Structural studies on MRG701 chromodomain reveal a novel dimerization interface of MRG proteins in green plants

MRG proteins are conserved during evolution in fungi, flies, mammals and plants, and they can exhibit diversified functions. The animal MRGs were found to form various complexes to activate gene expression. Plant MRG1/2 and MRG702 were reported to be involved in the regulation of flowering time via binding to H3K36me3-marked flowering genes. Herein, we determined the crystal structure of MRG701 chromodomain (MRG701). MRG701 forms a novel dimerization fold both in crystal and in solution. Moreover, we found that the dimerization of MRG chromodomains is conserved in green plants. Our findings may provide new insights into the mechanism of MRGs in regulation of gene expression in green plants.

Biomass accumulation, photochemical efficiency of photosystem II, nutrient contents and nitrate reductase activity in young rosewood plants (Aniba rosaeodora Ducke) submitted to different NO3-: NH4+ ratios

The rosewood (Aniba rosaeodora Ducke) is a native tree species of Amazon rainforest growing naturally in acidic forest soils with reduced redox potential. However, this species can also been found growing in forest gaps containing oxide soils. Variations in the forms of mineral nitrogen (NO3- or NH4+) may be predicted in these different edaphic conditions. Considering that possibility, an experiment was carried out to analyze the effects of different NO3-:NH4+ ratios on the growth performance, mineral composition, chloroplastid pigment contents, photochemical efficiency photosystem II (PSII), and nitrate redutase activity (RN, E.C.1.6.6.1) on A. rosaeodora seedlings. Nine-month-old seedlings were grown in pots with a washed sand capacity of 7.5 kg and submitted to different NO3-:NH4+ ratios (T1 = 0:100 percent, T2 = 25:75 percent, T3 = 50:50 percent, T4 = 75:25 percent, and T5 = 100:0 percent). The lowest relative growth rate was observed when the NO3-:NH4+ ratio was equal to 0:100 percent. In general, high concentrations of NO3- rather than NH4+ favored a greater nutrient accumulation in different parts of the plant. For the chloroplastid pigment, the highest Chl a, Chl b, Chl tot, Chl a/b and Chl tot/Cx+c contents were found in the treatment with 75:25 percent of NO3-:NH4+, and for Chl b and Cx+c it was observed no difference. In addition, there was a higher photochemical efficiency of PSII (Fv/Fm) when high NO3- concentrations were used. A linear and positive response for the nitrate reductase activity was recorded when the nitrate content increased on the culture substrate. Our results suggest that A. rosaeodora seedlings have a better growth performance when the NO3- concentrations in the culture substrate were higher than the NH4+ concentrations.

O pau-rosa (Aniba rosaeodora Ducke) habita, naturalmente, solos florestais ácidos com potencial redox reduzido. No entanto, estas espécies têm sido encontradas também em clareiras que, teoricamente, apresentam solos mais oxidados. Nestas diferentes condições edáficas, pode-se prever variações nas formas do nitrogênio mineral (NO3- ou NH4+). Considerando essa possibilidade foi conduzido experimento com o objetivo de estudar os efeitos de diferentes relações de NO3-:NH4+ sobre o acúmulo de biomassa, a composição mineral, as concentrações de pigmentos cloroplastídicos, a eficiência fotoquímica do fotossistema II e a atividade da enzima redutase do nitrato (RN, E.C.1.6.6.1) em A. rosaeodora. Plantas jovens com nove meses foram cultivadas em vasos com capacidade para 7,5 kg e submetidas a diferentes relações de NO3-:NH4+ (T1 = 0:100 por cento, T2 = 25:75 por cento, T3 = 50:50 por cento, T4 = 75:25 por cento e T5 = 100:0 por cento). As menores taxas de acúmulo de biomassa foram observadas quando a relação das concentrações de NO3-:NH4+ foi igual a 0:100 por cento. De maneira geral, a maior concentração de NO3- em relação a NH4+ favoreceu maior acúmulo de nutrientes nas diferentes partes da planta. Para os teores de pigmentos cloroplastídicos, os maiores valores de Chl a, Chl tot, Chl a/b e Chl tot/x+c, foram encontrados no tratamento com 75:25 por cento de NO3-:NH4+, não ocorrendo diferença para os teores de Chl b e Cx+c. Em relação a eficiência fotoquímica do fotossistema II (Fv/Fm) maior eficiência também ocorreu quando predominou maior concentração de NO3- em relação ao NH4+. Quanto a atividade da reductase do nitrato observou-se resposta linear e positiva para o incremento da concentração de nitrato no substrato de cultivo. Portanto, os resultados obtidos sugerem que as plantas jovens de A. rosaeodora apresentaram melhor desempenho quando as concentrações de NO3- no substrato de cultivo foram superiores as concentrações de NH4+.