| scholarly article | Q13442814 |
| P356 | DOI | 10.5402/2012/738718 |
| P8608 | Fatcat ID | release_dzknoqkspbeeziirmbkasb4ry4 |
| P932 | PMC publication ID | 4890908 |
| P698 | PubMed publication ID | 27335669 |
| P5875 | ResearchGate publication ID | 258404471 |
| P50 | author | Fulvio Reggiori | Q28320691 |
| P2093 | author name string | Fulvio Reggiori | |
| P2860 | cites work | Image-based genome-wide siRNA screen identifies selective autophagy factors | Q24294407 |
| LC3, GABARAP and GATE16 localize to autophagosomal membrane depending on form-II formation | Q24294635 | ||
| Bif-1 interacts with Beclin 1 through UVRAG and regulates autophagy and tumorigenesis | Q24294860 | ||
| Binding of the Atg1/ULK1 kinase to the ubiquitin-like protein Atg8 regulates autophagy | Q24295813 | ||
| Starvation and ULK1-dependent cycling of mammalian Atg9 between the TGN and endosomes | Q24301020 | ||
| Dynamic and transient interactions of Atg9 with autophagosomes, but not membrane integration, are required for autophagy. | Q24310187 | ||
| Nutrient-dependent mTORC1 association with the ULK1-Atg13-FIP200 complex required for autophagy | Q24310301 | ||
| Ambra1 regulates autophagy and development of the nervous system | Q24313508 | ||
| Coordinated regulation of autophagy by p38alpha MAPK through mAtg9 and p38IP | Q24314845 | ||
| Mammalian Atg18 (WIPI2) localizes to omegasome-anchored phagophores and positively regulates LC3 lipidation | Q24315722 | ||
| A subdomain of the endoplasmic reticulum forms a cradle for autophagosome formation | Q24315723 | ||
| Two Beclin 1-binding proteins, Atg14L and Rubicon, reciprocally regulate autophagy at different stages | Q24318814 | ||
| Structures containing Atg9A and the ULK1 complex independently target depolarized mitochondria at initial stages of Parkin-mediated mitophagy | Q54534151 | ||
| Beclin 1 or not Beclin 1... | Q54614675 | ||
| Beclin 1-independent autophagy induced by a Bcl-XL/Bcl-2 targeting compound, Z18 | Q54651637 | ||
| Atg4 recycles inappropriately lipidated Atg8 to promote autophagosome biogenesis | Q54917760 | ||
| Autophagy and cancer | Q56772657 | ||
| The origin of the autophagosomal membrane | Q57269788 | ||
| The EmERgence of Autophagosomes | Q57269795 | ||
| Transport of phosphatidylinositol 3-phosphate into the vacuole via autophagic membranes in Saccharomyces cerevisiae | Q57274142 | ||
| Autophagy is defective in collagen VI muscular dystrophies and its reactivation rescues myofiber degeneration | Q57639972 | ||
| Beclin 1-independent autophagy contributes to apoptosis in cortical neurons | Q57652033 | ||
| Coronavirus replication does not require the autophagy gene ATG5 | Q80798627 | ||
| Ubiquitin-like proteins and autophagy at a glance | Q84465996 | ||
| Selective autophagy: ubiquitin-mediated recognition and beyond | Q84974064 | ||
| WIPI-1alpha (WIPI49), a member of the novel 7-bladed WIPI protein family, is aberrantly expressed in human cancer and is linked to starvation-induced autophagy | Q24322858 | ||
| Network organization of the human autophagy system | Q24324004 | ||
| The pre-autophagosomal structure organized by concerted functions of APG genes is essential for autophagosome formation | Q24535862 | ||
| Mammalian autophagy: core molecular machinery and signaling regulation | Q24595447 | ||
| Extracellular M. tuberculosis DNA Targets Bacteria for Autophagy by Activating the Host DNA-Sensing Pathway | Q24601311 | ||
| The Cvt pathway as a model for selective autophagy | Q24617191 | ||
| Autophagy and pattern recognition receptors in innate immunity | Q24645588 | ||
| The Atg16L complex specifies the site of LC3 lipidation for membrane biogenesis in autophagy | Q24647053 | ||
| ULK-Atg13-FIP200 complexes mediate mTOR signaling to the autophagy machinery | Q24649645 | ||
| Formation process of autophagosome is traced with Apg8/Aut7p in yeast | Q24670615 | ||
| Regulation of autophagy by extracellular signal-regulated protein kinases during 1-methyl-4-phenylpyridinium-induced cell death | Q24676936 | ||
