Portal:Biology

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Introduction

A panoramic view from a ridge located between Segla and Hesten mountain summits in the island of Senja, Troms, Norway in 2014

Biology is the scientific study of life. It is a natural science with a broad scope but has several unifying themes that tie it together as a single, coherent field. For instance, all organisms are made up of cells that process hereditary information encoded in genes, which can be transmitted to future generations. Another major theme is evolution, which explains the unity and diversity of life. Energy processing is also important to life as it allows organisms to move, grow, and reproduce. Finally, all organisms are able to regulate their own internal environments.

Biologists are able to study life at multiple levels of organization, from the molecular biology of a cell to the anatomy and physiology of plants and animals, and evolution of populations. Hence, there are multiple subdisciplines within biology, each defined by the nature of their research questions and the tools that they use. Like other scientists, biologists use the scientific method to make observations, pose questions, generate hypotheses, perform experiments, and form conclusions about the world around them.

Life on Earth, which emerged more than 3.7 billion years ago, is immensely diverse. Biologists have sought to study and classify the various forms of life, from prokaryotic organisms such as archaea and bacteria to eukaryotic organisms such as protists, fungi, plants, and animals. These various organisms contribute to the biodiversity of an ecosystem, where they play specialized roles in the cycling of nutrients and energy through their biophysical environment. (Full article...)

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Deoxyribonucleic acid (/diːˈɒksɪˌraɪboʊnjuːˌkliːɪk, -ˌkleɪ-/ ; DNA) is a polymer composed of two polynucleotide chains that coil around each other to form a double helix. The polymer carries genetic instructions for the development, functioning, growth and reproduction of all known organisms and many viruses. DNA and ribonucleic acid (RNA) are nucleic acids. Alongside proteins, lipids and complex carbohydrates (polysaccharides), nucleic acids are one of the four major types of macromolecules that are essential for all known forms of life.

The two DNA strands are known as polynucleotides as they are composed of simpler monomeric units called nucleotides. Each nucleotide is composed of one of four nitrogen-containing nucleobases (cytosine [C], guanine [G], adenine [A] or thymine [T]), a sugar called deoxyribose, and a phosphate group. The nucleotides are joined to one another in a chain by covalent bonds (known as the phosphodiester linkage) between the sugar of one nucleotide and the phosphate of the next, resulting in an alternating sugar-phosphate backbone. The nitrogenous bases of the two separate polynucleotide strands are bound together, according to base pairing rules (A with T and C with G), with hydrogen bonds to make double-stranded DNA. The complementary nitrogenous bases are divided into two groups, the single-ringed pyrimidines and the double-ringed purines. In DNA, the pyrimidines are thymine and cytosine; the purines are adenine and guanine. (Full article...)

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A polydactyl human hand.

