The emergence following gene duplication of a large repertoire of Hox paralogue proteins underlies the importance taken by Hox proteins in controlling animal body plans in development and evolution. Sequence divergence of paralogous proteins accounts for functional specialization, promoting axial morphological diversification in bilaterian animals. Yet functionally specialized paralogous Hox proteins also continue performing ancient common functions. In this study, we investigate how highly divergent Hox proteins perform an identical function. This was achieved by comparing in Drosophila the mode of limb suppression by the central (Ultrabithorax and AbdominalA) and posterior class (AbdominalB) Hox proteins. Results highlight that Hox-mediat...
AbstractIn Drosophila, differences between segments, such as the presence or absence of appendages, ...
Despite tremendous body form diversity in nature, bilaterian animals share common sets of developmen...
International audienceDespite tremendous body form diversity in nature, bilaterian animals share com...
International audienceThe emergence following gene duplication of a large repertoire of Hox paralogu...
<div><p>The emergence following gene duplication of a large repertoire of Hox paralogue proteins und...
International audienceThe emergence following gene duplication of a large repertoire of Hox paralogu...
International audienceHox genes encode transcription factors widely used for diversifying animal bod...
International audienceHox genes encode transcription factors widely used for diversifying animal bod...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractIn Drosophila, differences between segments, such as the presence or absence of appendages, ...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
AbstractIn Drosophila, differences between segments, such as the presence or absence of appendages, ...
Despite tremendous body form diversity in nature, bilaterian animals share common sets of developmen...
International audienceDespite tremendous body form diversity in nature, bilaterian animals share com...
International audienceThe emergence following gene duplication of a large repertoire of Hox paralogu...
<div><p>The emergence following gene duplication of a large repertoire of Hox paralogue proteins und...
International audienceThe emergence following gene duplication of a large repertoire of Hox paralogu...
International audienceHox genes encode transcription factors widely used for diversifying animal bod...
International audienceHox genes encode transcription factors widely used for diversifying animal bod...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
Despite decades of research, morphogenesis along the various body axes remains one of the major myst...
AbstractIn Drosophila, differences between segments, such as the presence or absence of appendages, ...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
Abstract Hox genes encode Homeodomain-containing transcription factors, which specify segmental iden...
AbstractIn Drosophila, differences between segments, such as the presence or absence of appendages, ...
Despite tremendous body form diversity in nature, bilaterian animals share common sets of developmen...
International audienceDespite tremendous body form diversity in nature, bilaterian animals share com...