CD36 molecule

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no tipo 'e

proteina^[20]

parte 'e

CD36^[24]

Putative uncharacterized transport proteins^[25]

trovato nella tassonomia de

Homo sapiens^[20]

codificato da

CD36^[20]

funzione molecolare

legame dei farmaci alle proteine plasmatiche^{[26][27][28][29]}

metodo di determinazione: IPI

low-density lipoprotein particle receptor activity^[30][31][32]

metodo di determinazione: TAS, IMP, IEA

transforming growth factor beta binding^[33]

metodo di determinazione: ISS

high-density lipoprotein particle binding^[32]

metodo di determinazione: IEA

lipoprotein particle binding^[34]

metodo di determinazione: IDA

thrombospondin receptor activity^[33]

metodo di determinazione: ISS

lipid binding^[35]

metodo di determinazione: IDA

low-density lipoprotein particle binding^[32][35]

metodo di determinazione: IDA, IEA

lipoteichoic acid immune receptor activity^[32]

metodo di determinazione: IEA

amyloid-beta binding^[36][37]

metodo di determinazione: IC, TAS

scavenger receptor activity^[38][39][40]

metodo di determinazione: IMP, TAS

Toll-like receptor binding^[41]

metodo di determinazione: IPI

oxidised low-density lipoprotein particle receptor activity^[42]

metodo di determinazione: IMP

amyloid-beta binding^[43][44][45]

metodo di determinazione: IC, IDA, TAS

protein-containing complex binding^[46]

metodo di determinazione: IPI

componente cellulare

apparato del Golgi^{[47][32][48][49]}

metodo di determinazione: IDA, IEA

apical plasma membrane^[47]

metodo di determinazione: IEA

phagocytic vesicle^[50]

metodo di determinazione: TAS

apical part of cell^[32]

metodo di determinazione: IEA

brush border membrane^[51][32]

metodo di determinazione: ISS, IEA

endocytic vesicle membrane^[50]

metodo di determinazione: TAS

integral component of plasma membrane^[52][30]

metodo di determinazione: TAS

membrana^{[52][47][53][32]}

metodo di determinazione: TAS, IEA

external side of plasma membrane^[32]

metodo di determinazione: IEA

integral component of membrane^[47]

metodo di determinazione: IEA

platelet alpha granule membrane^[50]

metodo di determinazione: TAS

Zattera lipidica^[47][32][48]

metodo di determinazione: IDA, IEA

cell surface^[54][55]

metodo di determinazione: IDA, ISS

membrana cellulare^{[50][47][32][56]}

metodo di determinazione: IDA, TAS, IEA

spazio extracellulare^[57]

metodo di determinazione: IDA

specific granule membrane^[50]

metodo di determinazione: TAS

spazio extracellulare^[58]

metodo di determinazione: HDA

intracellulare^[59]

metodo di determinazione: IPI

cell surface^[38][33][35]

metodo di determinazione: IDA, ISS, TAS

receptor complex^[41]

metodo di determinazione: IPI

processo biologico

low-density lipoprotein particle mediated signaling^[32]

metodo di determinazione: IEA

apoptotic cell clearance^[32]

metodo di determinazione: IEA

positive regulation of MAPK cascade^[32]

metodo di determinazione: IEA

response to lipid^[51][32]

metodo di determinazione: ISS, IEA

nitric oxide mediated signal transduction^[60]

metodo di determinazione: IDA

intestinal absorption^[51][32]

metodo di determinazione: ISS, IEA

positive regulation of blood microparticle formation^[32]

metodo di determinazione: IEA

positive regulation of blood coagulation^[32]

metodo di determinazione: IEA

plasma lipoprotein particle clearance^[61][32]

metodo di determinazione: ISS, IEA

sensory perception of taste^[51][32]

metodo di determinazione: ISS, IEA

coagulazione del sangue^[62]

metodo di determinazione: TAS

cellular response to hydroperoxide^[32]

metodo di determinazione: IEA

positive regulation of ERK1 and ERK2 cascade^[51][32]

metodo di determinazione: ISS, IEA

receptor internalization^[51][32]

