Molecular genetics and the evolution of animal design. Malden: Blackwell Science; The impact of the gut microbiota on human health: an integrative view. Modeling in EvoDevo: how to integrate development, evolution, and ecology. In: Laubichler MD, editor. Roots of theoretical biology: the Prater Vivarium centenary.
Cambridge: MIT Press; Pax genes and organogenesis. Darwin CR. The origin of species by means of natural selection. London: John Murray; Davidson EH. The regulatory genome: gene regulatory networks in development and evolution. San Diego: Academic; Gene regulatory networks and the evolution of animal body plans. Embryos and evolution. Oxford: Clarendon; Deichman U. Early 20th-century research at the interface of genetics, development, and evolution: reflections on progress and dead ends.
Dev Biol. Dobzhansky Th. Genetics and the origin of species. New York: Columbia University Press; Paleobiology Suppl. The Cambrian conundrum: early divergence and later ecological success in the early history of animals. Fusco G, Minelli A. Phenotypic plasticity in development and evolution: facts and concepts. Gehring WJ. The homeobox: a key to the understanding of development? Master control genes in development and evolution: the homeobox story. New Haven: Yale University Press; Gilbert SF. Evol Dev. Gilbert SF, Apel D.
Frontiers | Re-evaluating the environment in developmental evolution | Ecology and Evolution
Ecological developmental biology: integrating epigenetics, medicine, and evolution. Sunderland: Sinauer Associates; Morphogenesis of the turtle shell: the development of a novel structure in tetrapod evolution. Gissis SB, Jablonka E. Transformations of Lamarckism: from subtle fluids to molecular biology. Principles of evolutionary medicine. Oxford: Oxford University Press; Goldschmidt R.
A preliminary report on some genetic experiments concerning evolution. Am Nat. Development and evolution. Cambridge: Cambridge University Press; Gould SJ. Ontogeny and phylogeny. Greene E. A diet-induced developmental polymorphism in a caterpillar. Phenotypic variation in larval development and evolution: polymorphism, polyphenism, and developmental reaction norms.
The origin and evolution of larval form. Haeckel E. Berlin: Georg Reimer; Hall BK.
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Evolutionary developmental biology. London: Chapman and Hall; Homology: the hierarchical basis of comparative biology. Dordrecht: Kluwer Academic; Evo—devo or devo—evo—does it matter? John Samuel Budgett — : in pursuit of Polypterus. Palaeontology and evolutionary developmental biology: a science of the 19th and 21st centuries. Evolution as the control of development by ecology. Environment, evolution and development: towards a synthesis.
Cambridge: MIT Press; a. Unlocking the black box between genotype and phenotype: cells and cell condensations as morphogenetic modular units. Biol Philos.
Homology, homoplasy, novelty and behavior. Dev Psychobiol. Hall BK, Kerney R. Levels of biological organization and the origin of novelty. Hall K, Olson WM eds. Keywords and concepts in evolutionary developmental biology. Conrad Hal Waddington, theoretical biology, and evo—devo. Epigenetics: linking genotype and phenotype in development and evolution. Berkeley: University of California Press; Variation: a central concept in biology.
On synergistic interactions between evolution, development and layered learning. Huxley JS. Evolution: the modern synthesis. London: Allen and Unwin; Kosik KS. MicroRNAs tell an evo—devo story. Nat Rev Neurosci. EvoDevo and niche construction: building bridges. Laubichler MD. The Cambridge companion to the philosophy of biology. Evolutionary developmental biology offers a significant challenge to the neo-Darwinian paradigm.
Contemporary debates in philosophy of biology. Malden: Wiley-Blackwell; Laubichler MD, Maienschein J, editors. From Embryology to evo—devo: a history of developmental evolution. Introduction to the papers of the Kowalevsky Medal winner symposium.
Emerging model systems in eco—evo—devo: the environmentally responsive spadefoot toad. Into the deep: new discoveries at the base of the green plant phylogeny. Lewis EB. A gene complex controlling segmentation in Drosophila. Lickliter R. The dynamics of development and evolution: insights from behavioral embryology. Altered timing of the extracellular-matrix-mediated epithelial—mesenchymal interaction that initiates mandibular skeletogenesis in three inbred strains of mice: development, heterochrony, and evolutionary change in morphology.
J Exp Zool. Macleod R. Embryology and empire. Darwin's laboratory. Evolutionary theory and natural history in the Pacific. Honolulu: University of Hawaii Press; Maynard Smith J. Weismann and modern biology. Oxford surveys in evolutionary biology, vol. Mayr E. The growth of biological thought. Diversity, evolution, and inheritance.
The establishment of evolutionary biology as a discrete biological discipline.
Evolutionary consequences of epigenetic inheritance
McCain KW. Using tricitation to dissect the citation image: Conrad Hal Waddington and the rise of evolutionary developmental biology. Core journal literatures and persistent research themes in an emerging interdisciplinary field: exploring the literature of evolutionary development biology. J Informet. Moazed D.
Mechanisms for the inheritance of chromatin states. Sperm methylation profiles reveal features of epigenetic inheritance and evolution in primates. Leipzig: Engelman; Translated by W. Six memos for EvoDevo.
What is epigenetics and epigenetic inheritance?
Nat Rev Genet. Novelty in evolution: restructuring the concept. Annu Rev Ecol Syst. Nijhout HF. Hormonal control in larval development and evolution—insects. Niklas KJ. The evolutionary biology of plants. In search of evolutionary developmental mechanisms: the year gap between and Cartilage is a metazoan tissue; integrating data from nonvertebrate sources Acta Zoologica.
