scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Simon Wilkinson | Q54933553 |
Matthew Smith | Q57016178 | ||
P2860 | cites work | XBP1 links ER stress to intestinal inflammation and confers genetic risk for human inflammatory bowel disease | Q22252318 |
ER stress induces cleavage of membrane-bound ATF6 by the same proteases that process SREBPs | Q24290776 | ||
XBP1 mRNA is induced by ATF6 and spliced by IRE1 in response to ER stress to produce a highly active transcription factor | Q24292102 | ||
RAB26 and RAB3D are direct transcriptional targets of MIST1 that regulate exocrine granule maturation | Q24293415 | ||
LC3, GABARAP and GATE16 localize to autophagosomal membrane depending on form-II formation | Q24294635 | ||
ASK1 is essential for endoplasmic reticulum stress-induced neuronal cell death triggered by expanded polyglutamine repeats | Q24298956 | ||
Phosphorylation of the autophagy receptor optineurin restricts Salmonella growth | Q24304447 | ||
p62/SQSTM1 binds directly to Atg8/LC3 to facilitate degradation of ubiquitinated protein aggregates by autophagy | Q24312147 | ||
A subdomain of the endoplasmic reticulum forms a cradle for autophagosome formation | Q24315723 | ||
Autophagosomes form at ER-mitochondria contact sites | Q24322618 | ||
Regulation of endoplasmic reticulum turnover by selective autophagy | Q24337913 | ||
One step at a time: endoplasmic reticulum-associated degradation | Q24658302 | ||
XBP-1 regulates signal transduction, transcription factors and bone marrow colonization in B cells | Q24658399 | ||
The LIR motif - crucial for selective autophagy | Q26825455 | ||
Disulfide bond formation in the mammalian endoplasmic reticulum | Q26829235 | ||
A Role for Macro-ER-Phagy in ER Quality Control | Q27933769 | ||
Receptor-mediated selective autophagy degrades the endoplasmic reticulum and the nucleus | Q27934756 | ||
Functional and genomic analyses reveal an essential coordination between the unfolded protein response and ER-associated degradation | Q28131669 | ||
Regulation of hepatic lipogenesis by the transcription factor XBP1 | Q28507784 | ||
XBP-1 is required for biogenesis of cellular secretory machinery of exocrine glands | Q28510479 | ||
Activation of an unfolded protein response during differentiation of antibody-secreting B cells. | Q52113898 | ||
Plasma cells require autophagy for sustainable immunoglobulin production. | Q53122740 | ||
Retention of mutant alpha(1)-antitrypsin Z in endoplasmic reticulum is associated with an autophagic response | Q73127387 | ||
Transcriptional induction of mammalian ER quality control proteins is mediated by single or combined action of ATF6alpha and XBP1 | Q80979487 | ||
Protein misfolding in the endoplasmic reticulum as a conduit to human disease | Q38704807 | ||
14-Deoxy-11,12-didehydroandrographolide induces DDIT3-dependent endoplasmic reticulum stress-mediated autophagy in T-47D breast carcinoma cells | Q38780448 | ||
Digesting the Expanding Mechanisms of Autophagy | Q38799613 | ||
XBP1 Controls Maturation of Gastric Zymogenic Cells by Induction of MIST1 and Expansion of the Rough Endoplasmic Reticulum | Q39659690 | ||
The adaptor protein p62/SQSTM1 targets invading bacteria to the autophagy pathway. | Q39790194 | ||
Expression of influenza virus hemagglutinin activates transcription factor NF-kappa B. | Q39869036 | ||
Paneth cells secrete lysozyme via secretory autophagy during bacterial infection of the intestine. | Q40116335 | ||
Two endoplasmic reticulum-associated degradation (ERAD) systems for the novel variant of the mutant dysferlin: ubiquitin/proteasome ERAD(I) and autophagy/lysosome ERAD(II). | Q40164655 | ||
Differential effects of endoplasmic reticulum stress-induced autophagy on cell survival. | Q40202994 | ||
Sequential waves of functionally related proteins are expressed when B cells prepare for antibody secretion | Q40669445 | ||
Hepatitis C virus and its protein NS4B activate the cancer-related STAT3 pathway via the endoplasmic reticulum overload response | Q40754024 | ||
Sequestosome 1/p62 Protein Is Associated with Autophagic Removal of Excess Hepatic Endoplasmic Reticulum in Mice | Q41002544 | ||
Full length RTN3 regulates turnover of tubular endoplasmic reticulum via selective autophagy | Q41059785 | ||
Autophagy regulates endoplasmic reticulum homeostasis and calcium mobilization in T lymphocytes | Q41486560 | ||
UPR pathways combine to prevent hepatic steatosis caused by ER stress-mediated suppression of transcriptional master regulators. | Q42041480 | ||
Endoplasmic reticulum stress response mediated by the PERK-eIF2(alpha)-ATF4 pathway is involved in osteoblast differentiation induced by BMP2 | Q42094437 | ||
ATF6alpha optimizes long-term endoplasmic reticulum function to protect cells from chronic stress | Q42518206 | ||
