M
Mamoru Kamiya
Publications - 17
Citations - 1707
Mamoru Kamiya is an academic researcher. The author has contributed to research in topics: Gene & Genomic imprinting. The author has an hindex of 9, co-authored 17 publications receiving 1665 citations.
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Journal ArticleDOI
Functional annotation of a full-length mouse cDNA collection
Jun Kawai,Akira Shinagawa,K. Shibata,Masayasu Yoshino,Masayoshi Itoh,Y. Ishii,Takahiro Arakawa,A. Hara,Yoshifumi Fukunishi,Hideaki Konno,Jun Adachi,S. Fukuda,Katsunori Aizawa,Masaki Izawa,Kenichiro Nishi,H. Kiyosawa,S. Kondo,Itaru Yamanaka,Takashi Saito,Yasushi Okazaki,Takashi Gojobori,Hidemasa Bono,Takeya Kasukawa,Rintaro Saito,Koji Kadota,Hideo Matsuda,Michael Ashburner,Serge Batalov,Thomas L. Casavant,W. Fleischmann,Terry Gaasterland,Carmela Gissi,Benjamin L. King,Hiromi Kochiwa,P. Kuehl,Simon L. Lewis,Y. Matsuo,Itoshi Nikaido,Graziano Pesole,John Quackenbush,Lynn M. Schriml,F. Staubli,R. Suzuki,Masaru Tomita,Lukas Wagner,Takanori Washio,K. Sakai,Toshihisa Okido,Masaaki Furuno,H. Aono,Richard M. Baldarelli,Gregory S. Barsh,Judith A. Blake,Dario Boffelli,N. Bojunga,Piero Carninci,M. F. De Bonaldo,Michael J. Brownstein,Carol J. Bult,Christopher D.M. Fletcher,Masaki Fujita,Manuela Gariboldi,Stefano Gustincich,David E. Hill,Marion A. Hofmann,David A. Hume,Mamoru Kamiya,Norman H. Lee,Paul A. Lyons,Luigi Marchionni,Jun Mashima,J. Mazzarelli,Peter Mombaerts,P. Nordone,Brian Z. Ring,M. Ringwald,Ivan Rodriguez,Naoaki Sakamoto,H. Sasaki,K. Sato,Christian Schönbach,Tsukasa Seya,Y. Shibata,Kai-Florian Storch,Harukazu Suzuki,Kazuhito Toyo-oka,Kuan Hong Wang,Charles J. Weitz,Charles A. Whittaker,L. Wilming,Anthony Wynshaw-Boris,K. Yoshida,Y. Hasegawa,Hideya Kawaji,Hideya Kawaji,S. Kohtsuki,Yoshihide Hayashizaki +96 more
TL;DR: The first RIKEN clone collection is described, which is one of the largest described for any organism and analysis of these cDNAs extends known gene families and identifies new ones.
Journal ArticleDOI
High-Efficiency Full-Length cDNA Cloning by Biotinylated CAP Trapper
Piero Carninci,Catrine Kvam,Catrine Kvam,Akiko Kitamura,Tomoya Ohsumi,Yasushi Okazaki,Mitsuteru Itoh,Mamoru Kamiya,Kazuhiro Shibata,Nobuya Sasaki,Masaki Izawa,Masami Muramatsu,Yoshihide Hayashizaki,Claudio Schneider +13 more
TL;DR: A method for efficiently constructing high-content full-length cDNA libraries based on chemical introduction of a biotin group into the diol residue of the cap structure of eukaryotic mRNA, followed by RNase I treatment to select full- length cDNA is devised.
Journal ArticleDOI
The human GNAS1 gene is imprinted and encodes distinct paternally and biallelically expressed G proteins.
Bruce E. Hayward,Mamoru Kamiya,Lisa Strain,Veronica Moran,Roderick Campbell,Yoshihide Hayashizaki,David T. Bonthron +6 more
TL;DR: It is shown that, although Gsalpha expression (directed by the promoter upstream of exon 1) is biallelic, GNAS1 is indeed imprinted in a promoter-specific fashion, and may contribute to the anomalous inheritance of PHP Ia.
Journal ArticleDOI
The cell cycle control gene ZAC/PLAGL1 is imprinted—a strong candidate gene for transient neonatal diabetes
Mamoru Kamiya,Hannah Judson,Yasushi Okazaki,Moriaki Kusakabe,Masami Muramatsu,Shuji Takada,Nobuo Takagi,Takahiro Arima,Norio Wake,Katsunori Kamimura,Kenichi Satomura,Robert Hermann,David T. Bonthron,Yoshihide Hayashizaki +13 more
TL;DR: A screen for new imprinted human genes is described, and the identification of ZAC (zinc finger protein which regulates apoptosis and cell cycle arrest)/ PLAGL1 (pleomorphicadenoma of the salivary gland gene like 1) as a strong candidate gene for transient neonatal diabetes mellitus (TNDM) is described.
Journal ArticleDOI
A genetic linkage map of the Syrian hamster and localization of cardiomyopathy locus on chromosome 9qa2.1–b1 using RLGS spot–mapping
Yasushi Okazaki,Hisato Okuizumi,Tomoya Ohsumi,Osamu Nomura,Shuji Takada,Mamoru Kamiya,Nobuya Sasaki,Yoichi Matsuda,Yoichi Matsuda,Masahiko Nishimura,Osamu Tagaya,Masami Muramatsu,Yoshihide Hayashizaki +12 more
TL;DR: The restriction landmark genome scanning (RLGS) spot-mapping method was applied to construct a genetic map of the Syrian hamster using 72 back-cross progeny and 531 polymorphic spots/loci were mapped, showing the power of this approach and reasonable applicability to other organisms lacking a well-defined genetic map.