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    Education

    • วท.บ.(จุลชีววิทยา), จุฬาลงกรณ์มหาวิทยาลัย , ไทย, 2525
    • วท.ม.(จุลชีววิทยา), มหาวิทยาลัยมหิดล , ไทย, 2528
    • D.Agr.(Biological Sciences ), Hiroshima University , ญี่ปุ่น, 2533

    Expertise Cloud

    Acetobacter pasteurianus aspS gene16S rDNA16S rRNA gene16S rRNA gene sequence16S rRNA gene sequences16S rRNAgene sequences16S-23S rRNA gene ITS sequencesAABAcetaldehydeAcetic acidacetic acid bacteriaAcetic acid bacteria - Acetobacter pasteurianus - Quinoprotein alcohol dehydrogenases - Acetic acid fermentation Acetic acid bacteria ? Gluconobacter ? Glyceric acid ? Heterologous expression ? Membrane-bound alcohol dehydrogenaseAcetic acid bacteria ? Gluconobacter oxydans ? Enzymatic engineering ? Dehydroquinate dehydratase ? 3-Dehydroshikimate ? Subcellular localizationacetic acid bacteriumAcetic acid diffusionAcetic acid fermentationAcetic acid productionsAcetic acid resistanceAcetobacterAcetobacter pasteurianusAcetobacter Pasteurianus Sku1108Acetobacter strainsAcetobacter suratthanensis sp. novAcetobacter syzygiiAcetobacter thailandicus sp novAcetobacter xylinumacid bacteriaAcinetobacter baylyiacyl-CoA dehydrogenaseadaptationadapted strainAdaptive evolutionadhS disruptantadhS geneAgricultureAir streamalcoholAlcohol dehydrogenaseAlphaproteobacteriaAmino acidsantimicrobial resistanceArticleaspartyl-tRNA synthetaseATP-binding domainBacillusBacterialBacterial celluloseBacterial cellulose productionbacterial genomebacterial growthbacterial nanocelluloseBiodieselbiofilmBionanocompositecoconut waterComparative genome analysiscomplete genome sequencecontrolled studyConversion yieldcost benefit analysisCost effectivenesscost effectiveness analysisCulture conditionsCytochrome cdehydrationdevelopment and agingdisadvantaged studentsDonghicola mangrovi sp. noveconomicsEncoding (symbols)EnvironmentEthanolFermentationgene mutationGenesgeneticsGenomegroEL gene sequenceshigh temperaturehigh temperature fermentationKomagataeibacterKomagataeibacter oboediensKomagataeibacter xylinuslow-nutrient adaptationmangrove forestmetabolismmutationnonhumanpHThermal adaptationThermotolerancethermotolerant acetic acid bacteriaการหมักที่อุณหภูมิสูงนาโนเซลลูโลสจากแบคทีเรียแบคทีเรียกรดน้ำส้มทนร้อนแบคทีเรียนาโนเซลลูโลสฟิล์มชีวภาพวัสดุผสมนาโนชีวภาพ

    Interest

    Molecular Biology , genetic engineering of bacteria

    Resource

    • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
    • จำนวนเครื่องมือวิจัย 0 ชิ้น

    งานวิจัยในรอบ 5 ปี

    Project

    งานวิจัยที่อยู่ระหว่างการดำเนินการ
    • ทุนใน 8 โครงการ (หัวหน้าโครงการ 2 โครงการ, ที่ปรึกษาโครงการ 1 โครงการ, ผู้ร่วมวิจัย 7 โครงการ)
    • ทุนนอก 0 โครงการ
    งานวิจัยที่เสร็จสิ้นแล้ว
    • ทุนใน 9 โครงการ (หัวหน้าโครงการ 4 โครงการ, ที่ปรึกษาโครงการ 2 โครงการ, ผู้ร่วมวิจัย 3 โครงการ)
    • ทุนนอก 9 โครงการ (หัวหน้าโครงการ 7 โครงการ, ผู้ร่วมวิจัย 2 โครงการ)

    แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

    Output

    • บทความ 37 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 32 เรื่อง, นำเสนอในการประชุม/สัมมนา 5 เรื่อง)
    • ทรัพย์สินทางปัญญา 1 เรื่อง (สิทธิบัตร 1 เรื่อง)

    แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

    Outcome

    • การนำผลงานไปใช้ประโยชน์ 4 เรื่อง (เชิงวิชาการ 4 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

