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Brosche M, Vinocur B, Alatalo ER, et al . (2005) Gene expression
and metabolite profiling of Populus euphratica growing in the
Negev desert. Genome Biol 6: R101.
Caba JM, Centeno ML, Fernandez B, Gresshoff PM, Ligero F
(2000) Inoculation and nitrate alter phytohormone levels in
soybean roots: differences between a super nodulating
mutant and the wild type. Planta 211: 98-104.
Cabot C, Sibole JV, Barcelo J, Poschenrieder C (2009) Abscisic
acid decreases leaf Na + exclusion in salt treated Phaseolus vul-
garis L. J Plant Growth Regul 28: 187-192.
Carroll BJ, McNeil DL, Gresshoff PM (1985a) Isolation and
properties of soybean [ Glycine max (L.) Merr.] mutants that
nodulate in the presence of high nitrate concentrations. Proc
Natl Acad Sci USA 82: 4162-4166.
Carroll BJ, McNeil DL, Gresshoff PM (1985b) A supernodula-
tion and nitrate-tolerant symbiotic (nts) soybean mutant.
Plant Physiol 78: 34-40.
Chalk PM, Alves BJR (2010) Integrated effects of abiotic stresses
on inoculants performance, legume growth and symbiotic
dependence estimated by N dilution. Plant Soil 328: 1-16.
Cheng WH, Endo A, Zhou L, et al . (2002) A unique short-chain
dehydrogenase/reductase in Arabidopsis glucose signaling and
abscisic acid biosynthesis and functions. Plant Cell 14:
2723-2743
Cho MJ, Harper JE (1993) Effect of abscisic acid application on root
isoflavonoid concentration and nodulation of wild type and
nodulation-mutant soybean plants. Plant Soil 152: 145-149
Choi H, Hong J, Ha J, Kang J, Kim SY (2000) ABFs, a family of
ABAresponsive element binding factors. J Biol Chem 275:
1723-1730.
Cramer GR, Quarrie SA (2002) Abscisic acid is correlated with
the leaf growth inhibition of four genotypes of maize differ-
ing in their response to salinity. Funct Plant Biol 29: 111-115.
Cruz De Carvalho MH (2008) Drought stress and reactive
oxygen species: production, scavenging and signaling. Plant
Signaling Behav 3: 156-165.
Cuming AC, Cho SH, Kamisugi Y, Craham H, Quatrano RS
(2007) Microarray analysis of transcriptional responses to
abscisic acid, osmotic, salt, and drought stress in the moss,
Physcomitrella patens . New Phytol 176: 275-287.
Cutler AJ, Krochko JE (1999) Formation and breakdown of
ABA. Trends Plant Sci 4: 472-478.
Cutler S, Rodriguez P, Finkelstein R, Abrams S (2010) Abscisic
acid: emergence of a core signaling network. Annu Rev Plant
Biol 61: 651-679.
Davies WJ, Zhang JH (1991) Root signals and the regulation of
growth and development of plants in drying soil. Annu Rev
Plant Physiol Plant Mol Biol 42: 55-76.
Dembinska O, Lalonde S, Saini H S (1992) Evidence against the
regulation of grain set by spikelet abscisic acid levels in water-
stressed wheat. Plant Physiol 100: 1599-1602.
De Smet I (2003) An abscisic acid-sensitive checkpoint in lateral
root development of Arabidopsis . Plant J 33: 543-555.
Devinar G, Llanes A, Masciarelli O, Luna V (2013) Different
relative humidity conditions combined with chloride and sul-
fate salinity treatments modify abscisic acid and salicylic acid
levels in the halophyte Prosopis strombulifera. Plant Growth
Regul 70: 247-256.
Ding X, Richter T, Chen M, et al . (2009) A rice kinase-protein
interaction map. Plant Physiol 149: 1478-1492.
Ding Y, Kalo P, Yendrek C, et al . (2008) Abscisic acid coordi-
nates Nod factor and cytokinin signaling during the regula-
tion of nodulation in Medicago truncatula . Plant Cell 20:
2681-2695.
Dische Z (1962) General color reactions. Method Carbohydrate
Chem 1: 478-492.
Dudal R (1976) Inventory of Major Soils of the World with Special
Reference to Mineral Stress . Cornell University Agricultural
Experiment Station, Ithaca, NY, pp. 89-96.
Finkelstein RR, Rock CD (2002) Abscisic acid biosynthesis and sig-
naling. In: Somerville CR, Meyerowitz, EM (eds), The Arabidopsis
Book . American Society of Plant Biologists, Rockville, MD,
pp. 1-52.
Finkelstein RR, Gampala SS, Rock CD (2002) Abscisic acid sig-
nalling in seeds and seedlings. Plant Cell 14: 15-45.
Foyer CH, Noctor G (2000) Oxygen processing in photosyn-
thesis: regulation and signalling. New Phytol 146: 359-388.
Furlan A, Llanes A, Luna V, Castro S (2012) Physiological and
biochemical responses to drought stress and subsequent
rehydration in the symbiotic association Peanut Bradyrhizobium
sp. ISRN Agronomy ID 318083: 1-8.
Gallardo M, Turner NC, Ludwig C (1994) Water relations, gas
exchange and abscisic acid content of Lupinus cosentinii leaves
in response to drying different proportions of the root system.
J Exp Bot 45: 909-918.
Gampala SS, Finkelstein RR, Sun SS, Rock CD (2001) ABA
INSENSITIVE-5 interacts with ABA signaling effectors in rice
protoplasts. J Biol Chem 9: 1-9.
Gawronska H, Deji A, Sakakibara H, Sugiyama T (2003)
Hormone-mediated nitrogen signaling in plants: implication
of participation of abscissic acid in negative regulation of
cytokinin-inducible expression of maize response regulator.
Plant Physiol Biochem 41: 605-610.
Ge Y, Li Y, Zhu YM, et al . (2010) Global transcriptome profiling
of wild soybean (Glycine soja) roots under NaHCO 3 treatment.
BMC Plant Biol 10: 153.
González EM, Gálvez L, Arrese-Igor C (2001) Abscisic acid
induces a decline in nitrogen fixation that involves leghemo-
globin, but is independent of sucrose synthase activity. J Exp
Bot 52: 285-293.
Gonzalez-Guzman M, Apostolova N, Belles JM, Barrero JM,
Piqueras P (2002) The short-chain alcohol dehydrogenase
ABA2 catalyzes the conversion of xanthoxin to abscisic alde-
hyde. Plant Cell 14: 1833-1846.
Graham PH, Vance CP (2003) Legumes: importance and con-
straints to greater use. Plant Physiol 131: 872-877.
Grappin P, Bouinot D, Sotta B, Miginiac E, Jullien M (2000)
Control of seed dormancy in Nicotiana plumbaginifolia: Post-
imbibition abscisic acid synthesis imposes dormancy mainte-
nance. Planta 210: 279-285.
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