Genetic controls and cellular behaviors in branching morphogenesis of the renal collecting system
Advanced Review
Frank Costantini
Published Online: Apr 04 2012
DOI:10.1002/wdev.52
Signaling Pathways
Initial neurogenesis in Drosophila
Erratum
Volker Hartenstein, Andreas Wodarz
Published Online: Mar 22 2013
DOI:10.1002/wdev.117
Initial neurogenesis in Drosophila
Advanced Review
Volker Hartenstein, Andreas Wodarz
Published Online: Feb 11 2013
DOI:10.1002/wdev.111
Birth defects associated with perturbations in preimplantation, gastrulation, and axis extension: from conjoined twinning to caudal dysgenesis
Overview
Anna Ferrer‐Vaquer, Anna‐Katerina Hadjantonakis
Published Online: Nov 26 2012
DOI:10.1002/wdev.97
Neural induction and early patterning in vertebrates
Advanced Review
Mohammad Zeeshan Ozair, Chris Kintner, Ali H. Brivanlou
Published Online: Oct 15 2012
DOI:10.1002/wdev.90
The TGFbeta Superfamily Signaling Pathway
Advanced Review
Alexander Weiss, Liliana Attisano
Published Online: Oct 05 2012
DOI:10.1002/wdev.86
Molecular genetic control of cell patterning and fate determination in the developing ventral spinal cord
Focus Article
Michael P. Matise
Published Online: Jul 24 2012
DOI:10.1002/wdev.83
Neural tube defects—disorders of neurulation and related embryonic processes
Advanced Review
Andrew J. Copp, Nicholas D. E. Greene
Published Online: May 29 2012
DOI:10.1002/wdev.71
Signaling and transcriptional regulation in neural crest specification and migration: lessons from xenopus embryos
Focus Article
Caterina Pegoraro, Anne H. Monsoro‐Burq
Published Online: May 29 2012
DOI:10.1002/wdev.76
The Drosophila midgut: a model for stem cell driven tissue regeneration
Focus Article
Elena M. Lucchetta, Benjamin Ohlstein
Published Online: Apr 09 2012
DOI:10.1002/wdev.51
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Is intrigued by one of the key questions in developmental biology: how cells acquire their identities. This is an important question in human development, where stem cells divide and differentiate into skin, muscle, fat etc. It is equally central to plant development, where most organs and cells are formed from stem cell populations known as meristems. The Benfey lab addresses this question using a combination of genetics, molecular biology, and genomics to identify and characterize the genes that regulate formation of the root in the plant model system, Arabidopsis thaliana. The choice of the root as a model was based on the simplicity of its organization and its stereotyped developmental program.
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