Ativos Biotecnológicos Aplicados a Seca e Pragas em Culturas Relevantes para o Agronegócio

Artigos Publicados em 2020

ARAÚJO, A.C.; Fonseca, F.C.A.; Cotta, M.G.; Alves, G.S.C.; Miller, R.N.G. (2020). Plant NLR Receptor Proteins and Their Potential in the Development of Durable Genetic Resistance to Biotic StressesBiotechnology Research and Innovation, v. 3(1), p. 80-94.
BASSO, M.F.; Arraes, F.B.M.; Grossi-de-Sa, M.; Moreira-Jr, V.V.; Alves-Ferreira, M.; Grossi-de-Sa, M.F. (2020). Insights into Genetic and Molecular Elements for Transgenic Crop Development. Frontiers in Plant Science, v. 11, p. 509.
BASSO, M.F.; Lourenço-Tessutti, I.T.; Busanello, C.; Pinto, C.E.M.; Freitas, E.O.; Ribeiro, T.P.; Almeida-Engler, J.; Oliveira, A.C.; Morgante, C.V.; Alves-Ferreira, M.; Grossi-de-Sa, M.F. (2020). Insights Obtained Using Different Modules of the Cotton uceA1.7 Promoter. Planta, v. 251(2), p. 56.
BASSO, M.F.; Lourenço-Tessutti, I.T.; Mendes, R.A.G.; Pinto, C.E.M.; Bournaud, C.; Gillet, F.X.; Togawa, R.C.; Macedo, L.L.P.; Almeida-Engler, J.; Grossi-de-Sa, M.F. (2020). MiDaf16-Like and MiSkn1-Like Gene Families are Reliable Targets to Develop Biotechnological Tools for the Control and Management of Meloidogyne incognita. Scientific Reports, v. 10(1), p. 6991.
BEVITORI, R.; Sircar, S.; Mello, R.N.; Togawa, R.C.; Cortes, M.V.C.B.; Oliveira, T.S.; Grossi-de-Sa, M.F.; Parekh, N. (2020). Identification of Co-Expression Gene Networks Controlling Rice Blast Disease During an Incompatible Reaction. Genetics and Molecular Biology, v. 19, p. gmr18579.
BRITO, F.S.D.; Santos, J.R.P.; Azevedo, V.C.R.; Peixoto, Y.S.; Oliveira, S.A.; Ferreira, C.F.; Haddad, F.; Amorim, E.P.; Fraaije, B.; Miller, R.N.G. (2020). Genetic Diversity and Azole Fungicide Sensitivity in Pseudocercospora musae Field Populations in Brazil. Frontiers in Microbiology v. 11, p. 99.
CABRAL, D.N.; Banora, M.Y.; Souza-Jr., A.J.D.; Rodiuc, N.; Vieira, P.; Coelho, R.R.; Chevalier, C.; Eekhout, T.; Engler, G.; Veylder, L.; Grossi-de-Sa, M.F.; Almeida-Engler, J. (2020). The Plant WEE1 Kinase is Involved in Checkpoint Control Activation in Nematode-Induced Galls. New Phytologist, v. 225(1), p. 430-447.
CAMPOS, M.L.; Prado, G.S.; Santos, V.O.; Nascimento, L.C.; Dohms, S.M.; Cunha, N.B.; Ramada, M.H.S.; Grossi-de-Sa, M.F.; Dias, S.C. (2020). Mosses: Versatile Plants for Biotechnological Applications. Biotechnological Advances, v. 6, p. 107533.
CARVALHO, P.V.; Moretzsohn, M.C.; Brasileiro, A.C.M.; Guimaraes, P.M.; Costa, T.S.A.;  Silva, J.P.; Gimenez, M. (2020). Presence of Resveratrol in Wild Arachis Species Adds New Value to this Overlooked Genetic Resource. Scientific Reports, in press.