| Tor-mediated induction of autophagy via an Apg1 protein kinase complex | Q24685670 | ||
| Autophagy, Immunity, and Microbial Adaptations | Q27489075 | ||
| Autophagy in the Pathogenesis of Disease | Q27860558 | ||
| Autophagy fights disease through cellular self-digestion | Q27860902 | ||
| Analyses of APG13 gene involved in autophagy in yeast, Saccharomyces cerevisiae | Q27930610 | ||
| Hierarchy of Atg proteins in pre-autophagosomal structure organization | Q27931408 | ||
| A yeast MAPK cascade regulates pexophagy but not other autophagy pathways. | Q27932918 | ||
| Pex3-anchored Atg36 tags peroxisomes for degradation inSaccharomyces cerevisiae | Q27933704 | ||
| The Atg12-Atg5 conjugate has a novel E3-like activity for protein lipidation in autophagy | Q27933717 | ||
| Apg1p, a novel protein kinase required for the autophagic process in Saccharomyces cerevisiae | Q27933914 | ||
| Atg8, a ubiquitin-like protein required for autophagosome formation, mediates membrane tethering and hemifusion | Q27933991 | ||
| Unconventional secretion of Acb1 is mediated by autophagosomes. | Q27934275 | ||
| Characterization of a novel autophagy-specific gene, ATG29. | Q27935122 | ||
| Mitochondria-anchored receptor Atg32 mediates degradation of mitochondria via selective autophagy | Q27936161 | ||
| Atg32 is a mitochondrial protein that confers selectivity during mitophagy | Q27936726 | ||
| Cis1/Atg31 is required for autophagosome formation in Saccharomyces cerevisiae | Q27938390 | ||
| Apg14p and Apg6/Vps30p Form a Protein Complex Essential for Autophagy in the Yeast, Saccharomyces cerevisiae | Q27940093 | ||
| A protein conjugation system essential for autophagy | Q27940154 | ||
| Bcl-2 antiapoptotic proteins inhibit Beclin 1-dependent autophagy | Q28131727 | ||
| LC3 and GATE-16 N termini mediate membrane fusion processes required for autophagosome biogenesis | Q28235680 | ||
| mTORC1 phosphorylates the ULK1-mAtg13-FIP200 autophagy regulatory complex | Q34998143 | ||
| An Atg9-containing compartment that functions in the early steps of autophagosome biogenesis | Q35005592 | ||
| Microtubule-associated protein 1 light chain 3 alpha (LC3)-associated phagocytosis is required for the efficient clearance of dead cells | Q35409371 | ||
| Autophagy machinery mediates macroendocytic processing and entotic cell death by targeting single membranes | Q35571232 | ||
| Biogenesis of a novel compartment for autophagosome-mediated unconventional protein secretion | Q35621009 | ||
| Autophagy proteins regulate the secretory component of osteoclastic bone resorption | Q35629038 | ||
| The Atg18-Atg2 complex is recruited to autophagic membranes via phosphatidylinositol 3-phosphate and exerts an essential function | Q35676685 | ||
| Selective subversion of autophagy complexes facilitates completion of the Brucella intracellular cycle | Q35697369 | ||
| Vitamin D, vitamin D receptor, and macroautophagy in inflammation and infection | Q35773620 | ||
| Resveratrol-mediated autophagy requires WIPI-1-regulated LC3 lipidation in the absence of induced phagophore formation. | Q35782361 | ||
| Autophagy genes function sequentially to promote apoptotic cell corpse degradation in the engulfing cell | Q35866222 | ||
| Nondegradative role of Atg5-Atg12/ Atg16L1 autophagy protein complex in antiviral activity of interferon gamma | Q35946299 | ||
| Maturing reticulocytes internalize plasma membrane in glycophorin A-containing vesicles that fuse with autophagosomes before exocytosis. | Q36058548 | ||
| Recruitment of Atg9 to the preautophagosomal structure by Atg11 is essential for selective autophagy in budding yeast | Q36119455 | ||
| Surviving inside a macrophage: the many ways of Brucella. | Q36346679 | ||
| AMPK-dependent phosphorylation of ULK1 regulates ATG9 localization | Q36920118 | ||
| Ubiquitin signals autophagic degradation of cytosolic proteins and peroxisomes | Q37014368 | ||
| Potential subversion of autophagosomal pathway by picornaviruses | Q37038308 | ||
