Discovery of lectin-like proteins in the tobacco and datura plants, infected by tobacco mosaic virus
DOI:
https://doi.org/10.7124/bc.000649Abstract
The plant proteins of tobacco and datura able to interact with yeast mannans immobilized on spheron H-1000 have been studied by gel-filtration and affinity chromatography. The hypersensitive plants infected by TMV have been established to produce lectin-like proteins capable to interact as ligands with the yeast α( l,2)-α(l,3)-α(l,6)-connected mannan. Previous study showed this biopolymer can be involved in the hypersensitive virus-induced reaction, probably modulating the action of cellular glycopolymer-inductor(s). At the virus infection localisation the lectin-like proteins are suggested to convert into a soluble form and to function as a regulator owing to their specific interaction with the inducer(s).References
Sharon I, Lis Kh. Carbohydrates in cell recognition. V mire nauki. 1993; 2(3):104—12.
Lyubimova AV, Salkova EG. Lectin-carbohydrate interactions in relationships plant-pathogen. Prikl Biokhim Mikrobiol. 1988; 24(5):595—606.
Albersheim P, Darvil G. Oligosaccharine. Sci Amer. 1985;25(3):44—50.
Sundaresan RVS, Kimmins WC. Effect of virus infection on the cell wall composition of lesions on lesion host Phaseolus vulgaris. Ann Bot. 1981;47(2):287-9.
Fritig B, Kauffman S, Dumas S, Geoffroy P, Kopp M, Legrand M. Mechanism of hypersensitivity reaction in plants. Plant Resistance to Viruses (Ciba Fund. Symp. 133). Chichester; New York: Wiley J. & Sons, 1987:92-108.
Wieringa-Brants DH, Dekker WC. Induced resistance in hypersensitive tobacco against tobacco mosaic virus by injection of intercellular fluid from tobacco plants with systemic acquired resistance. J Phytopathol. 1987;118(2):165–70.
Modderman PW, Schot CP, Klis FM, Wieringa-Brants DH. Acquired resistance in hypersensitive tobacco against tobacco mosaic virus, induced by plant cell wall components. J Phytopathol. 1985;113(2):165–70.
Kovalenko OG, Telegeeva TA, Shtakun AV, Pogorila ZO. Influence of some mono- and polysaccharides on localization of virus infection and on induced virus resistance in plants. Biopolym Cell. 2000; 16(1):53-59.
Kovalenko AG. Phytolectins: a possible base of antiviral activity of carbohydrate polymers in the hypersensitive host plant. Recent Results in Plant Virology: Symp. held in the Castle Reinhardsbrunn (DDR, March 23rd—March 27th, 1986): Summaries. Berlin, 1986: 50—51.
Kovalenko AG. Protein-carbohydrate interaction in therealization of plant resistance to viruses. Mikrobiol Zh. 1993; 55(6):74-91.
Kovalenko AG, Grabina TD, Kolesnik LV, Didenko LF, Oleschenko LT, Olevinskaya ZM, et al. Virus resistance induced with mannan sulphates in hypersensitive host plants. J Phytopathol. 1993;137(2):133–47.
Kovalenko AG, Yamskov IA. Yeast mannans as affinity sorbents for lectins. Book of Abstrs. 15th Int. Lect. Conf. Szeged, 1993; 54.
Kovalenko AG, Grabina TD, Kovalenko EA, Pilipenko VG. Induction of resistance to tobacco mosaic virus and changes in the composition of soluble proteins in tobacco. Mikrobiol Zh. 1987; 49(3):80-6.
Bradford MM. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem. 1976;72:248-54.
Hughes RC. Glycoproteins. London ; New York : Chapman and Hall, 1983. 95 p
Kovalenko AG, Shashkov AS, Vasiljev VN, Telegeeva TA. The structural features and biological activity of Candida spec. yeast mannans. Biopolym Cell. 1995; 11(3-4):88-95.