metodo di determinazione: ISS, IEA

cellular response to bacterial lipopeptide^[32]

metodo di determinazione: IEA

amyloid fibril formation^[51][32]

metodo di determinazione: ISS, IEA

cellular response to lipopolysaccharide^[32]

metodo di determinazione: IEA

cell surface receptor signaling pathway^[53][32]

metodo di determinazione: IEA

antigen processing and presentation of exogenous peptide antigen via MHC class I, TAP-dependent^[50]

metodo di determinazione: TAS

cholesterol transport^[61][32]

metodo di determinazione: ISS, IEA

platelet degranulation^[50]

metodo di determinazione: TAS

cholesterol import^[51][32]

metodo di determinazione: ISS, IEA

cellular response to diacyl bacterial lipopeptide^[48]

metodo di determinazione: IDA

negative regulation of transcription by RNA polymerase II^[32]

metodo di determinazione: IEA

trasporto^[63]

metodo di determinazione: IEA

toll-like receptor TLR6:TLR2 signaling pathway^[50]

metodo di determinazione: TAS

phagocytosis, recognition^[32]

metodo di determinazione: IEA

cellular response to low-density lipoprotein particle stimulus^[51][32]

metodo di determinazione: ISS, IEA

positive regulation of macrophage cytokine production^[32]

metodo di determinazione: IEA

risposta immunitaria^[53]

metodo di determinazione: IEA

response to linoleic acid^[51][32]

metodo di determinazione: ISS, IEA

negative regulation of gene expression^[32]

metodo di determinazione: IEA

positive regulation of reactive oxygen species metabolic process^[32]

metodo di determinazione: IEA

lipoprotein transport^[30][31][32]

metodo di determinazione: TAS, IMP, IEA

positive regulation of cell-matrix adhesion^[60]

metodo di determinazione: IDA

positive regulation of interleukin-12 production^[32]

metodo di determinazione: IEA

triglyceride transport^[51][32]

metodo di determinazione: ISS, IEA

long-chain fatty acid import into cell^[32][56][60]

metodo di determinazione: IDA, IEA

MyD88-dependent toll-like receptor signaling pathway^[50]

metodo di determinazione: TAS

response to fatty acid^[51][32]

metodo di determinazione: ISS, IEA

regulation of removal of superoxide radicals^[32]

metodo di determinazione: IEA

cellular response to lipoteichoic acid^[32]

metodo di determinazione: IEA

positive regulation of cholesterol storage^[32]

metodo di determinazione: IEA

intestinal cholesterol absorption^[51][32]

metodo di determinazione: ISS, IEA

positive regulation of tumor necrosis factor production^[32]

metodo di determinazione: IEA

receptor-mediated endocytosis^[64]

metodo di determinazione: TAS

lipid metabolism^[65]

metodo di determinazione: NAS

cGMP-mediated signaling^[60]

metodo di determinazione: IDA

positive regulation of phagocytosis, engulfment^[32]

metodo di determinazione: IEA

defense response to Gram-positive bacterium^[32]

metodo di determinazione: IEA

positive regulation of cytosolic calcium ion concentration^[51][32]

metodo di determinazione: ISS, IEA

positive regulation of interleukin-6 production^[32]

metodo di determinazione: IEA

positive regulation of peptidyl-tyrosine phosphorylation^[32]

metodo di determinazione: IEA

positive regulation of I-kappaB kinase/NF-kappaB signaling^[32]

metodo di determinazione: IEA

response to stilbenoid^[32]

metodo di determinazione: IEA

positive regulation of NLRP3 inflammasome complex assembly^[51][32]

metodo di determinazione: ISS, IEA

low-density lipoprotein particle clearance^[31][32]

metodo di determinazione: IEA, IMP

lipid storage^[31][32]

metodo di determinazione: IEA, IMP

positive regulation of macrophage derived foam cell differentiation^[31][32]

metodo di determinazione: IEA, IMP

cell adhesion^[62][47]

metodo di determinazione: IEA, TAS

toll-like receptor signaling pathway^[50]

metodo di determinazione: TAS

neutrophil degranulation^[50]

