欧文論文リスト

2011

• Spectrally Silent Intermediates during the Photochemical Reactions of Salinibacter Sensory Rhodopsin I.
  Inoue K, Sudo Y, Homma M, & Kandori H.
  J Phys Chem B., 115(15):4500-8 (2011) PubMed
• Direct Observation of the Structural Change of Tyr174 in the Primary Reaction of Sensory Rhodopsin II.
  Mizuno M, Sudo Y, Homma M, & Mizutani Y..
  Biochemistry, 50(15):3170-80 (2011) PubMed
• Spectral tuning in sensory rhodopsin I from Salinibacter ruber.
  Sudo Y, Yuasa Y, Shibata J, Suzuki D, & Homma M.
  J Biol Chem., 286(13):11328-36 (2011) PubMed
• A Microbial Rhodopsin with a Unique Retinal Composition Shows Both Sensory Rhodopsin II and Bacteriorhodopsin-like Properties.
  Sudo Y, Ihara K, Kobayashi S, Suzuki D, Irieda H, Kikukawa T, Kandori H, & Homma M.
  J Biol Chem. 50(15):3170-80 (2011) PubMed
• Conversion of mono-polar to peritrichous flagellation in Vibrio alginolyticus.
  Kojima M, Nishioka N, Kusumoto A, Yagasaki J, Fukuda T, & Homma M.
  Microbiol Immunol 55(2): 76-83. (2011) PubMed
• Zernike Phase Contrast Cryo-electron Tomography of Sodium-driven Flagellar Hook-basal Bodies from Vibrio alginolyticus
  Naoki Hosogi; Hideki Shigematsu; Hiroyuki Terashima; Michio Homma; Kuniaki Nagayama
  Journal of Structural Biology, 173: 67-76 (2011) PubMed

2010

• The flagellar basal-body associated protein, FlgT, essential for a novel ring structure in sodium-driven Vibrio motor
  Terashima, H., Koike, M., Kojima, S. & Homma, M.
  J. Bacteriol., 192(21): 5609-15 (2010) PubMed
• Quantitative Evaluation of Injected Molecules into Phospholipid-coated Micro-droplets for In-situ
  Masahiro Nakajima,Yuta Matsuno,Masaru Kojima,Yohko Tanaka-Takiguchi, Kingo Takiguchi,Kousuke Nogawa,Michio Homma,and Toshio Fukuda
  Journal of Robotics and Mechatronics, 22(5):651-658 (2010)
  
• Nanoindentation methods to measure viscoelastic properties of single cells using sharp, flat, and buckling tips inside ESEM.
  Ahmad MR, Nakajima M, Kojima S, Homma M, Fukuda T.
  IEEE Trans Nanobioscience.9(1):12-23.(2010) PubMed
• Disulfide cross-linking between the stator and the bearing components in the bacterial flagellar motor.
  Hizukuri, Y., Kojima, S.& Homma, M.
  J Biochem. in press (2010) PubMed
• Review: Phototactic and Chemotactic Signal Transduction by Transmembrane Receptors and Transducers in Microorganisms.
  Suzuki, D., Irieda, H., Homma, M., Kawagishi, I. & Sudo, Y.
  Sensors 10(4): 4010-4039. (2010)
• Functional transfer of an essential aspartate for the ion binding site in the stator proteins of the bacterial flagellar motor.
  Terashima, H., Kojima, S. & Homma, M.
  J. Mol. Biol. 397(3): 689-696. (2010) PubMed
• Spectroscopic studies of a sensory rhodopsin I homolog from the archaeon Haloarcula vallismortis.
  Yagasaki, J., Suzuki, D., Ihara, K., Inoue, K., Kikukawa, T., Sakai, M., Fujii, M., Homma, M., Kandori, H. & Sudo, Y.
  Biochemistry, (2009) 48(42): 10136-10145. PubMed
  
• Isolation of basal bodies with C-ring components from the Na⁺-driven flagellar motor of Vibrio alginolyticus.
  Koike, M., Terashima, H., Kojima, S. & Homma, M.
  J. Bacteriol. 192(1): 375-378. (2010) PubMed

2009

• Rotational speed control of Na⁺-driven flagellar motor by dual pipettes.
  Nogawa, K., Kojima, M., Nakajima, M., Kojima, S., Homma, M. & Fukuda, T.
  IEEE Trans Nanobioscience. 8(4):341-348. (2009) PubMed
• Interaction between Na⁺ ion and carboxylates of the PomA-PomB stator unit studied by ATR-FTIR spectroscopy.
  Sudo, Y., Kitade, Y., Furutani, Y., Kojima, M., Kojima, S., Homma, M. & Kandori, H.
  Biochemistry,48(49): 11699-11705. (2009) PubMed
  
