AÑO |
PUBLICACIÓN |
2020 | Pectic galactan affects cell Wall architecture during secondary cell wall deposition. AUTORES: MONEO-SÁNCHEZ M., VAQUERO-RODRÍGUEZ A., HERNÁNDEZ-NISTAL J., ALBORNOS L., KNOX P., DOPICO B., LABRADOR E., MARTÍN I. REVISTA/LIBRO: Planta 251:100. (DOI:10.1007/s00425-020-03394-2). |
2019 | Promoter activity of genes encoding the specific tissue protein family in the reproductive organs of Medicago truncatula. AUTORES: ALBORNOS L., MARTÍ I., LABRADOR E., DOPICO B. REVISTA/LIBRO: Biología Plantarum 63: 785-796 |
2019 | β-(1,4)-galactan remodelling in arabidopsis cell walls affects the xyloglucan structure during elongation. AUTORES: M. MONEO SÁNCHEZ, A. ALONSO CHICO, J.P. KNOX, B. DOPICO, E. LABRADOR, I. MARTÍN. REVISTA/LIBRO: Planta 249:351-362 |
2018 | Knockout mutants of Arabidopsis thaliana B-galactosidase (subfamily a1). Modifications in cell wall saccharides and enzymatic activities. AUTORES: MONEO-SÁNCHEZ M., IZQUIERDO L., MARTÍN I., HERNÁNDEZ-NISTAL J., ALBORNOS L., DOPICO B., LABRADOR E. REVISTA/LIBRO: Biologia Plantarum 62: 80-88 |
2018 | 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. AUTORES: L. IZQUIERDO, I. MARTÍN, L. ALBORNOS, J. HERNÁNDEZ-NISTAL, P. HUESO, B. DOPICO, E. REVISTA/LIBRO: Journal of Plant Physiology 231: 135-146 |
2018 | Three members of Medicago truncatula ST family (MtST4, MtST5 and MtST6) are specifically induced by hormones involved in biotic interactions. AUTORES: ALBORNOS L., MARTÍN I., HERNÁNDEZ-NISTAL, J. , LABRADOR E., DOPICO B. REVISTA/LIBRO: Plant Physiology and Biochemistry 127: 496-505 |
2017 | Three members of Medicago truncatula ST family are ubiquitous during development and modulated by nutritional status (MtST1) and dehydration (MtST2 and MtST3). AUTORES: ALBORNOS L., MARTÍN I., LABRADOR E., DOPICO B. REVISTA/LIBRO: BMC Plant Biology 17: 117. |
2016 | Subcellular location of Arabidopsis thaliana subfamily a1 B-galactosidases and developmental regulation of transcript levels of their coding genes. AUTORES: MONEO-SÁNCHEZ M., IZQUIERDO L., MARTÍN I., LABRADOR E., DOPICO B. REVISTA/LIBRO: Plant Physiology and Biochemistry 109: 137-145 |
2014 | Coordinated action of beta-galactosidases in the cell wall of embryonic axes during chickpea germination and seedling growth. AUTORES: HERNÁNDEZ NISTAL, J.; MARTÍN, I.; DOPICO, B.; LABRADOR, E. REVISTA/LIBRO: Plant Biology 16: 404-410 |
2014 | Organ accumulation and subcellular location of Cicer arietinum ST1 protein. AUTORES: ALBORNOS, L., CABRERA, J., HERNÁNDEZ NISTAL, J., MARTÍN, I., LABRADOR, E, DOPICO, B. REVISTA/LIBRO: Plant Science 224: 44-53 |
2013 | βIII-Gal is involved in galactan reduction during phloem differentiation in chickpea stems. AUTORES: MARTÍN, I.; HERNÁNDEZ-NISTAL, J.; ALBORNOS, L.; LABRADOR, E.; DOPICO, B. REVISTA/LIBRO: Plant and Cell Physiology 54: 960-970 |
2012 | Promoter activities of genes encoding beta-galactosidases from Arabidopsis a1 subfamily. AUTORES: ALBORNOS, L.; MARTÍN, I.; P PÉREZ; R MARCOS; DOPICO, B.; LABRADOR, E. REVISTA/LIBRO: Plant Physiology and Biochemistry.60,pp. 223 - 232. |
2012 | ST proteins, a new family of plant tandem repeat proteins with a DUF2775 domain mainly found in Fabaceae and Asteraceae. AUTORES: ALBORNOS, L.; MARTÍN, I.; R IGLESIAS; TERESA JIMÉNEZ; LABRADOR, E.; DOPICO, B. REVISTA/LIBRO: BMC Plant Biology-(BioMed Central Ltd.).12, pp. 207. |
2011 | The BI-galactosidase of Cicer arietinum is located in thickening cell walls such as those from collenchyma, sclerenchyma and vascular tissue. AUTORES: I. MARTÍN, T, JIMENEZ, J. HERNÁNDEZ-NISTAL, B. DOPICO, E. LABRADOR. REVISTA/LIBRO: Plant Biology 13 :777-783 |
2010 | Abscisic acid delays chickpea germination by inhibiting water uptake and down-regulatin genes encoding cell wall remodelling proteins. AUTORES: J.HERNÁNDEZ-NISTAL, I. MARTÍN, R.ESTEBAN, B. DOPICO , E. LABRADOR . REVISTA/LIBRO: Plant Growth Regulation 61:175-185 |
2010 | The immunolocation of XTH1 in embryonic axes during chickpea germination and seedling growth confirms its function in cell elongation and vascular differentiation. AUTORES: J. HERNÁNDEZ-NISTAL, I. MARTÍN, E. LABRADOR AND B. DOPICO. REVISTA/LIBRO: J. Experimental Botany 61:4231-4238 |
2009 | The location of the chickpea cell wall βV-galactosidase suggests involvement in the transition between cell proliferation and cell elongation AUTORES: I. MARTÍN, T. JIMÉNEZ, J, J.HERNÁNDEZ-NISTAL, E. LABRADOR, B. DOPICO. REVISTA/LIBRO: J. Plant Growth Regul., 28: 1-11 |
2009 | Two cell wall Kunitz trypsin inhibitors inchickpea during seed germinatin and seedling growth. AUTORES: J.HERNÁNDEZ-NISTAL, I. MARTÍN, T. JIMÉNEZ, B. DOPICO , E. LABRADOR. REVISTA/LIBRO: Plant. Physiol.Biochem. 47: 181-187 |