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Major topics

History	History of biology \| timeline of biology and organic chemistry \| history of ecology \| history of evolutionary thought \| history of geology \| history of model organisms \| history of molecular biology \| history of paleontology
Overview	Biology \| science \| life \| properties (adaptation, energy processing, growth, order, regulation, reproduction, and response to environment) \| hierarchy of life (atom > molecule > organelle > cell > tissue > organ > organ system > organism > population > community > ecosystem > biosphere) \| reductionistic \| emergent property \| mechanistic \| scientific method \| theory \| law \| peer review \| biology journals
Chemical basis	Matter \| elements \| compounds \| atoms \| molecules \| chemical bonds \| carbon \| organic compounds \| macromolecules \| carbohydrate \| protein \| protein structure \| protein folding \| lipid \| DNA \| RNA
Cells	Prokaryote \| eukaryote \| cell wall \| cell membrane \| cytoskeleton \| mitochondrion \| chloroplast \| nucleus \| endoplasmic reticulum \| Golgi apparatus \| cell cycle \| mitosis \| metabolism \| cell signaling \| protein targeting \| metabolism \| enzyme \| glycolysis \| citric acid cycle \| electron transport chain \| oxidative phosphorylation \|photosynthesis \|meiosis \| mitosis
Genetics (Intro)	Classical genetics \| mendelian inheritance \| gene \| phenotype \| genotype \| ploidy \| alternation of generations \| molecular genetics \| gene expression \| gene regulation \| genome \| karyotype \| DNA replication \| transcription \| translation \| recombination \| chromosome \| epigenetics \| splicing \| mutation \| genetic fingerprint \| chromatin \| ecological genetics \| population genetics \| quantitative genetics
Evolution (Intro)	\| omne vivum ex ovo \| Natural selection \| genetic drift \| sexual selection \| speciation \| mutation \| gene flow \| evolution of sex \| biogeography \| cladistics \| species \| extinction \| tree of life \| phylogenies \| three-domain system
Diversity	Bacteria \| archaea \| plants \| angiosperms \| fungi \| protists \| Animals \| deuterostome \| insects \| molluscs \| nematodes \| parasitism \| Primate \| mammal \| vertebrate \| craniata \| chordate \| viruses
Plant form and function	Epidermis \| flower \| ground tissue \| leaf \| phloem \| plant stem \| root \| shoot \| vascular plant \| vascular tissue \| xylem
Animal form and function	Tissues \| fertilization \| embryogenesis \| gastrulation \| neurulation \| organogenesis \| differentiation \| morphogenesis \| metamorphosis \| ontogeny \| Development \| senescence \| reproduction \| oogenesis \| spermatogenesis
Ecology	Ecosystem \| biomass \| food chain \| indicator species \| habitat \| species distribution \| Gaia theory \| metapopulation \| life cycle \| Life history \| altricial - precocial \| sex ratio \| altruism \| cooperation - foraging \| learning \| parental care \| sexual conflict \| territoriality \| biosphere \| climate change \| conservation \| biodiversity \| nature reserve \| edge effect \| allee effect \| corridor \| fragmentation \| pollution \| invasive species \| in situ - ex situ \| seedbank
Research methods	Laboratory techniques \| Genetic engineering \| transformation \| gel electrophoresis \| chromatography \| centrifugation \| cell culture \| DNA sequencing \| DNA microarray \| green fluorescent protein \| vector \| enzyme assay \| protein purification \| Western blot \| Northern blot \| Southern blot \| restriction enzyme \| polymerase chain reaction \| two-hybrid screening \| in vivo - in vitro - in silico \| Field techniques \| Belt transect \| mark and recapture \| species discovery curve
Branches	Anatomy \| biotechnology \| botany \| cell biology \| ecology \| evolutionary biology \| genetics \| marine biology \| microbiology \| molecular biology \| mycology \| neuroscience \| paleontology \| phycology \| physiology \| protistology \| virology \| zoology
Awards	Nobel Prize in Physiology or Medicine
See also	Template:History of biology

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George Ledyard Stebbins Jr. (January 6, 1906 – January 19, 2000) was an American botanist and geneticist who is widely regarded as one of the leading evolutionary biologists of the 20th century. Stebbins received his Ph.D. in botany from Harvard University in 1931. He went on to the University of California, Berkeley, where his work with E. B. Babcock on the genetic evolution of plant species, and his association with a group of evolutionary biologists known as the Bay Area Biosystematists, led him to develop a comprehensive synthesis of plant evolution incorporating genetics.

His most important publication was Variation and Evolution in Plants, which combined genetics and Darwin's theory of natural selection to describe plant speciation. It is regarded as one of the main publications which formed the core of the modern synthesis and still provides the conceptual framework for research in plant evolutionary biology; according to Ernst Mayr, "Few later works dealing with the evolutionary systematics of plants have not been very deeply affected by Stebbins' work." He also researched and wrote widely on the role of hybridization and polyploidy in speciation and plant evolution; his work in this area has had a lasting influence on research in the field. (Full article...)

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The following are images from various biology-related articles on Wikipedia.

