P Farlie1, C Reid, S Wilcox, J Peeters, G Reed, D Newgreen. 1. Murdoch Children's Research Institute, Royal Children's Hospital, Flemington Road, Melbourne, Parkville 3052, Australia. farliep@cryptic.rch.unimelb.edu.au
Abstract
BACKGROUND: Embryonic development depends on the regulation of cell morphology and behaviour to carry out morphogenesis. One example of this is the development of the face, which is constructed from independent blocks of tissue that must grow in a coordinated way and then fuse to form a continuous tissue. RESULTS: We have isolated a novel gene of unknown function from mouse and quail embryos in a search for genes involved in craniofacial development. Sequence analysis of this gene, known as Ypel1, demonstrates a striking level of amino acid conservation between vertebrates and invertebrates but no significant homology with any other characterized genes. Ypel1 is expressed in the ventral half of early embryos including the branchial arches from which the face derives. Ypel1 localizes to the nucleus, and transfection into fibroblasts induces an epithelial-like transition, which is accompanied by alterations to the cytoskeleton and cell adhesion machinery. In addition, human YPEL1 localizes to chromosome 22q11.2, a region associated with a number of syndromes involving malformation of the craniofacial complex. CONCLUSION: These data suggest a role in regulation of cellular morphology and behaviour that is important for development of the craniofacial complex.
BACKGROUND: Embryonic development depends on the regulation of cell morphology and behaviour to carry out morphogenesis. One example of this is the development of the face, which is constructed from independent blocks of tissue that must grow in a coordinated way and then fuse to form a continuous tissue. RESULTS: We have isolated a novel gene of unknown function from mouse and quail embryos in a search for genes involved in craniofacial development. Sequence analysis of this gene, known as Ypel1, demonstrates a striking level of amino acid conservation between vertebrates and invertebrates but no significant homology with any other characterized genes. Ypel1 is expressed in the ventral half of early embryos including the branchial arches from which the face derives. Ypel1 localizes to the nucleus, and transfection into fibroblasts induces an epithelial-like transition, which is accompanied by alterations to the cytoskeleton and cell adhesion machinery. In addition, humanYPEL1 localizes to chromosome 22q11.2, a region associated with a number of syndromes involving malformation of the craniofacial complex. CONCLUSION: These data suggest a role in regulation of cellular morphology and behaviour that is important for development of the craniofacial complex.
Authors: Diane E Wakeham; Laurent Abi-Rached; Mhairi C Towler; Jeremy D Wilbur; Peter Parham; Frances M Brodsky Journal: Proc Natl Acad Sci U S A Date: 2005-05-09 Impact factor: 11.205
Authors: Alexander Mattebo; Taha Sen; Maria Jassinskaja; Kristýna Pimková; Isabel Prieto González-Albo; Abdul Ghani Alattar; Ramprasad Ramakrishnan; Stefan Lang; Marcus Järås; Jenny Hansson; Shamit Soneji; Sofie Singbrant; Emile van den Akker; Johan Flygare Journal: Sci Rep Date: 2021-08-05 Impact factor: 4.379