Portal:Evolutionary biology

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edit watch  Introduction Evolutionary biology is the subfield of biology that studies the evolutionary processes such as natural selection, common descent, and speciation that produced the diversity of life on Earth. In the 1930s, the discipline of evolutionary biology emerged through what Julian Huxley called the modern synthesis of understanding, from previously unrelated fields of biological research, such as genetics and ecology, systematics, and paleontology. The investigational range of current research has widened to encompass the genetic architecture of adaptation, molecular evolution, and the different forces that contribute to evolution, such as sexual selection, genetic drift, and biogeography. The newer field of evolutionary developmental biology ("evo-devo") investigates how embryogenesis is controlled, thus yielding a wider synthesis that integrates developmental biology with the fields of study covered by the earlier evolutionary synthesis. (Full article...) Read more... Show new selections below (purge) edit watch  Selected article - show another The rattlesnake Crotalus oreganus eating its prey, which it uses its venom to subdue Venom in snakes and some lizards is a form of saliva that has been modified into venom over its evolutionary history. In snakes, venom has evolved to kill or subdue prey, as well as to perform other diet-related functions. While snakes occasionally use their venom in self defense, this is not believed to have had a strong effect on venom evolution. The evolution of venom is thought to be responsible for the enormous expansion of snakes across the globe. The evolutionary history of snake venom is a matter of debate. Historically, snake venom was believed to have evolved once, at the base of the Caenophidia, or derived snakes. Molecular studies published beginning in 2006 suggested that venom originated just once among a putative clade of reptiles, called Toxicofera, approximately 170 million years ago. Under this hypothesis, the original toxicoferan venom was a very simple set of proteins that were assembled in a pair of glands. Subsequently, this set of proteins diversified in the various lineages of toxicoferans, including Serpentes, Anguimorpha, and Iguania: several snake lineages also lost the ability to produce venom. The Toxicoferan hypothesis was challenged by studies in the mid-2010s, including a 2015 study which found that venom proteins had homologs in many other tissues in the Burmese python. The study therefore suggested that venom had evolved independently in different reptile lineages, including once in the Caenophid snakes. Venom containing most extant toxin families is believed to have been present in the last common ancestor of the Caenophidia: these toxins subsequently underwent tremendous diversification, accompanied by changes in the morphology of venom glands and delivery systems. (Full article...) List of selected articles Charles Darwin Evolution Ediacaran biota Cretaceous–Paleogene extinction event Evolution of lemurs History of evolutionary thought On the Origin of Species Rotating locomotion in living systems Alfred Russel Wallace Richard Dawkins RNA world Evolutionary history of life Mimicry Natural selection Evolution of sexual reproduction Transmutation of species Extinction Punctuated equilibrium Aggressive mimicry Objections to evolution Genetic drift The Origin of Birds Teleology in biology Adaptation Mutationism Lamarckism How the Snake Lost Its Legs Endless Forms Most Beautiful (book) Evolution of cetaceans Speciation Phylogenetics The Sloshing Bucket Model of Evolution DNA Evolutionary developmental biology Abiogenesis edit watch  General images - load new batch The following are images from various evolutionary biology-related articles on Wikipedia. Image 1Homologous Hox genes in such different animals as insects and vertebrates control embryonic development and hence the form of adult bodies. These genes have been highly conserved through hundreds of millions of years of evolution. (from Evolutionary developmental biology) Image 2Gaur (Indian bison) can interbreed with domestic cattle. (from Speciation) Image 3A covalent adduct between the metabolite of benzo[a]pyrene, the major mutagen in tobacco smoke, and DNA (from Mutation) Image 4A. Lancelet (a chordate), B. Larval tunicate, C. Adult tunicate. Kowalevsky saw that the notochord (1) and gill slit (5) are shared by tunicates and vertebrates. (from Evolutionary developmental biology) Image 5A red tulip exhibiting a partially yellow petal due to a somatic mutation in a cell that formed that petal (from Mutation) Image 6Reinforcement assists speciation by selecting against hybrids. (from Speciation) Image 7The distribution of fitness effects (DFE) of mutations in vesicular stomatitis virus. In this experiment, random mutations were introduced into the virus by site-directed mutagenesis, and the fitness of each mutant was compared with the ancestral type. A fitness of zero, less than one, one, more than one, respectively, indicates that mutations are lethal, deleterious, neutral, and advantageous. (from Mutation) Image 8Turing's 1952 paper explained mathematically how patterns such as stripes and spots, as in the giant pufferfish, may arise, without molecular evidence. (from Evolutionary developmental biology) Image 9Point mutations classified by impact on protein (from Mutation) Image 10Speciation via polyploidy: A diploid cell undergoes failed meiosis, producing diploid gametes, which self-fertilize to produce a tetraploid zygote. In plants, this can effectively be a new species, reproductively isolated from its parents, and able to reproduce. (from Speciation) Image 11Among the centipedes, all members of the Geophilomorpha are constrained by a developmental bias to have an odd number of segments, whether as few as 27 or as many as 191. (from Evolutionary developmental biology) Image 12Comparison of allopatric, peripatric, parapatric and sympatric speciation (from Speciation) Image 13Expression of homeobox (Hox) genes in the fruit fly (from Evolutionary developmental biology) Image 14Cichlids such as Haplochromis nyererei diversified by sympatric speciation in the Rift Valley lakes. (from Speciation) Image 15Three major single-chromosome mutations: deletion (1), duplication (2) and inversion (3). (from Mutation) Image 16A mutation has caused this moss rose plant to produce flowers of different colours. This is a somatic mutation that may also be passed on in the germline. (from Mutation) Image 17African pygmy kingfisher, showing coloration shared by all adults of that species to a high degree of fidelity. (from Speciation) Image 18Male Drosophila pseudoobscura (from Speciation) Image 19Types of small-scale mutations (from Mutation) Image 20Prodryas persephone, a Late Eocene butterfly (from Mutation) Image 21The lac operon. Top: repressed. Bottom: active. 