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tag chaperone mediated autophagy developmental biology immunology

Eat Yourself to Live: Autophagy’s Role in Health and Disease
Vikramjit Lahiri and Daniel J. Klionsky | Mar 1, 2018 | 10+ min read
New details of the molecular process by which our cells consume themselves point to therapeutic potential.
Waste-Management Consultant
Megan Scudellari | Nov 1, 2013 | 9 min read
By audaciously pursuing an abandoned area of research, Ana María Cuervo discovered how cells selectively break down their waste, and revealed the health consequences when that process malfunctions.
The Role of Mom’s Microbes During Pregnancy
Carolyn A. Thomson and Kathy D. McCoy | Aug 1, 2021 | 10+ min read
Bacteria in the gut influence the production of antibodies and themselves secrete metabolites. In a pregnant woman, these compounds may influence immune development of her fetus.
Longevity
Jill Adams(juadams@the-scientist.com) | May 8, 2005 | 7 min read
During autophagy-literally "self-eating"-cells deliver cytoplasmic constituents, including whole organelles, to the lysosome for degradation.
Macrophages Are the Ultimate Multitaskers
Claire Asher | Oct 1, 2017 | 10+ min read
From guiding branching neurons in the developing brain to maintaining a healthy heartbeat, there seems to be no job that the immune cells can’t tackle.
Master of the Cell
Judy Lieberman | Apr 1, 2010 | 10+ min read
By Judy Lieberman Master of the Cell RNA interference, with its powerful promise of therapy for many diseases, may also act as a master regulator of most—if not all—cellular processes. RNA silencing. Computer artwork showing a length of RNA (yellow with red rings) bound to an RNA-induced silencing complex (RISC). © Medi-Mation Ltd / Photo Researchers, Inc. ne of the biggest surprises in biology in the past d
Macrophages Play a Double Role in Cancer
Amanda B. Keener | Apr 1, 2018 | 10+ min read
Macrophages play numerous roles within tumors, leaving cancer researchers with a choice: eliminate the cells or recruit them.
Notable
Jeffrey Perkel | Jan 6, 2002 | 4 min read
J.A. Camarero et al., "Peptide chemical ligation inside living cells: In vivo generation of a circular protein domain," Bioorganic and Medicinal Chemistry, 9[9]:2479-84, September 2001. F1000 Rating: Recommended "To investigate whether chemo-selective peptide ligations work in vivo, the authors demonstrate the in vivo head-to-tail cyclization of a bioactive SH3 domain using native chemical ligation. The protein precursor was constructed using a clever combination of an intein-fusion protein an

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