ubiquitin

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Examples
ubiquitin's examples

  • Interestingly, ubiquitin also becomes covalently bonded to many types of pathological inclusions seen in serious human disease states which appear to be resistant to normal degradation, so that ubiquitin antibodies are very useful for studies of these inclusions. — “Monoclonal antibody against Ubiquitin Ubi-1”,
  • Ubiquitin definition, a small protein, present in all eukaryotic cells, that participates in the destruction of defective proteins and in the synthesis of new pro See more. — “Ubiquitin | Define Ubiquitin at ”,
  • Ubiquitin Assay Toolbox. Ubiquitination plays a key role in regulating protein degradation and is carried out by the conjugation of ubiquitin to target proteins through the sequential activity of three enzymes: E1, E2 and E3. The ubiquitin pathway is associated with many pathologies such as. — “Products: Ubiquitin Assay Toolbox”,
  • Ubiquitin is an evolutionarily highly conserved 76 amino acid polypeptide that is abundant in all eukaryotic cells. Ubiquitin is then transferred in a second thioester linkage to a ubiquitin conjugating enzyme (Ubc), or E2, which in turn catalyzes the transfer of. — “The Ubiquitin-Proteasom Pathway”, pathology.med.nyu.edu
  • ProSpec's Ubiquitins include: PGP9.5, PGP9.5 GST, SUMO1, SUMO2, Ubiquitin, Ubiquitin G76A, Ubiquitin K48R. — “Ubiquitin | ProSpec”,
  • ubiquitin signaling pathways, and appear within the. ubiquitin signal, the ubiquitylated substrate, ubiquitin Ubiquitin is a small 76 amino acid protein that is covalently. attached to other proteins to expand their functional reper. — “Multitasking with ubiquitin through multivalent interactions”,
  • Ubiquitin (Ub) is a small protein that is composed of 76 amino acids. Among eukaryotes, ubiquitin is highly conserved, meaning that the amino acid sequence does not differ much when very different organisms are compared. — “The Ubiquitin System”, homepages.bw.edu
  • Ubiquitin is a small regulatory protein that is ubiquitous in eukaryotes. The basic functions of ubiquitin and the components of the ubiquitination pathway were elucidated in the early 1980s in. — “The Individualist: Ubiquitin”,
  • Ubiquitinylation is an ATP-dependent process that involves the action of at least three enzymes: a ubiquitin-activating enzyme (E1, IPR000011), a ubiquitin-conjugating enzyme (E2, IPR000608), and a ubiquitin ligase (E3, IPR000569, IPR003613), which work sequentially in a cascade. — “IPR000626 Ubiquitin”,
  • ubiquitin, SUMO and related modifiers. David C. Schwartz and Mark Hochstrasser. Department of Molecular Biophysics & Biochemistry, Fig. 1. Generalized ubiquitin-like protein (UBL) conjugation cycle. — “doi:10.1016/S0968-0004(03)00113-0”, info.med.yale.edu
  • ubiquitin and ubiquitin-substrate conjugates by immuno- blotting. ubiquitin; periphery of senile plaques and of neurofibrillary tangles in Alzheimer's disease brain, the Lewy bodies in. — “Ubiquitin table”,
  • AB5937 Qty: 200 µLAnti-Ubiquitin Carboxyl-Terminal Hydrolase L1, a.a. Anti-Ubiquitin-protein conjugates. 09-408 Qty: 100 µLAnti-Ubiquitin-protein conjugates;. — “Ubiquitin”,
  • Ubiquitin protein. Ubiquitin is a highly conserved protein of about 8.5 kDa molecular weight, which has an ATP dependent role in the targeting of proteins for proteolyti. — “Ubiquitin protein (ab51097) | Abcam”,
  • Ubiquitin. 泛素是一个由76个氨基酸组成的高度保守的多肽链,因其广泛分布于各类细胞而得名。 泛素共价地结合于底物蛋白质的赖氨酸残基,被泛素标记的蛋白质将被特异性地识别并迅速降解,泛素的这种标记作用是非底物特异性的,在蛋白质降解过程中泛素的枢纽作用越来越得到研究者的重视。 细胞中的蛋白质处于不断地降解与更新的过程中,保持细胞正常的蛋白质代谢对于生命的正常功能至关重要。 Stabilization signals- a novel regulatory mechanism in the ubiquitin-proteasome system. — “Ubiquitin”,
  • Definition of ubiquitin in the Medical Dictionary. ubiquitin explanation. Information about ubiquitin in Free online English dictionary. What is ubiquitin? Meaning of ubiquitin medical term. What does ubiquitin mean?. — “ubiquitin - definition of ubiquitin in the Medical dictionary”, medical-
  • Ubiquitin binds to proteins and labels them for destruction. The basic functions of ubiquitin and the components of the ubiquitination pathway were. — “Ubiquitin - Wikipedia, the free encyclopedia”,
  • ubiquitin-recycling C-terminal hydrolase, gene product 9.5, humans, are marked with ubiquitin during epididymal passage. Ubiquitin crossreactivity can be detected in both live and fixed. — “Ubiquitin-dependent sperm quality control”,
  • Ubiquitin is attached to obsolete proteins, signaling to the cell that they are ready to be disassembled. Ubiquitous Ubiquitin. As its name implies, ubiquitin is found in all eukaryotic cells and in cells throughout. — “RCSB Protein Data Bank : Molecule of the Month - Ubiquitin”,
  • Ubiquitin exists both as a monomer and as isopeptide-linked polymers known as poly-ubiquitin chains. Ub modification is required for ATP-dependent (non-lysosomal) proteolysis by the proteasome, and also the regulation of activity of proteins in non-proteosomal pathways. — “Ubiquitin | Boston Biochem”,
  • ubiquitin ( yü′bikwə′tin ) ( biochemistry ) A small, 76-amino-acid, highly conserved protein present in the cytoplasm and nucleus of all eukaryotes. — “Ubiquitin: Definition from ”,
  • Monoclonal Antibody against Ubiquitin for use in ELISA, Immunofluorescence, Immunohistochemistry (Paraffin, Frozen), Western Blot. — “Anti-Ubiquitin Monoclonal Antibody”, pierce-