Impaired autophagy induces chronic atrophic pancreatitis in mice via sex- and nutrition-dependent processes | Q46799950 | ||
CCPG1 Is a Non-canonical Autophagy Cargo Receptor Essential for ER-Phagy and Pancreatic ER Proteostasis | Q47241715 | ||
STING Senses Microbial Viability to Orchestrate Stress-Mediated Autophagy of the Endoplasmic Reticulum. | Q47620008 | ||
Translocon component Sec62 acts in endoplasmic reticulum turnover during stress recovery | Q48272400 | ||
CHOP induces death by promoting protein synthesis and oxidation in the stressed endoplasmic reticulum | Q28512249 | ||
XBP-1 Regulates a Subset of Endoplasmic Reticulum Resident Chaperone Genes in the Unfolded Protein Response | Q28585314 | ||
Autophagy is activated for cell survival after endoplasmic reticulum stress | Q29614485 | ||
Autophagosome formation from membrane compartments enriched in phosphatidylinositol 3-phosphate and dynamically connected to the endoplasmic reticulum | Q29614500 | ||
Neuronal calcium signaling | Q29614727 | ||
IRE1 signaling affects cell fate during the unfolded protein response | Q29615502 | ||
The TBK1 adaptor and autophagy receptor NDP52 restricts the proliferation of ubiquitin-coated bacteria | Q29615619 | ||
Autophagy sequesters damaged lysosomes to control lysosomal biogenesis and kidney injury | Q30544606 | ||
Paneth cells as a site of origin for intestinal inflammation. | Q30559414 | ||
Adaptation to ER stress is mediated by differential stabilities of pro-survival and pro-apoptotic mRNAs and proteins | Q33262919 | ||
Autophagy counterbalances endoplasmic reticulum expansion during the unfolded protein response | Q33264844 | ||
The unfolded protein response protects human tumor cells during hypoxia through regulation of the autophagy genes MAP1LC3B and ATG5. | Q33559643 | ||
Recent Insights into the Role of Unfolded Protein Response in ER Stress in Health and Disease | Q33653691 | ||
Quality control autophagy degrades soluble ERAD-resistant conformers of the misfolded membrane protein GnRHR | Q33803716 | ||
Endoplasmic reticulum of animal cells and its organization into structural and functional domains | Q34240633 | ||
A novel signal transduction pathway from the endoplasmic reticulum to the nucleus is mediated by transcription factor NF-kappa B. | Q34313045 | ||
XBP1, downstream of Blimp-1, expands the secretory apparatus and other organelles, and increases protein synthesis in plasma cell differentiation | Q34345459 | ||
Protein folding and quality control in the endoplasmic reticulum: Recent lessons from yeast and mammalian cell systems | Q35160159 | ||
The roles of endoplasmic reticulum overload response induced by HCV and NS4B protein in human hepatocyte viability and virus replication | Q35393817 | ||
Endoplasmic reticulum stress triggers autophagy | Q35690087 | ||
Pharmacological ER stress promotes hepatic lipogenesis and lipid droplet formation | Q35747483 | ||
The PINK1-PARKIN Mitochondrial Ubiquitylation Pathway Drives a Program of OPTN/NDP52 Recruitment and TBK1 Activation to Promote Mitophagy | Q36118105 | ||
Basal autophagy maintains pancreatic acinar cell homeostasis and protein synthesis and prevents ER stress | Q36300434 | ||
Structure and function of the ULK1 complex in autophagy | Q36788728 | ||
Ubiquitin signals autophagic degradation of cytosolic proteins and peroxisomes | Q37014368 | ||
Ppp1r15 gene knockout reveals an essential role for translation initiation factor 2 alpha (eIF2alpha) dephosphorylation in mammalian development | Q37100863 | ||
Cocaine induces astrocytosis through ER stress-mediated activation of autophagy | Q37141770 | ||
The eIF2α/ATF4 pathway is essential for stress-induced autophagy gene expression | Q37148513 | ||
Involvement of autophagy in trypsinogen activation within the pancreatic acinar cells | Q37203732 | ||
The ubiquitin kinase PINK1 recruits autophagy receptors to induce mitophagy | Q37246125 | ||
XBP1 governs late events in plasma cell differentiation and is not required for antigen-specific memory B cell development | Q37377432 | ||
Protein folding in the endoplasmic reticulum | Q38103530 | ||
Decay of endoplasmic reticulum-localized mRNAs during the unfolded protein response. | Q38311676 | ||
Ubiquitin-Dependent And Independent Signals In Selective Autophagy | Q38599451 | ||
Extensive pancreas regeneration following acinar-specific disruption of Xbp1 in mice | Q38625919 | ||
P275 | copyright license | Creative Commons Attribution | Q6905323 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 6 | |
P921 | main subject | autophagy | Q288322 |
cell | Q7868 | ||
P304 | page(s) | 625-635 | |
P577 | publication date | 2017-12-12 | |
P1433 | published in | Essays in Biochemistry | Q15754041 |
P1476 | title | ER homeostasis and autophagy | |
P478 | volume | 61 |
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