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991.
Summary Ten-cell-long filaments of the caulonema of Funaria hygrometrica were isolated and labeled with 3H-thymidine. During the process of regeneration this precursor is incorporated into the nucleus and the chloroplasts. The nuclei of aged cells are preferentially labeled, even the nuclei of such cells which probably will no longer divide.From these facts it is concluded that DNA synthesis can occur during the process of regeneration irrespectively of a following cell division. 相似文献
992.
993.
Jessica A. Taylor Cristina Díez-Vives Shaun Nielsen Bernd Wemheuer Torsten Thomas 《Environmental microbiology》2022,24(5):2299-2314
The diversity and function of sponge-associated symbionts is now increasingly understood; however, we lack an understanding of how they dynamically behave to ensure holobiont stability in the face of environmental variation. Here, we performed a metatransciptomic analysis on three microbial symbionts of the sponge Cymbastela concentrica in situ over 14 months and through differential gene expression and correlation analysis to environmental variables uncovered differences that speak to their metabolic activities and level of symbiotic and environmental interactions. The nitrite-oxidizing Ca. Porinitrospira cymbastela maintained a seemingly stable metabolism, with the few differentially expressed genes related only to stress responses. The heterotrophic Ca. Porivivens multivorans displayed differential use of holobiont-derived compounds and respiration modes, while the ammonium-oxidizing archaeon Ca. Nitrosopumilus cymbastelus differentially expressed genes related to phosphate metabolism and symbiosis effectors. One striking similarity between the symbionts was their similar variation in expression of stress-related genes. Our time-series study showed that the microbial community of C. concentrica undertakes dynamic gene expression adjustments in response to the surroundings, tuned to deal with general stress and metabolic interactions between holobiont members. The success of these dynamic adjustments likely underpins the stability of the sponge holobiont and may provide resilience against environmental change. 相似文献
994.
995.
Anke Liepelt Alexander Wehr Marlene Kohlhepp Jana C. Mossanen Karina Kreggenwinkel Bernd Denecke Ivan G. Costa Tom Luedde Christian Trautwein Frank Tacke 《生物化学与生物物理学报:疾病的分子基础》2019,1865(2):391-402
Chronic inflammation in the liver provokes fibrosis and, on long-term, carcinogenesis. This sequence is prototypically recapitulated in mice with hepatocyte-specific knock-out of the NF-κB essential modulator (NEMO), termed NEMOLPC-KO mice, in which increased hepatocyte apoptosis and compensatory regeneration cause steatosis, inflammation and fibrosis. Natural killer T (NKT) cells carrying the chemokine receptor CXCR6 participate in liver inflammation and injury responses. Here, we investigated the role of CXCR6 in the NEMOLPC-KO mouse model. Unexpectedly, genetic deletion of CXCR6 enhanced hepatocyte death, inflammation and fibrosis in NEMOLPC-KO mice. Although CXCR6 expression is restricted to immune cells in the liver, the adoptive transfer of CXCR6+ cells did not protect NEMOLPC-KOCxcr6?/? mice from hepatic injury. Gene array analyses revealed up-regulated stress response and metabolism pathways in hepatocytes from NEMOLPC-KOCxcr6?/? mice, functionally corresponding to an increased susceptibility of these hepatocytes to TNFα-induced cell death in vitro. These data revealed a novel CXCR6-dependent mechanism of suppressing inflammatory hepatocytic responses to cellular stress. 相似文献
996.
