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- Artigos Científicos | inctplantstress
Publicações Artigos Científicos ARTIGOS CIENTÍFICOS RELEVANTES (DE 2017) BALBINOTT, N.; Rodrigues, N.F.; Guzman, F.L.; Turchetto-Zolet, A.C.; Margis, R. (2022) . Perspectives in Myrtaceae evolution from plastomes and nuclear phylogenies. Genetics and Molecular Biology , v. 45, p. 1–13. https://doi.org/10.1590/1678-4685-gmb-2021-0191 LOPES, R.M.; Dantas, A.F.; Padua, J.G.; Jose, S.C.B.R.; Brasileiro, A.C.M.; Grisolia, C.K.; Gimenes, M.A. (2022) . Evaluation of DNA integrity as a potential marker to detect aging in soybean (Glycine max ) seeds. Genetics and Molecular Research , v. 20, n. 4, p. gmr18961. http://dx.doi.org/10.4238/gmr18961 MARTINS, A.; Mota, A.P.Z.; de Passos Saraiva, M.A; Gimenes, M.A.; Guimaraes, P.M.; Brasileiro, A.C.M. (2022) . Transcriptome responses of wild Arachis to UV-C exposure reveal genes involved in general plant defense and priming. Plants , v. 11, p. 408. https://doi.org/10.3390/plants11030408 MOREIRA, V.J.V.; Lourenço-Tessutti, I.T.; Basso, M.F.; Lisei-de-Sa, M.E.; Morgante, C.V.; Paes-de-Melo, B.; Arraes, F.B.M.; Martins-de-Sa, D.; Silva, M.C.M.; de Almeida Engler, J.; Grossi-de-Sa, M.F. (2022) . Minc03328 effector gene downregulation severely affects Meloidogyne incognita parasitism in transgenic Arabidopsis thaliana. Planta , v. 255, p. 44-59. https://doi.org/10.1007/s00425-022-03823-4 WAIRICH, A.; Malabarba, J.; Buffon, V.; Porto, D.D.; Togawa, R.; Revers, L.F. (2022) . Molecular characterization of the Rpv3 locus towards the development of KASP markers for downy mildew resistance in grapevine (Vitis spp.). Euphytica , v. 218, p. 1. https://doi.org/10.1007/s10681-021-02952-3 ALBUQUERQUE, G.M.R.; Fonseca, F.C.A.; Boiteux, L.S.; Borges, R.C.; Miller, R.N.G.; Lopes, C.A.; Souza, E.B.; Fonseca, M.E.N. (2021) . Stability analysis of reference genes for RT-qPCR assays involving compatible and incompatible Ralstonia solanacearum -tomato ‘Hawaii 7996’ interactions. Scientific Reports , v. 11, p. 18719. https://doi.org/10.1038/s41598-021-97854-8 ALEKCEVETCH, J.C.; de Lima Passianotto, A.L.; Ferreira, E.G.C.; Dos Santos, A.B.; Da Silva, D.C.G.; Dias, W.P.; Belzile, F.; Abdelnoor, R.V.; Marcelino-Guimarães, F.C. (2021) . Genome-wide association study for resistance to the Meloidogyne javanica causing root-knot nematode in soybean. Theoretical and Applied Genetics , v. 134, p. 777-792. https://doi.org/10.1007/s00122-020-03723-9 ARAUJO SOUSA, B.; Nascimento Silva, O.; Farias Porto, W.; Lima Rocha, T.; Paulino Silva, L.; Ferreira Leal, A.P.; Buccini, D.F.; Oluwagbamigbe Fajemiroye, J.; de Araujo Caldas, R.; Franco, O.L.; Grossi-De-Sá, M.F.; de La Fuente Nunez, C.; Moreno, S.E. (2021) . Identification of the active principle conferring anti inflammatory and antinociceptive properties in bamboo plant. Molecules , v. 26, p. 3054. https://doi.org/10.3390/molecules26103054 ARAUJO, A.C.G.; Guimaraes, P.M.; Guimaraes, L.A.; Martins, A.C.Q ; Mota, A.P.Z; Pereira, B.M.; Brasileiro, A.C.M. (2021) . Overexpression of Duf538 from Wild Arachis enhances plant resistance to Meloidogyne spp. Agronomy-Basel , v.11, p.559. https://doi.org/10.3390/agronomy11030559 ARRAES, F.B.M.; Martins-de-Sa, D.; Noriega Vasquez, D.D.; Melo, B.P.; Faheem, M.; de Macedo, L.L.P.; Morgante, C.V.; Barbosa, J.A.R.G.; Togawa, R.O.; Moreira, V.J.P.; Danchin, E.G.J.; Grossi-de-Sa, M.F. (2021) . Dissecting protein domain variability in the core RNA interference machinery of five insect orders. RNA Biology , v. 18, p. 1653-1681. https://doi.org/10.1080/15476286.2020.1861816 BASSO, M.F.; Costa, J.A.; Ribeiro, T.P.; Arraes, F.B.M.; Lourenço-Tessutti, I.T.; Macedo, A.F.; Neves, M.R.; Nardeli, S.M.; Arge, L.W.; Perez, C.E.A.; Silva, P.L.R; De Macedo, L.L.P.; Lisei-de-Sa, M.E.; Amorim, R.M.A.; Pinto, E.R.C.; Silva, M.C.M.; Morgante, C.V.; Floh, E.I.S.; Alves-Ferreira, M.; Grossi-de-Sa, M.F. (2021) . Overexpression of the CaHB12 transcription factor in cotton (Gossypium hirsutum ) improves drought tolerance. Plant Physiology and Biochemistry , v. 165, p. 80-93. https://doi.org/10.1016/j.plaphy.2021.05.009 BRASILEIRO, A.C.M. ; Lacorte, C; Pereira, B.M.; Oliveira, T.N.; Ferreira, D.S.; Mota, A.P.Z.; Saraiva, M.A.P.; Araujo, A.C.G.; Silva, L.P.; Guimaraes, P.M. (2021) . Ectopic expression of a gene from wild enhances tolerance to both abiotic and biotic stresses. Plant Journal, v.1, p. tpj.15409. https://doi.org/10.1111/tpj.15409 CABRAL, D.; Forero Ballesteros, H.; de Melo, B.P.; Lourenço-Tessutti, I.T.; Smões de Siqueira, K.M.; Obicci, L.; Grossi-de-Sa, M.F.; Hemerly, A.S.; de Almeida Engler, J. (2021) . The armadillo BTB protein ABAP1 is a crucial player in DNA replication and transcription of nematode-induced galls. Frontiers in Plant Science , v. 12, p. 636663. https://doi.org/10.3389/fpls.2021.636663 CABRAL, L.M.; Masuda, H.P.; Ballesteros, H.F.; de Almeida-Engler, J.; Alves-Ferreira, M.; de Toni, K.L.G.; Bizotto, F.M.; Ferreira, P.C.G.; Hemerly, A.S. (2021) . ABAP1 plays a role in the differentiation of male and female gametes in Arabidopsis thaliana. Frontiers in Plant Science , v.12, p. https://doi.org/10.3389/fpls.2021.642758 CAPELARI, E.F.; dos Anjos, L.; Rodrigues, N.F.; Sousa, R.M.D.J.; Silvera, J.A.G.; Margis, R. (2021) . Transcriptional profiling and physiological responses reveal new insights into drought tolerance in a semiarid adapted species, Anacardium occidentale. Plant Biology , v. 23, p. 1–12. https://doi.org/10.1111/plb.13312 DE MAGALHÃES DA FONSECA, G.; Nardino, M.; da Luz, V.K.; de Oliveira, V.F.; de Magalhães Da Fonseca, M.; de Magalhães Bandeira, J.; de Magalhães Júnior, A.M.; da Maia, L.C.; de Oliveira, A.C. (2021) . Gene introgression for imidazolinone group chemical herbicide tolerance. Cereal Research Communications , v. 49, p. 457-463. https://doi.org/10.1007/s42976-020-00126-w DE OLIVEIRA MAXIMINO, J.V.; Barros, L.M.; Pereira, R.M.; de