'+pages+''); $('.stream > div:odd').addClass('bgr_color'); updateHeight('#history'); }); window.activateTabArea = ensure(function(tab, areas){ var parsed = false; var parts = (areas || '').split('/'); window.fsonload = $.inArray('fs', parts) >= 0; if(fsonload){ parts.splice(parts.indexOf('fs'), 1); } var replayMode = false; if($.inArray('replay', parts)>=0){ replayMode = 'replay'; } var noSoundMode = false; if($.inArray('nosound', parts)>=0){ noSoundMode = 'nosound'; } if($.inArray('ns', parts)>=0){ noSoundMode = 'ns'; } var previewMode = null; if($.inArray('p', parts)>=0){ previewMode = 'p'; } if($.inArray('preview', parts)>=0){ previewMode = 'preview'; } if($.inArray('repeat', parts)>=0){ replayMode = 'repeat'; } if($.inArray('r', parts)>=0 || $.inArray('ro', parts)>=0){ replayMode = 'r'; } if(replayMode){ parts.splice(parts.indexOf(replayMode), 1); } if(noSoundMode){ parts.splice(parts.indexOf(noSoundMode), 1); } if(previewMode){ parts.splice(parts.indexOf(previewMode), 1); } if(previewMode){ if(!parts.length){ parts = ['1-14', '999:59']; } } var area = parts[0]; if(tab == 'history' && false){ var page = parseInt(area || '1') || 1; $.ajax({ url: 'https://login.wn.com/recent/json/?pp='+history_pp+'&skip='+history_pp*(page-1), dataType: 'jsonp', success: function(response){ $ensure(function(){ renderHistory(response, page); }); } }); return true; } if(tab == 'global_history' && false){ var page = parseInt(area || '1') || 1; globalHistory.fetchStream(page, '', function(){ updateHeight('#global_history'); }); return true; } if(tab == 'my_playlists' && false){ var page = parseInt(area || '1') || 1; myPlaylists.fetchStream(page, '', function(){ updateHeight('#my_playlists'); }); return true; } if(tab == 'my_videos' && false){ var page = parseInt(area || '1') || 1; myVideos.fetchStream(page, '', function(){ updateHeight('#my_videos'); }); return true; } if(tab == 'related_sites' && areas && matchPosition(areas)){ var seconds = parsePosition(areas); scrollRelated(seconds); return false; } if(matchPosition(area) || matchAction(area)){ parts.unshift('1'); area = parts[0]; } if(tab == 'expand' && area && area.match(/\d+/)) { var num = parseInt(area); if(num < 100){ //FIX ME. Load news page with ajax here } else if(num > 1900){ //FIX ME. Load timeline page with ajax here } } else if(tab.match(/^playlist\d+$/)){ var playerId = parseInt(tab.substring(8)); var vp = videoplayers[playerId]; window.descriptionsholder = $('.descriptionsplace'); if(!vp) return; // why? no player? if(replayMode){ $('.replaycurrent'+playerId).attr('checked', true); vp.setReplayCurrent(true); } var playQueue = []; window.playQueue = playQueue; var playQueuePosition = 0; var playShouldStart = null; var playShouldStop = null; var parseList = function(x){ var items = x.split(/;|,/g); var results = []; for (i in items){ try{ var action = parseAction(vp, items[i]); if(!action.video){ if(window.console && console.log) console.log("Warning: No video for queued entry: " + items[i]); }else{ results.push(action); } }catch(e){ if(window.console && console.log) console.log("Warning: Can''t parse queue entry: " + items[i]); } } return results; }; var scrollToPlaylistPosition = function(vp){ var ppos = vp.getPlaylistPosition(); var el = vp.playlistContainer.find('>li').eq(ppos); var par = el.closest('.playlist_scrollarea'); par.scrollTop(el.offset().top-par.height()/2); } var updateVolumeState = function(){ if(noSoundMode){ if(noSoundMode == 'turn-on'){ clog("Sound is on, vsid="+vp.vsid); vp.setVolumeUnMute(); noSoundMode = false; }else{ clog("Sound is off, vsid="+vp.vsid); vp.setVolumeMute(); noSoundMode = 'turn-on'; } } } var playQueueUpdate = function(){ var playPosition = playQueue[playQueuePosition]; vp.playFromPlaylist(playPosition.video); scrollToPlaylistPosition(vp); playShouldStart = playPosition.start; playShouldStop = playPosition.stop; }; var playQueueAdvancePosition = function(){ clog("Advancing play position..."); playQueuePosition ++; while(playQueuePosition < playQueue.length && !playQueue[playQueuePosition].video){ playQueuePosition ++; } if(playQueuePosition < playQueue.length){ playQueueUpdate(); }else if(vp.getReplayCurrent()){ playQueuePosition = 0; playQueueUpdate(); vp.seekTo(playShouldStart); vp.playVideo(); }else{ vp.pauseVideo(); playShouldStop = null; playShouldStart = null; } }; function loadMoreVideos(playerId, vp, start, finish, callback){ var playlistInfo = playlists[playerId-1]; if(playlistInfo.loading >= finish) return; playlistInfo.loading = finish; $.ajax({ url: '/api/upge/cheetah-photo-search/query_videos2', dataType: 'json', data: { query: playlistInfo.query, orderby: playlistInfo.orderby, start: start, count: finish-start }, success: function(response){ var pl = vp.getPlaylist().slice(0); pl.push.apply(pl, response); vp.setPlaylist(pl); callback(); } }); } if(parts.length == 1 && matchDash(parts[0])){ var pl = vp.getActualPlaylist(); var vids = parseDash(parts[0]); parts = []; for(var i = 0; i < vids.length; i++){ playQueue.push({ 'video': pl[vids[i]-1], 'start': 0, 'stop': null }) } if(vids.length){ if(vids[vids.length-1]-1>=pl.length){ loadMoreVideos(playerId, vp, pl.length, vids[vids.length-1], function(){ if(fsonload){ activateTabArea(tab, parts[0]+'/fs'); }else{ activateTabArea(tab, parts[0]); } var pls = vp.getPlaylist(); vp.playFromPlaylist(pls[pls.length-1]); vp.playVideo(); scrollToPlaylistPosition(vp); }); return true; } } if(playQueue){ playQueueUpdate(); vp.playVideo(); parsed = true; playShouldStart = 0; } } if(previewMode){ var vids = []; var dur = 0; var pl = vp.getActualPlaylist(); area = parts[0]; if(parts.length == 1 && matchPosition(parts[0])){ vids = parseDash('1-'+pl.length); dur = parsePosition(parts[0]); parts = []; }else if(parts.length == 1 && matchDash(parts[0])){ vids = parseDash(parts[0]); dur = parsePosition("999:59"); parts = []; } if(parts.length == 2 && matchDash(parts[0]) && matchPosition(parts[1])){ vids = parseDash(parts[0]); dur = parsePosition(parts[1]); parts = []; } for(var i = 0; i < vids.length; i++){ playQueue.push({ 'video': pl[vids[i]-1], 'start': 0, 'stop': dur }) } if(playQueue){ playQueueUpdate(); vp.playVideo(); parsed = true; } } if(parts.length>1){ for(var i = 0; i < parts.length; i++){ var sel = findMatchingVideo(vp, parts[i]); if(sel){ playQueue.push({ 'video': sel, 'start': 0, 'stop': null }) } } if(playQueue){ playQueueUpdate(); vp.playVideo(); parsed = true; } }else if(area){ var sel = findMatchingVideo(vp, area); if(sel){ vp.playFromPlaylist(sel); playShouldStart = 0; parsed = true; } } if(fsonload || replayMode){ playShouldStart = 0; } if(document.location.search.match('at=|queue=')){ var opts = document.location.search.replace(/^\?