IBARRA, L.N.; Alves, A.E.O.A.; Souza-Jr., A.J.D.; Prado, G.S.; Pinto, C.E.M.; Soccol, C.R.; Vasconcelos, E.A.R.; Grossi-de-Sa, M.F. (2020).  Enzymatic Activity of a Recombinant β-1,4-Endoglucanase from the Cotton Boll Weevil (Anthonomus grandis) Aiming Second Generation Ethanol Production. Scientific Reports, v. 10(1), p. 5367.
MARTINS, A.C.Q.; Mehta, A.; Murad, A.M.; Mota, A.P.Z.; Passos-Saraiva, M.A.S.; Araújo, A.C.G.; Miller, R.N.G.; Brasileiro, A.C.M.; Guimaraes, P.M. (2020). Proteomics Unravels New Candidate Genes for Meloidogyne Resistance in Wild Arachis. Journal of Proteomics, v. 218, p. 103690.
MELO, B.P.; Lourenço-Tessutti, I.T.; Morgante, C.V.; Santos, N.C.; Pinheiro, L.B.; Lins, C.B.J.; Silva, M.C.M.; Macedo, L.L.P.; Fontes, E.P.B.; Grossi-de-Sa, M.F. (2020). Soybean Embryonic Axis Transformation: Combining Biolistic and Agrobacterium-Mediated Protocols to Overcome Typical Complications of In Vitro Plant Regeneration. Frontiers in Plant Science, v. 11, p. 1228.
MOTA, A.P.Z.; Fernandez, D.; Arraes, F.B.M.; Petitot, A-S.; De Melo, B.P.; Lisei-de-Sá, M.E.; Grynberg, P.; Saraiva, M.A..; Guimaraes, P.M.; Brasileiro, A.C.M.; Albuquerque, E.V.S.; Danchin, E.G.J.; Grossi-de-Sa, M.F. (2020). Evolutionarily Conserved Plant Genes Responsive to Root-Knot Nematodes Identified by Comparative Genomics. Molecular Genetics and Genomics, v. 1, p. 1.
NORIEGA, D.D.; Arraes, F.B.M.; Souza-Jr, A.J.D.; Macedo, L.L.P.; Fonseca, F.C.A.; Togawa, R.C.; Grynberg, P.; Silva, M.C.M.; Negrisoli, A.S.; Morgante, C.V.; Grossi-de-Sa, M.F. (2020). Comparative Gut Transcriptome Analysis of Diatraea saccharalis in Response to the Dietary Source. PLoS One, v. 15, p. e0235575.
RIBEIRO, T.P.; Basso, M.F.; Carvalho, M.H.; Macedo, L.L.P.; Silva, D.M.L.S.; Lourenço-Tessutti, I.T.; Oliveira-Neto, O.B.; Romano, E.; Lucena, W.A.; Silva, M.C.M.; Tripode, B.M.D.; Abreu-Jardin, T.P.F.; Miranda, J.E.; Alves-Ferreira, M.; Morgante, C.V.; Grossi-de-Sa, M.F. (2020). Stability and Tissue-Specific Cry10Aa Overexpression Improves Cotton Resistance to the Cotton Boll WeevilBiotechnology Research and Innovation, v. 3(1), p. 27-41.
SANTOS, C.; Nogueira, F.C.S.; Domont, G.B.; Fontes, W.; Prado, G.S.; Habibi, P.; Santos, V.O.; Oliveira-Neto, O.B.; Grossi-de-Sa, M.F.; Jorrín-Novo, J.V.; Franco, O.L.; Mehta, A. (2020). Proteomic Analysis and Functional Validation of a Brassica oleracea Endochitinase Involved in Resistance to Xanthomonas campestres. Frontiers in Plant Science, v. 11, p. 201.
TARAZI, R.; Jimenez, J.L.; Vaslin, M.F.S. (2020). Biotechnological Solutions for Major Cotton (Gossypium hirsutum) Pathogens and Pests. Biotechnology Research and Innovation, v. 3(1), p. 19-26.

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