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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Roles of Irx3/5 in Mouse Hindlimb Development

Li, Danyi 19 March 2013 (has links)
Iroquois (Irx) homeobox genes have important and redundant functions during embryogenesis. Irx3/5 double knock out (Irx3/5 KO) mouse embryos exhibit severe hindlimb phenotypes. In these mutant hindlimbs, digit 1 and tibia are absent, moreover femur and pelvis are hypoplastic. Here, we demonstrate that Irx3/5 are expressed in the hindlimb field prior to limb bud initiation, and are required at this early stage for the pattern formation along the anteroposterior axis. Their early function is involved in prepatterning and positioning the Shh expression domain. In addition, Irx3/5 KO mutant hindlimb buds have a mild outgrowth defect and increased cell death at early stages of limb development, which may explain the small hindlimb bud size in these mutant embryos. To examine whether Irx3/5-expressing cells are the origin of lost and affected structures in Irx3/5 KO mutant hindlimbs, targeting vectors with Cre genes inserted into the Irx5 locus have been generated.
2

Roles of Irx3/5 in Mouse Hindlimb Development

Li, Danyi 19 March 2013 (has links)
Iroquois (Irx) homeobox genes have important and redundant functions during embryogenesis. Irx3/5 double knock out (Irx3/5 KO) mouse embryos exhibit severe hindlimb phenotypes. In these mutant hindlimbs, digit 1 and tibia are absent, moreover femur and pelvis are hypoplastic. Here, we demonstrate that Irx3/5 are expressed in the hindlimb field prior to limb bud initiation, and are required at this early stage for the pattern formation along the anteroposterior axis. Their early function is involved in prepatterning and positioning the Shh expression domain. In addition, Irx3/5 KO mutant hindlimb buds have a mild outgrowth defect and increased cell death at early stages of limb development, which may explain the small hindlimb bud size in these mutant embryos. To examine whether Irx3/5-expressing cells are the origin of lost and affected structures in Irx3/5 KO mutant hindlimbs, targeting vectors with Cre genes inserted into the Irx5 locus have been generated.

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