Thomas Jenuwein
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Thomas Jenuwein
Thomas Jenuwein (born 1956) is a Germans, German scientist working in the fields of epigenetics, chromatin biology, gene regulation and genome function. Biography Thomas Jenuwein received his Ph.D. in molecular biology in 1987 from the European Molecular Biology Laboratory, EMBL, working on fos oncogenes in the laboratory of Rolf Müller and the University of Heidelberg and performed postdoctoral studies (1987-1993) on the immunoglobulin heavy chain (IgH) enhancer with Rudolf Grosschedl at the University of California, San Francisco, University of California San Francisco (UCSF). As an independent group leader (1993-2002) and then as a senior scientist (2002-2008) at the Research Institute of Molecular Pathology, Research Institute of Molecular Pathology (IMP) in Vienna, he focused his research to chromatin regulation. Through this work, he and his team discovered the first histone methyltransferase, histone lysine methyltransferase (KMT) that was published in 2000. He is curre ...
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Lohr Am Main
Lohr am Main (officially: ''Lohr a. Main'') is a town in the Main-Spessart district in the ''Regierungsbezirk'' of Lower Franconia (''Unterfranken'') in Bavaria, Germany and the seat (but not a member) of the ''Verwaltungsgemeinschaft'' (municipal association) of Lohr am Main. It has a population of around 15,000. Etymology The town takes its name from the eponymous river that flows into the Main in the municipality. Wolf-Armin Frhr. v. Reitzenstein: Lexikon fränkischer Ortsnamen. Herkunft und Bedeutung. C.H.Beck, München 2009, , p. 133. The addition "am Main" distinguishes it from other towns also named Lohr. Past ways of spelling the name include: Geography Location The municipal territory extends on both banks of the Main about halfway between Würzburg and Aschaffenburg in Lower Franconia. The town of Lohr lies on the eastern slope of the Spessart at a bend in the river Main, which swings towards the south here, forming the beginning of the ''Mainviereck'' ("Main ...
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Histone Methyltransferase
Histone methyltransferases (HMT) are histone-modifying enzymes (e.g., histone-lysine N-methyltransferases and histone-arginine N-methyltransferases), that catalyze the transfer of one, two, or three methyl groups to lysine and arginine residues of histone proteins. The attachment of methyl groups occurs predominantly at specific lysine or arginine residues on histones H3 and H4. Two major types of histone methyltranferases exist, lysine-specific (which can be SET (Su(var)3-9, Enhancer of Zeste, Trithorax) domain containing or non-SET domain containing) and arginine-specific. In both types of histone methyltransferases, S-Adenosyl methionine (SAM) serves as a cofactor and methyl donor group. The genomic DNA of eukaryotes associates with histones to form chromatin. The level of chromatin compaction depends heavily on histone methylation and other post-translational modifications of histones. Histone methylation is a principal epigenetic modification of chromatin that determines ge ...
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Cell Cycle
The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA (DNA replication) and some of its organelles, and subsequently the partitioning of its cytoplasm, chromosomes and other components into two daughter cells in a process called cell division. In cells with nuclei ( eukaryotes, i.e., animal, plant, fungal, and protist cells), the cell cycle is divided into two main stages: interphase and the mitotic (M) phase (including mitosis and cytokinesis). During interphase, the cell grows, accumulating nutrients needed for mitosis, and replicates its DNA and some of its organelles. During the mitotic phase, the replicated chromosomes, organelles, and cytoplasm separate into two new daughter cells. To ensure the proper replication of cellular components and division, there are control mechanisms known as cell cycle checkpoints after each of the key steps ...
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Histone H3
Histone H3 is one of the five main histones involved in the structure of chromatin in eukaryotic cells. Featuring a main globular domain and a long N-terminal tail, H3 is involved with the structure of the nucleosomes of the 'beads on a string' structure. Histone proteins are highly post-translationally modified however Histone H3 is the most extensively modified of the five histones. The term "Histone H3" alone is purposely ambiguous in that it does not distinguish between sequence variants or modification state. Histone H3 is an important protein in the emerging field of epigenetics, where its sequence variants and variable modification states are thought to play a role in the dynamic and long term regulation of genes. Epigenetics and post-translational modifications The N-terminus of H3 protrudes from the globular nucleosome core and is susceptible to post-translational modification that influence cellular processes. These modifications include the covalent attachment ...
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SUV39H1
Histone-lysine N-methyltransferase SUV39H1 is an enzyme that in humans is encoded by the ''SUV39H1'' gene. Function This gene is a member of the suppressor of variegation 3-9 homolog family and encodes a protein with a chromodomain and a C-terminal SET domain. This nuclear protein moves to the centromeres during mitosis and functions as a histone methyltransferase, methylating Lys-9 of histone H3. Overall, it plays a vital role in heterochromatin organization, chromosome segregation, and mitotic progression. In mouse embryonic stem cells, Suv39h1 expression is repressed by OCT4 protein through the induction of an antisense long non-coding RNA. Interactions SUV39H1 has been shown to interact with: * CBX1, * CBX5, * DNMT3A, * HDAC1, * HDAC3, * HDAC9, * Histone deacetylase 2, * MBD1, * RUNX1, * Retinoblastoma protein, and * SBF1. * PIN1 Peptidyl-prolyl cis-trans isomerase NIMA-interacting 1 is an enzyme that in humans is encoded by the ''PIN1'' gene. Pin 1, or ...
