about
P688
Fractional efflux and net change in cellular cholesterol content mediated by sera from mice expressing both human apolipoprotein AI and human lecithin:cholesterol acyltransferase genesApolipoprotein M is required for prebeta-HDL formation and cholesterol efflux to HDL and protects against atherosclerosisStructural and functional properties of human and mouse apolipoprotein A-IHDL deficiency in genetically engineered mice requires elevated LDL to accelerate atherogenesisApoAI deficiency results in marked reductions in plasma cholesterol but no alterations in amyloid-beta pathology in a mouse model of Alzheimer's disease-like cerebral amyloidosisApoA-I deficiency causes both hypertriglyceridemia and increased atherosclerosis in human apoB transgenic miceDeficiency of ABCA1 impairs apolipoprotein E metabolism in brainEffect of apolipoprotein A-I deficiency on lecithin:cholesterol acyltransferase activation in mouse plasmaDietary fatty acids and dietary cholesterol differ in their effect on the in vivo regulation of apolipoprotein A-I and A-II gene expression in inbred strains of miceApoA1 reduces free cholesterol accumulation in atherosclerotic lesions of ApoE-deficient mice transplanted with ApoE-expressing macrophagesA protein interaction network for the large conductance Ca(2+)-activated K(+) channel in the mouse cochlea.Apolipoprotein A-I is required for cholesteryl ester accumulation in steroidogenic cells and for normal adrenal steroid productionAbnormal phospholipid composition impairs HDL biogenesis and maturation in mice lacking Abca1Kinetic characteristics and regulation of HDL cholesteryl ester and apolipoprotein transport in the apoA-I-/- mouseThe acute phase response in apolipoprotein A-1 knockout mice: apolipoprotein serum amyloid A and lipid distribution in plasma high density lipoproteinsNerve regeneration and cholesterol reutilization occur in the absence of apolipoproteins E and A-I in miceSAA-only HDL formed during the acute phase response in apoA-I+/+ and apoA-I-/- miceApolipoprotein A-I alpha -helices 7 and 8 modulate high density lipoprotein subclass distributionPersistence of high density lipoprotein particles in obese mice lacking apolipoprotein A-IAdenoviral vector-mediated overexpression of serum amyloid A in apoA-I-deficient micePoint mutations in apolipoprotein A-I mimic the phenotype observed in patients with classical lecithin:cholesterol acyltransferase deficiencyDelayed loss of cholesterol from a localized lipoprotein depot in apolipoprotein A-I-deficient miceApoA-I knockout mice: characterization of HDL metabolism in homozygotes and identification of a post-RNA mechanism of apoA-I up-regulation in heterozygotesInflammation and skin cholesterol in LDLr-/-, apoA-I-/- mice: link between cholesterol homeostasis and self-tolerance?Apolipoprotein E and apolipoprotein A-1 knock-out mice readily develop amyloid A protein amyloidosisHigh-density lipoprotein promotes endothelial cell migration and reendothelialization via scavenger receptor-B type IIntracellular lipidation of newly synthesized apolipoprotein A-I in primary murine hepatocytesGenetic control of lipid transport in mice. II. Genes controlling structure of high density lipoproteinsPhosphorylation of a pest sequence in ABCA1 promotes calpain degradation and is reversed by ApoA-IInfluence of apoA-I and apoE on the formation of serum amyloid A-containing lipoproteins in vivo and in vitroMarked reduction of high density lipoprotein cholesterol in mice genetically modified to lack apolipoprotein A-ICompositional Features of HDL Particles Interact with Albuminuria to Modulate Cardiovascular Disease RiskApolipoprotein A-I and adenosine triphosphate-binding cassette transporter A1 expression alleviates lipid accumulation in hepatocytes
P921
Q22010789-DFDFF5B5-895E-43DE-90CD-29BA218CD776Q24299006-AE9D6A30-C7A3-4342-8E1C-8BC4642FF55AQ24315953-664B0DBA-2980-4A74-9578-0C77F7284966Q28504475-BBC6AB36-B6F6-474C-A78C-B19FDD27665DQ28504715-01FAD292-730F-4823-94FF-6799EBD3E6ADQ28505935-EC31F255-DD5C-4AF6-A0A0-254F9C0A5AD1Q28506441-81C832C6-E76E-44E1-9401-E4126E9DA4BDQ28508099-68FBE824-5A80-49C6-B522-4D2AEEA6A80DQ28508319-DF8D304B-8B3B-437D-8980-009BBE6F8A5CQ28508830-B86C6834-F819-45CC-909E-FA3DA50C1DEFQ28509094-72F30C19-16DA-4977-B95B-E5F067F04EC7Q28509152-FDDA69BB-6566-4892-9F6B-16156BEE5C24Q28509240-E8A34516-67E3-4772-8C5A-B2F7615565F3Q28509884-4471C98E-905E-4683-A89D-567838D6DD3EQ28510638-FAD3BC5E-3776-44B0-BCF4-6FFB1CC5487FQ28511240-739397FB-6D4D-49B9-894E-892267A881B6Q28511763-A4988DAA-AAF9-4B2B-ADCA-410D01BC05A6Q28513005-FF9DDDA9-27A1-451A-B83F-4286823B71ABQ28585282-FA17809A-B9FE-412C-9BC4-BA49A7D4DBAFQ28585999-A463A553-B70E-42BF-A9A1-C13AA1DFDB1AQ28586449-C350F3B3-7FD0-4433-8220-A7E2BAD08D1AQ28587419-84901CB1-2C71-4450-9040-FEC98C07B89EQ28587931-2566A43A-A8E6-4AC0-9521-A4E8661447F2Q28588533-CE90C9DC-755C-4A9A-93E3-A7BBB3D6142AQ28590580-8C41034E-A584-4BF6-9D03-76CA9B05E81BQ28591194-B173B737-4091-49F8-8E7F-3C580C52BEB4Q28592498-37E332DC-5EE7-4E56-921E-03CA0C92B43FQ28593589-1D9A5BE0-1E66-482F-A57B-778CCF841573Q28593742-5DFF56FD-BFFA-4821-9C51-332F48088D72Q28593885-2B3C2236-5E75-4763-9C1A-D38BCDB52462Q28593920-5E00038D-7381-48F9-8038-5D06F299E6D3Q64108327-39E9A546-7427-489E-8BA1-6FB50466AE41Q64378422-0C6132DC-01BA-4DE2-BE62-1C17D84E0BDA
P921
description
mammalian protein found in Mus musculus
@en
protein
@id
protein
@sv
proteinë
@sq
proteïne in Apolipoprotein A-I
@nl
protèin
@ace
protéine
@fr
بروتين في فأر المنازل
@ar
name
Apolipoprotein A-I
@en
Apolipoprotein A-I
@nl
type
label
Apolipoprotein A-I
@en
Apolipoprotein A-I
@nl
altLabel
Apoa1
@en
apolipoprotein A-I
@en
apolipoprotein A1
@en
prefLabel
Apolipoprotein A-I
@en
Apolipoprotein A-I
@nl
P680
P681
P682
P352
P637
P638
P31
P352
P637
P680
P681
P682
P702
P703
P705
ENSMUSP00000034588
ENSMUSP00000150525