Santi, I.I.; Aranha, B.C.; Busanello, C.; Viana, V.E.; Freitag, R.A.; Batista, B.L.; Costa de Oliveira, A.; Pegoraro, C. (2021) . Mineral and fatty acid content variation in white oat genotypes grown in Brazil. Biological Trace Element Research , v. 199, p. 1194-1206. https://doi.org/10.1007/s12011-020-02229-1 DE OLIVEIRA, V.F.; Busanello, C.; Viana, V.E.; Stafen, C.F.; Pedrolo, A.M.; Paniz, F.P.; Pedron, T.; Pereira, R.M.; Rosa, S.A.; de Magalhães Junior, A.M.; Costa de Oliveira, A.; Batista, B.L.; Pegoraro, C. (2021) . Assessing mineral and toxic elements content in rice grains grown in southern Brazil. Journal of Food Composition and Analysis , v. 100, p. 103914. https://doi.org/10.1016/j.jfca.2021.103914 ERLANDSON, S.R.; Margis, R.; Ramirez, A.; Nguyen, N.; Lofgren, L.A.; Liao, H.; Vilgalys, R.; Kennedy, P.G.; Peay, K.G. (2021) . Transcriptional acclimation and spatial differentiation characterize drought response by the ectomycorrhizal fungus Suillus pungens . New Phytologist . https://doi.org/10.1111/nph.17816 . FAILLACE, G.R.; Caruso, P.B.; Timmers, L.F.S.M.; Favero, D.; Guzman, F.L.; Rechenmacher, C.; Oliveira-Busatto, L.A.; Souza, O.N.; Bredemeier; C.; Bodanese-Zanettini, M.H. (2021) . Molecular characterisation of soybean Osmotins and their involvement in drought stress response. Frontiers in Genetics , v.12, p.632685. https://doi.org/10.3389/fgene.2021.632685 FREITAS, K.J.; dos Santos, R.S.; Busanello, C.; Victoria, F.C.; Lopes, J.L.; Wing, R.; de Oliveira, A.C. (2021) . Starch synthesis-related genes (SSRG) evolution in the genus Oryza. Plants , v. 10, p. 1-15. https://doi.org/10.3390/plants10061057 GALBIERI, R.; Kobayasti, L.; Albuquerque, M.C.F.; de Sá, R.O.; Dutra, S.G.; Boldt, A.S.; Timper, P. (2021) . Castor bean as an option for management in cotton. International Journal of Pest Management , v. 67, p. 1-9. https://doi.org/10.1080/09670874.2021.1953633 GARIGHAN, J.; Dvorak, E.; Estevan, J.; Loridon, K.; Huettel, B.; Sarah, G.; Farrera, I.; Leclercq, J.; Grynberg, P.; Coiti Togawa, R.; Mota Do Carmo Costa, M.; Costes, E.; Andrés, F. (2021) . The identification of small RNAs differentially expressed in apple buds reveals a potential role of the Mir159-MYB regulatory module during dormancy. Plants , v. 10, p. 2665. https://doi.org/10.3390/plants10122665 GODINHO MENDES, R.A.; Basso, M.F.; Fernandes de Araújo, J.; Paes De Melo, B.; Lima, R.N.; Ribeiro, T.P.; da Silva Mattos, V.; Saliba Albuquerque, E.V.; Grossi-De-Sa, M.; Dessaune Tameirao, S.N.; da Rocha Fragoso, R.; Mattar da Silva, M.C.; Vignols, F.; Fernandez, D.; Grossi-De-Sa, M.F. (2021) . Minc00344 and Mj-NULG1a effectors interact with GmHub10 protein to promote the soybean parasitism by Meloidogyne incognita and M. javanica . Experimental Parasitology , v. 229, p. 108153. https://doi.org/10.1016/j.exppara.2021.108153 KHANAL, C.; Galbieri, R.; Timper, P. (2021) . Rotations with Crotalaria spp. do not suppress populations of Meloidogyne incognita in cotton. Nematology , v. 23, p. 1-9. https://doi.org/10.1163/15685411-bja10086 LISEI-DE-SÁ, M.E.; Rodrigues-Silva, P.L.; Morgante, C.V.; de Melo, B.P.; Lourenço-Tessutti, I.T.; Arraes, F.B.M.; Sousa, J.P.A.; Galbieri, R.; Amorim, R.M.S.; de Lins, C.B.J.; Macedo, L.L.P.; Moreira, V.J.; Ferreira, G.F.; Ribeiro, T.P.; Fragoso, R.R.; Silva, M.C.M.; de Almeida-Engler, J.; Grossi-de-Sa, M.F. (2021) . Pyramiding dsRNAs increases phytonematode tolerance in cotton plants. Planta , v. 254, p. 121. https://doi.org/10.1007/s00425-021-03776-0 MALTZAHN, L.E.; Zenker, S.G.; Lopes, J.U.; Pereira, R.M.; Verdi, C.A.; Rother, V.; Busanello, C.; Viana, V.E.; Batista, B.L.; de Oliveira, A.C.; Pegoraro, C. (2021) . Brazilian genetic diversity for desirable and undesirable elements in the wheat grain. Biological Trace Element Research , v. 199, p. 2351-2365. https://doi.org/10.1007/s12011-020-02338-x MENDES BEZERRA, A.C.; da Cunha Valença, D.; Junqueira, N.E.G.; Hüther, C.M.; Borella, J.; Ferreira De Pinho, C.; Ferreira, M.A.; Medici, L.O.; Ortiz-Silva, B.; Reinert, F. (2021) . Potassium supply promotes the mitigation of NaCl-induced effects on leaf photochemistry, metabolism and morphology of Setaria viridis. Plant Physiology and Biochemistry , v.160, p.1. https://doi.org/10.1016/j.plaphy.2021.01.021 MENDES, R.A.G.; Basso, M.F.; Paes-de-Melo, B.; Ribeiro, T.P.; Lima, R.N.; Araujo, J.F.; Grossi-de-Sa, M.; Mattos, V.S.; Togawa, R.C.; Albuquerque, E.V.S.; Lisei-de-Sa, M.E.; Silva, M.C.M.; Macedo, L.L.P.; Fragoso, R.R.; Fernandez, D.; Vignols, F.; Grossi-de-Sa, M.F. (2021) . The Mi-EFF1/Minc17998 effector interacts with the soybean GmHub6 protein to promote host plant parasitism by Meloidogyne incognita . Physiological and Molecular Plant Pathology , v. 114, p. 101630. https://doi.org/10.1016/j.pmpp.2021.101630 MICHEREFF, M.F.F.; Grynberg, P.; Togawa, R.C.; Costa, M.M.C.; Laumann, R.A.; Zhou, J.-J.; Schimmelpfeng, P.H.C.; Borges, M.; Pickett, J.A.; Birkett, M.A.; Blassioli-Moraes, M.C. (2021) . Priming of indirect defence responses in maize is shown to be genotype-specific. Arthropod-Plant Interactions , v. 15, p. 313-328. https://doi.org/10.1007/s11829-021-09826-4 MOREIRA-PINTO, C.E.; Coelho, R.R.; Leite, A.G.B.; Silveira, D.A.; Souza, D.A.; Lopes, R.B.; Macedo, L.L.P.; Silva, M.C.M.; Ribeiro, T.P.; Antonino, J.D.; Grossi-de-Sa, M.F. (2021) . Increasing Anthonomus grandis susceptibility to Metarhizium anisopliae through RNAi-induced AgraRelish knockdown: a perspective to combine biocontrol and biotechnology. Pest Management Science , v. 77, p. 4054-4063. https://doi.org/10.1002/ps.6430 MOREIRA-PINTO, C.E.; Ramos Coelho, R.; Borges Leite, A.G.; Amaral Silveira, D.; Aguiar Souza, D.; Biaggioni Lopes, R.; Macedo, L.L.P.; Mattar Silva, M.C.; Ribeiro, T.P.; Morgante, C.V.; Antonino, J.D.; Grossi-de-Sa, M.F. (2021) . Increasing susceptibility to through-induced knockdown: a perspective to combine biocontrol and biotechnology. Pest Management Science , v. 77, p. ps.6430. https://doi.org/10.1002/ps.6430 