SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136644488> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3136644488 endingPage "e0248688" @default.
W3136644488 startingPage "e0248688" @default.
W3136644488 abstract "Voltage-gated potassium (Kv) channels regulate the membrane potential and conductance of excitable cells to control the firing rate and waveform of action potentials. Even though Kv channels have been intensely studied for over 70 year, surprisingly little is known about how specific channels expressed in various neurons and their functional properties impact neuronal network activity and behavior in vivo. Although many in vivo genetic manipulations of ion channels have been tried, interpretation of these results is complicated by powerful homeostatic plasticity mechanisms that act to maintain function following perturbations in excitability. To better understand how Kv channels shape network function and behavior, we have developed a novel optogenetic technology to acutely regulate Kv channel expression with light by fusing the light-sensitive LOV domain of Vaucheria frigida Aureochrome 1 to the N-terminus of the Kv1 subunit protein to make an Opto-Kv1 channel. Recording of Opto-Kv1 channels expressed in Xenopus oocytes, mammalian cells, and neurons show that blue light strongly induces the current expression of Opto-Kv1 channels in all systems tested. We also find that an Opto-Kv1 construct containing a dominant-negative pore mutation (Opto-Kv1(V400D)) can be used to down-regulate Kv1 currents in a blue light-dependent manner. Finally, to determine whether Opto-Kv1 channels can elicit light-dependent behavioral effect in vivo, we targeted Opto-Kv1 (V400D) expression to Kv1.3-expressing mitral cells of the olfactory bulb in mice. Exposure of the bulb to blue light for 2-3 hours produced a significant increase in sensitivity to novel odors after initial habituation to a similar odor, comparable to behavioral changes seen in Kv1.3 knockout animals. In summary, we have developed novel photoactivatable Kv channels that provide new ways to interrogate neural circuits in vivo and to examine the roles of normal and disease-causing mutant Kv channels in brain function and behavior." @default.
W3136644488 created "2021-03-29" @default.
W3136644488 creator A5034485663 @default.
W3136644488 creator A5047948555 @default.
W3136644488 creator A5057357734 @default.
W3136644488 creator A5072694097 @default.
W3136644488 creator A5087868554 @default.
W3136644488 date "2021-03-23" @default.
W3136644488 modified "2023-09-26" @default.
W3136644488 title "Light-regulated voltage-gated potassium channels for acute interrogation of channel function in neurons and behavior" @default.
W3136644488 cites W1233451781 @default.
W3136644488 cites W1484294450 @default.
W3136644488 cites W1484831044 @default.
W3136644488 cites W1549027306 @default.
W3136644488 cites W1777273393 @default.
W3136644488 cites W1964566372 @default.
W3136644488 cites W1974338734 @default.
W3136644488 cites W1974863908 @default.
W3136644488 cites W1975563117 @default.
W3136644488 cites W1976455693 @default.
W3136644488 cites W1992745080 @default.
W3136644488 cites W2001831734 @default.
W3136644488 cites W2002239943 @default.
W3136644488 cites W2002300224 @default.
W3136644488 cites W2005940699 @default.
W3136644488 cites W2008505362 @default.
W3136644488 cites W2017989702 @default.
W3136644488 cites W2037179984 @default.
W3136644488 cites W2040688084 @default.
W3136644488 cites W2043216372 @default.
W3136644488 cites W2046780323 @default.
W3136644488 cites W2050140768 @default.
W3136644488 cites W2050606229 @default.
W3136644488 cites W2054068918 @default.
W3136644488 cites W2054792009 @default.
W3136644488 cites W2055045552 @default.
W3136644488 cites W2056776817 @default.
W3136644488 cites W2060893463 @default.
W3136644488 cites W2061025473 @default.
W3136644488 cites W2061098055 @default.
W3136644488 cites W2079455402 @default.
W3136644488 cites W2079800168 @default.
W3136644488 cites W2079864604 @default.
W3136644488 cites W2080378360 @default.
W3136644488 cites W2082744139 @default.
W3136644488 cites W2086749784 @default.
W3136644488 cites W2094137857 @default.
W3136644488 cites W2094154412 @default.
W3136644488 cites W2094410817 @default.
W3136644488 cites W2099587101 @default.
W3136644488 cites W2104755463 @default.
W3136644488 cites W2118751104 @default.
W3136644488 cites W2123314185 @default.
W3136644488 cites W2124377932 @default.
W3136644488 cites W2132504999 @default.
W3136644488 cites W2136430787 @default.
W3136644488 cites W2171833061 @default.
W3136644488 cites W2292491794 @default.
W3136644488 cites W2511440169 @default.
W3136644488 cites W2582950460 @default.
W3136644488 cites W2808478450 @default.
W3136644488 cites W2808848024 @default.
W3136644488 cites W2923091661 @default.
W3136644488 cites W2940913701 @default.
W3136644488 cites W2970269385 @default.
W3136644488 cites W3016351580 @default.
W3136644488 cites W3031353867 @default.
W3136644488 cites W3033532275 @default.
W3136644488 doi "https://doi.org/10.1371/journal.pone.0248688" @default.
W3136644488 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7987177" @default.
W3136644488 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33755670" @default.
W3136644488 hasPublicationYear "2021" @default.
W3136644488 type Work @default.
W3136644488 sameAs 3136644488 @default.
W3136644488 citedByCount "3" @default.
W3136644488 countsByYear W31366444882022 @default.
W3136644488 countsByYear W31366444882023 @default.
W3136644488 crossrefType "journal-article" @default.
W3136644488 hasAuthorship W3136644488A5034485663 @default.
W3136644488 hasAuthorship W3136644488A5047948555 @default.
W3136644488 hasAuthorship W3136644488A5057357734 @default.
W3136644488 hasAuthorship W3136644488A5072694097 @default.
W3136644488 hasAuthorship W3136644488A5087868554 @default.
W3136644488 hasBestOaLocation W31366444881 @default.
W3136644488 hasConcept C104317684 @default.
W3136644488 hasConcept C12554922 @default.
W3136644488 hasConcept C147944092 @default.
W3136644488 hasConcept C169760540 @default.
W3136644488 hasConcept C170493617 @default.
W3136644488 hasConcept C181911157 @default.
W3136644488 hasConcept C185263204 @default.
W3136644488 hasConcept C185592680 @default.
W3136644488 hasConcept C2779535977 @default.
W3136644488 hasConcept C2780496858 @default.
W3136644488 hasConcept C50254741 @default.
W3136644488 hasConcept C50738837 @default.
W3136644488 hasConcept C529278444 @default.
W3136644488 hasConcept C55493867 @default.