318 research outputs found
Grano ed eccesso di rame: può il tocoferolo inibire l'azione della fosfolipasi A?
Piante di grano (Triticum durum cv. Adamello) sono state incubate in una soluzione contenente CuSO4 100 μM per differenti periodi di tempo (da 1 a 960 minuti). Le radici già dopo 1 min di incubazione hanno presentato un aumento del contenuto di rame. In corrispondenza del contenuto massimo degli isomeri del tocoferolo è stato registrato un minimo livello dei lisati dei fosfolipidi, conseguenza di una disattivazione della fosfolipasi A2 (PLA2), enzima in grado di catalizzare l’idrolisi del legame sn-2 acil estere dei glicerofosfolipidi formando lisofosfolipidi ed acidi grassi liberi
Lipid composition of pea (Pisum sativum L.) and maize (Zea mays L.) root plasma membrane and membrane-bound peroxidase and superoxide dismutase
Plasma membrane was isolated from roots of pea and maize plants and used to analyze POD and SOD isoforms, as well as lipid composition. Among lipids, phospholipids were the main lipid class, with phosphatidylcholine being the most abundant individual component in both pea and maize plasma membranes. Significant differences between the two plant species were found in the contents of cerebrosides, free sterols, and steryl glycosides. Most maize POD isoforms were with neutral and anionic pI values, but the opposite was observed in pea. While both anionic and cationic SOD isoforms were isolated from maize, only two anionic SOD isoforms were detected in pea
Foliar nutrient resorption patterns of four functional plants along a precipitation gradient on the Tibetan Changtang Plateau
Nutrient resorption from senesced leaves as a nutrient conservation strategy
is important for plants to adapt to nutrient deficiency, particularly in
alpine and arid environment. However, the leaf nutrient resorption patterns of
different functional plants across environmental gradient remain unclear. In
this study, we conducted a transect survey of 12 communities to address foliar
nitrogen (N) and phosphorus (P) resorption strategies of four functional
groups along an eastward increasing precipitation gradient in northern Tibetan
Changtang Plateau. Soil nutrient availability, leaf nutrient concentration,
and N:P ratio in green leaves ([N:P]g) were linearly correlated with
precipitation. Nitrogen resorption efficiency decreased, whereas phosphorus
resorption efficiency except for sedge increased with increasing
precipitation, indicating a greater nutrient conservation in nutrient-poor
environment. The surveyed alpine plants except for legume had obviously higher
N and P resorption efficiencies than the world mean levels. Legumes had higher
N concentrations in green and senesced leaves, but lowest resorption
efficiency than nonlegumes. Sedge species had much lower P concentration in
senesced leaves but highest P resorption efficiency, suggesting highly
competitive P conservation. Leaf nutrient resorption efficiencies of N and P
were largely controlled by soil and plant nutrient, and indirectly regulated
by precipitation. Nutrient resorption efficiencies were more determined by
soil nutrient availability, while resorption proficiencies were more
controlled by leaf nutrient and N:P of green leaves. Overall, our results
suggest strong internal nutrient cycling through foliar nutrient resorption in
the alpine nutrient-poor ecosystems on the Plateau. The patterns of soil
nutrient availability and resorption also imply a transit from more N
limitation in the west to a more P limitation in the east Changtang. Our
findings offer insights into understanding nutrient conservation strategy in
the precipitation and its derived soil nutrient availability gradient
Effect of soil drying on rate of stress development, leaf gas exchange and proline accumulation in Robusta coffee (Coffea canephora pierre ex froehner) clones
Seasonal drought stresses as a result of changes in global climate and local weather conditions are among the major factors adversely affecting growth and productivity of Robusta coffee (Coffea canephora pierre ex froehner) in many areas producing the crop. It is believed that there exists a wide range of genetic variability among Robusta coffee clones for traits associated with drought tolerance. Therefore, in an attempt to determine differences among Robusta coffee clones for some growth, physiological and biochemical parameters and identify drought-tolerant materials, 12 months old seedlings of six clones (IC-2, IC-3, IC-4, IC-6, IC-8 and R-4) were subjected to two treatments: well-watered control and drought-stressed (soil drying) by withholding irrigation for three weeks in a rain shelter at University Putra Malaysia, Malaysia. The rate of stress development, expressed as extent of wilting and damage to leaves, was considerably higher for clones IC-8, IC-4, R-4 and IC-2 than for IC-3 and IC-6 during the stress period. Leaf water potential (LWP), stomatal conductance (gs ) and rate of net photosynthesis (PN ) progressively decreased but leaf proline (LP) concentration substantially increased with time of exposure of the plants to soil drying. There was a considerable difference between coffee clones for the rate of change in these parameters. All the clones except IC-6 and IC-8 showed a negative carbon balance with the most negative value for R-4 at the end of the stress period. Six days after rewatering, LWP, gs and PN increased rapidly while LP concentration decreased and reached a level equivalent to those of well-watered plants, especially for clones IC-3 and IC-6. Among the drought-stressed plants, IC-6 and IC-3 had still significantly higher shoot growth, total dry matter yield and root to shoot ratio than did IC-2, IC-4, IC-8 and R-4. In general, clones IC-6 and IC-3 exhibited quite a better performance in almost all the parameters considered in this study and seemed to be less sensitive to drought stress. Hence, drought tolerance attributes in these clones could be linked to a more effective osmotic adjustment due to more rapid accumulation of LP and probably some morphological parameters, such as increased root-to-shoot ratio. However, further analyses at molecular level, detail biochemical studies and observations under diverse field conditions are required to come up with more conclusive recommendations
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