ZZ-dependent regulation of p62/SQSTM1 in autophagy

[1]  Wei Li,et al.  The ZZ-type zinc finger of ZZZ3 modulates the ATAC complex-mediated histone acetylation and gene activation , 2018, Nature Communications.

[2]  Elsje G. Otten,et al.  Oxidation of SQSTM1/p62 mediates the link between redox state and protein homeostasis , 2018, Nature Communications.

[3]  D. Klionsky,et al.  Regulation of autophagic lysosome reformation by kinesin 1, clathrin and phosphatidylinositol-4,5-bisphosphate , 2018, Autophagy.

[4]  A. Ciechanover,et al.  Regulation of autophagic proteolysis by the N-recognin SQSTM1/p62 of the N-end rule pathway , 2017, Autophagy.

[5]  M. Karin,et al.  Stress-Activated NRF2-MDM2 Cascade Controls Neoplastic Progression in Pancreas. , 2017, Cancer cell.

[6]  Min Jae Lee,et al.  p62/SQSTM1/Sequestosome-1 is an N-recognin of the N-end rule pathway which modulates autophagosome biogenesis , 2017, Nature Communications.

[7]  Jia Xu,et al.  Tracking Equilibrium and Nonequilibrium Shifts in Data with TREND. , 2017, Biophysical journal.

[8]  M. Karin,et al.  p62 in Cancer: Signaling Adaptor Beyond Autophagy , 2016, Cell.

[9]  S. Subramaniam,et al.  p62/SQSTM1 by Binding to Vitamin D Receptor Inhibits Hepatic Stellate Cell Activity, Fibrosis, and Liver Cancer. , 2016, Cancer cell.

[10]  A. Durán,et al.  Amino Acid Activation of mTORC1 by a PB1-Domain-Driven Kinase Complex Cascade. , 2015, Cell reports.

[11]  A. Ciechanover,et al.  N-terminal Arginylation Targets Endoplasmic Reticulum Chaperone BiP to Autophagy Through p62 Binding , 2015, Nature Cell Biology.

[12]  Terje Johansen,et al.  The selective autophagy receptor p62 forms a flexible filamentous helical scaffold. , 2015, Cell reports.

[13]  F. Jessen,et al.  Rare mutations in SQSTM1 modify susceptibility to frontotemporal lobar degeneration , 2014, Acta Neuropathologica.

[14]  A. Thorburn,et al.  Sorting cells for basal and induced autophagic flux by quantitative ratiometric flow cytometry , 2014, Autophagy.

[15]  J. James,et al.  Loss of iron triggers PINK1/Parkin-independent mitophagy , 2013, EMBO reports.

[16]  Bo Eun Lee,et al.  UBR box N-recognin-4 (UBR4), an N-recognin of the N-end rule pathway, and its role in yolk sac vascular development and autophagy , 2013, Proceedings of the National Academy of Sciences.

[17]  D. Sabatini,et al.  mTOR Signaling in Growth Control and Disease , 2012, Cell.

[18]  Yong Tae Kwon,et al.  The N-end rule pathway: emerging functions and molecular principles of substrate recognition , 2011, Nature Reviews Molecular Cell Biology.

[19]  Aleksey A. Porollo,et al.  p62 is a key regulator of nutrient sensing in the mTORC1 pathway. , 2011, Molecular cell.

[20]  N. Mizushima,et al.  p62 targeting to the autophagosome formation site requires self-oligomerization but not LC3 binding , 2011, The Journal of cell biology.

[21]  G. Kozlov,et al.  Structural basis of substrate recognition and specificity in the N-end rule pathway , 2010, Nature Structural &Molecular Biology.

[22]  Joonhee Kim,et al.  Structural basis for the recognition of N-end rule substrates by the UBR box of ubiquitin ligases , 2010, Nature Structural &Molecular Biology.

[23]  P. Emsley,et al.  Features and development of Coot , 2010, Acta crystallographica. Section D, Biological crystallography.

[24]  Randy J. Read,et al.  Acta Crystallographica Section D Biological , 2003 .

[25]  M. Diaz-Meco,et al.  p62 at the Crossroads of Autophagy, Apoptosis, and Cancer , 2009, Cell.

[26]  Gyan Bhanot,et al.  Autophagy Suppresses Tumorigenesis through Elimination of p62 , 2009, Cell.

[27]  Junmin Peng,et al.  Genetic inactivation of p62 leads to accumulation of hyperphosphorylated tau and neurodegeneration , 2008, Journal of neurochemistry.

[28]  Wladek Minor,et al.  HKL-3000: the integration of data reduction and structure solution--from diffraction images to an initial model in minutes. , 2006, Acta crystallographica. Section D, Biological crystallography.

[29]  Terje Johansen,et al.  p62/SQSTM1 forms protein aggregates degraded by autophagy and has a protective effect on huntingtin-induced cell death , 2005, The Journal of cell biology.

[30]  M. W. Wooten,et al.  Evidence for p62 aggregate formation: Role in cell survival , 2005, FEBS letters.

[31]  Zbyszek Otwinowski,et al.  The integration of data reduction and structure solution - from diffraction images to an initial model in minutes , 2005 .

[32]  G. Bjørkøy,et al.  Interaction Codes within the Family of Mammalian Phox and Bem1p Domain-containing Proteins* , 2003, Journal of Biological Chemistry.

[33]  Michael I. Wilson,et al.  PB1 domain-mediated heterodimerization in NADPH oxidase and signaling complexes of atypical protein kinase C with Par6 and p62. , 2003, Molecular cell.

[34]  A. Varshavsky,et al.  Construction and Analysis of Mouse Strains Lacking the Ubiquitin Ligase UBR1 (E3α) of the N-End Rule Pathway , 2001, Molecular and Cellular Biology.

[35]  A. Varshavsky The N-end rule , 1992, Cell.

[36]  A. Varshavsky,et al.  In vivo half-life of a protein is a function of its amino-terminal residue. , 1986, Science.