1: RNA Polymerase, 2: Repressor, 3: Promoter, 4: Operator, 5: Lactose, 6–8: protein-encoding genes, controlled by the switch, that cause lactose to be digested (from Evolutionary developmental biology) Image 22This figure shows a simplified version of loss-of-function, switch-of-function, gain-of-function, and conservation-of-function mutations. (from Mutation) Image 23Phyletic gradualism, above, consists of relatively slow change over geological time. Punctuated equilibrium, bottom, consists of morphological stability and rare, relatively rapid bursts of evolutionary change. (from Speciation) Image 24Selection of disease-causing mutations, in a standard table of the genetic code of amino acids (from Mutation) Image 25Embryology theories of Ernst Haeckel, who argued for recapitulation of evolutionary development in the embryo, and Karl Ernst von Baer's epigenesis (from Evolutionary developmental biology) Image 26The pax-6 gene controls development of eyes of different types across the animal kingdom. (from Evolutionary developmental biology) Image 27Gap genes in the fruit fly are switched on by genes such as bicoid, setting up stripes across the embryo which start to pattern the body's segments. (from Evolutionary developmental biology) Image 28Gene product distributions along the long axis of the early embryo of a fruit fly (from Evolutionary developmental biology) Image 29Rhagoletis pomonella, the hawthorn fly, appears to be in the process of sympatric speciation. (from Speciation) Image 30A gene regulatory network (from Evolutionary developmental biology) Image 31Five types of chromosomal mutations (from Mutation) Image 32The structure of a eukaryotic protein-coding gene. A mutation in the protein coding region (red) can result in a change in the amino acid sequence. Mutations in other areas of the gene can have diverse effects. Changes within regulatory sequences (yellow and blue) can effect transcriptional and translational regulation of gene expression. (from Mutation) edit watch  Selected picture - show another Tyrannosaurus rex Credit: Commons:User:David Monniaux Tyrannosaurus rex skull at Palais de la Découverte in Paris. More selected pictures Read more... edit watch  Did you know... - show different entries ... that William King Gregory, a leading authority on vertebrate evolution and the preeminent expert on human dentition, was initially taken in by the Piltdown Man, a hoax which was purported to be an early human? ... that despite the relative rarity of suitable conditions for fossilization, approximately 250,000 fossil species are known? ... that Lord Neaves, a judge on the supreme court of Scotland, was quoted by Charles Darwin on evolution, but attributed the concept of evolution to Lord Monboddo, not Darwin? More did you know facts edit watch  Categories Category puzzle Select [►] to view subcategories Evolutionary biology Subfields of evolutionary biology History of evolutionary biology Evolutionary biologists Evolution-related lists Evolutionary biology literature Evolutionary biology terminology Assistance Biomimetics Evolutionary biology concepts Darwinism Digital organisms Evolution of the biosphere Extended evolutionary synthesis Hybridisation (biology) Modern synthesis (20th century) Molecular evolution Most recent common ancestors Non-Darwinian evolution Organisms by adaptation Origin of life Paleontology Evolution by phenotype Population genetics Signalling theory Evolutionary biology societies Evolution by taxon Toxicofera Transitional fossils Vestigial organs edit watch  Related portals Related subjects Topics in biology edit watch  Tasks you can do Improve: List of prehistoric mammals, List of extinct plants, Holocene extinction event Stubs: Acritarch | Analogy (biology) | Evolutionary arms race | Genetic erosion | Hoyle's fallacy | Macromutation | Maladaptation | Evolutionary graph theory | Evolutionary landscape | Evolutionary taxonomy | Landrace | Law of Life (more...) Nominate and vote: Science collaboration of the month, Article Improvement Drive edit watch  Related topics edit watch  WikiProjects WikiProjects connected with biology: Conservation worldwide Ecology Extinction Ecoregions Evolutionary biology Game theory History of Science Marine life Medicine Microbiology Molecular and Cellular Biology Neuroscience Tree of Life Plants Arthropods Cephalopods Gastropods Fishes Amphibians and Reptiles Birds Mammals Human Genetic History Viruses A complete list of scientific WikiProjects can be found here. See also Wikispecies, a Wikimedia project dedicated to classification of biological species. edit watch  Associated Wikimedia Evolutionary biology on Wikinews     Evolutionary biology on Wikiquote     Evolutionary biology on Wikibooks     Evolutionary biology on Wikisource     Evolutionary biology on Wiktionary     Evolutionary biology on Wikimedia Commons News Quotations Manuals & Texts Texts Definitions Images & Media Discover Wikipedia using portals List of all portals The arts portal Biography portal Current events portal Geography portal History portal Mathematics portal Science portal Society portal Technology portal Random portal WikiProject Portals Purge server cache