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Ellouzi H, Ben Hamed K, Fabado MAA, Muller M, Abdelly C,
Bosch SM (2013) Drought and cadmium may be as effective
as salinity in conferring subsequent salt stress tolerance in
Cakile maritime
.
Planta
237: 1311-1323.
Ellouzia H, Ben Hamed K, Celab J, Bosch SM, Abdelly C (2011)
Early effects of salt stress on the physiological and oxidative
status of
Cakile maritima
(halophyte) and
Arabidopsis thaliana
(glycophyte).
Physiol Plant
142: 128-143.
Fesenko AN, Provorov NA, Orlova IF, Simarov BV (1994) The
role of the pea (
Pisum sativum
L.) cultivar genotype and the
Rhizobium leguminosarum
strain in the effectiveness of symbi-
osis.
Russ J Genet
30: 725-729.
Galardini M, Mengoni A, Brilli M,
et al
. (2011) Exploring the
symbiotic pangenome of the nitrogen-fixing bacterium
Sinorhizobium meliloti
.
BMC Genomics
12: 235.
Graham PH, Vance CP (2003) Legumes: Importance and con-
straints to greater use.
Plant Physiol
131: 872-877.
Hernandez-Jimenez MJ, Lucas MM, de Felipe MR (2002)
Antioxidant defence and damage in senescing lupin nodules.
Plant Physiol Biochem
40: 645-657.
Herouart D, Baudouin E, Frendo P,
et al
. (2002) Reactive oxygen
species, nitric oxide and glutathione: a key role in the estab-
lishment of the legume:Rhizobium symbiosis.
Plant Physiol
Biochem
40: 619-624.
Jamet A, Mandon K, Puppo A, Hérouart D (2007) H
2
O
2
is
required for optimal establishment of the
Medicago sativa
/
Sinorhizobium meliloti
symbiosis.
J Bacteriol
189: 8741-8745.
Jebara M, Drevon JJ, Aouani ME (2001) Effects of hydroponic
culture system and NaCl on interactions between common
bean lines and native rhizobia from Tunisian soils.
Agronomie
21: 601-605.
Jebara S, Jebara M, Limam F, Aouani ME (2005) Changes in
ascorbate peroxidase, catalase, guaicol peroxidase and superoxide
dismutase activities in common bean (
Phaseolus vulgaris
) nod-
ules under salt stress.
J Plant Physiol
162: 929-936.
Kratsch HA, Graves WR (2005) Oxygen concentration affects
nodule anatomy and nitrogenase activity of
Alnus maritime
.
Plant Cell Environ
28: 688-696.
Lee DH, Kim YS, Lee CB (2001) The inductive responses of the
antioxidant enzymes by salt stress in the rice (
Oryza sativa
L.).
J Plant Physiol
158: 737-745.
Li J, Dai X, Liu T, Zhao PX (2011) LegumeIP: an integrative
database for comparative genomics and transcriptomics of
model legumes.
Nucleic Acids Res
40: D1221-D1229.
Lopez M, Herrera-Cervera JA, Iribrane C, Tejera NA, Lluch C
(2008). Growth and nitrogen fixation in
Lotus japonicus
and
Medicago truncatula
under NaCl stress: Nodule carbon metab-
olism.
J Plant Physiol
165: 641-650.
Luqueño FF, Dendooven L, Munive A, Corlay-Chee L, Serrano-
Covarrubias LM, Epinosa-Victoria D (2008) Micro-morphology
of common bean (
Phaseolus vulgaris
L.) nodules undergoing
senescence.
Acta Physiol Plant
30: 545-552.
Matamoros MA, Baird LM, Escuredo PR, Dalton DA, Minchin
FR, Iturbe-Ormaetxe I, Rubio MC, Moran JF, Gordon AJ,
Becana M (1999) Stress-induced legume root nodule senes-
cence, physiological, biochemical and structural alterations.
Plant Physiol
121: 97-111.
Matamoros MA, Dalton DA, Ramos J, Clemente MR, Rubio
MC, Becana M (2003) Biochemistry and molecular biology of
antioxidants in the rhizobia-legume symbiosis.
Plant Physiol
133: 449-509.
Mhadhbi H, Aouani ME (2008) Growth and nitrogen-fixing
performances of
Medicago truncatula-Sinorhizobium meliloti
symbioses under salt (NaCl) stress: Micro- and macrosymbi-
ont contribution to symbiosis tolerance. In: Abdelly C, Ozturk
M, Ashraf M, Grignon C (eds),
Biosaline Agriculture and High
Salinity Tolerance
. Birkhauser Verlag, pp. 91-98.
Mhadhbi H, Jebara M, Limam F, Aouani ME (2004) Rhizobial
strain involvement in plant growth, nodule protein composi-
tion and antioxidant enzyme activities of chickpea-rhizobia
symbioses: modulation by salt stress.
Plant Physiol Biochem
42:
717-722.
Mhadhbi H, Jebara M, Limam F, Huguet T, Aouani ME (2005)
Interaction between
Medicago truncatula
lines and
Sinorhizobium
meliloti
strains for symbiotic efficiency and nodule antioxidant
activities.
Physiol Plant
124: 4-11.
Mhadhbi H, Jebara M, Zitoun A, Limam F, Aouani ME (2008)
Symbiotic effectiveness and response to mannitol-mediated
osmotic stress of various chickpea-rhizobia associations.
World
J Microbiol Biotechnol
24: 1027-1035.
Mhadhbi H, Chihaoui S, Mhamdi R, Mnasri B, Jebara M
Mhamdi R (2011a) A highly osmotolerant rhizobial strain
confers a better tolerance of nitrogen fixation and enhanced
protective activities to nodules of
Phaseolus vulgaris
under
drought stress.
Afr Biotechnol
22: 4555-4563.
Mhadhbi H, Djébali N, Chihaoui S, Jebara M, Mhamdi R (2011b)
Nodule senescence in
Medicago truncatula-Sinorhizobium
symbi-
osis under abiotic constraints: Potential mechanisms involved
in maintaining nitrogen fixing capacity.
J Plant Growth Regul
30: 480-489.
Mhadhbi H, Fotopoulos V, Mylona PV, Jebara M, Aouani ME
Polidoros AN (2011c) Antioxidant gene-enzyme responses in
Medicago truncatula
genotypes with different degree of sensi-
tivity to salinity.
Physiol Plant
141: 201-214.
Mhadhbi H, Fotopoulos V, Mylona PV, Jebara M, Aouani ME,
Polidoros AN (2013) Alternative oxidase 1 (Aox1) gene expres-
sion in roots of
Medicago truncatula
is a genotype-specific com-
ponent of salt stress tolerance.
J Plant Physiol
170: 111-114.
Minchin FR, James EK, Becana M (2008) Oxygen diffusion,
production of reactive oxygen and nitrogen species and anti-
oxidants in legume nodules. In: Dilworth MJ (ed.),
Nitrogen-
fixing Leguminous Symbioses
. Springer, pp 321-362.
Mithöfer A (2002) Suppression of plant defence in rhizobia-
legume symbiosis.
Trends Plant Sci
7: 440-444.
Mittler R (2002) Oxidative stress, antioxidants and stress toler-
ance.
Trends Plant Sci
7: 405-410.
Mittler R (2006) Abiotic stress, the field environment and stress
combination.
Trends Plant Sci
11: 15-19.
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