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| 2000 | Kanzaki R (2000) Investigative study of stimulus-response functions of organisms and their application to micromachines. Micromachine No.30: 22 |
| 1999 | Mishima T and Kanzaki R (1999) Physiology and morphology of olfactory descending
interneurons of the male silkworm moth, Bombyx mori. J Comp Physiol A 184: 143-160 Kuwana Y, Nagasawa S, Shimoyama I and Kanzaki R (1999) Synthesis of silkworm moth's pheromone-oriented behavior by a mobile robot with moth's antennae as pheromone sensors. Biosensors and Bioelectronics 14: 195-202 Steven de Belle J, Kanzaki R (1999) Protocerebral olfactory processing. In "Insect Olfaction" (Ed. Hansson BS), springer, pp. 243-281 Kanzaki R (1999) Insects and micromachine. Micromachine26: 9-10 Kanzaki R (1999) Research on group control and signals transmission in organisms. Micromachine 28: 14 Kanzaki R (1999) Investigation into environmental information processing and the mechanisms of intelligent behavior releases by micro-brain systems. Micromachine No.28: 3-4 |
| 1998 | Mishima T and Kanzaki R (1998) Coordination of flipflopping neural signals
and head turning during pheromone-mediated walking in a male silkworm moth
Bombyx mori. J Comp Physiol A 183: 273-282 Kanzaki R, Mishima T, Takasaki T, Nagasawa S, and Shimoyama I (1998) Motor control by sex pheromone in Bombyx mori. Biochemist 20(4): 34-36 Ai H, Okada K, Hill ES, and Kanzaki R (1998) Spatio-temporal activities in the antennal lobe analyzed by an optical recording method in the male silkworm moth Bombyx mori. Neurosci Lett 258: 135-138 |
| 1996 | Kanzaki R and Mishima T (1996) Pheromone-triggered 'flipflopping' neural signals correlate with activities of neck motor neurons of a male moth, Bombyx mori. Zool Sci 13: 79-87 Kanzaki R (1996) Behavioral and neural basis of instinctive behavior in insects: Odor-source searching strategies without memory and learning. Robotics and Autonomous Systems 18: 33-43 Ariyoshi T and Kanzaki R(1996) Pheromone-triggered electromyograms of 'flight' muscles in a male silkworm moth, Bombyx mori. Int J Wild Silkmoth & Silk 2: 21-25 Ishida H, Hayashi K, Takakusaki M, Nakamoto T, Moriizumi T and Kanzaki R (1996) Odour-source localization system mimicking behaviour of silkworm moth. Sensors and Actuators A 51: 225-230 Okada K, Kanzaki R and Kawachi K(1996) High-speed voltage-sensitive dye imaging of an in vivo insect brain. Neurosci Lett 209: 197-200 Kanzaki R (1996) Coordination of wing motion and walking suggests common control of zigzag motor program in a male silkworm moth. J Comp Physiol A 182: 267-276 Kanzaki R (1996) Pheromone processing in the lateral accessory lobes of the moth brain: flip-flopping signals related to zigzagging upwind walking. In "Pheromone research: new directions" (Eds. Carde RT, Minks AK), Chapman and Hall, New York, pp. 291-303 |
| 1995 | Okada K, Kanzaki R and Kawachi K (1995) Optical recording with voltage-sensitive
dye in an insect brain. In "Nervous Systems and Behavior" (Eds.
Burrows, Matheson, Newland and Schuppe). Proceedings of the 4th International
Congress of Neuroethology, Georg Thieme Verlag Stutgart, New York, pp.
