USA1/YML029W Literature Guide

Other names published for USA1: YML029W

USA1 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Gene Product Information

Related Genes/Proteins

Cross-species Expression

Research Aids

Strains/Constructs

Genome-wide Analysis

Proteome-wide Analysis

Large-scale protein localization

Additional Information

USA1 - All Curated References (29)

Reference	Other Genes Addressed
Paul P, et al. (2013) The protein translocation systems in plants -- composition and variability on the example of Solanum lycopersicum. BMC Genomics 14(1):189	CDC48 \| DFM1 \| ERV1 \| GET1 \| GET2 \| GET3 \| GET4 \| HOT1 \| HRD1 \| HRD3 \| KAR2 \| MDY2 \| MIA40 \| NPL4 \| MORE
Sukhai MA, et al. (2013) Lysosomal disruption preferentially targets acute myeloid leukemia cells and progenitors. J Clin Invest 123(1):315-28	AKR1 \| APC1 \| APL2 \| APL4 \| APL5 \| APM2 \| APM3 \| APQ12 \| APS3 \| ARF1 \| ARF2 \| ARG82 \| ARL1 \| ARL3 \| MORE
Finley D, et al. (2012) The Ubiquitin-Proteasome System of Saccharomyces cerevisiae. Genetics 192(2):319-60	APC1 \| APC11 \| APC2 \| APC4 \| APC5 \| APC9 \| CCR4 \| CDC16 \| CDC20 \| CDC23 \| CDC26 \| CDC27 \| CDC34 \| CDC4 \| MORE
Hou J, et al. (2012) Metabolic engineering of recombinant protein secretion by Saccharomyces cerevisiae. FEMS Yeast Res 12(5):491-510	ANP1 \| APL2 \| APL4 \| APL5 \| APL6 \| APM1 \| APM2 \| APM3 \| APS1 \| APS3 \| BGL2 \| CHS7 \| CNE1 \| COP1 \| MORE
Li S, et al. (2012) Cytosolic entry of shiga-like toxin a chain from the yeast endoplasmic reticulum requires catalytically active hrd1p. PLoS One 7(7):e41119	CDC48 \| DER1 \| HRD1 \| HRD3 \| NPL4
Rubenstein EM, et al. (2012) Aberrant substrate engagement of the ER translocon triggers degradation by the Hrd1 ubiquitin ligase. J Cell Biol 197(6):761-73	DER1 \| DFM1 \| HRD1 \| HRD3 \| LHS1 \| SEC61 \| SEC62 \| SEC63 \| SSM4 \| UBC6 \| UBC7 \| YOS9
Thibault G and Ng DT (2012) The endoplasmic reticulum-associated degradation pathways of budding yeast. Cold Spring Harb Perspect Biol 4(12)	ADD37 \| ATG14 \| ATG19 \| BST1 \| CDC48 \| CNE1 \| CUE1 \| DER1 \| DFM1 \| DSK2 \| EPS1 \| HLJ1 \| HRD1 \| HRD3 \| MORE
Benitez EM, et al. (2011) Yos9, a control protein for misfolded glycosylated and non-glycosylated proteins in ERAD. FEBS Lett 585(19):3015-9	DER1 \| DOA1 \| HRD1 \| MNL1 \| PEP4 \| PRB1 \| PRC1 \| PRE1 \| PRE4 \| YOS9
Burg JS and Espenshade PJ (2011) Regulation of HMG-CoA reductase in mammals and yeast. Prog Lipid Res 50(4):403-10	CDC48 \| CUE1 \| ERG1 \| ERG10 \| ERG11 \| ERG12 \| ERG13 \| ERG2 \| ERG20 \| ERG24 \| ERG25 \| ERG26 \| ERG27 \| ERG3 \| MORE
Creamer TJ, et al. (2011) Transcriptome-Wide Binding Sites for Components of the Saccharomyces cerevisiae Non-Poly(A) Termination Pathway: Nrd1, Nab3, and Sen1. PLoS Genet 7(10):e1002329	ADE12 \| ADE17 \| GUA1 \| HPT1 \| IMD2 \| NAB3 \| NRD1 \| PCF11 \| PMA1 \| RPB10 \| RPB2 \| RPL28 \| RPL30 \| RPS13 \| MORE
Goder V and Melero A (2011) Protein O-mannosyltransferases participate in ER protein quality control. J Cell Sci 124(Pt 1):144-53	CDC48 \| CUE4 \| DER1 \| DFM1 \| EMP24 \| ERO1 \| ERP1 \| ERP2 \| ERV25 \| GAS1 \| HRD1 \| HRD3 \| PDI1 \| PMT1 \| MORE
Jaenicke LA, et al. (2011) Yos9p assists in the degradation of certain nonglycosylated proteins from the endoplasmic reticulum. Mol Biol Cell 22(16):2937-45	DER1 \| DOA1 \| ERG3 \| HRD1 \| HRD3 \| MNL1 \| UBC7 \| YOS9
Jung PP, et al. (2011) Ploidy influences cellular responses to gross chromosomal rearrangements in Saccharomyces cerevisiae. BMC Genomics 12(1):331	AAC1 \| AAT2 \| ABF2 \| ACB1 \| ACE2 \| ACF2 \| ACO2 \| ACS2 \| ADD37 \| ADE16 \| ADE17 \| ADE3 \| ADE6 \| ADH3 \| MORE
