1.
Seed priming to alleviate salinity stress in germinating seeds
by Ibrahim, Ehab A
Journal of plant physiology, 2016-03-15, Vol.192, p.38-46
2.
Phytotoxic and genotoxic effects of silver nanoparticles exposure on germinating wheat seedlings
by Vannini, Candida
Journal of plant physiology, 2014-08-15, Vol.171 (13), p.1142-1148
3.
Salt tolerance and activity of antioxidative enzymes of transgenic finger millet overexpressing a vacuolar H+-pyrophosphatase gene (SbVPPase) from Sorghum bicolor
by Anjaneyulu, Ediga
Journal of plant physiology, 2014-06-15, Vol.171 (10), p.789-798
4.
Enhanced expression of the proline synthesis gene P5CSA in relation to seed osmopriming improvement of Brassica napus germination under salinity stress
by Kubala, Szymon
Journal of plant physiology, 2015-07-01, Vol.183, p.1-12
5.
Genomic structure and promoter characterization of the CDPK kinase gene expressed during seed formation in Pharbitis nil
by Pawełek, Agnieszka
Journal of plant physiology, 2015-09-15, Vol.189, p.87-96
6.
Reactive oxygen species mediate axis-cotyledon signaling to induce reserve mobilization during germination and seedling establishment in Vigna radiata
by Verma, Giti
Journal of plant physiology, 2015-07-20, Vol.184, p.79-88
7.
AtDSEL, an Arabidopsis cytosolic DAD1-like acylhydrolase, is involved in negative regulation of storage oil mobilization during seedling establishment
by Kim, Eun Yu
Journal of plant physiology, 2011, Vol.168 (14), p.1705-1709
8.
Medicago truncatula stress associated protein 1 gene (MtSAP1) overexpression confers tolerance to abiotic stress and impacts proline accumulation in transgenic tobacco
by Charrier, Aurélie
Journal of plant physiology, 2013-06-15, Vol.170 (9), p.874-877
9.
Identification of embryo proteins associated with seed germination and seedling establishment in germinating rice seeds
by Liu, Shu-Jun
Journal of plant physiology, 2016-06-01, Vol.196-197, p.79-92
10.
Germination of salt-stressed seeds as related to the ethylene biosynthesis ability in three Stylosanthes species
by Silva, Priscila O
Journal of plant physiology, 2014-01-01, Vol.171 (1), p.14-22
11.
Alterations in root proteome of salt-sensitive and tolerant barley lines under salt stress conditions
by Mostek, Agnieszka
Journal of plant physiology, 2015-02-01, Vol.174, p.166-176
12.
Extracellular production of reactive oxygen species during seed germination and early seedling growth in Pisum sativum
by Kranner, Ilse
Journal of plant physiology, 2010, Vol.167 (10), p.805-811
13.
Dormancy alleviation by NO or HCN leading to decline of protein carbonylation levels in apple (Malus domestica Borkh.) embryos
by Krasuska, Urszula
Journal of plant physiology, 2014-08-15, Vol.171 (13), p.1132-1141
14.
Exogenous 3,3′-diindolylmethane increases Brassica napus L. seedling shoot growth through modulation of superoxide and hydrogen peroxide content
by Gokul, Arun
Journal of plant physiology, 2016-06-01, Vol.196-197, p.93-98
15.
Priming of seeds with methyl jasmonate induced resistance to hemi-biotroph Fusarium oxysporum f.sp. lycopersici in tomato via 12-oxo-phytodienoic acid, salicylic acid, and flavonol...
by Król, P
Journal of plant physiology, 2015-05-01, Vol.179, p.122-132
16.
Characterization of γ-aminobutyric acid metabolism and oxidative damage in wheat (Triticum aestivum L.) seedlings under salt and osmotic stress
by AL-Quraan, Nisreen A
Journal of plant physiology, 2013-07-15, Vol.170 (11), p.1003-1009
17.
Dormancy removal of apple seeds by cold stratification is associated with fluctuation in H2O2, NO production and protein carbonylation level
by Dębska, Karolina
Journal of plant physiology, 2013-03-15, Vol.170 (5), p.480-488
18.
Auxins differentially regulate root system architecture and cell cycle protein levels in maize seedlings
by Martínez-de la Cruz, Enrique
Journal of plant physiology, 2015-03-15, Vol.176, p.147-156
19.
Identification of quantitative trait loci for abscisic acid responsiveness in the D-genome of hexaploid wheat
by Iehisa, Julio C.M
Journal of plant physiology, 2014-06-15, Vol.171 (10), p.830-841
20.
Seed orientation and magnetic field strength have more influence on tomato seed performance than relative humidity and duration of exposure to non-uniform static magnetic fields
by Poinapen, Danny
Journal of plant physiology, 2013-09-15, Vol.170 (14), p.1251-1258
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