390 Kanzaki R, Ariyoshi T and Fukuda F (1995) Strategies for odor-searching behavior in a silkworm moth, Bombyx mori In "Nervous Systems and Behavior" (Eds. Burrows, Matheson, Newland and Schuppe). Proceedings of the 4th International Congress of Neuroethology, Georg Thieme Verlag Stutgart, New York, pp.392 Mishima T and Kanzaki R (1995) The function of the flipflopping neural activity involved in the pheromone-searching behavior of a male silkworm moth, Bombyx mori. In "Nervous Systems and Behavior" (Eds. Burrows, Matheson, Newland and Schuppe). Proceedings of the 4th International Congress of Neuroethology, Georg Thieme Verlag Stutgart, New York, pp.393 |
| 1994 | Kanzaki R, Ikeda A and Shibuya T (1994) Morphological and physiological properties of pheromone-triggered flipflopping descending interneurons of the male silkworm moth, Bombyx mori. J Comp Physiol A 175: 1-14 Kanzaki R (1994) Olfactory processing pathways of the insect brain. Lateral accessory lobe system in the protocerebrum produces olfactory flip-flopping signals in Bombyx mori. Olfaction and Taste 11: 831-834 Kanzaki R and Ikeda A (1994) Morphology and physiology of pheromone-triggered flip-flop descending interneurons of the male silkworm moth, Bombyx mori. Olfaction and Taste 11: 851 |
| 1992 | Kanzaki R, Sugi N and Shibuya T (1992) Self-generated zigzag turning of
Bombyx mori males during pheromone-mediated upwind walking. Zool Sci 9: 515-527 Kanzaki R and Shibuya T (1992) Long-lasting excitation of protocerebral bilateral neurons in the pheromone-processing pathways of the male moth Bombyx mori. Brain Res 587: 211-215 Kanzaki R and Shibuya T (1992) Personal-computer-based processing technique for analyzing insect mating behavior in response to sex pheromone odor. Sensors and Materials 4: 1-9 Hildebrand JG, Christensen TA, Arbas EA, Hayashi JH, Homberg U, Kanzaki R and Stengl M (1992) Olfaction in Manduca sexta: Cellular mechanisms of responses to sex pheromone. In "NEUROTOX '91 Molecular Basic of Drug & Pesticide Action" (Ed. Duce IR), Elsevier Applied Science, London and New York, pp.323-338 