Ushioda R and Nagata K (2011) The Endoplasmic Reticulum-Associated Degradation and Disulfide Reductase ERdj5. Methods Enzymol 490():235-58	ADD37 \| ATG14 \| ATG19 \| BST1 \| CDC48 \| CNE1 \| CUE1 \| DER1 \| DFM1 \| DSK2 \| EPS1 \| HLJ1 \| HRD1 \| HRD3 \| MORE
Carroll SM and Hampton RY (2010) Usa1p is required for optimal function and regulation of the Hrd1p endoplasmic reticulum-associated degradation ubiquitin ligase. J Biol Chem 285(8):5146-56	DER1 \| HMG2 \| HRD1
Carvalho P, et al. (2010) Retrotranslocation of a misfolded luminal ER protein by the ubiquitin-ligase Hrd1p. Cell 143(4):579-91	CDC48 \| DER1 \| HRD1 \| HRD3 \| NPL4 \| SEC61 \| UBC7 \| YOS9
Hoseki J, et al. (2010) Mechanism and components of endoplasmic reticulum-associated degradation. J Biochem 147(1):19-25	CDC48 \| DER1 \| HRD1 \| HRD3 \| KAR2 \| SSM4 \| UBX2 \| YOS9
Hosokawa N, et al. (2010) The role of MRH domain-containing lectins in ERAD. Glycobiology 20(6):651-60	CDC48 \| CNE1 \| DER1 \| HRD1 \| HRD3 \| KAR2 \| MNL1 \| SBH1 \| SEC61 \| SSS1 \| UBX2 \| YOS9
Kanehara K, et al. (2010) Modularity of the Hrd1 ERAD complex underlies its diverse client range. J Cell Biol 188(5):707-16	CDC48 \| CUE1 \| DER1 \| HRD1 \| JEM1 \| KAR2 \| MNL1 \| PEP4 \| PRC1 \| SCJ1 \| YOS9
Stolz A and Wolf DH (2010) Endoplasmic reticulum associated protein degradation: a chaperone assisted journey to hell. Biochim Biophys Acta 1803(6):694-705	CDC48 \| DER1 \| DSK2 \| HRD1 \| HRD3 \| NPL4 \| PDI1 \| PNG1 \| RAD23 \| SEC6 \| SSM4 \| UBX2 \| UBX4 \| UFD1 \| MORE
Stolz A, et al. (2010) Dfm1 forms distinct complexes with Cdc48 and the ER ubiquitin ligases and is required for ERAD. Traffic 11(10):1363-9	CDC48 \| DER1 \| DFM1 \| HRD1 \| HRD3 \| SEC61 \| SSM4 \| STE6 \| UBX2
Horn SC, et al. (2009) Usa1 functions as a scaffold of the HRD-ubiquitin ligase. Mol Cell 36(5):782-93	CDC48 \| CUE1 \| DER1 \| HAC1 \| HMG2 \| HRD1 \| HRD3 \| SEC61 \| UBC7 \| UBX2 \| YOS9
Jonikas MC, et al. (2009) Comprehensive characterization of genes required for protein folding in the endoplasmic reticulum. Science 323(5922):1693-7	ALG12 \| ALG3 \| ALG5 \| ALG6 \| ALG8 \| ALG9 \| CUE1 \| DER1 \| DIE2 \| EMC1 \| EMC2 \| EMC3 \| EMC4 \| EMC5 \| MORE
Kim I, et al. (2009) Usa1 protein facilitates substrate ubiquitylation through two separate domains. PLoS One 4(10):e7604	HRD1 \| HRD3
Sato BK, et al. (2009) Misfolded membrane proteins are specifically recognized by the transmembrane domain of the Hrd1p ubiquitin ligase. Mol Cell 34(2):212-22	CDC48 \| DER1 \| HMG2 \| HRD1 \| HRD3 \| PDR5 \| SEC61 \| UBX2 \| YOS9
Goder V, et al. (2008) The ER-associated degradation component Der1p and its homolog Dfm1p are contained in complexes with distinct cofactors of the ATPase Cdc48p. FEBS Lett 582(11):1575-80	CDC48 \| DER1 \| DFM1 \| HRD1 \| HRD3 \| KAR2 \| NPL4 \| SHP1 \| UBX2 \| UBX7 \| UFD1 \| YOS9
Kanehara K, et al. (2007) The EDEM and Yos9p families of lectin-like ERAD factors. Semin Cell Dev Biol 18(6):743-50	CDC48 \| CUE1 \| CWH41 \| DER1 \| HRD1 \| HRD3 \| KAR2 \| MNS1 \| NPL4 \| PNG1 \| RAD23 \| ROT2 \| RPN10 \| SEC61 \| MORE
Carvalho P, et al. (2006) Distinct ubiquitin-ligase complexes define convergent pathways for the degradation of ER proteins. Cell 126(2):361-73	CDC48 \| CUE1 \| DER1 \| HRD1 \| HRD3 \| IRE1 \| NPL4 \| SSM4 \| UBC7 \| UBX2 \| YOS9
Awasthi S, et al. (2001) New roles for the Snp1 and Exo84 proteins in yeast pre-mRNA splicing. J Biol Chem 276(33):31004-15	ACT1 \| CHS1 \| EXO84 \| PRP8 \| RPL30 \| SNP1