Escola Politécnica Superior de Enxeñaría
Fakultät
Universidad de Salamanca
Salamanca, EspañaPublikationen in Zusammenarbeit mit Forschern von Universidad de Salamanca (24)
2024
2022
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Tree growth response to drought partially explains regional-scale growth and mortality patterns in Iberian forests
Ecological Applications, Vol. 32, Núm. 5
2021
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Volcanism and rapid sedimentation affect the benthic communities of Deception Island, Antarctica
Continental Shelf Research, Vol. 220
2020
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Drought legacies are short, prevail in dry conifer forests and depend on growth variability
Journal of Ecology, Vol. 108, Núm. 6, pp. 2473-2484
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Linking tree-ring growth and satellite-derived gross primary growth in multiple forest biomes. Temporal-scale matters
Ecological Indicators, Vol. 108
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Pectic galactan affects cell wall architecture during secondary cell wall deposition
Planta, Vol. 251, Núm. 5
2018
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Drought sensitiveness on forest growth in peninsular Spain and the Balearic Islands
Forests, Vol. 9, Núm. 9
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Forest resilience to drought varies across biomes
Global Change Biology, Vol. 24, Núm. 5, pp. 2143-2158
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Knockout mutants of Arabidopsis thaliana β-galactosidase. Modifications in the cell wall saccharides and enzymatic activities
Biologia Plantarum, Vol. 62, Núm. 1, pp. 80-88
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Overexpression of Cicer arietinum βIII-Gal but not βIV-Gal in arabidopsis causes a reduction of cell wall β-(1,4)-galactan compensated by an increase in homogalacturonan
Journal of Plant Physiology, Vol. 231, pp. 135-146
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Three members of Medicago truncatula ST family (MtST4, MtST5 and MtST6) are specifically induced by hormones involved in biotic interactions
Plant Physiology and Biochemistry, Vol. 127, pp. 496-505
2014
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Coordinated action of β-galactosidases in the cell wall of embryonic axes during chickpea germination and seedling growth
Plant Biology, Vol. 16, Núm. 2, pp. 404-410
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Organ accumulation and subcellular location of Cicer arietinum ST1 protein
Plant Science, Vol. 224, pp. 44-53
2013
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βiII-gal is involved in galactan reduction during phloem element differentiation in chickpea stems
Plant and Cell Physiology, Vol. 54, Núm. 6, pp. 960-970
2011
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The βI-galactosidase of Cicer arietinum is located in thickened cell walls such as those of collenchyma, sclerenchyma and vascular tissue
Plant Biology, Vol. 13, Núm. 5, pp. 777-783
2010
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Abscisic acid delays chickpea germination by inhibiting water uptake and down-regulating genes encoding cell wall remodelling proteins
Plant Growth Regulation, Vol. 61, Núm. 2, pp. 175-183
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The immunolocation of XTH1 in embryonic axes during chickpea germination and seedling growth confirms its function in cell elongation and vascular differentiation
Journal of Experimental Botany, Vol. 61, Núm. 15, pp. 4231-4238
2009
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Two cell wall Kunitz trypsin inhibitors in chickpea during seed germination and seedling growth
Plant Physiology and Biochemistry, Vol. 47, Núm. 3, pp. 181-187
2008
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The accumulation of a Kunitz trypsin inhibitor from chickpea (TPI-2) located in cell walls is increased in wounded leaves and elongating epicotyls
Physiologia Plantarum, Vol. 132, Núm. 3, pp. 306-317
2006
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Transcriptional profiling of cell wall protein genes in chickpea embryonic axes during germination and growth
Plant Physiology and Biochemistry, Vol. 44, Núm. 11-12, pp. 684-692