/,'').split(/&/g); for(var o in opts){ if(opts[o].match(/^at=(\d+:)?(\d+:)?\d+$/)){ playShouldStart = parsePosition(opts[o].substr(3)) } if(opts[o].match(/^queue=/)){ playQueue = parseList(opts[o].substr(6)); if(playQueue){ playQueuePosition = 0; playQueueUpdate(); } } } } if(matchPosition(parts[1])){ playShouldStart = parsePosition(parts[1]); parsed = true; } if(matchAction(parts[1])){ var action = parseAction(vp, area+'/'+parts[1]); playShouldStart = action.start; playShouldStop = action.stop; parsed = true; } if(playShouldStart !== null && !playQueue.length){ playQueue.push({ video: vp.getCurrentVideo(), start: playShouldStart, stop: playShouldStop }); } if(playShouldStart != null){ setInterval(function(){ if(playShouldStop && vp.currentPlayer && vp.currentPlayer.getCurrentTime() > playShouldStop){ playShouldStop = null; if(vp.getCurrentVideo() == playQueue[playQueuePosition].video){ playQueueAdvancePosition(); }else{ playShouldStart = null; } } }, 500); vp.playerContainer.bind('videoplayer.player.statechange', function(e, state){ if(state == 'ended'){ // advance to the next video playQueueAdvancePosition(); } }); vp.playerContainer.bind('videoplayer.player.readychange', function(e, state){ if(state){ updateVolumeState(); if(playShouldStart !== null){ vp.seekTo(playShouldStart); playShouldStart = null; }else{ playShouldStop = null; // someone started other video, stop playing from playQueue } } if(fsonload) { triggerFullscreen(playerId); fsonload = false; } }); } } else if(tab.match(/^wiki\d+$/)){ if(firstTimeActivate){ load_wiki($('#'+tab), function(){ if(area){ var areaNode = $('#'+area); if(areaNode.length>0){ $('html, body').scrollTop(areaNode.offset().top + 10); return true; } } }); } } return parsed; }) window.activateTab = ensure(function(tab, area){ window.activeArea = null; if(tab == 'import_videos'){ if(area){ import_videos(area); }else{ start_import(); } return true; } if(tab == 'chat'){ update_chat_position($('.chat').eq(0)); window.activeArea = 'chat'; jQuery('.tabtrigger').offscreentabs('activateTab', 'chat'); return true; } if(tab in rev_names){ tab = rev_names[tab]; } if(tab.match(':')){ return false; } var sup = $('ul li a[id=#'+tab+']'); if(sup && sup.length>0){ window.activeArea = area; sup.first().click(); if(!window.activateTabArea(tab, area)){ window.activeArea = null; } window.activeArea = null; return true; }else{ var have_tabs = $('#playlist_menu li').length; if(tab.match(/^playlists?\d+$/)){ var to_add = +tab.substring(8).replace(/^s/,'')-have_tabs; if(to_add>0 && have_tabs){ add_more_videos(to_add); return true; } } } return false; }); window.currentPath = ensure(function(){ return window.lastHistory.replace(basepath, '').split('?')[0]; }); window.main_tab = window.main_tab || 'videos'; window.addHistory = ensure(function(path){ if(window.console && console.log) console.log("Adding to history: "+path); if(window.history && history.replaceState && document.location.hostname.match(/^(youtube\.)?(\w{2,3}\.)?wn\.com$/)){ if(path == main_tab || path == main_tab+'/' || path == '' || path == '/') { path = basepath; } else if( path.match('^'+main_tab+'/') ){ path = basepath + '/' + path.replace(main_tab+'/', '').replace('--','/'); } else { path = basepath + '/' + path.replace('--','/'); } if(document.location.search){ path += document.location.search; } if(window.lastHistory) { history.pushState(null, null, path); } else if(window.lastHistory != path){ history.replaceState(null, null, path); window.lastHistory = path; } } else{ path = path.replace('--','/'); if(path == main_tab || path == main_tab+'/' || path == '' || path == '/') { path = ''; } if(window.lastHistory != '/'+path){ window.location.hash = path? '/'+path : ''; window.lastHistory = '/'+path; } } }); $('.tabtrigger li a').live('click', ensure(function() { var tab = $(this).attr('id'); if(tab.substring(0,1) == '#'){ var name = tab.substring(1); if(name in menu_names){ name = menu_names[name][0]; } realTab = rev_names[name]; $('#'+realTab).show(); if(window.console && console.log) console.log("Triggering tab: "+name+(window.activeArea?" activeArea="+window.activeArea:'')); var path = name; if(window.activeArea){ path = path + '/' + window.activeArea; } if(tab.match(/#playlist\d+/) || tab.match(/#details\d+/)){ $('.multiple-playlists').show(); $('.related_playlist').show(); $('.longest_videos_playlist').show(); }else { $('.multiple-playlists').hide(); $('.related_playlist').hide(); $('.longest_videos_playlist').hide(); } // start the related script only when the tab is on screen showing if (tab.match(/related_sites/)) { if (mc) { mc.startCredits(); } } window.activeTab = realTab; addHistory(path); setTimeout(ensure(function(){ if(tab.match(/language--/)){ $('.tabtrigger').offscreentabs('activateTab', 'language'); } if(tab.match(/weather/)) { $('.tabtrigger').offscreentabs('activateTab', 'weather'); loadContinent(); } updateMenus(tab); updateHeight(); }), 10); } return false; })); }); -->

