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Autor: Jiang, Liwen

4 záznamů v Medvik Filtry

Článek

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Klionsky, Daniel J
Autor Klionsky, Daniel J Life Sciences Institute and Department of Molecular, Cellular and Developmental Biology, University of Michigan, Ann Arbor, MI, USA
Abdel-Aziz, Amal Kamal
Autor Abdel-Aziz, Amal Kamal Department of Pharmacology and Toxicology, Faculty of Pharmacy, Ain Shams University, Cairo, Egypt Department of Experimental Oncology, IEO, European Institute of Oncology IRCCS, Milan, Italy
Abdelfatah, Sara
Autor Abdelfatah, Sara Johannes Gutenberg University, Institute of Pharmaceutical and Biomedical Sciences, Department of Pharmaceutical Biology, Mainz, Germany
Abdellatif, Mahmoud
Autor Abdellatif, Mahmoud Medical University of Graz, Division of Cardiology, Graz, Austria
Abdoli, Asghar
Autor Abdoli, Asghar Pasteur institute of Iran, Department of Hepatitis and HIV, Tehran, Iran
Abel, Steffen
Autor Abel, Steffen Department of Molecular Signal Processing, Leibniz Institute of Plant Biochemistry, Halle (Saale), Germany
Abeliovich, Hagai
Autor Abeliovich, Hagai Hebrew University of Jerusalem, Department of Biochemistry and Food Science, Rehovot, Israel
Abildgaard, Marie H
Autor Abildgaard, Marie H Danish Cancer Society Research Center, RNA and Autophagy Group, Copenhagen, Denmark University of Copenhagen, Biotech Research and Innovation Centre, Copenhagen, Denmark
Abudu, Yakubu Princely
Autor Abudu, Yakubu Princely University of Tromsø - The Arctic University of Norway, Department of Medical Biology, Tromsø, Norway
Acevedo-Arozena, Abraham
Autor Acevedo-Arozena, Abraham Hospital Universitario de Canarias, Research Unit CIBERNED and Universidad de La Laguna, ITB, Santa Cruz de Tenerife, Spain

Autophagy. 2021 ; 17 (1) : 1-382. [pub] 20210208

ISSN 1554-8635
Medvik
Zdroj

In 2008, we published the first set of guidelines for standardizing research in autophagy. Since then, this topic has received increasing attention, and many scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Thus, it is important to formulate on a regular basis updated guidelines for monitoring autophagy in different organisms. Despite numerous reviews, there continues to be confusion regarding acceptable methods to evaluate autophagy, especially in multicellular eukaryotes. Here, we present a set of guidelines for investigators to select and interpret methods to examine autophagy and related processes, and for reviewers to provide realistic and reasonable critiques of reports that are focused on these processes. These guidelines are not meant to be a dogmatic set of rules, because the appropriateness of any assay largely depends on the question being asked and the system being used. Moreover, no individual assay is perfect for every situation, calling for the use of multiple techniques to properly monitor autophagy in each experimental setting. Finally, several core components of the autophagy machinery have been implicated in distinct autophagic processes (canonical and noncanonical autophagy), implying that genetic approaches to block autophagy should rely on targeting two or more autophagy-related genes that ideally participate in distinct steps of the pathway. Along similar lines, because multiple proteins involved in autophagy also regulate other cellular pathways including apoptosis, not all of them can be used as a specific marker for bona fide autophagic responses. Here, we critically discuss current methods of assessing autophagy and the information they can, or cannot, provide. Our ultimate goal is to encourage intellectual and technical innovation in the field.

