Wikipedia

GAS6

GAS6 (ингл. ) — аксымы, шул ук исемдәге ген тарафыннан кодлана торган югары молекуляр органик матдә.[24][25]

GAS6
Нинди таксонда бар H. sapiens[d][1]
Кодлаучы ген GAS6[d][1]
Молекуляр функция связывание с белками плазмы[d][2][3][4], signaling receptor binding[d][5][6], receptor tyrosine kinase binding[d][7], voltage-gated calcium channel activity[d][8], receptor ligand activity[d][9][10], molecular adaptor activity[d][11], phosphatidylserine binding[d][11], связывание с ионом металла[d][9], protein tyrosine kinase activator activity[d][4], calcium ion binding[d][9], cysteine-type endopeptidase inhibitor activity involved in apoptotic process[d][12], protein-macromolecule adaptor activity[d][11] һәм receptor ligand activity[d][9][10][13]
Күзәнәк компоненты endoplasmic reticulum lumen[d][9], цитоплазма[8], Люмен аппарата Гольджи[d][9], platelet alpha granule lumen[d][9], экзосома[d][14][15], күзәнәк тышындагы өлкә[d][9][9][9], внутренний компонент клетки[d][16], күзәнәк тышындагы мохит[d][9][8][17][…] һәм экзосома[d][18]
Биологик процесс positive regulation of natural killer cell differentiation[d][19], apoptotic cell clearance[d][9][11], cellular response to vitamin K[d][6], negative regulation of DNA-binding transcription factor activity[d][20], positive regulation of protein kinase activity[d][5], negative regulation of biomineral tissue development[d][21], negative regulation of tumor necrosis factor-mediated signaling pathway[d][22], cellular response to starvation[d][9], positive regulation of phagocytosis[d][8], позитивная регуляция сигналов от протеинкиназы В[d][9][6][20][…], positive regulation of cytokine-mediated signaling pathway[d][19], positive regulation of gene expression[d][22], dendritic cell differentiation[d][22], neuron migration[d][9], агрегация клеток[d][23], protein kinase B signaling[d][9][4][12], positive regulation of glomerular filtration[d][9][9], B cell chemotaxis[d][17], негативная регуляция апоптоза[d][9][17], positive regulation of ERK1 and ERK2 cascade[d][10], Фагоцитоз[11], regulation of growth[d][9], активация протеинкиназы В[d][9][9], negative regulation of tumor necrosis factor production[d][4][22], platelet degranulation[d][9], viral entry into host cell[d][11], negative regulation of oligodendrocyte apoptotic process[d][12], leukocyte migration[d][9], enzyme linked receptor protein signaling pathway[d][9], positive regulation of protein tyrosine kinase activity[d][4], миграция клеток[d][23], platelet activation[d][23], negative regulation of transcription, DNA-templated[d][20], positive regulation of protein export from nucleus[d][20], регенерация органов[d][9], cellular response to growth factor stimulus[d][9], negative regulation of interferon-gamma production[d][19], macrophage cytokine production[d][9], cellular response to glucose stimulus[d][9][9], hematopoietic stem cell migration to bone marrow[d][17], negative regulation of dendritic cell apoptotic process[d][22], calcium ion transmembrane transport[d][8], cell-substrate adhesion[d][9], negative regulation of interleukin-6 production[d][22], positive regulation of dendritic cell chemotaxis[d][22], signal peptide processing[d][16], viral genome replication[d][11], пролиферация[d][23], positive regulation of fibroblast proliferation[d][5][10], negative regulation of cysteine-type endopeptidase activity involved in apoptotic process[d][12], negative regulation of fibroblast apoptotic process[d][6], positive regulation of peptidyl-serine phosphorylation[d][12], platelet aggregation[d][23], positive regulation of TOR signaling[d][9][9], peptidyl-serine phosphorylation[d][4][20], endoplasmic reticulum to Golgi vesicle-mediated transport[d][9], вирусный процесс[d][9], extracellular matrix assembly[d][9][9], cellular response to interferon-alpha[d][22], фосфорилация белка[d][6], negative regulation of renal albumin absorption[d][9][9], negative regulation of endothelial cell apoptotic process[d][6][3][20], positive regulation of protein phosphorylation[d][9][9][5][…], передача сигнала[d][23][9][5][…], cвёртывание крови[d][9], апоптоз[d][9], посттрансляционная модификация[d][9], protein localization to plasma membrane[d][6], regulation of signaling receptor activity[d][9], apoptotic cell clearance[d][9][11][13] һәм protein kinase B signaling[d][9][4][12][…]

