Agriculture Reference
In-Depth Information
References
Acharya BR, Assmann SM. Hormone interactions in stomatal function. Plant Mol Biol.
2009;69:451-62.
Ahmad P, Jaleel CA, Salem MA, Nabi G, Sharma S. Roles of enzymatic and nonenzymatic anti-
oxidants in plants during abiotic stress. Crit Rev Biotechnol. 2010;30:161-75.
Allan AC, Fluhr R. Two distinct sources of elicited reactive oxygen species in tobacco epidermal
cells. Plant Cell. 1997;9:1559-72.
An Z, Jing W, Liu Y, Zhang W. Hydrogen peroxide generated by copper amine oxi-
dase is involved in abscisic acid-induced stomatal closure in
Vicia faba
. J Exp Bot.
2008;59:815-25.
Apel K, Hirt H. Reactive oxygen species: metabolism, oxidative stress, and signal transduction.
Annu Rev Plant Biol. 2004;55:373-99.
Asada K. Production and scavenging of reactive oxygen species in chloroplasts and their func-
tions. Plant Physiol. 2006;141:391-6.
Aslund F, Zheng M, Beckwith J, Storz G. Regulation of the OxyR transcription factor by
hydrogen peroxide and the cellular thiol-disulfide status. Proc Natl Acad Sci USA.
1999;96:6161-5.
Athar HUR, Khan A, Ashraf M. Exogenously applied ascorbic acid alleviates salt-induced oxida-
tive stress in wheat. Environ Exp Bot. 2008;63:224-31.
Badawi GH, Kawano N, Yamauchi Y, Shimada E, Sasaki R, Kubo A, Tanaka K. Over-expression
of ascorbate peroxidase in tobacco chloroplasts enhances the tolerance to salt stress and
water deficit. Physiol Plant. 2004;121:231-8.
Bahin E, Bailly C, Sotta B, Kranner I, Corbineau F, Leymarie J. Crosstalk between reactive oxy-
gen species and hormonal signalling pathways regulates grain dormancy in barley. Plant,
Cell Environ. 2011;34:980-93.
Bai L, Zhou Y, Zhang XR, Song CP, Cao MQ. Hydrogen peroxide modulates abscisic acid sign-
aling in root growth and development in
Arabidopsis
. Chin Sci Bull. 2007;52:1142-5.
Bai L, Zhang G, Zhou Y, Zhang Z, Wang W, Du Y, Wu Z, Song CP. Plasma membrane associ-
ated proline rich extension like receptor kinase 4, a novel regulator of Ca
2
+
signalling, is
required for abscisic acid responses in
Arabidopsis thaliana
. Plant J. 2009;60:314-27.
Bailly C, El Maarouf Bouteau H, Corbineau F. Seed dormancy alleviation and oxidative signal-
ing. J Soc Biol. 2008;202:241-8.
Barba-Espin G, Nicolas E, Almansa MS, Cantero-Navarro E, Albacete A, Hernández JA, Díaz-
Vivancos P. Role of thioproline on seed germination: interaction ROS-ABA and effects on
antioxidative metabolism. Plant Physiol Biochem. 2012;59:30-6.
Baron KN, Schroeder DF, Stasolla C. Transcriptional response of abscisic acid (ABA) metabo-
lism and transport to cold and heat stress applied at the reproductive stage of development in
Arabidopsis thaliana
. Plant Sci. 2012;188-189:48-59.
Bartoli CG, Gómez F, Martinez DE, Guiamet JJ. Mitochondria are the main target for oxidative
damage in leaves of wheat (
Triticum aestivum L.
). J Exp Bot. 2004;55:1663-9.
Bechtold U, Richard O, Zamboni A, Gapper C, Geisler M, Pogson B, Karpinski S, Mullineaux
PM. Impact of chloroplastic- and extracellular-sourced ROS on high light-responsive gene
expression in
Arabidopsis
. J Exp Bot. 2008;59:121-33.
Bethke PC, Libourel IG, Aoyama N, Chung YY, Still DW, Jones RL. The
Arabidopsis
aleurone
layer responds to nitric oxide, gibberellin, and abscisic acid and is sufficient and necessary
for seed dormancy. Plant Physiol. 2007;143:1173-88.
Bethke PC, Libourel IG, Reinhl V, Jones RL. Sodium nitroprusside, cyanide, nitrite, and
nitrate break
Arabidopsis
seed dormancy in a nitric oxide-dependent manner. Planta.
2006;223:805-12.
Bhattacharjee S. Sites of generation and physicochemical basis of formation of reactive oxygen
species in plant cell. In: Reactive oxygen species and antioxidants in higher plants. Science
Publishers; 2010. p. 1-30.
Search WWH ::
Custom Search