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941.
942.
943.
The effect of autumn N supply on the architecture of young peach (Prunus persica L.) trees 总被引:1,自引:0,他引:1
Irrigation and fertilisation were recently considered as useful tools to control tree shape, and reduce pruning costs. The
role of the N reserves, which determined spring growth, was considered to be essential. We intended therefore to evaluate
its effects on peach tree architecture. Four levels of N fertilisation were applied on 1-year-old trees, from the end of shoot
growth to leaf fall. In subsequent spring, each bud fell into one of the ten classes of positions previously defined within
the crown. Its development was followed weekly from burst to June. Fertilisation promoted growth until a threshold level,
since no differences were evidenced between the three highest N treatments. Fall N did not affect burst but the further transformation
of the buds into rosettes, proleptic or ramificated axes. Crown base was little affected. Fall N increased the number of proleptic
axes on most median and upper positions. Axes lengthening and thickening were limited on the median positions, promoted at
crown top. The variations concerned the mean internodes lengths, not the number of phytomers per axis. Sylleptic ramification
was limited to the crown outer parts, and decreased with fall N. Treatment did neither affect the fruit dry weights, nor the
ratio between the number of leaves and the number of fruits. Fruit number was proportioned to vegetative growth by blossoming
and fruit set. We conclude that a moderate autumn fertilisation improved orchard productivity, but favoured vegetative growth
in the crown outer parts. Additional pruning may therefore be required to control tree shape. 相似文献
944.
945.
An efficient method for producing alpha(1,3)-galactosyltransferase gene knockout pigs 总被引:5,自引:0,他引:5
Harrison S Boquest A Grupen C Faast R Guildolin A Giannakis C Crocker L McIlfatrick S Ashman R Wengle J Lyons I Tolstoshev P Cowan P Robins A O'Connell P D'Apice AJ Nottle M 《Cloning and stem cells》2004,6(4):327-331
We have reported relatively efficient methods for somatic cell nuclear transfer and for knocking out the alpha(1,3)-galactosyltransferase (alpha1,3-GT) gene in porcine fetal fibroblasts using a nonisogenic promoterless construct approach. Here we report the production of alpha1,3-GT gene knockout pigs using these procedures. Seven alpha1,3-GT gene knockout cell clones were identified by long-range PCR from 108 neomycin resistant (neo(R)) colonies, giving a 6.5% targeting efficiency. Three cell clones were used for nuclear transfer. Nuclear transfer was performed using a fusion before activation protocol using in vitro-matured adult oocytes. Between 51 and 110 fused couplets were transferred to 10 recipients synchronized 1 day behind the embryos. Parturition was induced on day 115, and piglets were delivered by caesarean section. Four recipients gave birth to a total of 18 live piglets. All pigs were female, and all three clones resulted in the birth of live pigs. alpha1,3-GT gene knockout pigs were identified by long-range PCR and confirmed by Southern blot analysis. The efficiency (embryos transferred/piglets born) of our cloning protocol was 1.9% for all transfers and 4.6% for animals that gave birth. 相似文献
946.
Sites of microtubule assembly and disassembly in the mitotic spindle 总被引:82,自引:0,他引:82
We have microinjected biotinylated tubulin into mitotic fibroblast cells to identify the sites in the spindle at which new subunits are incorporated into microtubules (MTs). Labeled subunits were visualized in the electron microscope using an antibody to biotin followed by a secondary antibody coupled to colloidal gold. Astral MTs incorporate labeled subunits very rapidly by elongation of existing MTs and by new nucleation from the centrosome. At a slower rate, kinetochore MTs incorporate subunits at the kinetochore progressively during metaphase, suggesting a slow poleward flux of subunits in the kinetochore fiber. When cells injected in metaphase were examined in anaphase, a significant fraction of kinetochore MTs was unlabeled, suggesting that depolymerization had occurred at the kinetochore concomitant with chromosome to pole movement. The existence of opposite fluxes at the kinetochore during metaphase and anaphase suggests that two separate forces are responsible for chromosome congression and anaphase movement. 相似文献
947.
