Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University

Fukushima, Mamiko; Almagro, Goizeder; Hanashiro, Isao; Pozueta Romero, Javier; Mitsui, Toshiaki; Itoh, Kimiko; Japan Society for the Promotion of Science

Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University

Trabajo presentado en el KAAB International Symposium (Frontiers in Plant Science and Biotechnology), celebrado en Niigata (Japón) el 29 de septiembre de 2015.

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Main Authors:	Fukushima, Mamiko, Almagro, Goizeder, Hanashiro, Isao, Pozueta Romero, Javier, Mitsui, Toshiaki, Itoh, Kimiko
Other Authors:	Japan Society for the Promotion of Science
Format:	comunicación de congreso biblioteca
Published:	2015-09
Online Access:	http://hdl.handle.net/10261/142378 http://dx.doi.org/10.13039/501100001691
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id	dig-idab-es-10261-142378
record_format	koha
spelling	dig-idab-es-10261-1423782017-01-18T10:57:39Z Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University Fukushima, Mamiko Almagro, Goizeder Hanashiro, Isao Pozueta Romero, Javier Mitsui, Toshiaki Itoh, Kimiko Japan Society for the Promotion of Science Trabajo presentado en el KAAB International Symposium (Frontiers in Plant Science and Biotechnology), celebrado en Niigata (Japón) el 29 de septiembre de 2015. Natural storage polysaccharides, like as amylopectin and glycogen, vary in form and molecular size. Glycogen molecule is smaller in size and higher in branching degree than that of amylopectin. To develop a novel type of glycogen containing a long α-1, 4 glucosyl chain, we introduced rice granule-bound starch synthase I (GBSSI) gene in Escherichia coli and analyzed its expression and effect on glycogen synthesis, Rice GBSSI synthesizes not only amylose but also amylopectin, especially synthesizes extra-long chain, whose degrees of polymerization is over one hundred (1). We constructed the expression vector, pHis:SUMO:GBSSI, and confirmed that the expressed His:SUMO:GBSSI can synthesize extra-long chain in amylopectin in vitro. We transformed the pHis:SUMO:GBSSI into various E. coli strains, BW25113 and its mutants deficient in genes related to glycogen accumulation (Keio Collection)(2,3), and then examined effect of GBSSI expression on changes in nature and the amount of glycogen. Genes involved in Glycogen metabolism in E. coli are clustered in two apparently independent transcriptional units, glgBX (encoding branching enzyme GlgB and debranching enzyme GlgX) and glgCAP (encoding ADPG pyrophosphorylase GlgC, glycogen synthase GlgA and glycogen phosphorylase GlgP),. Both of ΔglgX andΔglgP mutants show increase in glycogen accumulation than BW25113, whileΔglgA mutant accumulates no glycogen at all. We use these three mutants,ΔglgX, ΔglgP, and ΔglgA, for this study. GBSSI expressing ΔglgX,ΔglgP, and BW25113 produced much more glycogen than non-expressing E. coli mutants, whereas the GBSSI expressing mutant ΔglgA did not produce the glycogen at all. The results indicate that the rice GBSSI does not complement the glycogen synthase deficiency by ΔglgA in E. coli. Our research also indicates that GBSSI can function not only in rice, but also in E. coli and affect its glycogen accumulation. Funding acknowledgements: This work was supported by KAAB project and Grant-in-Aid for Scientific Research, No. 15K00779, JSPS. Peer Reviewed 2017-01-11T11:46:20Z 2017-01-11T11:46:20Z 2015-09 2017-01-11T11:46:22Z comunicación de congreso http://purl.org/coar/resource_type/c_5794 KAAB International Symposium (2015) http://hdl.handle.net/10261/142378 http://dx.doi.org/10.13039/501100001691 Sí none
institution	IDAB ES
collection	DSpace
country	España
countrycode	ES
component	Bibliográfico
access	En linea
databasecode	dig-idab-es
tag	biblioteca
region	Europa del Sur
libraryname	Biblioteca del IDAB España
description	Trabajo presentado en el KAAB International Symposium (Frontiers in Plant Science and Biotechnology), celebrado en Niigata (Japón) el 29 de septiembre de 2015.
author2	Japan Society for the Promotion of Science
author_facet	Japan Society for the Promotion of Science Fukushima, Mamiko Almagro, Goizeder Hanashiro, Isao Pozueta Romero, Javier Mitsui, Toshiaki Itoh, Kimiko
format	comunicación de congreso
author	Fukushima, Mamiko Almagro, Goizeder Hanashiro, Isao Pozueta Romero, Javier Mitsui, Toshiaki Itoh, Kimiko
spellingShingle	Fukushima, Mamiko Almagro, Goizeder Hanashiro, Isao Pozueta Romero, Javier Mitsui, Toshiaki Itoh, Kimiko Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
author_sort	Fukushima, Mamiko
title	Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
title_short	Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
title_full	Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
title_fullStr	Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
title_full_unstemmed	Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University
title_sort	production and characterization of novel glycogen-based polymer. joint research by public university of navarra and niigata university
publishDate	2015-09
url	http://hdl.handle.net/10261/142378 http://dx.doi.org/10.13039/501100001691
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Production and characterization of novel glycogen-based polymer. Joint research by Public University of Navarra and Niigata University

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