Chemistry Reference
In-Depth Information
[10]
Aguilar PS, Hernandez-Arriaga AM. Molecular basis of thermosensing: a two-
component signal transduction thermometer in
Bacillus subtilis
.
The EMBO Journal,
2001,
20(7):1681-91.
[11]
Urao T, Yamaguchi-Shinozaki K, Shinozaki K. Two-component systems in plant signal
transduction.
Trends in Plant Science,
2000, 5(2):67-74.
[12]
Maeda T, Wurgler-Murphy SM, Saito H. A two-component system that regulates an
osmosensing MAP kinase cascade in yeast.
Nature.,
1994, 369(6477):242-5.
[13]
Urao T, Yakubov B, Satoh R, Yamaguchi-Shinozaki K. A transmembrane hybrid-type
histidine kinase in Arabidopsis functions as an osmosensor.
The Plant Cell,
1999,
11(9):1743-54.
[14]
Zhu J-K. Plant salt tolerance.
Trends in Plant Science,
2001, 6(2):66-71
[15]
Xiong L, Zhu J-K. Molecular and genetic aspects of plant responses to osmotic stress.
Plant, Cell & Environment,
2002, 25(2):131-9.
[16]
Ullah H, Chen J-G, Young JC, Im K-H. Modulation of cell proliferation by
heterotrimeric G protein in Arabidopsis.
Science,
2001, 292 (5524): 2066-69.
[17]
Wang X-Q, Ullah H, Jones AM, Assmann SM. G protein regulation of ion channels and
abscisic acid signaling in Arabidopsis guard cells.
Science,
2001, 292 (5524): 2070-72.
[18]
Ma Y, Szostkiewicz I, Korte A. Regulators of PP2C phosphatase activity function as
abscisic acid sensors.
Science,
2009, 324 (5930): 1064-68.
[19]
Park S-Y, Fung P, Nishimura N. Abscisic acid inhibits type 2C protein phosphatases via
the PYR/PYL family of START proteins.
Science,
2009, 324 (5930): 1068-71.
[20]
Foyer CH and Noctor G. Ascorbate and glutathione: the heart of the redox hub.
Plant
Physiology,
2011, 155(1):2-18.
[21]
Huchzermeyer B, Koyro HW. Salt and drought stress effects on photosynthesis.
Handbook of Photosynthesis (2nd edition)., 2005, 12(2):145-51.
[22]
Kant S, Kant P, Raveh E, Barak S. Evidence that differential gene expression between
the halophyte,
Thellungiella halophila
, and
Arabidopsis thaliana
is responsible for higher
levels of the compatible osmolyte proline and tight control of Na
+
uptake in
T. Halophila.
Plant, Cell & Environment,
2006, 29(7):1220-34.
[23]
Türkan I, Demiral T. Recent developments in understanding salinity tolerance.
Environmental and Experimental Botany
,
2009, 67(1):2-9.
[24]
Geissler B, Tungekar R, Satchell KJF. Identification of a conserved membrane
localization domain within numerous large bacterial protein toxins.
Proc Natl Acad Sci
U S A.
,
2010, 107(12):5581-6.
[25]
Vranova E, Atichartpongkul S. Comprehensive analysis of gene expression in
Nicotiana tabacum
leaves acclimated to oxidative stress. Proc Natl Acad Sci U S A.
,
2002,
96(16):10870-5.
[26]
Foyer CH, Noctor G. Redox sensing and signalling associated with reactive oxygen in
chloroplasts, peroxisomes and mitochondria.
Physiologia Plantarum,
2003, 119(3):355-364.
[27]
Moller IM. Plant mitochondria and oxidative stress: electron transport, NADPH
turnover, and metabolism of reactive oxygen species.
Annual Review of Plant Physiology
and Plant Molecular Biology,
2001, 52(1):561-91.