MOTA, A.P.Z.; Brasileiro, A.C.M.; Vidigal, B.; Oliveira, T.N.; da Cunha Quintana Martins, A.; Saraiva, M.A.P.; de Araújo, A.C.G.; Togawa, R.C.; Grossi-de-Sá, M.F.; Guimaraes, P.M. (2021) . Defining the combined stress response in wild Arachis. Scientific Reports , v. 11, p. 11097. https://doi.org/10.1038/s41598-021-90607-7 NETO, M.C.L.; Carvalho, F.E.L.; Souza, G.M.; Silveira, J.A.G. (2021) . Understanding photosynthesis in a spatial-temporal multiscale: The need for a systemic view. Theoretical and Experimental Plant Physiology, v. 33, p. 113-124. https://doi.org/10.1007/s40626-021-00199-w NIZOLLI, V.O.; Pegoraro, C.; Oliveira, A.C. (2021) . Rice blast: strategies and challenges for improving genetic resistance. Crop Breeding and Applied Biotechnology , v. 21, p. e387721S9. https://doi.org/10.1590/1984-70332021v21Sa22 PAES DE MELO, B.; Lourenço-Tessutti, I.T.; Fraga, O.T.; Pinheiro, L.B.; de Jesus Lins, C.B.; Morgante, C.V.; Engler, J.A.; Reis, P.A.B.; Grossi-De-Sá, M.F.; Fontes, E.P.B. (2021) . Contrasting roles of GmNAC065 and GmNAC085 in natural senescence, plant development, multiple stresses and cell death responses. Scientific Reports , v. 11, p. 11178. https://doi.org/10.1038/s41598-021-90767-6 PAES DE MELO, B.; Moura, S.M.; Morgante, C.V.; Pinheiro, D.H.; Alves, N.S.F.; Rodrigues-Silva, P.L.; Lourenço-Tessutti, I.T.; Andrade, R.V.; Fragoso, R.R.; Grossi-de-Sa, M.F. (2021) . Regulated promoters applied to plant engineering: an insight over promising soybean promoters under biotic stress and their cis-elements. Biotechnology Research and Innovation , v. 5, p. e2021005. http://dx.doi.org/10.4322/biori.202105 RIBEIRO, T.P.; Lourenço-Tessutti, I.T.; De Melo, B.P.; Morgante, C.V.; Filho, A.S.; Lins, C.B.J.; Ferreira, G.F.; Mello, G.N.; Macedo, L.L.P.; Lucena, W.A.; Silva, M.C.M.; Oliveira-Neto, O.B.; Grossi-de-Sa, M.F. (2021) . Improved cotton transformation protocol mediated by Agrobacterium and biolistic combined-methods. Planta , v. 254, p. 20. https://doi.org/10.1007/s00425-021-03666-5 RODRIGUES-SILVA, P.L.; Amorim, G.C.; Andrade, I.E.P.C.; Cunha, V.A.; Figueiredo, L.H.M.; Grossi-de-Sa, M.F. (2021) . Monitoramento tecnológico da planta cagaita (Eugenia dysenterica ) e aplicações biotecnológicas potenciais. Cadernos de Prospecção , v. 14, p. 1248-1264. https://doi.org/10.9771/cp.v14i4.38459 RODRIGUES-SILVA, P.L.; Fernandes, P.B.B.; Rodrigues, M.T.; Figueiredo, L. H. M.; Grossi-de-Sa, M.F. (2021) . Tendências quanto ao conhecimento e às aplicações biotecnológicas do Psidium guineense evidenciadas pelo monitoramento tecnológico. Cadernos de Ciência & Tecnologia , v. 38, p. e26704. https://doi.org/10.35977/0104-1096.cct2021.v38.26704 SALGADO, F.F.; Vieira, L.R.; Silva, V.N.B.; Leão, A.P.; Grynberg, P.; do Carmo Costa, M.M.; Togawa, R.C.; de Sousa, C.A.F.; Júnior, M.T.S. (2021) . Expression analysis of miRNAs and their putative target genes confirm a preponderant role of transcription factors in the early response of oil palm plants to salinity stress. BMC Plant Biology, v. 21, p. 518. https://doi.org/10.1186/s12870-021-03296-9 SILVA SANTOS, A.; de Andrade, E.M.; de Oliveira Sousa, A.R.; do Carmo Costa, M.M.; Togawa, R.; Grynberg, P.; Pirovani, C.P.; Santos Oliveira, S.A.; dos Santos Soares Filho, W.; Filho, M.A.C.; da Silva Gesteira, A.; Ferreira, C.F. (2021) . Transcriptome profile of drought responsive candidate genes in varieties of citrus rootstocks with different tolerance strategies. Scientia Horticulturae , v. 277, p. 109838. https://doi.org/10.1016/j.scienta.2020.109838 SILVA, A.V.V.; Vaz, C.M.; Ferreira, E.J.; Galbieri, R. (2021) . Classification based on rules for the study of cotton productivity in the state of Mato Grosso. Revista de Informática Teórica e Aplicada: Rita , v. 28, p. 66-89. https://doi.org/10.22456/2175-2745.108126 SOARES, J.M.; Rocha, A.J.; Nascimento, F.S.; Santos, A.S.; Miller, R.N.G.; Ferreira, C.F.; Haddad, F.; Amorim, V.B.; Amorim, E.P. (2021) . Genetic improvement for resistance to Black Sigatoka in bananas: a systematic review. Frontiers in Plant Science , v. 12, p. 657916. https://doi.org/10.3389/fpls.2021.657916 SOUSA, R.T.; Paiva, A.L.S.; Carvalho, F.E.L.; Alencar, V.T.C.B.; Silveira, J.A.G. (2021) . Ammonium overaccumulation in senescent leaves as a novel exclusion mechanism to avoid toxicity in photosynthetically active rice leaves. Environmental and Experimental Botany , v. 186, p. 104452. https://doi.org/10.1016/j.envexpbot.2021.104452 TRAVASSOS-LINS, J.; De Oliveira Rocha, C.C.; De Souza Rodrigues, T.; Alves-Ferreira, M. (2021) . Evaluation of the molecular and physiological response to dehydration of two accessions of the model plant Setaria viridis . Plant Physiology and Biochemistry , v.169, p. 43. https://doi.org/10.1016/j.plaphy.2021.11.015 VALERIANO, F.R.; de Moura, S.M.; Travassos-Lins, J.; Alves-Ferreira, M.; Vieira, R.C.; Ortiz-Silva, B.; Reinert, F. (2021) . Evaluation of Setaria viridis responses to salt treatment and potassium supply: a characterization of three contrasting accessions. Brazilian Journal of Botany , v. 44, p. 821–836. https://doi.org/10.1007/s40415-021-00773-1 VIANA, V.E.; Carlos da Maia, L.; Busanello, C.; Pegoraro, C.; Costa de Oliveira, A. (2021) . When rice gets the chills: comparative transcriptome profiling at germination shows WRKY transcription factor responses. Plant Biology , v. 23, p. 100-112. https://doi.org/10.1111/plb.13262 ANTON, D.B.; Guzman, F.L.; Vetö, N.M.; Krause, F.A.; Kulcheski, F.R.; Coelho, A.P.D.; Duarte, G.L.; Margis, R.; Dillenburg, L.R.; Turchetto-Zolet, A.C. (2020) . Characterization and expression analysis of P5CS (Δ1 ‑ pyrroline ‑ 5 ‑ carboxylate synthase) gene in two distinct populations of the Atlantic Forest native species Eugenia uniflora L. Molecular Biology Reports. v. 47, p. 1033–1043. https://doi.org/10.1007/s11033-019-05195-7 ARAUJO, 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 stresses. Biotechnology Research and Innovation , v. 3, p. 80-94. https://doi.org/10.1016/j.biori.2020.01.002 BABILONIA, K.; Wang, P.; Liu, Z.; Jamieson, P.; Mormile, B.; Rodrigues, O.; Zhang, L.; Lin, W.; Clement, C.D.; Moura, S.M.; Alves Ferreira, M.; Finlayson, S.A.; Nichols, R.L.; Wheeler, T.A.; Dever, J.K.; Shan, L.; He, P. (2020) . A non-proteinaceous Fusarium cell wall extract triggers receptor-like protein-dependent immune responses in Arabidopsis and cotton. New Phytologist , v. 229, p. 1. https://doi.org/10.1111/nph.17146 BASSO, M.F.; Arraes, F.B.M.; Grossi-de-Sa, M.; Vaz-Moreira, V.J.; Alves-Ferreira, M.; Grossi-de-Sa, M.F. (2020) . 