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Registros recuperados : 545 | |
541. | | BASSO, M. F.; LOURENCO, I. T.; MOREIRA-PINTO, C. E.; MENDES, R. A. G.; PAES-DE-MELO, B.; NEVES, M. R. das; MACEDO, A. F.; FIGUEIREDO, V.; GRANDIS, A.; MACEDO, L. L. P. de; ARRAES, F. B. M.; COSTA, M. M. do C.; TOGAWA, R. C.; ENRICH-PRAST, A.; MARCELINO-GUIMARÃES, F. C.; GOMES, A. C. M. M.; SILVA, M. C. M. da; FLOH, E. I. S.; BUCKERIDGE, M. S.; ENGLER, J. de A.; SA, M. F. G. de. Overexpression of a soybean Globin (GmGlb1-1) gene reduces plant susceptibility to Meloidogyne incognita. Planta, v. 256, 83, 2022. 16 p. Na publicação: Isabela Tristan Lourenço-Tessutti; Leonardo Lima Pepino Macedo; Francismar Corrêa Marcelino-Guimaraes; Maria Cristina Mattar Silva; Maria Fatima Grossi-de-Sa. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia; Embrapa Soja. |
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542. | | LISEI-DE-SÁ, M. e; RODRIGUES‑SILVA, P. L.; MORGANTE, C. V.; MELO, B. P. de; LOURENCO, I. T.; ARRAES, F. B. M.; SOUSA, J. P. A.; GALBIERI, R.; AMORIM, R. M. S.; LINS, C. B. J. de; MACEDO, L. L. P. de; MOREIRA, V. J.; FERREIRA, G. F.; RIBEIRO, T. P.; FRAGOSO, R. da R.; SILVA, M. C. M. da; ALMEIDA-ENGLER, J. de; SA, M. F. G. de. Pyramiding dsRNAs increases phytonematode tolerance in cotton plants. Planta, v. 254, 2021. Na publicação: Isabela T. Lourenço-Tessutti; Leonardo L. P. Macedo; Rodrigo R. Fragoso; Maria C. M. Silva; Maria F. Grossi-de-Sa. Biblioteca(s): Embrapa Cerrados; Embrapa Recursos Genéticos e Biotecnologia; Embrapa Semiárido. |
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543. | | MENDES, R. A. G.; BASSO, M. F.; MELO, B. P. de; RIBEIRO, T. P.; LIMA, R. N.; ARAÚJO, J. F. de; GROSSI-DE-SA, M.; MATTOS, V. da S.; TOGAWA, R. C.; ALBUQUERQUE, E. V. S. A.; LISEI-DE-SA, M. E.; SILVA, M. C. M. da; MACEDO, L. L. P. de; FRAGOSO, R. da R.; FERNANDEZ, D.; VIGNOLS, F.; SA, M. F. G. de. 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, 101630, 2021. Na publicação: Leonardo Lima Pepino Macedo; Maria Fatima Grossi-de-Sa. Biblioteca(s): Embrapa Cerrados; Embrapa Recursos Genéticos e Biotecnologia. |
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544. | | RIBEIRO, T. P.; BASSO, M. F.; CARVALHO, M. H. de; MACEDO, L. L. P. de; SILVA, D. M. L. da; LOURENCO-TESSUTTI, I. T.; OLIVEIRA-NETO, O. B. de; CAMPOS-PINTO, E. R. de; LUCENA, W. A.; SILVA, M. C. M. da; TRIPODE, B. M. D.; ABREU-JARDIM, T. P. F.; MIRANDA, J. E.; ALVES-FERREIRA, M.; MORGANTE, C. V.; GROSSI-DE-SA, M. F. Stability and tissue-specific Cry10Aa overexpression improves cotton resistance to the cotton boll weevil. Biotechnology Research and Innovation, v. 3, p. 27-41, 2020. Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia; Embrapa Semiárido. |
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545. | | SILVA, V. S.; PELLEGRIN, A. O.; MOURAO, G. de M.; TOMAS, W. M.; CAMPOS, Z. M. da S.; KRAMER, B.; BORDIN, L. C.; RECH, R. R.; TREVISOL, I. M.; ESTEVES, P. A.; JULIANO, R. S.; PIOVESAN, U.; PANDOLFI, J. R. C.; DALMEDICO, G.; DAMBROS JUNIOR, D.; MARQUES, J. R. M; PEIXOTO, J. de O.; SILVA, M. C.; CAVALCANTI, A.; FILIPPINI, A.; SALVADOR, C. H.; TORTATO, M.; JORGE, R. S. P.; CELANT, T. M. B.; VILLAS BOAS, J.; SOUZA, G. N. de; GATTO, L.; VESCHI, J. L. A. Estruturação da vigilância epidemiológica e manejo populacional de suídeos asselvajados (Sus scrofa) para área livre de peste suína clássica do Brasil. O Biológico, São Paulo, v. 75, p. 33, 2013. Suplemento 2, ref. 30. Edição dos Resumos do 3 Encontro Nacional de Defesa Sanitária Animal, Foz de Iguaçu, dez. 2013. Biblioteca(s): Embrapa Semiárido; Embrapa Suínos e Aves. |
