FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1059096980> ?p ?o ?g. }

• W1059096980 endingPage "73" @default.
• W1059096980 startingPage "A166" @default.
• W1059096980 abstract "The neural networks that control escape from predators often show very clear relationships between defined sensory inputs and stereotyped motor outputs. This feature provides unique opportunities for researchers, but it also provides novel opportunities for neuroscience educators. Here we introduce new teaching modules using adult Drosophila that have been engineered to express csChrimson, a red-light sensitive channelrhodopsin, in specific sets of neurons and muscles mediating visually guided escape behaviors. This lab module consists of both behavior and electrophysiology experiments that explore the neural basis of flight escape. Three preparations are described that demonstrate photo-activation of the giant fiber circuit and how to quantify these behaviors. One of the preparations is then used to acquire intracellular electrophysiology recordings from different flight muscles. The diversity of action potential waveforms and firing frequencies observed in the flight muscles make this a rich preparation to study the ionic basic of cellular excitability. By activating different cells within the giant fiber pathway we also demonstrate principles of synaptic transmission and neural circuits. Beyond conveying core neurobiological concepts it is also expected that using these cutting edge techniques will enhance student motivation and attitudes towards biological research. Data collected from students and educators who have been involved in development of the module are presented to support this notion." @default.
• W1059096980 created "2016-06-24" @default.
• W1059096980 creator A5078080770 @default.
• W1059096980 creator A5081400236 @default.
• W1059096980 creator A5090090741 @default.
• W1059096980 date "2015-01-01" @default.
• W1059096980 modified "2023-09-23" @default.
• W1059096980 title "Light Activated Escape Circuits: A Behavior and Neurophysiology Lab Module using Drosophila Optogenetics." @default.
• W1059096980 cites W1523767079 @default.
• W1059096980 cites W1561725912 @default.
• W1059096980 cites W1774095733 @default.
• W1059096980 cites W1977675569 @default.
• W1059096980 cites W1985940938 @default.
• W1059096980 cites W2008437740 @default.
• W1059096980 cites W2009456956 @default.
• W1059096980 cites W2012900072 @default.
• W1059096980 cites W2014157733 @default.
• W1059096980 cites W2030270217 @default.
• W1059096980 cites W2032771021 @default.
• W1059096980 cites W2036226806 @default.
• W1059096980 cites W2049121574 @default.
• W1059096980 cites W2058082904 @default.
• W1059096980 cites W2059225708 @default.
• W1059096980 cites W2067069907 @default.
• W1059096980 cites W2070566852 @default.
• W1059096980 cites W2073450451 @default.
• W1059096980 cites W2088636269 @default.
• W1059096980 cites W2094015599 @default.
• W1059096980 cites W2097756276 @default.
• W1059096980 cites W2110643873 @default.
• W1059096980 cites W2118397392 @default.
• W1059096980 cites W2160890795 @default.
• W1059096980 cites W2171151932 @default.
• W1059096980 cites W2175728248 @default.
• W1059096980 cites W2395340933 @default.
• W1059096980 cites W2414121740 @default.
• W1059096980 cites W2418359239 @default.
• W1059096980 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4521734" @default.
• W1059096980 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26240526" @default.
• W1059096980 hasPublicationYear "2015" @default.
• W1059096980 type Work @default.
• W1059096980 sameAs 1059096980 @default.
• W1059096980 citedByCount "13" @default.
• W1059096980 countsByYear W10590969802016 @default.
• W1059096980 countsByYear W10590969802017 @default.
• W1059096980 countsByYear W10590969802018 @default.
• W1059096980 countsByYear W10590969802020 @default.
• W1059096980 countsByYear W10590969802022 @default.
• W1059096980 crossrefType "journal-article" @default.
• W1059096980 hasAuthorship W1059096980A5078080770 @default.
• W1059096980 hasAuthorship W1059096980A5081400236 @default.
• W1059096980 hasAuthorship W1059096980A5090090741 @default.
• W1059096980 hasConcept C118403218 @default.
• W1059096980 hasConcept C152478114 @default.
• W1059096980 hasConcept C169760540 @default.
• W1059096980 hasConcept C185263204 @default.
• W1059096980 hasConcept C37218471 @default.
• W1059096980 hasConcept C41008148 @default.
• W1059096980 hasConcept C50738837 @default.
• W1059096980 hasConcept C86803240 @default.
• W1059096980 hasConcept C94487597 @default.
• W1059096980 hasConceptScore W1059096980C118403218 @default.
• W1059096980 hasConceptScore W1059096980C152478114 @default.
• W1059096980 hasConceptScore W1059096980C169760540 @default.
• W1059096980 hasConceptScore W1059096980C185263204 @default.
• W1059096980 hasConceptScore W1059096980C37218471 @default.
• W1059096980 hasConceptScore W1059096980C41008148 @default.
• W1059096980 hasConceptScore W1059096980C50738837 @default.
• W1059096980 hasConceptScore W1059096980C86803240 @default.
• W1059096980 hasConceptScore W1059096980C94487597 @default.
• W1059096980 hasIssue "3" @default.
• W1059096980 hasLocation W10590969801 @default.
• W1059096980 hasOpenAccess W1059096980 @default.
• W1059096980 hasPrimaryLocation W10590969801 @default.
• W1059096980 hasRelatedWork W1774095733 @default.
• W1059096980 hasRelatedWork W2011814333 @default.
• W1059096980 hasRelatedWork W2034581149 @default.
• W1059096980 hasRelatedWork W2036962817 @default.
• W1059096980 hasRelatedWork W2119070939 @default.
• W1059096980 hasRelatedWork W2294690275 @default.
• W1059096980 hasRelatedWork W2316588199 @default.
• W1059096980 hasRelatedWork W2398713785 @default.
• W1059096980 hasRelatedWork W2949578532 @default.
• W1059096980 hasRelatedWork W2994081608 @default.
• W1059096980 hasVolume "13" @default.
• W1059096980 isParatext "false" @default.
• W1059096980 isRetracted "false" @default.
• W1059096980 magId "1059096980" @default.
• W1059096980 workType "article" @default.