| PpAtg30 tags peroxisomes for turnover by selective autophagy. | Q37149454 | ||
| Toward unraveling membrane biogenesis in mammalian autophagy | Q37160171 | ||
| Productive Chlamydia trachomatis lymphogranuloma venereum 434 infection in cells with augmented or inactivated autophagic activities | Q37165064 | ||
| Vesicular trafficking in osteoclasts | Q37259741 | ||
| Autophagy genes in immunity | Q37273997 | ||
| The endoplasmic reticulum crossroads for newly synthesized polypeptide chains | Q37383103 | ||
| The Tor and PKA signaling pathways independently target the Atg1/Atg13 protein kinase complex to control autophagy | Q37386075 | ||
| Toll-like receptors in control of immunological autophagy. | Q37460134 | ||
| The late stages of autophagy: how does the end begin? | Q37474350 | ||
| Autophagy: regulation and role in disease | Q37529825 | ||
| Multiple roles of the cytoskeleton in autophagy | Q37574054 | ||
| The role of autophagy in tumour development and cancer therapy. | Q37642093 | ||
| Targeting cancer cells through autophagy for anticancer therapy | Q37670439 | ||
| Regulation of autophagy by phosphatidylinositol 3-phosphate | Q37675237 | ||
| Current knowledge of the pre-autophagosomal structure (PAS). | Q37688466 | ||
| Autophagy, a guardian against neurodegeneration | Q37699492 | ||
| ERAD and ERAD tuning: disposal of cargo and of ERAD regulators from the mammalian ER. | Q37809383 | ||
| Chemical modulators of autophagy as biological probes and potential therapeutics | Q37821750 | ||
| The regulation of autophagy – unanswered questions | Q37824183 | ||
| Autophagy-independent function of MAP-LC3 during intracellular propagation of Chlamydia trachomatis | Q37851054 | ||
| Canonical and non-canonical autophagy: variations on a common theme of self-eating? | Q37968154 | ||
| Phosphorylation of Serine 114 on Atg32 mediates mitophagy | Q38274635 | ||
| An autophagy-independent role for LC3 in equine arteritis virus replication | Q39238402 | ||
| Freeze-fracture replica immunolabelling reveals human WIPI-1 and WIPI-2 as membrane proteins of autophagosomes | Q39544323 | ||
| The puzzling origin of the autophagosomal membrane | Q39550954 | ||
| Phosphatidylinositol-3-phosphate clearance plays a key role in autophagosome completion | Q39560026 | ||
| Delivery of cytosolic components by autophagic adaptor protein p62 endows autophagosomes with unique antimicrobial properties. | Q39837169 | ||
| Segregation and rapid turnover of EDEM1 by an autophagy-like mechanism modulates standard ERAD and folding activities | Q39985945 | ||
| Role of non-canonical Beclin 1-independent autophagy in cell death induced by resveratrol in human breast cancer cells | Q39990852 | ||
| TOR signalling and control of cell growth | Q41678494 | ||
| Dual role of JNK1-mediated phosphorylation of Bcl-2 in autophagy and apoptosis regulation | Q41769812 | ||
| Mammalian Atg2 proteins are essential for autophagosome formation and important for regulation of size and distribution of lipid droplets. | Q41978043 | ||
| Three-Axis Model for Atg Recruitment in Autophagy against Salmonella | Q41985909 | ||
| Autophagy: more than a nonselective pathway | Q42179892 | ||
| Role of the SEL1L:LC3-I complex as an ERAD tuning receptor in the mammalian ER. | Q44455557 | ||
| Coronaviruses Hijack the LC3-I-positive EDEMosomes, ER-derived vesicles exporting short-lived ERAD regulators, for replication | Q44986570 | ||
| The WD40 repeat PtdIns(3)P-binding protein EPG-6 regulates progression of omegasomes to autophagosomes. | Q47069450 | ||
| Atg8: an autophagy-related ubiquitin-like protein family | Q28246433 | ||
| LC3 conjugation system in mammalian autophagy | Q28278334 | ||
| Selective autophagy mediated by autophagic adapter proteins | Q28301940 | ||
| AMPK and mTOR regulate autophagy through direct phosphorylation of Ulk1 | Q28506431 | ||
| The pancreatitis-induced vacuole membrane protein 1 triggers autophagy in mammalian cells | Q28579032 | ||