Kanzaki R and Shibuya T (1992) Olfactory processing pathways of the insect brain. Zool Sci 9: 241-264 Arbas EA, Willis MA and Kanzaki R (1993) Organization of goal-oriented locomotion: Pheromone-modulated flight behavior of moths. In "Biological Neural Networks in Invertebrate Neuroethology and Robotics" (Eds. Randall D. Beer, Roy E. Ritzmann, Thomas McKenna), Academic Press, New York, pp.159-198 |
| 1991 | Kanzaki R, Arbas EA and Hildebrand JG (1991) Physiology and morphology
of protocerebral olfactory neurons in the male moth Manduca sexta. J Comp Physiol A 168: 281-298 Kanzaki R, Arbas EA and Hildebrand JG (1991) Physiology and morphology of descending neurons in pheromone-processing olfactory pathways in the male moth Manduca sexta. J Comp Physiol A 169: 1-14 |
| 1989 | Kanzaki R, Arbas EA, Strausfeld NJ and Hildebrand JG (1989) Physiology
and morphology of projection neurons in the antennal lobe of the male moth
Manduca sexta. J Comp Physiol A 165: 427-453 Kanzaki R, Arbas EA and Hildebrand JG (1989) Morphology and physiology of higher-order neurons in olfactory pathways of the male moth Manduca sexta. In "Neural Mechanisms of Behavior" (Eds. Erber, Menzel, Pfluger and Todt), Georg Thieme Verlag Stuttgart, New York, pp.213 Kanzaki R (1989) Physiology and morphology of higher-order neurons in olfactory pathways of the moth brain: Pheromone-processing neurons in the protocerebrum. In "Neural Mechanisms of Behavior" (Eds. Erber, Menzel, Pfuger and Todt), Georg Thieme Verlag Stutgart, New York, pp.253-254 |
| 1986 | Kanzaki R and Shibuya T (1986) Identification of the deutocerebral neurons responding to the sexual pheromone in the male silkworm moth brain. Zool Sci 3(3): 409-418 Kanzaki R and Shibuya T (1986) Descending protocerebral neurons related to the mating dance of the male silkworm moth. Brain Res 377: 378-382 |
| 1983 | Kanzaki R and Shibuya T (1983) Olfactory neural pathway and sexual pheromone responses in the deutocerebrum of the male silkworm moth, Bombyx mori (Lepidoptera: Bombycidae). Appl Ent Zool 18(1): 131-133 |
| ˜a•¶ŠwpŽ | |
