Dynamics of endogenous ATP7A (Menkes protein) in intestinal epithelial cells: copper-dependent redistribution between two intracellular sites
about
Selective gene expression by rat gastric corpus epitheliumCellular multitasking: the dual role of human Cu-ATPases in cofactor delivery and intracellular copper balanceMolecular pathogenesis of Wilson and Menkes disease: correlation of mutations with molecular defects and disease phenotypesCanine Models for Copper Homeostasis DisordersCharting the travels of copper in eukaryotes from yeast to mammalsCopper directs ATP7B to the apical domain of hepatic cells via basolateral endosomesInvolvement of CTR1 and ATP7A in lead (Pb)-induced copper (Cu) accumulation in choroidal epithelial cellsRegulation of copper transport crossing brain barrier systems by Cu-ATPases: effect of manganese exposureCopper promotes the trafficking of the amyloid precursor proteinThe interactome of the copper transporter ATP7A belongs to a network of neurodevelopmental and neurodegeneration factors.ATP7B detoxifies silver in ciliated airway epithelial cells.Mammalian copper-transporting P-type ATPases, ATP7A and ATP7B: emerging roles.Role of glutaredoxin1 and glutathione in regulating the activity of the copper-transporting P-type ATPases, ATP7A and ATP7B.Clusterin (apolipoprotein J), a molecular chaperone that facilitates degradation of the copper-ATPases ATP7A and ATP7B.Critical roles for the COOH terminus of the Cu-ATPase ATP7B in protein stability, trans-Golgi network retention, copper sensing, and retrograde trafficking.Clusterin and COMMD1 independently regulate degradation of the mammalian copper ATPases ATP7A and ATP7BEvolution of copper transporting ATPases in eukaryotic organisms.Host-Imposed Copper Poisoning Impacts Fungal Micronutrient Acquisition during Systemic Candida albicans InfectionsSec61β controls sensitivity to platinum-containing chemotherapeutic agents through modulation of the copper-transporting ATPase ATP7ACell-specific trafficking suggests a new role for renal ATP7B in the intracellular copper storage.Opportunities in multidimensional trace metal imaging: taking copper-associated disease research to the next levelThe genetics of essential metal homeostasis during developmentTrafficking of the Menkes copper transporter ATP7A is regulated by clathrin-, AP-2-, AP-1-, and Rab22-dependent stepsApical targeting and Golgi retention signals reside within a 9-amino acid sequence in the copper-ATPase, ATP7B.Role of the P-Type ATPases, ATP7A and ATP7B in brain copper homeostasis.Intestinal expression of metal transporters in Wilson's disease.Copper transport in mammalian cells: special care for a metal with special needs.The Intestinal Copper Exporter CUA-1 Is Required for Systemic Copper Homeostasis in Caenorhabditis elegans.Effects of ATP7A overexpression in mice on copper transport and metabolism in lactation and gestationHuman copper transporters: mechanism, role in human diseases and therapeutic potential.Chelation therapy in Wilson's disease: from D-penicillamine to the design of selective bioinspired intracellular Cu(I) chelators.Golgi in copper homeostasis: a view from the membrane trafficking field.What can flies tell us about copper homeostasis?Copper-transporting ATPases: The evolutionarily conserved machineries for balancing copper in living systems.Bacterial Cu(+)-ATPases: models for molecular structure-function studies.Copper transporters and chaperones: Their function on angiogenesis and cellular signalling.Localization of the Wilson disease protein in murine intestine.JAM-A is both essential and inhibitory to development of hepatic polarity in WIF-B cells.Characterizing the molecular phenotype of an Atp7a(T985I) conditional knock in mouse model for X-linked distal hereditary motor neuropathy (dHMNX).Organ-specific regulation of ATP7A abundance is coordinated with systemic copper homeostasis.
