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- Kiuchi, K., , Shidara, H., Iwatani, Y., and Ogawa, H. (2023) Motor state changes escape behavior of crickets. iScience, 26:107345.
- Lu, A., Fukutomi, M., Shidara, H. and Ogawa, H. (2023) Persistence of auditory modulation of wind-induced escape behavior in crickets. Front. Physiol., 14:1153913.
- Yamao, H., Shidara, H.., and Ogawa.H. (2022) Central projections of cercal giant interneurons in the adult field cricket, Gryllus bimaculatus. J. Comp. Neurol. cne.25336
- Sato, N.., Shidara, H.., and Ogawa.H. (2022) Roles of neural communication between the brain and thoracic ganglia in the selection and regulation of the cricket escape behavior. J. Insect Physiol. 139: 104381
- Ifere, N.O., Sato, N.., Shidara, H.., and Ogawa.H. (2022) Spatial perception mediated by insect antennal mechanosensory system. J. Exp. Biol. 225(4) jeb243276.
- Sato, N.., Shidara, H.., and Ogawa.H. (2022) Action selection based on multiple-stimulus aspects in wind-elicited escape behavior of crickets. Heliyon 8(1) e08800.
- Ando, N.., Shidara, H.., Hommaru, N.., and Ogawa.H. (2021) Auditory Virtual Reality for Insect Phonotaxis. J. Robot. Mechatron. 33: 494-504.
- Hommaru, N.., Shidara,H.., Ando, N., and Ogawa.H. (2020) Internal state transition to switch behavioral strategies in cricket phonotaxis. J. Exp. Biol. 223(22) jeb229732..
- Maekawa, T., Ohara, K., Zhang, Y., Fukutomi, M., Matsumoto, S., Matsumura, K., Shidara, H., Yamazaki, S.J., Fujisawa, R., Ide, K., Nagaya, N., Yamazaki, K., Koike, S., Miyatake, T., Kimura, D.K., Ogawa, H., Takahashi, S., Yoda, K. (2020) Deep learning-assisted comparative analysis of animal trajectories with DeepHL. Nat. Comm. 11(1) 5316 - 5316..
- Sato, N., Shidara,H. and Ogawa.H. (2019) Trade-off between motor performance and behavioural flexibility in the action selection of cricket escape behaviour. Sci. Rep. 9(1) 18112 - 18112..
- Sakuma, T., Nishi, K., Kishimoto, K., Nakagawa, K., Karasuyama, M., Umezu, Y., Kajioka, S., Yamazaki, S.J., Kimura, K.D., Matsumoto, S., Yoda, K., Fukutomi, M., Shidara, H., Ogawa, H., Takeuchi, .I.(2019) Efficient learning algorithm for sparse subsequence pattern-based classification and applications to comparative animal trajectory data analysis. Advanced Robotics 33(3-4) 134-152.
- Iwatani, Y., Ogawa, H., Shidara, H., Sakura, M., Sato, T., Hojo, M.K., Honma, A., Tsurui, K. (2019) Markerless visual servo control of a servosphere for behavior observation of a variety of wandering animals. Advanced Robotics 33(3-4) 183-194.
- Someya, M., Ogawa, H. (2018) Multisensory enhancement of burst activity in an insect auditory neuron. J. Neurophysiol. 120(1) 139-148.
- Fukutomi, M., Ogawa, H. (2017) Crickets alter wind-elicited escape strategies depending on acoustic context. Sci. Rep. 7(1) 15158
- Sato, N., Shidara, H., Ogawa, H. (2017) Post-molting development of wind-elicited escape behavior in the cricket. J. Insect Physiol. 103: 36-46.
- Fukutomi, M., Someya, M. and Ogawa, H. (2015) Auditory modulation of wind-elicited walking behavior in the cricket, Gryllus bimaculatus. J. Exp. Biol., 218:3968-3977.
- Ogawa, H. and Mitani, R. (2015) Spatial dynamics of action potentials estimated by dendritic Ca2+ signals in insect projection neurons. BBRC, 467:185-190.
- Ogawa, H. and Oka, K. (2015) Direction-specific adaptation in neuronal and behavioral responses of an insect mechanosensory system. J. Neurosci. 35:11644-11655.
- Ogawa, H. and Kajita, Y. (2015) Ca2+ imaging of cricket protocerebrum responses to air current stimulation. Neurosci. Lett. 581: 282-286
- Shimoi, T., Mizutani, K., Kojima, D., Kitamura, Y., Hotta, K., Ogawa, H. and Oka K. (2014) Identification of oscillatory firing neurons associated with locomotion in theearthworm through synapse imaging. Neurosci. 19: 149-158.