Videos
related videos for ubiquitin

  • Israelis Win The Nobel Prize Technion Profs. Avram Hershko and Aaron Ciechanover were the first Israelis to be awarded the Nobel Prize in Science. Hear about the 2004 Nobel Prize, and their research on the ubiquitin system.
  • AP Biology: Eukaryotic Gene Regulation Watch more free lectures and examples of AP Biology at Other subjects include Geometry, Algebra 1/2, Pre Calculus, Pre Algebra, Calculus, Statistics, Chemistry, Physics, and Computer Science. -All lectures are broken down by individual topics -No more wasted time -Just search and jump directly to the answer
  • Infection of EYFP-PML I HF cells by vECFP-ICP4 HSV1 Time course of infection of human fibroblasts expressing an EYFP-PML I fusion under the control of the weak gD promoter by the modified HSV-1 virus vECFP-ICP4, whose immediate early protein ICP4 has been coupled with ECFP. The colors are artificial ones, so ECFP is green and EYFP is red. One shot was taken every 5 minutes, so the real length of the events seen here is actually 6 h 30. Initially, ND10 bodies can be seen in most cells' nuclei as red foci (though the exposition is so short that for a minority of cells that only faintly express EYFP-PML I no signal is detected). The initial weak and diffuse green signal corresponds to non specific background (though colour information is lost on these images, which are the result of the merging of two black and white files, it was clear under the microscope's binoculars that this was a different color than ECFP). After about 1 h 30, the red signal begins to weaken in infected cells, almost fully vanishing after about 2 h 30, as HSV-1 immediate early protein ICP0 triggers the proteasome dependent degradation of PML through its E3 ubiquitin ligase activity, thus disrupting ND10 bodies. Conversely, a diffuse green signal starts to appear in those cells, and shortly after several big green dots appear in each infected nucleus: they correspond to ICP4 accumulations in viral replication compartments. The compartments keep growing until the end of the time course experiment. Over the same lapse of time, as expected uninfected cells ...
  • Time lapse video of cells Time lapse video of mouse B lymphocytes in culture. Green channel is GFP.
  • waiman haim- kabbalah jewelry,engraving jewelry waiman haim-wedding ring engraving titanium wedding ring engraving,jewelry engraving,engraving personal gift and jewelry. tel aviv israel וימן חיים -עיצוב תכשיטים במחשב חריטה אומנותית על תכשיטים ומתנות.חריטה על טבעות נישואין.עבודות סי אן סי קלות.תכשיטי קבלה
  • Proteosomes Proteasomes are large protein complexes inside all eukaryotes and archaea, as well as in some bacteria. In eukaryotes, they are located in the nucleus and the cytoplasm.The main function of the proteasome is to degrade unneeded or damaged proteins by proteolysis, a chemical reaction that breaks peptide bonds. Enzymes that carry out such reactions are called proteases. Proteasomes are a major mechanism by which cells regulate the concentration of particular proteins and degrade misfolded proteins. The degradation process yields peptides of about seven to eight amino acids long, which can then be further degraded into amino acids and used in synthesizing new proteins.Proteins are tagged for degradation by a small protein called ubiquitin. The tagging reaction is catalyzed by enzymes called ubiquitin ligases. Once a protein is tagged with a single ubiquitin molecule, this is a signal to other ligases to attach additional ubiquitin molecules. The result is a polyubiquitin chain that is bound by the proteasome, allowing it to degrade the tagged protein
  • The Ubiquitin Protoelytic System Case Western Reserve University School of Medicine presents the Dean's Scientific Research Symposium. Co-sponsored by the Department of Pharmacology. Aaron Ciechanover, MD, Ph.D., Nobel Laureate, Vascular & Tumor Biology Research Center, The Rappaport Faculty of Medicine and Research Institute Technion-Israel Institute of Technology presents his keynote address titled "The Ubiquitin Protoelytic System: From Basic Mechanisms through Human Diseases and onto Drug Targeting" to the participants of the symposium held in Wolstein Auditorium on April 30, 2008.
  • Proteasome Ari in his early days of acting...