    รางวัลที่ได้รับ

    Award

    • รางวัลที่ได้รับ 1 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 1 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 0 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 0 เรื่อง)

    นักวิจัยที่มีผลงานงานร่วมกันมากที่สุด 10 คนแรก

    Person Relation


    Scopus h-index

    #Document titleAuthorsYearSourceCited by
    1Morphology, genetic diversity, temperature tolerance and toxicity of Cylindrospermopsis raciborskii (Nostocales, Cyanobacteria) strains from Thailand and JapanChonudomkul D., Yongmanitchai W., Theeragool G., Kawachi M., Kasai F., Kaya K., Watanabe M.2004FEMS Microbiology Ecology
    48(3),pp. 345-355
    140
    2Development of thermotolerant acetic acid bacteria useful for vinegar fermentation at higher temperaturesSaeki A., Theeragool G., Matsushita K., Toyama H., Lotong N., Adachi O.1997Bioscience, Biotechnology and Biochemistry
    61(1),pp. 138-145
    93
    3Quinoprotein Alcohol Dehydrogenase Is Involved in Catabolic Acetate Production, while NAD-Dependent Alcohol Dehydrogenase in Ethanol Assimilation in Acetobacter pasteurianus SKU1108Chinnawirotpisan P., Theeragool G., Limtong S., Toyama H., Adachi O., Matsushita K.2003Journal of Bioscience and Bioengineering
    96(6),pp. 564-571
    54
    4Membrane-bound sugar alcohol dehydrogenase in acetic acid bacteria catalyzes L-ribulose formation and NAD-dependent ribitol dehydrogenase is independent of the oxidative fermentationAdachi O., Fujii Y., Ano Y., Moonmangmee D., Moonmangmee D., Toyama H., Shinagawa E., Theeragool G., Lotong N., Matsushita K.2001Bioscience, Biotechnology and Biochemistry
    65(1),pp. 115-125
    53
    5Acetic acid fermentation of acetobacter pasteurianus: Relationship between acetic acid resistance and pellicle polysaccharide formationKanchanarach W., Theeragool G., Inoue T., Yakushi T., Adachi O., Matsushita K.2010Bioscience, Biotechnology and Biochemistry
    74(8),pp. 1591-1597
    53
    6Adaptive mutation of Acetobacter pasteurianus SKU1108 enhances acetic acid fermentation ability at high temperatureMatsutani M., Nishikura M., Saichana N., Saichana N., Hatano T., Masud-Tippayasak U., Theergool G., Yakushi T., Matsushita K.2013Journal of Biotechnology
    165(2),pp. 109-119
    53
    7Lipase activity and gene cloning of Acinetobacter calcoaceticus LP009Dharmsthiti S., Pratuangdejkul J., Theeragool G., Luchai S.1998Journal of General and Applied Microbiology
    44(2),pp. 139-145
    50
    8Microbiological aspects of acetate oxidation by acetic acid bacteria, unfavorable phenomena in vinegar fermentationSaeki A., Taniguchi M., Matsushita K., Toyama H., Theeragool G., Lotong N., Adachi O.1997Bioscience, Biotechnology and Biochemistry
    61(2),pp. 317-323
    45
    9Isolation and characterization of thermotolerant gluconobacter strains catalyzing oxidative fermentation at higher temperaturesAdachi O., Ano Y., Shinagawa E., Toyama H., Theeragool G., Lotong N., Matsushita K.2000Bioscience, Biotechnology and Biochemistry
    64(11),pp. 2306-2315
    44
    10Characterization of thermotolerant Acetobacter pasteurianus strains and their quinoprotein alcohol dehydrogenasesKanchanarach W., Theeragool G., Yakushi T., Toyama H., Adachi O., Matsushita K.2010Applied Microbiology and Biotechnology
    85(3),pp. 741-751
    37
    11Purification and characterization of a novel polysaccharide involved in the pellicle produced by a thermotolerant acetobacter strainMoonmangmee S., Toyama H., Adachi O., Theeragool G., Theeragool G., Lotong N., Lotong N., Matsushita K.2002Bioscience, Biotechnology and Biochemistry
    66(4),pp. 777-783
    31