• Tributyltin sensitivity of vacuolar-type Na⁺-transporting ATPase from Enterococcus hirae.
  Chardwiriyapreecha, S., Inoue, T., Sugimoto, N., Sekito, T., Yamato, I., Murata, T., Homma, M., & Kakinuma, Y.
  J. Toxicol. Sci. (2009) 34(5): 575-579. PubMed
• Characterization of a signaling complex composed of sensory rhodopsin I and its cognate transducer protein from the eubacterium Salinibacter ruber.
  Sudo, Y., Okada, A., Suzuki, D., Inoue, K., Irieda, H., Sakai, M., Fujii, M., Furutani, Y., Kandori, H., & Homma, M.
  Biochemistry. (2009) 48(42): 10136-10145. PubMed
• Dynamic behavior of giant liposomes at desired osmotic pressures.
  Ohno, M., Hamada, T., Takiguchi, K. & Homma, M.
  Langmuir. (2009) 25(19): 11680-11685. PubMed
• Effects of Chloride Ion Binding on the Photochemical Properties of Salinibacter Sensory Rhodopsin I.
  Suzuki, D., Furutani, Y., Inoue, K., Kikukawa, T., Sakai, M., Fujii, M., Kandori, H., Homma, M. & Sudo, Y.
  J. Mol. Biol. 392(1): 48-62. (2009)
• Mutational analysis of the GTP-binding motif of FlhF which regulates the number and placement of the polar flagellum in Vibrio alginolyticus.
  Kusumoto, A., Nishioka, N., Kojima, S. & Homma, M.
  J. Biochem. 146(5): 643-650. (2009) PubMed
• Stator assembly and activation mechanism of the flagellar motor by the periplasmic region of MotB.
  Kojima, S., Imada, K., Sakuma, M., Sudo, Y., Kojima, C., Minamino, T., Homma, M. & Namba, K.
  Mol. Micro. 73(4): 710-718. (2009)
• Comparative study of the ion flux pathway in stator units of proton- and sodium-driven flagellar motors.
  Sudo, Y., Terashima, H., Abe-Yoshizumi, R., Kojima, S. & Homma, M.
  Biophysics,.5: 45-52. (2009)
• The peptidoglycan-binding (PGB) domain of the Escherichia coli Pal protein can also function as the PGB domain in E. coli flagellar motor protein MotB. J. Biochem.
  Hizukuri, Y., Morton, J.F., Yakushi, T., Kojima, S. & Homma, M.
  146(2):219-229. (2009).
• Sodium-dependent dynamic assembly of membrane complexes in sodium-driven flagellar motors.
  Fukuoka, H., Wada, T., Kojima, S., Ishijima, A. & Homma, M.
  Mol. Microbiol.71(4): 825-835. (2009) pdf

2008

• A photochromic photoreceptor from a eubacterium.
  Suzuki, D., Kitajima-Ihara, T., Furutani, Y., Ihara, K., Kandori, H., Homma, M. & Sudo, Y.
  Commun Integr Biol. 1(2):150-152. (2008) PubMed
• Flagellar motility in bacteria structure and function of flagellar motor.
  Terashima, H., Kojima, S. & Homma, M.
  Int. Rev. Cell. Mol. Biol.270:39-85. Review. (2008) pdf
• Structural Changes of Salinibacter Sensory Rhodopsin I upon Formation of the K and M Photointermediates.
  Suzuki, D., Sudo, Y., Furutani, Y., Takahashi, H., Homma, M. & Kandori, H.
  Biochemistry,47(48): 12750-12759. (2008) pdf
• Cell-free synthesis of the torque-generating membrane proteins, PomA and PomB, of the Na⁺-driven flagellar motor in Vibrio alginolyticus.
  Terashima, H., Abe-Yoshizumi, R., Kojima, S. & Homma, M.
  J. Biochem.144(5):635-642. (2008) pdf
• The Effects of Cell Sizes, Environmental Conditions, and Growth Phases on the Strength of Individual W303 Yeast Cells Inside ESEM. Ahmad, M.R., Nakajima, M., Kojima, S., Homma, M. & Fukuda, T.
  IEEE Transactions on Nanobioscience, 7(3): 185-193. (2008) pdf
• Salinibacter sensory rhodopsin: Sensory rhodopsin I-like protein from a eubacterium.
  Kitajima-Ihara, T., Furutani, Y., Suzuki, D., Ihara, K., Kandori, H., Homma, M. & Sudo, Y.
  J. Biol. Chem.283(35): 23533-23541. (2008) pdf
• Insights into the stator assembly of the Vibrio flagellar motor from the crystal structure of MotY.
  Kojima, S., Shinohara, A., Terashima, H., Yakushi, T., Sakuma, M., Homma, M., Namba, K. & Imada, K.
  Proc. Nat.l Acad. Sci. U S A. 105(22): 7696-7701. (2008) pdf
• Steric Constraint in the Primary Photoproduct of Sensory Rhodopsin II Is a Prerequisite for Light-Signal Transfer to HtrII.
  Ito, M., Sudo, Y., Furutani, Y., Okitsu, T., Wada, A., Homma, M., Spudich, J.L. & Kandori, H.
  Biochemistry, 47(23): 6208-6215. (2008) pdf
• Roles of charged residues in the C-terminal region of PomA, a stator component of the Na⁺-driven flagellar motor.
  Obara, M., Yakushi, T., Kojima, S. & Homma, M.
  J. Bacteriol. 190(10): 3565-3571. (2008) pdf
• Collaboration of FlhF and FlhG to regulate polar-flagella number and localization in Vibrio alginolyticus.
  Kusumoto, A., Shinohara, A., Terashima, H., Kojima, S., Yakushi, T. & Homma, M.
  Microbiology,154(5): 1390-1399. (2008) pdf
• Systematic Cys mutagenesis of Flgl, the flagellar P-ring component of Escherichia coli.
  Hizukuri, Y., Kojima, S., Yakushi, T., Kawagishi, I. & Homma, M.
  Microbiology, 154(3): 810-817. (2008) pdf
• Torque-speed relationships of Na⁺-driven chimeric flagellar motors in Escherichia coli.
  Inoue, Y., Lo, C.J., Fukuoka, H., Takahashi, H., Sowa, Y., Pilizota, T., Wadhams, G.H.,
  Homma, M., Berry, R.M. & Ishijima, A.
  J. Mol. Biol.376(5): 1251-1259. (2008) pdf