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Genetics and Molecular Research , 16:1. http://dx.doi.org/10.4238/gmr16029715 LUCHE HS, Silva JAG, Nornberg R, Arenhardt EG, Rosa-Caetano V, Maia LC, Costa-de-Oliveira A (2017) . Prediction of parental combination for introduction of stay-green associated loci in wheat. Journal of Crop Science and Biotechnology (Seoul), 20:73-80. https://doi.org/10.1007/s12892-016-0127-0 ARENHARDT EG, Silva JAG, Arenhardt LG, Silva DR, Gzergorczick ME, Ceolin GP, Stülp C, Figueiredo RG, Oliveira AC (2017) . Technical and agronomic efficiency of oat cultivars as a function of nitrogen availability. Científica (Jabotical), 45:257-270. https://doi.org/10.15361/1984-5529.2017v45n3p257-270 VIANA VE, Marini N, Finatto T, Ezquer I, Busanello C, Santos R, Pegoraro C, Colombo L, Costa-de-Oliveira A (2017) . Iron excess in rice: from phenotypic changes to functional genomics of WRKY transcription factors. Genetics and Molecular Research , 16:1. https://dx.doi.org/10.4238/gmr16039694
- Início | inctplantstress
PlantStress Biotech INCT Biotechnological Assets Applied to Drought and Pests in Relevant Crops for Agribusiness About Us Main biotic and abiotic stresses we work Boll weevil Anthomonus grandis Nematode Meloidogyne incognita Meloidogyne javanica Drought Drought tolerance genes Caterpillars Helicoverpa armigera Spodoptera frugiperda What We Do The National Institute of Science and Technology, PlantStress Biotech INCT, integrates various Brazilian research groups and international partners, experts in plant physiology, transcriptomic, epigenetic, proteomic, bioinformatic and functional genomics analyses. The integrative research group represents a multidisciplinary and multi-institutional network with national and international excellence to generate innovative biotechnologies applied to corn, soybean and cotton focused on the tolerance to deficit hydric and pest control (Meloidogyne spp, H. armigera and S. frugiperda ). The project includes bioprospection, isolation, characterization, and functional validation of genes/molecules involved in plant pest resistance and drought tolerance. Read More Our Goals Focusing on agribusiness, the INCT PlantStress Biotech has significantly contributed to boosting productivity, sustainability, and competitiveness in the sector. Its research spans from improvements in agricultural practices to the development of innovative technologies. Beyond drought stress and pest control, the generated biotechnological assets hold the potential to influence other critical traits like seed and fruit quality, nutritional value enhancement, and more. This holistic approach positions the INCT as a cornerstone for the advancement of the Brazilian agribusiness, promising a future where innovation and sustainability coalesce for the benefit of society at large. Read More A high-impact program for Brazilian Agriculture 250+ Published Scientific Papers 30+ Researchers Involved 24+ Dev eloped Paten ts 11 Brazilian Research Institutes 12 Abroad Instituition 30+ Master's 20+ Ph.Ds trained Notícias Coordinator of the INCT PlantStress Biotech participated in the RNAi Discussion Forum during the Brazilian Congress of Entomology 25/09/2024 Ler Ver mais Antonio Costa de Oliveira, researcher at INCT PlantStress Biotech, participated in international scientific events 24/09/2024 Ler Ver mais INCT PlantStress Biotech research highlighted at a student meeting 07/09/2024 Ler Ver mais Ver tudo Eventos Científicos Simpósio Brasileiro de Genética Molecular de Plantas 27 - 30 May 2025 Mais Informações 8th Brazilian Biotechnology Congress 19 - 22 October 2025 Mais Informações 4th Bio Iberoamérica 3-6 September 2024 Mais Informações Ver tudo Onde estamos? Laboratórios associados Parceiros INCT PlantStress Biotech Contato
- Postdoctoral and graduate team | inctplantstress
Postdoctoral and Graduate team Clidia Eduarda Moreira Pinto Postdoctoral Researcher Gabriele Louise Trindade Araújo Master's Student at Universidade Católica de Brasília Lorena Sousa de Loiola Costa Ph.D. Student at Universidade de Brasília Naiara Cordeiro Santos Master's Student at Universidade Católica de Brasília Thuanne Pires Ribeiro Postdoctoral Researcher Daniel David Noriega Vasquez Postdoctoral Researcher Gisele Pereira Domiciano Postdoctoral Researcher Luanna Pinheiro de A. Freitas Bezerra Ph.D. Student at Universidade Católica de Brasília Náttany Souza Costa Master's Student at Universidade de Brasília Valdeir Junio Vaz Moreira Ph.D. Student at Universidade de Brasília Débora Gonçalves Pereira Postdoctoral Researcher João Pedro Abreu Sousa Master's Student at Universidade Católica de Brasília Lays Antunes Teixeira Master's Student at Universidade Católica de Brasília Rangel de Freitas Alves Ph.D. Student at Universidade de Brasília Francisco Humberto Henrique Postdoctoral Researcher Julia Moura do Rosário Santana Master's Student at Universidade Católica de Brasília Mateus Meira dos Santos Biotechnologist Universidade de Brasília Stéfanie Menezes de Moura Postdoctoral Researcher
- About us | inctplantstress