Искәрмәләр

үзгәртү
  1. 1,0 1,1 UniProt
  2. C Ekman, J Stenhoff, B Dahlbäck Gas6 is complexed to the soluble tyrosine kinase receptor Axl in human blood // Journal of Thrombosis and HaemostasisWiley-Blackwell, 2010. — ISSN 1538-7933; 1538-7836doi:10.1111/J.1538-7836.2010.03752.XPMID:20088931
  3. 3,0 3,1 Rajotte I., Hasanbasic I., Blostein M. Gas6-mediated signaling is dependent on the engagement of its gamma-carboxyglutamic acid domain with phosphatidylserine // Biochem. Biophys. Res. Commun.Academic Press, Elsevier BV, 2008. — ISSN 0006-291X; 1090-2104doi:10.1016/J.BBRC.2008.08.083PMID:18760998
  4. 4,0 4,1 4,2 4,3 4,4 4,5 4,6 Sola D., Sainaghi P. P. TNF-alpha, IL-6, and IL-1 expression is inhibited by GAS6 in monocytes/macrophages // J. Leukoc. Biol. / L. MontanerWiley-Blackwell, 2010. — ISSN 0741-5400; 1938-3673doi:10.1189/JLB.0909610PMID:20103767
  5. 5,0 5,1 5,2 5,3 5,4 Varnum B. C., C Young, G Elliott et al. Axl receptor tyrosine kinase stimulated by the vitamin K-dependent protein encoded by growth-arrest-specific gene 6 // Nature / M. SkipperNPG, Springer Science+Business Media, 1995. — ISSN 1476-4687; 0028-0836doi:10.1038/373623A0PMID:7854420
  6. 6,0 6,1 6,2 6,3 6,4 6,5 6,6 I Hasanbasic, I Rajotte, M Blostein The role of gamma-carboxylation in the anti-apoptotic function of gas6 // Journal of Thrombosis and HaemostasisWiley-Blackwell, 2005. — ISSN 1538-7933; 1538-7836doi:10.1111/J.1538-7836.2005.01662.XPMID:16359517
  7. Hammonds R. G. Reevaluation of the roles of protein S and Gas6 as ligands for the receptor tyrosine kinase Rse/Tyro 3, Reevaluation of the roles of protein S and gas6 as ligands for the receptor tyrosine kinase Rse/Tyro 3 // CellCell Press, Elsevier BV, 1995. — ISSN 0092-8674; 1097-4172doi:10.1016/0092-8674(95)90424-7PMID:7634325
  8. 8,0 8,1 8,2 8,3 8,4 Karl M. O., Engelmann K. Endogenous Gas6 and Ca2+ -channel activation modulate phagocytosis by retinal pigment epithelium // Cell. Signal.Elsevier BV, 2008. — 10 p. — ISSN 0898-6568; 1873-3913doi:10.1016/J.CELLSIG.2008.02.005PMID:18395422
  9. 9,00 9,01 9,02 9,03 9,04 9,05 9,06 9,07 9,08 9,09 9,10 9,11 9,12 9,13 9,14 9,15 9,16 9,17 9,18 9,19 9,20 9,21 9,22 9,23 9,24 9,25 9,26 9,27 9,28 9,29 9,30 9,31 9,32 9,33 9,34 9,35 9,36 9,37 9,38 9,39 9,40 9,41 9,42 9,43 9,44 9,45 9,46 9,47 GOA
  10. 10,0 10,1 10,2 10,3 Hafizi S. Vitamin K-dependent Gas6 activates ERK kinase and stimulates growth of cardiac fibroblasts // Biochem. Biophys. Res. Commun.Academic Press, Elsevier BV, 2004. — ISSN 0006-291X; 1090-2104doi:10.1016/J.BBRC.2004.05.070PMID:15184064
  11. 11,0 11,1 11,2 11,3 11,4 11,5 11,6 11,7 Lee B. The soluble serum protein Gas6 bridges virion envelope phosphatidylserine to the TAM receptor tyrosine kinase Axl to mediate viral entry // Cell Host & MicrobeCell Press, Elsevier BV, 2011. — ISSN 1931-3128; 1934-6069doi:10.1016/J.CHOM.2011.03.012PMID:21501828
  12. 12,0 12,1 12,2 12,3 12,4 12,5 Brosnan C. F. Gas6/Axl signaling activates the phosphatidylinositol 3-kinase/Akt1 survival pathway to protect oligodendrocytes from tumor necrosis factor alpha-induced apoptosis // J. Neurosci. / M. PicciottoSociety for Neuroscience, 2006. — ISSN 0270-6474; 1529-2401doi:10.1523/JNEUROSCI.5063-05.2006PMID:16723520
