Aya Kubomoto scite author profile

Aya Kubomoto

2Publications

76Citation Statements Received

34Citation Statements Given

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Kwansei Gakuin University, Saitama University

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Molecular cloning and expression in Escherichia coli of a Trichoderma viride endo-beta-(1 6)-galactanase gene

Kotake

Kaneko

Kubomoto

et al. 2004

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The nucleotide sequence depicted in Figure 1 has been submitted to the DDBJ nucleotide sequence database under the accession no. AB104898. A gene encoding endo-beta-(1-->6)-galactanase from Trichoderma viride was cloned by reverse transcriptase-PCR and expressed in Escherichia coli. The gene contained an open reading frame consisting of 1437 bp (479 amino acids). The deduced amino acid sequence of the protein showed little similarity with other known glycoside hydrolases. A signal sequence (20 amino acids) was found at the N-terminal region of the protein and the molecular mass of the mature form was calculated to be 50.488 kDa. The gene product expressed in E. coli as a recombinant protein fused with thioredoxin and His(6) tags had almost the same substrate specificity and mode of action as native enzyme purified from a commercial cellulase preparation of T. viride, i.e. recombinant enzyme endo-hydrolysed beta-(1-->6)-galacto-oligomers with a DP (degree of polymerization) higher than 3, and it could also hydrolyse alpha-L-arabinofuranosidase-treated arabinogalactan protein from radish. It produced beta-(1-->6)-galacto-oligomers ranging from DP 2 to at least 8 at the initial hydrolysis stage and galactose and beta-(1-->6)-galactobiose as the major products at the final reaction stage. These results indicate that the cloned gene encodes an endo-beta-(1-->6)-galactanase. As far as we know, this is the first time an endo-beta-(1-->6)-galactanase has been cloned.

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Control of Intracellular Localization and Function of Cx43 by SEMA3F

2007

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Connexin genes are considered to form a family of tumor-suppressor genes. However, the mechanism of connexin-mediated growth control is not well understood. We now provide several lines of evidence which suggest that SEMA3F, a member of the class 3 semaphorin family, which is also reported to be a tumor suppressor, controls the intracellular localization and function of connexin 43 (Cx43). We employed a series of rat liver epithelial cell lines, among which we previously found that the level of expression of malignant phenotypes (IAR20 < IAR27E < IAR6-1 < IAR27F) is inversely related to that of gap junctional intercellular communication (GJIC). When we immunostained SEMA3F and Cx43 in these cell lines, the extent of immunostaining in the plasma membrane of both proteins decreased in the order of IAR20 > IAR27E > IAR6-1 > IAR27F, suggesting a close relationship between Cx43 and SEMA3F. Further studies revealed a partial colocalization of SEMA3F and Cx43 in the plasma membrane of IAR20 cells. We also found that both SEMA3F and Cx43 moved from the cytoplasm to the plasma membrane in a mouse papilloma cell line when E-cadherin became functional after transferring the cells from low- to high-calcium conditions. When SEMA3F gene expression was inhibited by siRNA in IAR20 cells, Cx43 localization in the plasma membrane and GJIC ability were reduced. Moreover, we found that SEMA3F binds with the cytoplasmic loop domain of Cx43, employing the yeast two-hybrid complementation and screening assays. Taken together, these results strongly suggest that SEMA3F directly associates with Cx43 and controls its intracellular localization and function.

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Aya Kubomoto

Molecular cloning and expression in Escherichia coli of a Trichoderma viride endo-beta-(1 6)-galactanase gene

Control of Intracellular Localization and Function of Cx43 by SEMA3F

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