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  Alpha-3 Beta-4 Nicotinic Receptor

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  Alpha-3 Beta-4 Nicotinic Receptor

• Alpha-3 beta-4 nicotinic receptor

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Alpha-3 beta-4 nicotinic receptor

The alpha-3 beta-4 nicotinic receptor, also known as the α₃β₄ receptor, is a type of nicotinic acetylcholine receptor, consisting of α₃ and β₄ subunits. It is located in the autonomic ganglia and adrenal medulla, where activation yields post- and/or presynaptic excitation.

As with other nicotinic acetylcholine receptors, the α₃β₄ receptor is pentameric [(α₃)_m(β₄)_n where m + n = 5]. The exact subunit stoichiometry is not known and it is possible that more than one functional α₃β₄ receptor assembles in vivo with varying subunit stoichiometries.

Ligands

Agonists

Acetylcholine (endogenous neuromodulator that binds non-selectively to nAChRs and mAChRs.)

Carbachol

Cytisine

Epibatidine

Nicotine

RJR-2429

Antagonists

Competitive

DHβE

compound 5, highly selective over α₄β₂ and α₇

Noncompetitive

Dextromethorphan

Dextrorphan

Dextropropoxyphene

Hexamethonium

Imipramine, K(d) = 0.41 μM

Levacetylmethadol

Mecamylamine

Methadone

Tubocurarine

Bupropion

Reboxetine

Ibogaine

Read more

This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Alpha-3_beta-4_nicotinic_receptor

Podcasts:

Nach

ALBUMS

• Alvorada da Alma released: 2013

Alvorada da Alma

Released 2013

• Alvorada da Alma
• Bom Dia
• Ás de Espadas
• Amor Veneno
• Incrivelmente
• Palavra É a Arma
• O Meu Refúgio
• Reconhece E Representa
• Estrada de Sonhos
• Comportamentos Bizarros
• A Primeira Vez
• Gota D'Água
• Vive
• Primavera
• Supernova
• Concreto Abstracto
• No Final

Nach

ALBUMS

• Los viajes inmóviles released: 2014
• Mejor que el silencio released: 2011
• Un día en Suburbia released: 2008
• Ars magna / Miradas released: 2005
• Poesía difusa released: 2003
• En la brevedad de los días released: 2003
• D.E.P. released: 1995

Los viajes inmóviles

Released 2014

• Lo imposible
• Me llaman
• Hándicaps
• Tiempo, dame tiempo
• Brainwash
• Lo estoy intentando
• Interludio: Un nuevo anochecer
• Tercer mundo
• ¿Qué soy?
• Te vi pasar
• La calle es un zooilógico
• Donde descansa la esperanza
• Busco
• Un nuevo anochecer

Mejor que el silencio

Released 2011

• Hambre de victoria
• Pensando en voz alta
• Disparos de silencio
• El reino de lo absurdo
• Ni estabas ni estarás
• ¿Entonces quieres ser MC?
• Réquiem
• Ellas
• Los elegidos
• En este mismo instante (en la ciudad)
• Humano ser
• Tú
• Si yo fuera
• En la cuerda floja
• Tres siglas
• Ayer y hoy
• El idioma de los dioses

Un día en Suburbia

Released 2008

• Amanece
• Mil vidas
• El juego del rap
• Esclavos del destino
• Ángel
• Efectos vocales
• Nada ni nadie
• Sr. Libro y Sr. Calle
• Héroes
• El amor viene y va
• Infama
• Quiz Show
• Vive (mientras puedas)
• Rapkour
• Los años luz
• Anochece

Ars magna / Miradas

Released 2005

• Alfa
• El camino del guerrero
• Repaso mis pasos
• Barras y estrellas
• 2055
• El día en que murió el arte
• El tiempo escapa
• Pandora
• No bailes
• Interludio 2
• Infinito
• Palabras
• Tipos de MC's
• Tras este escenario
• Interludio 3
• Binomio
• Mi propio cielo

Poesía difusa

Released 2003

• El regreso
• Desafío
• Walkman
• Rap vida 2001
• Mi país
• Chico problemático
• Poesía difusa
• Ser o no ser
• Rap vida 2002
• Calles
• El sexto mandamiento
• En el punto de mira
• La voz de los grandes
• Rap vida 2003
• Amor libre
• El club de los olvidados
• El cuenta cuentos
• Gracias

En la brevedad de los días

Released 2003

• Pido permiso
• Rimas invencibles
• Compite
• El demonio camuflado en el asfalto
• Esclavos
• Un segundo
• El nivel
• Para mi madre
• Cambiando el mundo
• Tragedia
• En la brevedad de los días
• Odio
• Poderoso, luchador y valiente
• La palabra
• Basado en hechos reales
• Abre tu mente (y cruza el universo)

D.E.P.

Released 1995

• Intro
• Pies de profundidad
• Nivel negro
• Yo soy la verdad
• Corte 1
• NS por siempre
• El cementerio
• Corte 2
• No moriré
• Vengo yo
• Nunca digas nunca
• The Beat Is Livin' on Ya
• La batalla
• Hago daño
• Espíritu perdido
• El juicio final

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  Access my FREE Online Membership today → https://www.thenotedanatomist.com ___ Unlock my Premium Tutoring Memberships → https://www.thenotedanatomist.com/premium-memberships Lifetime Access to Online Anatomy Course Foundational Q&A Cards Per Video Notes and Key Takeaways Downloadable Documents Flashcards for Each Course Weekly Group Tutoring Sessions Direct Tutoring Sessions ___ Discover A Simplified Approach to Master the Complexity of Anatomy with me, Dr. David Morton ... The Noted Anatomist! ------------------------------------------------------------------ This video tutorial discusses the Nicotinic cholinergic receptors: 0:00​. Intro 0:17. What are cholinergic receptors? 0:31​. What are nicotinic receptors? 1:47​. What are the 2 types of nicotinic receptors? 2:07​. Nm. Nicotinic mus...

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In this video, Dr Matt explains the receptors that acetylcholine bind to. These receptors are classified into nicotinic and muscarinic receptors and located in very distinct regions of the body.

https://wn.com/Cholinergic_Receptors

In this video, Dr Matt explains the receptors that acetylcholine bind to. These receptors are classified into nicotinic and muscarinic receptors and located in very distinct regions of the body.

