研究業績 (抜粋)
植物の環境ストレス耐性/応答の分子生理学・バイオテクノロジー
Molecular physiology and biotechnology on plant abiotic stress response/tolerance
Heterogeneous Expression of Arabidopsis Subclass II of SNF1-Related Kinase 2 Improves Drought Tolerance via Stomatal Regulation in PoplarHorvat B et al. (2024) Life (Basel) 14: 161
A statistical modeling approach based on the small-scale field trial and meteorological data for preliminary prediction of the impact of low temperature on Eucalyptus globulus trees
Chubachi T, Oguchi T et al. (2023) Scientific Reports 13: 10138
Transgenic poplar trees overexpressing AtGolS2, a stress-responsive galactinol synthase gene derived from Arabidopsis thaliana, improved drought tolerance in a confined field.
Shikakura Y, Oguchi T et al. (2022) Transgenic Research 31: 579-591
Development and evaluation of novel salt-tolerant Eucalyptus trees by molecular breeding using an RNA-binding-protein gene derived from common ice plant (Mesembryanthemum crystallinum L.).
Tran NHT, Oguchi T et al. (2019) Plant Biotechnology Journal 17: 801-811
Transcriptional enhancement of a bacterial choline oxidase A gene by an HSP terminator improves the glycine betaine production and salinity stress tolerance of Eucalyptus camaldulensis trees.
Tran NHT, Oguchi T et al. (2018) Plant Biotechnology 35: 215-224
木質改変によるリグノセルロースバイオマスの利活用性向上
Woody property engineering for improving lignocellulosic biomass utilization
Expression of a fungal laccase fused with a bacterial cellulose-binding module improves the enzymatic saccharification efficiency of lignocellulose biomass in transgenic Arabidopsis thaliana.Iiyoshi R, Oguchi T et al. (2017) Transgenic Research 26: 753-761
Application of fungal laccase fused with cellulose-binding domain to develop low-lignin rice plants.
Furukawa T et al. (2013) Journal of Bioscience and Bioengineering 116: 616-619
バイテク植物の環境リスク評価研究
Evironmental risk assessment on plant biotechnology
Evaluation of potential impacts on biodiversity of the salt-tolerant transgenic Eucalyptus camaldulensis harboring an RNA chaperonic RNA-Binding-Protein gene derived from common ice plant.Tran NHT, Oguchi T et al. (2021) Transgenic Research 30: 23-34
Environmental biosafety assessment on transgenic Oncidium orchid modified by RNA interference of Phytoene Synthase genes.
Ko SS et al. (2019) Plant Biotechnology 36: 181-185
Environmental risk assessment of impacts of transgenic Eucalyptus camaldulensis events highly expressing bacterial Choline Oxidase A gene.
Tran NHT, Oguchi T et al. (2018) Plant Biotechnology 35: 393-397
A multi-year assessment of the environmental impact of transgenic Eucalyptus trees harboring a bacterial choline oxidase gene on biomass, precinct vegetation and the microbial community.
Oguchi T et al. (2014) Transgenic Research 23: 767-777
Genetically engineered trees for plantation forests: Key considerations for environmental risk assessment.
Häggman H et al. (2013) Plant Biotechnology Journal 11: 785-798
バイテク植物の食品安全性評価研究とGM検知技術
Food safety regulatory science on plant biotechnology and GM food detection method
Discontinuous Translocation of a Luciferase Protein beyond Graft Junction in Tobacco.Miyahara T et al. (2024) Food Safety (Advance online publication)
Omics Profiles of Non-GM Tubers from Transgrafted Potato with a GM Scion.
Miyahara T et al. (2023) Food Safety 11:1-20
Omics Profiles of Non-transgenic Scion Grafted on Transgenic RdDM Rootstock.
Kodama H et al. (2022) Food Safety 10: 13-31
Effect of Transgenic Rootstock Grafting on the Omics Profiles in Tomato.
Kodama H et al. (2021) Food Safety 9: 32-47
Interlaboratory study of DNA extraction from multiple ground samples, multiplex real-time PCR, and multiplex qualitative PCR for individual kernel detection system of genetically modified maize.