2007

• Crystallization and preliminary X-ray analysis of MotY, a stator component of the Vibrio alginolyticus polar flagellar motor.
  Shinohara, A., Sakuma, M., Yakushi, T., Kojima, S., Namba, K., Homma, M. & Imada, K.
  Acta. Cryst. 63(2): 89-92. (2007) pdf
• Visualization of functional rotor proteins of the bacterial flagellar motor in the cell membrane.
  Fukuoka, H., Sowa, Y., Kojima, S., Ishijima, A. & Homma, M.
  J. Mol. Biol.367(3): 692-701. (2007) pdf
• The bidirectional polar and unidirectional lateral flagellar motors of Vibrio alginolyticus are controlled by a single CheY species.
  Kojima, M., Kubo, R., Yakushi, T., Homma, M. & Kawagishi, I.
  Mol. Micro. 64(1): 57-67. (2007) pdf

2006

• The Vibrio motor proteins, MotX and MotY, are associated with the basal body of Na⁺-driven flagella and required for stator formation.
  Terashima, H., Fukuoka, H., Yakushi, T., Kojima, S. & Homma, M.
  Mol. Micro.62(4): 1170-1180. (2006) pdf
• Control of chemotactic signal gain via modulation of a pre-formed receptor array.
  Irieda, H., Homma, M., Homma, M. & Kawagishi, I.
  J. Biol. Chem.281(33): 23880-23886. (2006) pdf
• Roles of the intramolecular disulfide bridge in MotX and MotY, the specific proteins for sodium-driven motors in Vibrio spp.
  Yagasaki, J., Okabe, M., Kurebayashi, R., Yakushi, T. & Homma, M.
  J. Bacteriol.188(14): 5308-5314. (2006) pdf
• Role of the intramolecular disulfide bond in FlgI, the flagellar P-ring component of Escherichia coli.
  Hizukuri, Y., Yakushi T., Kawagishi I. & Homma, M.
  J. Bacteriol.188(12): 4190-4197. (2006) pdf
• Helical distribution of the bacterial chemoreceptor via co-localization with the Sec protein translocation machinery.
  Shiomi, D., Yoshimoto, M., Homma, M. & Kawagishi, I.
  Mol. Micro.60(4): 894-906. (2006) pdf
• Electron cryomicroscopic visualization of PomA/B stator units of the sodium-driven flagellar motor in liposomes.
  Yonekura, K., Yakushi, T., Atsumi, T., Maki-Yonekura, S., Homma, M. & Namba, K.
  J. Mol. Biol.357: 73-81. (2006) pdf
• Roles of charged residues of rotor and stator in flagellar rotation: comparative study using H⁺-driven and N⁺-driven motors in Escherichia coli.
  Yakushi, T., Yang, J., Fukuoka, H., Homma, M. & Blair D. F.
  J. Bacteriol.188(4): 1466-1472. (2006) pdf
• Regulation of polar flagellar number by the flhF and flhG genes in Vibrio alginolyticus.
  Kusumoto, A., Kamisaka, K., Yakushi, T., Terashima, H., Shinohara, A. & Homma, M.
  J. Biochem. (Tokyo) 139(1): 113-121. (2006) pdf

2005

• Only one of the five CheY homologs in Vibrio cholerae directly switches flagellar rotation.
  Hyakutake, A., Homma, M., Austin, M. J., Boin, M. A., Hase, C. C. & Kawagishi, I.
  J. Bacteriol.187(24): 8403-8410. (2005) pdf
• Direct observation of steps in rotation of the bacterial flagellar motor.
  Sowa Y., Rowe, A.D., Leake, M.C., Yakushi, T., Homma, M., Ishijima, A. & Berry, R.M.
  Nature, 437(7060): 916-919. (2005) pdf
• Stabilization of polar localization of a chemoreceptor via its covalent modifications and its communication with a different chemoreceptor.
  Shiomi, D., Banno, S., Homma, M. & Kawagishi, I.
  J. Bacteriol.187(22): 7647-7654. (2005) pdf
• Assembly of motor proteins, PomA and PomB, in the Na⁺-driven stator of the flagellar motor.
  Fukuoka, H., Yakushi, T., Kusumoto, A. & Homma, M.
  J. Mol. Biol.351(4): 707-717. (2005) pdf
• Interactions of MotX with MotY and with the PomA/PomB sodium ion channel complex of the Vibrio alginolyticus polar flagellum.
  Okabe, M., Yakushi, T. & Homma, M.
  J. Biol. Chem. 280(27): 25659-25664. (2005) pdf
• Deletion analysis of the carboxyl-terminal region of the PomB component of the Vibrio alginolyticus polar flagellar motor.
  Yakushi, T., Hattori, N. & Homma, M.
  J. Bacteriol.187(2): 778-784. (2005) pdf