Evo-Devo: evolutionary developmental mechanisms. Seasonal changes in the lower jaw skeleton in male Atlantic salmon Salmo salar L. Descent with modification: the unity underlying homology and homoplasy as seen through an analysis of development and evolution. Francis Maitland Balfour : a founder of evolutionary embryology. Secondary chondrocyte-derived lhh stimulates proliferation of periosteal cells during chick development Development.
The effects of estrogen, its antagonist ICI , , and interferon-tau on the expression of estrogen receptors and integrin alphaV beta 3 on cycle day 16 in bovine endometrium. Embryological origins of developmental stability: size, shape and fluctuating asymmetry in prenatal random bred mice. Unlocking the black box between genotype and phenotype: Cell condensations as morphogenetic modular units Biology and Philosophy. Canalization, developmental stability, and morphological integration in primate limbs.
American Journal of Physical Anthropology. Limbs in whales and limblessness in other vertebrates: mechanisms of evolutionary and developmental transformation and loss. Differentiation and growth of kype skeletal tissues in anadromous male Atlantic salmon Salmo salar. Effects of dietary phosphorus on bone growth and mineralisation of vertebrae in haddock Melanogrammus aeglefinus L.
Fish Physiology and Biochemistry. Hind-limb regeneration in the dwarf African clawed frog, Hymenochirus boettgeri Anura: Pipidae Journal of Herpetology. Palaeontology and evolutionary developmental biology: A science of the nineteenth and twenty-first centuries Palaeontology. Features of mono- and multinucleated bone resorbing cells of the zebrafish Danio rerio and their contribution to skeletal development, remodeling, and growth.
Bridging the gap between developmental systems theory and evolutionary developmental biology. Altered timing of the extracellular-matrix-mediated epithelial-mesenchymal interaction that initiates mandibular skeletogenesis in three inbred strains of mice: development, heterochrony, and evolutionary change in morphology. The Journal of Experimental Zoology. Role of motility in embryonic development I: Embryo movements and amnion contractions in the chick and the influence of illumination.
The gene is not dead, merely orphaned and seeking a home. Development of the clavicles in birds and mammals. Organic selection: Proximate environmental effects on the evolution of morphology and behaviour Biology and Philosophy. The neural crest as a fourth germ layer and vertebrates as quadroblastic not triploblastic. Evo-devo or devo-evo--does it matter.
Patterns of migration and regulation of trunk neural crest cells in zebrafish Danio rerio. Temporospatial patterns of apoptosis in chick embryos during the morphogenetic period of development. Epithelial-mesenchymal interactions. Methods in Molecular Biology Clifton, N. Craniofacial development of avian and rodent embryos.
Cells, Tissues, Organs. All for one and one for all: condensations and the initiation of skeletal development. Balfour, garstang and de beer: The first century of evolutionary embryology1 American Zoologist.
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Development of dermal denticles in skates Chondrichthyes, Batoidea : patterning and cellular differentiation. Regulation of neural crest cell populations: occurrence, distribution and underlying mechanisms. Immunohistochemical identification of a vacuolar proton pump V-ATPase in bone-resorbing cells of an advanced teleost species, Oreochromis niloticus Journal of Fish Biology.
Introduction to the symposium: Developmental and evolutionary perspectives on major transformations in body organization American Zoologist. Neural ectoderm, neural crest, and placodes: Contribution of the otic placode to the ectodermal lining of the embryonic opercular cavity in Atlantic cod Teleostei. Variability of embryonic development among three inbred strains of mice. Growth, Development, and Aging : Gda. Paralysis and long bone growth in the chick: growth shape trajectories of the pelvic limb. Journal of Craniofacial Genetics and Developmental Biology.
Divide, accumulate, differentiate: cell condensation in skeletal development revisited. Ectopic ossicles associated with metacercariae of Apophallus brevis Trematoda in yellow perch, Perca flavescens Teleostei : development and identification of bone and chondroid bone. Anatomy and Embryology. The membranous skeleton: the role of cell condensations in vertebrate skeletogenesis. Edgeworth's legacy of cranial muscle development with an analysis of muscles in the ventral gill arch region of batoid fishes Chondrichthyes: Batoidea.
A model for development and evolution of complex morphological structures. Paralysis and growth of the musculoskeletal system in the embryonic chick. Development and evolutionary origins of vertebrate skeletogenic and odontogenic tissues. Tissue interactions involving cranial neural crest in cartilage formation in Xenopus laevis Daudin. Morphological integration in the cranium during anuran metamorphosis. The introduction of the term and its concept in the first part provides the historical and philosophical foundations for the book.
This is then followed by a discussion of the various ways epigenetics has been studied in the academic fields of development and evolution, with case studies of epigenetic processes in vertebrate organ development making up the third section. The final part of the book takes a close look at the role of epigenetics in evolution and disease. The technical language and highly specialised content in the individual chapters requires a firm grounding in biology, which could overwhelm lay readers. Overall, though, the book achieves the editors' principal aims of reminding a new generation of molecular and systems biologists about the historical roots and scope of epigenetics.
As such, the book is likely to be of interest to a wide range of academics and graduate students in the biological sciences, and not just those specialising in molecular epigenetics. By posting a comment you agree to abide by the BioNews terms and conditions. Syndicate this story - click here to enquire about using this story. Home Articles News Comment Reviews. Archive Current edition Subscribe. Donating time Financial support. Objectives Background Reader testimonials People. Writing articles Writing scheme. Log in Register. By Ruth Pidsley. Appeared in BioNews
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