948.
In response to changes in the environment, yeast cells coordinate intracellular activities to optimize survival and proliferation. The transductions of diverse extracellular stimuli are exerted through multiple mitogen-activated protein kinase (MAPK) cascades. The high osmolarity glycerol (HOG) MAPK pathway is activated by increased environmental osmolarity and results in a rise of the cellular glycerol concentration to adapt the intracellular osmotic pressure. We studied the importance of the short time regulation of glycolysis under hyperosmotic stress for the survival and proliferation of yeast cells. A stimulation of the HOG-MAPK pathway by increasing the medium osmolarity through addition of salt or glucose to cultivated yeast leads to an activation of 6-phosphofructo-2-kinase (PFK2), which is accompanied by a complex phosphorylation pattern of the enzyme. An increase in medium osmolarity with 5% NaCl activates PFK2 3-fold over the initial value. This change in the activity is the result of a 4-fold phosphorylation of the enzyme mediated by protein kinases from the HOG-MAPK pathway. In the case of hyperosmolar glucose a 5-fold PFK2 activation was achieved by a single phosphorylation with protein kinase A near the carboxyl terminus of the protein on Ser(644) and an additional 5-fold phosphorylation within the same amino-terminal fragment as in the presence of salt. The effect of hyperosmolar glucose is the result of an activation of the Ras-cAMP pathway together with the HOG-MAPK pathway. The activation of PFK2 leads to an activation of the upper part of glycolysis, which is a precondition for glycerol accumulation. Yeast cells containing PFK2 accumulate three times more glycerol than cells lacking PFK2, which are not able to grow under hypertonic stress. 相似文献
949.
Work on elucidating the mechanisms of plasticity in somatosensory maps continues apace. Recent work has focused on both the nature of the thalamocortical interactions that determine plasticity, and on the differences between plasticity induced by nerve block or damage versus that induced by experience. Recordings from awake behaving animals have thrown light on the thalamocortical circuit mechanisms that underlie map plasticity; meanwhile, intracellular recordings from cortical slices have thrown light on the precise synaptic mechanisms underlying plasticity. 相似文献
950.
The responses of leaf conductance, leaf water potential and rates of transpiration and net photosynthesis at different vapour pressure deficits ranging from 10 to 30 Pa kPa-1 were followed in the sclerophyllous woody shrub Nerium oleander L. as the extractable soil water content decreased. When the vapour pressure deficit around a plant was kept constant at 25 Pa kPa-1 as the soil water content decreased, the leaf conductance and transpiration rate showed a marked closing response to leaf water potential at-1.1 to-1.2 MPa, whereas when the vapour pressure deficit around the plant was kept constant at 10 Pa kPa-1, leaf conductance decreased almost linearly from-0.4 to-1.1 MPa. Increasing the vapour pressure deficit from 10 to 30 Pa kPa-1 in 5 Pa kPa-1 steps, decreased leaf conductance at all exchangeable soil water contents. Changing the leaf water potential in a single leaf by exposing the remainder of the plant to a high rate of transpiration decreased the water potential of that leaf, but did not influence leaf conductance when the soil water content was high. As the soil water content was decreased, leaf conductances and photosynthetic rates were higher at equal levels of water potential when the decrease in potential was caused by short-term increases in transpiration than when the potential was decreased by soil drying.As the soil dried and the stomata closed, the rate of photosynthesis decreased with a decrease in the internal carbon dioxide partial pressure, but neither the net photosynthetic rate nor the internal CO2 partial pressure were affected by low water potentials resulting from short-term increases in the rate of transpiration. Leaf conductance, transpiration rate and net photosynthetic rate showed no unique relationship to leaf water potential, but in all experiments the leaf gas exchange decreased when about one half of the extractable soil water had been utilized. We conclude that soil water status rather than leaf water status controls leaf gas exchange in N. oleander. 相似文献