- Oe M., and Ogawa, H. (2013) Neural basis of stimulus-angle-dependent motor control of wind-elicited walking behavior in the cricket Gryllus bimaculatus. PLOS ONE 8: e80184.
- Matsumoto, S. C., Shidara, H., Matsuda, K., Nakamura, T., Mito, T., Matsumoto, Y., Oka, K. and Ogawa, H. (2013) Targeted gene delivery in the cricket brain, using in vivo electroporation. J. Insect Physiol., 59: 1235-1241.
- Ogawa, H., Kawakami, Z. and Yamaguchi, T. (2011) Proprioceptors involved in stinging response of the honeybee, Apis mellifera. J. Insect Physiol. 57: 1358-1367
- Ogawa, H., Kagaya, K., Saito, M. and Yamaguchi, T. (2011) Neural mechanism for generating and switching motor patterns of rhythmic movements of ovipo.sitor valves in the cricket. J. Insect Physiol. 57: 326-338
- Suzuki, M., Kimura, T., Ogawa, H., Hotta, K. and Oka, K. (2011) Chromatophore Activity during Natural Pattern Expression by the Squid Sepioteuthis lessoniana: Contributions of Miniature Oscillation. PLoS ONE 6: e18244
- Baba, Y., Tsukada, A. and Ogawa, H. (2010) Sexual Dimorphism in Shape and Distribution of GABA-Like Immuno-Reactive Neurons in Cricket Terminal Abdominal Ganglion.@Zool. Sci. 27: 506-513
- Suzuki, M., Kimura, T., Ogawa, H., Hotta, K. and Oka, K. (2009) FMRFamide elicits chromatophore expansion and retraction depending on its type anddevelopment in the squid, Sepioteuthis lessoniana. Invert Neurosci. 9: 185-193
- Ogawa, H., Cummins, G. I., Jacobs, G. A. and Oka, K. (2008) Dendritic design implements algorism for extraction of sensory information. J. Neurosci. 28: 4592-4603
- Aonuma, H., Kitamura, Y., Niwa, K., Ogawa, H. and Oka, K. (2008) Nitric oxide-cyclic guanosine monophosphate signaling in the local cirtcuit of the cricket abdominal nervous system. Neurosci. 157: 749-761
- Ogawa, H., Cummins, G. I., Jacobs, G. A. and Miller, J. P. (2006) Visualization of ensemble activity patterns of mechanosensory afferents in the cricket cercal sensory system with calcium imaging. J. Neurobiol. 66: 293-307
- Homma, K., Kitamura, Y., Ogawa, H. and Oka, K. (2006) Serotonin induces the increase in intracellular Ca2+ that enhances neurite outgrowth in PC12 cells via activation of 5-HT3 receptors and voltage-gated calcium channels. J. Neurosci. Res. 84: 316-325
- Kubota, T., Shindo, Y., Tokuno, K., Komatsu, H., Ogawa, H., Kudo, S., Kitamura, Y., Suzuki, K., Oka, K. (2005) Mitochondria are intracellular magnesium stores: Investigation by simultaneous fluorescent imagings in PC12 cells. Biochimica et Biophysica Acta. 1744: 19-28
- Watanabe, H., Takaya, T., Ogawa, H., Kitamura, Y. and Oka, K. (2005) Influence of mRNA and protein synthesis inhibitors on the long-term memory acquisition of classically conditioned earthworms. Neurobiol. Learning & Memory 43: 151-157
- Ogawa, H., Baba, Y. and Oka, K. (2004) Directional sensitivity of dendritic calcium responses to wind stimuli in cricket giant interneurons. Neurosci. Lett. 358: 185-188
- Mizutani, K., Shimoi, T., Ogawa, H., Kitamura, Y. and Oka, K. (2004) Modulation of motor patterns by sensory feedback during earthworm locomotion. Neurosci. Res.48: 457-462
- Kubota, T., Tokuno, K., Nakagawa, J., Kitamura, Y., Ogawa, H., Suzuki, Y., Suzuki, K. and Oka, K. (2003) Na+/Mg2+ Transporter Acts as a Mg2+ Buffering Mechanism in PC12 cells. Biochem. Biophys. Res. Commun. 303: 332-336
- Kitamura, H., Ogawa, H. and Oka, K. (2003) Real-time measurement of nitric oxide using a bio-imaging and an electrochemical technique. TALANTA 61: 717-724
