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11.
Roelfsema MR Hanstein S Felle HH Hedrich R 《The Plant journal : for cell and molecular biology》2002,32(1):65-75
Guard cells in intact leafs display light-induced membrane potential changes, which alter the direction of K+-transport across the plasma membrane (Roelfsema et al., 2001). A beam of blue light, but not red light, directed at the impaled guard cell triggers this response, while both light qualities induce opening of stomata. To gain insight into this apparent contradiction, we explored the possible interaction between red light and CO2. Guard cells in the intact plant were impaled with double-barrelled electrodes and illuminated with red light. Cells that were hyperpolarized in CO2-free air, depolarized after a switch to air with 700 micro l l(-1) CO2, in a reversible manner. As a result, K+-fluxes across the plasma membrane changed direction, to favour K+ extrusion and stomatal closure in the presence of CO2. Concurrent with the depolarization, an inward current across the plasma membrane appeared, most likely due to activation of anion channels. Guard cell responses to CO2 could be recorded in darkness as well as in red light. However, in darkness some cells spontaneously depolarized, these cells hyperpolarized again in red light. Here, red light was projected on a large area of the leaf and decreased the intracellular CO2 concentration by about 250 micro l l(-1), as measured with a miniature CO2 sensor placed in the substomatal cavity. We conclude, that in intact leaves the red light response of guard cells is mediated through a decrease of the intercellular CO2 concentration. 相似文献
12.
Van Dam EW Roelfsema F Veldhuis JD Helmerhorst FM Frölich M Meinders AE Krans HM Pijl H 《American journal of physiology. Endocrinology and metabolism》2002,282(4):E865-E872
We hypothesized that short-term calorie restriction would blunt luteinizing hormone (LH) hypersecretion in obese women with polycystic ovary syndrome (PCOS) and thereby ameliorate the anovulatory endocrine milieu. To test this hypothesis, 15 obese patients with PCOS and nine age- and body mass index-matched healthy women underwent 24-h blood sampling to quantitate plasma LH, leptin, and insulin levels. PCOS subjects were prescribed a very low caloric liquid diet (4.2 MJ/day) for 7 days and were then resampled. Basal and pulsatile LH secretion was threefold higher in PCOS subjects, but plasma insulin and leptin levels were not different in the calorie-replete state. Contrary to expectation, calorie restriction enhanced basal and pulsatile LH secretion even further. As expected, plasma glucose, insulin, and leptin concentrations decreased by 18, 75, and 50%, respectively. Serum total testosterone concentration fell by 23%, whereas serum estrone, estradiol, sex hormone-binding globulin (SHBG), and androstenedione concentrations remained unchanged. Enhanced LH secretion in the presence of normal metabolic and hormonal adaptations to calorie restriction points to anomalous feedback control of pituitary LH release in PCOS. 相似文献
13.
Overeem S Kok SW Lammers GJ Vein AA Frölich M Meinders AE Roelfsema F Pijl H 《American journal of physiology. Endocrinology and metabolism》2003,284(3):E641-E647
Narcolepsy is a sleep disorder caused by impaired hypocretin (orexin) neurotransmission. Growth hormone (GH) secretion may be altered in narcolepsy for various reasons. Slow-wave sleep episodes, which are closely associated with GH-secretory events, are more randomly dispersed over 24 h in narcoleptics. Furthermore, hypocretins may inhibit pituitary GH release. We assessed the function of the somatotropic axis in narcolepsy by deconvolving 24-h (10-min sampling interval) plasma GH concentration profiles in seven hypocretin-deficient narcoleptic patients and in seven healthy controls matched for age, sex, and body weight. Both basal and pulsatile GH secretion rate and secretagogue-induced GH release were similar in patients and controls. However, narcoleptics secreted approximately 50% of their total production during the daytime, whereas controls secreted only 25% during the day. Also, the GH output pattern of narcoleptics was significantly less regular. We propose that hypocretin deficiency disrupts the circadian distribution of hypothalamic GH-releasing hormone release in narcoleptic patients to simultaneously cause daytime GH release and promote their propensity to fall asleep during the day. 相似文献
14.
15.
The apoplastic pH of guard cells probably acidifies in response to light, since light induces proton extrusion by both guard
cells and epidermal leaf cells. From the data presented here, it is concluded that these apoplastic pH changes will affect
K+ fluxes in guard cells of Arabidopsis thaliana (L.) Heynh. Guard cells of this species were impaled with double-barrelled microelectrodes, to measure the membrane potential
(Em) and the plasma-membrane conductance. Guard cells were found to exhibit two states with respect to their Em, a depolarized and a hyperpolarized state. Apoplastic acidification depolarized Em in both states, though the origin of the depolarization differed for each state. In the depolarized state, the change in
Em was the result of a combined pH effect on instantaneously activating conductances and on the slow outward rectifying K+ channel (s-ORC). At a more acidic apoplastic pH, the current through instantaneously activated conductances became more inwardly
directed, while the maximum conductance of s-ORC decreased. The effect on s-ORC was accompanied by an acceleration of activation
and deactivation of the channel. Experiments with acid loading of guard cells indicated that the effect on s-ORC was due to
a lowered intracellular pH, caused by apoplastic acidification. In the hyperpolarized state, the pH-induced depolarization
was due to a direct effect of the apoplastic pH on the inward rectifying K+ channel. Acidification shifted the threshold potential of the channel to more positive values. This effect was accompanied
by a decrease in activation times and an increase of deactivation times, of the channel. From the changes in Em and membrane conductance, the expected effect of acidification on K+ fluxes was calculated. It was concluded that apoplastic acidification will increase the K+-efflux in the depolarized state and reduce the K+-influx in the hyperpolarized state.