metodo di determinazione: TAS

regulation of lipid metabolic process^[50]

metodo di determinazione: TAS

production of molecular mediator involved in inflammatory response^[38]

metodo di determinazione: TAS

metabolismo dei lipidi^[38]

metodo di determinazione: TAS

receptor-mediated endocytosis^[50][40]

metodo di determinazione: IMP, TAS

phagocytosis, engulfment^[38]

metodo di determinazione: TAS

response to bacterium^[32]

metodo di determinazione: IEA

positive regulation of gene expression^[66][32]

metodo di determinazione: IEA, ISS

positive regulation of cell death^[42]

metodo di determinazione: IMP

cytokine-mediated signaling pathway^[50]

metodo di determinazione: TAS

regulation of lipopolysaccharide-mediated signaling pathway^[38]

metodo di determinazione: TAS

regulation of toll-like receptor signaling pathway^[67]

metodo di determinazione: IGI

negative regulation of protein import into nucleus^[32]

metodo di determinazione: IEA

regulation of protein heterodimerization activity^[68]

metodo di determinazione: IMP

positive regulation of nitric oxide biosynthetic process^[66][32]

metodo di determinazione: IEA, ISS

positive regulation of NF-kappaB transcription factor activity^[67]

metodo di determinazione: IGI

energy homeostasis^[51][32]

metodo di determinazione: IEA, ISS

regulation of action potential^[66][32]

metodo di determinazione: IEA, ISS

positive regulation of cold-induced thermogenesis^[69][32]

metodo di determinazione: IEA, ISS

cellular response to oxidised low-density lipoprotein particle stimulus^[42]

metodo di determinazione: IMP

oxidised low-density lipoprotein particle clearance^[42]

metodo di determinazione: IMP

amyloid-beta clearance by cellular catabolic process^[40]

metodo di determinazione: IMP

positive regulation of reactive oxygen species biosynthetic process^[66][32]

metodo di determinazione: IEA, ISS

cellular response to amyloid-beta^[67]

