Photosynthesis and Dark Respiration in Leaves of Different Ages of Partly Flooded Maize Seedlings

Maize seedlings were flooded for periods from 1 to 15 days, and the leaves of different ages were then taken to examine photosynthesis, dark respiration, transpiration, chlorophyll content, and some morphometric parameters. The responses of leaves to root submergence essentially depended on the leaf layer and the treatment duration. A short-term flooding (1–24 h) induced primary stress responses in the first leaf. Photosynthesis and respiration in this leaf oscillated around the control levels with amplitudes of ±15–25% and ±40–60%, respectively. After a longer flooding, the CO₂ exchange in the second leaf was suppressed, while oxygen uptake was stimulated. In the third leaf, which was formed during submergence, the photosynthetic rate increased and the respiratory activity decreased. The transpiration rate did not change in these leaves for 15 days of flooding. The hypoxic treatment, at its early stages, retarded growth and disturbed the source–sink relations. At later stages the plants adapted to hypoxic environment: the seedling growth was restored, which elevated the demand for assimilates and stimulated photosynthesis. It is concluded that plants overcome negative impact of the root hypoxia at the systemic level.     

Rearrangements of chromosome 9 in different hematological neoplasias

In the present article the frequency of anomalies in chromosome 9 among children with hematological neoplasias amounted to 25/112 in acute lymphoblastic leukemia (ALL), 10/83 in acute myeloid leukemia (AML), and 3/20 in myelodysplastic syndrome (MDS). In ALL, deletions are encountered more often than translocations. Deletions are found in both single anomalies and as an element in complex karyotypes. The rearrangements involve the bands 9q34 and 9q22 the most often. The translocation t(9;22)(q34; q11) is encountered in 7.1% of all cases of ALL. In AML, translocation are found more often than deletions. Structural rearrangements most often involved the long arm, at bands 9q22 and 9q34. Deletions, duplications, and translocations were recorded in MDS. No relationship with the initial hematological indicators, including blastosis, were found. The studies attest to different directions of the clinical prognosis in the course of acute leukemia (AL) where there are deletions. Multidrug resistance and the continuing progress of the disease in the course of chemotherapy is found in t(9;22)(q34; q11).     

Leaf Growth,Photosynthetic Rate,and Phytohormone Contents in Cucumis sativus Plants under Progressive Soil Drought

Effects of progressive soil drought on leaf growth, the rate of photosynthesis, and phytohormone contents were followed in the experiments with cucumber (Cucumis sativus L.) plants. Suppression of photosynthesis by drought did not immediately cause growth retardation, because the latter was observed one day earlier than the inhibition of photosynthesis. In the meantime, growth retardation could be caused by a decline in IAA and cytokinin contents, rather than ABA accumulation, because ABA accumulated when the growth has been already suppressed.     

Calmodulin blockaders weaken the short-term plasticity of the neuronal cholinoreceptors in the edible snail

By means of recording transmembrane ion currents of identified snail neurones PPa3 and LPa3 a reversible weakening was shown of the speed and depth of extinction of neuronal cholinoreceptor membrane reactions to repeated iontophoretic applications of acetylcholine to the soma by a number of calmodulin blockaders: R24571 (20-50 mmol/l), trifluoperazine (50-200 mmol/l), chlorpromazine (20-60 mmol/l) and prenylamine lactate (30-400 mmol/l). The obtained results testify to a positive control by calmodulin of short-term cholinoreceptors plasticity of the studied neurons.     

Effect of hypokinesia and the combined action of gravitational load and hypokinesia on the structure of the hepatic portal system]

General hypokinesia during 1--6 weeks resulted in dilatation of the interlobular veins. sinusoids and central veins. The sequence of alterations corresponded to terms of hypokinesia. After exposure to "gravitation stress--hypokinesia for 1--6 weeks" stagnation in the portal system of the liver was less than after exposure to hypokinesia alone, but unevenness of lumens in the interlobular veins and sinusoids was more pronounced. The foci of the vessel spasm were determined. The signs of stagnation in the system of the portal vein and unevenness of the width of all the links of the portal bed were most pronounced after combination "hypokinesia for 1--6 weeks-- gravitation stress".     

