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Referencias:

• Battaglia, M., Olivera-Carrillo, Y., Garciarrubio, A., Campos, F., Covarrubias, A., The enigmatic LEA proteins and other hydrophilins (2008) Plant Physiol, 148, pp. 6-24
• Blanco, M.A., Nieves, N., Sánchez, M., Borroto, C.G., Castillo, R., González, J.L., Escalona, M., Hernández, Z., Protein changes associated with plant regeneration in embryogenic calli of sugarcane (Saccharum sp.) (1997) Plant Cell Tissue Org Cult, 51, pp. 153-158
• Borovskii, G.B., Stupnikova, I.V., Antipina, A.I., Vladimirova, S.V., Voinikov, V.K., Accumulation of dehydrin-like proteins in the mitochondria of cereals in response to cold, freezing, drought and ABA treatment (2002) BMC Plant Biol, 2, p. 5. , http://www.biomedcentral.com/1471-2229/2/5
• Bozzo, S., Retamal, C., Gel-perfect: Geles unidimensionales. Un nuevo método densitométrico para computadores personales (1991) Arch Biol Med Exp, 24, p. 181
• Brini, F., Hanin, M., Lumbreras, V., Amara, I., Khoudi, H., Hassairi, A., Pagès, M., Masmoudi, K., Overexpression of wheat dehydrin DHN-5 enhances tolerance to salt and osmotic stress in Arabidopsis thaliana (2007) Plant Cell Rep, 26, pp. 2017-2026
• Cidade, D.A., García, P., Duarte Ro, A.C., Sacheto-Martins, G., Mansur, E., Morfogênese in vitro de variedades brasileiras de cana-de-açúcar (2006) Pesq Agropecu Bras, 41, pp. 385-391
• Close, T.J., Lammers, P.J., An osmotic stress protein of cyanobacteria is immunologically related to plant dehydrins (1993) Plant Physiol, 101, pp. 773-779
• Close, T.J., Dehydrins: emergence of a biochemical role of a family of plant dehydration proteins (1996) Physiol Plant, 97, pp. 795-803
• Danyluk, J., Perron, A., Houde, M., Limin, A., Fowler, B., Benhamou, N., Sarhan, F., Accumulation of an acidic dehydrin in the vicinity of the plasma membrane during cold acclimation of wheat (1998) Plant Cell, 10, pp. 623-638
• Dure, L., A repeating 11-mer amino acid motif and plant desiccation (1993) Plant J, 3, pp. 363-369
• Egerton-Warburton, L.M., Balsamo, R.A., Close, T.J., Temporal accumulation and ultrastructural localization of dehydrins in Zea mays (1997) Physiol Plant, 101, pp. 545-555
• Falco, M.C., Januzzi Mendes, B.M., Tulman Neto, A., Appezzato da Glória, B., Histological characterization of in vitro regeneration of Saccharum sp (1996) Rev Bras Fisiol Veg, 8, pp. 93-97
• Gandonou, C., Errabii, T., Abrini, J., Idaomar, M., Chibi, F., Skali, S.N., Effect of genotype on callus induction and plant regeneration from leaf explants of sugarcane (Saccharum sp.) (2005) Afr J Biotechnol, 4 (11), pp. 1250-1255
• Giordani, T., Natali, L., D'Ercole, A., Pugliesi, C., Fambrini, M., Vernieri, P., Vitagliano, C., Cavallini, A., Expression of a dehydrin gene during embryo development and drought stress in ABA-deficient mutants of sunflower (Helianthus annuus L.) (1999) Plant Mol Biol, 39, pp. 739-748
• Goday, A., Jensen, A.B., Culianezmacia, F.A., Alba, M.M., Figueras, M., Serratosa, J., Torrent, M., Pagès, M., The maize abscisic acid-responsive protein RAB17 is located in the nucleus and interacts with nuclear localization signals (1994) Plant Cell, 6, pp. 351-360
• Guiderdoni, E., L′embryogènese somatique des explants foliaires de canne a sucre (Saccharumsp.) cultivés in vitro. I-Initiatiation des cultures (1986) L′Agronomie Tropicale, 41, pp. 50-59
