Topics
Mus musculusMammal
MiniopterusInsect
RNAChemical compound
mouseMammal
vertebrateAnimal
cDNASpecies
geneOrganisation
interdigital webbingDisease
genomeChemical compound
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Natal Long-fingered batMammal
Includes bibliographical references.The Myeloid ecotropic insertion site 2 (Meis2) gene is an important transcriptional regulator involved in the pattering of the limb during vertebrate development. In the forelimbs (wings) of bats the expression Meis2 was shown to be differentially expressed when compared to mice forelimbs. Meis2 was found to be present in the interdigital webbing of the autopod (hand) of the developing bat forelimb. In both the mouse and the bat, two separate transcripts were discovered to be expressed from the 3’and 5’ region of the Meis2 locus. The 3’ transcripts corresponded to annotated Meis2 mRNA transcripts, the 5’ transcript corresponded to an mRNA transcript that did not code for any known protein. The 5’ transcri...
Gene regulation can contribute to phenotypic divergence across species and cell types. By comparing ...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
Bats are the only mammals capable of self-powered flight using wings. Differing from mouse or human ...
BackgroundThe bat has strikingly divergent forelimbs (long digits supporting wing membranes) and hin...
<div><p>Bats are the only mammals capable of self-powered flight using wings. Differing from mouse o...
This study reports the first characterisation of the embryonic bat limb transcriptome, allowing the ...
<div><p>The molecular events leading to the development of the bat wing remain largely unknown, and ...
<p>FI: forelimb digit I; FW: interdigital tissues between forelimb digits I and II; FD: elongating f...
Vertebrate limbs classically illustrate the morphological diversity of homologous structure. Bat li...
Author Summary: The limb is a classic example of vertebrate homology and is represented by a large r...
© 2016 Nature America, Inc.Bats are the only mammals capable of powered flight, but little is known ...
© 2016 Nature America, Inc.Bats are the only mammals capable of powered flight, but little is known ...
Abstract Background As the only truly flying mammals,...
Abstract Background As the only truly flying mammals,...
Gene regulation can contribute to phenotypic divergence across species and cell types. By comparing ...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
Bats are the only mammals capable of self-powered flight using wings. Differing from mouse or human ...
BackgroundThe bat has strikingly divergent forelimbs (long digits supporting wing membranes) and hin...
<div><p>Bats are the only mammals capable of self-powered flight using wings. Differing from mouse o...
This study reports the first characterisation of the embryonic bat limb transcriptome, allowing the ...
<div><p>The molecular events leading to the development of the bat wing remain largely unknown, and ...
<p>FI: forelimb digit I; FW: interdigital tissues between forelimb digits I and II; FD: elongating f...
Vertebrate limbs classically illustrate the morphological diversity of homologous structure. Bat li...
Author Summary: The limb is a classic example of vertebrate homology and is represented by a large r...
© 2016 Nature America, Inc.Bats are the only mammals capable of powered flight, but little is known ...
© 2016 Nature America, Inc.Bats are the only mammals capable of powered flight, but little is known ...
Abstract Background As the only truly flying mammals,...
Abstract Background As the only truly flying mammals,...
Gene regulation can contribute to phenotypic divergence across species and cell types. By comparing ...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
© 2016 Booker et al.The molecular events leading to the development of the bat wing remain largely u...
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