• published: 04 May 2020
• views: 129921

4:46

Cholinergic Drugs - Pharmacology, Animation

• Order: Reorder
• Duration: 4:46
• Uploaded Date: 09 Jun 2020
• views: 308749

(USMLE topics) Mechanisms of action of cholinergic agonists and antagonists (anticholinergics): direct and indirect agonists (reversible and irreversible cholin...

(USMLE topics) Mechanisms of action of cholinergic agonists and antagonists (anticholinergics): direct and indirect agonists (reversible and irreversible cholinesterase inhibitors), Botox, nicotinic and muscarinic antagonists. Purchase a license to download a non-watermarked version of this video on AlilaMedicalMedia(dot)com Check out our new Alila Academy - AlilaAcademy(dot)com - complete video courses with quizzes, PDFs, and downloadable images. Voice by: Ashley Fleming ©Alila Medical Media. All rights reserved. All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition. Acetylcholine is a major neurotransmitter of the nervous system. It is released by motor neurons at neuromuscular junctions to stimulate skeletal muscle contraction. Acetylcholine is also the primary neurotransmitter of the parasympathetic nervous system responsible for the body’s “rest and digest” state. It slows heartbeats, slows respiratory rate, contracts smooth muscles of the gastrointestinal tract and urinary bladder, stimulates various secretions, and constricts pupils. Acetylcholine is also active in several brain regions associated with cognition and movement. A neuron that uses mainly acetylcholine as neurotransmitter is called a cholinergic neuron. Acetylcholine is an ester of choline. It is synthesized and stored in the nerve terminal. When a cholinergic neuron is stimulated, acetylcholine is released into the synaptic cleft where it binds to its receptor on the postsynaptic cell, triggering cellular response. Acetylcholine is rapidly cleared from the synapse by the enzyme acetylcholinesterase, which binds to acetylcholine and hydrolyzes it into choline and acetate. The enzyme molecule quickly recycles itself each time, ready for another round of reaction. There are 2 main types of acetylcholine receptors: muscarinic and nicotinic, each type has several subtypes, or classes. Each receptor class is specific to certain synapses or tissues. Cholinergic agonists are drugs that mimic or enhance the action of acetylcholine, while cholinergic antagonists are those that inhibit its action. Because action of acetylcholine is widespread, cholinergic drugs may produce lots of side effects when administered systemically. Drugs that target a particular receptor class are more specific and are therefore preferred. Cholinergic agonists can be direct-acting or indirect-acting: Direct-acting agonists mimic acetylcholine, they bind to acetylcholine receptor and activate downstream signaling. They are not easily metabolized by acetylcholinesterase and therefore last longer at the synapse. Examples are drugs used as eye drops to constrict pupil and reduce intraocular pressure for treatment of glaucoma. Some agents are used to increase smooth muscle tone in urinary bladder and gastrointestinal tract, or to stimulate saliva secretion to treat dry mouth. Indirect agonists act by inhibiting the enzyme acetylcholinesterase, thereby increasing the concentration of acetylcholine available at the synapse. Reversible inhibitors form a transient, reversible complex with the enzyme. They slow down the recycling of the enzyme, making it less available for breaking down acetylcholine. Some of these drugs are used to treat myasthenia gravis, or to reverse the effects of anesthesia. Others are given to boost cholinergic activities in Alzheimer’s brain to compensate for the loss of functioning neurons. Irreversible cholinesterase inhibitors bind to the enzyme in an irreversible manner and permanently inactivate it. These drugs are very toxic, they are used as insecticides and “nerve gases”. Cholinergic antagonists inhibit acetylcholine action by several mechanisms: Botulinum toxin, Botox, is a bacterial toxin. It blocks acetylcholine release by inhibiting exocytosis. Botox is used to treat localized muscle spasms, movement disorders and strabismus. It is given by direct injection into the affected muscle. Nicotinic antagonists compete with acetylcholine for binding to nicotinic receptor. They are most commonly used to relax skeletal muscles during surgery. Muscarinic antagonists compete with acetylcholine for binding to muscarinic receptor. They are used to treat bradycardia, diarrhea and bladder spasms, dilate bronchi, reduce secretions, and dilate pupils. Some are used as sedatives and to counteract cholinesterase inhibitors.

https://wn.com/Cholinergic_Drugs_Pharmacology,_Animation

(USMLE topics) Mechanisms of action of cholinergic agonists and antagonists (anticholinergics): direct and indirect agonists (reversible and irreversible cholinesterase inhibitors), Botox, nicotinic and muscarinic antagonists. Purchase a license to download a non-watermarked version of this video on AlilaMedicalMedia(dot)com Check out our new Alila Academy - AlilaAcademy(dot)com - complete video courses with quizzes, PDFs, and downloadable images. Voice by: Ashley Fleming ©Alila Medical Media. All rights reserved. All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition. Acetylcholine is a major neurotransmitter of the nervous system. It is released by motor neurons at neuromuscular junctions to stimulate skeletal muscle contraction. Acetylcholine is also the primary neurotransmitter of the parasympathetic nervous system responsible for the body’s “rest and digest” state. It slows heartbeats, slows respiratory rate, contracts smooth muscles of the gastrointestinal tract and urinary bladder, stimulates various secretions, and constricts pupils. Acetylcholine is also active in several brain regions associated with cognition and movement. A neuron that uses mainly acetylcholine as neurotransmitter is called a cholinergic neuron. Acetylcholine is an ester of choline. It is synthesized and stored in the nerve terminal. When a cholinergic neuron is stimulated, acetylcholine is released into the synaptic cleft where it binds to its receptor on the postsynaptic cell, triggering cellular response. Acetylcholine is rapidly cleared from the synapse by the enzyme acetylcholinesterase, which binds to acetylcholine and hydrolyzes it into choline and acetate. The enzyme molecule quickly recycles itself each time, ready for another round of reaction. There are 2 main types of acetylcholine receptors: muscarinic and nicotinic, each type has several subtypes, or classes. Each receptor class is specific to certain synapses or tissues. Cholinergic agonists are drugs that mimic or enhance the action of acetylcholine, while cholinergic antagonists are those that inhibit its action. Because action of acetylcholine is widespread, cholinergic drugs may produce lots of side effects when administered systemically. Drugs that target a particular receptor class are more specific and are therefore preferred. Cholinergic agonists can be direct-acting or indirect-acting: Direct-acting agonists mimic acetylcholine, they bind to acetylcholine receptor and activate downstream signaling. They are not easily metabolized by acetylcholinesterase and therefore last longer at the synapse. Examples are drugs used as eye drops to constrict pupil and reduce intraocular pressure for treatment of glaucoma. Some agents are used to increase smooth muscle tone in urinary bladder and gastrointestinal tract, or to stimulate saliva secretion to treat dry mouth. Indirect agonists act by inhibiting the enzyme acetylcholinesterase, thereby increasing the concentration of acetylcholine available at the synapse. Reversible inhibitors form a transient, reversible complex with the enzyme. They slow down the recycling of the enzyme, making it less available for breaking down acetylcholine. Some of these drugs are used to treat myasthenia gravis, or to reverse the effects of anesthesia. Others are given to boost cholinergic activities in Alzheimer’s brain to compensate for the loss of functioning neurons. Irreversible cholinesterase inhibitors bind to the enzyme in an irreversible manner and permanently inactivate it. These drugs are very toxic, they are used as insecticides and “nerve gases”. Cholinergic antagonists inhibit acetylcholine action by several mechanisms: Botulinum toxin, Botox, is a bacterial toxin. It blocks acetylcholine release by inhibiting exocytosis. Botox is used to treat localized muscle spasms, movement disorders and strabismus. It is given by direct injection into the affected muscle. Nicotinic antagonists compete with acetylcholine for binding to nicotinic receptor. They are most commonly used to relax skeletal muscles during surgery. Muscarinic antagonists compete with acetylcholine for binding to muscarinic receptor. They are used to treat bradycardia, diarrhea and bladder spasms, dilate bronchi, reduce secretions, and dilate pupils. Some are used as sedatives and to counteract cholinesterase inhibitors.