Sobre nós No cenário atual, quando importantes culturas apresentam naturalmente baixos níveis de tolerância à seca e de resistência a insetos-pragas e nematoides, a quebra da resistência de novas cultivares e os complexos mecanismos de resposta da planta aos estresses ambientais associados (abióticos e bióticos), juntamente com o pequeno número de genes caracterizados e introgredidos foram relatados. Portanto, a busca por novos genes ou moléculas envolvidas na tolerância ou resistência a pragas ou seca é imperativa, bem como seu empilhamento para transformar cultivares adaptadas a diferentes condições climáticas e de solo. Nesse contexto, o “INCT Biotec Seca-Pragas” propõe a integração de diversos grupos de pesquisa brasileiros e parceiros internacionais, especialistas em fisiologia vegetal, transcriptômica, epigenética, proteômica, bioinformática e genômica funcional. O grupo de pesquisa integrado visa desenvolver uma rede multidisciplinar e multi-institucional com excelência nacional e internacional para geração de ativos biotecnológicos aplicados ao milho, soja e algodão visando tolerância ao déficit hídrico e controle de pragas (Meloidogyne spp., Helicoverpa armigera e Spodoptera frugiperda ). Este projeto inclui a prospecção, isolamento, caracterização e validação funcional de genes e moléculas envolvidas na resistência a pragas e tolerância ao déficit hídrico. Os ativos gerados serão aplicados no desenvolvimento de produtos biotecnológicos como bioinseticidas e plantas geneticamente modificadas de soja, milho e algodão, com tolerância/resistência múltipla aos estresses estudados (piramidação). Além disso, os ativos gerados neste projeto, o conhecimento em fatores moleculares e fisiológicos relacionados à tolerância à seca e interação com pragas e outros estresses ambientais contribuirão para prevenir, mitigar e adaptar-se ao impacto causado pelas mudanças climáticas. Paralelamente à sua agenda científica, os grupos de pesquisa do INCT não pouparão esforços para promover a qualificação de estudantes e profissionais nas áreas relacionadas ao projeto, principalmente biotecnologia, genômica e bioinformática, seja no Brasil ou no exterior. No futuro, a rede do INCT poderá ser utilizada não apenas para a geração de ativos biotecnológicos aplicados à seca e pragas em soja, algodão e milho, mas também para outras características agronômicas importantes (qualidade de sementes e frutos, aumento do valor nutricional e outros) e importantes culturas para o agronegócio brasileiro. Ver Publicações Estrutura organizacional
- AL 16 - Maite Vaslin de Freitas Silva | inctplantstress
AL 15 - Colaborador Descrição do Laboratório Neste INCT, o Laboratório de Biotecnologia Vegetal da Embrapa Soja atuará na prospecção de genes envolvidos no parasitismo em nematoides, validação de genes identificados por meio de ensaios de expressão transiente (plantas compostas de soja) e/ou silenciamento gênico induzido por vírus (VIGS), bem como genes de resistência e mecanismos de defesa em soja. Por fim, auxiliará na caracterização molecular de plantas de soja transformadas contendo genes previamente validados em plantas modelo por AL 02 e AL 08, visando a identificação de eventos elite, úteis no Programa de Melhoramento Genético. Esperamos que as atividades desenvolvidas neste instituto de pesquisa possam contribuir para o desenvolvimento de tecnologias para a sustentabilidade da cadeia produtiva da soja, incluindo genótipos adaptados a diferentes condições edafoclimáticas e estresses que afetam a cultura. Linhas de Pesquisa Mapeamento genético e associativo de genes de resistência a nematoides da galha em soja. Predição e caracterização funcional de genes envolvidos no parasitismo de nematóides. Validar a função de genes vegetais potencialmente envolvidos na resistência a nematoides por meio de estratégias de superexpressão ou silenciamento. Validar a função de genes de nematóides potencialmente envolvidos nos mecanismos de parasitismo, via estratégias de silenciamento gênico (RNAi) em sistemas modelo. Nosso tempo Francismar C. Marcelino Guimarães Líder da equipe Francismar Correa Marcelino é biólogo formado pela Universidade Federal de Viçosa (2000), onde também fez mestrado e doutorado em Genética e Melhoramento (2006). Fez pós-doutorado (2011) em Molecular Plant Pathology na Iowa State University (EUA). É pesquisadora da Embrapa Soja, atuando na área de Genética Molecular de Plantas, com foco em interação molecular planta-patógeno, nas linhas de pesquisa de transcriptômica em resposta à infecção por fitopatógenos ( P. pachyrhizi e nematoides), caracterização de efetores e genômica funcional em soja. Atua também na identificação e validação de marcadores SNPs por meio de estratégias de ressequenciamento genético para aplicação em seleção assistida para o desenvolvimento de cultivares de soja. É professora e orientadora da Universidade Estadual de Londrina no curso de pós-graduação em Biotecnologia e Genética e em Bioinformática na UFTPR. Tem experiência nas áreas de Genética Molecular Vegetal, Interação Molecular Planta-Patógeno, Bioquímica e Biotecnologia. Já orientou/coorientou diversos alunos de iniciação científica, doutorado e pós-doutorado nas diferentes linhas de pesquisa em que trabalha. Contato Francismar C. Marcelino Guimarães EMBRAPA Soja Estrada Campus Carlos João Strass (Acesso Orlando Amaral) - Caixa Postal 231 - CEP 86001-970 - Londrina, PR - Brasil E-mail: francismar.marcelino@embrapa.br Telefone: +55 43 3371-6000
- Dissertations and Thesis | inctplantstress
