Literature DB >> 23618661

Sensing temperature.

Piali Sengupta1, Paul Garrity.   

Abstract

Temperature is an omnipresent physical variable reflecting the rotational, vibrational and translational motion of matter, what Richard Feynman called the "jiggling" of atoms. Temperature varies across space and time, and this variation has dramatic effects on the physiology of living cells. It changes the rate and nature of chemical reactions, and it alters the configuration of the atoms that make up nucleic acids, proteins, lipids and other biomolecules, significantly affecting their activity. While life may have started in a "warm little pond", as Charles Darwin mused, the organisms that surround us today have only made it this far by devising sophisticated systems for sensing and responding to variations in temperature, and by using these systems in ways that allow them to persist and thrive in the face of thermal fluctuation.
Copyright © 2013 Elsevier Ltd. All rights reserved.

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Year:  2013        PMID: 23618661      PMCID: PMC3685181          DOI: 10.1016/j.cub.2013.03.009

Source DB:  PubMed          Journal:  Curr Biol        ISSN: 0960-9822            Impact factor:   10.834


  12 in total

1.  A thermodynamic framework for understanding temperature sensing by transient receptor potential (TRP) channels.

Authors:  David E Clapham; Christopher Miller
Journal:  Proc Natl Acad Sci U S A       Date:  2011-11-22       Impact factor: 11.205

Review 2.  Thermosensor systems in eubacteria.

Authors:  Wolfgang Schumann
Journal:  Adv Exp Med Biol       Date:  2012       Impact factor: 2.622

Review 3.  Bacterial RNA thermometers: molecular zippers and switches.

Authors:  Jens Kortmann; Franz Narberhaus
Journal:  Nat Rev Microbiol       Date:  2012-03-16       Impact factor: 60.633

Review 4.  International Union of Basic and Clinical Pharmacology. LXXVI. Current progress in the mammalian TRP ion channel family.

Authors:  Long-Jun Wu; Tara-Beth Sweet; David E Clapham
Journal:  Pharmacol Rev       Date:  2010-09       Impact factor: 25.468

Review 5.  Trp ion channels and temperature sensation.

Authors:  Ajay Dhaka; Veena Viswanath; Ardem Patapoutian
Journal:  Annu Rev Neurosci       Date:  2006       Impact factor: 12.449

6.  A concentration-dependent switch in the bacterial response to temperature.

Authors:  Hanna Salman; Albert Libchaber
Journal:  Nat Cell Biol       Date:  2007-08-12       Impact factor: 28.824

Review 7.  Microbial thermosensors.

Authors:  Birgit Klinkert; Franz Narberhaus
Journal:  Cell Mol Life Sci       Date:  2009-05-12       Impact factor: 9.261

8.  Modular thermal sensors in temperature-gated transient receptor potential (TRP) channels.

Authors:  Jing Yao; Beiying Liu; Feng Qin
Journal:  Proc Natl Acad Sci U S A       Date:  2011-06-20       Impact factor: 11.205

Review 9.  Biological infrared imaging and sensing.

Authors:  Angela L Campbell; Rajesh R Naik; Laura Sowards; Morley O Stone
Journal:  Micron       Date:  2002       Impact factor: 2.251

Review 10.  Thermal control of microbial development and virulence: molecular mechanisms of microbial temperature sensing.

Authors:  Rebecca S Shapiro; Leah E Cowen
Journal:  MBio       Date:  2012-10-02       Impact factor: 7.867
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  44 in total

Review 1.  Structure of thermally activated TRP channels.

Authors:  Matthew R Cohen; Vera Y Moiseenkova-Bell
Journal:  Curr Top Membr       Date:  2014       Impact factor: 3.049

Review 2.  Cellular sensing by phase separation: Using the process, not just the products.

Authors:  Haneul Yoo; Catherine Triandafillou; D Allan Drummond
Journal:  J Biol Chem       Date:  2019-03-15       Impact factor: 5.157

3.  Phototropin perceives temperature based on the lifetime of its photoactivated state.

Authors:  Yuta Fujii; Hiroyuki Tanaka; Naotake Konno; Yuka Ogasawara; Noriko Hamashima; Saori Tamura; Satoshi Hasegawa; Yoshio Hayasaki; Koji Okajima; Yutaka Kodama
Journal:  Proc Natl Acad Sci U S A       Date:  2017-08-07       Impact factor: 11.205

Review 4.  Dealing with environmental challenges: mechanisms of adaptation in Trypanosoma cruzi.

Authors:  Veronica Jimenez
Journal:  Res Microbiol       Date:  2014-02-06       Impact factor: 3.992

5.  Many parameter sets in a multicompartment model oscillator are robust to temperature perturbations.

Authors:  Jonathan S Caplan; Alex H Williams; Eve Marder
Journal:  J Neurosci       Date:  2014-04-02       Impact factor: 6.167

6.  Transcriptional profiling of epigenetic regulators in somatic embryos during temperature induced formation of an epigenetic memory in Norway spruce.

Authors:  Igor A Yakovlev; Elena Carneros; YeonKyeong Lee; Jorunn E Olsen; Carl Gunnar Fossdal
Journal:  Planta       Date:  2016-02-19       Impact factor: 4.116

7.  Stress-Triggered Phase Separation Is an Adaptive, Evolutionarily Tuned Response.

Authors:  Joshua A Riback; Christopher D Katanski; Jamie L Kear-Scott; Evgeny V Pilipenko; Alexandra E Rojek; Tobin R Sosnick; D Allan Drummond
Journal:  Cell       Date:  2017-03-09       Impact factor: 41.582

8.  Reversible, Specific, Active Aggregates of Endogenous Proteins Assemble upon Heat Stress.

Authors:  Edward W J Wallace; Jamie L Kear-Scott; Evgeny V Pilipenko; Michael H Schwartz; Pawel R Laskowski; Alexandra E Rojek; Christopher D Katanski; Joshua A Riback; Michael F Dion; Alexander M Franks; Edoardo M Airoldi; Tao Pan; Bogdan A Budnik; D Allan Drummond
Journal:  Cell       Date:  2015-09-10       Impact factor: 41.582

9.  Effects of acclimation time and epigenetic mechanisms on growth of Neurospora in fluctuating environments.

Authors:  Ilkka Kronholm; Tarmo Ketola
Journal:  Heredity (Edinb)       Date:  2018-08-24       Impact factor: 3.821

10.  FUM2, a Cytosolic Fumarase, Is Essential for Acclimation to Low Temperature in Arabidopsis thaliana.

Authors:  Beth C Dyson; Matthew A E Miller; Regina Feil; Nicholas Rattray; Caroline G Bowsher; Royston Goodacre; John E Lunn; Giles N Johnson
Journal:  Plant Physiol       Date:  2016-07-20       Impact factor: 8.340
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