• published: 09 Jun 2020
• views: 308749

8:31

Introduction to Nicotinic Acetylcholine Receptors Part 4

• Order: Reorder
• Duration: 8:31
• Uploaded Date: 26 Nov 2014
• views: 3299

In this video we discuss the subunits of the nicotinic acetylcholine receptors and look at the subunit composition of the major types of nicotinic acetylcholine...

In this video we discuss the subunits of the nicotinic acetylcholine receptors and look at the subunit composition of the major types of nicotinic acetylcholine receptor.

https://wn.com/Introduction_To_Nicotinic_Acetylcholine_Receptors_Part_4

In this video we discuss the subunits of the nicotinic acetylcholine receptors and look at the subunit composition of the major types of nicotinic acetylcholine receptor.

• published: 26 Nov 2014
• views: 3299

3:42

Alpha-4 beta-2 nicotinic receptor

• Order: Reorder
• Duration: 3:42
• Uploaded Date: 25 Apr 2021
• views: 130

The alpha-4 beta-2 nicotinic receptor, also known as the α4β2 receptor, is a type of nicotinic acetylcholine receptor implicated in learning, consisting of α4 a...

The alpha-4 beta-2 nicotinic receptor, also known as the α4β2 receptor, is a type of nicotinic acetylcholine receptor implicated in learning, consisting of α4 and β2 subunits. It is located in the brain, where activation yields post- and presynaptic excitation, mainly by increased Na+ and K+ permeability. Stimulation of this receptor subtype is also associated with growth hormone secretion. People with the inactive CHRNA4 mutation Ser248Phe are an average of 10 cm (4 inches) shorter than average and predisposed to obesity. A 2015 review noted that stimulation of the α4β2 nicotinic receptor in the brain is responsible for certain improvements in attentional performance; among the nicotinic receptor subtypes, nicotine has the highest binding affinity at the α4β2 receptor (ki=1 nM), which is also the primary biological target that mediates nicotine's addictive properties.The receptors exist in the two stoichiometries: (α4)2(β2)3 receptors have high sensitivity to nicotine and low Ca2+ permeability (HS receptors) (α4)3(β2)2 receptors have low sensitivity to nicotine and high Ca2+ permeability (LS receptors) Source: https://en.wikipedia.org/wiki/Alpha-4_beta-2_nicotinic_receptor Created with WikipediaReaderReborn (c) WikipediaReader

https://wn.com/Alpha_4_Beta_2_Nicotinic_Receptor

The alpha-4 beta-2 nicotinic receptor, also known as the α4β2 receptor, is a type of nicotinic acetylcholine receptor implicated in learning, consisting of α4 and β2 subunits. It is located in the brain, where activation yields post- and presynaptic excitation, mainly by increased Na+ and K+ permeability. Stimulation of this receptor subtype is also associated with growth hormone secretion. People with the inactive CHRNA4 mutation Ser248Phe are an average of 10 cm (4 inches) shorter than average and predisposed to obesity. A 2015 review noted that stimulation of the α4β2 nicotinic receptor in the brain is responsible for certain improvements in attentional performance; among the nicotinic receptor subtypes, nicotine has the highest binding affinity at the α4β2 receptor (ki=1 nM), which is also the primary biological target that mediates nicotine's addictive properties.The receptors exist in the two stoichiometries: (α4)2(β2)3 receptors have high sensitivity to nicotine and low Ca2+ permeability (HS receptors) (α4)3(β2)2 receptors have low sensitivity to nicotine and high Ca2+ permeability (LS receptors) Source: https://en.wikipedia.org/wiki/Alpha-4_beta-2_nicotinic_receptor Created with WikipediaReaderReborn (c) WikipediaReader

• published: 25 Apr 2021
• views: 130

5:43

The Nicotinic Receptors

• Order: Reorder
• Duration: 5:43
• Uploaded Date: 26 Apr 2020
• views: 2950

TO READ THE ACCOMPANYING BLOG POST: Blog post ▶ https://www.leoandlongevity.com/post/the-nicotinic-cholinergic-receptors-13 👉🏻 Ways to support and save (affil...

