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Items: 13

1.

Insulin/IGF-1 Drives PERIOD Synthesis to Entrain Circadian Rhythms with Feeding Time.

Crosby P, Hamnett R, Putker M, Hoyle NP, Reed M, Karam CJ, Maywood ES, Stangherlin A, Chesham JE, Hayter EA, Rosenbrier-Ribeiro L, Newham P, Clevers H, Bechtold DA, O'Neill JS.

Cell. 2019 May 2;177(4):896-909.e20. doi: 10.1016/j.cell.2019.02.017. Epub 2019 Apr 25.

3.

Circadian actin dynamics drive rhythmic fibroblast mobilization during wound healing.

Hoyle NP, Seinkmane E, Putker M, Feeney KA, Krogager TP, Chesham JE, Bray LK, Thomas JM, Dunn K, Blaikley J, O'Neill JS.

Sci Transl Med. 2017 Nov 8;9(415). pii: eaal2774. doi: 10.1126/scitranslmed.aal2774.

4.

Mammalian Circadian Period, But Not Phase and Amplitude, Is Robust Against Redox and Metabolic Perturbations.

Putker M, Crosby P, Feeney KA, Hoyle NP, Costa ASH, Gaude E, Frezza C, O'Neill JS.

Antioxid Redox Signal. 2018 Mar 1;28(7):507-520. doi: 10.1089/ars.2016.6911. Epub 2017 Jun 26.

5.

Daily magnesium fluxes regulate cellular timekeeping and energy balance.

Feeney KA, Hansen LL, Putker M, Olivares-YaƱez C, Day J, Eades LJ, Larrondo LF, Hoyle NP, O'Neill JS, van Ooijen G.

Nature. 2016 Apr 21;532(7599):375-9. doi: 10.1038/nature17407. Epub 2016 Apr 13.

6.

Oxidation-reduction cycles of peroxiredoxin proteins and nontranscriptional aspects of timekeeping.

Hoyle NP, O'Neill JS.

Biochemistry. 2015 Jan 20;54(2):184-93. doi: 10.1021/bi5008386. Epub 2014 Dec 30. Review.

7.

Granules harboring translationally active mRNAs provide a platform for P-body formation following stress.

Lui J, Castelli LM, Pizzinga M, Simpson CE, Hoyle NP, Bailey KL, Campbell SG, Ashe MP.

Cell Rep. 2014 Nov 6;9(3):944-54. doi: 10.1016/j.celrep.2014.09.040. Epub 2014 Oct 23.

8.

Circadian rhythms: hijacking the cyanobacterial clock.

Hoyle NP, O'Neill JS.

Curr Biol. 2013 Dec 2;23(23):R1050-2. doi: 10.1016/j.cub.2013.09.046.

9.

Transcript processing and export kinetics are rate-limiting steps in expressing vertebrate segmentation clock genes.

Hoyle NP, Ish-Horowicz D.

Proc Natl Acad Sci U S A. 2013 Nov 12;110(46):E4316-24. doi: 10.1073/pnas.1308811110. Epub 2013 Oct 22.

10.

Glucose depletion inhibits translation initiation via eIF4A loss and subsequent 48S preinitiation complex accumulation, while the pentose phosphate pathway is coordinately up-regulated.

Castelli LM, Lui J, Campbell SG, Rowe W, Zeef LA, Holmes LE, Hoyle NP, Bone J, Selley JN, Sims PF, Ashe MP.

Mol Biol Cell. 2011 Sep;22(18):3379-93. doi: 10.1091/mbc.E11-02-0153. Epub 2011 Jul 27.

11.

Subcellular localization of mRNA and factors involved in translation initiation.

Hoyle NP, Ashe MP.

Biochem Soc Trans. 2008 Aug;36(Pt 4):648-52. doi: 10.1042/BST0360648. Review.

PMID:
18631134
12.

Stress-dependent relocalization of translationally primed mRNPs to cytoplasmic granules that are kinetically and spatially distinct from P-bodies.

Hoyle NP, Castelli LM, Campbell SG, Holmes LE, Ashe MP.

J Cell Biol. 2007 Oct 8;179(1):65-74. Epub 2007 Oct 1.

13.

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