| 2000 | _ú±—º•½ (2000) ©’Ž‚Ì”÷¬”]‚ÌI‚Ý‚È‚Í‚½‚ç‚«D”]‚̉Ȋw 22(3): 297-302 _ú±—º•½ (2000) ©’Ž‚Ì“õ‚¢Œ¹’Tõs“®‚Ì_Œo‹@\DJournal of Aroma Science and Technology Aroma Research 1(3): 2-8 —•_”VA‰ª“cŒö‘¾˜YA_ú±—º•½ (2000) ©’Ž‚Ì”]_ŒoŠˆ“®‚ÌŒõŠw“IŒv‘ªD”äŠr¶—¶‰»Šw 17(4): 215-217 _ú±—º•½ (2000) ¶•¨‚É‚¨‚¯‚éŽhŒƒ‰ž“š‹@”\‚ƃ}ƒCƒNƒƒ}ƒVƒ“‚Ö‚Ì“K—p‚ÉŠÖ‚·‚é’²¸Œ¤‹†Dƒ}ƒCƒNƒƒ}ƒVƒ“ No.30: 22 ‚‹´G’mA’†”ö”VA‘å‘•“¿A”¨‘º—m‘¾˜YA‹e’rœ\‘¾˜YA‰Á‰äŒNF@Œûo“àŒ´‰¹”¶U“®Žq‚ð—p‚¢‚½–³A“ªŽÒ‚Ì”ºƒVƒXƒeƒ€‚ÌŠJ”‚Æ‚»‚ê‚Ì‘ã—pŒ´‰¹‚ðŒûo“àˆ³‚ŧŒä‚·‚鎎‚Ý@‰¹ºŒ¾ŒêˆãŠw41(2):pp. 130-138, 2000 |
| 1999 | _ú±—º•½A‰ºŽRŒM (1999) ƒƒ{ƒbƒg©’Ž‚©‚ç’T‚é”÷¬”] _Œos“®Šw‚ƃƒ{ƒbƒgHŠw‚ÌV‚µ‚¢ŠÖŒW ŽÀŒ±ˆãŠw 17(1): 4-9 _ú±—º•½E—•_”VE‰ª“cŒö‘¾˜YEŒF’JPŽq(1999) ©’Ž‚Ì”]‚É‚¨‚¯‚é“õ‚¢î•ñˆ—‚Æs“®”Œ»D“ú–{–¡‚Æ“õŠw‰ïŽ 6(2):121-137 _ú±—º•½ (1999) ©’Žƒƒ{ƒbƒg‚̘b1DƒCƒ“ƒZƒNƒ^ƒŠƒEƒ€ 36: 114-119 _ú±—º•½ (1999) ©’Žƒƒ{ƒbƒg‚̘b2DƒCƒ“ƒZƒNƒ^ƒŠƒEƒ€ 36: 140-146 _ú±—º•½ (1999) ”÷¬”]ƒVƒXƒeƒ€‚É‚æ‚éŠÂ‹«î•ñˆ—‚Æ’m“Is“®”Œ»‹@\‚̉𖾂ð‚ß‚´‚µ‚ÄDƒ}ƒCƒNƒƒ}ƒVƒ“@No.28, 3-4 _ú±—º•½ (1999) ¶•¨‚ƃ}ƒCƒNƒƒ}ƒVƒ“‚Ìo‰ï‚¢Dƒ}ƒCƒNƒƒ}ƒVƒ“@No. 26 pp. 9-10 _ú±—º•½ (1999) ¶•¨‚É‚¨‚¯‚éŒQ§Œä‚ÆM†“`’B‚ÉŠÖ‚·‚é’²¸Œ¤‹†Dƒ}ƒCƒNƒƒ}ƒVƒ“ No.26: 14 |
| 1998 | ‰ºŽRŒMC_ú±—º•½CŒK–¼–F•F i1998) •ªÍ‚Æ“‡‚É‚æ‚é©’Ž‚Ìs“®”Œ»ƒƒJƒjƒYƒ€‚ÌŒ¤‹† ƒƒ{ƒbƒgHŠw‚Æ_Œos“®Šw‚Æ‚ÌV‚µ‚¢ŠÖŒW “ú–{ƒƒ{ƒbƒgŠw‰ïŽ
16(5): 36-40 —•_”VA‰ª“cŒö‘¾˜YA_ú±—º•½ (1998) ŒõŠw“IŒv‘ª–@‚É‚æ‚é©’Ž‚Ì’†‘å”]‚É‚¨‚¯‚é“õ‚¢î•ñˆ—‚ÌŽž‹óŠÔ“I‰ðÍD“ú–{–¡‚Æ“õŠw‰ïŽ 5(3): 549-552 ‰ºŽRŒMA_ú±—º•½ (1998) ©’ŽŒ^ƒƒ{ƒbƒgAClinical Neuroscience 16(11): 1286-1289 ‰ºŽRŒMA_ú±—º•½ (1998) ©’Ž‚̶‘Ì‹@”\‚ɊoƒCƒIƒ}ƒCƒNƒƒ}ƒVƒ“‚ÌŒ¤‹†DƒuƒŒƒCƒ“ƒeƒNƒmƒjƒ…[ƒX 69: 1-4 ‰ºŽRŒMA_ú±—º•½ (1998) ¶•¨Œ^ƒ}ƒCƒNƒƒ}ƒVƒ“AƒoƒCƒIƒƒJƒjƒYƒ€Šw‰ïŽ 22(4):152-157 |
| 1997 | _ú±—º•½ (1997) ©’Ž‚Ì”]Es“®‹@”\‚ð‹K”Í‚Æ‚µ‚½ƒoƒCƒIƒƒ{ƒbƒgDŽ©“®‰»‹Zp 29(8):
44-49 àF’J’B–¾A_ú±—º•½ (1997) škŠo‚Ì_Œo¶—Šw“IŒ¤‹†-©’Ž‚ÌškŠoŒn‚ÌŒ¤‹†‚ðŽå‚Æ‚µ‚Ä- “ú–{–¡‚Æ“õŠw‰ïŽ (in press) |
| 1996 | _ú±—º•½ (1996) ©’Ž‚Ì”]‚É‚¨‚¯‚é“õ‚¢î•ñ‚̈—‚Æs“®”Œ»D”äŠr¶—¶‰»Šw 13(4):
375-387 _ú±—º•½ (1996) ƒtƒFƒƒ‚ƒ“Œ¹‚ւ̃tƒŠƒbƒvEƒtƒƒbƒvq–@D ˆã—p“dŽq‚ƶ‘ÌHŠw10(11): 11-18 |
| 1995 | _ú±—º•½ (1995) ©’Ž‚Ì”]‚É‚¨‚¯‚é“õ‚¢î•ñˆ—‚Æs“®”Œ»D¶•¨•¨— 35(5):