Protein kinase C is not involved in regulating the short-term cholinoreceptor plasticity of the PPa3 and LPa3 neurons of the edible snail

A voltage clamp technique on identified Helix lucorum's RPa3 and LPa3 neurons has been used to negate the effect of protein kinase C on extinction of response to repeated iontophoretic applications of acetylcholine to soma. Extracellular influence of phorbol ether, protein kinase C activator (12-O-tetradecanoylphorbol-13-acetate, 0.1-10 mumol/l), or polymyxin B, its blocker (100-500 mumol/l), do not affect the extinction of acetylcholine-induced neuronal response. The data show that protein kinase C is not involved into molecular mechanisms responsible for the regulation of short-term plasticity of RPa3 and LPa3 neuronal cholinoreceptors in Helix lucorum.     

Haploid yeast cells undergo a reversible phenotypic switch associated with chromosome II copy number

Background

SUP35 and SUP45 are essential genes encoding polypeptide chain release factors. However, mutants for these genes may be viable but display pleiotropic phenotypes which include, but are not limited to, nonsense suppressor phenotype due to translation termination defect. [PSI ⁺] prion formation is another Sup35p-associated mechanism leading to nonsense suppression through decreased availability of functional Sup35p. [PSI ⁺] differs from genuine sup35 mutations by the possibility of its elimination and subsequent re-induction. Some suppressor sup35 mutants had also been shown to undergo a reversible phenotypic switch in the opposite direction. This reversible switching had been attributed to a prion termed [ISP ⁺]. However, even though many phenotypic and molecular level features of [ISP ⁺] were revealed, the mechanism behind this phenomenon has not been clearly explained and might be more complex than suggested initially.

Results

Here we took a genomic approach to look into the molecular basis of the difference between the suppressor (Isp^?) and non-suppressor (Isp⁺) phenotypes. We report that the reason for the difference between the Isp⁺ and the Isp^? phenotypes is chromosome II copy number changes and support our finding with showing that these changes are indeed reversible by reproducing the phenotypic switch and tracking karyotypic changes. Finally, we suggest mechanisms that mediate elevation in nonsense suppression efficiency upon amplification of chromosome II and facilitate switching between these states.

Conclusions

(i) In our experimental system, amplification of chromosome II confers nonsense suppressor phenotype and guanidine hydrochloride resistance at the cost of overall decreased viability in rich medium. (ii) SFP1 might represent a novel regulator of chromosome stability, as SFP1 overexpression elevates frequency of the additional chromosome loss in our system. (iii) Prolonged treatment with guanidine hydrochloride leads to selection of resistant isolates, some of which are disomic for chromosome II.

     

Arachidonic acid and its acyclic derivatives regulate the short-term plasticity of the cholinoreceptors of the neurons in the edible snail]

On identified Helix neurones RPa3 and LPa3 using the method of double-electrode clamp technique on the membrane the influence was shown of eicosanoids on the dynamics of inward current extinction caused by the repeated ionophoretic applications of acetylcholine to soma. Extracellular influence of arachidonic acid (50-100 microM) increased the extinction. Phospholipase A2 inhibitor quinacrine hydrochloride (100-600 microM) decreasing the content of arachidonic acid in the cell acted differently. Inhibitor of lipoxygenase oxidation of arachidonic acid (nordihydraquiaretic acid) (3-10 microM) weakened the extinction. Blockader of cyclooxygenase oxidation of arachidonic acid--indomethacin (10-50 microM) did not influence the extinction. All the studied composition decreased the amplitude of input current caused by acetylcholine. The obtained results allowed to suppose that arachidonic acid and its acyclic metabolites formed as a result of lipoxygenase oxidation regulated short-term plasticity of snail neurones cholinoreceptors. Cyclic eicosanoids formed at cyclooxygenase oxidation of arachidonic acid had no regulating influence on cholinoreceptors plasticity.