Akiyama H et al. (2011) Journal of AOAC International 94: 1540-1547
Interlaboratory validation of quantitative duplex real-time PCR method for screening analysis of genetically modified maize.
Takabatake R et al. (2011) Food Hygiene and Safety Science 52: 265-269
Development of multiplex PCR method for simultaneous detection of four events of genetically modified maize: DAS-59122-7, MIR604, MON863 and MON88017.
Oguchi T et al. (2010) Food Hygiene and Safety Science 51: 92-100
Simultaneous detection of recombinant DNA segments introduced into genetically modified crops with multiplex ligase chain reaction coupled with multiplex polymerase chain reaction.
Mano J et al. (2009) Journal of Agricultural and Food Chemistry 57: 2640-2464
Development of quantitative duplex real-time PCR method for screening analysis of genetically modified maize.
Oguchi T et al. (2009) Food Hygiene and Safety Science 50: 117-125
Investigation of residual DNAs in sugar from sugar Beet (Beta vulgaris L.).
Oguchi T et al. (2009) Food Hygiene and Safety Science 50: 41-46
Development of event-specific quantitation method for GA21 maize, which is a GM event without CaMV35S promoter.
Oguchi T et al. (2008) Food Hygiene and Safety Science 49: 16-22
Individual detection of genetically modified maize varieties in non-identity-preserved maize samples.
Akiyama H et al. (2008) Journal of Agricultural and Food Chemistry 56: 1977-1983
Development of a multiplex polymerase chain reaction method for simultaneous detection of eight events of genetically modified maize.
Onishi M et al. (2005) Journal of Agricultural and Food Chemistry 53: 9713-9721
その他の植物分子生理学研究
Other plant molecular physiology works
Transformation of Jatropha curcas L. for production of larger seeds and increased amount of biodiesel.Chacuttayapong W et al. (2021) Plant Biotechnology 38: 247-256
The birth of a black rice gene and its local spread by introgression.
Oikawa T et al. (2015) Plant Cell 27: 2401-2414
Charactarization of transcriptional oscillation of an Arabodopsis homolog of PnC401 related to photoperiodic induction of flowering in Pharbitis nil.
Oguchi T et al. (2004) Plant Cell and Physiology 330: 29-37
Genomic structure of a novel Arabidopsis clock-controlled gene, AtC401, which encodes a pentatricopeptide repeat protein.
Oguchi T et al. (2004) Gene 45: 232-235
In vitro phosphorylation of the movement protein of tomato mosaic tobamovirus by a cellular kinase.
Matsushita Y et al. (2000) Journal of General Virology 81: 2095-2102
Molecular identification of two genes of Germin-like protein in Arabidopsis
Sage-Ono K et al. (1998) Gene 45: 232-235
日本語総説等
わが国におけるゲノム編集食品の規制方針決定に係る経緯に関する備忘録小口 (2021) イルシー 148: 38-47
木質改変に向けた遺伝子組換え樹木の開発の現状
小口 (2021) アグリバイオ 5: 34-38
わが国の学術目的での遺伝子組換え植物の第一種使用規定の承認審査の変遷:申請者の視点による評価
小口, 菊池, 渡邉 (2019) イルシー 139: 45-62
第14回 International Symposium on the Biosafety of Genetically Modified Organisms (ISBGMO) 参加報告
大澤, 小口, 津田, 中島, 松下 (2019) イルシー 132: 34-42
ミャンマーにおける遺伝子組換え農産物および植物バイオテクノロジー研究の現状と課題
小口 (2015) 食品衛生学雑誌56: J206-208
メキシコにおける遺伝子組換え食品の安全性審査体および社会需要
小口 (2013) 食品衛生学雑誌54: J413-415
多重PCR法による遺伝子組換えトウモロコシ検知法開発に関する研究
小口 (2011) 食品衛生学雑誌52: J324-327
ERAプロジェクト調査報告
林, 小口 (2020) ERAプロジェクト調査報告集約版 第3巻
林, 小口 (2017) ERAプロジェクト調査報告集約版 第2巻
林, 小口 (2014) ERAプロジェクト調査報告集約版 第1巻
その他については、Google ScholarやTRIOSを参照ください。