    12Enzymes Responsible for Acetate Oxidation by Acetic Acid BacteriaSaeki A., Matsushita K., Takeno S., Taniguchi M., Toyama H., Theeragool G., Lotong N., Adachi O.1999Bioscience, Biotechnology and Biochemistry
    63(12),pp. 2102-2109
    27
    13L-erythrulose production by oxidative fermentation is catalyzed by PQQ-containing membrane-bound dehydrogenaseMoonmangmee D., Adachi O., Shinagawa E., Toyama H., Theeragool G., Lotong N., Matsushita K.2002Bioscience, Biotechnology and Biochemistry
    66(2),pp. 307-318
    23
    14Crystallization and Properties of NADPH-Dependent L-Sorbose Reductase from Gluconobacter melanogenus IFO 3294Adachi O., Ano Y., Moonmangmee D., Shinagawa E., Toyama H., Theeragool G., Lotong N., Matsushita K.1999Bioscience, Biotechnology and Biochemistry
    63(12),pp. 2137-2143
    20
    15Bacillus subtilis spoVE gene is transcribed by σ(E)-associated RNA polymeraseMiyao A., Theeragool G., Takeuchi M., Kobayashi Y.1993Journal of Bacteriology
    175(13),pp. 4081-4086
    20
    16Purification and characterization of membrane-bound quinoprotein cyclic alcohol dehydrogenase from Gluconobacter frateurii CHM 9Moonmangmee D., Moonmangmee D., Fujii Y., Toyama H., Theeragool G., Lotong N., Matsushita K., Adachi O.2001Bioscience, Biotechnology and Biochemistry
    65(12),pp. 2763-2772
    19
    17Purification and Characterization of Two NAD-Dependent Alcohol Dehydrogenases (ADHs) Induced in the Quinoprotein ADH-Deficient Mutant of Acetobacter pasteurianus SKU1108Chinnawirotpisan P., Matsushita K., Toyama H., Adachi O., Limtong S., Theeragool G.2003Bioscience, Biotechnology and Biochemistry
    67(5),pp. 958-965
    18
    18Crystallization and properties of nad-dependent d-sorbitol dehydrogenase from gluconobacter suboxydans IFO 3257Adachi O., Toyama H., Theeragool G., Lotong N., Matsushita K.1999Bioscience, Biotechnology and Biochemistry
    63(9),pp. 1589-1595
    17
    19A novel type of formaldehyde-oxidizing enzyme from the membrane of Acetobacter sp. SKU 14Shinagawa E., Toyama H., Matsushita K., Tuitemwong P., Theeragool G., Adachi O.2006Bioscience, Biotechnology and Biochemistry
    70(4),pp. 850-857
    17
    20Role of a membrane-bound aldehyde dehydrogenase complex AldFGH in acetic acid fermentation with Acetobacter pasteurianus SKU1108Yakushi T., Fukunari S., Kodama T., Matsutani M., Nina S., Kataoka N., Theeragool G., Matsushita K.2018Applied Microbiology and Biotechnology
    102(10),pp. 4549-4561
    14
    21Enhanced ultrafine nanofibril biosynthesis of bacterial nanocellulose using a low-cost material by the adapted strain of Komagataeibacter xylinus MSKU 12Naloka K., Matsushita K., Theeragool G.2020International Journal of Biological Macromolecules
    150,pp. 1113-1120
    14
    22In Vitro Thermal and Ethanol Adaptations to Improve Vinegar Fermentation at High Temperature of Komagataeibacter oboediens MSKU 3Taweecheep P., Naloka K., Matsutani M., Yakushi T., Matsushita K., Theeragool G.2019Applied Biochemistry and Biotechnology
    189(1),pp. 144-159
    12
    23Cloning and functional analysis of adhS gene encoding quinoprotein alcohol dehydrogenase subunit III from Acetobacter pasteurianus SKU1108Masud U., Matsushita K., Theeragool G.2010International Journal of Food Microbiology
    138(1-2),pp. 39-49
    12
    24Complete genome sequencing and comparative genomic analysis of the thermotolerant acetic acid bacterium, Acetobacter pasteurianus SKU1108, provide a new insight into thermotoleranceMatsutani M., Hirakawa H., Hiraoka E., Theeragool G., Yakushi T., Matsushita K.2016Microbes and Environments
    31(4),pp. 395-400
    11
    25Superfine bacterial nanocellulose produced by reverse mutations in the bcsC gene during adaptive breeding of Komagataeibacter oboediensTaweecheep P., Naloka K., Matsutani M., Yakushi T., Matsushita K., Theeragool G.2019Carbohydrate Polymers
