RT @jlchan: Locomotion is context dependent - @KiehnLab at #MDSCongress @movedisorder Pedunculopontine nucleus (PPN) and cuneiform nucleus…
RT @jlchan: Locomotion is context dependent - @KiehnLab at #MDSCongress @movedisorder Pedunculopontine nucleus (PPN) and cuneiform nucleus…
RT @jlchan: Locomotion is context dependent - @KiehnLab at #MDSCongress @movedisorder Pedunculopontine nucleus (PPN) and cuneiform nucleus…
Locomotion is context dependent - @KiehnLab at #MDSCongress @movedisorder Pedunculopontine nucleus (PPN) and cuneiform nucleus (CnF) may support slow, explorative locomotion and fast, escape locomotion respectively https://t.co/eVVQjhcqaA
Caggiano et al(2018) found that photostimulation of glutamatergic neurons contribute to the control of slower, alternating-gait #locomotion Paper: https://t.co/2ZCTJoNlnQ #gait #kinematics #mice #rats #preclinical #preclinicalresearch #neuroscience #sfn #m
Caggiano et al.(2018) conducted a study to identify circuits that are key in the command midbrain pathways appropriate for selecting #locomotor outputs contingent on behavioral contexts.Full paper: https://t.co/3OS7Dwllwq #behavior #neurons #neuroscience #
Project is building on this super cool work from the Kiehn Lab 🧠 https://t.co/EOwYsAxHvK
After the experimental results (https://t.co/KStVx4Scwv), in collaboration with Drexel University (@jausborn) we have now also a computational model of the mechanisms to control locomotion frequency and gait: https://t.co/nsnsLsvSVP @eLife
Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculopontine nucleus, which act in conjunction to select context-dependent locomotor behaviours -- https://t.co/4bXr6Z32re https://t.co
This blew my mind, optogenetic control of locomotion by Kiehn lab https://t.co/7006bdTPRJ
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
Nature ハイライト:探索行動と逃避行動の脳による制御 | Nature | Nature Research: https://t.co/4O3Lpp5DdY
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @MichalKlichowsk: There are two regions in the brain that act in conjunction to select context-dependent locomotor behaviours #Nature #B…
RT @MichalKlichowsk: There are two regions in the brain that act in conjunction to select context-dependent locomotor behaviours #Nature #B…
There are two regions in the brain that act in conjunction to select context-dependent locomotor behaviours #Nature #Brain #DualTask https://t.co/kcxBQTscTR https://t.co/KAPncFV5pj
Midbrain circuits that set locomotor speed and gait selection https://t.co/e5vurhcGQM
Nature ハイライト:探索行動と逃避行動の脳による制御 | Nature | Nature Research: https://t.co/soq9GszZp2
以前に後輩くんに馬の特定の歩き方ができるTGマウスの研究の話を教えてもらったのですが、動物っていろんな歩き方ができるんだなぁと つねづね。 左右足の同期・非同期を逃避と探索の神経回路で操作するお話。 https://t.co/X4kcv2aSE0
Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculopontine nucleus, which act in conjunction to select context-dependent locomotor behaviours https://t.co/Xn7OEJ9XmF #motor #micro
Nature ハイライト:探索行動と逃避行動の脳による制御 | Nature | Nature Research: https://t.co/Y1DNv5CnWQ
네이처 하이라이트:신체 움직임의 속도와 게이트 선택에 관여하는 중뇌 신경 회로 https://t.co/4D1IUEkaRG
Nature ハイライト:探索行動と逃避行動の脳による制御 https://t.co/9gJfahKh4d #神経科学
Midbrain circuits that set locomotor speed and gait selection https://t.co/JLevnNrag6
Midbrain circuits that set locomotor speed and gait selection https://t.co/Lhw4VWO6LM
Midbrain regions control of speed and gait decisions. Cool paper by Ole Kiehn's group identifying midbrain command regions that give rise to different gait behaviours. https://t.co/cqEBVOCPvb
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculopontine nucleus, which act in conjunction to select context-dependent locomotor behaviours https://t.co/cEjZv0rEY9 https://t.co/vz
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @Interneuron_Dev: Awesome to see the latest paper from Ole & the team; makes the ephys we used back in the day look prehistoric! The exc…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
Two differently-balanced types of gait, controlled by two different types of neurons. Neat observation. "Our results identify two regions in the midbrain that act in conjunction to select context-dependent locomotor behaviours." #Parkinsons #Huntingto
Great use of controls here! https://t.co/5OtAr2UolY
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculopontine nucleus, which act in conjunction to select context-dependent locomotor behaviours https://t.co/dRe6BQdXFY https://t.co/A0
RT @nature: Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculop…