P2860
Q24629261-B4FC7B82-7CD5-49D1-BF1A-C7255A2E48C3Q24642573-4E694E8B-73E3-40E4-B1A5-3271DDE633A7Q24647056-6D54F7A1-79DA-43BD-A04F-492653034646Q26767292-3D037221-66A5-469F-9AA7-48E5C20822B9Q26863502-AAFD6DEB-368A-4010-A9E8-A577E108FFBCQ27346776-786F8D01-91F9-4401-9B51-31A7301AE6A1Q28567134-404444E4-AE8A-4F01-AC40-DB635CDAEA16Q29347141-33936CE1-E035-4B10-A6BB-D6FA6CABC414Q30498323-8CFC591A-D1A0-4043-8222-D495C2B1B6F6Q33591202-780CBDB4-8292-4652-AE33-194757AAF6B1Q33695461-6E1DCF3F-AB40-40D9-B8CE-964B7CF2B2B6Q33757091-85C1C581-D2E7-42C5-AB9E-40A171D6A86DQ34094489-1AB04466-1571-4CCF-8F67-950EDECCEECCQ34695507-DE64D506-18E6-46B4-AE94-74FCDF45B52CQ35087086-EC5C55CD-5E09-4A35-8809-0605EA111771Q35709894-27225C87-A53E-4913-8348-1BC43337645BQ35841316-16518CAA-4B4D-4EB0-BFF8-22FAE967599AQ36064900-A5DE420B-0606-4562-98B4-63C854D3AA25Q36174748-33DD0D3C-28C0-4E42-900E-F69AFE6787B5Q36292959-F34607AB-F31E-4BE5-98FA-42DF4E403D63Q36592367-2C8D2549-2545-459B-A8CA-801E1223A1E9Q36631296-25B384AB-B54A-4720-9D5D-3A7F27CB3E37Q36887422-229C5CC8-D41B-4297-A355-15CA0F414225Q37100260-CA27E7EB-EF13-46DD-96D4-F4D9B2C1F662Q37112824-9801E792-1886-4B08-B560-25265BC2F1EEQ37302290-A7244AB2-06E1-40C1-A565-AA7341CD0361Q37377581-DB1B8C5B-B197-4E90-BA9D-253C88EEB94FQ37567216-6592EBA6-8E00-4F32-89F1-96F18C880815Q37668439-6D8DA058-B4A1-4C61-967F-571A064C6E72Q37747071-A382D227-AFC7-4318-B15B-95FF9ACDDE06Q37983377-21F9842C-74BD-466F-BE46-26385F92D048Q38121020-9242BA00-1A26-4E05-A629-01B4BD8CC3D6Q38125613-24C95891-2B14-40C2-87B3-BB490FE3AABAQ38595885-3C6DF59D-EAF3-4A16-B27C-27202FBCD2BCQ38910492-5757FA6A-DE4A-4189-83FD-5DC7F9B88D43Q38942904-5D46FD89-13FA-4EB3-9327-7594DDECCE1CQ39955033-FCF307E0-7FB4-44A5-B883-8F9341DA57E3Q40032505-D45867D7-DAFB-4D7F-BEF4-A648755BDE09Q41626358-3850483E-52BD-4BDF-B0D5-3878538592E2Q41697129-6FB657F8-2A81-4DAD-A763-95E839D6B699
P2860
Dynamics of endogenous ATP7A (Menkes protein) in intestinal epithelial cells: copper-dependent redistribution between two intracellular sites
description
2007 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2007
@ast
scientific journal article
@en
vedecký článok (publikovaný 2007/04/01)
@sk
vědecký článek publikovaný v roce 2007
@cs
wetenschappelijk artikel (gepubliceerd op 2007/04/01)
@nl
наукова стаття, опублікована у квітні 2007
@uk
مقالة علمية (نشرت في أبريل 2007)
@ar
name
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@ast
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@en
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@nl
type
label
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@ast
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@en
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@nl
prefLabel
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@ast
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@en
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@nl
P2093
P3181
P356
P1476
Dynamics of endogenous ATP7A ( ...... etween two intracellular sites
@en
P2093
A. Hubbard
L. Braiterman
P304
G1181–1194
P3181
P356
10.1152/AJPGI.00472.2006
P577
2007-04-01T00:00:00Z