Genes that allow yeast cells to grow in the absence of the HDEL receptor.
about
AGR2 gene function requires a unique endoplasmic reticulum localization motifMutational analysis of the human KDEL receptor: distinct structural requirements for Golgi retention, ligand binding and retrograde transportVesicle-mediated export from the ER: COPII coat function and regulationEndoplasmic reticulum localization of Sec12p is achieved by two mechanisms: Rer1p-dependent retrieval that requires the transmembrane domain and Rer1p-independent retention that involves the cytoplasmic domain.Sed1p is a major cell wall protein of Saccharomyces cerevisiae in the stationary phase and is involved in lytic enzyme resistanceDeletion of new covalently linked cell wall glycoproteins alters the electrophoretic mobility of phosphorylated wall components of Saccharomyces cerevisiae.Smy2p participates in COPII vesicle formation through the interaction with Sec23p/Sec24p subcomplex.SED4 encodes a yeast endoplasmic reticulum protein that binds Sec16p and participates in vesicle formation.The TIP1 gene of Saccharomyces cerevisiae encodes an 80 kDa cytoplasmic protein that interacts with the cytoplasmic domain of Sec20pSCD5, a suppressor of clathrin deficiency, encodes a novel protein with a late secretory function in yeastSecretory bulk flow of soluble proteins is efficient and COPII dependentA vacuolar sorting domain may also influence the way in which proteins leave the endoplasmic reticulumSec12 binds to Sec16 at transitional ER sitesReceptor for retrograde transport in the apicomplexan parasite Toxoplasma gondiiTwo redundant systems maintain levels of resident proteins within the yeast endoplasmic reticulum.Alternative lipid remodelling pathways for glycosylphosphatidylinositol membrane anchors in Saccharomyces cerevisiaeModulation of yeast Sln1 kinase activity by the CCW12 cell wall proteinA molecular specificity code for the three mammalian KDEL receptors.Localization of the Lys, Asp, Glu, Leu tetrapeptide receptor to the Golgi complex and the intermediate compartment in mammalian cells.Identification of a gene required for membrane protein retention in the early secretory pathway.A pathway for cell wall anchorage of Saccharomyces cerevisiae alpha-agglutininThe Arabidopsis endoplasmic reticulum retention receptor functions in yeastThe functioning of the yeast Golgi apparatus requires an ER protein encoded by ANP1, a member of a new family of genes affecting the secretory pathwayTransmembrane topology of the mammalian KDEL receptorH/KDEL receptors mediate host cell intoxication by a viral A/B toxin in yeastThe nonessentiality of essential genes in yeast provides therapeutic insights into a human disease.Extracellular Thiol Isomerases and Their Role in Thrombus FormationOverexpression of the Saccharomyces cerevisiae mannosylphosphodolichol synthase-encoding gene in Trichoderma reesei results in an increased level of protein secretion and abnormal cell ultrastructureHWP1 functions in the morphological development of Candida albicans downstream of EFG1, TUP1, and RBF1.Mutations in RNA polymerase II and elongation factor SII severely reduce mRNA levels in Saccharomyces cerevisiae.SED1 gene length and sequence polymorphisms in feral strains of Saccharomyces cerevisiae.Comparison of cell wall proteins of Saccharomyces cerevisiae as anchors for cell surface expression of heterologous proteins.Rer1p, a retrieval receptor for ER membrane proteins, recognizes transmembrane domains in multiple modes.Unexpected ancient paralogs and an evolutionary model for the COPII coat complex.Inhibition of endoplasmic reticulum (ER)-to-Golgi transport induces relocalization of binding protein (BiP) within the ER to form the BiP bodies.Kex2-dependent invertase secretion as a tool to study the targeting of transmembrane proteins which are involved in ER-->Golgi transport in yeastPlant ERD2s self-interact and interact with GTPase-activating proteins and ADP-ribosylation factor 1.Retrieval of HDEL proteins is required for growth of yeast cells.Spc42p: a phosphorylated component of the S. cerevisiae spindle pole body (SPD) with an essential function during SPB duplicationCharacterization of aromatic residue-controlled protein retention in the endoplasmic reticulum of Saccharomyces cerevisiae.