- Mizutani, K., Shimoi, T., Kitamura, T., Ogawa, H. and Oka, K. (2003) Identification of two types of synaptic activity in the earthworm nervous system during locomotion. Neurosci.121: 473-478
- Ogawa, H., Baba, Y. and Oka, K. (2002) Direction of action potential propagation regulates calcium increases in distal dendrites of the cricket giant interneurons. J. Neurobiol. 53: 44 -56
- Ogawa, H., Baba, Y. and Oka, K. (2002) Spike-triggered dendritic calcium transients depend on synaptic activity in the cricket giant interneurons. J. Neurobiol. 50: 234-244
- Mizutani, K., Ogawa, H., Saito, J. and Oka, K. (2002) Fictive locomotion induced by octopamine in the earthworm. J. Exp. Biol. 205: 265-271
- Ogawa, H., Baba, Y. and Oka, K. (2001) Dendritic calcium accumulation regulates wind sensitivity via short-term depression at cercal sensory-to-giant interneuron synapses in the cricket. J. Neurobiol. 46: 301-313
- Kitamura, Y., Naganoma, Y., Horita, H., Tsuji, N., Shimizu, R., Ogawa, H. and Oka, K. (2001) Visualization of nitric oxide signaling pathway in the earthworm ventral nerve cord. Neurosci. Res. 40: 175-181
- Kitamura, Y., Naganoma, Y., Horita, H., Ogawa, H. and Oka, K. (2001) Serotonin-induced nitric oxide production in the ventral nerve cord of the earthworm, Eisenia fetida. Neurosci. Res. 41: 129-134
- Ogawa, H., Baba, Y. and Oka, K. (2000) Spike-dependent calcium influx in dendrites of the cricket giant interneuron. J. Neurobiol. 44: 45-56
- Kitamura, Y., Uzawa, T., Oka, K., Komai, Y., Ogawa, H., Takizawa, N., Kobayashi, H. and Tanishita, K. (2000) Microcoaxial electrode for in vivo nitric oxide measurement. Analytical chemistry 72: 2957-2962
- Kobayashi, S., Ogawa, H., Fujito, Y. and Ito, E. (2000) Nitric oxide suppresses fictive feeding response in Lymnaea stagnalis. Neurosci. Lett. 285: 209-212
- Kobayashi, S., Sadamoto, H., Ogawa, H., Kitamura, Y., Oka, K., Tanishita, K. and Ito, E. (2000) Nitric oxide generation around buccal ganglia accompanying feeding behavior in the pond snail, Lymnaea stagnalis. Neurosci. Res. 38: 27-34
- Kojima, S., Ogawa, H., Kouuchi, T., Nidaira, T., Urano, A. and Ito, E. (2000) Neuron-independent Ca2+ signaling in glial cells of snail's brain. Neurosci. 100: 893-900
- Ogawa, H., Baba, Y. and Oka, K. (1999) Dendritic Ca2+ transient increase evoked by wind stimulus in the cricket giant interneuron. Neurosci. Lett. 275: 61-64
- Shimizu, R., Oka, K., Ogawa, H., Suzuki, K., Saito, J., Mizutani, K. and Tanishita, K. (1999) Optical monitoring of the neural activity evoked by mechanical stimulation in the earthworm nervous system with a fluorescent dye, FM1-43. Neurosci. Lett. 268: 159-162
- Ogawa, H., Baba, Y. and Oka, K. (1996) Dendritic Ca2+ response in cercal sensory interneurons of the cricket, Gryllus bimaculatus. Neurosci. Lett. 219: 21-24
- Ogawa, H. and Oka, K. (1996) Physiological basis of the earthworm ventral nerve cord. I. Heterogeneity of cellular mechanisms underlying calcium mobilization. Bioimages 4: 137-147
- Oka, K. and Ogawa, H. (1996) Physiological basis of the earthworm ventral nerve cord. II. Glutamate receptor subtypes on the median giant fiber. Bioimages 4: 149-156
- Ogawa, H., Kawakami, Z. and Yamaguchi, T. (1995) Motor pattern of the stinging response in the honeybee, Apis mellifera. J. Exp. Biol. 198: 39-47
- Ogawa, H., Oka, K. and Fujita, S. (1994) Calcium wave propagation in the giant axon of the earthworm. Neurosci. Lett. 179: 45-49
- Oka, K., Ogawa, H. and Fujita, S. (1994) Glutamate-induced depolarization in earthworm ventral nerve cord. Neurosci. Lett. 179: 41-44