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Alex Boehm Markus Arnoldini Tobias Bergmiller Thomas R??sli Colette Bigosch Martin Ackermann 《PLoS genetics》2016,12(4)
In bacteria, replicative aging manifests as a difference in growth or survival between the two cells emerging from division. One cell can be regarded as an aging mother with a decreased potential for future survival and division, the other as a rejuvenated daughter. Here, we aimed at investigating some of the processes involved in aging in the bacterium Escherichia coli, where the two types of cells can be distinguished by the age of their cell poles. We found that certain changes in the regulation of the carbohydrate metabolism can affect aging. A mutation in the carbon storage regulator gene, csrA, leads to a dramatically shorter replicative lifespan; csrA mutants stop dividing once their pole exceeds an age of about five divisions. These old-pole cells accumulate glycogen at their old cell poles; after their last division, they do not contain a chromosome, presumably because of spatial exclusion by the glycogen aggregates. The new-pole daughters produced by these aging mothers are born young; they only express the deleterious phenotype once their pole is old. These results demonstrate how manipulations of nutrient allocation can lead to the exclusion of the chromosome and limit replicative lifespan in E. coli, and illustrate how mutations can have phenotypic effects that are specific for cells with old poles. This raises the question how bacteria can avoid the accumulation of such mutations in their genomes over evolutionary times, and how they can achieve the long replicative lifespans that have recently been reported. 相似文献
84.
E. Remmelink A. Aartsma‐Rus A. B. Smit M. Verhage M. Loos M. van Putten 《Genes, Brain & Behavior》2016,15(6):558-567
Duchenne muscular dystrophy (DMD) is a progressive muscle‐wasting disorder, caused by mutations in the DMD gene and the resulting lack of dystrophin. The DMD gene has seven promoters, giving rise to multiple full‐length and shorter isoforms. Besides the expression of dystrophin in muscles, the majority of dystrophin isoforms is expressed in brain and dystrophinopathy can lead to cognitive deficits, including intellectual impairments and deficits in executive function. In contrast to the muscle pathology, the impact of the lack of dystrophin on the brain is not very well studied. Here, we study the behavioral consequences of a lack of full‐length dystrophin isoforms in mdx mice, particularly with regard to domains of executive functions and anxiety. We observed a deficit in cognitive flexibility in mdx mice in the absence of motor dysfunction or general learning impairments using two independent behavioral tests. In addition, increased anxiety was observed, but its expression depended on the context. Overall, these results suggest that the absence of full‐length dystrophin in mice has specific behavioral effects that compare well to deficits observed in DMD patients. 相似文献
85.
Miguel A. Gonzalez‐Lozano Frank Koopmans Iryna Paliukhovich August B. Smit Ka Wan Li 《Proteomics》2019,19(9)
A simple and fast immunoprecipitation (IP) protocol is designed with the sample preparation incorporated, applicable to both low and high throughput. This new protocol combines two procedures based on magnetic beads in 96‐well plate format. Protein complexes are captured by antibodies and magnetic beads conjugated with protein A. Proteins are washed and on‐bead digested by using Single‐Pot solid‐phase sample preparation (SP3). The whole IP‐SP3 approach can be completed in one day, which is considerably faster compared to the classical approach. No major quantitative differences are found between SP3 and FASP (filter‐aided sample preparation) or a longer incubation protocol. Taken together, the IP‐SP3 protocol is a fast and economical approach easily applicable for large‐scale protein interactome analysis. 相似文献
86.
ngela M. Ribeiro Lara Puetz Nicholas B. Pattinson Love Daln Yuan Deng Guojie Zhang Rute R. da Fonseca Ben Smit M. Thomas P. Gilbert 《Molecular ecology》2019,28(16):3709-3721
Arid environments provide ideal ground for investigating the mechanisms of adaptive evolution. High temperatures and low water availability are relentless stressors for many endotherms, including birds; yet birds persist in deserts. While physiological adaptation probably involves metabolic phenotypes, the underlying mechanisms (plasticity, genetics) are largely uncharacterized. To explore this, we took an intraspecific approach that focused on a species that is resident over a mesic to arid gradient, the Karoo scrub‐robin (Cercotrichas coryphaeus). Specifically, we integrated environmental (climatic and primary productivity), physiological (metabolic rates: a measure of energy expenditure), genotypic (genetic variation underlying the machinery of energy production) and microbiome (involved in processing food from where energy is retrieved) data, to infer the mechanism of physiological adaptation. We that found the variation in energetic physiology phenotypes and gut microbiome composition are associated with environmental features as well as with variation in genes underlying energy metabolic pathways. Specifically, we identified a small list of candidate adaptive genes, some of them with known ties to relevant physiology phenotypes. Together our results suggest that selective pressures on energetic physiology mediated by genes related to energy homeostasis and possibly microbiota composition may facilitate adaptation to local conditions and provide an explanation to the high avian intraspecific divergence observed in harsh environments. 相似文献
87.