  • DNA repair - homologous recombination dsbs signalling updated v 3.0- Full HD The DNA damage response (DDR) of the cell includes: (i) sensing, (ii) signalling and (iii) repair of DNA damage. Double strand breaks (DSBs) are the most toxical DNA damage. They can be produced by ionizing radiation, laser beam, chemical-clastogenic compounds such as bleomycin, Topoisomerase II enzyme, endonucleases or also can be generated from single stranded break (SSB) DNA. Around nine DSB per cell and day are produced in physiological conditions1. The Homologus Recombination (HR) pathway is in charge of DSBs repair, in a error-free fashion, during S or G2 phases of the cell cycle, using sister chromatid as template3 . The sensing and signalling of DSBs are very important for the maintenance of the genome and chromosomal stability. Recent research works, stressed out the key role of post-traslational modification of DDR proteins such as: phosphorilation, acetylation, methylation, ubiquitination and sumoylation in the DNA damage signalling. The HR DDR signalling is believed to act in the following order: the DSB lesion is recognized by MRN complex (MRE11 /RAD50/NBS1), that recruits the ATM (mutated in Ataxia Telangiectasia) kinase. ATM phosphorilates the serine 139 of the γH2AX at the damage site and also in large number of nucleosomes around the DSB and also phosphorilates MDC1 (mediator of DNA damage checkpoint protein 1). At this point the γH2AX-ATM-MDC1 connection generates a possitive feedback loop, that amplifies the DSB signalling. Then, RNF8 (an E3 ubiquitin ...
  • The role of the ubiquitin -- proteasome pathway in rh TRIM5 restriction of HIV-1, Cindy Danielson IAS workshop "Towards a cure: HIV reservoirs and strategies to control them" 16&17 July 2010 - University of Vienna, Austria 17 July, 10:45-12:30 Session 4 - What host factors are at play? Chair Jacques Fellay, US It has been well established that host genetic differences have a strong influence on patient differences in viral control. This session reviews what is known about the host genetic determinants of viral control and what future studies are needed to develop a more comprehensive view of the genetic contributions to control. Abstract presented by Cindy Danielson S4.2. The role of the ubiquitin-proteasome pathway in rhTRIM5 restriction of HIV-1 C. Danielson, T. Hope Northwestern University, Cell and Molecular Biology, Chicago, United States
  • Proteasome Inhibition In Vivo with IKB-Fluc Real-Time Imaging of Proteasome Inhibition In Vivo with IKB-Fluc - From the David Piwnica-Worms Lab - Washington University in St. Louis
  • Sound of ubiquitin. Sound of ubiquitin. NMR chemical shifts into sound frequencies. By Woonghee & Arash in NMRFAM University of Wisconsin-Madison
  • Jewelery making - Ubiquitin necklace Video of making the unique Ubiquitin necklace. Baruch Hadaya, a Jeweler in the old city of Jerusalem, hand making personalized pieces engraved with Hebrew phrases (biblical and others).
  • Smurfs connect with Planar Cell Polarity See paper by Narimatsu et al. Cell. 2009 Apr 17;137(2):295-307. Planar cell polarity (PCP) regulates polarity across the plane of the tissue and plays key roles in organizing tissue shape and function. One example of such a tissue is the inner ear, shown here as a 3D reconstruction with stereocilia (red) and centered kinocilia (blue). In Smurf ubiquitin ligase mutant mice, the inner ear displays cells with altered planar orientation and disorganized packing.
  • Israel's First Nobel Prize The first Nobel Prize to Israelis advances our understanding of essence of life and the human cell.
  • Neurosciences Research Building at UCSF Mission Bay When it opens in 2011, a new state-of-the-art facility designed by Skidmore, Owings & Merrill will provide more than 500000 square feet for about 100 principal investigators and their teams. Among these will be numerous investigators working to study Alzheimer's, frontotemporal dementia, Parkinson's and prion diseases—as well as medicinal chemists to help us design better drugs.
  • Proud 2B Nobel Technions Distinguished Profs. Avram Hershko and Aaron Ciechanover were awarded the first-ever Nobel Prize to Israeli scientists. They won the prestigious Nobel Prize in Chemistry in 2004 for their discovery of the ubiquitin-mediated protein degradation system, the process by which the body marks unwanted proteins for destruction one of the cells most important control mechanisms.
  • ubiquitina