P2860
Q24300169-2D71ECFB-DEF6-443D-931F-1357715739EEQ24564552-37E18A52-84FC-4466-9F4A-8DC85227F71EQ26821930-BCEA5229-005D-4CF7-A3AD-B9117630B979Q27931704-048ACBE6-EDFF-45F0-81CC-827D2BD1DB3CQ27932325-8BF1364D-B051-4EE5-8B31-2FDE2085A380Q27932537-4C7EEAF1-7149-410E-BC2D-C71F5840E43AQ27933025-CD1A25D4-D6E3-4316-8796-36A5491603B1Q27938513-35DF3A38-0CAE-4E29-BA5D-3C3E268B62E1Q27939883-5D6F3D53-BF34-4AD4-89D7-9681C7D7876FQ27940250-6E687DB5-8FF1-4BB9-B85E-F20AC0BCF22CQ28350951-F8F8A3F3-BD0B-4F76-BAB7-AC6A215306A1Q28350955-E3A26EFB-61D2-4765-84FE-10080033414DQ28480558-418E4CE1-DFE2-4D2B-9698-8ADBB2BDA778Q33859694-E202D793-2532-4157-B3CE-85163B9CE98FQ33872316-B3189D34-74E8-4114-B16C-6954C9B0205DQ33886853-99EA9471-A922-45CC-BA30-C504CF02B5B7Q33941395-59271745-7E7A-42F7-8CF8-088B1CD5ED93Q34726729-FD61A437-4456-4310-A32B-33845E47DA20Q36234982-2171F8CB-B3BD-4F2B-8C56-3A6909891C6AQ36515193-E2D3C3DB-BB87-4607-8C80-93AC48ACA34FQ36657440-8152CDEB-C663-40E1-9007-992031578E34Q36705973-F0EFF16B-0586-4703-A7F3-51EC3AD51B21Q36726376-8DEEAB2E-2013-49FC-8E41-06577986D825Q36824115-1DD55A2E-4DFF-4682-85F2-F1A22AA67E97Q37153903-49489220-4465-4602-AC9A-06255A3C4F1FQ37313716-2552AEDA-8B34-4287-8368-087EC998845FQ38607382-C820F647-5992-4324-99D9-AF71A76A795BQ39481954-4F302013-BBC8-46C9-8E32-E1B8401DA118Q39497122-366B514C-7FB1-4A2C-B1FD-1B7844131038Q39576156-8DF5B1DE-1364-4EFA-8AA3-A40A67C9DC65Q39661777-3FE2A519-C126-4B24-8148-8462BF9091FDQ39801535-1A0C3BD5-3CBB-476B-A830-CE2B28E408BFQ39897193-6D7F76B3-97A4-4654-9CA8-8D68BDEDB84FQ40269973-2FE14A8D-06E5-45F1-B76A-1A73E97EA5F9Q40366396-59EE5597-3549-4D62-B9F3-8758250F037AQ40792817-A6B44818-CD8F-4654-9A23-983328141190Q41478018-BE6BDDAD-FB3C-4FE4-89B5-112D3BC23894Q42142416-3EDDD7F4-2E0A-4B08-810C-3919F70EDF22Q42771999-84212FD7-9175-4F00-86D9-FA2A6B788DECQ47643680-9B9FD0CA-C799-4E88-A7AA-2F09FFF0E02E
P2860
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
description
1992 nî lūn-bûn
@nan
1992 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@ast
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@en
type
label
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@ast
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@en
prefLabel
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@ast
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@en
P2093
P2860
P1433
P1476
Genes that allow yeast cells to grow in the absence of the HDEL receptor.
@en
P2093
Boothroyd JC
Hardwick KG
P2860
P304
P407
P577
1992-11-01T00:00:00Z