Cycloheximide (CYH) is a heterocyclic, glutarimide antibiotic that is a potent inhibitor of protein biosynthesis in most eukaryotes. This study demonstrated that yeasts from all species of the Lipomycetaceae, with the exception of Dipodascopsis spp., can grow in the presence of up to 5 g.L(-1) CYH -- a concentration that is five times higher than the accepted "highest" concentration of 1 g.L(-1) used in physiological tests for yeast identification. Lipomycetaceous yeasts are known to utilize heterocyclic nitrogen-containing compounds such as thymine as sole nitrogen source. CYH contains a glutarimide ring, which is chemically similar to thymine. We investigated the possibility that CYH resistance in the Lipomycetaceae might be due to an ability to degrade CYH and use it as the sole nitrogen source. However, we were unable to demonstrate significant growth on CYH as sole nitrogen source. When thymine was used as positive control, we could demonstrate its utilization as sole nitrogen source. 相似文献
88.
Khayath N Vicogne J Ahier A BenYounes A Konrad C Trolet J Viscogliosi E Brehm K Dissous C 《The FEBS journal》2007,274(3):659-676
Insulin signalling is a very ancient and well conserved pathway in metazoan cells, dependent on insulin receptors (IR) which are transmembrane proteins with tyrosine kinase activity. A unique IR is usually present in invertebrates whereas two IR members are found with different functions in vertebrates. This work demonstrates the existence of two distinct IR homologs (SmIR-1 and SmIR-2) in the parasite trematode Schistosoma mansoni. These two receptors display differences in several structural motifs essential for signalling and are differentially expressed in parasite tissues, suggesting that they could have distinct functions. The gene organization of SmIR-1 and SmIR-2 is similar to that of the human IR and to that of the IR homolog from Echinococcus multilocularis (EmIR), another parasitic platyhelminth. SmIR-1 and SmIR-2 were shown to interact with human pro-insulin but not with pro-insulin-like growth factor-1 in two-hybrid assays. Phylogenetic results indicated that SmIR-2 and EmIR might be functional orthologs whereas SmIR-1 would have emerged to fulfil specific functions in schistosomes. 相似文献
89.
Improved fermentation of starch and its dextrin products would benefit the brewing and whiskey industries. Most strains ofSaccharomyces ferment glucose and maltose and partially ferment maltotriose, but are unable to utilise the larger dextrin products of starch. This utilisation pattern is partly attributed to the ability of yeast cells to transport the aforementioned mono-, di- and trisaccharides into the cytosol. The maltotriose transporting efficiency varies between differentSaccharomyces strains. In this study, severalSaccharomyces strains, including whiskey strains, were screened for growth on maltotriose. TheAGT1 genes, which encode a maltose transporter that show affinity for maltotriose uptake, were isolated from the strains that grew strongest in media with maltotriose as sole carbon source. The isolatedAGT1 alleles were sequenced and their chromosomal locations determined in the strains from which they were cloned. Nucleotide and deduced amino acid sequences of the isolated genes shared 95% and 98% identity, respectively. The efficiency of maltotriose transport was determined by expressing theAGT1 variants in an identical genetic background. TheK m values obtained for all the permeases were very similar (≈3), but the permease with improved performance for maltotriose transport showed an approximately 30% higherV max value than for the others. The data obtained suggest that the genetic variation among theAGT1-encoded transporters is reason for the variation in maltotriose transport efficiency among differentSaccharomyces strains. This study offers prospects for the development of yeast strains with improved maltose and maltotriose uptake capabilities that, in turn, could increase the overall fermentation efficiencies in the beer and whiskey industries. 相似文献
90.
Konstanze T. Schiessl Adin Ross‐Gillespie Daniel M. Cornforth Michael Weigert Colette Bigosch Sam P. Brown Martin Ackermann Rolf Kümmerli 《Evolution; international journal of organic evolution》2019,73(4):675-688
How unicellular organisms optimize the production of compounds is a fundamental biological question. While it is typically thought that production is optimized at the individual‐cell level, secreted compounds could also allow for optimization at the group level, leading to a division of labor where a subset of cells produces and shares the compound with everyone. Using mathematical modeling, we show that the evolution of such division of labor depends on the cost function of compound production. Specifically, for any trait with saturating benefits, linear costs promote the evolution of uniform production levels across cells. Conversely, production costs that diminish with higher output levels favor the evolution of specialization–especially when compound shareability is high. When experimentally testing these predictions with pyoverdine, a secreted iron‐scavenging compound produced by Pseudomonas aeruginosa, we found linear costs and, consistent with our model, detected uniform pyoverdine production levels across cells. We conclude that for shared compounds with saturating benefits, the evolution of division of labor is facilitated by a diminishing cost function. More generally, we note that shifts in the level of selection from individuals to groups do not solely require cooperation, but critically depend on mechanistic factors, including the distribution of compound synthesis costs. 相似文献