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141.
Lentil root statoliths reach a stable state in microgravity 总被引:3,自引:0,他引:3
The kinetics of the movement of statoliths in gravity-perceiving root cap cells of Lens culinaris L. and the force responsible for it have been analysed under 1 g and under microgravity conditions (S/MM-03 mission of Spacehab 1996). At the beginning of the experiment in space, the amyloplasts
were grouped at the distal pole of the statocytes by a root-tip-directed 1-g centrifugal acceleration. The seedlings were then placed in microgravity for increasing periods of time (13, 29, 46 or 122 min)
and chemically fixed. During the first 29 min of microgravity there were local displacements (mean velocity: 0.154 μm min−1) of some amyloplasts (first at the front of the group and then at the rear). Nevertheless, the group of amyloplasts tended
to reconstitute. After 122 min in microgravity the bulk of amyloplasts had almost reached the proximal pole where further
movement was blocked by the nucleus. After a longer period in microgravity (4 h; experiment carried out 1994 during the IML
2 mission) the statoliths reached a stable position due to the fact that they were stopped by the nucleus. The position was
similar to that observed in roots grown continuously in microgravity. Treatment with cytochalasin D (CD) did not stop the
movement of the amyloplasts but slowed down the velocity of their displacement (0.019 μm min−1). Initial movement patterns were the same as in control roots in water. Comparisons of mean velocities of amyloplast movements
in roots in space and in inverted roots on earth showed that the force responsible for the movement in microgravity (Fc) was about 86% less (Fc = 0.016 pN) than the gravity force (Fg = 0.11 pN). Treatment with CD reduced Fc by two-thirds. The apparent viscosity of the statocyte cytoplasm was found to be 1 Pa s or 3.3 Pa s for control roots or
CD treated roots, respectively. Brownian motion or elastic forces due to endoplasmic reticulum membranes do not cause the
movement of the amyloplasts in microgravity. It is concluded that the force transporting the statoliths is caused by the actomyosin
system.
Received: 22 March 1999 / Accepted: 18 December 1999 相似文献
142.
Helicobacter pylori ribBA-Mediated Riboflavin Production Is Involved in Iron Acquisition 总被引:1,自引:0,他引:1 下载免费PDF全文
Dennis J. Worst Monique M. Gerrits Christina M. J. E. Vandenbroucke-Grauls Johannes G. Kusters 《Journal of bacteriology》1998,180(6):1473-1479
In this study, we cloned and sequenced a DNA fragment from an ordered cosmid library of Helicobacter pylori NCTC 11638 which confers to a siderophore synthesis mutant of Escherichia coli (EB53 aroB hemA) the ability to grow on iron-restrictive media and to reduce ferric iron. Sequence analysis of the DNA fragment revealed the presence of an open reading frame with high homology to the ribA gene of Bacillus subtilis. This gene encodes a bifunctional enzyme with the activities of both 3,4-dihydroxy-2-butanone 4-phosphate (DHBP) synthase and GTP cyclohydrolase II, which catalyze two essential steps in riboflavin biosynthesis. Expression of the gene (designated ribBA) resulted in the formation of one translational product, which was able to complement both the ribA and the ribB mutation in E. coli. Expression of ribBA was iron regulated, as was suggested by the presence of a putative FUR box in its promotor region and as shown by RNA dot blot analysis. Furthermore, we showed that production of riboflavin in H. pylori cells is iron regulated. E. coli EB53 containing the plasmid with H. pylori ribBA excreted riboflavin in the culture medium, and this riboflavin excretion also appeared to be iron regulated. We postulate that the iron-regulated production of riboflavin and ferric-iron-reduction activity by E. coli EB53 transformed with the H. pylori ribBA gene is responsible for the survival of EB53 on iron-restrictive medium. Because disruption of ribBA in H. pylori eliminates its ferric-iron-reduction activity, we conclude that ribBA has an important role in ferric-iron reduction and iron acquisition by H. pylori. 相似文献
143.
Bruno Chauffert Marie-Thérèse Dimanche-Boitrel Carmen Garrido Mikael Ivarsson Monique Martin François Martin Eric Solary 《Cytotechnology》1998,27(1-3):225-235
Kinetic resistance plays a major role in the failure of chemotherapy towards many solid tumors. Kinetic resistance to cytotoxic
drugs can be reproduced in vitro by growing the cells as multicellular spheroids (Multicellular Resistance) or as hyperconfluent
cultures (Confluence-Dependent Resistance). Recent findings on the cell cycle regulation have permitted a better understanding
why cancer cells which arrest in long quiescent phases are poorly sensitive to cell-cycle specific anticancer drugs. Two cyclin-dependent
kinase inhibitors (CDKI) seem particularly involved in the cell cycle arrest at the G1 to S transition checkpoint: the p53-dependent
p21cip1 protein which is activated by DNA damage and the p27kip1 which is a mediator of the contact inhibition signal. Cell quiescence could alter drug-induced apoptosis which is partly
dependent on an active progression in the cell cycle and which is facilitated by overexpression of oncogenes such as c-Myc
or cyclins. Investigations are yet necessary to determine the influence of the cell cycle on the balance between antagonizing
(bcl-2, bcl-XL...) or stimulating (Bax, Bcl-XS, Fas...) factors in chemotherapy-induced apoptosis. Quiescent cells could also be protected from toxic agents by an enhanced
expression of stress proteins, such as HSP27 which is induced by confluence. New strategies are required to circumvent kinetic
resistance of solid tumors: adequate choice of anticancer agents whose activity is not altered by quiescence (radiation, cisplatin),
recruitment from G1 to S/G2 phases by cell pretreatment with alkylating drugs or attenuation of CDKI activity by specific
inhibitors.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
144.
