review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Chen Jiang | |
Yu Luo | |||
Lihua Yu | |||
Aimin Yang | |||
P2860 | cites work | Ubiquitin is phosphorylated by PINK1 to activate parkin | Q24296532 |
The structure of Atg4B-LC3 complex reveals the mechanism of LC3 processing and delipidation during autophagy | Q24309412 | ||
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One-pot hydrazide-based native chemical ligation for efficient chemical synthesis and structure determination of toxin Mambalgin-1 | Q27689467 | ||
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LC3 and GATE-16 N termini mediate membrane fusion processes required for autophagosome biogenesis | Q28235680 | ||
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The Legionella Anti-autophagy Effector RavZ Targets the Autophagosome via PI3P- and Curvature-Sensing Motifs | Q36125882 | ||
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Removable Backbone Modification Method for the Chemical Synthesis of Membrane Proteins. | Q36333624 | ||
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Autophagy wins the 2016 Nobel Prize in Physiology or Medicine: Breakthroughs in baker's yeast fuel advances in biomedical research | Q37589970 | ||
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Elucidation of the anti-autophagy mechanism of the Legionella effector RavZ using semisynthetic LC3 proteins | Q40257463 | ||
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The Legionella effector RavZ inhibits host autophagy through irreversible Atg8 deconjugation | Q42155652 | ||
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A one-pot total synthesis of crambin | Q44884004 | ||
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Lift and cut: Anti-host autophagy mechanism of Legionella pneumophila | Q48300461 | ||
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Serine 403 phosphorylation of p62/SQSTM1 regulates selective autophagic clearance of ubiquitinated proteins | Q48826829 | ||
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An efficient one-pot four-segment condensation method for protein chemical synthesis | Q86932433 | ||
Advances in Native Chemical Ligation-Desulfurization: A Powerful Strategy for Peptide and Protein Synthesis | Q89278273 | ||
Serine/Threonine Ligation: Origin, Mechanistic Aspects, and Applications | Q89444675 | ||
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Biological Functions of Autophagy Genes: A Disease Perspective | Q91003224 | ||
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Sortase ligation enables homogeneous GPCR phosphorylation to reveal diversity in β-arrestin coupling. | Q52341061 | ||
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One-Pot Ligation-Oxidative Deselenization at Selenocysteine and Selenocystine. | Q53551507 | ||
Ubiquitylation of p62/sequestosome1 activates its autophagy receptor function and controls selective autophagy upon ubiquitin stress. | Q55030718 | ||
Sortase A: A Model for Transpeptidation and Its Biological Applications | Q56888969 | ||
Leveraging the Knorr Pyrazole Synthesis for the Facile Generation of Thioester Surrogates for use in Native Chemical Ligation | Q57092832 | ||
Mechanisms of mitophagy in cellular homeostasis, physiology and pathology | Q57243054 | ||
Mechanism of parkin activation by phosphorylation | Q57266706 | ||
One-pot native chemical ligation of peptide hydrazides enables total synthesis of modified histones | Q57978735 | ||
Semisynthesis of a Homogeneous Glycoprotein Enzyme: Ribonuclease C: Part 1 | Q58024073 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P921 | main subject | autophagy | Q288322 |
P304 | page(s) | 233 | |
P577 | publication date | 2020-04-03 | |
P1433 | published in | Frontiers in Chemistry | Q27725450 |
P1476 | title | Chemical Biology of Autophagy-Related Proteins With Posttranslational Modifications: From Chemical Synthesis to Biological Applications | |
P478 | volume | 8 |
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