Literature DB >> 12711230

Acquired tolerance to temperature extremes.

Dong-Yul Sung1, Fatma Kaplan, Kil-Jae Lee, Charles L Guy.   

Abstract

Acquired tolerance to temperature stresses is a major protective mechanism. Recent advances have revealed key components of stress signal transduction pathways that trigger enhanced tolerance, and several determinants of acquired tolerance have been identified. Although high and low temperature stresses impose different metabolic and physical challenges, acquired tolerance appears to involve general as well as stress-specific components. Transcriptome studies and other genomic-scale approaches have accelerated the pace of gene discovery, and will be invaluable in efforts to integrate all the different protective and repair mechanisms that function in concert to confer acquired tolerance.

Mesh:

Year:  2003        PMID: 12711230     DOI: 10.1016/S1360-1385(03)00047-5

Source DB:  PubMed          Journal:  Trends Plant Sci        ISSN: 1360-1385            Impact factor:   18.313


  106 in total

1.  Molecular basis of plant cold acclimation: insights gained from studying the CBF cold response pathway.

Authors:  Michael F Thomashow
Journal:  Plant Physiol       Date:  2010-10       Impact factor: 8.340

2.  Changes in gene expression during dehardening of cold-hardened winter rye (Secale cereale L.) leaves and potential role of a peptide methionine sulfoxide reductase in cold-acclimation.

Authors:  Oliver In; Thomas Berberich; Skander Romdhane; Jürgen Feierabend
Journal:  Planta       Date:  2004-11-10       Impact factor: 4.116

3.  Pea seed mitochondria are endowed with a remarkable tolerance to extreme physiological temperatures.

Authors:  Irina Stupnikova; Abdelilah Benamar; Dimitri Tolleter; Johann Grelet; Genadii Borovskii; Albert-Jean Dorne; David Macherel
Journal:  Plant Physiol       Date:  2005-12-23       Impact factor: 8.340

4.  Osmogenetics: Aristotle to Arabidopsis.

Authors:  Albino Maggio; Jian-Kang Zhu; Paul M Hasegawa; Ray A Bressan
Journal:  Plant Cell       Date:  2006-07       Impact factor: 11.277

5.  Cold-active winter rye glucanases with ice-binding capacity.

Authors:  Mahmoud W F Yaish; Andrew C Doxey; Brendan J McConkey; Barbara A Moffatt; Marilyn Griffith
Journal:  Plant Physiol       Date:  2006-06-30       Impact factor: 8.340

6.  QTL analysis of seed germination and pre-emergence growth at extreme temperatures in Medicago truncatula.

Authors:  Paula Menna Barreto Dias; Sophie Brunel-Muguet; Carolyne Dürr; Thierry Huguet; Didier Demilly; Marie-Helene Wagner; Béatrice Teulat-Merah
Journal:  Theor Appl Genet       Date:  2010-09-29       Impact factor: 5.699

7.  Induction of BAP1 by a moderate decrease in temperature is mediated by ICE1 in Arabidopsis.

Authors:  Ying Zhu; Huijun Yang; Hyung-Gon Mang; Jian Hua
Journal:  Plant Physiol       Date:  2010-11-22       Impact factor: 8.340

8.  Genome-Wide Analysis of Heat-Sensitive Alternative Splicing in Physcomitrella patens.

Authors:  Chiung-Yun Chang; Wen-Dar Lin; Shih-Long Tu
Journal:  Plant Physiol       Date:  2014-04-28       Impact factor: 8.340

9.  Plutella xylostella (L.) infestations at varying temperatures induce the emission of specific volatile blends by Arabidopsis thaliana (L.) Heynh.

Authors:  Dieu-Hien Truong; Benjamin M Delory; Yves Brostaux; Stéphanie Heuskin; Pierre Delaplace; Frédéric Francis; Georges Lognay
Journal:  Plant Signal Behav       Date:  2014

10.  Salt cress. A halophyte and cryophyte Arabidopsis relative model system and its applicability to molecular genetic analyses of growth and development of extremophiles.

Authors:  Günsu Inan; Quan Zhang; Pinghua Li; Zenglan Wang; Ziyi Cao; Hui Zhang; Changqing Zhang; Tanya M Quist; S Mark Goodwin; Jianhua Zhu; Huazhong Shi; Barbara Damsz; Tarif Charbaji; Qingqiu Gong; Shisong Ma; Mark Fredricksen; David W Galbraith; Matthew A Jenks; David Rhodes; Paul M Hasegawa; Hans J Bohnert; Robert J Joly; Ray A Bressan; Jian-Kang Zhu
Journal:  Plant Physiol       Date:  2004-07-09       Impact factor: 8.340
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