Quantification of circadian interactions and protein abundance defines a mechanism for operational stability of the circadian clock

James S. Bagnall; Alex A. Koch; Nicola J. Smyllie; Nicola Begley; Antony Adamson; Jennifer L. Fribourgh; David G. Spiller; Qing-Jun Meng; Carrie L. Partch; Korbinian Strimmer; Thomas A. House; Michael H. Hastings; Andrew S. I. Loudon

doi:10.1101/2021.08.27.456017

New Results

Quantification of circadian interactions and protein abundance defines a mechanism for operational stability of the circadian clock

James S. Bagnall, View ORCID ProfileAlex A. Koch, View ORCID ProfileNicola J. Smyllie, Nicola Begley, View ORCID ProfileAntony Adamson, Jennifer L. Fribourgh, David G. Spiller, Qing-Jun Meng, View ORCID ProfileCarrie L. Partch, Korbinian Strimmer, View ORCID ProfileThomas A. House, Michael H. Hastings, View ORCID ProfileAndrew S. I. Loudon

doi: https://doi.org/10.1101/2021.08.27.456017

James S. Bagnall

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

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

Alex A. Koch

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Alex A. Koch

Nicola J. Smyllie

2MRC Laboratory of Molecular Biology, Cambridge, U.K

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Nicola J. Smyllie

Nicola Begley

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

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

Antony Adamson

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Antony Adamson

Jennifer L. Fribourgh

4Department of Chemistry & Biochemistry, University of California Santa Cruz, U.S.A

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

David G. Spiller

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

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

Qing-Jun Meng

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

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

Carrie L. Partch

4Department of Chemistry & Biochemistry, University of California Santa Cruz, U.S.A

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Carrie L. Partch

Korbinian Strimmer

3Department of Mathematics, University of Manchester, U.K

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

Thomas A. House

3Department of Mathematics, University of Manchester, U.K

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Thomas A. House

Michael H. Hastings

2MRC Laboratory of Molecular Biology, Cambridge, U.K

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

Andrew S. I. Loudon

1Faculty of Biology, Medicine and Health, University of Manchester, U.K

Find this author on Google Scholar
Find this author on PubMed
Search for this author on this site
ORCID record for Andrew S. I. Loudon
For correspondence: andrew.loudon@manchester.ac.uk

Abstract
Full Text
Info/History
Metrics
Supplementary material
Preview PDF

Article usage

Article usage: August 2021 to March 2023

	Abstract	Full	Pdf
Aug 2021	508	9	78
Sep 2021	828	81	173
Oct 2021	127	26	74
Nov 2021	61	11	32
Dec 2021	45	3	22
Jan 2022	101	11	44
Feb 2022	167	8	47
Mar 2022	72	9	29
Apr 2022	80	17	18
May 2022	57	10	19
Jun 2022	18	9	14
Jul 2022	19	11	14
Aug 2022	23	7	8
Sep 2022	25	5	13
Oct 2022	30	7	9
Nov 2022	30	25	9
Dec 2022	15	12	5
Jan 2023	12	7	8
Feb 2023	18	12	7
Mar 2023	14	10	20

View the discussion thread.

PreviousNext

Posted August 28, 2021.

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 Quantification of circadian interactions and protein abundance defines a mechanism for operational stability of the circadian clock

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.

Quantification of circadian interactions and protein abundance defines a mechanism for operational stability of the circadian clock

James S. Bagnall, Alex A. Koch, Nicola J. Smyllie, Nicola Begley, Antony Adamson, Jennifer L. Fribourgh, David G. Spiller, Qing-Jun Meng, Carrie L. Partch, Korbinian Strimmer, Thomas A. House, Michael H. Hastings, Andrew S. I. Loudon

bioRxiv 2021.08.27.456017; doi: https://doi.org/10.1101/2021.08.27.456017

Share This Article: