Literature DB >> 11896043

Invited review: Effects of heat and cold stress on mammalian gene expression.

Larry A Sonna1, Jun Fujita, Stephen L Gaffin, Craig M Lilly.   

Abstract

This review examines the effects of thermal stress on gene expression, with special emphasis on changes in the expression of genes other than heat shock proteins (HSPs). There are approximately 50 genes not traditionally considered to be HSPs that have been shown, by conventional techniques, to change expression as a result of heat stress, and there are <20 genes (including HSPs) that have been shown to be affected by cold. These numbers will likely become much larger as gene chip array and proteomic technologies are applied to the study of the cell stress response. Several mechanisms have been identified by which gene expression may be altered by heat and cold stress. The similarities and differences between the cellular responses to heat and cold may yield key insights into how cells, and by extension tissues and organisms, survive and adapt to stress.

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Year:  2002        PMID: 11896043     DOI: 10.1152/japplphysiol.01143.2001

Source DB:  PubMed          Journal:  J Appl Physiol (1985)        ISSN: 0161-7567


  150 in total

1.  Cellular thermotolerance is associated with heat shock protein 70.1 genetic polymorphisms in Holstein lactating cows.

Authors:  Loredana Basiricò; Patrizia Morera; Valentina Primi; Nicola Lacetera; Alessandro Nardone; Umberto Bernabucci
Journal:  Cell Stress Chaperones       Date:  2011-01-28       Impact factor: 3.667

2.  ROCK inhibitor Y-27632 increases thaw-survival rates and preserves stemness and differentiation potential of human Wharton's jelly stem cells after cryopreservation.

Authors:  Kalamegam Gauthaman; Chui-Yee Fong; Arjunan Subramanian; Arijit Biswas; Ariff Bongso
Journal:  Stem Cell Rev Rep       Date:  2010-12       Impact factor: 5.739

3.  Hypothermia postpones DNA damage repair in irradiated cells and protects against cell killing.

Authors:  Brandon J Baird; Jennifer S Dickey; Asako J Nakamura; Christophe E Redon; Palak Parekh; Yuri V Griko; Khaled Aziz; Alexandros G Georgakilas; William M Bonner; Olga A Martin
Journal:  Mutat Res       Date:  2010-12-24       Impact factor: 2.433

4.  Heat shock proteins in porcine ovary: synthesis, accumulation and regulation by stress and hormones.

Authors:  Alexander V Sirotkin; Miroslav Bauer
Journal:  Cell Stress Chaperones       Date:  2010-12-28       Impact factor: 3.667

Review 5.  Diphosphoinositol polyphosphates: what are the mechanisms?

Authors:  Stephen B Shears; Nikhil A Gokhale; Huanchen Wang; Angelika Zaremba
Journal:  Adv Enzyme Regul       Date:  2010-10-28

6.  Characterization of goldfish heat shock protein-30 induced upon severe heat shock in cultured cells.

Authors:  Hidehiro Kondo; Ryohei Harano; Misako Nakaya; Shugo Watabe
Journal:  Cell Stress Chaperones       Date:  2004       Impact factor: 3.667

7.  Temperature differentially affects adenosine triphosphatase activity in Hsc70 orthologs from Antarctic and New Zealand notothenioid fishes.

Authors:  Sean P Place; Gretchen E Hofmann
Journal:  Cell Stress Chaperones       Date:  2005       Impact factor: 3.667

8.  Fluorescence imaging of heat-stress induced mitochondrial long-term depolarization in breast cancer cells.

Authors:  Cathrin Dressler; Juergen Beuthan; Gerhard Mueller; Urszula Zabarylo; Olaf Minet
Journal:  J Fluoresc       Date:  2006-08-09       Impact factor: 2.217

9.  Genome-wide expression analysis of the heat stress response in dermal fibroblasts of Tharparkar (zebu) and Karan-Fries (zebu × taurine) cattle.

Authors:  A K Singh; R C Upadhyay; Gulab Chandra; Sudarshan Kumar; D Malakar; S V Singh; M K Singh
Journal:  Cell Stress Chaperones       Date:  2020-02-15       Impact factor: 3.667

10.  Chaperonin contributes to cold hardiness of the onion maggot Delia antiqua through repression of depolymerization of actin at low temperatures.

Authors:  Takumi Kayukawa; Yukio Ishikawa
Journal:  PLoS One       Date:  2009-12-14       Impact factor: 3.240
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