  • Potential therapeutic targets in misprocessed proteins In dementias, nerve cells and the connections between them, die. Scientists believe that the abnormal accumulation of certain proteins within nerve cells are involved. In Alzheimer's disease, there are plaques of amyloid protein. In FTD, there is clumping of a protein called tau. Recently, scientists discovered that a protein called ubiquitin is involved in some cases of FTD. Researchers' long term goal is to determine the role of such proteins in the disease processes and, where appropriate, develop treatments that alter the structure or accumulation of the culprit proteins. memory.ucsf.edu UCSF Memory and Aging Center .
  • Proteasome An animation on Proteasomes
  • Antigen: protease degradation - PMAP Antigen processing is a biological process that prepares antigens for presentation to special cells of the immune system called T lymphocytes. This process involves two distinct pathways for processing of antigens from an organism's own (self) proteins or intracellular pathogens (eg viruses), or from phagocytosed pathogens (eg bacteria); subsequent presentation of these antigens on class I or class II MHC molecules is dependent on which pathway is used. Both MHC class I and II are required to bind antigen before they are stably expressed on a cell surface. The endogenous pathway is used to present cellular peptide fragments on the cell surface on MHC class I molecules. If a virus had infected the cell, viral peptides would also be presented, allowing the immune system to recognize and kill the infected cell. Worn out proteins within the cell become ubiquitinated, marking them for proteasome degradation. The exogenous pathway is utilized by professional antigen presenting cells to present peptides derived from proteins that the cell has endocytosed. The peptides are presented on MHC class II molecules. Proteins are endocytosed and degraded by acid-dependent proteases in endosomes; this process takes about an hour.
  • HaloTag p65 translocation Layman's notes: * These are cultured human cells living on a glass slide. * The large black circles are the nuclei (plural of nucleus). This is where the chromosomes, made of DNA, are. * A gene is DNA sequence that includes the code for a protein, plus regulatory sequences on each side. * The red dots are proteins called transcription factors (or TFs) that have been tagged with a fluorescent dye. * A TF can bind to a specific regulatory DNA sequence of a gene, and turn that gene on or off, like a switch. * The two sides are the same image, but in the left side, the white light has been turned off so you can see the fluorescent dye better. * At the beginning of this video, these TFs are mainly in the cytoplasm of the cells. * When the cells are washed with a stimulus - either a chemical or another protein - the cells respond by moving the TFs into the nuclei, so that they can find their target DNA sequence and turn on their genes. * Once the stimulus is removed, the TFs aren't needed anymore, so they recycle back to the cytoplasm. * This is an example of how cells regulate their activity depending on environmental cues. More technical notes: * A p65-HaloTag fusion construct was transfected into HeLa cells to do real-time imaging of protein translocation events. Review NFkB (NF-kappa-B) pathway: * NFkB complex is composed of heterodimer of p65 and p50. * IkB (I-kappa-B) p65 has a nuclear localization sequence (NLS) that is masked by IkB (Inhibitor of NFkB). * In response to ...
  • SUMO protein - ABGENT Find Your Antibodies! Small Ubiquitin-like Modifier or SUMO proteins are a family of small proteins that are covalently attached to and detached from other proteins in cells to modify their function. SUMOylation is a post-translational modification involved in various cellular processes, such as nuclear-cytosolic transport, transcriptional regulation, apoptosis, protein stability, response to stress, and progression through the cell cycle
  • Novah vs Ubiquitin Just way to quick
  • Philip Cohen - Part 11 - SCILLS, is ubiquitin the new phosphate? Prof. Sir Philip Cohen delivers an engaging and informative talk about the targeting of the phosphate pathway as the cure for cancer and other diseases. In this final clip Sir Philip introduces his work at the Scottish Institute for Cell Signalling, ubiquitin and whether the phosphate drug discovery model can be replicated. This was a British Science Association Tayside and Fife branch lecture, as part of Dundee Science Festival presented on 28th October 2010.
  • Prof. Avram Hershko - Science as an Adventure Prof. Avram Hershko shared the 2004 Nobel Prize in Chemistry with Aaron Ciechanover and Irwin Rose for "for the discovery of ubiquitin-mediated protein degradation." He is a research professor in the Department of Biochemistry at the Technion's Rappaport Faculty of Medicine in Haifa.
