Gerd B. Müller is an Austrian biologist who is professor at the University of Vienna where he heads the Department of Theoretical Biology in the Center for Organismal Systems Biology. His research interests focus on vertebrate limb development, evolutionary novelties, evo-devo theory, and the Extended Evolutionary Synthesis. He is also concerned with the development of 3D based imaging tools in developmental biology.
Müller has published on developmental imaging, vertebrate limb development, the origins of phenotypic novelty, EvoDevo theory, and evolutionary theory. With the cell and developmental biologist Stuart Newman, Müller co-edited the book Origination of Organismal Form. This book on evolutionary developmental biology is a collection of papers on generative mechanisms that were plausibly involved in the origination of disparate body forms during early periods of organismal life. Particular attention is given to epigenetic factors, such as physical determinants and environmental parameters, that may have led to the spontaneous emergence of bodyplans and organ forms during a period when multicellular organisms had relatively plastic morphologies. Natural selection acting on variant genotypes is suggested to have "locked in" these bodyplans. Together with Eva Jablonka, Kevin Laland, Alex Mesoudi, Stuart Newman, Massimo Pigliucci, Kim Sterelny, John Odling-Smee, Tobias Uller, as well as Denis Noble and others, Gerd Müller is an advocate of an alternative evolutionary framework, one version of which has been termed the Extended Evolutionary Synthesis. In contrast to the Modern Synthesis, the population dynamical model of evolution established in the early twentieth century that had concentrated on the processes of variation and adaptation, the focus of the EES is on the generative properties of evolution, integrating conceptual developments from evolutionary developmental biology, genomics, ecology, and other fields. It differs from the standard theory in its inclusion of the constructive processes in development, the consideration of reciprocal dynamics of causation, and the relinquishment of a predominantly genetic explanation. A range of novel predictions and testable empirical projects result from the EES.
Publications
Scientific papers
Edited books * * *
Origination of Organismal Form
Selected articles
Axel Lange and Gerd B. Müller. Polydactyly in Development, Inheritance, and Evolution. Q. Rev. Biol. Vol. 92, No. 1, Mar. 2017, pp. 1–38..
Favé M-J, Johnson RA, Cover S, Handschuh S, Metscher BD, Müller GB, Gopalan S, Abouheif E. 2015. Past climate change on Sky Islands drives novelty in a core developmental gene network and its phenotype. BMC Evolutionary Biology:1–21. .
Laland KN, Uller T, Feldman MW, Sterelny K, Müller GB, Moczek A, Jablonka E, Odling-Smee J. 2015. The Extended Evolutionary Synthesis: Its structure, assumptions and predictions. Proc Biol Sci 282..
Noble D, Jablonka E, Joyner MJ, Müller GB, Omholt SW. 2014. Evolution evolves: Physiology returns to centre stage. J Physiol 592:2237–2244. #REDIRECT.
Mayer C, Metscher BD, Müller GB, Mitteroecker P. 2014. Studying developmental variation with geometric morphometric image analysis. PLoS ONE 9:e115076..
Lange A, Nemeschkal HL, Müller GB. 2014. Biased polyphenism in polydactylous cats carrying a single point mutation: The Hemingway model for digit novelty. Evol Biol 41:262–275..
Čapek D, Metscher BD, Müller GB. 2013. Thumbs down: A molecular-morphogenetic approach to avian digit homology. J Exp Zool B Mol Dev Evol 322:1–12..
Peterson T, Müller GB. 2013. What is evolutionary novelty? Process versus character based definitions. J Exp Zool B Mol Dev Evol 320:345–350..
Metscher BD, Müller GB. 2011. MicroCT for molecular imaging: Quantitative visualization of complete three-dimensional distributions of gene products in embryonic limbs. Dev Dyn 240:2301–2308..