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W1567384144 endingPage "1249" @default.
W1567384144 startingPage "1236" @default.
W1567384144 abstract "Background : The transient receptor potential melastatin (TRPM) gene family belongs to the superfamily of nonselective TRP ion channels. TRP channels are cellular sensors, detecting a multitude of inputs, including temperature, light, chemical, and mechanical stimuli. Recent studies revealed diverse roles during development, linking TRP channels to differentiation, proliferation, cell motility, cell death, and survival. A detailed description of this gene family in the zebrafish is still missing. Results: Phylogenetic analysis revealed 11 trpm genes in the zebrafish genome. The zebrafish orthologs of mammalian TRPM1 and TRPM4 are duplicated and quadruplicated, respectively, and TRPM8, a cold sensitive channel has been lost in zebrafish. Whole‐mount in situ hybridization experiments revealed dynamic expression pattern of trpm genes in the developing embryo and early larva. Transcripts were mainly found in neural cell clusters, but also in tissues involved in ion homeostasis. Conclusions: Our results suggest a role of TRPM channels in sensory information processing, including vision, olfaction, taste, and mechanosensation. An involvement in developmental processes is likely, as some trpm genes were found to be expressed in differentiating cells. Our data now provide a basis for functional analyses of this gene family of ion channels in the vertebrate model organism Danio rerio . Developmental Dynamics 242:1236–1249, 2013 . © 2013 Wiley Periodicals, Inc." @default.
W1567384144 created "2016-06-24" @default.
W1567384144 creator A5023425179 @default.
W1567384144 creator A5023780433 @default.
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W1567384144 creator A5056323649 @default.
W1567384144 date "2013-09-30" @default.
W1567384144 modified "2023-10-16" @default.
W1567384144 title "Phylogenetic analysis and expression of zebrafish transient receptor potential melastatin family genes" @default.
W1567384144 cites W10775964 @default.
W1567384144 cites W1537218374 @default.
W1567384144 cites W1567917794 @default.
W1567384144 cites W1582286758 @default.
W1567384144 cites W1600903666 @default.
W1567384144 cites W184949211 @default.
W1567384144 cites W1883029646 @default.
W1567384144 cites W1912362810 @default.
W1567384144 cites W1947859348 @default.
W1567384144 cites W1966740493 @default.
W1567384144 cites W1968669063 @default.
W1567384144 cites W1969509501 @default.
W1567384144 cites W1974058597 @default.
W1567384144 cites W1977632091 @default.
W1567384144 cites W1978020953 @default.
W1567384144 cites W1978493129 @default.
W1567384144 cites W1981688857 @default.
W1567384144 cites W1983127589 @default.
W1567384144 cites W1993985464 @default.
W1567384144 cites W1995330222 @default.
W1567384144 cites W2006471221 @default.
W1567384144 cites W2010331424 @default.
W1567384144 cites W2010795846 @default.
W1567384144 cites W2016952654 @default.
W1567384144 cites W2030217811 @default.
W1567384144 cites W2031994597 @default.
W1567384144 cites W2033182545 @default.
W1567384144 cites W2034144407 @default.
W1567384144 cites W2038893023 @default.
W1567384144 cites W2048997930 @default.
W1567384144 cites W2055281290 @default.
W1567384144 cites W2057270842 @default.
W1567384144 cites W2060255923 @default.
W1567384144 cites W2064328134 @default.
W1567384144 cites W2065341014 @default.
W1567384144 cites W2067285199 @default.
W1567384144 cites W2073293904 @default.
W1567384144 cites W2074716607 @default.
W1567384144 cites W2076969615 @default.
W1567384144 cites W2078711980 @default.
W1567384144 cites W2081614214 @default.
W1567384144 cites W2086104179 @default.
W1567384144 cites W2086339199 @default.
W1567384144 cites W2092370766 @default.
W1567384144 cites W2092480048 @default.
W1567384144 cites W2092644330 @default.
W1567384144 cites W2093279717 @default.
W1567384144 cites W2094691641 @default.
W1567384144 cites W2094910328 @default.
W1567384144 cites W2095104495 @default.
W1567384144 cites W2095955574 @default.
W1567384144 cites W2098352701 @default.
W1567384144 cites W2101275612 @default.
W1567384144 cites W2107057154 @default.
W1567384144 cites W2114610934 @default.
W1567384144 cites W2128749538 @default.
W1567384144 cites W2130685053 @default.
W1567384144 cites W2152976830 @default.
W1567384144 cites W2153649171 @default.
W1567384144 cites W2157174760 @default.
W1567384144 cites W2157469754 @default.
W1567384144 cites W2157649826 @default.
W1567384144 cites W2158754769 @default.
W1567384144 cites W2159430501 @default.
W1567384144 cites W2163323412 @default.
W1567384144 cites W2164558765 @default.
W1567384144 cites W2166165431 @default.
W1567384144 cites W2167318614 @default.
W1567384144 cites W3143292036 @default.
W1567384144 cites W4233595534 @default.
W1567384144 cites W4241897948 @default.
W1567384144 cites W4379089764 @default.
W1567384144 doi "https://doi.org/10.1002/dvdy.24020" @default.
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