  • Pharmacology: Hypertension 1 Brief treatment of hypertension. Types of treatment.
  • TCOM 2014 Hooter's Cheerleaders @ Powderpuff 2010 The TCOM 2014 Ubiquitinators cheerleaders, "The Hooters", cheering on their first-year team.
  • Prof. Aaron Ciechanover - Intracellular Proteolysis as a Future Drug Development Platform Prof. Aaron Ciechanover shared the 2004 Nobel Prize in Chemistry with Avram Hershko and Irwin Rose for "for the discovery of ubiquitin-mediated protein degradation." He is a research professor in the Department of Biochemistry at the Technion's Rappaport Faculty of Medicine in Haifa.
  • BioChemInf: A portrayal of E3 ubiquitin ligases and deubiquitylases in cancer http://t.co/V9V8yjV8UI
  • coolstorydro: Ayon sa Ubiquitin-Dependent Proteasome Degradation Cycle, commitment ang first step. #genetics
  • heynosaj: Putting exclamation points would make this bio book more interesting. Example: "ubiquitin, named because it is ubiquitous, or widespread!"
  • MGClaros: En el nanoblog del Gonz: De por qué la #traducción de ubiquitin [EN] debe ser ubicuitina [ES]. http://t.co/tLrraG9YaV
  • AEF_AT: ATM kinase activity modulates ITCH E3-ubiquitin ligase activity. http://t.co/2A9DtHaWPl #A-T
  • kylejnorton: Overcome Male Infertility --What is Sperm-Ubiquitin tag immunoassay (SUTI)? http://t.co/w7Ul2jufsn
  • IriePhilly: RT @VaillancourtLab Interesting, QTLs identified by MAGIC are involved in #ubiquitin pathway & programmed cell death pathway. Balint-Kurti.
  • LifeSensorsInc: LifeSensors' Chris Loch to speak this afternoon at this year's @GTCbio #Ubiquitin Research Conference in Las Vegas: http://t.co/lTbZyUd0go
  • VaillancourtLab: Interesting, QTLs identified by MAGIC are involved in ubiquitin pathway and programmed cell death pathway. Balint-Kurti.
  • samkaris: RT @EurekaMag: http://t.co/zGYZb6M6wN http://t.co/QPV2qZ3sXu Oxidative stress regulates the ubiquitin-proteasome system and... http://t.co/eAIaqKAMHF
  • Science_Alerts: http://t.co/oB0fuv1ZJZ Oxidative stress regulates the ubiquitin-proteasome system and immunoproteasome... http://t.co/fgyGYmZPf5
  • Life_Sciences_: http://t.co/KR8ilTOjxd Oxidative stress regulates the ubiquitin-proteasome system and immunoproteasome... http://t.co/u0FzfZlQun
  • EurekaMag: http://t.co/zGYZb6M6wN http://t.co/QPV2qZ3sXu Oxidative stress regulates the ubiquitin-proteasome system and... http://t.co/eAIaqKAMHF
  • ScienceIndex_: http://t.co/BblyNoSNR1 Oxidative stress regulates the ubiquitin-proteasome system and immunoproteasome... http://t.co/OloO5KGHVt
  • underexpose: .. binds to FANCA subunit and is required for stability of the complex and monoubiquitination of FANCD2. FAAP20 contains a ubiquitin-binding
  • Life_Sciences_: http://t.co/39c57zLZkK A portrayal of E3 ubiquitin ligases and deubiquitylases in cancer http://t.co/eXd32nvXg8
  • EurekaMag: http://t.co/zGYZb6M6wN http://t.co/QH1kgNhjcY A portrayal of E3 ubiquitin ligases and deubiquitylases in cancer http://t.co/YXkIqPu0MP
  • biochembelle: This wk: immunosignaturing, variomics, immunoresolvents, kinase cysteinome, ubiquitous proteomes (nothing to do w ubiquitin) @asmkelly
  • Palms2Pios: Ubiquitin-independent proteasomal degradation of tumor suppressors by HCMV pp71 requires the 19S regulatory particle http://t.co/nKIZdPgSDx
  • MISSIONTherapeu: Regulation of DNA Damage Responses by #Ubiquitin and #SUMO; review in Mol Cell by Pr Steve Jackson, MISSION CSO. http://t.co/zXM9DTAQF9
  • randomngirl11: UBIQUITIN LIGASE OH HOW MUCH I HATE YOU
  • vivabioscience: Directional selection precedes conformational selection in #ubiquitin-UIM binding http://t.co/GSGkfBnkcW
  • MISSIONTherapeu: MISSION will present "challenges and opportunities in DUB drug discovery" at the 3rd #Ubiquitin drug discovery conference, Las Vegas Feb 25
  • AmasianV: RT @wonderfunlife: @AmasianV both. Pull-downs or co-IPs won't work. We might try a split-ubiquitin assay, but we'd like to know if there's a better assay
  • wonderfunlife: @AmasianV both. Pull-downs or co-IPs won't work. We might try a split-ubiquitin assay, but we'd like to know if there's a better assay
  • GenomeStability: K63-linked #Ubiquitin chains are protected from degradation by ESCRT service! http://t.co/RJ23LaOZrA
  • UbConfVLI: Join the #Ubiquitin Conferences group on #LinkedIn http://t.co/uFf9RP7kuY #biotech #pharma #futuremed #proteasome #NIH #myresearch
  • UbConfVLI: The 5th Annual #Ubiquitin Drug Discovery & Diagnostics Conference will be July 22-24. Save up to $300 on registration http://t.co/uAIcBH2VSw

