investigate the basis of its thermostability by comparing its genome with that of C. glutamicum. The difference in GC content between the species was reflected in codon usage and nucleotide substitutions. Our comparative genomic study clearly showed that there was tremendous bias in amino acid substitutions in all orthologous ORFs. Analysis of the direction of the amino acid substitutions suggested that three substitutions are important for the stability of the C. efficiens proteins: from lysine to arginine, serine to alanine, and serine to threonine. Our results strongly suggest that the accumulation of these three types of amino acid substitutions correlates with the acquisition of thermostability and is responsible for the greater GC content of C. efficiens.
ESTHER : Nishio_2003_Genome.Res_13_1572
PubMedSearch : Nishio_2003_Genome.Res_13_1572
PubMedID: 12840036
Gene_locus related to this paper: coref-CE0007 , coref-CE0093 , coref-CE0094 , coref-CE0096 , coref-CE0103 , coref-CE0104 , coref-CE0150 , coref-CE0293 , coref-CE0354 , coref-CE0356 , coref-CE0596 , coref-CE0984 , coref-CE1275 , coref-CE1488 , coref-CE1571 , coref-CE1601 , coref-CE1609 , coref-CE1895 , coref-CE2149 , coref-CE2296 , coref-CE2371 , coref-CE2453 , coref-CE2486 , coref-CE2499 , coref-CE2705 , coref-CE2710 , coref-CE2923 , coref-CSPA , coref-METX , coref-q8flv5 , coref-q8fm83 , coref-q8fmd4 , coref-q8fm02