axon
axon

... Dendrites (receive)  Cell Body (process)  Axon (send)  Axon Terminals (transfer) ...
Biol 203 Lab Week 10 Nervous System Histology
Biol 203 Lab Week 10 Nervous System Histology

... Dendrites (receive) Æ Cell Body (process) Æ Axon (send) Æ Axon Terminals (transfer) ...
Endocrine_Lecture
Endocrine_Lecture

... The Primary Portal Plexus (capillary bed) resides in the hypothalamus and is impinged upon by hypothalamic neurons. These neurons release neurohormones into the bloodstream within the capillaries. The portal vasculature carries the neurohormones to the Anterior lobe (pars distalis) of the pituitary ...
8-Nervous tissue
8-Nervous tissue

... but from a functional point of view it is to be regarded as bipolar. (To avoid confusion on this account this kind of neuron has been referred to, in the past, as a pseudounipolar neuron. Depending on the shapes of their cell bodies some neurons are referred to as stellate (star shaped) ...
phys chapter 45 [10-24
phys chapter 45 [10-24

...  Ion channels can be cation channels (mostly Na+, but can be K+ or Ca2+) or anion channels (Cl-)  Cation channels lined with negative charges that attract the cation into the channel when the channel diameter increases to size larger than that of their ion; excitatory transmitters open these  Ani ...
Introduction to Psychology - Ms. Kelly's AP Psychology Website
Introduction to Psychology - Ms. Kelly's AP Psychology Website

...  when released by the sending neuron, neurotransmitters travel across the synapse and bind to receptor sites on the receiving neuron, thereby influencing whether it will generate a neural impulse  If the message is for arm movement, the vesicles only release neurotransmitters involved in the ...
The Nervous System - Science with Mr. Enns
The Nervous System - Science with Mr. Enns

... The spinal cord is the main information pathway. It connects the brain to the peripheral nervous system. The spinal cord is a small tube packed with interneurons It is well-protected inside the ...
presentation5
presentation5

... (pre-motor & parietal cortices and STS) will be stronger in individuals who have learned to perform that action than those who have not. ...
Andreas Matouschek
Andreas Matouschek

... We are particularly interested in processes in the cell during which proteins have to loose their structure and unfold, and most recently, we have focused on protein degradation by the proteasome. The proteasome is the major protease in the cytosol and nucleus of eukaryotic cells and controls the co ...
Inferring functional connections between neurons
Inferring functional connections between neurons

... for a wide variety of signals ranging from fMRI and PET imaging to simultaneous recordings of many single neurons [1–3,4,5]. In this review we focus on the ideas underlying new techniques for the inference of functional connectivity from spike data. It has long been known that neurons, even when th ...
1 Introduction to Nerve Cells and Nervous Systems
1 Introduction to Nerve Cells and Nervous Systems

... the cell membrane and, usually, changes in membrane potential that increase or decrease the cell’s excitability. Over a longer time course one neuron may release substances on to another that affect that cell’s metabolism and be responsible for altering synaptic efficacy and maintaining synaptic lin ...
Nervous System
Nervous System

... The nervous system of many animals consists of the brain, the spinal cord, and nerves. This system allows animals to obtain quick feedback about their surroundings and to react immediately. The nervous system can be separated into two divisions, the central nervous system which includes the brain an ...
Neuronal Cytoskeleton14
Neuronal Cytoskeleton14

... • Actin – provides the main structural basis for cytoskeletal organization within dendritic spines (lack MTs and IFs). • Actin rearranges in synaptic plasticity (neuronal connectivity). • LTP of synapses in hipp DG assoc with phosphorylation of cofilin, which  incr in f-actin within spines  growth ...
Study Guide for The Spinal Cord – Chapter 8, Part B Be familiar with
Study Guide for The Spinal Cord – Chapter 8, Part B Be familiar with

Understanding Glial Differentiation in Vertebrate Nervous - J
Understanding Glial Differentiation in Vertebrate Nervous - J

... of Notch1 did not promote glial differentiation from cultured crest cells, based on the expression of P0 (Wakamatsu et al. 2000). In contrast, there is a report showing that a transient treatment of cultured crest-derived cells with a soluble form of Delta1 instructively promotes differentiation of ...
Neurotoxicity
Neurotoxicity

... Ways in which neurotoxic chemicals may impair nervous system function: ...
Program booklet - Munich Center for NeuroSciences
Program booklet - Munich Center for NeuroSciences

... We developed an all-optical approach to stably and exclusively stimulate a defined channel­ rhodopsin-2 (ChR2)-transduced subset of CA3 cell axons in mature hippocampal slice culture over extended periods of time (up to 24h). We continuously monitor synaptic activation and synaptic structure of CA1 ...
Threshold Stimulus
Threshold Stimulus

... propagation of the action potential • Blocks _______ channels • Sodium cannot flow into the cell, so threshold is not achieved ...
THE HUMAN BODY
THE HUMAN BODY

... THE PERIPHERAL NERVOUS SYSTEM • LINK BETWEEN THE CENTRAL NERVOUS SYSTEM AND THE REST OF THE BODY • CONSISTS OF 43 PAIRS OF NERVES THAT ARISE FROM THE BRAIN AND SPINAL CORD AND LEAD TO ORGANS THROUGHOUT THE BODY ...
~ rn-
~ rn-

... I List I Know " List ...
methods of neuroanatomy
methods of neuroanatomy

feedback-poster
feedback-poster

... Yongzhen Huang ,Liang Wang , Chang Huang, Wei Xu ,Deva Ramanan ,Thomas S. Huang ...
How Does Caffeine Affect the Central Nervous System? (CNS)
How Does Caffeine Affect the Central Nervous System? (CNS)

... meaning it promotes sleep and surpresses arousal -The maximum amount you can consume per ...
LO #1
LO #1

... concept of having a reversal potential of 0 mV. ...
doi:10
doi:10

... Autopsy material. Human hippocampal tissue was obtained at autopsy with the full consent of each family. All patients were diagnosed with squamous cell carcinomas at the base of the tongue, in the larynx or in the pharynx. All patients received bromodeoxyuridine (BrdU) (250 mg) dissolved in saline a ...

Channelrhodopsin



Channelrhodopsins are a subfamily of retinylidene proteins (rhodopsins) that function as light-gated ion channels. They serve as sensory photoreceptors in unicellular green algae, controlling phototaxis: movement in response to light. Expressed in cells of other organisms, they enable light to control electrical excitability, intracellular acidity, calcium influx, and other cellular processes. Channelrhodopsin-1 (ChR1) and Channelrhodopsin-2 (ChR2) from the model organism Chlamydomonas reinhardtii are the first discovered channelrhodopsins. Variants have been cloned from other algal species, and more are expected.