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• Left, right, up and downstage: leaves and lateral roots histological trait prospection for drought tolerance in commercial Coffea arabica cultivars

  44-65.

  Natália Godinho

  Tereza de Souza

  Maria Eduarda Rocha

  Junior Pastor Pérez-Molina

  Edgard Picoli

  Franciely Jacomini

  Josimar Ladeira

  Diego Vilela

  Vinicius Aguiar

  Abelardo Mendonça

  Marcelo Ribeiro

  Antônio Pereira

  Antônio Carlos de Oliveira

  Maria Antônia de Carvalho

  Adriene Pedrosa

  Williams Ferreira

  Views:

  586

  The climate change and water deficit challenges plant producers all over the world, and have consequences to coffee production and quality. In this research we have approached anatomical traits from vegetative organs of 13 Coffea arabica genotypes, selected based on their contrasting behavior to water deficit. Leaf blade, petiole and primary root cross sections were evaluated, and the epidermal, fundamental, and vascular tissues descriptive anatomy, histometric and histochemistry examined. Despite all plants were in the same environment (CEPC/EPAMIG, Patrocínio, MG, Brazil), there were differences among the genotypes and groups of more tolerant and more susceptible accesses. Petiole cross section, vascular tissue and phloem and cambium; and percentage of stele, pericycle and phloem and cambium in primary roots exhibited differences among the contrasting genotypes, highlighting an inborn association of vascular tissue and other features with water deficit resistance. This association was observed in the mild to medium correlations among vascular tissue, epidermis, phloem and cambium in roots and petioles. Possible relation of qualitative traits such as the lignification of root epidermis, lipidic substances in outer cortical cell layers, and area/number of cell layers in the cortex are approached as possible traits in the seek for water deficit tolerance in C. arabica.

• Resistance gene Sw-5 of tomato confers resistance to TCSV in Solanum melongena

  41-47.

  E. A. T. Picoli

  G. S. A. Lima

  D. Lau

  J. F. C. Oliveira

  M. L. Laia

  F. M. Zerbini

  S. H. Brommonschenkel

  M. G. Fári

  W. C. Otoni

  Views:

  287

  Eggplants transformed with Sw-5 gene, regenerated by organogenesis and somatic embryogenesis, were resistant to the Tomato chlorotic spot virus, while wild plants did present systemic infection. TO plants were selfed and the segregation analysis of T1 and T2 generation indicated the existence of one or more insertion sites. Southern blot analysis confirmed one or two independent insertions in T2 plants. Different lesions associated with the insertion number were observed in TI and T2 plants. T2 plants with two copies displayed faster hypersensitive reactions and characteristic necrotic lesions that contrasted with slower responses and necrotic ring lesions in plants with one copy. These results suggest that the Sw-5 confers resistance to tospovirus in transgenic eggplants and that the resistant phenotype depends on the number of transgene copies.