• Guiderdoni, E., L′embryogènese somatique des explants foliaires de canne a sucre (Saccharumsp.) cultivés in vitro (1986) II-Ëtude anatomique de la morphogenèse. L′Agronomie Tropicale, 41, pp. 160-166
• Guiderdoni, E., Demarly, Y., Histology of somatic embryogenesis in cultured leaf segments of sugarcane plantlets (1988) Plant Cell Tissue Organ Cult, 14, pp. 71-88
• Harris, K.F., Pesic-van Esbroeck, Z., Duffus, J.E., Moderate-temperature polymerization of LR White in a nitrogen atmosphere (1995) Microsc Res Tech, 32, pp. 264-265
• Heyen, B.J., Alsheikh, M.K., Smith, E.A., Torvik, C.F., Seals, D.F., Randall, S.K., The calcium-binding activity of a vacuole-associated, dehydrin-like protein is regulated by phosphorylation (2002) Plant Physiol, 130, pp. 675-687
• Ho, W., Vasil, I.K., Somatic embryogenesis in sugarcane (Saccharum officinarum L.) I. The morphology and physiology of callus formation and the ontogeny of somatic embryos (1983) Protoplasma, 118, pp. 169-180
• Ho, W., Vasil, I.K., Somatic embryogenesis in sugarcane (Saccharum officinarum L.): growth and regeneration from embryogenic cell suspension cultures (1983) Ann Bot, 51, pp. 719-726
• Houde, M., Danyluk, J., Laliberte, J.F., Rassart, E., Dhindsa, R.S., Sarhan, F., Cloning, characterization, and expression of a cDNA encoding a 50-kilodalton protein specifically induced by cold-acclimation in wheat (1995) Plant Physiol, 99, pp. 1381-1387
• Ismail, A.M., Hall, A.E., Close, T.J., Purification and partial characterization of a dehydrin involved in chilling tolerance during seedling emergence of cowpea (1999) Plant Physiol, 120, pp. 237-244
• Ismail, A.M., Hall, A.E., Close, T.J., Allelic variation of a dehydrin gene cosegregates with chilling tolerance during seedling emergence (1999) Proc Natl Acad Sci, 96, pp. 13566-13570
• Jiang, X., Wang, Y., β-Elimination coupled with tandem mass spectrometry for the identification of in vivo and in vitro phosphorylation sites in maize dehydrin DHN1 protein (2004) Biochemistry, 43 (49), pp. 15567-15576
• Ko, S., Tan, S.-K., Kamada, H., Characterization of a dehydrin-like protein (ECPP-44) relating to somatic embryogenesis in carrot (2006) Plant Mol Biol Rep, 24, pp. 253-254
• Laemmli, U.K., Cleavage of structural proteins during the assembly of the head of bacteriophage T4 (1970) Nature, 227, pp. 680-685
• Lakshmanan, P., Somatic embryogenesis in sugarcane-an addendum to the invited review Sugarcane biotechnology: the challenges and opportunities (2006) In Vitro Cell Dev Biol Plant, 42, pp. 201-205
• Linacero, R., López Bilbao, M.G., Vázquez, A.M., Expression of different abscisic acid-responsive genes during somatic embryogenesis in sugarcane (Saccharum officinarum) (2001) Protoplasma, 217, pp. 197-204
• Neven, L., Haskell, G.D.W., Hofig, A., Li, Q.B., Guy, C.L., Characterization of a spinach gene responsive to low-temperature and water-stress (1993) Plant Mol Biol, 21, pp. 291-305
• Nylander, M., Svensson, J., Palva, E.T., Welin, B.V., Stress-induced accumulation and tissue-specific localization of dehydrins in Arabidopsis thaliana (2001) Plant Mol Biol, 45, pp. 263-279
• Plana, M., Itarte, E., Eritja, R., Goday, A., Pagès, M., Martinez, M.C., Phosphorylation of maize RAB-17 protein by casein kinase-2 (1991) J Biol Chem, 266, pp. 22510-22514
• Prego, I., Maldonado, S., Otegui, M., Seed structure and localization of reserves in Chenopodium quinoa (1998) Ann Bot, 82, pp. 481-488