Speed and gait selection in mice are controlled by glutamatergic excitatory neurons in the cuneiform nucleus and the pedunculopontine nucleus, which act in conjunction to select context-dependent locomotor behaviours https://t.co/yTHdFH9STr https://t.co/KH
RT @TodThiele: This paper really clears up much of the "vagueness" surrounding the MLR. https://t.co/EirsVG6qWF
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
Walking and running might seem simple. But it is controlled by very complex neuronal mechanisms in the brain, new research in @nature uncovers. Done in collab. with @karolinskainst https://t.co/sZz77cPgfq https://t.co/hQl5JrB3Mm
RT @SilberbergGilad: Congrats guys! Midbrain circuits that set locomotor speed and gait selection https://t.co/kHxD2k2lta
RT @TodThiele: This paper really clears up much of the "vagueness" surrounding the MLR. https://t.co/EirsVG6qWF
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
This paper really clears up much of the "vagueness" surrounding the MLR. https://t.co/EirsVG6qWF
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
Despite the fact that I am struggling to comprehend what’s going on here, there is an infectious amount of happiness in this tweet 😎 Even if this doesn’t become ‘the’ breakthrough we want, the use of language is just brilliant 🙂 The remainder of my brain i
RT @TodThiele: Ready, set, go - Beautiful #optogenetic control of locomotion from Kiehn lab: https://t.co/4kG0OI9w4I https://t.co/gh7qtj1JJY
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @AnatolKreitzer: Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbr…
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
Beautiful paper from Ole Kiehn and colleagues dissecting function of MLR glutamate neuron subtypes in locomotion: Midbrain circuits that set locomotor speed and gait selection https://t.co/KsthcmyuZj
RT @ScienceofPD: Wow! This is awesome! New research in @nature indicates that two distinct populations of glutamatergic excitatory neurons…
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @WiringTheBrain: Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exp…
RT @WiringTheBrain: Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exp…
RT @WiringTheBrain: Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exp…
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
Midbrain circuits that set locomotor speed and gait selection https://t.co/XGDwTWPlOW
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
RT @BenSaunders: Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
Midbrain circuits that set locomotor speed and gait selection https://t.co/H82RXamrlK https://t.co/ylIwJcHQol
Awesome to see the latest paper from Ole & the team; makes the ephys we used back in the day look prehistoric! The exciting thing for me is how the technology is being used to resolve & study populations in a messy part of the locomotor system. Imp
RT @WiringTheBrain: Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exp…
RT @WiringTheBrain: Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exp…
Midbrain circuits that set locomotor speed and gait selection https://t.co/3c2S0XmBcf - moving or no, fast or slow, exploring or escaping https://t.co/l1SrKu3MuJ
RT @TodThiele: Ready, set, go - Beautiful #optogenetic control of locomotion from Kiehn lab: https://t.co/4kG0OI9w4I https://t.co/gh7qtj1JJY
Latest paper from my time in Ole Kiehn's lab. Great work of V. Caggiano and Roberto Leiras !!!https://t.co/E00u2oEUMM
Congrats guys! Midbrain circuits that set locomotor speed and gait selection https://t.co/kHxD2k2lta
RT @TodThiele: Ready, set, go - Beautiful #optogenetic control of locomotion from Kiehn lab: https://t.co/4kG0OI9w4I https://t.co/gh7qtj1JJY
Ready, set, go - Beautiful #optogenetic control of locomotion from Kiehn lab: https://t.co/4kG0OI9w4I https://t.co/gh7qtj1JJY
New @nature Article from the Kiehn Lab: https://t.co/Hu4GHd7nEx https://t.co/sZZyVfMEA9
RT @BiomedUAB: Una antigua alumna de Ciencias Biomédicas UAB publica un artículo en Nature. ¡Felicidades Haizea GE! https://t.co/slIraOwGyC
RT @zenbrainest: NATURE Midbrain circuits that set locomotor speed and gait selection https://t.co/mAKEfLlNwd
Wow! This is awesome! New research in @nature indicates that two distinct populations of glutamatergic excitatory neurons in the midbrain control speed & gait selection. Implications for #Parkinsons? @CNS_KI @karolinskainst https://t.co/FDoVAikPw8 http