The Role of Proprioceptive Signals in the Crayfish Escape Circuit
スポンサーリンク
概要
- 論文の詳細を見る
A single proprioceptor in the tailfan of the crayfish, Procambarus clarkii(Girard), in nervated by only twelve sensory neurones encodes the position and the direction and velocity of movement of the exopodite relative to the endopodite. Most of the sensory neurones project to, and terminate in, the terminal abdominal ganglion where they form a map in which projection position is based on the velocity threshold of the sensory neurone. The sensory signals from this small proprioceptor have significant effects on the neuronal circuits mediating escape swimming and activate the lateral giant interneurone directly through monosynaptic connections and indirectly via a disynaptic pathway involving a number of interposed intersegmental interneurones. The lateral giant intemeurones are activated through electrical synapses whereas the ascending interneurones in the disynaptic pathway are excited through both electrical and chemical synapses. The proprioceptive signals are also responsible for evoking widespread presynaptic inhibition of exteroceptive afferents that reduces the efficacy of their outputs. This pathway therefore reduces afference caused by water movement as aresult of an animals own escape movements. Movements of the chordotonal organ also lead to a delayed input to giant motor neurone that is timed to occur during flexion movements of the abdomen. Thus not only do the proprioceptive signals activate the escape pathway leading to a tail-flip, but they also protect it from unwanted sensory input, and may also prevent depression of its neuromuscular synapses.
- 社団法人日本動物学会の論文
- 2000-12-10
著者
-
青沼 仁志
北大・電子研・神経情報
-
Newland P
School Of Biological Sciences University Of Southampton
-
Nagayama Toshiki
Animal Behaviour and Intelligence, Division of Biological Sciences, Graduate School of Science, Hokk
-
Newland Philip
Division of Cell Sciences, School of Biological Sciences, University of Southampton, Bassett Crescen
-
Aonuma Hitoshi
Division of Cell Sciences, School of Biological Sciences, University of Southampton, Bassett Crescen
-
Nagayama T
Division Of Biological Sciences Graduate School Of Science Hokkaido University
-
Nagayama Toshiki
Animal Behaviour And Intelligence Division Of Biological Sciences Graduate School Of Science Hokkaid
-
青沼 仁志
北海道大学電子科学研究所
関連論文
- 社会的適応行動から学ぶ情報共有システムの構築 : ミツバチの8の字ダンスを対象として
- 社会的適応行動の動的モデリングと工学応用 : コオロギの喧嘩行動を対象として
- 1A2-4 昆虫の適応的行動選択を実現する神経回路モデルに関する研究 : NO/cGMPカスケードによる適応的行動選択のモデル化(1A2 OS:移動知1)
- 1P216 コオロギ気流応答性介在ニューロンの応答性に対するNOによる調節(神経回路・脳の情報処理,ポスター発表,第45回日本生物物理学会年会)
- 3P263 コオロギ最終腹部神経節における一酸化窒素(NO)産生機構と生理機能(神経回路・脳の情報処理))
- 培養心筋細胞内Ca^振動の細胞間同期とそのメカニズムの解析
- 座談会 : 生物の社会適応機能の解明とその工学的応用
- 移動知と社会適応
- 1A2-3 コオロギ群の喧嘩行動を規範とした移動ロボット群の採餌行動(1A2 OS:移動知1)
- コオロギ集団における多様的振るまいのモデル化
- ミミズ腹髄神経系におけるNO-cGMP経路の神経活動に与える効果
- 2P368 Acetylcholine-induced calcium-NO signaling in the cricket terminal abdominal ganglion(44. Neuro-biophysics,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- 振動子網を用いた行動遷移メカニズムの考察(生命リズムと振動子ネットワーク)
- H203 クロコオロギ(Gryllus bimaculatus)雄の喧嘩行動誘起フェロモン
- Terminal Projection of Descending Interneurones Controlling Uropod Movements of the Crayfish Procambarus clarkii Girard
- NEURAL NETWORKS CONTROLLING SQUID CHROMATOPHORE ORGANS IN LOCAL SKIN AREA(Physiology,Abstracts of papers presented at the 76^ Annual Meeting of the Zoological Society of Japan)
- コオロギの世界から発達障害・社交障害をみる (特集 新たな臨床・研究発展に向けて--異分野との連携を探る)
- Effects of Nitric Oxide on Proprioceptive Signaling(Neurobiology)
- The Role of Proprioceptive Signals in the Crayfish Escape Circuit
- PHYSIOLOGICAL ROLE OF NO-cGMP SIGNALING IN EARTHWORM NERVOUS SYSTEM(Physiology,Abstracts of papers presented at the 74^ Annual Meeting of the Zoological Society of Japan)
- NO/cGMP SIGNALING PATHWAY IN THE TERMINAL ABDOMINAL GANGLION OF THE CRICKET(Physiology,Abstracts of papers presented at the 76^ Annual Meeting of the Zoological Society of Japan)
- 2A1-B10 クロコオロギの行動選択機構のモデリングに関する研究 : 内部状態レベルによる行動選択に関する考察
- 2P2-I18 コオロギの適応的行動選択モデルに関する研究 : 触角感度調節機構のモデル化(移動知)
- 2A1-A09 適応的行動選択を実現する昆虫の神経回路モデルに関する研究 : 闘争行動の開始・終了に関するモデルの提案(移動知)
- 2P2-I13 振動子網を用いた昆虫規範ロボット群の挙動分化(移動知)
- DISTRIBUTION OF NO-GENERATING NEURONS AND TARGET NEURONS IN THE CRICKET BRAIN GRYLLUS BIMACULATUS(Physiology)(Proceedings of the Seventy-Third Annual Meeting of the Zoological Society of Japan)
- NITRIC OXIDE (NO)-cGMP SIGNALING INDUCES LONG-TERM MEMORY IN THE CRIKET GRYLLUS BIMACULATUS(Physiology)(Proceedings of the Seventy-Third Annual Meeting of the Zoological Society of Japan)
- INHIBITION OF NITRIC OXIDE (NO)-cGMP PATHWAY IMPAIRS MEDIUM-TERM MEMORY IN THE CRICKET Gryllus bimaculatus.(Physiology)(Proceeding of the Seventy-Third Annual Meeting of the Zoological Society of Japan)
- Output Effect of Identified Ascending Interneurons upon the Abdominal Postural System in the Crayfish Procambarus Clarkii : Girard
- 2A1-A01 クロコオロギの行動選択機構のモデリングに関する研究 : 行動選択モデルの掃引作業への応用の検討
- Frontiers Crustacean Neurobiology に参加して
- ケンブリッジ(ICN)を振り返って
- 日本比較生理生化学会第27回大会シンポジウムBをおえて
- 昆虫に見る行動の動的選択機構 (特集 移動知:能動的な移動機能がもたらす創発的知能)
- 昆虫の行動決定にかかわる神経機構
- 相互作用効果ダイナミクスを持つ行動切り替えモデルによるマルチ・エージェント掃引作業
- イギリスから帰国して
- 1C1-6 マルチエージェント強化学習における割引率の社会適応的調節 : 生物に見られる社会的階層構造の自己組織化と神経修飾物質(機械学習)