SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2616231812> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2616231812 abstract "Despite the extensive use of zebrafish as a model organism in developmental biology and regeneration research, genetic techniques enabling conditional analysis of gene function are limited. In this study, we generated Zwitch, a Cre-dependent invertible gene-trap cassette, enabling the establishment of conditional alleles in zebrafish by generating intronic insertions via in vivo homologous recombination. To demonstrate the utility of Zwitch, we generated a conditional sonic hedgehog a (shha) allele. Homozygous shha mutants developed normally; however, shha mutant embryos globally expressing Cre exhibited strong reductions in endogenous shha and shha target gene mRNA levels and developmental defects associated with null shha mutations. Analyzing a conditional shha mutant generated using an epicardium-specific inducible Cre driver revealed unique roles for epicardium-derived Shha in myocardial proliferation during heart development and regeneration. Zwitch will extend the utility of zebrafish in organ development and regeneration research and might be applicable to other model organisms." @default.
W2616231812 created "2017-05-26" @default.
W2616231812 creator A5012795226 @default.
W2616231812 creator A5035107395 @default.
W2616231812 creator A5086608461 @default.
W2616231812 creator A5091286653 @default.
W2616231812 date "2017-05-17" @default.
W2616231812 modified "2023-10-16" @default.
W2616231812 title "Dissection of zebrafish shha function using site-specific targeting with a Cre-dependent genetic switch" @default.
W2616231812 cites W1527331090 @default.
W2616231812 cites W1598852815 @default.
W2616231812 cites W1964008442 @default.
W2616231812 cites W1967825495 @default.
W2616231812 cites W1974044024 @default.
W2616231812 cites W1975805528 @default.
W2616231812 cites W1976271397 @default.
W2616231812 cites W1982088367 @default.
W2616231812 cites W1985422522 @default.
W2616231812 cites W1993834457 @default.
W2616231812 cites W1994163844 @default.
W2616231812 cites W1995714143 @default.
W2616231812 cites W1998512131 @default.
W2616231812 cites W1999068651 @default.
W2616231812 cites W2008910194 @default.
W2616231812 cites W2011002931 @default.
W2616231812 cites W2013253012 @default.
W2616231812 cites W2018164760 @default.
W2616231812 cites W2019144299 @default.
W2616231812 cites W2026283546 @default.
W2616231812 cites W2029742986 @default.
W2616231812 cites W2038850974 @default.
W2616231812 cites W2058823301 @default.
W2616231812 cites W2060297895 @default.
W2616231812 cites W2061865551 @default.
W2616231812 cites W2066346897 @default.
W2616231812 cites W2068166332 @default.
W2616231812 cites W2074825140 @default.
W2616231812 cites W2082472219 @default.
W2616231812 cites W2083216531 @default.
W2616231812 cites W2086493260 @default.
W2616231812 cites W2088130353 @default.
W2616231812 cites W2088320964 @default.
W2616231812 cites W2091092670 @default.
W2616231812 cites W2101024791 @default.
W2616231812 cites W2102080233 @default.
W2616231812 cites W2102638266 @default.
W2616231812 cites W2110444739 @default.
W2616231812 cites W2114838239 @default.
W2616231812 cites W2115833116 @default.
W2616231812 cites W2121633690 @default.
W2616231812 cites W2126747203 @default.
W2616231812 cites W2136002991 @default.
W2616231812 cites W2139186150 @default.
W2616231812 cites W2143599741 @default.
W2616231812 cites W2149161770 @default.
W2616231812 cites W2151214732 @default.
W2616231812 cites W2153558636 @default.
W2616231812 cites W2167116126 @default.
W2616231812 cites W2168245648 @default.
W2616231812 cites W2170039745 @default.
W2616231812 cites W2175969608 @default.
W2616231812 cites W2180906670 @default.
W2616231812 cites W2310958769 @default.
W2616231812 cites W2412094269 @default.
W2616231812 cites W2597423497 @default.
W2616231812 doi "https://doi.org/10.7554/elife.24635" @default.
W2616231812 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5435461" @default.
W2616231812 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28513431" @default.
W2616231812 hasPublicationYear "2017" @default.
W2616231812 type Work @default.
W2616231812 sameAs 2616231812 @default.
W2616231812 citedByCount "35" @default.
W2616231812 countsByYear W26162318122018 @default.
W2616231812 countsByYear W26162318122019 @default.
W2616231812 countsByYear W26162318122020 @default.
W2616231812 countsByYear W26162318122021 @default.
W2616231812 countsByYear W26162318122022 @default.
W2616231812 countsByYear W26162318122023 @default.
W2616231812 crossrefType "journal-article" @default.
W2616231812 hasAuthorship W2616231812A5012795226 @default.
W2616231812 hasAuthorship W2616231812A5035107395 @default.
W2616231812 hasAuthorship W2616231812A5086608461 @default.
W2616231812 hasAuthorship W2616231812A5091286653 @default.
W2616231812 hasBestOaLocation W26162318121 @default.
W2616231812 hasConcept C102744134 @default.
W2616231812 hasConcept C104317684 @default.
W2616231812 hasConcept C111829913 @default.
W2616231812 hasConcept C127716648 @default.
W2616231812 hasConcept C143065580 @default.
W2616231812 hasConcept C164659718 @default.
W2616231812 hasConcept C183074962 @default.
W2616231812 hasConcept C19843653 @default.
W2616231812 hasConcept C207177822 @default.
W2616231812 hasConcept C2776878037 @default.
W2616231812 hasConcept C54355233 @default.
W2616231812 hasConcept C57708383 @default.
W2616231812 hasConcept C86803240 @default.
W2616231812 hasConcept C95444343 @default.
W2616231812 hasConceptScore W2616231812C102744134 @default.
W2616231812 hasConceptScore W2616231812C104317684 @default.