Respostas morfofisiológicas no mutante aurea de tomateiro deficiente na biossíntese dos fitocromos
Carregando...
Data
2016-08-05
Autores
Galati, Valéria Cury [UNESP]
Título da Revista
ISSN da Revista
Título de Volume
Editor
Universidade Estadual Paulista (Unesp)
Resumo
Embora os fitocromos pareçam ser importantes fotorreceptores que modulam a relação entre a fonte e o dreno, muito ainda é necessário explorar visto que essas moléculas podem acumular e agir tanto na parte aérea quanto na raiz. Dessa forma, objetivou-se neste trabalho estudar a função dos fitocromos na relação fonte-dreno em plantas de tomateiro (Solanum lycopersicum L. cv. Micro- Tom ou MT) explorando fisiológica, bioquímica, nutricional e anatomicamente o mutante deficiente na biossíntese dos fitocromos (aurea ou au), bem como utilizando o método da enxertia entre o mutante au e o controle MT. Foram realizados dois experimentos, sendo que o primeiro experimento utilizou-se o mutante au e o controle MT. Para o segundo experimento, foram realizados seis tratamentos, constituídos pelas combinações entre a planta controle e o mutante, bem como as testemunhas sem enxertia (MT, MT/MT, au, au/au, MT/au e au/MT) a fim de serem analisadas as seguintes respostas: massa seca da raiz (MSR), comprimento (CR), área (AR), diâmetro (DR) e densidade das raízes (DE), massa seca da parte aérea (MSA), alongamento caulinar (AC), área foliar total (AF), peso e diâmetro dos frutos (PF e DF), teor de sólidos solúveis (SS), acúmulo de nutrientes (AN), análise de plântulas (AP), teores dos pigmentos, amido, carboidrato e análises anatômicas. No primeiro experimento, comparado ao MT, o mutante au aumentou a AC, AN na parte aérea, amido e espessura do mesofilo, entretanto, houve uma redução da MSR, CR, AR, AN na raiz, MSA, AF, carboidrato e pigmentos. No segundo experimento, com base no controle MT, houve redução em MSR, CR, DE, MSA e AF de au/MT, ao passo que em MT/au houve redução de MSR, CR, DE, MSA, AF e DF. Com base nas alterações do crescimento, bioquímicas, nutricionais e anatômicas da raiz e do caule de au observadas no primeiro experimento, bem como nas respostas observadas a partir das combinações de enxertia entre MT e o mutante, pode ser concluído que os fitocromos são parte do controle da partição de fotoassimilados entre a raiz e caule durante o crescimento do tomateiro.
Although the phytochrome seems to be an important photoreceptor to modulate the relation between the source and the drain, much is still necessary to explore since these molecules can accumulate and act both in the shoot and in the root. Thus, the aim of this work was to study the role of phytochrome in the source-drain relation on tomato plants (Solanum lycopersicum L. cv. Micro-Tom or MT) exploring physiological, biochemical, nutritional and anatomically the deficient mutant in the phytochrome biosynthesis (aurea or au), as well as using the method of grafting between the mutant au and the MT control. Two experiments were conducted, and in the first experiment it were used the au mutant and the MT control. For the second experiment, it were carried out six treatments, consisting of combinations of the control plant and the mutant, as well as the controls without grafting (MT, MT/MT, au, au/au, MT/au and au/MT) in order to analyze the following responses: dry mass of root (DMR), length (L), area (A), diameter (D) and density of roots (DE), dry mass of shoot (DMS), stem elongation (SE), total leaf area (LA), weight and diameter of fruits (W and FD), solid soluble content (SS), nutrient accumulation (NA), seedlings analysis (SA), pigment content, starch, carbohydrate and anatomical analysis. In the first experiment, compared to the MT, the au mutant increased the SE, NA in the shoot, starch and thickness of the mesophyll, however, there was a reduction in the DMR, L, A, NA at the root, DMS, LA, carbohydrates and pigments. In the second experiment, based on the MT control there was a reduction in the DMR, L, DE, DMS and LA of Au/MT, while in MT/au there was a decrease in the DMR, L, DE, DMS, LA and FD. Based on changes in the growth, biochemical, nutritional and anatomical of the roots and the au stem observed in the first experiment, as well as in the responses observed from the grafting combinations between the MT and the au mutant, it can be concluded that the phytochrome are part of the control of the photoassimilates partition between the root and the stem during the growth of tomato.
Although the phytochrome seems to be an important photoreceptor to modulate the relation between the source and the drain, much is still necessary to explore since these molecules can accumulate and act both in the shoot and in the root. Thus, the aim of this work was to study the role of phytochrome in the source-drain relation on tomato plants (Solanum lycopersicum L. cv. Micro-Tom or MT) exploring physiological, biochemical, nutritional and anatomically the deficient mutant in the phytochrome biosynthesis (aurea or au), as well as using the method of grafting between the mutant au and the MT control. Two experiments were conducted, and in the first experiment it were used the au mutant and the MT control. For the second experiment, it were carried out six treatments, consisting of combinations of the control plant and the mutant, as well as the controls without grafting (MT, MT/MT, au, au/au, MT/au and au/MT) in order to analyze the following responses: dry mass of root (DMR), length (L), area (A), diameter (D) and density of roots (DE), dry mass of shoot (DMS), stem elongation (SE), total leaf area (LA), weight and diameter of fruits (W and FD), solid soluble content (SS), nutrient accumulation (NA), seedlings analysis (SA), pigment content, starch, carbohydrate and anatomical analysis. In the first experiment, compared to the MT, the au mutant increased the SE, NA in the shoot, starch and thickness of the mesophyll, however, there was a reduction in the DMR, L, A, NA at the root, DMS, LA, carbohydrates and pigments. In the second experiment, based on the MT control there was a reduction in the DMR, L, DE, DMS and LA of Au/MT, while in MT/au there was a decrease in the DMR, L, DE, DMS, LA and FD. Based on changes in the growth, biochemical, nutritional and anatomical of the roots and the au stem observed in the first experiment, as well as in the responses observed from the grafting combinations between the MT and the au mutant, it can be concluded that the phytochrome are part of the control of the photoassimilates partition between the root and the stem during the growth of tomato.
Descrição
Palavras-chave
Enxertia, Fotoassimilados, Fotorreceptores, Relação fonte-dreno, Grafting, Photoassimilates, Photoreceptors, Regarding source-drain