7-12 _ú±—º•½ (1995) ©’Ž‚Ì“õ‚¢Œ¹’Tõ‚Ìí—ªD“ú–{–¡‚Æ“õŠw‰ïŽ 2(2): 3-4 _ú±—º•½ (1995) ©’Ž‚Ì”]_Œo‹@”\‚ÌHŠw“I‰ž—pDA•¨–h‰u 49(11): 476-480 _ú±—º•½ (1995) ©’Ž‚Ì“õ‚¢Œ¹’Tõs“®Dˆâ“` 49(7): 62-67 _ú±—º•½ (1995) ©’Ž‚̃tƒFƒƒ‚ƒ“Œ¹’Tõ‚̃Aƒ‹ƒSƒŠƒYƒ€‚Æ‚»‚Ì_Œo§ŒäD“õ‚¢‚Ì_Œo‰ÈŠwD‘æ18‰ñ_ŒoŒ¤ƒVƒ“ƒ|ƒWƒEƒ€u‰‰˜^Diàj“Œ‹ž“s_Œo‰ÈŠw‘‡Œ¤‹†Š pp.43-50 _ú±—º•½ (1995) ƒtƒFƒƒ‚ƒ“‚É‚æ‚é©’Žs“®§Œä‚Ì_Œo‹@\‚ÌŒ¤‹† II ©’Ž‚Ì“õ‚¢Œ¹’Tõs“®‚̧ŒäƒƒJƒjƒYƒ€D Rep Chem Mat R&D Found 10: 111-116 |
| 1994 | _ú±—º•½EŽO“ˆ—³–íE—L‹g—²_(1994) ©’Ž‚Ì“õ‚¢Œ¹’Tõs“®‚̧ŒäƒƒJƒjƒYƒ€D“ú–{–¡‚Æ“õŠw‰ïŽ 1(3):
432-435 _ú±—º•½ (1994) ©’Ž‚̶Bs“®‚ð§Œä‚·‚邵‚‚ÝD‰»Šw‚ƶ•¨ 32(11): 726-734 _ú±—º•½ (1994) ƒtƒFƒƒ‚ƒ“‚É‚æ‚és“®ŒŸ’èD¶‘̂̉Ȋw 45(5): 584-585 _ú±—º•½ (1994) ©’Ž‚Ì”]_ŒoŒn‚É‚¨‚¯‚é“õ‚¢î•ñˆ—‚Æs“®”Œ»‹@\‚ÌŒ¤‹†D“ú–{–¡‚Æ“õŠw‰ïŽ 1(3): 142-145 _ú±—º•½ (1994) ƒtƒFƒƒ‚ƒ“‚É‚æ‚é©’Žs“®§Œä‚Ì_Œo‹@\‚ÌŒ¤‹†DRep Chem Mat R&D Found 9: 83-88 |
| 1993 | _ú±—º•½ (1993) «ƒtƒFƒƒ‚ƒ“Œ¹‚Ö‚Ì—Y‰é‚Ì’èˆÊs“®DA•¨–h‰u 47(11): 493-498 |
| 1992 | _ú±—º•½A’r“c“NAa’J’B–¾ (1992) ©’Ž‚ÌškŠo–{”\s“®‚ð§Œä‚·‚éƒtƒŠƒbƒvEƒtƒƒbƒv‰ºs«‰îÝ_Œo‚ɂ‚¢‚ÄD–¡‚Æ“õ‚̃Vƒ“ƒ|ƒWƒEƒ€˜_•¶W 26: 249-252 |
| 1991 | _ú±—º•½Aa’J’B–¾AArbas EA, Hildebrand JG (1991) ©’Ž‚Ì”]‚Ì‚ŽŸ’†•‚É‚¨‚¯‚é“õ‚¢î•ñˆ—F‰ºs«_Œo‚Ì«ƒtƒFƒƒ‚ƒ“‰ž“š‚Æ‚»‚Ìî•ñŒo˜HD
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| 1985 | _ú±—º•½ (1986) ©’Ž‚Ì”]“à‚É‚¨‚¯‚髃tƒFƒƒ‚ƒ“î•ñˆ—DA•¨–h‰u 40(5):
234-239 _ú±—º•½Aa’J’B–¾ (1986) škŠo‚É‚æ‚é–{”\s“®”Œ»‚Ì_Œo‹@\‚ÉŠÖ‚·‚錤‹† - —YƒJƒCƒRƒK‘O‘å”]‚É‚¨‚¯‚髃tƒFƒƒ‚ƒ“î•ñˆ— -D’}”g‘åŠw–{”\“Á•ÊƒvƒƒWƒFƒNƒgŒ¤‹†‘gD•ñW 3: 31-39 |
| 1984 | _ú±—º•½Aa’J’B–¾ (1984) —YƒJƒCƒRƒK‚Ì”z‹ôs“®Žž‚̃LƒmƒR‘̃jƒ…[ƒƒ“‚Ì“õ‰ž“š‚Æ‚»‚Ì“¯’èD–¡‚Æ“õ‚̃Vƒ“ƒ|ƒWƒEƒ€˜_•¶W 18: 1-4 _ú±—º•½Aa’J’B–¾ (1984) škŠo‚É‚æ‚é–{”\s“®”Œ»‚Ì_Œo‹@\‚ÉŠÖ‚·‚錤‹† - —YƒJƒCƒRƒK’†‘å”]‚É‚¨‚¯‚髃tƒFƒƒ‚ƒ“î•ñˆ—‹@\ -D’}”g‘åŠw–{”\“Á•ÊƒvƒƒWƒFƒNƒgŒ¤‹†‘gD•ñW 2: 37-46 |
| 1983 | a’J’B–¾A_ú±—º•½A¼èŽ¡Aˆä”Z“à‡AŠâŠÔ–¾•¶A—é–Ø«”V (1983) ©’Ž‚ÌškŠo’†•‚ÉŠÖ‚·‚錤‹† - ’†‘å”]‚Ì\‘¢‚Æ‹@”\ -D–¡‚Æ“õ‚̃Vƒ“ƒ|ƒWƒEƒ€˜_•¶W
17: 1-4 a’J’B–¾Aˆä”_“à‡A_ú±—º•½AŠâŠÔ–¾•¶A—é–Ø«”VA¬—Ñ’¼”ü (1983) škŠo‚É‚æ‚é–{”\s“®”Œ»‹@\‚ÉŠÖ‚·‚錤‹† - ©’Ž‚Ì’†‘å”]‚Ì\‘¢‚ƃjƒ…[ƒƒ“‹@\ -D’}”g‘åŠw–{”\“Á•ÊƒvƒƒWƒFƒNƒgŒ¤‹†‘gD•ñW 1: 21-26 |
| 1981 | _ú±—º•½Aa’J’B–¾ (1981) ƒJƒCƒRƒK’†”]“àškŠoŒo˜H‚Æ“ñŽŸƒjƒ…[ƒƒ“‚É‚¨‚¯‚éƒtƒFƒƒ‚ƒ“‰ž“šD–¡‚Æ“õ‚̃Vƒ“ƒ|ƒWƒEƒ€˜_•¶W 15: 44-47 |