Publicações Dissertações e Teses Tese de doutorado Ana Gabriela Borges Leite. Novas biomoléculas potencialmente aplicadas no controle de Anthonomus grandis , via RNA interferente. 2020. Tese (Doutorado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Clidia Eduarda Moreira Pinto. Transcriptoma do intestino de Anthonomus grandis : Identificação e validação de genes na disgestão e defesa imune.. 2020. Tese (Doutorado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Reneida Aparecida Godinho Mendes. Validação de moléculas efetores potencialmente aplicadas no controle da meloidoginose. 2020. Tese (Doutorado em Biotecnologia e Biodiversidade - Rede Pró-Centro-Oeste) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Fabricio Barbosa Monteiro Arraes. Genomic and transcriptomic analysis applied to biotecnology: emphasis on biotic and abiotic stresses. 2020. Tese (Doutorado em Biologia Celular e Molecular) - Universidade Federal do Rio Grande do Sul. Orientador: Maria Fatima Grossi de Sa. Liz Nathalia Ibarra Duarte. Clonagem, expressão recombinante e atividade de enzimas de insetos-praga, visando à degradação de biomassa vegetal. 2020. Tese (Doutorado em Processos Biotecnológicos) - Universidade Federal do Paraná. Orientador: Maria Fatima Grossi de Sa. Bruno Paes de Melo. Transcriptional modulation and characterization of plant-specific trans-acting factors in abiotic stress responses. 2020. Tese (Doutorado em Bioquimica Agricola) - Universidade Federal de Viçosa. Coorientador: Maria Fatima Grossi de Sa. Rayssa Almeida Garcia. Estratégias para aumentar a eficiência de dsRNA no silenciamento gênico no bicudo-do-algodoeiro, Anthonomus grandis . 2019. Tese (Doutorado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Ana Paula Zotta Mota. A study of molecular responses to abiotic and biotic stresses in Arachis . 2019. Tese (Doutorado em Biologia Celular e Molecular) - Universidade Federal do Rio Grande do Sul. Orientador: Maria Fatima Grossi de Sa. Elinea de Oliveira Freitas. Isolamento e caracterização de promotores induzíveis em resposta a estresses biótico e abiótico. 2019. Tese (Doutorado em Biotecnologia e Biodiversidade - Rede Pró-Centro-Oeste) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Hudson Fernando Nunes Moura. Transcriptoma de Helicoverpa armigera (Lepidoptera: noctidae): Interação com hospedeiros e identificação de alvos biotecnológicos para o controle do inseto. 2019. Tese (Doutorado em Programa de Pós-Graduação em Biologia Molecular) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Joaquin Felipe Paixão Roca. Control biotechnology improvement of plants against biotic and abiotic stresses: use of CRISPR/dCas9 transcriptional regulation and transgenic cotton. 2018. Tese (Doutorado em Biotecnologia e Biodiversidade - Rede Pró-Centro-Oeste) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Thuanne Pires Ribeiro. Desenvolvimento de variedade brasileira de algodão altamente resistente ao bicudo-do-algodoeiro. 2018. Tese (Doutorado em Biotecnologia e Biodiversidade - Rede Pró-Centro-Oeste) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Guilherme Souza Prado. Estratégias biotecnológicas baseadas em engenharia genética de plantas para a produção de moléculas com potencial de aplicação na agricultura e saúde humana. 2018. Tese (Doutorado em Ciências Genômicas e Biotecnologia) - Universidade Católica de Brasília. Orientador: Maria Fatima Grossi de Sa. Peyman Habibi. Production of novel HIV entry inhibitor griffthsin in Nicotiana benthamiana and Moss Systems. 2018. Tese (Doutorado em Processos Biotecnológicos) - Universidade Federal do Paraná. Orientador: Maria Fatima Grossi de Sa. Angelina Maria Moreschi Basso. Caracterização do potencial imunomodulador de polissacarídeo de basidiomicetos e aplicação em modelo de infecção fúngica experimental. 2017. Tese (Doutorado em Patologia Molecular) - Universidade de Brasília. Coorientador: Maria Fatima Grossi de Sa. Luciana Harumi Morimoto Figueiredo. Biotecnologia e biodiversidade agropecuária: panorama patentário e oportunidade para a Região Centro-Oeste. 2017. Tese (Doutorado em Biotecnologia e Biodiversidade - Rede Pró-Centro-Oeste) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Dissertação de mestrado Diogo Martins-de-Sa. Functional and evolutionary investigation of proteins using structure-based sequence alignment and comparative structure modeling. 2021. Dissertação de Mestrado (Mestrado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Coorientadora: Maria Fátima Grossi de Sá. Paolo Lucas Rodrigues Silva. Validação in planta de potenciais genes no controle de fitonematoides, via tecnologia de RNA interferente. 2020. Dissertação (Mestrado em Ciências Genômicas e Biotecnologia) - Universidade Católica de Brasília. Orientador: Maria Fatima Grossi de Sa. Valdeir Junio Vaz Moreira. Uso do RNA de interferência para a validação funcional de genes de parasitismo do fitonematoide Meloidogyne incognita . 2019. Dissertação (Mestrado em Biologia Celular e Molecular) - Universidade Federal do Rio Grande do Sul. Orientador: Maria Fatima Grossi de Sa. Helena Ribeiro Barbosa. Analise do transcriptoma dos principais estadios de desenvolvimento da broca-do-café (Hypothenemus hampei ) e avaliação de potenciais genes alvos aplicados ao seu controle. 2019. Dissertação (Mestrado em Biologia Celular e Molecular) - Universidade Federal do Rio Grande do Sul. Orientador: Maria Fatima Grossi de Sa. Alvaro Lorenço Ortolan Salles Filho. Aplicação de nanoformulações no silenciamento gênico em insetos e transformação de plantas. 2019. Dissertação (Mestrado em Ciências Genômicas e Biotecnologia) - Universidade Católica de Brasília. Orientador: Maria Fatima Grossi de Sa. Daiane Medeiros de Oliveira. Produção e purificação do peptídeo hemopressina com potencial farmacológico. 2018. Dissertação (Mestrado em Ciências Farmacêuticas) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Dagna Maria Laurindo da Silva. Transformação genética de uma variedade brasileira de algodão para controle do Bicudo-do-Algodoeiro. 2018. Dissertação (Mestrado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Daniel David Noriega Vásquez. Abordagem molecular para o controle de lepidópteras praga da cana-de-açucar via transcriptômica e RNA interferente. 2018. Dissertação (Mestrado em Ciências Biológicas (Biologia Molecular)) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa. Nevilde Maria Riselo Sales. Reaproveitamento de Resíduo agroindustrial para o isolamento de Beta-Glucana e avaliação da atividade antimicrobiana. 2017. Dissertação (Mestrado em Nutrição Humana) - Universidade de Brasília. Orientador: Maria Fatima Grossi de Sa.