Blogs & Forum
blogs and forums about ubiquitin

  • “ALS TDI forum is a free portal that is dedicated to exchange information about ALS, scientific advances in ALS, and treatments for ALS. Nedd4-1 is an enzyme that usually controls the degradation of protein components in cells by combining them with another protein called ubiquitin”
    — How nerve cells grow finally decoded. - ALS Research,

  • “I'm happy to cross-post another elegant piece written by the MD specialist Bosco Ho. In this post Bosco compares the performance of Molecular Dynamics simulations with Monte Carlo simulations in reconstructing NMR S order parameters for”
    — Molecular Dynamics Vs. Monte Carlo | Macromolecular Modeling Blog ™,

  • “Recently, it has become clear that ubiquitin is involved in a variety of other vital Ubiquitin ligases - February 2007. Accepted abstract: Ubiquitin”
    — Le Roch Lab Blog " Blog Archive " International Meeting of,

  • “The discovery of ubiquitin was achieved by Dr. Aaron Ciechanover, he conducted his in the labeling of ubiquitin-protein conjugates during the formation”
    Ubiquitin - Who discovered it,

  • “Official website of Ivor Kovic, medical doctor from Croatia, including a blog, photo gallery and the most fresh CV. In just a matter of seconds you came to know that this author is, among others, interested in phosphorylation, signal transduction and ubiquitin/metabolism”
    — Ivor Kovic, M.D. " Blog Archive " PubReMiner, ivor-

  • “Download. Documentation. Forum. Links. Kismet Forums. ubiquitin. Email address: Not shown. None. [email protected]
    — Kismet,

  • “ALS TDI forum is a free portal that is dedicated to exchange information about ALS, scientific advances in ALS, and treatments for ALS. Protein destruction occurs through a sophisticated system that marks proteins for disposal by tagging them with a small molecule called ubiquitin”
    — Enhancement of proteasome activity by a small-molecule, als-

  • “We didn't set out to identify ubiquitin. We didn't know anything about ubiquitin or its function," Ciechanover tellsThe Scientist. " We were studying intracellular proteolysis and we bumped into it." Most Viewed. Most Emailed. Blog. GenomeWeb Daily News. Agilent Q4 Revenues Climb 35 Percent”
    — Nobel Laureate 'Bumped Into' Ubiquitin Discovery | The Daily,

Keywords
related keywords for ubiquitin