2004

• Concerted effects of amino acid substitutions in conserved charged residues and other residues in the cytoplasmic domain of PomA, a stator component of Na⁺-driven flagella.
  Fukuoka, H., Yakushi, T. & Homma, M.
  J. Bacteriol. 186(20): 6749-6758. (2004) pdf
• Interaction of PomB with the third transmembrane segment of PomA in the Na⁺-driven polar flagellum of Vibrio alginolyticus.
  Yakushi, T., Maki, S. & Homma, M.
  J. Bacteriol. 186(16): 5281-5291. (2004) pdf
• Targeting of the chemotaxis methylesterase/deamidase CheB to the polar receptor-kinase cluster in an Escherichia coli cell.
  Banno, S., Shiomi, D., Homma, M. & Kawagishi, I.
  Mol. Microbiol. 53(4): 1051-1063. (2004) pdf
• Attractant binding alters arrangement of chemoreceptor dimers within its cluster at a cell pole.
  Homma, M., Shiomi, D., Homma, M. & Kawagishi, I.
  Proc. Natl. Acad. Sci. USA, 101(10): 3462-3467. (2004) pdf
• Isolation of Vibrio alginolyticus sodium-driven flagellar motor complex composed of PomA and PomB solubilized by sucrose monocaprate.
  Yakushi, T., Kojima, M. & Homma, M.
  Microbiology,150(4): 911-920. (2004) pdf
• Multimeric structure of the PomA/PomB channel complex in the Na⁺-driven flagellar motor of Vibrio alginolyticus.
  Yorimitsu, T., Kojima, M., Yakukshi, T. & Homma, M.
  J. Biochem. 135(1): 43-51. (2004)

2003

• The conserved charged residues of the C-terminal region of FliG, a rotor component of Na⁺-driven flagellar motor.
  Yorimitsu, T., Mimaki, A., Yakushi, T. & Homma, M.
  J. Mol. Biol.334(3): 567-583. (2003) pdf
• Flagellum-independent trail formation of Escherichia coli on semi-solid agar.
  Fukuoka, H., Homma, M. & Ichihara, S.
  Biosci. Biotechnol. Biochem. 67(8): 1802-1805. (2003) pdf
• Torque-speed relationship of the Na⁺-driven flagellar motor of Vibrio alginolyticus.
  Sowa, Y., Hotta, H., Homma, M. & Ishijima, A.
  J. Mol. Biol.327(5): 1043-1051. (2003) pdf
• Ion-coupling determinants of Na⁺-driven and H⁺-driven flagellar motors.
  Asai, Y., Yakushi, T., Kawagishi, I. & Homma, M.
  J. Mol. Biol.327(2): 453-463. (2003) pdf

2002

• Dual recognition of the bacterial chemoreceptor by chemotaxis-specific domains of the CheR methyltransferase.
  Shiomi, D., Zhulin, I. B., Homma, M. & Kawagishi, I.
  J. Biol. Chem. 277(44): 42325-42333. (2002) pdf
• MotX and MotY, specific components of the sodium-driven flagellar motor, colocalize to the outer membrane in Vibrio alginolyticus.
  Okabe, M., Yakushi, T., Kojima, M. & Homma, M.
  Mol. Microbiol. 46(1): 125-134. (2002) pdf
• Intragenic suppressors of a mutation in the aspartate chemoreceptor gene that abolishes binding of the receptor to methyltransferase.
  Shiomi, D., Homma, M. & Kawagishi, I.
  Microbiology, 148: 3265-3275. (2002) pdf
• The systematic substitutions around the conserved charged residues of the cytoplasmic loop of Na⁺-driven flagellar motor component PomA.
  Yorimitsu, T., Sowa, Y., Ishijima, A., Yakushi, T. & Homma, M.
  J. Mol. Biol. 320(2): 403-413. (2002) pdf
• Sensing of cytoplasmic pH by bacterial chemoreceptors involves the linker region that connects the membrane-spanning and the signal-modulating helices.
  Umemura, T., Matsumoto, Y., Ohnishi, K., Homma, M. & Kawagishi, I.
  J. Biol. Chem.277(2): 1593-1598. (2002) pdf

2001

• Cloning and characterization of motX, a Vibrio alginolyticus sodium-driven flagellar motor gene.
  Okabe, M., Yakushi, T., Asai, Y. & Homma, M.
  J. Biochem. 130(6): 879-884. (2001) pdf
• Na⁺-driven flagellar motor of Vibrio.
  Yorimitsu, T. & Homma, M.
  Biochim Biophys Acta. 1505: 82-93. (2001) pdf