TO READ THE ACCOMPANYING BLOG POST: Blog post ▶ https://www.leoandlongevity.com/post/the-nicotinic-cholinergic-receptors-13 👉🏻 Ways to support and save (affiliate links): - LA Pump: https://lapump.com/?wpam_id=13 Get 10% OFF with code LONGLEO - Nurosym: https://nurosym.com Discount Code: LucieC5 -CosmicNootropic: https://cosmicnootropic.com?coupon-code=319 Get 10% OFF with code LUCIE - Amazon Store: Shop items Leo personally recommended and used https://www.amazon.com/shop/leoandlongevity?ref=ac_inf_tb_vh 🔗 Connect & Explore 🔗 JOIN THE COMMUNITY: Reddit ▶ The Long-Lived Community   / thelonglived   Telegram ▶ https://t.me/+k4x31DY9tgIwM2Fh TikTok ▶ https://www.tiktok.com/@leoandlongevity?_t=8hXP1SML0LG&_r=1 GENETIC ANALYSIS WAITLIST: Website ▶ https://www.yourgenetically.com/ OTHER CHANNELS Lucie ▶    / @luciec.7692   Kids ▶    / @bilinguini   🏷️ Leo's personal book collection now on eBay: https://www.ebay.com/usr/colous7 🌍 Together, Let’s Continue Leo's Legacy In the spirit of Leo's passion for health, wellness, and a life well-lived, let’s continue to explore, learn, and journey through the fascinating world of biohacking, fitness, and cognitive wellness. Your presence here is not just a subscription; it's a torchbearer of Leo's legacy, ensuring his light continues to shine, guide, and inspire future generations.

https://wn.com/The_Nicotinic_Receptors

TO READ THE ACCOMPANYING BLOG POST: Blog post ▶ https://www.leoandlongevity.com/post/the-nicotinic-cholinergic-receptors-13 👉🏻 Ways to support and save (affiliate links): - LA Pump: https://lapump.com/?wpam_id=13 Get 10% OFF with code LONGLEO - Nurosym: https://nurosym.com Discount Code: LucieC5 -CosmicNootropic: https://cosmicnootropic.com?coupon-code=319 Get 10% OFF with code LUCIE - Amazon Store: Shop items Leo personally recommended and used https://www.amazon.com/shop/leoandlongevity?ref=ac_inf_tb_vh 🔗 Connect & Explore 🔗 JOIN THE COMMUNITY: Reddit ▶ The Long-Lived Community   / thelonglived   Telegram ▶ https://t.me/+k4x31DY9tgIwM2Fh TikTok ▶ https://www.tiktok.com/@leoandlongevity?_t=8hXP1SML0LG&_r=1 GENETIC ANALYSIS WAITLIST: Website ▶ https://www.yourgenetically.com/ OTHER CHANNELS Lucie ▶    / @luciec.7692   Kids ▶    / @bilinguini   🏷️ Leo's personal book collection now on eBay: https://www.ebay.com/usr/colous7 🌍 Together, Let’s Continue Leo's Legacy In the spirit of Leo's passion for health, wellness, and a life well-lived, let’s continue to explore, learn, and journey through the fascinating world of biohacking, fitness, and cognitive wellness. Your presence here is not just a subscription; it's a torchbearer of Leo's legacy, ensuring his light continues to shine, guide, and inspire future generations.

• published: 26 Apr 2020
• views: 2950

20:19

Alpha vs. Beta Adrenergic Receptors - Autonomic Nervous System - Physiology and Pharmacology

• Order: Reorder
• Duration: 20:19
• Uploaded Date: 06 Nov 2020
• views: 193899

Nicotinic vs Muscarinic Receptors. Acetylcholine vs Nor-Epinephrine. Cholinergic vs Adrenergic Fibers | Neurology.. 💊 Pharmacology Lectures: https://www.medico...

Nicotinic vs Muscarinic Receptors. Acetylcholine vs Nor-Epinephrine. Cholinergic vs Adrenergic Fibers | Neurology.. 💊 Pharmacology Lectures: https://www.medicosisperfectionalis.com/ 😍🖼Animated Mnemonics (Picmonic): https://www.picmonic.com/viphookup/medicosis/ ► 🧠 Physiology Playlist: https://www.youtube.com/watch?v=6qk_LTVXZ2w&list=PLYcLrRDaR8_eAjmngd289ghWijs2wfqnj&index=2&t=0s ► 🩸 hematology videos: https://www.youtube.com/playlist?list=PLYcLrRDaR8_eoNz6dxXolh1XMEietcniU ► 😍 Support me on Patreon: https://www.patreon.com/medicosis/ ► 🥰 Support me on PayPal: https://www.paypal.me/perfectionalis/ ► 😚 Join my Channel on YouTube: https://www.youtube.com/channel/UCl-J-ovSJhA3or73Q2uVpow/join ► 👨‍🏫 All of my premium courses are ON SALE: https://www.medicosisperfectionalis.com/ ► ❤️ Cardiac Pharmacology: https://www.youtube.com/playlist?list=PLYcLrRDaR8_e3pM6ifeZDfNPlE3K4KF3J ► ❓If you have any questions, please email me at: [email protected] ► 💪 Rheumatology https://www.youtube.com/playlist?list=PLYcLrRDaR8_ckdsow-7buX1rIzIEKfxZQ --If you have joined my channel on youtube (the join button that's next to the subscribe button), then go to the "community tab" and you will find some member-only posts. Thank you so much for supporting my channel! Love ❤️ Happy studying!! 😍🖼Animated Mnemonics (Picmonic): https://www.picmonic.com/viphookup/medicosis/ My Favorite Productivity App: https://airtable.com/invite/r/2zH40fus/ 📊 My favorite Productivity Apps: https://airtable.com/invite/r/2zH40fus/ 📱Save on your mobile phone bill: http://fbuy.me/q6bMj 🏦 Qbank (TrueLearn): https://truelearn.referralrock.com/l/MEDICOSIS/

https://wn.com/Alpha_Vs._Beta_Adrenergic_Receptors_Autonomic_Nervous_System_Physiology_And_Pharmacology