  13. 13,0 13,1 Livstone M. S., Thomas P. D., Lewis S. E. et al. Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium // Brief. Bioinform.OUP, 2011. — ISSN 1467-5463; 1477-4054doi:10.1093/BIB/BBR042PMID:21873635
  14. Sinha A., Kislinger T. In-depth proteomic analyses of exosomes isolated from expressed prostatic secretions in urine // Proteomics / L. StimsonWiley, 2013. — ISSN 1615-9853; 1615-9861doi:10.1002/PMIC.201200561PMID:23533145
  15. Farina A., Lane L., Lescuyer P. et al. Proteomic analysis of podocyte exosome-enriched fraction from normal human urine // Journal of ProteomicsElsevier BV, 2013. — ISSN 1874-3919; 0165-022Xdoi:10.1016/J.JPROT.2013.01.012PMID:23376485
  16. 16,0 16,1 GOA
  17. 17,0 17,1 17,2 17,3 Taichman R. S. GAS6/Mer axis regulates the homing and survival of the E2A/PBX1-positive B-cell precursor acute lymphoblastic leukemia in the bone marrow niche // Exp. Hematol. / C. EavesElsevier BV, 2010. — ISSN 0301-472X; 1873-2399doi:10.1016/J.EXPHEM.2009.11.002PMID:19922767
  18. Sinha A., Kislinger T. In-depth proteomic analyses of exosomes isolated from expressed prostatic secretions in urine // Proteomics / L. StimsonWiley, 2013. — ISSN 1615-9853; 1615-9861doi:10.1002/PMIC.201200561PMID:23533145
  19. 19,0 19,1 19,2 Caligiuri M. A. The Axl/Gas6 pathway is required for optimal cytokine signaling during human natural killer cell development // BloodAmerican Society of Hematology, Elsevier BV, 2009. — ISSN 0006-4971; 1528-0020doi:10.1182/BLOOD-2008-05-157073PMID:18840707
  20. 20,0 20,1 20,2 20,3 20,4 20,5 Ganopolsky J. G., Abid M. R., Aird W. C. et al. GAS6-induced signaling in human endothelial cells is mediated by FOXO1a // Journal of Thrombosis and HaemostasisWiley-Blackwell, 2008. — ISSN 1538-7933; 1538-7836doi:10.1111/J.1538-7836.2008.03114.XPMID:18680538
  21. Son B., Akishita M., Iijima K. et al. Androgen receptor-dependent transactivation of growth arrest-specific gene 6 mediates inhibitory effects of testosterone on vascular calcification // J. Biol. Chem. / L. M. GieraschBaltimore [etc.]: American Society for Biochemistry and Molecular Biology, 2010. — ISSN 0021-9258; 1083-351X; 1067-8816doi:10.1074/JBC.M109.055087PMID:20048160
  22. 22,0 22,1 22,2 22,3 22,4 22,5 22,6 22,7 Musso T., Cappello P., Giovarelli M. et al. Survival and migration of human dendritic cells are regulated by an IFN-alpha-inducible Axl/Gas6 pathway // J. Immunol.Baltimore: 2009. — ISSN 0022-1767; 1550-6606doi:10.4049/JIMMUNOL.0804384PMID:19657094
  23. 23,0 23,1 23,2 23,3 23,4 23,5 Burnier L. Role of the growth arrest-specific gene 6 (gas6) product in thrombus stabilization // Blood Cells, Molecules and DiseasesElsevier BV, 2006. — ISSN 1079-9796; 1096-0961doi:10.1016/J.BCMD.2005.12.038PMID:16564713
  24. HUGO Gene Nomenclature Commitee, HGNC:29223 (ингл.). әлеге чыганактан 2015-10-25 архивланды. 18 сентябрь, 2017 тикшерелгән.
  25. UniProt, Q9ULJ7 (ингл.). 18 сентябрь, 2017 тикшерелгән.

Чыганаклар

үзгәртү
  • Степанов В.М. (2005). Молекулярная биология. Структура и функция белков. Москва: Наука. ISBN 5-211-04971-3.(рус.)
  • Bruce Alberts, Alexander Johnson, Julian Lewis, Martin Raff, Keith Roberts, Peter Walter (2002). Molecular Biology of the Cell (вид. 4th). Garland. ISBN 0815332181.(ингл.)


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