Vacuolar organization in the nodule parenchyma is important for the functioning of pea root nodules

Different models have been proposed to explain the operation of oxygen diffusion barrier in root nodules of leguminous plants. This barrier participates in protection of oxygen-sensitive nitrogenase, the key enzyme in nitrogen fixation, from inactivation. Details concerning structural and biochemical properties of the barrier are still lacking. Here, the properties of pea root nodule cortical cells were examined under normal conditions and after shoot removal. Microscopic observations, including neutral red staining and epifluorescence investigations, showed that the inner and outer nodule parenchyma cells exhibit different patterns of the central vacuole development. In opposition to the inner part, the outer parenchyma cells exhibited vacuolar shrinkage and formed cell wall infoldings. Shoot removal induced vacuolar shrinkage and formation of infoldings in the inner parenchyma and uninfected cells of the symbiotic tissue, as well. It is postulated that cells which possess shrinking vacuoles are sensitive to the external osmotic pressure. The cells can give an additional resistance to oxygen diffusion by release of water to the intercellular spaces

Crescimento de tangerinas 'Ponkan' em plantas submetidas ao raleio químico

Pesquisas comprovam que a relação entre o número de frutos e seu tamanho influencia o rendimento da produção e a qualidade dos frutos. Este trabalho foi conduzido com o objetivo de avaliar o desenvolvimento de tangerinas 'Ponkan', produzidas em plantas enxertadas sobre limoeiro 'Cravo', submetidas ao raleio químico com a aplicação de ethephon. As plantas foram pulverizadas com cinco concentrações de ethephon (0, 150, 300, 450, 600 mg L-1), aplicadas em dois estádios de desenvolvimento dos frutos (30 e 40 mm de diâmetro transversal). Em cada planta, foram selecionados quatro ramos, localizados nos quatro quadrantes, com apenas uma fruta, para avaliar seu desenvolvimento por meio do diâmetro transversal. O raleio químico com a aplicação de ethephon favoreceu a obtenção de tangerinas com maior tamanho. As concentrações a partir de 300 mg L-1 de ethephon foram as mais adequadas para promover o raleio da tangerina 'Ponkan', nas condições estudadas. O raleio realizado no estádio de 40 mm proporcionou a obtenção de frutos de maiores diâmetros

5-methyl-tetrahydrofolate and the S-adenosylmethionine cycle in C57BL/6J mouse tissues: gender differences and effects of arylamine N-acetyltransferase-1 deletion

Folate catabolism involves cleavage of the C-9-N-10 bond to form p-aminobenzoylgluamate (PABG) and pterin. PABG is then acetylated by human arylamine N-acetyltransferase 1 (NAT1) before excretion in the urine. Mice null for the murine NAT1 homolog (Nat2) show several phenotypes consistent with altered folate homeostasis. However, the exact role of Nat2 in the folate pathway in vivo has not been reported. Here, we examined the effects of Nat2 deletion in male and female mice on the tissue levels of 5-methyl-tetrahydrofolate and the methionine-S-adenosylmethionine cycle. We found significant gender differences in hepatic and renal homocysteine, S-adenosylmethionine and methionine levels consistent with a more active methionine-S-adenosylmethionine cycle in female tissues. In addition, methionine levels were significantly higher in female liver and kidney. PABG was higher in female liver tissue but lower in kidney compared to male tissues. In addition, qPCR of mRNA extracted from liver tissue suggested a significantly lower level of Nat2 expression in female animals. Deletion of Nat2 affected liver 5- methyl-tetrahydrofolate in female mice but had little effect on other components of the methionine-S-adenosylmethionine cycle. No N-acetyl-PABG was observed in any tissues in Nat2 null mice, consistent with the role of Nat2 in PABG acetylation. Surprisingly, tissue PABG levels were similar between wild type and Nat2 null mice. These results show that Nat2 is not required to maintain tissue PABG homeostasis in vivo under normal conditions