2000

• Intermolecular cross-linking between the periplasmic loop3-4 regions of PomA, a component of the Na⁺-driven flagellar motor of Vibrio alginolyticus.
  Yorimitsu, T., Sato, K., Asai, Y. & Homma, M.
  J. Biol. Chem. 275(40): 31387-31391. (2000) pdf
• Coupling ion specificity of chimeras between H⁺- and Na⁺-driven motor proteins, MotB and PomB, in Vibrio polar flagella.
  Asai, Y., Kawagishi, I., Sockett, R. E. & Homma, M.
  EMBO J.19(14): 3639-3648. (2000) pdf
• Multimeric structure of PomA, a component of the Na⁺-driven polar flagellar motor of Vibrio alginolytiucs.
  Sato, K. & Homma, M.
  J. Biol. Chem. 275(26): 20223-20228. (2000) pdf
• A slow-motilty phenotype caused by substitutions at residue Asp31 in the PomA channel component of a sodium-driven flagellar motor.
  Kojima, S., Shoji, T., Asai, Y., Kawagishi, I. & Homma, M.
  J. Bacteriol. 182(11): 3314-3318. (2000) pdf
• The Epstein-Barr virus pol catalytic subunit physically interacts with the BBLF4-BSLF1-BBLF2/3 complex.
  Fujii, K., Yokoyama, N., Kiyono, T., Kuzushima, K., Homma, M., Nishiyama, Y., Fujita, M. & Tsurumi, T.
  J. Virol.74(6): 2550-2557. (2000)
• Mutational analysis of ligand recognition by tcp, the citrate chemoreceptor of Salmonella enterica serovar typhimurium.
  Iwama, T., Nakao, K. I., Nakazato, H., Yamagata, S., Homma, M. & Kawagishi, I.
  J. Bacteriol.182(5): 1437-1441. (2000) pdf
• The aspartate chemoreceptor Tar is effectively methylated by binding to the methyltransferase mainly through hydrophobic interaction.
  Shiomi, D., Okumura, H., Homma, M. & Kawagishi, I.
  Mol. Microbiol.. 36(1): 132-140. (2000)
• Functional reconstitution of the Na⁺-driven polar flagellar motor component of Vibrio alginolyticus.
  Sato, K. & Homma, M.
  J. Biol. Chem.275: 5718-5722. (2000) pdf
• Characterization of a flagellar sheath component , PF60, and its structural gene in marine Vibrio.
  Furuno, M., Sato, K., Kawagishi, I. & Homma, M.
  J. Biochem. (Tokyo). 127: 29-36. (2000)
• Cysteine-scanning mutagenesis of the periplasmic loop regions of PomA, a putative channel component of the sodium-driven flagellar motor in Vibrio alginolyticus.
  Asai, Y., Syoji, T., Kawagishi, I. & Homma, M.
  J. Bacteriol.182(4): 1001-1007. (2000) pdf

1999

• Random mutagenesis of the pomA gene encoding a putative channel component of the Na⁺-driven polar flagellar motor of Vibrio alginolyticus.
  Kojima, S., Kuroda, M., Kawagishi, I. & Homma, M.
  Microbiology,145: 1759-1767. (1999) pdf
• Hybrid Motor with H⁺-and Na⁺-driven components can rotate Vibrio polar flagella by using sodium ions.
  Asai, Y., Kawagishi, I., Sockett, R. E. & Homma, M.
  J. Bacteriol.181(20): 6332-6338. (1999) pdf
• Conversion of a bacterial warm sensor to a cold sensor by methylation of a single residue in the presence of an attractant.
  Nishiyama, S. I., Umemura, T., Nara, T., Homma, M. & Kawagishi, I.
  Mol Microbiol. 32(2): 357-365. (1999)
• Nishiyama, S., Maruyama, I. N., Homma, M. Kawagishi, I. (1999). Inversion of thermosensing property of the bacterial receptor Tar by mutations in the second transmembrane region. J Mol Biol. 286(5), 1275-84. pdf
• Na⁺-driven flagellar motor resistant to phenamil, an amiloride analog, caused by mutations in putative channel components.
  Kojima, S., Asai, Y., Atsumi, T., Kawagishi, I. & Homma, M.
  J. Mol. Biol. 285(4): 1537-1547. (1999) pdf
• Functional interaction between PomA and PomB, the Na⁺-driven flagellar motor components of Vibrio alginolyticus.
  Yorimitsu, T., Sato, K., Asai, Y., Kawagishi, I. & Homma, M.
  J. Bacteriol. 181(16): 5103-5106. (1999) pdf
• The polar flagellar motor of Vibrio cholerae is driven by an Na⁺motive force.
  Kojima, S., Yamamoto, K., Kawagishi, I. & Homma, M.
  J. Bacteriol. 181: 1927-1930. (1999) pdf
• Suppression by the DNA fragment of the motX promoter region on long flagellar mutants of Vibrio alginolitycus.
  Furuno, M., Nishioka, N., Kawagishi, I. & Homma, M.
  Microbiol. Immunol.43(1): 39-43. (1999)

1998

• Flagellin-containing membrane vesicles excreted from Vibrio alginolyticus mutants lacking a polar-flagellar filament.
  Nishioka, N., Furuno, M., Kawagishi, I. & Homma, M.
  J. Biochem. (Tokyo)123: 1169-1173. (1998)
• Chemotactic adaptation is altered by changes in the carboxy-terminal sequence conserved among the major methyl-accepting chemoreceptors.
  Okumura, H., Nishiyama, S., Sasaki, A., Homma, M. & Kawagishi, I.
  J. Bacteriol. 180: 1862-1868. (1998) pdf
• Intersubunit interaction between transmembrane helices of the bacterial aspartate chemoreceptor homodimer.
  Umemura, T., Tatsuno, I., Shibasaki, M., Homma, M. & Kawagishi, I.
  J. Biol. Chem.273: 30110-30115. (1998) pdf