• Retamal, C.A., Thiebaut, P., Alves, E.W., Protein purification from polyacrylamide gels bysonication extraction (1999) Anal Biochem, 268, pp. 15-20
• Riera, M., Figueras, M., López, C., Goday, A., Pagès, M., Protein kinase CK2 modulates developmental functions of the abscisic acid responsive protein Rab17 from maize (2004) Proc Natl Acad Sci, 101 (26), pp. 9879-9884
• Rinne, P.L.H., Kaikuranta, P.L.M., van der Plas, L.H.W., van der Schoot, C., Dehydrins in cold-acclimated apices of birch (Betula pubescens Ehrh.): production, localization and potential role in rescuing enzyme function during dehydration (1999) Planta, 209, pp. 377-388
• Rorat, T., Grygorowicz, W.J., Irzykowski, W., Rey, P., Expression of KS-type dehydrins is primarily regulated by factors related to organ type and leaf developmental stage under vegetative growth (2004) Planta, 218, pp. 878-885
• Rorat, T., Plant dehydrins tissue location, structure and function (2006) Cell Mol Biol Lett, 11, pp. 536-556. , doi:10.2478/s11658-006-0044-0
• Spence, J., Plant histology (2001) Plant Cell Biology, pp. 189-206. , C. Hawes and B. Satiat-Jeunemaitre (Eds.), Oxford: Oxford University Press, 2nd Edn
• Stanca, A.M., Crosatti, C., Grossi, M., Lacerenza, N.G., Rizza, F., Cattivelli, L., Molecular adaptation of barley to cold and drought conditions (1996) Euphytica, 92, pp. 215-219
• Šunderlíková, V., Wilhelm, E., High accumulation of legumin and LEA-like mRNAs during maturation is associated with increased conversion frequency of somatic embryos from pedunculate oak (Quercus robur L.) (2002) Protoplasma, 220, pp. 97-103
• Tan, S.-K., Kamada, H., Initial identification of a phosphoprotein that appears to be involved in the induction of somatic embryogenesis in carrots (2000) Plant Cell Rep, 19, pp. 739-747
• Tan, S.-K., Sage-Ono, K., Kamada, H., Cloning and characterization of ECPP44, a cDNA encoding a 44-kilodalton phosphoprotein relating to somatic embryogenesis in carrot (2000) Plant Biotechnol, 17, pp. 61-68
• Vilardell, J., Goday, A., Freire, M.A., Torrent, M., Martinez, M.C., Torné, J.M., Pagès, M., Gene sequence, developmental expression, and protein phosphorylation of RAB-17 in maize (1990) Plant Mol Biol, 14, pp. 423-432
• Wahid, A., Close, T.J., Expression of dehydrins under heat stress and their relationship with water relations of sugarcane leaves (2007) Biol Plant, 51, pp. 54-59
• Walkers, W.F., Tetteroo, A.A., Alberda, M., Hoekstra, F.A., Changed properties of the cytoplasmic matrix associated with desiccation tolerance of dried carrot somatic embryos. An in situ Fourier transform infrared spectroscopic study (1999) Plant Physiol, 120, pp. 153-163
• Welling, A., Rinne, P., Vihera-Aarnio, A., Kontunen-Soppela, S., Heino, P., Palva, E.T., Photoperiod and temperature differentially regulate the expression of two dehydrin genes during overwintering of birch (Betula pubescens Ehrh.) (2004) J Exp Bot, 55, pp. 507-516
• Wisniewski, M., Webb, R., Balsamo, R., Close, T.J., Yu, X.M., Griffith, M., Purification, immunolocalization, cryoprotective, and antifreeze activity of PCA60: a dehydrin from peach (Prunus persica) (1999) Physiol Plant, 105, pp. 600-608
• Zimmerman, J.-L., Somatic embryogenesis: a model for early development in higher plants (1993) Plant Cell, 5, pp. 1411-1423

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