Ritsumeikan University Researcher Database
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OCHI ANNA
Department / Course
College of Life Sciences Department of Biotechnology
Title / Position
Assistant Professor
Academic conference presentation
1.
Acquired lactate-polymerizing activity in polyhydroxyalkanoate (PHA) synthase by site-directed mutagenesis (15th International Biotechnology Symposium and Exhibition)
2.
Biogenic extracellular selenium particles are wrapped within membrane vesicles in
Escherichia coli
(The 8th International Symposium on Metallomics)
3.
Characterization of TrmJ [Transfer RNA (Cm32/Um32) Methyltransferase] Ortholog (TK1970) from a Hyperthermophilic Archaeon Thermococcus kodakarensis (23rd tRNA workshop Portugal 2010)
4.
Chemical probing of tRNA-protein interface in TrmH–AdoMet-artificial tRNA ternary complex (tRNA workshop 2007)
5.
Complex Formations between Artificial RNA-DNA Chimera Nucleic Acids and RNA Modification Enzymes (2007 International Symposium on Micro-NanoMechatronics and Human Science)
6.
Engineering of class I polyhydroxyalkanoate synthase from
Ralstonia eutropha
for acquiring lactate-polymerizing ability (13th International Symposium on Biopolymers ISBP2012)
7.
Excretion of biogenic selenium nanoparticles depends on outer membrane integrity in
Escherichia coli
(Goldschmidt 2021)
8.
Flexible recognition of methylation target site, guannosine at position 18 in tRNA by tRNA (Gm18) methyltransferase (23rd tRNA workshop Portugal 2010)
9.
Functional analysis of a novel molybdenum-dependent methionine sulfoxide reductase from
Bacillus
species (The 8th International Symposium on Metallomics)
10.
Hetero subunit interaction and RNA recognition of yeast tRNA (m7G46) methyltransferase synthesized in a wheat germ cell-free translation system. (5th International Symposium on Nucleic Acids Chemistry)
11.
How does the folate dependent tRNA (m5U54) methyltransferase (TrmFO) recognize substrate tRNA? (25th tRNA conference)
12.
Hydroxyl Radical Probing of tRNA (Gm18) methyltransferase [TrmH] -AdoMet-artificial tRNA ternary complex (5th International Symposium on Nucleic Acids Chemistry)
13.
Multi-site substrate recognition mechanism of
Aquifex aeolicus
Trm1 (23rd tRNA workshop Portugal 2010)
14.
Multisite specific tRNA methyltransferase Trm1 from a hyper-thermophilic eubacterium, Aquifex aeolicus. (Thermophiles 2011)
15.
Negative control of Gm18, m5s2U54 and m1A58 modifications by pseudouridine55 modification in
Thermus thermophilus
tRNAs: the tRNA modification network in extreme thermophile (24th tRNA workshop)
16.
Novel pathway for assimilation of trimethylselenonium in soil microorganisms (The 8th International Symposium on Metallomics)
17.
Regulation of tRNA modification network by pseudouridine 55 in Thermus thermophilus. (16th Annual Meeting of RNA Society (RNA 2011Kyoto))
18.
Research for substrate tRNA recognition mechanism of eubacterial tRNA (m1A58) methyltransferase (TrmI)
19.
Roles of RecA in growth and round-body formation of
Bacillus subtilis
exposed to selenite (The 8th International Symposium on Metallomics)
20.
Substrate tRNA recognition mechanism of eubacterial tRNA (m1A58) methyltransferase (TrmI) (The 38th International Symposium on Nucleic Acids Chemistry)
21.
Substrate tRNA recognition mechanism of eubacterial tRNA (m1A58) methyltransferase (TrmI).
22.
Topological knot tRNA methyltransferase (TrmH) discriminates substrate tRNA from non-substrate tRNA by a multistep recognition mechanism. (25th tRNA conference)
23.
Transfer RNA Methyltransferases from a Hyperthermophilic Eubacterium,
Aquifex aeolicus
(23rd tRNA workshop Portugal 2010)
24.
Transfer RNA recognition mechanism of multi-site specific tRNA methyltransferase (Trm1) from Aquifex aeolicus (16th Annual Meeting of RNA Society (RNA 2011Kyoto))
25.
Transfer RNA recognition mechanism of Thermus thermophilus folate/FAD-dependent tRNA methyltransferase (TrmFO) (9th Extremophiles 2012)
26.
Yeast tRNA (m7G46) methyltransferase which contains two protein subunits (Trm8 and Trm82) synthesized in a wheat germ cell-free translation system. (Protein Island Matsuyama International Symposium 2008)
27.
2023/03/06
Formation of extracellular selenium nanoparticles by Escherichia coli requires integrity of membrane structure and normal membrane vesicle formation