1997

• Putative channel components for the fast-rotating sodium-driven flagellar motor of a marine bacterium.
  Asai, Y., Kojima, S., Kato, H., Nishioka, N., Kawagishi, I. & Homma, M.
  J. Bacteriol.179: 5104-5110. (1997) pdf
• Putative channel components for the fast-rotating sodium-driven flagellar motor of a marine bacterium.
  Asai, Y., Kojima, S., Kato, H., Nishioka, N., Kawagishi, I. & Homma, M.
  J. Bacteriol.179: 5104-5110. (1997)
• Uncoupling of ligand-binding affinity of the bacterial serine chemoreceptor from methylation- and temperature modulated signaling states.
  Iwama, T., Homma, M. & Kawagishi, I.
  J. Biol. Chem.272: 13810-13815. (1997) pdf
• Cloning of a Vibrio alginolyticus rpoN gene that is required for polar flagellar formation.
  Kawagishi, I., Nakada, M., Nishioka, N. & Homma, M.
  J. Bacteriol.179: 6851-6854. (1997) pdf
• Vibrio alginolyticus mutants resistant to phenamil, a specific inhibitor of the sodium-driven flagellar motor.
  Kojima, S., Atsumi, T., Muramoto, K., Kudo, S., Kawagishi, I. & Homma, M.
  J. Mol. Biol. 265: 310-318. (1997) pdf
• Thermosensing properties of mutant aspartate chemoreceptors with methyl-accepting sites replaced singly or multiply by alanine.
  Nishiyama, S., Nara, T., Homma, M., Imae, Y. & Kawagishi, I.
  J. Bacteriol.179: 6573-6580. (1997) pdf

1996

• Effect of viscosity on swimming by the lateral and polar flagella of Vibrio alginolitycus.
  Atsumi, T., Maekawa, Y., Yamada, T., Kawagishi, I., Imae, Y. & Homma, M.
  J. Bacteriol.178: 5024-5026. (1996) pdf
• Chemotactic responses to an attractant and a repellent by the polar and lateral flagellar systems of Vibrio alginolyticus.
  Homma, M., Oota, H., Kojima, S., Kawagishi, I. & Imae, Y.
  Microbiology,142: 2777-2783. (1996)
• Characterization of the flagellar hook length control protein FliK of Salmonella typhimurium and Escherichia coli.
  Kawagishi, I., Homma, M., Williams, A. & Macnab, R. M.
  J. Bacteriol.178: 2954-2959. (1996) pdf
• The sodium-driven polar flagellar motor of marine Vibrio as the mechanosensor that regulates lateral flagellar expression.
  Kawagishi, I., Imagawa, M., Imae, Y., McCarter, L. & Homma, M.
  Mol. Microbiol. 20: 693-699. (1996)
• Rotational fluctuation of sodium-driven flagellar motor of Vibrio alginolyticus induced by binding of inhibitors.
  Muramoto, K., Magariyama, Y., Homma, M., Kawagishi, I., Sugiyama, S., Imae, Y. & Kudo, S.
  J. Mol. Biol.259: 687-695.(1996) pdf
• Modulation of the thermosensing profile of the Escherichia coli aspartate receptor tar by covalent modification of its methyl-accepting sites.
  Nara, T., Kawagishi, I., Nishiyama, S., Homma, M. & Imae, Y.
  J. Biol. Chem. 271: 17932-17936. (1996) pdf
• Cloning and characterization of motY, a gene coding for a component of the sodium-driven flagellar motor in Vibrio alginolyticus.
  Okunishi, I., Kawagishi, I. & Homma, M.
  J. Bacteriol. 178: 2409-2415. (1996) pdf
• Signaling by the Escherichia coli aspartate chemoreceptor Tar with a single cytoplasmic domain per dimer.
  Tatsuno, I., Homma, M., Oosawa, K. & Kawagishi, I.
  Science,274: 423-425. (1996)

1995

• In vivo sulfhydryl modification of the ligand-binding site of Tsr, the Escherichia coli serine chemoreceptor.
  Iwama, T., Kawagishi, I., Gomi, S., Homma, M. & Imae, Y.
  J. Bacteriol. 177: 2218-2221. (1995) pdf
• Isolation of the polar and lateral flagellum-defective mutants in Vibrio alginolyticus and identification of their flagellar driving energy sources.
  Kawagishi, I., Maekawa, Y., Atsumi, T., Homma, M. & Imae, Y.
  J. Bacteriol.177: 5158-5160. (1995) pdf
• High-speed rotation and speed stability of the sodium-driven flagellar motor in Vibrio alginolyticus.
  Muramoto, K., Kawagishi, I., Kudo, S., Magariyama, Y., Imae, Y. & Homma, M.
  J. Mol. Biol. 251: 50-58. (1995)