| 3D tomography reveals connections between the phagophore and endoplasmic reticulum | Q28610064 | ||
| A role for Atg8-PE deconjugation in autophagosome biogenesis | Q28728283 | ||
| SNARE proteins are required for macroautophagy | Q28742152 | ||
| Autophagy-based unconventional secretory pathway for extracellular delivery of IL-1β | Q29030555 | ||
| Regulation mechanisms and signaling pathways of autophagy | Q29547416 | ||
| Autophagosome formation: core machinery and adaptations | Q29547417 | ||
| The Role of Atg Proteins in Autophagosome Formation | Q29547418 | ||
| The Atg1-Atg13 complex regulates Atg9 and Atg23 retrieval transport from the pre-autophagosomal structure | Q29614179 | ||
| Beclin 1 forms two distinct phosphatidylinositol 3-kinase complexes with mammalian Atg14 and UVRAG | Q29614477 | ||
| JNK1-mediated phosphorylation of Bcl-2 regulates starvation-induced autophagy | Q29614479 | ||
| Toll-like receptor signalling in macrophages links the autophagy pathway to phagocytosis | Q29614481 | ||
| The role of the Atg1/ULK1 complex in autophagy regulation | Q29614497 | ||
| Autophagosome formation from membrane compartments enriched in phosphatidylinositol 3-phosphate and dynamically connected to the endoplasmic reticulum | Q29614500 | ||
| Dynamics and diversity in autophagy mechanisms: lessons from yeast | Q29620685 | ||
| Potential therapeutic applications of autophagy | Q29622862 | ||
| Membrane Delivery to the Yeast Autophagosome from the Golgi–Endosomal System | Q30497382 | ||
| The LC3 recruitment mechanism is separate from Atg9L1-dependent membrane formation in the autophagic response against Salmonella | Q30502008 | ||
| Characterization of autophagosome formation site by a hierarchical analysis of mammalian Atg proteins | Q30512856 | ||
| Atg9 vesicles are an important membrane source during early steps of autophagosome formation | Q30523963 | ||
| Autophagy counterbalances endoplasmic reticulum expansion during the unfolded protein response | Q33264844 | ||
| Unconventional secretion of Pichia pastoris Acb1 is dependent on GRASP protein, peroxisomal functions, and autophagosome formation. | Q33689637 | ||
| Following autophagy step by step | Q33920404 | ||
| The Bcl-2 homology domain 3 mimetic gossypol induces both Beclin 1-dependent and Beclin 1-independent cytoprotective autophagy in cancer cells | Q34055891 | ||
| Arsenic trioxide induces a beclin-1-independent autophagic pathway via modulation of SnoN/SkiL expression in ovarian carcinoma cells | Q34101387 | ||
| The dynamic interaction of AMBRA1 with the dynein motor complex regulates mammalian autophagy | Q34191643 | ||
| Autophagosome Precursor Maturation Requires Homotypic Fusion | Q34203070 | ||
| Discovery of Atg5/Atg7-independent alternative macroautophagy | Q34612369 | ||
| Nutrient starvation elicits an acute autophagic response mediated by Ulk1 dephosphorylation and its subsequent dissociation from AMPK | Q34720900 | ||
| A novel, human Atg13 binding protein, Atg101, interacts with ULK1 and is essential for macroautophagy | Q34962715 | ||
| Autophagy failure in Alzheimer's disease—locating the primary defect | Q34987827 | ||
| P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P921 | main subject | autophagy | Q288322 |
| P304 | page(s) | 738718 | |
| P577 | publication date | 2012-12-30 | |
| P13046 | publication type of scholarly work | review article | Q7318358 |
| P1433 | published in | ISRN molecular biology | Q27724344 |
| P1476 | title | Autophagy: New Questions from Recent Answers | |
| P478 | volume | 2012 |
| Q35852733 | Autophagy Regulatory Network - a systems-level bioinformatics resource for studying the mechanism and regulation of autophagy. |
| Q59360691 | Intricate relationships between naked viruses and extracellular vesicles in the crosstalk between pathogen and host |
| Q88733084 | Mitochondrial quality control in AMD: does mitophagy play a pivotal role? |
| Q29614834 | The role of autophagy in neurodegenerative disease |
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