about
P62: An emerging oncotarget for osteolytic metastasisHuntingtin functions as a scaffold for selective macroautophagyMitophagy: Basic Mechanism and Potential Role in Kidney DiseasesNutrient-sensing nuclear receptors coordinate autophagy.The yeast Saccharomyces cerevisiae: an overview of methods to study autophagy progression.Posttranslational modification of autophagy-related proteins in macroautophagyThe Degradation Pathway of the Mitophagy Receptor Atg32 Is Re-Routed by a Posttranslational ModificationThe DNA damage response induces inflammation and senescence by inhibiting autophagy of GATA4.Transcriptional coordination of hepatic autophagy by nutrient-sensing nuclear receptor PPARα and FXR.The Role of Macrophage Lipophagy in Reverse Cholesterol TransportNetwork-based proteomic approaches reveal the neurodegenerative, neuroprotective and pain-related mechanisms involved after retrograde axonal damage.VPS34 stimulation of p62 phosphorylation for cancer progression.Differential regulation of autophagy and mitophagy in pulmonary diseases.Repair or destruction-an intimate liaison between ubiquitin ligases and molecular chaperones in proteostasisp62/SQSTM1/Sequestosome-1 is an N-recognin of the N-end rule pathway which modulates autophagosome biogenesis.Identification of Atg3 as an intrinsically disordered polypeptide yields insights into the molecular dynamics of autophagy-related proteins in yeast.Autophagy Is Pro-Senescence When Seen in Close-Up, but Anti-Senescence in Long-Shot.The Immortal Senescence.Regulation of Glycolytic Metabolism by Autophagy in Liver Cancer Involves Selective Autophagic Degradation of HK2 (hexokinase 2).New horizon in autophagy research.Bioluminescence Resonance Energy Transfer (BRET)-Based Synthetic Sensor Platform for Drug Discovery.FoxO1-AMPK-ULK1 Regulates Ethanol-Induced Autophagy in Muscle by Enhanced ATG14 Association with the BECN1-PIK3C3 Complex.Dissecting the Molecular Pathway Involved in PLK2 Kinase-mediated α-Synuclein-selective Autophagic Degradation.Cargo recognition and degradation by selective autophagy.MitoPho8Δ60 Assay as a Tool to Quantitatively Measure Mitophagy Activity.
P2860
Q26753091-91CD7D40-F96A-4192-BB1C-A50F0A969154Q28118022-30AFB5EF-D485-482C-B861-85AAC8D2F4ADQ28383419-C44B4B45-6CBD-4641-83EE-3EE3EB29447DQ34713459-EBE65F51-354F-4C47-BB01-8CEA004A2331Q35164193-0C7EFD4D-85E4-426D-A46C-240EE5C3DD06Q35852919-8E1E8AC2-E65E-4ABB-8A7E-5608E7E022D7Q36228346-E6593F7D-16AC-4B57-8B0D-BE40B9FE2990Q37088112-65426123-6560-42C9-81FA-7131556F6C65Q37622448-C74448CB-61DE-41D3-AFFF-457F3C0DFF0BQ37723252-883284A8-1A04-45DE-A1BD-166FA589C9ECQ37735537-04FE40B0-7FF6-459F-8B32-BB60F76109AAQ38605920-487E95DA-8870-4A03-A8FF-A89EAA76C143Q38893443-3F8E8B9C-27B6-4520-95D6-7C9EC50F58BDQ39430414-15E9FFEA-0AF1-44B2-A612-95BE7602CC44Q41107844-9B56F55F-3FCE-414D-BBAE-684282B14331Q41965811-7B71DE30-FF62-438C-9891-755CF679D3F1Q42375936-3CA3494A-D4A5-4E2E-8333-679EC2EB2738Q42380380-CC655EAD-8B23-42D3-8358-321B80504133Q42516352-01DE0C1B-F31D-468A-BD10-385B585C8D04Q42542614-CE938924-7054-4831-B6CC-98551B0FCB26Q46801350-8A192D49-E4EC-4136-8074-6205E714AAC5Q48118265-F3A4B047-6F13-49A5-B23D-D7CA7D4F4FDDQ48327037-725AE5FE-6EBF-4018-AAB4-4A875B9570AFQ50422083-94DFF331-FF74-46EE-99F1-49D91CE6A5A9Q50449716-16B91E57-9D4A-467B-B94B-1AB2A596EA1E
P2860
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
SnapShot: Selective autophagy.
@en
SnapShot: Selective autophagy.
@nl
type
label
SnapShot: Selective autophagy.
@en
SnapShot: Selective autophagy.
@nl
prefLabel
SnapShot: Selective autophagy.
@en
SnapShot: Selective autophagy.
@nl
P2860
P1433
P1476
SnapShot: Selective autophagy.
@en
P2093
Meiyan Jin
P2860
P304
368-368.e2
P356
10.1016/J.CELL.2013.01.004
P407
P577
2013-01-01T00:00:00Z