Sode K., Makimoto H., Tomiyama M., Tsugawa W. Improvement of E.coli hydrogen production by metabolic engineering of the mixed acid fermentation pathway. 1997. 9. 154-154
Sode Koji, Watanabe Mika, Makimoto Hiroshi, Tsugawa Wakako, Tomiyama Masamitsu. Improvement of hydrogen production by Escherichia coli via metabolic engineering of anaerobisis. 1995. 7. 79-79
TOMIYAMA M., IKEBUKURO K., SHIOTANI M., SODE K., TAMIYA E., KARUBE I. Structure and Role of Genes (hydA, hydE) in Escherichia coli K12 Involved in Hydrogenase Activity. 1990. 2. 25-25
Patents (2):
有機物質の測定法およびその装置
プロモーター
Books (2):
Metabolic engineering approaches for the improvement of bacterial hydrogen production based on Escherichia coli mixed acid fermentation
BioHydrogenII (Elsevier Science) 2001
Effect of Hydrogenase3 over-expression and disruption of nitrate reductase on fermentative hydrogen production in Escherichia coli.. A metabolic engeneering approach
BioHydrogen (Prenum Press) 1998
Professional career (1):
DSc
Association Membership(s) (4):
日本農芸化学会
, American Society for Microbiology
, 日本生物工学会
, 日本分子生物学会