- AL02 - Rogério Margis | inctplantstress
AL 02 - Transcrição, Epigenética e Genômica Funcional Atividades de Laboratório com PlantStress Biotech INCT Sequenciamento de um genótipo de uma espécie nativa do Brasil (pitangueira). Sequenciamento de transcriptomas associados à resposta à seca de espécies nativas do Brasil (amendoim silvestre, pitangueira, Clúsia e caju) por sequenciamento em larga escala. Identificar e selecionar in silico genes candidatos relacionados à tolerância à seca de espécies nativas (amendoim bravo, pitangueira, Clúsia e caju). Identificar InDels e SNPs em genes candidatos de espécies nativas associadas à resposta à seca (amendoim bravo, pitangueira e caju). Validar in vitro o perfil de expressão de genes candidatos à tolerância à seca obtidos em espécies nativas do Brasil (amendoim silvestre, pitangueira, Clúsia e caju). Sequenciar na plataforma Illumina uma fração de RNAs pequenos, e seus mRNAs alvo, e RNAs circulares de plantas (Arachis, Musa, soja, pitangueira e cajueiro) submetidas a estresses bióticos e/ou abióticos. Analisar os dados de sequenciamento para verificar o estado de metilação de promotores de genes nas vias metabólicas de interesse. Validar a função de genes vegetais potencialmente envolvidos em mecanismos de tolerância à seca em plantas de Arabidopsis, arroz ou sépia por meio de estratégias de superexpressão ou silenciamento. Organizar, manter e compartilhar um banco in vivo dos ativos de inovação obtidos no projeto compartilhado pelos membros do INCT. Descrição do Laboratório As pesquisa realizadas em nosso laboratório são relacionadas à prospecção e caracterização de genes envolvidos na resposta de plantas a estresses abióticos (seca, salinidade, UV, temperatura, etc). As plantas estudas são: a soja (Glycine max ), pitangueira (Eugenia uniflora ), cajueiro (Anacardium ocidentale ) e as plantas modelo arabidopsis e arroz. Abordagens: sequenciamento NGS de mRNAs e DNA genômico; análises da expressão gênica por RT-qPCR; superexpressão de genes alvo e estudo de efeitos fenotípicos e de tolerância ao estresse; análise de microbioma foliar associada ao estresse. Linhas de Pesquisa Resposta de plantas nativas neotropicais e plantas cultivadas a estresses abióticos: seca e salinidade. Identificação de genes relacionados à adaptação de plantas e tolerância a estresses abióticos. Caracterização da rede de interação entre microRNAs - circRNAs e mRNAs na regulação da expressão gênica. Estudo dos mecanismos e quantificação de eventos de edição de mRNA em cloroplastos em resposta a estresses. Análise do microbioma foliar em resposta a estresses abióticos e do backgroud genético. Nosso tempo Rogério Margis Líder da equipe Rogerio Margis completou seu doutorado no Institut de Biologie Moleculaire des Plantes, IBMP do CNRS, na Université Louis Pasteur de Strasbourg I, França, em 1993. Em 2002 fez um pós-doutorado relacionado aos processos de interferência de RNA e produção de microRNAs em plantas na indústria de plantas do CSIRO em Canberra, Austrália. Atualmente é pesquisador do CNPq e Professor Titular do Departamento de Biofísica e Centro de Biotecnologia da Universidade Federal do Rio Grande do Sul. Membro titular da Academia Brasileira de Ciências desde 2016. De 1994 a 2003 foi professor adjunto da UFRJ. Na UFRGS, atua como pesquisador do núcleo permanente e orientador nos programas de pós-graduação em Genética e Biologia Molecular (PPGBM) e Biologia Celular e Molecular (PPGBCM). Atualmente participa de projetos de pesquisa relacionados aos temas: processos de interferência de RNA, RNAs pequenos e RNAs não codificantes em arroz, soja e espécies nativas Neotropicais; ação da cisteína proteases e seus inibidores; proteínas relacionadas a estresses abióticos (frio, seca e metais) e estresse oxidativo (APx e GPx). Atua nas áreas de Genética e Bioquímica, com ênfase em Biologia Molecular: regulação da expressão gênica e marcadores moleculares. Em suas atividades profissionais, interagiu com mais de uma centena de colaboradores nacionais e internacionais em projetos e coautoria de trabalhos científicos. Márcia Pinheiro Margis Possui graduação em Ciências Biológicas pela Universidade do Estado do Rio de Janeiro (1983), mestrado em Bioquímica pela Universidade Federal do Rio de Janeiro (1987) e doutorado em Biologie Moleculaire Des Plantes - Universite de Strasbourg I - França (1993). Professor Titular do Departamento de Genética da Universidade Federal do Rio Grande do Sul. É membro titular da Academia Brasileira de Ciências. Membro titular do Comitê Consultivo de Genética do CNPq (CA-GE) entre julho de 2011 e junho de 2014. Foi membro da diretoria da Sociedade Brasileira de Genética (SBG), tendo sido primeira tesoureira, primeira secretária, vice-presidente e presidente (2016 a 2018). Membro da CTNBio entre março de 2012 e fevereiro de 2014. Coordenador dos Programas de Pós-Graduação em Genética da Universidade Federal do Rio de Janeiro (2000-2001) e da Universidade Federal do Rio Grande do Sul (2011 a 2015). Editor da revista Genetics and Molecular Biology. Presidente da Federação Internacional de Genética (desde setembro de 2018). Tem experiência na área de Genética, com ênfase em Genética Vegetal, atuando principalmente nos seguintes temas: respostas de defesa de plantas contra estresses abióticos, enzimas do metabolismo antioxidante e genômica funcional de plantas. Contato Rogério Margis Universidade Federal do Rio Grande do Sul - Departamento de Biofísica - Sala 206 - LGPP Campus do Vale, Avenida Bento Gonçalves 9500, Prédio 4342212, CEP 91501-910, Porto Alegre, RS, Brasil Telefone: +55 51 3008-6234 E-mail: rogerio.margis@ufrgs.br
- Opportunities | inctplantstress
Oportunidades de bolsas Oportunidades abertas 01 Oportunidade Título da candidatura: Analista de pesquisa | Bolsista Transformação genética de soja Oportunidade de bolsa para área de Engenharia Genética. Procuramos profissionais criativos, com visão inovadora, com experiência em biotecnologia e biologia molecular. Responsibilidades Conduzir a transformação genética de soja para resistência a insetos; Caracterização molecular de eventos transgênicos, a nível de DNA, RNA e proetína; Realizar análises de expressão gênica (RNAm e proteína); Transformação de bactérias e células competentes; Elaboração e publicação de artigos e outros conteúdos sobre Biotecnologia e Biologia Molecular. Qualificação Graduação em Ciencias Biológicas, Agronomia ou Biotecnologia; Mestrado em biologia molecular, biologia celular, fisiologia, biotecnologia ou áreas afins; Experiência em transformação genética de plantas, caracterização molecular, cultura de tecidos, RTqPCR; Domínio da língua inglesa (leitura e escrita); Disponibilidade para trabalho presencial 40 horas semanais em Brasília, DF; Boas habilidades de escrita; Conhecimento no pacote Microsoft Office; Disposto a aprender sobre novas tecnologias; Criatividade e proatividade. Período: 12 meses Início: Março de 2024 Valor da bolsa: R$ 4.000,00 Local: Laboratório de Interação Molecular Planta-Praga | EMBRAPA Recursos Genéticos e Biotecnologia, Brasília (DF) Prazo de submissão: 30 de janeiro de 2024 Documentos necessários: Carta de motivação (descrevendo principais competências, experiências e objetivos) e link para o CV Lattes atualizado. Enviar candidatura para: inctplantstressbiotech@gmail.com Assunto: Bolsa Transformação soja 02 Oportunidade Título do trabalho: Bolsa de Pós Doutorado visando apoiar projeto de Desenvolvimento de Diagnósticos Moleculares e Sorológicos do Tipo Point of Care. Responsabilidades: Executar atividades de desenvolvimento e produção de anticorpos Policlonais e Monoclonais, ensaios de ELISA, RT-PCR, qPCR (PCR em tempo Real), Desenvolver teste do Tipo Point of Care; além da produção de conteúdos técnico-científicos. Requisitos: Doutorado em Biologia Molecular, Bioquímica, Biologia Celular, Imunologia e áreas afins. Experiência requerida: Biologia molecular