Lambé Pascal Mutambel Hity S.N. Deltour Roger Dinant Monique 《Plant Cell, Tissue and Organ Culture》1998,55(1):23-29
Three genotypes of Pearl millet were screened in vitro for induction of embryogenic callus, somatic embryogenesis and regeneration.
Shoot apices excised from in vitro germinated seedlings or immature embryos isolated from green house established plants were
used as primary explants. The frequency of embryogenic callus initiation was significantly higher in shoot apices in comparison
with immature zygotic embryos. Moreover, differences between genotypes were minimal when using shoot apices. Friable embryogenic
calli (type II) developed on the initial nodular calli after 1 to 3 months of culture. The frequency of type II callus is
related to the composition of the maintenance medium and they were more often found in ageing cultures. The transfer of embryogenic
calli onto auxin-free medium was sufficient for inducing somatic embryo development in short-term culture (3 months) while
a progressive loss in regeneration potential was observed with increasing time of subcultures. Maturation of embryogenic calli
on medium supplemented with activated charcoal, followed by germination of somatic embryos on medium supplemented with gibberellic
acid, restored regeneration in long-term cultures.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
145.
146.
Pierre Verhaeghe Nadine Azas Sébastien Hutter Caroline Castera-Ducros Michèle Laget Aurélien Dumètre Monique Gasquet Jean-Pierre Reboul Sylvain Rault Pascal Rathelot Patrice Vanelle 《Bioorganic & medicinal chemistry》2009,17(13):4313-4322
To identify a new safe antiplasmodial molecular scaffold, an original series of 2-trichloromethylquinazolines, functionalized in position 4 by an alkyl- or arylamino substituent, was synthesized from 4-chloro-2-trichloromethylquinazoline 1, via a cheap, fast and efficient solvent-free operating procedure. Among the 40 molecules prepared, several exhibit a good profile with both a significant antiplasmodial activity on the W2 Plasmodium falciparum strain (IC50 values: 0.4–2.2 μM) and a promising toxicological behavior regarding human cells (HepG2/W2 selectivity indexes: 40–83), compared to the antimalarial drug compounds chloroquine and doxycycline. The in vitro antitoxoplasmic and antileishmanial evaluations were conducted in parallel on the most active molecules, showing that these ones specifically display antiplasmodial properties. 相似文献
147.
Wouter?T.?GudeEmail author Mari?tte?M.?van Engen-Verheul Sabine?N.?van der Veer Hareld?M.?C.?Kemps Monique?W.?M.?Jaspers Nicolette?F.?de Keizer Niels?Peek 《Implementation science : IS》2015,11(1):160
Background
The objective of this study was to assess the effect of a web-based audit and feedback (A&F) intervention with outreach visits to support decision-making by multidisciplinary teams.Methods
We performed a multicentre cluster-randomized trial within the field of comprehensive cardiac rehabilitation (CR) in the Netherlands. Our participants were multidisciplinary teams in Dutch CR centres who were enrolled in the study between July 2012 and December 2013 and received the intervention for at least 1 year. The intervention included web-based A&F with feedback on clinical performance, facilities for goal setting and action planning, and educational outreach visits. Teams were randomized either to receive feedback that was limited to psychosocial rehabilitation (study group A) or to physical rehabilitation (study group B). The main outcome measure was the difference in performance between study groups in 11 care processes and six patient outcomes, measured at patient level. Secondary outcomes included effects on guideline concordance for the four main CR therapies.Results
Data from 18 centres (14,847 patients) were analysed, of which 12 centres (9353 patients) were assigned to group A and six (5494 patients) to group B. During the intervention, a total of 233 quality improvement goals was identified by participating teams, of which 49 (21%) were achieved during the study period. Except for a modest improvement in data completeness (4.5% improvement per year; 95% CI 0.65 to 8.36), we found no effect of our intervention on any of our primary or secondary outcome measures.Conclusions
Within a multidisciplinary setting, our web-based A&F intervention engaged teams to define local performance improvement goals but failed to support them in actually completing the improvement actions that were needed to achieve those goals. Future research should focus on improving the actionability of feedback on clinical performance and on addressing the socio-technical perspective of the implementation process.Trial registration
NTR3251148.
