Yasunori Koga-Ban scite author profile

A large-scale sequence analysis of rice cDNA was performed for a library from rice callus cultured in a medium containing 1 p.p.m. of 2,4-dichlorophenoxyacetic acid. Random sequencing of 2778 cDNA clones generated 2259 non-redundant expressed sequence tags (ESTs). The strategy of sequencing cDNAs can yield quickly a large number of novel genes. After translation, 690 sequences showed a significant amino acid sequence similarity to sequences already known from PIR. The source of known proteins ranged from bacteria to human. In this report, the non-redundant set of 280 identified ESTs is analyzed in detail.

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cDNA Sequences of Three Kinds of -tubulins from Rice

Koga-Ban¹

1995

DNA Research

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Complete nucleotide sequences of three kinds of rice beta-tubulin cDNA clones (pTUB22, R1623 and R2242) were determined. Southern hybridization indicated that these beta-tubulins consist of one gene family. Using RFLP mapping, these three beta-tubulin cDNAs were mapped to different chromosomes indicating at least three loci for the beta-tubulin gene. The deduced amino acid sequences of these cDNAs showed a high similarity to other plant beta-tubulins. The asparagine residue located at the 100th amino acid from the N-terminus of plant beta-tubulins was also conserved with these three beta-tubulins. This asparagine is thought to be responsible for the sensitivity against rhizoxin, the toxin of the pathogen of rice seedling blight, Rhizopus sp. a soil-borne microorganism. Expression of the three beta-tubulin genes was analyzed by Northern blotting and all three clones were expressed in root, the possible target tissue of rhizoxin. These results suggest that these clones are candidates of beta-tubulins targeted by rhizoxin.

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Rice Class III Chitinase Homologues Isolated by Random Cloning of Rice cDNAs

Nagasaki¹,

Yamamoto²,

Shomura³

et al. 1997

DNA Research

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We obtained seven kinds of cDNA clones putatively identified as encoding class III chitinases from cDNA libraries constructed from dichlorophenoxyacetic acid (2,4-D)- and benzyl adenine (BA)- treated rice callus. Putative amino acid sequences encoded in these cDNA clones were compared with those of known chitinases of other plants. Two clones coded for homologues that show high similarity to class III chitinases. These clones contained the common glutamic acid at the active site and were classified as true homologues. The other five clones, however, showed relatively low similarity to class III chitinases and their active sites contained aspartic acid instead of glutamic acid. These clones may correspond to relatives of a super family of class III chitinases. The location of the genes coding for these homologues on the rice genome has been determined by genetic linkage analysis with restriction fragment length polymorphism.

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Identification of cDNA clones for rice homologs of the human immunodeficiency virus-1 Tat binding protein and subunit 4 of human 26S protease (proteasome)

Suzuka

Koga-Ban²,

Sasaki³

et al. 1994

Plant Science

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Characterization and Host Range Determination of Soybean Super VirulentAgrobacterium tumefaciensKAT23

Yukawa¹,

Kaku²,

Tanaka³

et al. 2007

Bioscience, Biotechnology, and Biochemistry

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Agrobacterium tumefaciens KAT23 isolated from peach root causes crown gall disease in a number of grain legume plants, including the common bean (Phaseolus vulgaris) and soybean (Glycine max). KAT23 caused tumor formation in each of these plants more effectively than strain C58. Biotype determination suggested that this strain is biotype II. KAT23 was able to utilize nopaline as a carbon source. Partial sequence analysis indicated that KAT23 harbors a nopaline-type Ti plasmid, designated pTiKAT23, which was highly homologous with other nopaline-type Ti plasmids (pTiC58 and pTiSAKURA). KAT23 transferred not only the T-DNA of the Ti plasmid but also introduced T-DNA of the binary vector efficiently. The common bean inoculated with KAT23 (pIGFP121-Hm) showed crown galls, and some plants showed beta-glucuronidase (GUS) and sGFP (S65T) gene expression. This virulent ability of KAT23 indicates its potential application to legumes, especially to soybean transformation.

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