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Molecular characteristics of phosphoenolpyruvate: mannose phosphotransferase system in Streptococcus bovis.
Asanuma N, Yoshii T, Hino T. Asanuma N, et al. Among authors: hino t. Curr Microbiol. 2004 Jul;49(1):4-9. doi: 10.1007/s00284-003-4232-0. Curr Microbiol. 2004. PMID: 15297922
Involvement of two-component signal transduction system, ComDE, in the regulation of growth and genetic transformation, in the ruminal bacterium Streptococcus bovis.
Asanuma N, Yoshii T, Kanada K, Yoshizawa K, Arai Y, Ichikawa T, Kawamura A, Hino T. Asanuma N, et al. Among authors: hino t. Anaerobe. 2010 Aug;16(4):405-11. doi: 10.1016/j.anaerobe.2010.05.005. Epub 2010 May 15. Anaerobe. 2010. PMID: 20478389
Molecular properties and transcriptional control of the phosphofructokinase and pyruvate kinase genes in a ruminal bacterium, Streptococcus bovis.
Asanuma N, Kanada K, Hino T. Asanuma N, et al. Among authors: hino t. Anaerobe. 2008 Oct;14(4):237-41. doi: 10.1016/j.anaerobe.2008.05.004. Epub 2008 May 22. Anaerobe. 2008. PMID: 18565772
Properties and role of glyceraldehyde-3-phosphate dehydrogenase in the control of fermentation pattern and growth in a ruminal bacterium, Streptococcus bovis.
Asanuma N, Yoshizawa K, Hino T. Asanuma N, et al. Among authors: hino t. Curr Microbiol. 2009 Apr;58(4):283-7. doi: 10.1007/s00284-008-9326-2. Epub 2008 Nov 25. Curr Microbiol. 2009. PMID: 19034572
Molecular and biochemical characterization of phosphoenolpyruvate carboxykinase in the ruminal bacterium Ruminococcus albus.
Asanuma N, Yoshizawa K, Kanada K, Hino T. Asanuma N, et al. Among authors: hino t. Curr Microbiol. 2009 May;58(5):416-20. doi: 10.1007/s00284-008-9325-3. Epub 2009 Feb 5. Curr Microbiol. 2009. PMID: 19194751
Molecular characterization and significance of phosphoenolpyruvate carboxykinase in a ruminal bacterium, Streptococcus bovis.
Asanuma N, Kanada K, Arai Y, Yoshizawa K, Ichikawa T, Hino T. Asanuma N, et al. Among authors: hino t. J Gen Appl Microbiol. 2010 Apr;56(2):121-7. doi: 10.2323/jgam.56.121. J Gen Appl Microbiol. 2010. PMID: 20513959
Isolation of a novel bacterium, Blautia glucerasei sp. nov., hydrolyzing plant glucosylceramide to ceramide.
Furuya H, Ide Y, Hamamoto M, Asanuma N, Hino T. Furuya H, et al. Among authors: hino t. Arch Microbiol. 2010 May;192(5):365-72. doi: 10.1007/s00203-010-0566-8. Epub 2010 Mar 31. Arch Microbiol. 2010. PMID: 20354843
The novel strain, designated as strain HFTH-1(T), hydrolyzed plant GluCer with a variety of chemical structures, but did not hydrolyze glucosylsphingosine, lactosylceramide, or monosialoganglioside GM(3), indicating that strain HFTH-1(T) produces GluCer-specific glu …
The novel strain, designated as strain HFTH-1(T), hydrolyzed plant GluCer with a variety of chemical structures, but did not hydrolyz …
Presence of NAD+-specific glyceraldehyde-3-phosphate dehydrogenase and CcpA-dependent transcription of its gene in the ruminal bacterium Streptococcus bovis.
Asanuma N, Hino T. Asanuma N, et al. Among authors: hino t. FEMS Microbiol Lett. 2006 Apr;257(1):17-23. doi: 10.1111/j.1574-6968.2006.00111.x. FEMS Microbiol Lett. 2006. PMID: 16553827
Characterization and transcription of the genes involved in butyrate production in Butyrivibrio fibrisolvens type I and II strains.
Asanuma N, Ishiwata M, Yoshii T, Kikuchi M, Nishina Y, Hino T. Asanuma N, et al. Among authors: hino t. Curr Microbiol. 2005 Aug;51(2):91-4. doi: 10.1007/s00284-005-4477-x. Epub 2005 Jun 27. Curr Microbiol. 2005. PMID: 15991056
In a type I strain (ATCC 19171(T)), the genes coding for the enzymes that catalyze the conversion from acetyl-CoA to butyryl-CoA, thl (thiolase), crt (crotonase), hbd (beta-hydroxybutyryl-CoA dehydrogenase), bcd (butyryl-CoA dehydrogenase), etfB (electron transfer flavopro …
In a type I strain (ATCC 19171(T)), the genes coding for the enzymes that catalyze the conversion from acetyl-CoA to butyryl-CoA, thl …
A new strain of Butyrivibrio fibrisolvens that has high ability to isomerize linoleic acid to conjugated linoleic acid.
Fukuda S, Furuya H, Suzuki Y, Asanuma N, Hino T. Fukuda S, et al. Among authors: hino t. J Gen Appl Microbiol. 2005 Apr;51(2):105-13. doi: 10.2323/jgam.51.105. J Gen Appl Microbiol. 2005. PMID: 15942871
However, high CLA reductase (CLA-R) activity resulted in the temporary accumulation of CLA and subsequent conversion to trans-vaccenic acid (t-VA). ...The number of viable cells decreased upon addition of LA/DMSO, but then increased as the CLA decreased upon its conversion …
However, high CLA reductase (CLA-R) activity resulted in the temporary accumulation of CLA and subsequent conversion to trans-vaccenic acid …
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