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Nathaniel P Hoyle
Nathaniel P Hoyle
Senior Scientist
Verified email at mrc-lmb.cam.ac.uk
Title
Cited by
Cited by
Year
Stress-dependent relocalization of translationally primed mRNPs to cytoplasmic granules that are kinetically and spatially distinct from P-bodies
NP Hoyle, LM Castelli, SG Campbell, LEA Holmes, MP Ashe
The Journal of cell biology 179 (1), 65-74, 2007
2752007
Insulin/IGF-1 drives PERIOD synthesis to entrain circadian rhythms with feeding time
P Crosby, R Hamnett, M Putker, NP Hoyle, M Reed, CJ Karam, ...
Cell 177 (4), 896-909. e20, 2019
2652019
Daily magnesium fluxes regulate cellular timekeeping and energy balance
KA Feeney, LL Hansen, M Putker, C Olivares-Yañez, J Day, LJ Eades, ...
Nature 532 (7599), 375-379, 2016
2512016
Circadian actin dynamics drive rhythmic fibroblast mobilization during wound healing
NP Hoyle, E Seinkmane, M Putker, KA Feeney, TP Krogager, ...
Science translational medicine 9 (415), eaal2774, 2017
1762017
Glucose depletion inhibits translation initiation via eIF4A loss and subsequent 48S preinitiation complex accumulation, while the pentose phosphate pathway is coordinately up …
LM Castelli, J Lui, SG Campbell, W Rowe, LAH Zeef, LEA Holmes, ...
Molecular biology of the cell 22 (18), 3379-3393, 2011
1012011
Dynamic cycling of eIF2 through a large eIF2B-containing cytoplasmic body: implications for translation control
SG Campbell, NP Hoyle, MP Ashe
The Journal of cell biology 170 (6), 925-934, 2005
942005
Transcript processing and export kinetics are rate-limiting steps in expressing vertebrate segmentation clock genes
NP Hoyle, D Ish-Horowicz
Proceedings of the National Academy of Sciences 110 (46), E4316-E4324, 2013
742013
Granules harboring translationally active mRNAs provide a platform for P-body formation following stress
J Lui, LM Castelli, M Pizzinga, CE Simpson, NP Hoyle, KL Bailey, ...
Cell reports 9 (3), 944-954, 2014
702014
Mammalian circadian period, but not phase and amplitude, is robust against redox and metabolic perturbations
M Putker, P Crosby, KA Feeney, NP Hoyle, ASH Costa, E Gaude, ...
Antioxidants & Redox Signaling 28 (7), 507-520, 2018
662018
Oxidation–reduction cycles of peroxiredoxin proteins and nontranscriptional aspects of timekeeping
NP Hoyle, JS O’Neill
Biochemistry 54 (2), 184-193, 2015
662015
Circadian clocks, brain function, and development
E Frank, MM Sidor, KL Gamble, C Cirelli, KM Sharkey, N Hoyle, L Tikotzky, ...
Annals of the New York Academy of Sciences 1306 (1), 43-67, 2013
502013
CRYPTOCHROMES confer robustness, not rhythmicity, to circadian timekeeping
M Putker, DCS Wong, E Seinkmane, NM Rzechorzek, A Zeng, NP Hoyle, ...
The EMBO Journal 40 (7), e106745, 2021
312021
PKA isoforms coordinate mRNA fate during nutrient starvation
V Tudisca, C Simpson, L Castelli, J Lui, N Hoyle, S Moreno, M Ashe, ...
Journal of cell science 125 (21), 5221-5232, 2012
292012
Eukaryotic cell biology is temporally coordinated to support the energetic demands of protein homeostasis
JS O’Neill, NP Hoyle, JB Robertson, RS Edgar, AD Beale, SY Peak-Chew, ...
Nature Communications 11 (1), 4706, 2020
242020
Flexible measurement of bioluminescent reporters using an automated longitudinal luciferase imaging gas-and temperature-optimized recorder (ALLIGATOR)
P Crosby, NP Hoyle, JS O'Neill
JoVE (Journal of Visualized Experiments), e56623, 2017
192017
Subcellular localization of mRNA and factors involved in translation initiation
NP Hoyle, MP Ashe
Biochemical Society Transactions 36 (4), 648-652, 2008
172008
Circadian rhythms: hijacking the cyanobacterial clock
NP Hoyle, JS O’Neill
Current biology 23 (23), R1050-R1052, 2013
12013
Eukaryotic cell biology is temporally coordinated to support the energetic demands of protein homeostasis (Sep, 10.1038/s41467-020-18330-x, 2020)
JS O'Neill, NP Hoyle, JB Robertson, RS Edgar, AD Beale, SY Peak-Chew, ...
NATURE COMMUNICATIONS 12 (1), 2021
2021
Author Correction: Eukaryotic cell biology is temporally coordinated to support the energetic demands of protein homeostasis
JS O’Neill, NP Hoyle, JB Robertson, RS Edgar, AD Beale, SY Peak-Chew, ...
Nature Communications 12, 2021
2021
A Highlights from MBoC Selection: Glucose depletion inhibits translation initiation via eIF4A loss and subsequent 48S preinitiation complex accumulation, while the pentose …
LM Castelli, J Lui, SG Campbell, W Rowe, LAH Zeef, LEA Holmes, ...
Molecular Biology of the Cell 22 (18), 3379, 2011
2011
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