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Registros recuperados : 545 | |
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Registro Completo
Biblioteca(s): |
Embrapa Café. |
Data corrente: |
17/01/2017 |
Data da última atualização: |
15/12/2017 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
ALKIMIM, E. R.; CAIXETA, E. T.; SOUSA, T. V.; PEREIRA, A. A.; OLIVEIRA, A. C. B. de; ZAMBOLIM, L.; SAKIYAMA, N. S. |
Afiliação: |
EMILLY RUAS ALKIMIM, UFV; EVELINE TEIXEIRA CAIXETA, SAPC; TIAGO VIEIRA SOUSA, UFV; ANTÔNIO ALVES PEREIRA, EPAMIG; ANTONIO CARLOS BAIAO DE OLIVEIRA, SAPC; LAÉRCIO ZAMBOLIM, UFV; NEY SUSSUMU SAKIYAMA, UFV. |
Título: |
Marker-assisted selection provides arabica coffee with genes from other Coffea species targeting on multiple resistance to rust and coffee berry disease. |
Ano de publicação: |
2017 |
Fonte/Imprenta: |
Molecular Breeding, v. 37, n. 6, p. 1-10, jan. 2017. |
Idioma: |
Português |
Conteúdo: |
Selecting superior genotypes is facilitated by marker-assisted selection (MAS), which is particularly suitable for transferring disease resistance alleles because it nullifies environmental effects and allows selection of resistant individuals in the absence of the pathogen or race, enabling preventive breeding. Molecular markers linked to two major genes (SH3 and SH?), conferring resistance to coffee rust, and those linked to the Ck-1 gene, conferring resistance to coffee berry disease (CBD), have previously been identified. These markers were validated and used in a progeny of crosses between Indian selections with Coffea arabica cultivars. Eleven resistant individuals homozygous for SH3 were identified by MAS. Of these, seven carry SH? from Híbrido de Timor and the gene introduced from Coffea liberica (SH3). SH? was characterized as derived from Coffea canephora. Thus, it was possible to identify C. arabica genotypes carrying important genes for rust resistance introgressed from other coffee species. MAS also allowed identification of sources of CBD resistance for use in preventive breeding for resistance to this serious disease. Using two validated molecular markers, two coffee plants carrying Ck-1 were identified: the UFV 328-60 genotype (F2) was resistant and homozygous based on both molecular markers but exhibited no markers related to SH3 and SH?, and the UFV 317- 12 genotype (F1) was resistant and homozygous but resistant and heterozygous based on CBD-Sat207 and CBD-Sat235, respectively. Along with possessing Ck- 1, the latter carries SH?. Overall, plants carrying different genes for resistance to rust and CBD were identified. These plants are important sources for gene pyramiding in breeding programs aimed at multiple and durable resistance. MenosSelecting superior genotypes is facilitated by marker-assisted selection (MAS), which is particularly suitable for transferring disease resistance alleles because it nullifies environmental effects and allows selection of resistant individuals in the absence of the pathogen or race, enabling preventive breeding. Molecular markers linked to two major genes (SH3 and SH?), conferring resistance to coffee rust, and those linked to the Ck-1 gene, conferring resistance to coffee berry disease (CBD), have previously been identified. These markers were validated and used in a progeny of crosses between Indian selections with Coffea arabica cultivars. Eleven resistant individuals homozygous for SH3 were identified by MAS. Of these, seven carry SH? from