1994

• Removal of the periplasmic DNase before electroporation enhances efficiency of transformation in a marine bacterium Vibrio alginolyticus.
  Kawagishi, I., Okunishi, I., Homma, M. & Imae, Y.
  Microbiology, 140: 2355-2361. (1994)
• Transmembrane signaling by the chimeric chemosensory receptors of Escherichis coli Tsr and Tar with heterologous membrane-spanning regions.
  Tatsuno, I., Lee, L., Kawagishi, I., Homma, M. & Imae, Y.
  Mol. Microbiol.14: 755-762. (1994)
• Electrophoretic karyotypes of isolates of Candida albicans from hospitalized patients
  Doi M., Mizuguchi I., Homma M., Tanaka K.
  Journal of Medical and Veterinary Mycology, 32(2):133-140. (1994)
• Electrophoretic karyotypes of Candida yeasts recurrently isolated from single patients.
  Doi M., Mizuguchi I., Homma M., Tanaka K.
  Microbiology and Immunology, 38(1):19-23. (1994)
• Strain relatedness of Candida albicans strains isolated from children with leukemia and their bedside parents.
  Doi M., Homma M., Iwaguchi S.-I., Horibe K., Tanaka K.
  Journal of Clinical Microbiology, 32(9):2253-2259. (1994)
• Diversity of tandemly repetitive sequences due to short periodic repetitions in the chromosomes of Candida albicans.
  Chibana H., Iwaguchi S.-I., Homma M., Chindamporn A., Nakagawa Y., Tanaka K.
  Journal of Bacteriology, 176(13):3851-3858.(1994)

1993

• Induction of extracellular proteinase in Candida albicans.
  Homma M., Chibana H., Tanaka K.
  Journal of General Microbiology, 139(6):1187-1193. (1993)

• Ultrastructure of proteinase-secreting cells of Candida albicans studied by alkaline bismuth staining and immunocytochemistry.
  Akashi T., Homma M., Kanbe T., Tanaka K.
  Journal of General Microbiology, 139(9):2185-2195. (1993)

1992

• The molecular genetics of Candida albicans.
  Lott T.J., Magee P.T., Barton R., Chu W., Kwon-Chung K.J., Grindle S., Homma M., Iwaguchi S., Kelly R., Lasker B.A., Marrinan J., Monk B., Kurtz M.B., Perlin D., Scherer S., Schmidt D., Tanaka K.
  Journal of Medical and Veterinary Mycology, 30(1):77-85. (1992)
• Evaluation of a protease activation mutant of Sendai virus as a potent live vaccine.
  Maru M., Haraguchi M., Sato K., Hotta H., Homma M.
  Veterinary Microbiology, 30(1):1-12. (1992)
  
• Immunoblotting analysis of sera from patients with candidal vaginitis and healthy females.
  Ishiguro A., Homma M., Sukai T., Higashide K., Torii S., Tanaka K.
  Journal of Medical and Veterinary Mycology, 30(4):281-292. (1992)
• Estimation of chromosome number and size by pulsed-field gel electrophoresis (PFGE) in medically important Candida species.
  Doi M., Homma M., Chindamporn A., Tanaka K.
  Journal of General Microbiology, 138(10):2243-2251. (1992)
• Isolation and characterization of a repeated sequence (RPS1) of Candida albicans.
  Iwaguchi S.-I., Homma M., Chibana H., Tanaka K.
  Journal of General Microbiology, 138(9):1893-1900. (1992)
• Detection of intracellular forms of secretory aspartic proteinase in Candida albicans.
  Homma M., Kanbe T., Chibana H., Tanaka K.
  Journal of General Microbiology, 138(3):627-633. (1992)
• Identification of Candida albicans antigens reactive with immunoglobulin E antibody of human sera.
  Ishiguro A., Homma M., Torii S., Tanaka K.
  Infection and Immunity, 60(4):1550-1557. (1992)
• Clonal variation of chromosome size derived from the rDNA cluster region in Candida albicans.
  Iwaguchi S.-I., Homma M., Tanaka K.
  Journal of General Microbiology, 138(6):1177-1184. (1992)

1989

• Distinct antitumor mechanisms of recombinant interleukin-2 on recombinant interleukin-2-activated killer-sensitive and -resistant murine tumors.
  Maekawa R., Kitagawa T., Koizumi K., Sato K., Homma M.
  Journal of Biological Response Modifiers, 8(6):676-690. (1989)
• L-, P-, and M-ring proteins of the flagellar basal body of Salmonella typhimurium: Gene sequences and deduced protein sequences.
  Jones C.J., Homma M., Macnab R.M.
  Journal of Bacteriology, 171(7):3890-3900. (1989)
• Flagellar switch of Salmonella typhimurium: Gene sequences and deduced protein sequences Kihara M., Homma M., Kutsukake K., Macnab R.M.
  Journal of Bacteriology, 171(6):3247-3257. (1989)
• Export of an N-terminal fragment of Escherichia coli flagellin by a flagellum-specific pathway.
  Kuwajima G., Kawagishi I., Homma M., Asaka J.-I., Kondo E., Macnab R.M.
  Proceedings of the National Academy of Sciences of the United States of America, 86(13):4953-4957. (1989)

1988

• Identification and characterization of the products of six region III flagellar genes (flaAII.3 through flaQII) of Salmonella typhimurium.
  Homma M., Iino T., Macnab R.M.
  Journal of Bacteriology, 170(5):2221-2228. (1988)