metodo di determinazione: IGI

immagine Gene Atlas

categoria su Commons

Fatty taste receptors

1. ↑ Ensembl Release 99, ENSP00000308165
2. ↑ Ensembl Release 99, ENSP00000378268
3. ↑ Ensembl Release 99, ENSP00000399421
4. ↑ Ensembl Release 99, ENSP00000401863
5. ↑ Ensembl Release 99, ENSP00000411411
6. ↑ Ensembl Release 99, ENSP00000415743
7. ↑ Ensembl Release 99, ENSP00000439543
8. ↑ Ensembl Release 99, ENSP00000441956
9. ↑ Ensembl Release 99, ENSP00000392298
10. ↑ Ensembl Release 99, ENSP00000396258
11. ↑ Ensembl Release 99, ENSP00000398760
12. ↑ Ensembl Release 99, ENSP00000407690
13. ↑ Ensembl Release 99, ENSP00000409762
14. ↑ Ensembl Release 99, ENSP00000410371
15. ↑ Ensembl Release 99, ENSP00000416388
16. ↑ Ensembl Release 99, ENSP00000431296
17. ↑ Ensembl Release 99, ENSP00000433659
18. ↑ Ensembl Release 99, ENSP00000435698
19. ↑ ^{19,00 19,01 19,02 19,03 19,04 19,05 19,06 19,07 19,08 19,09 19,10 19,11 19,12 19,13 19,14 19,15 19,16 19,17} NCBI Gene, 30 Maj 2020, 948
20. ↑ ^{20,0 20,1 20,2 20,3} UniProt, 13 Nuv 2019, P16671
21. ↑ Classificazione TC, 13 Màr 2020
22. ↑ Classificazione TC, 29 Abb 2020
23. ↑ OpenAlex, 26 Jen 2022, https://docs.openalex.org/download-snapshot/snapshot-data-format
24. ↑ InterPro Release 71.0, http://www.ebi.ac.uk/interpro/protein/P16671
25. ↑ 9.B.39.1.4, 2 ott 2019, hierarchical database ID heuristic
26. ↑ Membrane sorting of toll-like receptor (TLR)-2/6 and TLR2/1 heterodimers at the cell surface determines heterotypic associations with CD36 and intracellular targeting, GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, IPI
27. ↑ IntAct protein interaction database, 8 Abb 2019, Molecular basis of antiangiogenic thrombospondin-1 type 1 repeat domain interactions with CD36, GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
28. ↑ IntAct protein interaction database, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
29. ↑ Critical Assessment of Protein Function Annotation, 8 Abb 2019, The Cysteine-Rich Interdomain Region from the Highly Variable Plasmodium falciparum Erythrocyte Membrane Protein-1 Exhibits a Conserved Structure, GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
30. ↑ ^{30,0 30,1 30,2} British Heart Foundation, 8 Abb 2019, PPARgamma promotes monocyte/macrophage differentiation and uptake of oxidized LDL, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
31. ↑ ^{31,0 31,1 31,2 31,3 31,4} British Heart Foundation, 8 Abb 2019, Macrophage scavenger receptor CD36 is the major receptor for LDL modified by monocyte-generated reactive nitrogen species, GOA, IMP, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
32. ↑ ^{32,00 32,01 32,02 32,03 32,04 32,05 32,06 32,07 32,08 32,09 32,10 32,11 32,12 32,13 32,14 32,15 32,16 32,17 32,18 32,19 32,20 32,21 32,22 32,23 32,24 32,25 32,26 32,27 32,28 32,29 32,30 32,31 32,32 32,33 32,34 32,35 32,36 32,37 32,38 32,39 32,40 32,41 32,42 32,43 32,44 32,45 32,46 32,47 32,48 32,49 32,50 32,51 32,52 32,53 32,54 32,55 32,56 32,57 32,58 32,59 32,60 32,61 32,62 32,63 32,64} Ensembl, 8 Abb 2019, GOA, IEA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
33. ↑ ^{33,0 33,1 33,2} British Heart Foundation, 8 Abb 2019, GOA, ISS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
34. ↑ PPARgamma promotes monocyte/macrophage differentiation and uptake of oxidized LDL, GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, IDA
35. ↑ ^{35,0 35,1 35,2} British Heart Foundation, 8 Abb 2019, Macrophage scavenger receptor CD36 is the major receptor for LDL modified by monocyte-generated reactive nitrogen species, GOA, IDA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
36. ↑ ARUK-UCL, 1 Jen 2018, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?protein=P16671&geneProductId=UniProtKB:P16671
37. ↑ ARUK-UCL, 1 Jen 2018, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IC, http://www.ebi.ac.uk/QuickGO/annotations?protein=P16671&geneProductId=UniProtKB:P16671
38. ↑ ^{38,0 38,1 38,2 38,3 38,4 38,5} ARUK-UCL, 8 Abb 2019, CD36 Deficiency Suppresses Epileptic Seizures, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
39. ↑ ARUK-UCL, 8 Abb 2019, Scavenger receptor class B type I (SR-BI) mediates adhesion of neonatal murine microglia to fibrillar beta-amyloid, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
40. ↑ ^{40,0 40,1 40,2} ARUK-UCL, 8 Abb 2019, IL-4-induced selective clearance of oligomeric beta-amyloid peptide(1-42) by rat primary type 2 microglia., GOA, IMP, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
41. ↑ ^{41,0 41,1} ARUK-UCL, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