MeSH
autofagie * fyziologie MeSH
autofagozomy MeSH
biologické markery MeSH
biotest normy MeSH
lidé MeSH
lyzozomy MeSH
proteiny spojené s autofagií metabolismus MeSH
zvířata MeSH
Check Tag
lidé MeSH
zvířata MeSH
Publikační typ
časopisecké články MeSH
práce podpořená grantem MeSH
Research Support, N.I.H., Extramural MeSH
Research Support, U.S. Gov't, Non-P.H.S. MeSH
směrnice MeSH

Článek

MTV proteins unveil ER- and microtubule-associated compartments in the plant vacuolar trafficking pathway

Proceedings of the National Academy of Sciences of the United States of America. 2020 ; 117 (18) : 9884-9895. [pub] 20200422

Proc Natl Acad Sci U S A
ISSN 1091-6490
Medvik
Zdroj

The factors and mechanisms involved in vacuolar transport in plants, and in particular those directing vesicles to their target endomembrane compartment, remain largely unknown. To identify components of the vacuolar trafficking machinery, we searched for Arabidopsis modified transport to the vacuole (mtv) mutants that abnormally secrete the synthetic vacuolar cargo VAC2. We report here on the identification of 17 mtv mutations, corresponding to mutant alleles of MTV2/VSR4, MTV3/PTEN2A MTV7/EREL1, MTV8/ARFC1, MTV9/PUF2, MTV10/VPS3, MTV11/VPS15, MTV12/GRV2, MTV14/GFS10, MTV15/BET11, MTV16/VPS51, MTV17/VPS54, and MTV18/VSR1 Eight of the MTV proteins localize at the interface between the trans-Golgi network (TGN) and the multivesicular bodies (MVBs), supporting that the trafficking step between these compartments is essential for segregating vacuolar proteins from those destined for secretion. Importantly, the GARP tethering complex subunits MTV16/VPS51 and MTV17/VPS54 were found at endoplasmic reticulum (ER)- and microtubule-associated compartments (EMACs). Moreover, MTV16/VPS51 interacts with the motor domain of kinesins, suggesting that, in addition to tethering vesicles, the GARP complex may regulate the motors that transport them. Our findings unveil a previously uncharacterized compartment of the plant vacuolar trafficking pathway and support a role for microtubules and kinesins in GARP-dependent transport of soluble vacuolar cargo in plants.

Článek

Na+ ,K /H+ antiporters regulate the pH of endoplasmic reticulum and auxin-mediated development

Plant, cell and environment. 2018 ; 41 (4) : 850-864. [pub] 20180223

Plant Cell Environ
ISSN 1365-3040
Medvik
Zdroj

AtNHX5 and AtNHX6 are endosomal Na+ ,K+ /H+ antiporters that are critical for growth and development in Arabidopsis, but the mechanism behind their action remains unknown. Here, we report that AtNHX5 and AtNHX6, functioning as H+ leak, control auxin homeostasis and auxin-mediated development. We found that nhx5 nhx6 exhibited growth variations of auxin-related defects. We further showed that nhx5 nhx6 was affected in auxin homeostasis. Genetic analysis showed that AtNHX5 and AtNHX6 were required for the function of the endoplasmic reticulum (ER)-localized auxin transporter PIN5. Although AtNHX5 and AtNHX6 were colocalized with PIN5 at ER, they did not interact directly. Instead, the conserved acidic residues in AtNHX5 and AtNHX6, which are essential for exchange activity, were required for PIN5 function. AtNHX5 and AtNHX6 regulated the pH in ER. Overall, AtNHX5 and AtNHX6 may regulate auxin transport across the ER via the pH gradient created by their transport activity. H+ -leak pathway provides a fine-tuning mechanism that controls cellular auxin fluxes.

Článek

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

Autophagy. 2016 ; 12 (1) : 1-222.

ISSN 1554-8635
Medvik
Zdroj

MeSH
autofagie * fyziologie MeSH
biotest metody normy MeSH
lidé MeSH
počítačová simulace MeSH
zvířata MeSH
Check Tag
lidé MeSH
zvířata MeSH
Publikační typ
časopisecké články MeSH
Research Support, N.I.H., Extramural MeSH
směrnice MeSH

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