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141.
142.
Daneshrad Z Garcia-Riera MP Verdys M Rossi A 《Molecular and cellular biochemistry》2000,210(1-2):159-166
Chronic exposure of mammals to hypoxia induces a state of anorexia. We aimed to determine the role played by diet restriction in the alterations of myocardial energy metabolism occurring under chronic hypoxia in order to detect the specific effects of hypoxia per se.Adult female rats were exposed to normobaric hypoxia (Fi O2 = 0.10) for three weeks; pair-fed rats, kept under normoxic conditions, received the same amount of food as hypoxic rats. The oxidative capacity of myocardial ventricles and some skeletal muscles was evaluated using permeabilized fibers. Several metabolic enzyme activities were measured on extracts from myocardium and soleus.Diet restriction increased the activity of lactate dehydrogenase in both ventricles while it augmented phosphofructokinase and pyruvate kinase activities only in the left ventricle and depressed the respiratory rate in the right ventricle only.Hypoxia per se induced a rise in hexokinase activity in all studied oxidative muscles and a fall of hydroxy-acyl CoA-dehydrogenase activity in both myocardial ventricles. The respiratory rate and the citrate synthase activities were unaffected by hypoxia.We conclude that chronic hypoxia per se leads to specific alterations in myocardial metabolism that could favor the use of exogenous glucose at the expense of free fatty acids without any change in the oxidative capacity. 相似文献
143.
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
144.
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
145.
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
146.
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
147.
Marie Gérard-Champod Stéphanie Blanquet-Diot Jean-Michel Cardot David Bravo Monique Alric 《Applied and environmental microbiology》2010,76(16):5592-5600
Following the January 2006 European ban of antibiotics used as growth promoters in the veal calf industry, new feed additives are needed in order to maintain animal health and growth performance. As an alternative to in vivo experiments in the testing of such additives, an in vitro system modeling the intestinal ecosystem of the veal calf was developed. Stabilization of the main cultured microbial groups and their metabolic activity were tracked in an in vitro continuous fermentor operated under anaerobiosis, at pH 6.5, and at a temperature of 38.5°C and supplied with one of three different nutritive media (M1, M2, or M3). These media mainly differed in their concentrations of simple and complex carbohydrates and in their lipid sources. In vitro microbial levels and fermentative metabolite concentrations were compared to in vivo data, and the biochemical composition of the nutritive media was compared to that of the veal calf intestinal content. All three nutritive media were able to stabilize anaerobic and facultative anaerobic microflora, lactate-utilizing bacteria, bifidobacteria, lactobacilli, enterococci, and Bacteroides fragilis group bacteria at levels close to in vivo values. The microbiota was metabolically active, with high concentrations of lactate, ammonia, and short-chain fatty acids found in the fermentative medium. Comparison with in vivo data indicated that M3 outperformed M1 and M2 in simulating the conditions encountered in the veal calf intestine. This in vitro system would be useful in the prescreening of new feed additives by studying their effect on the intestinal microbiota levels and fermentative metabolite production.European regulations introduced in January 2006 banned the use of antibiotics as growth promoters (AGP) at subtherapeutic levels in animal feed (regulation EC 1831/2003), particularly for veal calves. AGP generated significantly enhanced growth performance via complex processes. The mechanism of growth promotion is still speculative, but many studies suggest the involvement of the intestinal microbiota (7, 9). First of all, AGP did not promote the growth of germfree animals (6). Moreover, they strongly inhibited the bacterial catabolism of urea and amino acids and the fermentation of carbohydrates both in vitro and in vivo (10, 28, 35). AGP treatment thus provided the animal with higher nutrient availability and led to a decrease in the toxic metabolites produced by bacteria, like ammonia or amines, limiting the energy needed by the animal to detoxify the organism. Some authors also argue that another beneficial effect of AGP results from improved control of intestinal pathologies, such as necrotic enteritis in poultry (12). The January 2006 ban is thus expected to have an impact on veal calf health by leading to more frequent digestive disorders, as previously observed in pigs and poultry in the Nordic countries (36), where AGP have been totally prohibited since the 1990s. Even though no scientific study has yet been done on calves, there have already been reports of higher death rates on experimental commercial farms subsequent to the withdrawal of AGP. The main digestive diseases leading to veal calf deaths are enteritis and enterotoxemia, which are mainly triggered by pathogenic strains of Escherichia coli and Clostridium perfringens (22, 30).Veal calf producers are looking for new feed additives to allay the consequences of the AGP ban. Alternative approaches include the use of prebiotics, probiotics, or plant extracts. Several studies have reported both consistent improvements in weight gain and feed conversion and a reduction of the incidence of diarrhea with the addition of such additives to the veal calf diet (1, 11, 14). One of the hypotheses used to explain these beneficial effects involves the modulation of the intestinal microbiota. In particular, oligosaccharides containing mannose or fructose are known to selectively increase the growth of beneficial intestinal bacteria, including lactobacilli and bifidobacteria (21). Timmerman et al. (33) showed that a calf-specific probiotic containing six Lactobacillus species reduced the fecal counts of E. coli. Green tea extracts also improved the intestinal microbial balance by maintaining high fecal levels of Bifidobacterium and Lactobacillus spp. and decreasing those of C. perfringens (16).As indicated above, it is important to assess the action of newly developed feed additives on the veal calf intestinal microbiota. High interindividual variability makes it difficult and expensive to carry out in vivo studies. Alternatively, experiments can be conducted via in vitro systems modeling the intestinal environment of the animals, provided the model has been checked as pertinent. This approach should allow an economical and ethical way to prescreen feed additives by studying their effects on the intestinal microbiota cultured in the in vitro system and its metabolic activity. With this objective in mind, a necessary requirement is knowledge of the veal calf intestinal ecosystem. Thus, the bacterial and biochemical composition of the jejunoileal chyme of calves was previously characterized (13).The aims of the present study were (i) to set up an in vitro system where the main cultured microbial groups identified in the veal calf intestinal chyme are reproducibly stabilized and metabolically active and (ii) to validate our model by comparing the in vitro and in vivo levels of selected biotic and abiotic variables. 相似文献
148.