42. ↑ ^{42,0 42,1 42,2 42,3} ARUK-UCL, 8 Abb 2019, Oxidized Lipoprotein Uptake Through the CD36 Receptor Activates the NLRP3 Inflammasome in Human Retinal Pigment Epithelial Cells., GOA, IMP, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
43. ↑ ARUK-UCL, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
44. ↑ ARUK-UCL, 8 Abb 2019, TREM2 Is a Receptor for β-Amyloid that Mediates Microglial Function., GOA, IDA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
45. ↑ ARUK-UCL, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IC, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
46. ↑ ARUK-UCL, 8 Abb 2019, TREM2 Is a Receptor for β-Amyloid that Mediates Microglial Function., GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
47. ↑ ^{47,0 47,1 47,2 47,3 47,4 47,5 47,6} GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, IEA
48. ↑ ^{48,0 48,1 48,2} Membrane sorting of toll-like receptor (TLR)-2/6 and TLR2/1 heterodimers at the cell surface determines heterotypic associations with CD36 and intracellular targeting, GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, IDA
49. ↑ Human Protein Atlas, 8 Abb 2019, GOA, IDA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
50. ↑ ^{50,00 50,01 50,02 50,03 50,04 50,05 50,06 50,07 50,08 50,09 50,10 50,11 50,12 50,13} Reactome, 8 Abb 2019, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
51. ↑ ^{51,00 51,01 51,02 51,03 51,04 51,05 51,06 51,07 51,08 51,09 51,10 51,11 51,12 51,13 51,14 51,15} GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, ISS
52. ↑ ^{52,0 52,1} Proteome Inc., 8 Abb 2019, Isolation and characterization of platelet glycoprotein IV (CD36), GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
53. ↑ ^{53,0 53,1 53,2} InterPro, 8 Abb 2019, GOA, IEA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
54. ↑ British Heart Foundation, 23 Maj 2017, GOA, ISS, http://www.ebi.ac.uk/QuickGO/GAnnotation?protein=P16671
55. ↑ British Heart Foundation, 23 Maj 2017, Macrophage scavenger receptor CD36 is the major receptor for LDL modified by monocyte-generated reactive nitrogen species, GOA, IDA, http://www.ebi.ac.uk/QuickGO/GAnnotation?protein=P16671
56. ↑ ^{56,0 56,1} Overexpression of CD36 and acyl-CoA synthetases FATP2, FATP4 and ACSL1 increases fatty acid uptake in human hepatoma cells, GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, IDA
57. ↑ Human colostrum: identification of minor proteins in the aqueous phase by proteomics, GOA, 23 Maj 2017, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/GAnnotation?protein=P16671, IDA
58. ↑ Human colostrum: identification of minor proteins in the aqueous phase by proteomics, GOA, 8 Abb 2019, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671, HDA
59. ↑ ARUK-UCL, 1 Jen 2018, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IPI, http://www.ebi.ac.uk/QuickGO/annotations?protein=P16671&geneProductId=UniProtKB:P16671
60. ↑ ^{60,0 60,1 60,2 60,3} British Heart Foundation, 8 Abb 2019, Thrombospondin-1 inhibits nitric oxide signaling via CD36 by inhibiting myristic acid uptake, GOA, IDA, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
61. ↑ ^{61,0 61,1} British Heart Foundation, 8 Abb 2019, Scavenger receptors class A-I/II and CD36 are the principal receptors responsible for the uptake of modified low density lipoprotein leading to lipid loading in macrophages, GOA, ISS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
62. ↑ ^{62,0 62,1} Proteome Inc., 8 Abb 2019, Identification of glycoprotein IV (CD36) as a primary receptor for platelet-collagen adhesion, GOA, TAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
63. ↑ GOA, 23 Maj 2017, P16671, UniProt, http://www.ebi.ac.uk/QuickGO/GAnnotation?protein=P16671, IEA
64. ↑ Reactome, 23 Maj 2017, GOA, TAS, http://www.ebi.ac.uk/QuickGO/GAnnotation?protein=P16671
65. ↑ Proteome Inc., 8 Abb 2019, Structural organization of the gene for human CD36 glycoprotein, GOA, NAS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
66. ↑ ^{66,0 66,1 66,2 66,3} ARUK-UCL, 8 Abb 2019, GOA, ISS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
67. ↑ ^{67,0 67,1 67,2} ARUK-UCL, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IGI, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
68. ↑ ARUK-UCL, 8 Abb 2019, CD36 ligands promote sterile inflammation through assembly of a Toll-like receptor 4 and 6 heterodimer, GOA, IMP, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671
69. ↑ YuBioLab, 8 Abb 2019, CD36 is indispensable for thermogenesis under conditions of fasting and cold stress., GOA, ISS, http://www.ebi.ac.uk/QuickGO/annotations?geneProductId=UniProtKB:P16671