Received: 28 April 1997 / Accepted: 10 November 1997 相似文献
16.
Improved tests for heterogeneity across a region of DNA sequence in the ratio of polymorphism to divergence 总被引:15,自引:9,他引:6
The neutral theory of molecular evolution predicts that the ratio of
polymorphisms to fixed differences should be fairly uniform across a region
of DNA sequence. Significant heterogeneity in this ratio can indicate the
effects of balancing selection, selective sweeps, mildly deleterious
mutations, or background selection. Comparing an observed heterogeneity
statistic with simulations of the heterogeneity resulting from random
phylogenetic and sampling variation provides a test of the statistical
significance of the observed pattern. When simulated data sets containing
heterogeneity in the polymorphism-to-divergence ratio are examined,
different statistics are most powerful for detecting different patterns of
heterogeneity. The number of runs is most powerful for detecting patterns
containing several peaks of polymorphism; the Kolmogorov-Smirnov statistic
is most powerful for detecting patterns in which one end of the gene has
high polymorphism and the other end has low polymorphism; and a newly
developed statistic, the mean sliding G statistic, is most powerful for
detecting patterns containing one or two peaks of polymorphism with reduced
polymorphism on either side. Nine out of 27 genes from the Drosophila
melanogaster subgroup exhibit heterogeneity that is significant under at
least one of these three tests, with five of the nine remaining significant
after a correction for multiple comparisons, suggesting that detectable
evidence for the effects of some kind of selection is fairly common.
相似文献
17.
18.
Elena Jeworutzki M. Rob G. Roelfsema Uta Anschütz Elzbieta Krol J. Theo M. Elzenga Georg Felix Thomas Boller Rainer Hedrich Dirk Becker 《The Plant journal : for cell and molecular biology》2010,62(3):367-378
The perception of microbes by plants involves highly conserved molecular signatures that are absent from the host and that are collectively referred to as microbe‐associated molecular patterns (MAMPs). The Arabidopsis pattern recognition receptors FLAGELLIN‐SENSING 2 (FLS2) and EF‐Tu receptor (EFR) represent genetically well studied paradigms that mediate defense against bacterial pathogens. Stimulation of these receptors through their cognate ligands, bacterial flagellin or bacterial elongation factor Tu, leads to a defense response and ultimately to increased resistance. However, little is known about the early signaling pathway of these receptors. Here, we characterize this early response in situ, using an electrophysiological approach. In line with a release of negatively charged molecules, voltage recordings of microelectrode‐impaled mesophyll cells and root hairs of Col‐0 Arabidopsis plants revealed rapid, dose‐dependent membrane potential depolarizations in response to either flg22 or elf18. Using ion‐selective microelectrodes, pronounced anion currents were recorded upon application of flg22 and elf18, indicating that the signaling cascades initiated by each of the two receptors converge on the same plasma membrane ion channels. Combined calcium imaging and electrophysiological measurements revealed that the depolarization was superimposed by an increase in cytosolic calcium that was indispensable for depolarization. NADPH oxidase mutants were still depolarized upon elicitor stimulation, suggesting a reactive oxygen species‐independent membrane potential response. Furthermore, electrical signaling in response to either flg22 or elf 18 critically depends on the activity of the FLS2‐associated receptor‐like kinase BAK1, suggesting that activation of FLS2 and EFR lead to BAK1‐dependent, calcium‐associated plasma membrane anion channel opening as an initial step in the pathogen defense pathway. 相似文献
19.
Liu PY Pincus SM Keenan DM Roelfsema F Veldhuis JD 《American journal of physiology. Endocrinology and metabolism》2005,289(1):E160-E165
The hypothalamo-pituitary-adrenal axis is a stress-adaptive neuroendocrine ensemble, in which adrenocorticotropin (ACTH) drives cortisol secretion (feedforward) and cortisol restrains ACTH outflow (feedback). Quantifying direction- and pathway-specific adjustments within this and other interlinked systems by noninvasive means remains difficult. The present study tests the hypothesis that forward and reverse cross-approximate entropy (X-ApEn), a lag-, scale-, and model-independent measure of two-signal synchrony, would allow quantifiable discrimination of feedforward (ACTH --> cortisol) and feedback (cortisol --> ACTH) control. To this end, forward X-ApEn was defined by employing serial ACTH concentrations as a template to appraise pair-wise synchrony with cortisol secretion rates and vice versa for reverse X-ApEn. Coupled hormone profiles included normal ACTH-normal cortisol, high ACTH-high cortisol, and high ACTH-low cortisol concentrations in 35 healthy subjects, 21 patients with tumoral ACTH secretion, and 9 volunteers given placebo and a steroidogenic inhibitor, respectively. We used forward and reverse X-ApEn analyses to identify marked and equivalent losses of feedforward and feedback linkages (both P < 0.001) in patients with tumoral ACTH secretion. An identical analytical strategy revealed that ACTH --> cortisol feedforward synchrony decreases (P < 0.001), whereas cortisol --> ACTH feedback synchrony increases (P < 0.001), in response to hypocortisolemia. The collective outcomes establish precedence for pathway-specific adaptations in a major neurohormonal system. Thus quantification of directionally defined joint synchrony of biologically coupled signals offers a noninvasive strategy to dissect feedforward- and feedback-selective adaptations in an interactive axis. 相似文献
20.
David?E?Comings Thomas?JH?Chen Kenneth?BlumEmail author Julie?F?Mengucci Seth?H?Blum Brian?Meshkin 《Theoretical biology & medical modelling》2005,2(1):50