Composed Inflorescence
Mostrando 1-6 de 6 artigos, teses e dissertações.
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1. Estudo comparativo do potencial agronômico entre progênies f4 de feijão- caupi de inflorescências simples e composta.
O objetivo deste trabalho foi comparar o potencial agronômico entre progênies F4 de feijão caupi de inflorescências simples e composta, visando aumentar a produtividade em cultivares comercial de feijão-caupi, através da seleção de progênies com inflorescência composta. O material genético compreendeu três genótipos parentais (P1: TVx5058-09CE,
IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia. Publicado em: 28/08/2009
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2. Impacts on the soil chemical characteristics and development of amaranth under saline stress and mulch / Impactos do estresse salino e da cobertura morta nas características químicas do solo e no desenvolvimento do amaranto
Availability of good quality water has been reduced vertiginously, over the last decade, in the world. In some regions, the water resources have high concentration of the dissolved salts, these characteristics of the water make its use impossible. Water quality can be a limitation for irrigated agriculture, principally in regions of arid or semiarid climate
Publicado em: 2007
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3. LEAFY, a Homeotic Gene That Regulates Inflorescence Development in Arabidopsis.
Variation in plant shoot structure may be described as occurring through changes within a basic unit, the metamer. Using this terminology, the apical meristem of Arabidopsis produces three metameric types sequentially: type 1, rosette; type 2, coflorescence-bearing with bract; and type 3, flower-bearing without bract. We describe a mutant of Arabidopsis, Lea
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4. AtCAND1, A HEAT-Repeat Protein That Participates in Auxin Signaling in Arabidopsis1
Auxin affects many aspects of plant growth and development. We previously used chemical genetics to dissect auxin-signaling mechanisms and identified a small molecule, sirtinol, that constitutively activated auxin signaling (Y. Zhao et al. [2003], Science 301: 1107–1110). Here we describe the isolation, characterization, and cloning of an Arabidopsis mutan
American Society of Plant Biologists.
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5. FILAMENTOUS FLOWER, a meristem and organ identity gene of Arabidopsis, encodes a protein with a zinc finger and HMG-related domains
Distinctive from that of the animal system, the basic plan of the plant body is the continuous formation of a structural unit, composed of a stem with a meristem at the top and lateral organs continuously forming at the meristem. Therefore, mechanisms controlling the formation, maintenance, and development of a meristem will be a key to understanding the bod
Cold Spring Harbor Laboratory Press.
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6. IFL1, a gene regulating interfascicular fiber differentiation in Arabidopsis, encodes a homeodomain-leucine zipper protein.
Arabidopsis inflorescence stems develop extraxylary fibers at specific sites in interfascicular regions. The spatial specification of interfascicular fiber differentiation is regulated by the INTERFASCICULAR FIBERLESS1 (IFL1) gene because mutation of that gene abolishes the formation of normal interfascicular fibers in Arabidopsis stems. To understand furthe