    226
    11
    26Molecular taxonomy and characterization of thermotolerant komagataeibacter species for bacterial nanocellulose production at high temperaturesNaloka K., Yukphan P., Matsushita K., Theeragool G.2018Chiang Mai Journal of Science
    45(4),pp. 1610-1622
    9
    27TEMPO-oxidized cellulose nanofibril film from nano-structured bacterial cellulose derived from the recently developed thermotolerant Komagataeibacter xylinus C30 and Komagataeibacter oboediens R37–9 strainsChitbanyong K., Pisutpiched S., Khantayanuwong S., Theeragool G., Puangsin B.2020International Journal of Biological Macromolecules
    163,pp. 1908-1914
    9
    28Acetobacter suratthanensis sp. nov., an acetic acid bacterium isolated in ThailandPitiwittayakul N., Theeragool G., Yukphan P., Chaipitakchonlatarn W., Malimas T., Muramatsu Y., Tanasupawat S., Nakagawa Y., Yamada Y., Yamada Y., Yamada Y.2016Annals of Microbiology
    66(3),pp. 1157-1166
    9
    29In vivo expression of the Bacillus subtilis spoVE geneTheeragool G., Miyao A., Yamada K., Sato T., Kobayashi Y.1993Journal of Bacteriology
    175(13),pp. 4071-4080
    9
    30Sequence of the Bacillus subtilis homolog of the Escherichia coli cell-division gene murGAkio M., Atsuko Y., Tsutomu S., Tatsuo Y., Gunjana T., Yasuo K.1992Gene
    118(1),pp. 147-148
    8
    31Purification and characterization of membrane-bound malate dehydrogenase from acetobacter sp. SKU 14Shinagawa E., Fujishima T., Moonmangmee D., Theeragool G., Toyama H., Matsushita K., Adachi O.2002Bioscience, Biotechnology and Biochemistry
    66(2),pp. 298-306
    7
    32Formaldehyde elimination with formaldehyde and formate oxidase in membrane of acetic acid bacteriaShinagawa E., Toyama H., Matsushita K., Tuitemwong P., Theeragool G., Adachi O.2008Journal of Bioscience and Bioengineering
    105(3),pp. 292-295
    7
    33Acetobacter thailandicus sp. nov., for a strain isolated in ThailandPitiwittayakul N., Yukphan P., Chaipitakchonlatarn W., Yamada Y., Yamada Y., Yamada Y., Theeragool G.2015Annals of Microbiology
    65(4),pp. 1855-1863
    6
    34Molecular cloning and characterization of two inducible NAD +-adh genes encoding NAD +-dependent alcohol dehydrogenases from Acetobacter pasteurianus SKU1108Masud U., Matsushita K., Theeragool G.2011Journal of Bioscience and Bioengineering
    112(5),pp. 422-431
    6
    35Revised nucleotide sequence of the sporulation gene spoVE from Bacillus subtilisSato T., Theeragool G., Theeragool G., Yamamoto T., Yamamoto T., Okamoto M., Okamoto M., Kobayashi Y.1990Nucleic Acids Research
    18(13),pp. 4021
    6
    36Influence of Acetobacter pasteurianus SKU1108 aspS gene expression on Escherichia coli morphologyTasanapak K., Tasanapak K., Masud-Tippayasak U., Matsushita K., Yongmanitchai W., Theeragool G.2013Journal of Microbiology
    51(6),pp. 783-790
    5
    37Characterization of multiple-antimicrobial resistant Salmonella isolated from pig farms in ThailandSanpong P., Theeragool G., Wajjwalku W., Amavisit P.2010Kasetsart Journal - Natural Science
    44(4),pp. 643-651
    5
    38Mutated fabG gene encoding oxidoreductase enhances the cost-effective fermentation of jasmine rice vinegar in the adapted strain of Acetobacter pasteurianus SKU1108Phathanathavorn T., Naloka K., Matsutani M., Yakushi T., Matsushita K., Theeragool G.2019Journal of Bioscience and Bioengineering
    127(6),pp. 690-697
    5
    39Komagataeibacter diospyri sp. Nov., a novel species of thermotolerant bacterial nanocellulose-producing bacteriumNaloka K., Yukphan P., Matsutani M., Matsushita K., Theeragool G.2020International Journal of Systematic and Evolutionary Microbiology
    70(1),pp. 251-258
    4