Nicotinic vs Muscarinic Receptors. Acetylcholine vs Nor-Epinephrine. Cholinergic vs Adrenergic Fibers | Neurology.. 💊 Pharmacology Lectures: https://www.medicosisperfectionalis.com/ 😍🖼Animated Mnemonics (Picmonic): https://www.picmonic.com/viphookup/medicosis/ ► 🧠 Physiology Playlist: https://www.youtube.com/watch?v=6qk_LTVXZ2w&list=PLYcLrRDaR8_eAjmngd289ghWijs2wfqnj&index=2&t=0s ► 🩸 hematology videos: https://www.youtube.com/playlist?list=PLYcLrRDaR8_eoNz6dxXolh1XMEietcniU ► 😍 Support me on Patreon: https://www.patreon.com/medicosis/ ► 🥰 Support me on PayPal: https://www.paypal.me/perfectionalis/ ► 😚 Join my Channel on YouTube: https://www.youtube.com/channel/UCl-J-ovSJhA3or73Q2uVpow/join ► 👨‍🏫 All of my premium courses are ON SALE: https://www.medicosisperfectionalis.com/ ► ❤️ Cardiac Pharmacology: https://www.youtube.com/playlist?list=PLYcLrRDaR8_e3pM6ifeZDfNPlE3K4KF3J ► ❓If you have any questions, please email me at: [email protected] ► 💪 Rheumatology https://www.youtube.com/playlist?list=PLYcLrRDaR8_ckdsow-7buX1rIzIEKfxZQ --If you have joined my channel on youtube (the join button that's next to the subscribe button), then go to the "community tab" and you will find some member-only posts. Thank you so much for supporting my channel! Love ❤️ Happy studying!! 😍🖼Animated Mnemonics (Picmonic): https://www.picmonic.com/viphookup/medicosis/ My Favorite Productivity App: https://airtable.com/invite/r/2zH40fus/ 📊 My favorite Productivity Apps: https://airtable.com/invite/r/2zH40fus/ 📱Save on your mobile phone bill: http://fbuy.me/q6bMj 🏦 Qbank (TrueLearn): https://truelearn.referralrock.com/l/MEDICOSIS/

• published: 06 Nov 2020
• views: 193899

5:50

nicotinic & muscarinic, alpha & beta receptors in the ANS

• Order: Reorder
• Duration: 5:50
• Uploaded Date: 11 Nov 2020
• views: 13764

https://wn.com/Nicotinic_Muscarinic,_Alpha_Beta_Receptors_In_The_Ans

• published: 11 Nov 2020
• views: 13764

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10:20

Adrenergic Receptors - CHEAT SHEET!

In this video, Dr Mike shows you a cheat sheet to remember the different kinds of receptor...

published: 27 Mar 2022

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Adrenergic Receptors - CHEAT SHEET!

Adrenergic Receptors - CHEAT SHEET!

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• published: 27 Mar 2022
• views: 316566

In this video, Dr Mike shows you a cheat sheet to remember the different kinds of receptors that detect adrenaline (epinephrine) and noradrenaline (norepinephrine). These receptors are called alpha and beta.

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8:25

Nicotinic cholinergic receptors

Access my FREE Online Membership today → https://www.thenotedanatomist.com ___ Unlock my P...

published: 13 Feb 2021

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Nicotinic cholinergic receptors

Nicotinic cholinergic receptors

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• published: 13 Feb 2021
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Access my FREE Online Membership today → https://www.thenotedanatomist.com ___ Unlock my Premium Tutoring Memberships → https://www.thenotedanatomist.com/premium-memberships Lifetime Access to Online Anatomy Course Foundational Q&A Cards Per Video Notes and Key Takeaways Downloadable Documents Flashcards for Each Course Weekly Group Tutoring Sessions Direct Tutoring Sessions ___ Discover A Simplified Approach to Master the Complexity of Anatomy with me, Dr. David Morton ... The Noted Anatomist! ------------------------------------------------------------------ This video tutorial discusses the Nicotinic cholinergic receptors: 0:00​. Intro 0:17. What are cholinergic receptors? 0:31​. What are nicotinic receptors? 1:47​. What are the 2 types of nicotinic receptors? 2:07​. Nm. Nicotinic muscle receptors - 3:16. Nm receptors and muscle physiology - 4:08. Myasthenia gravis 4:48​. Nn. Nicotinic neuron receptors - 6:17. Nn receptors and Adrenal medulla (Chromaffin cells) 7:08​. In-a-Nutshell 7:41​. Acknowledgements

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3:44

The Nicotinic Acetylcholine Receptor

published: 17 Apr 2024

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The Nicotinic Acetylcholine Receptor

The Nicotinic Acetylcholine Receptor

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• published: 17 Apr 2024
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13:11

Cholinergic Receptors

In this video, Dr Matt explains the receptors that acetylcholine bind to. These receptors ...

published: 04 May 2020

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Cholinergic Receptors

Cholinergic Receptors

• Report rights infringement
• published: 04 May 2020
• views: 129921

In this video, Dr Matt explains the receptors that acetylcholine bind to. These receptors are classified into nicotinic and muscarinic receptors and located in very distinct regions of the body.

• Show More

4:46

Cholinergic Drugs - Pharmacology, Animation

(USMLE topics) Mechanisms of action of cholinergic agonists and antagonists (anticholinerg...