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Epigenetic Regulation
In biology, epigenetics is the study of stable phenotypic changes (known as ''marks'') that do not involve alterations in the DNA sequence. The Greek prefix '' epi-'' ( "over, outside of, around") in ''epigenetics'' implies features that are "on top of" or "in addition to" the traditional genetic basis for inheritance. Epigenetics most often involves changes that affect the regulation of gene expression, but the term can also be used to describe any heritable phenotypic change. Such effects on cellular and physiological phenotypic traits may result from external or environment (biophysical), environmental factors, or be part of normal development. The term also refers to the mechanism of changes: functionally relevant alterations to the genome that do not involve mutation of the nucleotide sequence. Examples of mechanisms that produce such changes are DNA methylation and histone modification, each of which alters how genes are expressed without altering the underlying DNA sequ ...
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Trithorax
Trithorax-group proteins (TrxG) are a heterogeneous collection of proteins whose main action is to maintain gene expression. They can be categorized into three general classes based on molecular function: # histone-modifying TrxG proteins # chromatin-remodeling TrxG proteins # DNA-binding TrxG proteins, plus other TrxG proteins not categorized in the first three classes. Discovery The founding member of TrxG proteins, trithorax (trx), was discovered ~1978 by Philip Ingham as part of his doctoral thesis while a graduate student in the laboratory of J.R.S. Whittle at the University of Sussex. Histone-lysine ''N''-methyltransferase 2A is the human homolog of trx. The table contains names of Drosophila TrxG members. Homologs in other species may have different names. Function Trithorax-group proteins typically function in large complexes formed with other proteins. The complexes formed by TrxG proteins are divided into two groups: histone-modifying complexes and ATP-depend ...
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Enhancer Of Zeste
Enhancer of zeste homolog 2 (EZH2) is a histone-lysine N-methyltransferase enzyme (EC 2.1.1.43) encoded by gene, that participates in histone methylation and, ultimately, transcriptional repression. EZH2 catalyzes the addition of methyl groups to histone H3 at lysine 27, by using the cofactor S-adenosyl-L-methionine. Methylation activity of EZH2 facilitates heterochromatin formation thereby silences gene function. Remodeling of chromosomal heterochromatin by EZH2 is also required during cell mitosis. EZH2 is the functional enzymatic component of the Polycomb Repressive Complex 2 ( PRC2), which is responsible for healthy embryonic development through the epigenetic maintenance of genes responsible for regulating development and differentiation. EZH2 is responsible for the methylation activity of PRC2, and the complex also contains proteins required for optimal function ( EED, SUZ12, JARID2, AEBP2, RbAp46/48, and PCL). Mutation or over-expression of EZH2 has been linked ...
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SET Domain
Set, The Set, SET or SETS may refer to: Science, technology, and mathematics Mathematics *Set (mathematics), a collection of elements * Category of sets, the category whose objects and morphisms are sets and total functions, respectively Electronics and computing * Set (abstract data type), a data type in computer science that is a collection of unique values ** Set (C++), a set implementation in the C++ Standard Library * Set (command), a command for setting values of environment variables in Unix and Microsoft operating-systems * Secure Electronic Transaction, a standard protocol for securing credit card transactions over insecure networks * Single-electron transistor, a device to amplify currents in nanoelectronics * Single-ended triode, a type of electronic amplifier * Set!, a programming syntax in the scheme programming language Biology and psychology * Set (psychology), a set of expectations which shapes perception or thought *Set or sett, a badger's den *Set, a small t ...
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Position-effect Variegation
Position-effect variegation (PEV) is a variegation caused by the silencing of a gene in some cells through its abnormal juxtaposition with heterochromatin via rearrangement or transposition. It is also associated with changes in chromatin conformation. Overview The classical example is the ''Drosophila'' wm4 (speak white-mottled-4) translocation. In this mutation, an inversion on the X chromosome placed the ''white'' gene next to pericentric heterochromatin, or a sequence of repeats that becomes heterochromatic. Normally, the ''white'' gene is expressed in every cell of the adult ''Drosophila'' eye resulting in a red-eye phenotype. In the w 4mutant, the eye color was variegated (red-white mosaic colored) where the ''white'' gene was expressed in some cells in the eyes and not in others. The mutation was described first by Hermann Muller in 1930. PEV is a ''heterochromatin-induced gene inactivation''. Gene silencing phenomena similar to this have also been observed in ''S. cerev ...
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Gene Expression
Gene expression is the process by which information from a gene is used in the synthesis of a functional gene product that enables it to produce end products, protein or non-coding RNA, and ultimately affect a phenotype, as the final effect. These products are often proteins, but in non-protein-coding genes such as transfer RNA (tRNA) and small nuclear RNA (snRNA), the product is a functional non-coding RNA. Gene expression is summarized in the central dogma of molecular biology first formulated by Francis Crick in 1958, further developed in his 1970 article, and expanded by the subsequent discoveries of reverse transcription and RNA replication. The process of gene expression is used by all known life—eukaryotes (including multicellular organisms), prokaryotes (bacteria and archaea), and utilized by viruses—to generate the macromolecular machinery for life. In genetics, gene expression is the most fundamental level at which the genotype gives rise to the phenotype, '' ...
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Histone
In biology, histones are highly basic proteins abundant in lysine and arginine residues that are found in eukaryotic cell nuclei. They act as spools around which DNA winds to create structural units called nucleosomes. Nucleosomes in turn are wrapped into 30-nanometer fibers that form tightly packed chromatin. Histones prevent DNA from becoming tangled and protect it from DNA damage. In addition, histones play important roles in gene regulation and DNA replication. Without histones, unwound DNA in chromosomes would be very long. For example, each human cell has about 1.8 meters of DNA if completely stretched out; however, when wound about histones, this length is reduced to about 90 micrometers (0.09 mm) of 30 nm diameter chromatin fibers. There are five families of histones which are designated H1/H5 (linker histones), H2, H3, and H4 (core histones). The nucleosome core is formed of two H2A-H2B dimers and a H3-H4 tetramer. The tight wrapping of DNA around histones ...
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