Image 1Mendelian inheritance states characteristics are discrete and are inherited by the parents. This image depicts a monohybrid cross and shows 3 generations: P1 generation (1), F1 generation (2), and F2 generation (3). Each organism inherits two alleles, one from each parent, that make up the genotype. The observed characteristic, the phenotype, is determined by the dominant allele in the genotype. In this monohybrid cross the dominant allele encodes for the colour red and the recessive allele encodes for the colour white. (from History of genetics)
Image 2De arte venandi, by Frederick II, Holy Roman Emperor, was an influential medieval natural history text that explored bird morphology. (from History of biology)
Image 3The frontispiece to Erasmus Darwin's evolution-themed poem The Temple of Nature shows a goddess pulling back the veil from nature (in the person of Artemis). Allegory and metaphor have often played an important role in the history of biology. (from History of biology)
Image 4Brewing was an early example of biotechnology (from History of biotechnology)
Image 5Tadrart Acacus desert in western Libya, part of the Sahara (from Conservation biology)
Image 6The "central dogma of molecular biology" (originally a "dogma" only in jest) was proposed by Francis Crick in 1958. This is Crick's reconstruction of how he conceived of the central dogma at the time. The solid lines represent (as it seemed in 1958) known modes of information transfer, and the dashed lines represent postulated ones. (from History of biology)
Image 7Aristotle's model of transmission of movements from parents to child, and of form from the father. The model is not fully symmetric. (from History of genetics)
Image 8Blending Inheritance (from History of genetics)
Image 9Some biodiversity loss is more insidious than others due to systemic neglect. For example, sport killing and wanton waste of tons of native fishes from unregulated 21st century bowfishing in the United States. New conservation movements are needed to deter irreparable biodiversity loss to fragile freshwater ecosystems. (from Conservation biology)
Image 10A biomedical work by Ibn al-Nafis, an early adherent of experimental dissection who discovered the pulmonary and coronary circulation (from History of biology)
Image 11Roosevelt and Muir on Glacier Point in Yosemite National Park (from Conservation biology)
Image 12An art scape image showing the relative importance of animals in a rain forest through a summary of (a) child's perception compared with (b) a scientific estimate of the importance. The size of the animal represents its importance. The child's mental image places importance on big cats, birds, butterflies, and then reptiles versus the actual dominance of social insects (such as ants). (from Conservation biology)
Image 13Inside of a 48-well thermal cycler, a device used to perform polymerase chain reaction on many samples at once (from History of biology)
Image 14Efforts are made to preserve the natural characteristics of Hopetoun Falls, Australia, without affecting visitors' access. (from Conservation biology)
Image 15In Micrographia, Robert Hooke had applied the word cell to biological structures such as this piece of cork, but it was not until the 19th century that scientists considered cells the universal basis of life. (from History of biology)
Image 16Cabinets of curiosities, such as that of Ole Worm, were centers of biological knowledge in the early modern period, bringing organisms from across the world together in one place. Before the Age of Exploration, naturalists had little idea of the sheer scale of biological diversity. (from History of biology)
Image 17In the course of his travels, Alexander von Humboldt mapped the distribution of plants across landscapes and recorded a variety of physical conditions such as pressure and temperature. (from History of biology)
Image 18Wendell Stanley's crystallization of tobacco mosaic virus as a pure nucleoprotein in 1935 convinced many scientists that heredity might be explained purely through physics and chemistry. (from History of biology)
Image 19August Weismann's germ plasm theory. The hereditary material, the germ plasm, is confined to the gonads. Somatic cells (of the body) develop afresh in each generation from the germ plasm. (from History of genetics)
Image 20Thomas Hunt Morgan discovered sex linked inheritance of the white eyed mutation in the fruit fly Drosophila in 1910, implying the gene was on the sex chromosome. (from History of genetics)
Image 21Carefully engineered strains of the bacterium Escherichia coli are crucial tools in biotechnology as well as many other biological fields. (from History of biology)
Image 22Gregor Mendel, "father of modern genetics" (from History of biology)
Image 23Diagram of Charles Darwin's pangenesis theory. Every part of the body emits tiny particles, gemmules, which migrate to the gonads and contribute to the fertilised egg and so to the next generation. The theory implied that changes to the body during an organism's life would be inherited, as proposed in Lamarckism. (from History of genetics)
Image 24Clay models of animal livers dating between the nineteenth and eighteenth centuries BCE, found in the royal palace at Mari (from History of biology)
Image 252016 conservation indicator which includes the following indicators: marine protected areas, terrestrial biome protection (global and national), and species protection (global and national) (from Conservation biology)
Image 26Thomas Hunt Morgan's illustration of crossing over, part of the Mendelian-chromosome theory of heredity (from History of biology)
Image 27Summary of 2006 IUCN Red List categories: EX (Extinct) — EW (Extinct in the Wild) — CR (Critically Endangered) — EN (Endangered) — VU (Vulnerable) — NT (Near Threatened) — LC (Least Concern) (from Conservation biology)
Image 28Synthetic insulin crystals synthesized using recombinant DNA technology (from History of biotechnology)
Image 29Penicillin was viewed as a miracle drug that brought enormous profits and public expectations. (from History of biotechnology)
Image 30Statue of Robert Koch in Berlin. Koch directly provided proof for the germ theory of diseases, therefore creating the scientific basis of public health, saving millions of lives. For his life's work Koch is seen as one of the founders of modern medicine. (from History of biology)
Image 31A Genentech-sponsored sign declaring South San Francisco to be "The Birthplace of Biotechnology." (from History of biotechnology)
Image 32Description of rare animals (写生珍禽图), by Huang Quan (903–965) during the Song dynasty (from History of biology)
Image 33Frontispiece to a 1644 version of the expanded and illustrated edition of Historia Plantarum, originally written by Theophrastus around 300 BCE (from History of biology)
Image 34More conservation research is needed for understanding ecology and behaviour of the dhole in central China. (from Conservation biology)
Image 35Innovative laboratory glassware and experimental methods developed by Louis Pasteur and other biologists contributed to the young field of bacteriology in the late 19th century. (from History of biology)
Image 36Charles Darwin's first sketch of an evolutionary tree from his First Notebook on Transmutation of Species (1837) (from History of biology)
Image 37Sperms as preformed humans. Painting of Nicolaas Hartsoeker 1695 (from History of genetics)
Image 38White gyrfalcons drawn by John James Audubon (from Conservation biology)
Image 39A pie chart image showing the relative biomass representation in a rain forest through a summary of children's perceptions from drawings and artwork (left), through a scientific estimate of actual biomass (middle), and by a measure of biodiversity (right). The biomass of social insects (middle) far outweighs the number of species (right). (from Conservation biology)

