1.
Strigolactones promote nodulation in pea
by Foo, Eloise
Planta, 2011-11-01, Vol.234 (5), p.1073-1081
2.
Involvement of auxin distribution in root nodule development of Lotus japonicus
by Takanashi, Kojiro
Planta, 2011-07-01, Vol.234 (1), p.73-81
3.
Pectins esterification in the apoplast of aluminum-treated pea root nodules
by Sujkowska-Rybkowska, Marzena
Journal of plant physiology, 2015-07-20, Vol.184, p.1-7
4.
The class IId bacteriocin thuricin-17 increases plant growth
by Lee, Kyung Dong
Planta, 2009-03-01, Vol.229 (4), p.747-755
5.
Cyanobacterial extracts containing microcystins affect the growth, nodulation process and nitrogen uptake of faba bean (Vicia faba L., Fabaceae)
by Lahrouni, Majida
Ecotoxicology (London), 2011-11-25, Vol.21 (3), p.681-687
6.
Response of nitrogen fixation in relation to nodule carbohydrate metabolism in Medicago ciliaris lines subjected to salt stress
by Ben Salah, Imène
Journal of plant physiology, 2009, Vol.166 (5), p.477-488
7.
Balanced allocation of organic acids and biomass for phosphorus and nitrogen demand in the fynbos legume Podalyria calyptrata
by Maistry, Pravin M
Journal of plant physiology, 2015-02-01, Vol.174, p.16-25
8.
A salt stress-responsive cytokinin receptor homologue isolated from Medicago sativa nodules
by DE LA PENA, Teodoro Coba
Planta, 2008-03-01, Vol.227 (4), p.769-779
9.
Transcriptional and physiological changes in relation to Fe uptake under conditions of Fe-deficiency and Cd-toxicity in roots of Vigna radiata L
by Muneer, Sowbiya
Journal of plant research, 2014-09-09, Vol.127 (6), p.731-742
10.
Boron deficiency results in induction of pathogenesis-related proteins from the PR-10 family during the legume–rhizobia interaction
by Reguera, María
Journal of plant physiology, 2010, Vol.167 (8), p.625-632
11.
NADPH recycling systems in oxidative stressed pea nodules: a key role for the NADP + -dependent isocitrate dehydrogenase
by MARINO, Daniel
Planta, 2007-01-01, Vol.225 (2), p.413-421
12.
Nod factors stimulate seed germination and promote growth and nodulation of pea and vetch under competitive conditions
by Kidaj, Dominika
Microbiological research, 2012-03-20, Vol.167 (3), p.144-150
13.
The argon-induced decline in nitrogenase activity commences before the beginning of a decline in nodule oxygen uptake
by Fischinger, Stephanie A
Journal of plant physiology, 2010, Vol.167 (13), p.1112-1115
14.
Validamycin A improves the response of Medicago truncatula plants to salt stress by inducing trehalose accumulation in the root nodules
by López, Miguel
Journal of plant physiology, 2009, Vol.166 (11), p.1218-1222
15.
Irradiance regulates genotype-specific responses of Rhizobium-nodulated soybean to increasing iron and two manganese concentrations in solution culture
by Izaguirre-Mayoral, María Luisa
Journal of plant physiology, 2009, Vol.166 (8), p.807-818
16.
The application of ascorbate or its immediate precursor, galactono-1,4-lactone, does not affect the response of nitrogen-fixing pea nodules to water stress
by Zabalza, Ana
Journal of plant physiology, 2008, Vol.165 (8), p.805-812
17.
The Hypernodulating nts Mutation Induces Jasmonate Synthetic Pathway in Soybean Leaves
by Seo, H.S. (Seoul National University, Seoul, Republic of Korea)
Molecules and Cells, 24(2), pp.185-193
18.
19.
Overexpression of GmAKR1, a stress-induced aldo/keto reductase from soybean, retards nodule development
by Hur, Y.S. (Sookmyung Women's University, Seoul, Republic of Korea)
Molecules and Cells, 27(2), pp.217-223
20.
AhDMT1, a Fe(2+) transporter, is involved in improving iron nutrition and N2 fixation in nodules of peanut intercropped with maize in calcareous soils
by Shen, Hongyun
Planta, 2014-05, Vol.239 (5), p.1065
