Functional Annotation of a Full-Length <i>Arabidopsis</i> cDNA Collection

Motoaki Seki(Center for Genomic Science), Mari Narusaka(Center for Genomic Science), Asako Kamiya(Center for Genomic Science), Junko Ishida(Center for Genomic Science), Masakazu Satou(Center for Genomic Science), Tetsuya Sakurai(Center for Genomic Science), Maiko Nakajima(Center for Genomic Science), Akiko Enju(Center for Genomic Science), Kenji Akiyama(Center for Genomic Science), Youko Oono(University of Tsukuba), Masami Muramatsu(RIKEN), Yoshihide Hayashizaki(RIKEN), Jun Kawai(RIKEN), Piero Carninci(RIKEN), Masayoshi Itoh(RIKEN), Yoshiyuki Ishii(RIKEN), Takahiro Arakawa(RIKEN), Kazuhiro Shibata(RIKEN), Akira Shinagawa(RIKEN), Kazuo Shinozaki(Center for Genomic Science)
Science
April 5, 2002
10.1126/science.1071006
Cited by 627

Abstract

Full-length complementary DNAs (cDNAs) are essential for the correct annotation of genomic sequences and for the functional analysis of genes and their products. We isolated 155,144 RIKEN Arabidopsis full-length (RAFL) cDNA clones. The 3'-end expressed sequence tags (ESTs) of 155,144 RAFL cDNAs were clustered into 14,668 nonredundant cDNA groups, about 60% of predicted genes. We also obtained 5' ESTs from 14,034 nonredundant cDNA groups and constructed a promoter database. The sequence database of the RAFL cDNAs is useful for promoter analysis and correct annotation of predicted transcription units and gene products. Furthermore, the full-length cDNAs are useful resources for analyses of the expression profiles, functions, and structures of plant proteins.

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