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... that endemics along the wildlife of Morocco include more than six hundred species of vascular plants and a single species of bird?
... that an extract of Alchemilla diademata, a plant endemic to Lebanon, shows antimicrobial activity against Staphylococcus aureus?
... that more than 5,000 hen fleas were recorded from the nest of a coal tit?

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v t e Topics related to biology
Index
People and history	Biologist Notable biologists History of biology Nobel Prize in Physiology or Medicine Timeline of biology and organic chemistry List of geneticists and biochemists
Institutions, publications	Bachelor of Science Publications
Terms and phrases	Omne vivum ex ovo In vivo In vitro In utero In silico
Related disciplines	Medicine (Physician) Physical anthropology Environmental science Life Sciences Biotechnology
Other	List of conservation topics Altricial and Precocial development strategies

v t e History of biology (timeline)
Fields, disciplines	Agricultural science Anatomy Biochemistry Biotechnology Botany Ecology Evolutionary thought Genetics Geology Immunology Medicine Model organisms Molecular biology Molecular evolution Paleontology Phycology Plant systematics RNA biology Zoology (through 1859) Zoology (since 1859)
Theories, concepts	Germ theory of disease Central dogma of molecular biology Darwinism Great chain of being Hierarchy of life Lamarckism One gene–one enzyme hypothesis Protocell RNA world Sequence hypothesis Spontaneous generation
Related	History of science Philosophy of biology Teleology Ethnobotany Eugenics Dysgenics History of the creation-evolution controversy Human Genome Project Humboldtian science Natural history Natural philosophy Natural theology Relationship between religion and science
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Portal:Biology

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