Monique Tourte 《Planta》1972,105(1):50-59
Summary By ultrastructural methods, cytology, and cytochemistry it is shown that peroxysomes are present during all stages of the life cycle of the green unicellular alga Micrasterias fimbriata, cultivated on mineral medium. These organelles, surrounded by a single membrane, are in connection with endoplasmic reticulum. In full-grown cells, they are preferentially situated near chloroplasts and cell walls. The number of peroxisomes increase before cellular division and the organelles flow into the young bulge in front of the chloroplast.Application of a modified Graham and Karnosky's medium using DAB at pH 9 shows that an important activity of catalase is present not only at the level of peroxisomes but also at the level of the cell walls and certain Golgi vesicles.The topographic relations of peroxisomes with different cellular organelles and their possible functions in cell wall or mucus synthesis are discussed. 相似文献
149.
Julio Sáez-Vásquez Monique Raynal Luis Meza-Basso Michel Delseny 《Plant molecular biology》1993,23(6):1211-1221
In order to identify genes involved in cold acclimation, we have constructed a cDNA library from Brassica napus (cv. Samouraï) cold-acclimated etiolated seedlings. By differential screening, a cDNA clone named pBnC24 (Brassica napus Cold), corresponding to a new cold-inducible plant gene, was isolated. Northern blot hybridizations using total RNA from acclimated and unacclimated seedlings confirmed that BnC24 represents a cold-regulated gene. In contrast with a number of cold-inducible plant genes, BnC24 does not seem to be responsive to abscisic acid (ABA). In addition, further screening of the cold-acclimated cDNA library using pBnC24 cDNA as a probe, allowed the isolation of a second type of homologous cDNA. Sequence analysis showed that the two BnC24 genes encode basic 24 kDa proteins, which are highly hydrophilic and rich in alanine, lysine and arginine. The nucleotide and deduced amino acid sequences of these clones do not show any homology with other previously described cold-induced plants genes. However they have strong homology with a recently discovered human tumour gene, bbc1 (breast basic conserved), which seems to be highly conserved in eukaryotes. 相似文献
150.
Sagnard F Deu M Dembélé D Leblois R Touré L Diakité M Calatayud C Vaksmann M Bouchet S Mallé Y Togola S Traoré PC 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(7):1231-1246
Gene flow between domesticated plants and their wild relatives is one of the major evolutionary processes acting to shape their structure of genetic diversity. Earlier literature, in the 1970s, reported on the interfertility and the sympatry of wild, weedy and cultivated sorghum belonging to the species Sorghum bicolor in most regions of sub-Saharan Africa. However, only a few recent surveys have addressed the geographical and ecological distribution of sorghum wild relatives and their genetic structure. These features are poorly documented, especially in western Africa, a centre of diversity for this crop. We report here on an exhaustive in situ collection of wild, weedy and cultivated sorghum assembled in Mali and in Guinea. The extent and pattern of genetic diversity were assessed with 15 SSRs within the cultivated pool (455 accessions), the wild pool (91 wild and weedy forms) and between them. F (ST) and R (ST) statistics, distance-based trees, Bayesian clustering methods, as well as isolation by distance models, were used to infer evolutionary relationships within the wild-weedy-crop complex. Firstly, our analyses highlighted a strong racial structure of genetic diversity within cultivated sorghum (F (ST) = 0.40). Secondly, clustering analyses highlighted the introgressed nature of most of the wild and weedy sorghum and grouped them into two eco-geographical groups. Such closeness between wild and crop sorghum could be the result of both sorghum's domestication history and preferential post-domestication crop-to-wild gene flow enhanced by farmers' practices. Finally, isolation by distance analyses showed strong spatial genetic structure within each pool, due to spatially limited dispersal, and suggested consequent gene flow between the wild and the crop pools, also supported by R (ST) analyses. Our findings thus revealed important features for the collection, conservation and biosafety of domesticated and wild sorghum in their centre of diversity. 相似文献