Four Salvage NAD+ Biosynthetic Pathway Enzymes Moonlight as Molecular Chaperones to Protect Against Proteotoxicity

Meredith Pinkerton; Andrea Ruetenik; Viktoriia Bazylianska; Eva Nyvltova; Antoni Barrientos

doi:10.1101/2020.10.27.357780

New Results

Four Salvage NAD⁺ Biosynthetic Pathway Enzymes Moonlight as Molecular Chaperones to Protect Against Proteotoxicity

Meredith Pinkerton, Andrea Ruetenik, Viktoriia Bazylianska, Eva Nyvltova, View ORCID ProfileAntoni Barrientos

doi: https://doi.org/10.1101/2020.10.27.357780

Meredith Pinkerton

1Department of Neurology, Wayne State University, School of Medicine. Detroit, MI-48201

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site

Andrea Ruetenik

1Department of Neurology, Wayne State University, School of Medicine. Detroit, MI-48201

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site

Viktoriia Bazylianska

1Department of Neurology, Wayne State University, School of Medicine. Detroit, MI-48201

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site

Eva Nyvltova

1Department of Neurology, Wayne State University, School of Medicine. Detroit, MI-48201

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site

Antoni Barrientos

1Department of Neurology, Wayne State University, School of Medicine. Detroit, MI-48201

2MS in Biochemistry and Molecular Biology. Wayne State University, School of Medicine. Detroit, MI-48201

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Antoni Barrientos
For correspondence: abarrientos@med.miami.edu

Abstract
Full Text
Info/History
Metrics
Supplementary material
Preview PDF

Article usage

Article usage: October 2020 to January 2021

	Abstract	Full	Pdf
Oct 2020	502	2	67
Nov 2020	134	34	48
Dec 2020	369	20	60
Jan 2021	107	16	17

View the discussion thread.

PreviousNext

Posted October 27, 2020.

Download PDF

Supplementary Material

Thank you for your interest in spreading the word about bioRxiv.

NOTE: Your email address is requested solely to identify you as the sender of this article.

Your Email *

Your Name *

Send To *

Enter multiple addresses on separate lines or separate them with commas.

You are going to email the following Four Salvage NAD+ Biosynthetic Pathway Enzymes Moonlight as Molecular Chaperones to Protect Against Proteotoxicity

Message Subject (Your Name) has forwarded a page to you from bioRxiv

Message Body (Your Name) thought you would like to see this page from the bioRxiv website.

Your Personal Message

CAPTCHA

This question is for testing whether or not you are a human visitor and to prevent automated spam submissions.

Four Salvage NAD⁺ Biosynthetic Pathway Enzymes Moonlight as Molecular Chaperones to Protect Against Proteotoxicity

Meredith Pinkerton, Andrea Ruetenik, Viktoriia Bazylianska, Eva Nyvltova, Antoni Barrientos

bioRxiv 2020.10.27.357780; doi: https://doi.org/10.1101/2020.10.27.357780

Share This Article:

Citation Tools

Four Salvage NAD⁺ Biosynthetic Pathway Enzymes Moonlight as Molecular Chaperones to Protect Against Proteotoxicity

Meredith Pinkerton, Andrea Ruetenik, Viktoriia Bazylianska, Eva Nyvltova, Antoni Barrientos

bioRxiv 2020.10.27.357780; doi: https://doi.org/10.1101/2020.10.27.357780

Citation Manager Formats

BibTeX
Bookends
EasyBib
EndNote (tagged)
EndNote 8 (xml)
Medlars
Mendeley
Papers
RefWorks Tagged
Ref Manager
RIS
Zotero

Tweet Widget
Facebook Like
Google Plus One

Subject Area

Neuroscience

Subject Areas

All Articles

Animal Behavior and Cognition (2420)
Biochemistry (4779)
Bioengineering (3319)
Bioinformatics (14637)
Biophysics (6620)
Cancer Biology (5158)
Cell Biology (7405)
Clinical Trials (138)
Developmental Biology (4343)
Ecology (6864)
Epidemiology (2057)
Evolutionary Biology (9893)
Genetics (7331)
Genomics (9502)
Immunology (4540)
Microbiology (12644)
Molecular Biology (4928)
Neuroscience (28245)
Paleontology (199)
Pathology (803)
Pharmacology and Toxicology (1384)
Physiology (2014)
Plant Biology (4482)
Scientific Communication and Education (975)
Synthetic Biology (1295)
Systems Biology (3907)
Zoology (722)