e Biotecnologia Período : 24 meses Valor da bolsa: R$ 6.900,00 Local: EMBRAPA Recursos Genéticos e Biotecnologia, Brasília (DF) Prazo de submissão: Até 09 de fevereiro de 2024 Documentos necessários: Curriculo Lattes atualizado nos últmos 2 meses. Diploma de Doutorado e Histórico Escolar do Doutourado. Contato para candidatura: emanuel.abreu@embrapa.br 03 Opportunity Publication date: June 14th, 2022 Título do trabalho: Transformação de soja Responsabilidades: Transformação genética de plantas, cultura de tecidos vegetais, análises moleculares Requisitos: Mestrado em biologia molecular, biologia celular, fisiologia, biotecnologia ou áreas afins. Período : 12 meses Valor da bolsa: R$ 3.000,00 Local: LA 9 - EMBRAPA Recursos Genéticos e Biotecnologia, Brasília (DF) Prazo de submissão: 30 de junho de 2022. Documentos necessários: Carta de motivação e link para o CV Lattes atualizado. Contato para candidatura: carolina.morgante@embrapa.br 04 Opportunity Publication date: March 11 th, 2022 Título do trabalho: Cultivo de raízes do tipo silvestre "raízes cabeludas" de espécies de Arachis Responsabilidades: Transformação genética de plantas, cultura de tecidos vegetais, moléculas moleculares Requisitos: Doutorado em biologia molecular, biologia celular, fisiologia, biotecnologia ou áreas afins Período: 2022-2023, renovado por mais 1 ano Valor da bolsa: R$ 4.300,00 Local: LA 5 - EMBRAPA Recursos Genéticos e Biotecnologia, Brasília (DF) Contato para candidatura: ana.brasileiro@embrapa.br 05 Opportunity Publication date: March 11 th, 2022 Título do trabalho: Edição de genes de suscetibilidade (S) e de resistência (R) em plantas compostas de soja Responsabilidades: Genes (CRISPR), Edição de moleculares, análise de bioinformática Requisitos: Doutorado em biologia molecular, bioinformática, biologia celular Período: 2022-2023, renovado por mais 1 ano Valor da bolsa: R$ 4.300,00 Local: LA 5 - EMBRAPA Recursos Genéticos e Biotecnologia , Brasília (DF) Contato para candidatura: patricia.guimaraes@embrapa.br
- AL07 - Leonardo Lima Pepino de Macedo | inctplantstress
AL 07 - Insetos-Nematóides: Criação e Bioensaios Atividades de Laboratório com PlantStress Biotech INCT Organizar, manter e compartilhar um banco in vivo dos ativos de inovação obtidos no projeto compartilhado pelos membros do INCT. Leonardo Lima Pepino de Macedo Líder da equipe Possui graduação em Ciências Biológicas pela Universidade Federal do Rio Grande do Norte (2005). O curso de Mestrado em Bioquímica foi realizado na Universidade Federal do Rio Grande do Norte (2007). Com doutorado concluído pelo programa de Ciência Genômica e Biotecnologia da Universidade Católica de Brasília (2012). Tem experiência em Bioquímica e Biologia Molecular. Atuando nos seguintes temas: Clonagem e expressão de proteínas em sistemas heterólogos; Bioprospecção de proteínas com atividade entomotóxica (vicilinas, lectinas, inibidores de proteinases e toxinas Cry) visando o controle de insetos dípteros, lepidópteros e coleópteros; e desenvolvimento de estratégias de silenciamento de genes via RNA interferente (RNAi) para o controle de insetos-praga. Contato Leonardo Lima Pepino de Macedo EMBRAPA Recursos Genéticos e Biotecnologia Avenida W5 Norte (final) - Caixa Postal 02372 - CEP 70770-917 - Brasília, DF - Brasil E-mail: fatima.grossi@embrapa.br Telefone: +55 61 3448-4705
- Objetivos | inctplantstress
Objetivos Para facilitar a implementação e o monitoramento das atividades do INCT, ele foi subdividido em 10 objetivos específicos. Cada objetivo será desenvolvido por um grupo de instituições com experiência nas atividades componentes. Os ativos de inovação oriundos de cada objetivo serão analisados quanto ao seu potencial de patente e aplicados diretamente no desenvolvimento de produtos biotecnológicos ou armazenados em um banco de ativos biotecnológicos do Instituto. A transferência de tecnologia gerada e a divulgação dos resultados obtidos serão realizadas ao longo da duração do projeto. 01 Prospecção de novos genes e moléculas envolvidas na tolerância à seca e resistência a pragas Prospecção in-plant de genes/moléculas para tolerância à seca. Prospecção de genes/moléculas para resistência a insetos-praga. Prospecção de genes/moléculas para resistência a fitonematoides. 02 Integração de dados in silico relacionados a moléculas responsivas a estresses bióticos e/ou abióticos e interespécies Espécies cruzadas. Estresse cruzado (abiótico X abiótico). Estresse cruzado (abiótico X biótico). Estresse cruzado (biótico X biótico). 03 Prospecção de novas sequências regulatórias e reguladores epigenéticos responsivos a estresses ambientais 04 Validação de ativos de inovação em planta-modelo Validação de ativos de inovação para tolerância à seca. Validação de ativos de inovação para resistência a nematoides. 05 Análise para fins de propriedade intelectual e curadoria de ativos de inovação 06 Prova de conceito e desenvolvimento de produtos biotecnológicos Validação de ativos de inovação para tolerância à seca. Validação de ativos de inovação para resistência a nematoides. Validação de ativos de inovação para resistência a insetos. Validação de ativos de inovação para resistência múltipla à seca e pragas. Obtenção de provas de conceito de ativos de inovação para resistência à seca e/ou pragas. 07 Treinamento 08 Transferência para a sociedade 10 Gestão 09 Internacionalização
- AL04 - Joaquim Albenisio G. da Silveira | inctplantstress
AL 04 - Fisiologia Molecular Atividades de Laboratório com PlantStress Biotech INCT Sequenciamento e integração de transcriptomas de plantas modelo ( Arabdopsis , Setaria ) submetidas à seca e alta temperatura durante os bioensaios. Validar a função de genes de plantas potencialmente envolvidos nos mecanismos de tolerância à seca em plantas de Arabidopsis , arroz ou sépia por meio de estratégias de superexpressão ou silenciamento. Gerar PGMs de soja, algodão e milho via estratégias de superexpressão ou silenciamento de genes de plantas e avaliar o fenótipo obtido quanto à tolerância à seca. Fenotipagem (em estufa ou campo) de populações de milho, soja e algodão resultantes do cruzamento de eventos GM para obter a comprovação do conceito de tolerância à seca e/ou resistência a Spodoptera frugiperda , Helicoverpa armigera ou Meloidogyne spp. Gerar PGMs de soja, algodão e milho via estratégias de superexpressão ou silenciamento de genes de plantas e avaliar o fenótipo obtido quanto à tolerância à seca. Organizar, manter e compartilhar um banco in vivo dos ativos de inovação obtidos no projeto compartilhado pelos membros do INCT. Joaquim Albenísio Gomes da Silveira Líder da equipe Dr. Joaquim works with Plant Physiology, with emphasis on the efficiency of photosynthesis mediated by redox metabolism, photorespiration and N assimilation under conditions of abiotic stress. He holds a Master's degree from CENA and a doctorate from ESALQ/USP. He was a post-doctorate fellow at the Laboratory of Molecular Biology of Plant Stress at ITQB/Universidade Nova de Lisboa (2014-2015). He was one of the cofounders of the Brazilian Society of Plant Physiology, and was President of the Organizing Committee of the III Brazilian Congress of Plant Physiology. He participated in the creation and publication of the Brazilian Journal of Plant Physiology (1989), currently named Theoretical and Experimental Plant Physiology. Dr. Joaquim has published more than 150 scientic articles in international journals. He has trained over 29 doctorate students, 36 master students and has supervised 10 post-doctoral fellows. Nowadays, he is a professor at the Federal University of Ceará (UFC) anda a CNPq 1A researcher. He is also the vice-coordinator of the Graduate Program in Biochemistr at UFC and the head of Plant Metabolism Laboratory at the same university. Contato Joaquim Albenísio Gomes da Silveira
- Publications | inctplantstress
Publicações Artigos Científicos Patentes Dissertações e Teses