Híbrido de Timor and the gene introduced from Coffea liberica (SH3). SH? was characterized as derived from Coffea canephora. Thus, it was possible to identify C. arabica genotypes carrying important genes for rust resistance introgressed from other coffee species. MAS also allowed identification of sources of CBD resistance for use in preventive breeding for resistance to this serious disease. Using two validated molecular markers, two coffee plants carrying Ck-1 were identified: the UFV 328-60 genotype (F2) was resistant and homozygous based on both molecular markers but exhibited no markers related to SH3 and SH?, and the UFV 317- 12 genotype (F1) was resistant and homozygous but resistant and heterozygous based on CBD-Sat207 and CBD... Mostrar Tudo |
Palavras-Chave: |
Gene pyramiding; Indian selections; Preventive breeding. |
Thesagro: |
Hemileia Vastatrix. |
Thesaurus NAL: |
Colletotrichum kahawae. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/153430/1/Marker-assisted-selection-provides.pdf
|
Marc: |
LEADER 02601naa a2200253 a 4500 001 2061004 005 2017-12-15 008 2017 bl uuuu u00u1 u #d 100 1 $aALKIMIM, E. R. 245 $aMarker-assisted selection provides arabica coffee with genes from other Coffea species targeting on multiple resistance to rust and coffee berry disease.$h[electronic resource] 260 $c2017 520 $aSelecting superior genotypes is facilitated by marker-assisted selection (MAS), which is particularly suitable for transferring disease resistance alleles because it nullifies environmental effects and allows selection of resistant individuals in the absence of the pathogen or race, enabling preventive breeding. Molecular markers linked to two major genes (SH3 and SH?), conferring resistance to coffee rust, and those linked to the Ck-1 gene, conferring resistance to coffee berry disease (CBD), have previously been identified. These markers were validated and used in a progeny of crosses between Indian selections with Coffea arabica cultivars. Eleven resistant individuals homozygous for SH3 were identified by MAS. Of these, seven carry SH? from Híbrido de Timor and the gene introduced from Coffea liberica (SH3). SH? was characterized as derived from Coffea canephora. Thus, it was possible to identify C. arabica genotypes carrying important genes for rust resistance introgressed from other coffee species. MAS also allowed identification of sources of CBD resistance for use in preventive breeding for resistance to this serious disease. Using two validated molecular markers, two coffee plants carrying Ck-1 were identified: the UFV 328-60 genotype (F2) was resistant and homozygous based on both molecular markers but exhibited no markers related to SH3 and SH?, and the UFV 317- 12 genotype (F1) was resistant and homozygous but resistant and heterozygous based on CBD-Sat207 and CBD-Sat235, respectively. Along with possessing Ck- 1, the latter carries SH?. Overall, plants carrying different genes for resistance to rust and CBD were identified. These plants are important sources for gene pyramiding in breeding programs aimed at multiple and durable resistance. 650 $aColletotrichum kahawae 650 $aHemileia Vastatrix 653 $aGene pyramiding 653 $aIndian selections 653 $aPreventive breeding 700 1 $aCAIXETA, E. T. 700 1 $aSOUSA, T. V. 700 1 $aPEREIRA, A. A. 700 1 $aOLIVEIRA, A. C. B. de 700 1 $aZAMBOLIM, L. 700 1 $aSAKIYAMA, N. S. 773 $tMolecular Breeding$gv. 37, n. 6, p. 1-10, jan. 2017.
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Embrapa Café (CNPCa) |
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