1987

• Identification of the M-ring protein of the flagellar motor of Salmonella typhimurium.
  Homma M., Aizawa S., Dean G.E., Macnab R.M.
  Proceedings of the National Academy of Sciences of the United States of America, 84(21):7483-7487. (1987)
• Formation of Flagella lacking outer rings by flaM, flaU, and flaY mutants of Escherichia coli. Ohnishi K., Homma M., Kutsukake K., Iino T.
  Journal of Bacteriology, 169(4):1485-1488. (1987)
• Identification of proteins of the outer (L and P) rings of the flagellar basal body of Escherichia coli.
  Jones C.J., Homma M., Macnab R.M.
  Journal of Bacteriology, 169(4):1489-1492. (1987)
• Identification of flagellar hook and basal body gene products (FlaFV, FlaFVI, FlaFVII, and FlaFVIII) in Salmonella typhimurium.
  Homma M., Ohnishi K., Iino T., Macnab R.M.
  Journal of Bacteriology, 169(8):3617-3624. (1987)
• Regions of Salmonella typhimurium flagellin essential for its polymerization and excretion.
  Homma M., Fujita H., Yamaguchi S., Iino T.
  Journal of Bacteriology, 169(1):291-296. (1987)
• The flaFIX gene product of Salmonella typhimurium is a flagellar basal body component with a signal peptide for export.
  Homma M., Komeda Y., Iino T., Macnab R.M.
  Journal of Bacteriology, 169(4):1493-1498. (1987)
• Localization and stoichiometry of hook-associated proteins within Salmonella typhimurium flagella.
  Ikeda T., Homma M., Iino T.
  Journal of Bacteriology, 169(3):1168-1173. (1987)

1986

• In vitro reconstitution of flagellar filaments onto hooks of filamentless mutants of Salmonella typhimurium by addition of hook-associated proteins.
  Homma M., Iino T., Kutsukake K., Yamaguchi S.
  Proceedings of the National Academy of Sciences of the United States of America, 83(16):6169-6173. (1986)

1985

• Excretion of unassembled hook-associated proteins by Salmonella typhimurium.
  Homma M., Iino T.
  Journal of Bacteriology, 164(3):1370-1372. (1985)
• Structural genes for flagellar hook-associated proteins in Salmonella typhimurium.
  Homma M., Kutsukake K., Iino T.
  Journal of Bacteriology, 163(2):464-471. (1985)
• Locations of hook-associated proteins in flagellar structures of Salmonella typhimurium.
  Homma M., Iino T.
  Journal of Bacteriology, 162(1):183-189. (1985)

1984

• Hook-associated proteins essential for flagellar filament formation in Salmonella typhimurium.
  Homma M., Kutsukake K., Iino T., Yamaguchi S.
  Journal of Bacteriology, 157(1):100-108. (1984)
• Excretion of unassembled flagellin by Salmonella typhimurium mutants deficient in hook-associated proteins.
  Homma M., Fujita H., Yamaguchi S., Iino T.
  Journal of Bacteriology, 159(3):1056-1059. (1984)

邦文著作リスト

• 坂野聡美、本間道夫、川岸郁朗（2008)：「蛋白質の細胞内局在と細胞骨格」
  『蛋白質核酸酵素』 53巻 1737-45
• 曽和義幸,　福岡創,　本間道夫 （2007)：「バクテリア超分子ナノべん毛モーターの回転測定」
  『蛋白質核酸酵素』 52 巻 309-316
• 曽和義幸、薬師寿治、本間道夫、石島秋彦 (2006)：「バクテリアべん毛モーターのステップ運動」
  『生物物理』46巻6号 341-344
• 百武晃宏，川岸郁朗，本間道夫（2004）：ビブリオ菌におけるべん毛および走化性関連遺伝子と病原性.　日本細菌学雑誌　59：403-414.
• 岡部真裕子，薬師寿治，本間道夫 (2002): 細菌べん毛． 日本細菌学雑誌　57: 519-536.
• 本間道夫（2000）：べん毛モーター- 細菌の高速タービン -　「シリーズバイオサイエンスの新世紀　第７巻　生体膜のエネルギー装置」（吉田賢右，茂木立志　編）　共立出版（東京）　pp.181-193.
• 立野一郎，川岸郁朗，本間道夫 (1997): 大腸菌化学感覚レセプターの膜を介した情報伝達機構． 日本細菌学雑誌　52: 567-581.
• 小嶋誠司，川岸郁朗，本間道夫 (1996): バクテリアのNa⁺駆動型モーターとべん毛運動． 化学と生物 34: 730-737.
• 本間道夫，川岸郁朗 (1996): 遺伝子産物の精製． 「新　遺伝子操作の基礎技術」（太田美智男　編） 菜根出版（東京） pp. 286-290.
• 本間道夫、岩口伸一、田中健治. (1993) 酵母カンジダ・アルビカンス染色体多型性とそれに関与する反復配列の解析.　（医学微生物の新しい展開： 加藤　編）.　菜根出版
• 本間道夫　(1990)　Candida albicans の菌体外プロテイナーゼ. 細胞 22: 54-57.
• 本間道夫 (1990)　カンジダ酵母の遺伝学的解析への道：ヒトに寄生するCandida albicans を対象にして. Cell Science 6:70-79.
• 本間道夫 (1987)　細菌べん毛繊維形成とフック付随タンパク質. 細胞 19: 317-322.