published: 09 Jun 2020

Play in Full Screen

Cholinergic Drugs - Pharmacology, Animation

Cholinergic Drugs - Pharmacology, Animation

• Report rights infringement
• published: 09 Jun 2020
• views: 308749

(USMLE topics) Mechanisms of action of cholinergic agonists and antagonists (anticholinergics): direct and indirect agonists (reversible and irreversible cholinesterase inhibitors), Botox, nicotinic and muscarinic antagonists. Purchase a license to download a non-watermarked version of this video on AlilaMedicalMedia(dot)com Check out our new Alila Academy - AlilaAcademy(dot)com - complete video courses with quizzes, PDFs, and downloadable images. Voice by: Ashley Fleming ©Alila Medical Media. All rights reserved. All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition. Acetylcholine is a major neurotransmitter of the nervous system. It is released by motor neurons at neuromuscular junctions to stimulate skeletal muscle contraction. Acetylcholine is also the primary neurotransmitter of the parasympathetic nervous system responsible for the body’s “rest and digest” state. It slows heartbeats, slows respiratory rate, contracts smooth muscles of the gastrointestinal tract and urinary bladder, stimulates various secretions, and constricts pupils. Acetylcholine is also active in several brain regions associated with cognition and movement. A neuron that uses mainly acetylcholine as neurotransmitter is called a cholinergic neuron. Acetylcholine is an ester of choline. It is synthesized and stored in the nerve terminal. When a cholinergic neuron is stimulated, acetylcholine is released into the synaptic cleft where it binds to its receptor on the postsynaptic cell, triggering cellular response. Acetylcholine is rapidly cleared from the synapse by the enzyme acetylcholinesterase, which binds to acetylcholine and hydrolyzes it into choline and acetate. The enzyme molecule quickly recycles itself each time, ready for another round of reaction. There are 2 main types of acetylcholine receptors: muscarinic and nicotinic, each type has several subtypes, or classes. Each receptor class is specific to certain synapses or tissues. Cholinergic agonists are drugs that mimic or enhance the action of acetylcholine, while cholinergic antagonists are those that inhibit its action. Because action of acetylcholine is widespread, cholinergic drugs may produce lots of side effects when administered systemically. Drugs that target a particular receptor class are more specific and are therefore preferred. Cholinergic agonists can be direct-acting or indirect-acting: Direct-acting agonists mimic acetylcholine, they bind to acetylcholine receptor and activate downstream signaling. They are not easily metabolized by acetylcholinesterase and therefore last longer at the synapse. Examples are drugs used as eye drops to constrict pupil and reduce intraocular pressure for treatment of glaucoma. Some agents are used to increase smooth muscle tone in urinary bladder and gastrointestinal tract, or to stimulate saliva secretion to treat dry mouth. Indirect agonists act by inhibiting the enzyme acetylcholinesterase, thereby increasing the concentration of acetylcholine available at the synapse. Reversible inhibitors form a transient, reversible complex with the enzyme. They slow down the recycling of the enzyme, making it less available for breaking down acetylcholine. Some of these drugs are used to treat myasthenia gravis, or to reverse the effects of anesthesia. Others are given to boost cholinergic activities in Alzheimer’s brain to compensate for the loss of functioning neurons. Irreversible cholinesterase inhibitors bind to the enzyme in an irreversible manner and permanently inactivate it. These drugs are very toxic, they are used as insecticides and “nerve gases”. Cholinergic antagonists inhibit acetylcholine action by several mechanisms: Botulinum toxin, Botox, is a bacterial toxin. It blocks acetylcholine release by inhibiting exocytosis. Botox is used to treat localized muscle spasms, movement disorders and strabismus. It is given by direct injection into the affected muscle. Nicotinic antagonists compete with acetylcholine for binding to nicotinic receptor. They are most commonly used to relax skeletal muscles during surgery. Muscarinic antagonists compete with acetylcholine for binding to muscarinic receptor. They are used to treat bradycardia, diarrhea and bladder spasms, dilate bronchi, reduce secretions, and dilate pupils. Some are used as sedatives and to counteract cholinesterase inhibitors.

• Show More

8:31

Introduction to Nicotinic Acetylcholine Receptors Part 4

In this video we discuss the subunits of the nicotinic acetylcholine receptors and look at...

published: 26 Nov 2014

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Introduction to Nicotinic Acetylcholine Receptors Part 4

Introduction to Nicotinic Acetylcholine Receptors Part 4

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• published: 26 Nov 2014
• views: 3299

In this video we discuss the subunits of the nicotinic acetylcholine receptors and look at the subunit composition of the major types of nicotinic acetylcholine receptor.

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3:42

Alpha-4 beta-2 nicotinic receptor

The alpha-4 beta-2 nicotinic receptor, also known as the α4β2 receptor, is a type of nicot...

published: 25 Apr 2021

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Alpha-4 beta-2 nicotinic receptor

Alpha-4 beta-2 nicotinic receptor

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• published: 25 Apr 2021
• views: 130

The alpha-4 beta-2 nicotinic receptor, also known as the α4β2 receptor, is a type of nicotinic acetylcholine receptor implicated in learning, consisting of α4 and β2 subunits. It is located in the brain, where activation yields post- and presynaptic excitation, mainly by increased Na+ and K+ permeability. Stimulation of this receptor subtype is also associated with growth hormone secretion. People with the inactive CHRNA4 mutation Ser248Phe are an average of 10 cm (4 inches) shorter than average and predisposed to obesity. A 2015 review noted that stimulation of the α4β2 nicotinic receptor in the brain is responsible for certain improvements in attentional performance; among the nicotinic receptor subtypes, nicotine has the highest binding affinity at the α4β2 receptor (ki=1 nM), which is also the primary biological target that mediates nicotine's addictive properties.The receptors exist in the two stoichiometries: (α4)2(β2)3 receptors have high sensitivity to nicotine and low Ca2+ permeability (HS receptors) (α4)3(β2)2 receptors have low sensitivity to nicotine and high Ca2+ permeability (LS receptors) Source: https://en.wikipedia.org/wiki/Alpha-4_beta-2_nicotinic_receptor Created with WikipediaReaderReborn (c) WikipediaReader

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5:43

The Nicotinic Receptors

TO READ THE ACCOMPANYING BLOG POST: Blog post ▶ https://www.leoandlongevity.com/post/the-...

published: 26 Apr 2020

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The Nicotinic Receptors

The Nicotinic Receptors

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Alpha vs. Beta Adrenergic Receptors - Autonomic Nervous System - Physiology and Pharmacology

Nicotinic vs Muscarinic Receptors. Acetylcholine vs Nor-Epinephrine. Cholinergic vs Adrene...

published: 06 Nov 2020

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Alpha vs. Beta Adrenergic Receptors - Autonomic Nervous System - Physiology and Pharmacology

Alpha vs. Beta Adrenergic Receptors - Autonomic Nervous System - Physiology and Pharmacology

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• published: 06 Nov 2020
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nicotinic & muscarinic, alpha & beta receptors in the ANS

published: 11 Nov 2020

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nicotinic & muscarinic, alpha & beta receptors in the ANS

nicotinic & muscarinic, alpha & beta receptors in the ANS

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Alpha-3 beta-4 nicotinic receptor

The alpha-3 beta-4 nicotinic receptor, also known as the α₃β₄ receptor, is a type of nicotinic acetylcholine receptor, consisting of α₃ and β₄ subunits. It is located in the autonomic ganglia and adrenal medulla, where activation yields post- and/or presynaptic excitation.

As with other nicotinic acetylcholine receptors, the α₃β₄ receptor is pentameric [(α₃)_m(β₄)_n where m + n = 5]. The exact subunit stoichiometry is not known and it is possible that more than one functional α₃β₄ receptor assembles in vivo with varying subunit stoichiometries.

Ligands

Agonists

Acetylcholine (endogenous neuromodulator that binds non-selectively to nAChRs and mAChRs.)

Carbachol

Cytisine

Epibatidine

Nicotine

RJR-2429

Antagonists

Competitive

DHβE

compound 5, highly selective over α₄β₂ and α₇

Noncompetitive

Dextromethorphan

Dextrorphan

Dextropropoxyphene

Hexamethonium

Imipramine, K(d) = 0.41 μM

Levacetylmethadol

Mecamylamine

Methadone

Tubocurarine

Bupropion

Reboxetine

Ibogaine

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Alpha-3_beta-4_nicotinic_receptor

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