Monique G P van der Wijst Muralidhar Venkiteswaran Hui Chen Guo-Liang Xu Torsten Pl?sch Marianne G Rots 《Epigenetics》2015,10(8):671-676
Insights on active DNA demethylation disproved the original assumption that DNA methylation is a stable epigenetic modification. Interestingly, mammalian DNA methyltransferases 3A and 3B (DNMT-3A and -3B) have also been reported to induce active DNA demethylation, in addition to their well-known function in catalyzing methylation. In situations of extremely low levels of S-adenosyl methionine (SAM), DNMT-3A and -3B might demethylate C-5 methyl cytosine (5mC) via deamination to thymine, which is subsequently replaced by an unmodified cytosine through the base excision repair (BER) pathway. Alternatively, 5mC when converted to 5- hydroxymethylcytosine (5hmC) by TET enzymes, might be further modified to an unmodified cytosine by DNMT-3A and -3B under oxidized redox conditions, although exact pathways are yet to be elucidated. Interestingly, even direct conversion of 5mC to cytosine might be catalyzed by DNMTs. Here, we summarize the evidence on the DNA dehydroxymethylase and demethylase activity of DNMT-3A and -3B. Although physiological relevance needs to be demonstrated, the current indications on the 5mC- and 5hmC-modifying activities of de novo DNA C-5 methyltransferases shed a new light on these enzymes. Despite the extreme circumstances required for such unexpected reactions to occur, we here put forward that the chromatin microenvironment can be locally exposed to extreme conditions, and hypothesize that such waves of extremes allow enzymes to act in differential ways. 相似文献
149.
Michael Macia Emilie Pecchi Christophe Vilmen Martine Desrois Carole Lan Bernard Portha Monique Bernard David Bendahan Beno?t Giannesini 《PloS one》2015,10(6)
Insulin resistance, altered lipid metabolism and mitochondrial dysfunction in skeletal muscle would play a major role in type 2 diabetes mellitus (T2DM) development, but the causal relationships between these events remain conflicting. To clarify this issue, gastrocnemius muscle function and energetics were investigated throughout a multidisciplinary approach combining in vivo and in vitro measurements in Goto-Kakizaki (GK) rats, a non-obese T2DM model developing peripheral insulin resistant without abnormal level of plasma non-esterified fatty acids (NEFA). Wistar rats were used as controls. Mechanical performance and energy metabolism were assessed strictly non-invasively using magnetic resonance (MR) imaging and 31-phosphorus MR spectroscopy (31P-MRS). Compared with control group, plasma insulin and glucose were respectively lower and higher in GK rats, but plasma NEFA level was normal. In resting GK muscle, phosphocreatine content was reduced whereas glucose content and intracellular pH were both higher. However, there were not differences between both groups for basal oxidative ATP synthesis rate, citrate synthase activity, and intramyocellular contents for lipids, glycogen, ATP and ADP (an important in vivo mitochondrial regulator). During a standardized fatiguing protocol (6 min of maximal repeated isometric contractions electrically induced at a frequency of 1.7 Hz), mechanical performance and glycolytic ATP production rate were reduced in diabetic animals whereas oxidative ATP production rate, maximal mitochondrial capacity and ATP cost of contraction were not changed. These findings provide in vivo evidence that insulin resistance is not caused by an impairment of mitochondrial function in this diabetic model. 相似文献
150.
Andrew T. Miller Carol Dahlberg Mark L. Sandberg Ben G. Wen Daniel R. Beisner John A. H. Hoerter Albert Parker Christian Schmedt Monique Stinson Jacqueline Avis Cynthia Cienfuegos Mark McPate Pamela Tranter Martin Gosling Paul J. Groot-Kormelink Janet Dawson Shifeng Pan Shin-Shay Tian H. Martin Seidel Michael P. Cooke 《PloS one》2015,10(6)
Emerging approaches to treat immune disorders target positive regulatory kinases downstream of antigen receptors with small molecule inhibitors. Here we provide evidence for an alternative approach in which inhibition of the negative regulatory inositol kinase Itpkb in mature T lymphocytes results in enhanced intracellular calcium levels following antigen receptor activation leading to T cell death. Using Itpkb conditional knockout mice and LMW Itpkb inhibitors these studies reveal that Itpkb through its product IP4 inhibits the Orai1/Stim1 calcium channel on lymphocytes. Pharmacological inhibition or genetic deletion of Itpkb results in elevated intracellular Ca2+ and induction of FasL and Bim resulting in T cell apoptosis. Deletion of Itpkb or treatment with Itpkb inhibitors blocks T-cell dependent antibody responses in vivo and prevents T cell driven arthritis in rats. These data identify Itpkb as an essential mediator of T cell activation and suggest Itpkb inhibition as a novel approach to treat autoimmune disease. 相似文献