[Adomas A., Heller G., Li G., Olson Å., Chu T.M., Osborne J., Craig D., Zyl L.V., Wolfinger R., Sederoff R., Dean R.A., Stenlid J., Finlay R., Asiegbu F.O. 2007. Transcript profiling of a conifer pathosystem: response of Pinus sylvestris root tissues to pathogen (Heterobasidion annosum) invasion. Tree Physiology, 27, 1441-1458.10.1093/treephys/27.10.144117669735]Search in Google Scholar
[Baranov O.Yu., Oszako T., Nowakowska J.A., Panteleev S.V. 2010. Genetic identification of fungi colonising seedlings of the Scots pine (Pinus sylvestris L.) in the forest nursery in Korenevka (Belarus). Folia Forestalia Polonica, Ser. A - Forestry, 52 (1), 61-64. ]Search in Google Scholar
[Carvalho A.O., Gomes V.M. 2007. Role of plant lipid transfer proteins in plant cell physiology - a concise review. Peptides, 28, 1144-1153.]Search in Google Scholar
[Carvalho A.O., Gomes V.M. 2009. Plant defensins - prospects for the biological functions and biotechnological properties. Peptides, 30, 1007-1020.]Search in Google Scholar
[Chang S., Puryear J., Cairney J. 1993. A simple and efficient method for isolating RNA from pine trees. Plant Molecular Biology Reporter, 11 (2), 113-116.]Search in Google Scholar
[Edstam M.M., Viitanen L., Salminen T.A., Edqvist J. 2011. Evolutionary history of the non-specific lipid transfer proteins. Molecular Plant, 4 (6), 947-964.]Search in Google Scholar
[Eyles E., Bonello P., Ganley R., Mohammed C. 2010. Induced resistance to pests and pathogens in trees. New Phytologist, 185, 893-908.]Search in Google Scholar
[Franceschi V.R., Krokene P., Christiansen E., Krekling T. 2005. Anatomical and chemical defences of conifer bark beetles and other pests. New Phytologist, 167, 353-376.]Search in Google Scholar
[Glazebrook J. 2005. Contrasting mechanisms of defense against biotrophic and necrotrophic pathogens. Annual Review of Phytopathology, 43, 205-227.]Search in Google Scholar
[Heath M.C. 2000. Nonhost resistance and nonspecific plant defenses. Current Opinion in Plant Biology, 3, 315-319.]Search in Google Scholar
[Hocking D., Jaffer A.A. 1969. Damping off in pine nurseries: fungicidal control by seed pelleting. Commonwealth Forestry Review, 48 (4) (138), 355-363.]Search in Google Scholar
[Hrunyk N.I., Kovaleva V.A., Gout. R.T. 2012. Patterns of expression of lipid-transfer protein gene in organs of Scots pine (Pinus sylvestris L.). Studia Biologica, 6 (2), 151-160.]Search in Google Scholar
[Huang J.W., Kuhlman E.G. 1990. Fungi associated with damping-off of Slash pine seedlings in Georgia. Plant Disease, 74, 27-30.]Search in Google Scholar
[Kader J.-C. 1996. Lipid transfer proteins in plants. Annual Review of Plant Physiology and Plant Molecular Biology, 47, 627-654.]Search in Google Scholar
[Kovaleva V., Kiyamova R., Cramer R., Krynytskyy H., Gout I., Filonenko V., Gout R. 2009. Purification and molecular cloning of antimicrobial peptides from Scots pine seedlings. Peptides, 30, 2136-2143.]Search in Google Scholar
[Kovalyova V.A., Gout I.T., Kiyamova R.G., Filonenko V.V., Gout R.T. 2007. Cloning and analysis of de fensin 1 cDNA from Scots pine. Biopolymers and Cell, 23, 398-404.]Search in Google Scholar
[Kovalyova V.A., Gout I.T. 2008. Molecular cloning and characterization of Scotch pine defensin 2. Cytology and genetics, 42 (6), 408-412.]Search in Google Scholar
[Laluk K., Mengiste T. 2010. Necrotroph attacks on plants: wanton destruction or covert extortion? The Arabidopsis Book, 8, e0136.]Search in Google Scholar
[Maldonado A.M., Doerner P., Dixonk R.A., Lamb C.J., Cameron R.K. 2002. A putative lipid transfer protein involved in systemic resistance signalling in Arabidopsis. Nature, 419 (6905), 399-403.]Search in Google Scholar
[Nielsen K.K., Nielsen J.E., Madrid S.M., Mikkelsen J.D. 1996. New antifungal proteins from sugar beet (Beta vulgaris L.) showing homology to nonspecific lipid transfer proteins. Plant Molecular Biology, 31, 539-552.]Search in Google Scholar
[Pearce R.B. 1996. Antimicrobial defenses in the wood of living trees. New Phytologist, 132, 203-233. ]Search in Google Scholar
[Penninckx I.A., Eggermont K., Terras F.R., Thomma B.P., De Samblanx G.W., Buchala A., Metraux J.P., Manners J.M., Broekaert W.F. 1996. Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway. Plant Cell, 8, 2309-2323.]Search in Google Scholar
[Schenk P.M., Kazan K., Manners J.M., Anderson J.P., Simpson R.S., Wilson I.W., Somerville S.C. Maclean D.J. 2003. Systemic gene expression in Arabidopsis during an incompatible interaction with Alternaria brassicicola. Plant Physiology, 132, 999-1010.]Search in Google Scholar
[Sels J., Mathys J., De Coninck B.M.A., Cammue B.P.A., De Bolle M.F.C. 2008. Plant pathogenesis-related (PR) proteins: A focus on PR peptides. Plant Physiology and Biochemistry, 46, 941-950.]Search in Google Scholar
[Shalovylo Y.I., Yusypovych Y.M., Kovaleva V.A., Gout R.T. 2015. The effect of phytohormones on expression of defensin gene in Scots pine. Studia Biologica, 9 (1), 15-24.]Search in Google Scholar
[Sooriyaarachchi S., Jaber E., Covarrubias A.S., Ubhayasekera W., Asiegbu F.O., Mowbray S.L. 2011. Expression and β-glucan binding properties of Scots pine (Pinus sylvestris L.) antimicrobial protein (Sp-AMP). Plant Molecular Biology, 77, 33-45.]Search in Google Scholar
[Tesfaye M., Silverstein K.A., Nallu S., Wang L., Botanga C.J., Gomez S.K., Costa L.M., Harrison M.J., Samac D.A., Glazebrook J., Katagiri F., Gutierrez- Marcos J.F., Vandenbosch K.A. 2013. Spatio-temporal expression patterns of Arabidopsis thaliana and Medicago truncatula defensin-like genes. PLoS One, 8 (3), e58992.]Search in Google Scholar
[Thomma B.P., Cammue B.P., Thevissen K. 2002. Plant defensins. Planta, 216 (2), 193-202. ]Search in Google Scholar
[van Loon L.C., Rep M., Pieterse C.M.J. 2006. Significance of inducible defense-related proteins in infected plants. Annual Review of Phytopathology, 44, 135-162.]Search in Google Scholar
[Yusypovych Y.M., Kovalyova V.A., Gout R.T. 2011. The organ-specific expression of defensins 1 (PsDef1) in Pinus sylvestris L. Scientific Bulletin of UNFU, 21 (3), 44-49.]Search in Google Scholar