about
CD36 moleculeCD5 antigenEctonucleotide pyrophosphatase/phosphodiesterase 2VitronectinDeleted in malignant brain tumors 1Scavenger receptor class B member 2Endonuclease, poly(U) specificLysyl oxidase like 3Lysyl oxidase like 2Scavenger receptor class B member 1Ectonucleotide pyrophosphatase/phosphodiesterase 3Ectonucleotide pyrophosphatase/phosphodiesterase 1Lysyl oxidase like 4LDL receptor related protein 1C-X-C motif chemokine ligand 16CD6 moleculeHHIP like 1Collectin subfamily member 12Scavenger receptor cysteine rich family member with 5 domainsCD163 moleculeCD163 molecule like 1Macrophage scavenger receptor 1Transmembrane serine protease 4Multiple EGF like domains 10Somatomedin B and thrombospondin type 1 domain containingSushi domain containing 2PiggyBac transposable element derived 1Serine protease 12Scavenger receptor class F member 1Stabilin 2Transmembrane serine protease 2Transmembrane serine protease 3Transmembrane serine protease 13Transmembrane serine protease 5Atypical chemokine receptor 2Atypical chemokine receptor 3Atypical chemokine receptor 4Macrophage receptor with collagenous structureCD5 molecule likeTubulointerstitial nephritis antigen like 1
P680
DMBT1, a new member of the SRCR superfamily, on chromosome 10q25.3-26.1 is deleted in malignant brain tumoursScavenger receptor class B type I (SR-BI) mediates adhesion of neonatal murine microglia to fibrillar beta-amyloid.Scavenger receptors and their potential as therapeutic targets in the treatment of cardiovascular diseaseScavenger receptors in innate immunity.Scavenger receptors in neurobiology and neuropathology: their role on microglia and other cells of the nervous system.Advanced glycation end products (AGE) inhibit scavenger receptor class B type I-mediated reverse cholesterol transport: a new crossroad of AGE to cholesterol metabolism.
P921
Q14864583-2686AEE0-B807-4307-9542-575298412F1BQ14864583-55CEA7FF-1F5E-4DAC-9AF9-C8BAD55DC2F9Q14912841-CECAA7E7-3C3F-4803-B519-1FFD3559C0F9Q14913999-D976F89A-B1D2-4C5A-8D7A-29352B3A117EQ14916395-DFDE0DB3-DF49-4469-B74F-A26A36312018Q21102654-64A80977-C081-4139-A1DD-C95C0F80FC44Q21102654-986CF4C4-F57D-4B3C-AB6F-1C762B09B89CQ21103135-8E2C9B74-6043-42F5-AD45-C00CEDD7A171Q21105878-E2BF40C6-930C-42AF-8929-DA7D1CCB942FQ21107913-B837061A-CBA4-4FFE-8ABB-6A0CD80EE0E3Q21107930-EEAB9CEA-A860-48C1-93C9-5A8A02B98B6AQ21108841-E450015D-A0A7-433E-98ED-BA663AB0CF1CQ21110156-5C322E5C-666D-4687-B6C2-803843F05B94Q21110158-3DF4E858-A38C-4670-B39B-0CAE2B6DFE34Q21111415-BEF3D903-9B7C-445B-A3BC-640E65C689FBQ21111528-FC22E928-3B16-4CF7-8FC6-9D7BA62B6F0CQ21112082-AB159C78-DFB3-432A-ACB6-0FEB4F589A3DQ21112082-ACC0F071-2CE7-4B63-9708-DDCBA5B4D02CQ21113034-2024C462-BEAD-4250-84A6-0F06B4A92A1BQ21113408-0B9C9810-D09A-4695-8891-708127887E25Q21114022-88E3EC16-1312-471A-B9D8-AA060BEF3504Q21115562-A693B545-7A3C-45D4-9BD3-DC08CA9B444CQ21115573-1DC9A97C-70E9-4C2F-B8F2-D3E20F8DA28BQ21115579-F70C3899-AE09-417A-B549-367959E090DCQ21118321-D514EEB6-CADE-4C1D-876C-669CA82E23DFQ21119219-2457F04A-BD98-4668-9277-7F7D50A1EB33Q21120008-06924240-ED6D-4AF7-9B56-84C0433599ECQ21122759-A182B5BD-32EE-439E-8EF4-A51813858D6DQ21123922-B84BCCFD-F09C-49E4-992E-84443AA94F83Q21124092-C9BAB195-30C0-4E7E-8BD9-8A890A6EF02CQ21124843-6B3C04CF-3886-43B8-8983-65DF3BE70E0DQ21125264-08D4422F-21EC-4A8C-A971-BFA4D0BA6E0DQ21126473-A49C6FE8-0818-4CA9-8AAA-CE25331ECF31Q21126599-F496E8AE-93FB-47AE-BD06-BB8AA86DADA1Q21126600-581981CC-8097-4DBD-9C6A-72C5AC98A81DQ21126611-FE7B6451-4CB8-4185-B92C-BC1555CB52C5Q21126613-57406E0D-7F95-4C46-B763-5068DF6A6AE6Q21129996-D5F356F7-C83E-4082-B5F8-2A5DC3DE192EQ21129997-EACC74DA-C334-411D-87D6-39CA73F708FCQ21129998-4705CD7E-F094-40A8-AF35-C2E946300D5D
P680
description
Combining with any modified lo ...... bacteria, apoptotic cells, amy
@en
moleculaire functie
@nl
name
scavenger receptor activity
@en
type
label
scavenger receptor activity
@en
altLabel
GO:0005044
@en
prefLabel
scavenger receptor activity
@en
P2888
P686
GO:0005044