4971783
Description
Flashcards by Anna Hogarth, updated more than 1 year ago
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Created by Anna Hogarth
over 8 years ago
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| Question | Answer |
| What must be accounted for in terms of the size of the pore? | Ions are hydrated - surrounded by shell of water. Total size of ion includes shell of water and must be accounted for by the size of the pore. |
| What is an ion channel similar to? Why? | Ion channels are similar to enzymes in that they reduce the energy required for the ion to cross the pore - facilitates passage of hydrophilic ion just as enzymes facilitate a reaction. |
| How is ion flow facilitated? | Facilitated by pore substituting for water, ion is dehydrated as it travels through pore and then rehydrated upon exit. |
| What is the Kv1.2 channel? | Shaker channel |
| How was the Kv1.2 channel first discovered? | Mutated shaker channel in Drosophila, fly shakes in presence of anaesthetic gas. |
| What channel was discovered by MacKinnon? | KcsA channel extracted from streptomyces lividans. |
| As a result of the many (K+) channels with similar amino acid sequences in a variety of organisms, what was it possible to determine? | How properties of these K+ channels related to their structure. |
| What are the different techniques for studying ion channels? (8) | 1) Electrophysiology - inward/outwardly rectifying, leak etc 2) Pharmacology ligands - toxins 3) Physiology ligands - agonists etc 4) Cloning, sequencing and expression - eg. Ach receptor from Torpedo ray 5) Mutagenesis - see effect of mutation 6) Antibody binding - localisation and effect 7) X-ray crystallography/EM/Spectroscopy 8) Computer modelling |
| What determines the charge of the pore and therefore which ion can pass through? | The amino acid residue |
| Describe the carbonyl residue | R I C=O I R |
| How does the residue function in the pore? What does this mean in terms of ion selectivity? | 1) The residue inside the pore replaces the water residue - favourable reaction which allows the pore to move through. 2) The selectivity of ion is based on its size without the water shell |
| How many K+ interact with the Kv selectivity filter? What causes the expulsion of a K+ across the ion channel? | 1) 2 2) Entry of a third K+ ion causes electrostatic repulsion |
| What prevents 'too tight' binding and ensures flow of ions? | Ion repulsion |
| What determines the direction of ion flow? | 1) Voltage conditions 2) Ion concentrations 3) Gating of ion channel |
| When can a rectifying channel be made to open in the other direction? What does this show? | Under laboratory conditions - pore model isn't directional. |
| How does the size of Na+ channels compare to K+ channels? Why don't they pass through Na+ channels? | Na+ ions are smaller than K+ ions. Despite being smaller they can't pass through K+ channels - ions must be the 'right' size to interact with the selectivity filter. |
| Give an example of a note very selective ligand gated channel - which ions does it allow to pass through? | NMDA - Ca2+, K+ and Na+ |
| What is required to push an NMDA receptor into the open configuration? | 1) Glycine and glutamate 2) Mg2+ block must be removed |
| What causes the gating currents? (4 steps) | 1) H2O released 2) Helices in membrane move 3) Amino acid residues affected 4) Changes in membrane potential |
| How can antibodies be used to determine the structure of voltage gated channels? | Antibody fragment (Fab) binds to voltage sensitive portion of channel, pulling the 'arms' of the channel open. |
| What does each subunit of a voltage-gated channel consist of? | Six helical segments |
| Give 3 examples of tetrameric ion channels? | VG Na+, Ca2+ and K+ channels |
| Give an example of pentamer channel? | Nicotinic ACh receptor channel |
| Give an example of a hexamer? | Hemijunction or connexon |
| Which Kv subunits form the voltage sensitive domain? The pore domain? Are domains hydrophobic or hydrophilic? | 1) S1 - S4 2) S5 - S6 Hydrophobic |
| What subunits make up a Kv channel? | Usually 4a and sometimes B subunits. |
| What is the function of B subunits? | Modulate pore - change gating/voltage and type of function |
| How do Kv(Ca) channel differ? | Have a internal Ca2+ binding domain |
| How do B subunits differ from a subunits? | Only two helical domains in a B subunit |
| What is the function of the S4 region, how does it vary between animals? | Voltage sensitive region Amino acid sequence maintained in most different animals |
| Where is the voltage sensitive region of the VG Na+ channel? Pore binding? | Outside of the cross section. Cross in middle of cross section. |
| Where does inactivation of the Na+ channels occur? | H between S6 and S1 of 3rd and 4th subunit |
| How do mutations which cause slow inactivation identify parts of channels? | Show which part of the pore is responsible for inactivation. |
| What is the KCNQ1 channel? | Outward delayed rectifier channel |
| What is the KCNK channel? What is it important for? | Leak channel - sets membrane potential |
| How many subunits does a KCNK channel consist of? | 4 (m1-m4) |
| How else does a KCNK channel differ from the standard Kv channel? | Has two pores |
| What are the three other important properties of KCNK channels? | 1) Open at rest but regulated ie by neurotransmitters 2) Selective 3) Can sense voltage (mechanism unclear) |
| How many domains does a Na a subunit have? | 4 |
| What mutation can occur at S5 of the a subunit? What does this result in? | Thr---Met Hyperkalemic periodic paralysis |
| What mutation can occur at the inactivating loop of the a subunit? (2) What does this result in? | 1) Gly-Val or Thr-Met Paramyotonia congenita |
| What else causes hyperkalemic periodic paralysis? | Met---Val change at S6 of domain 4 |
| What else causes Paramyotonia congenita? (2) | 1) Leu - Arg at S3 of domain IV 2) Arg - His/Cys at S4 of domain IV |
| What does HYPP cause in horses? | Dog sitting |
| Which of the two Na+ channelopathies is temperature dependent? | PMC |
| What is a K+ channelopathy that can prove fatal? When is this seen in normal physiological conditions? | 1) Long QT syndrome - K+ channel mutation results in long QT period, increases AP length in heart and can prove fatal. 2) Diving reflex - heart temporarily stops when diving into cold water as a result of long QT period. |
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