R. Glen Uhrig Pascal Schlpfer Bernd Roschitzki Matthias Hirsch‐Hoffmann Wilhelm Gruissem 《The Plant journal : for cell and molecular biology》2019,99(1):176-194
Protein phosphorylation and acetylation are the two most abundant post‐translational modifications (PTMs) that regulate protein functions in eukaryotes. In plants, these PTMs have been investigated individually; however, their co‐occurrence and dynamics on proteins is currently unknown. Using Arabidopsis thaliana, we quantified changes in protein phosphorylation, acetylation and protein abundance in leaf rosettes, roots, flowers, siliques and seedlings at the end of day (ED) and at the end of night (EN). This identified 2549 phosphorylated and 909 acetylated proteins, of which 1724 phosphorylated and 536 acetylated proteins were also quantified for changes in PTM abundance between ED and EN. Using a sequential dual‐PTM workflow, we identified significant PTM changes and intersections in these organs and plant developmental stages. In particular, cellular process‐, pathway‐ and protein‐level analyses reveal that the phosphoproteome and acetylome predominantly intersect at the pathway‐ and cellular process‐level at ED versus EN. We found 134 proteins involved in core plant cell processes, such as light harvesting and photosynthesis, translation, metabolism and cellular transport, that were both phosphorylated and acetylated. Our results establish connections between PTM motifs, PTM catalyzing enzymes and putative substrate networks. We also identified PTM motifs for further characterization of the regulatory mechanisms that control cellular processes during the diurnal cycle in different Arabidopsis organs and seedlings. The sequential dual‐PTM analysis expands our understanding of diurnal plant cell regulation by PTMs and provides a useful resource for future analyses, while emphasizing the importance of analyzing multiple PTMs simultaneously to elucidate when, where and how they are involved in plant cell regulation. 相似文献
997.
Ant-based and swarm-based clustering 总被引:3,自引:0,他引:3
Clustering with swarm-based algorithms is emerging as an alternative to more conventional clustering methods, such as hierarchical
clustering and k-means. Ant-based clustering stands out as the most widely used group of swarm-based clustering algorithms. Broadly speaking,
there are two main types of ant-based clustering: the first group of methods directly mimics the clustering behavior observed
in real ant colonies. The second group is less directly inspired by nature: the clustering task is reformulated as an optimization
task and general purpose ant-based optimization heuristics are utilized to find good or near-optimal clusterings. This papers
reviews both approaches and places these methods in the wider context of general swarm-based clustering approaches. 相似文献
998.
Key transitions in animal evolution 总被引:2,自引:0,他引:2
In order to address this subject further and to assess progressin the examination of animal origins and transitions, an internationalgroup of scientists was convened at the Society for ComparativeBiology meeting in January 2007. 相似文献
999.
Human walking is a dynamic, partly self-stabilizing process relying on the interaction of the biomechanical design with its neuronal control. The coordination of this process is a very difficult problem, and it has been suggested that it involves a hierarchy of levels, where the lower ones, e.g., interactions between muscles and the spinal cord, are largely autonomous, and where higher level control (e.g., cortical) arises only pointwise, as needed. This requires an architecture of several nested, sensori–motor loops where the walking process provides feedback signals to the walker's sensory systems, which can be used to coordinate its movements. To complicate the situation, at a maximal walking speed of more than four leg-lengths per second, the cycle period available to coordinate all these loops is rather short. In this study we present a planar biped robot, which uses the design principle of nested loops to combine the self-stabilizing properties of its biomechanical design with several levels of neuronal control. Specifically, we show how to adapt control by including online learning mechanisms based on simulated synaptic plasticity. This robot can walk with a high speed (>3.0 leg length/s), self-adapting to minor disturbances, and reacting in a robust way to abruptly induced gait changes. At the same time, it can learn walking on different terrains, requiring only few learning experiences. This study shows that the tight coupling of physical with neuronal control, guided by sensory feedback from the walking pattern itself, combined with synaptic learning may be a way forward to better understand and solve coordination problems in other complex motor tasks. 相似文献
1000.
Millington OR Gibson VB Rush CM Zinselmeyer BH Phillips RS Garside P Brewer JM 《PLoS pathogens》2007,3(10):1380-1387
Interactions between antigen-presenting dendritic cells (DCs) and T cells are essential for the induction of an immune response. However, during malaria infection, DC function is compromised and immune responses against parasite and heterologous antigens are reduced. Here, we demonstrate that malaria infection or the parasite pigment hemozoin inhibits T cell and DC interactions both in vitro and in vivo, while signal 1 intensity remains unaltered. This altered cellular behaviour is associated with the suppression of DC costimulatory activity and functional T cell responses, potentially explaining why immunity is reduced during malaria infection. 相似文献