    40Disruption of the groEL gene revealed a physiological role for chaperonin in the thermotolerant acetic acid bacterium, acetobacter pasteurianus SKU1108Theeragool G., Pitiwittayakul N., Pitiwittayakul N., Matsutani M., Matsushita K.2018Chiang Mai Journal of Science
    45(4),pp. 1623-1633
    3
    41Enhanced growth and ethanol oxidation by overexpressed caiA gene encoding acyl-CoA dehydrogenase in komagataeibacter medellinensis NBRC 3288Konjanda P., Yakushi T., Matsushita K., Theeragool G.2019Chiang Mai Journal of Science
    46(2),pp. 196-206
    3
    42Thermal adaptation of acetic acid bacteria for practical high-temperature vinegar fermentationMatsumoto N., Osumi N., Matsutani M., Matsutani M., Phathanathavorn T., Kataoka N., Theeragool G., Yakushi T., Shiraishi Y., Matsushita K.2021Bioscience, biotechnology, and biochemistry
    85(5),pp. 1243-1251
    2
    43Relocation of dehydroquinate dehydratase to the periplasmic space improves dehydroshikimate production with Gluconobacter oxydans strain NBRC3244Nakamura K., Nagaki K., Matsutani M., Adachi O., Kataoka N., Ano Y., Theeragool G., Theeragool G., Matsushita K., Yakushi T.2021Applied Microbiology and Biotechnology
    105(14-15),pp. 5883-5894
    2
    44Heterologous expression of membrane-bound alcohol dehydrogenase–encoding genes for glyceric acid production using Gluconobacter sp. CHM43 and its derivativesHabe H., Sato Y., Tani H., Matsutani M., Tanioka K., Theeragool G., Theeragool G., Matsushita K., Yakushi T.2021Applied Microbiology and Biotechnology
    105(18),pp. 6749-6758
    2
    45Immunogenicity of Leptospira interrogans outer membrane vesicles in a hamster modelKunjantarachot A., Kunjantarachot A., Yan W., McDonough S.P., Prapong S., Theeragool G., Chang Y.F.2014Journal of Vaccines and Vaccination
    5(4)
    2
    46A functionally critical single nucleotide polymorphism in the gene encoding the membrane-bound alcohol dehydrogenase found in ethanol oxidation-deficient Gluconobacter thailandicusCharoenyingcharoen P., Matsutani M., Yakushi T., Theeragool G., Yukphan P., Matsushita K.2015Gene
    567(2),pp. 201-207
    2
    47Identification of acetic acid bacteria isolated in Thailand and assigned to the genus Acetobacter by groEL gene sequence analysisPitiwittayakul N., Yukphan P., Sintuprapa W., Yamada Y., Yamada Y., Yamada Y., Theeragool G.2015Annals of Microbiology
    65(3),pp. 1557-1564
    2
    48Molecular taxonomy of Acetobacter syzygii SKU19 and characterization of its acetic acid adapted strainsSintuprapa W., Theeragool G., Yongmanitchai W., Srifah-Huehne P., Matsushita K.2008Kasetsart Journal - Natural Science
    42(4),pp. 701-714
    0
    49Genetic concepts of disadvantaged high school students in ThailandRatanaroutai T., Theeragool G., Yutakom N.2006Kasetsart Journal - Social Sciences
    27(2),pp. 234-245
    0
    50Enhancement of Superfine Bacterial Nanocellulose Production in Coconut Water at High Temperature by the Adapted Strains of Komagataeibacter oboediens MSKU 3Sukkasem T., Sukkasem T., Tippayasak U., Taweecheep P., Chonudomkul D., Theeragool G.2022Chiang Mai Journal of Science
    49(4),pp. 999-1012
    0
    51Periplasmic dehydroshikimate dehydratase combined with quinate oxidation in Gluconobacter oxydans for protocatechuate productionNagaki K., Kataoka N., Theeragool G., Theeragool G., Matsutani M., Ano Y., Matsushita K., Yakushi T.2022Bioscience, Biotechnology and Biochemistry
    86(8),pp. 1151-1159
    0
    52Donghicola mangrovi sp. Nov., a member of the family rhodobacteraceae isolated from mangrove forest in thailandCharoenyingcharoen P., Kim J.S., Theeragool G., Lee K.C., Yukphan P., Lee J.S., Lee J.S.2021International Journal of Systematic and Evolutionary Microbiology
    71(1),pp. 1-7
    0