Adaptor Proteins, Signal Transducing
"Adaptor Proteins, Signal Transducing" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
A broad category of carrier proteins that play a role in SIGNAL TRANSDUCTION. They generally contain several modular domains, each of which having its own binding activity, and act by forming complexes with other intracellular-signaling molecules. Signal-transducing adaptor proteins lack enzyme activity, however their activity can be modulated by other signal-transducing enzymes
Descriptor ID |
D048868
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MeSH Number(s) |
D12.644.360.024 D12.776.157.057 D12.776.476.024
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Concept/Terms |
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Below are MeSH descriptors whose meaning is more general than "Adaptor Proteins, Signal Transducing".
Below are MeSH descriptors whose meaning is more specific than "Adaptor Proteins, Signal Transducing".
This graph shows the total number of publications written about "Adaptor Proteins, Signal Transducing" by people in this website by year, and whether "Adaptor Proteins, Signal Transducing" was a major or minor topic of these publications.
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Year | Major Topic | Minor Topic | Total |
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2003 | 0 | 1 | 1 | 2008 | 1 | 0 | 1 | 2010 | 2 | 0 | 2 | 2011 | 0 | 3 | 3 | 2012 | 1 | 0 | 1 | 2013 | 1 | 1 | 2 | 2014 | 1 | 1 | 2 | 2015 | 1 | 3 | 4 | 2016 | 2 | 0 | 2 | 2017 | 4 | 0 | 4 | 2018 | 4 | 1 | 5 | 2019 | 1 | 1 | 2 | 2020 | 3 | 0 | 3 | 2021 | 4 | 0 | 4 | 2024 | 1 | 3 | 4 |
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Below are the most recent publications written about "Adaptor Proteins, Signal Transducing" by people in Profiles.
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Vong KI, Lee S, Au KS, Crowley TB, Capra V, Martino J, Haller M, Ara?jo C, Machado HR, George R, Gerding B, James KN, Stanley V, Jiang N, Alu K, Meave N, Nidhiry AS, Jiwani F, Tang I, Nisal A, Jhamb I, Patel A, Patel A, McEvoy-Venneri J, Barrows C, Shen C, Ha YJ, Howarth R, Strain M, Ashley-Koch AE, Azam M, Mumtaz S, Bot GM, Finnell RH, Kibar Z, Marwan AI, Melikishvili G, Meltzer HS, Mutchinick OM, Stevenson DA, Mroczkowski HJ, Ostrander B, Schindewolf E, Moldenhauer J, Zackai EH, Emanuel BS, Garcia-Minaur S, Nowakowska BA, Stevenson RE, Zaki MS, Northrup H, McNamara HK, Aldinger KA, Phelps IG, Deng M, Glass IA, Morrow B, McDonald-McGinn DM, Sanna-Cherchi S, Lamb DJ, Gleeson JG. Risk of meningomyelocele mediated by the common 22q11.2 deletion. Science. 2024 05 03; 384(6695):584-590.
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Douglas JT, Johnson DK, Roy A, Park T. Use of phosphotyrosine-containing peptides to target SH2 domains: Antagonist peptides of the Crk/CrkL-p130Cas axis. Methods Enzymol. 2024; 698:301-342.
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Ke X, Xia S, Yu W, Mabry S, Fu Q, Menden HL, Sampath V, Lane RH. Delta like 4 regulates cerebrovascular development and endothelial integrity via DLL4-NOTCH-CLDN5 pathway and is vulnerable to neonatal hyperoxia. J Physiol. 2024 May; 602(10):2265-2285.
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Srivastava T, Garola RE, Zhou J, Boinpelly VC, Rezaiekhaligh MH, Joshi T, Jiang Y, Ebadi D, Sharma S, Sethna C, Staggs VS, Sharma R, Gipson DS, Hao W, Wang Y, Mariani LH, Hodgin JB, Rottapel R, Yoshitaka T, Ueki Y, Sharma M. Scaffold protein SH3BP2 signalosome is pivotal for immune activation in nephrotic syndrome. JCI Insight. 2024 Feb 08; 9(3).
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Lin I, Afshar Y, Goldstein J, Grossman J, Grody WW, Quintero-Rivera F. Central 22q11.2 deletion (LCR22 B-D) in a fetus with severe fetal growth restriction and a mother with severe systemic lupus erythematosus: Further evidence of CRKL haploinsufficiency in the pathogenesis of 22q11.2 deletion syndrome. Am J Med Genet A. 2021 10; 185(10):3042-3047.
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Liang Y, Lyon RC, Pellman J, Bradford WH, Lange S, Bogomolovas J, Dalton ND, Gu Y, Bobar M, Lee MH, Iwakuma T, Nigam V, Asimaki A, Scheinman M, Peterson KL, Sheikh F. Desmosomal COP9 regulates proteome degradation in arrhythmogenic right ventricular dysplasia/cardiomyopathy. J Clin Invest. 2021 06 01; 131(11).
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Xia S, Menden HL, Townley N, Mabry SM, Johnston J, Nyp MF, Heruth DP, Korfhagen T, Sampath V. Delta-like 4 is required for pulmonary vascular arborization and alveolarization in the developing lung. JCI Insight. 2021 04 08; 6(7).
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Park T. Crk and CrkL as Therapeutic Targets for Cancer Treatment. Cells. 2021 03 27; 10(4).
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Park T, Large N, Curran T. Quantitative assessment of glioblastoma phenotypes in?vitro establishes cell migration as a robust readout of Crk and CrkL activity. J Biol Chem. 2021 Jan-Jun; 296:100390.
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Li D, Bradley T, Cain DW, Pedroza-Pacheco I, Aggelakopoulou M, Parks R, Barr M, Xia SM, Scearce R, Bowman C, Stevens G, Newman A, Hora B, Chen Y, Riebe K, Wang Y, Sempowski G, Saunders KO, Borrow P, Haynes BF. RAB11FIP5-Deficient Mice Exhibit Cytokine-Related Transcriptomic Signatures. Immunohorizons. 2020 11 10; 4(11):713-728.
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