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51.
Pankaj Thapa Nilesh Shanmugam Wojciech Pokrzywa 《BioEssays : news and reviews in molecular, cellular and developmental biology》2020,42(1):1900171
The fate of eukaryotic proteins, from their synthesis to destruction, is supervised by the ubiquitin–proteasome system (UPS). The UPS is the primary pathway responsible for selective proteolysis of intracellular proteins, which is guided by covalent attachment of ubiquitin to target proteins by E1 (activating), E2 (conjugating), and E3 (ligating) enzymes in a process known as ubiquitylation. The UPS can also regulate protein synthesis by influencing multiple steps of RNA (ribonucleic acid) metabolism. Here, recent publications concerning the interplay between the UPS and different types of RNA are reviewed. This interplay mainly involves specific RNA-binding E3 ligases that link RNA-dependent processes with protein ubiquitylation. The emerging understanding of their modes of RNA binding, their RNA targets, and their molecular and cellular functions are primarily focused on. It is discussed how the UPS adapted to interact with different types of RNA and how RNA molecules influence the ubiquitin signaling components. 相似文献
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During a floristic survey in the Belgaum district, Karnataka state, some specimens of Rotala L. were collected from a lateritic plateau in western Ghats, India. The specimens did not match with any previously described species of Rotala, but closely resembled R. macrandra Koehne and R. rosea (Poir.) C. D. K. Cook ex H. Hara in their exserted stamens and styles. The new species is described and illustrated here as Rotala belgaumensis S. R. Yadav, Malpure & Chandore. 相似文献
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Paraskevi Christofidou Christopher?P. Nelson Majid Nikpay Liming Qu Mingyao Li Christina Loley Radoslaw Debiec Peter?S. Braund Matthew Denniff Fadi?J. Charchar Ares?Rocanin Arjo David-Alexandre Trégou?t Alison?H. Goodall Francois Cambien Willem?H. Ouwehand Robert Roberts Heribert Schunkert Christian Hengstenberg Muredach?P. Reilly Jeanette Erdmann Ruth McPherson Inke?R. K?nig John?R. Thompson Nilesh?J. Samani Maciej Tomaszewski 《American journal of human genetics》2015,97(2):228-237
Runs of homozygosity (ROHs) are recognized signature of recessive inheritance. Contributions of ROHs to the genetic architecture of coronary artery disease and regulation of gene expression in cells relevant to atherosclerosis are not known. Our combined analysis of 24,320 individuals from 11 populations of white European ethnicity showed an association between coronary artery disease and both the count and the size of ROHs. Individuals with coronary artery disease had approximately 0.63 (95% CI: 0.4–0.8) excess of ROHs when compared to coronary-artery-disease-free control subjects (p = 1.49 × 10−9). The average total length of ROHs was approximately 1,046.92 (95% CI: 634.4–1,459.5) kb greater in individuals with coronary artery disease than control subjects (p = 6.61 × 10−7). None of the identified individual ROHs was associated with coronary artery disease after correction for multiple testing. However, in aggregate burden analysis, ROHs favoring increased risk of coronary artery disease were much more common than those showing the opposite direction of association with coronary artery disease (p = 2.69 × 10−33). Individual ROHs showed significant associations with monocyte and macrophage expression of genes in their close proximity—subjects with several individual ROHs showed significant differences in the expression of 44 mRNAs in monocytes and 17 mRNAs in macrophages when compared to subjects without those ROHs. This study provides evidence for an excess of homozygosity in coronary artery disease in outbred populations and suggest the potential biological relevance of ROHs in cells of importance to the pathogenesis of atherosclerosis. 相似文献
54.
Sharma Richa Roopak Sangita Pathak Nilesh kumar Uma R. Sharma R. P. 《Plasmonics (Norwell, Mass.)》2018,13(1):335-343
Plasmonics - In the present work, we report our observations drawn from the numerical simulation of absorption and scattering efficiencies of spheroid shape nanostructures using discrete dipole... 相似文献
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Plasmonics - In the present work, an investigation of wavelength-dependent absorption spectrum of spherical nanoparticles with different arrangements in organic medium using discrete dipole... 相似文献
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Payal Singh Nilesh Kumar Minesh Jethva Saurabh Yadav Pragati Kumari Archana Thakur Hemant Ritturaj Kushwaha 《Physiology and Molecular Biology of Plants》2018,24(2):315-324
Cyanobacteria are one of the ancient bacterial species occupying a variety of habitats with diverse metabolic preferences. RNA regulators like riboswitches play significant role in controlling the gene expression in prokaryotes. The taxonomic distribution of riboswitches suggests that they might be one of the oldest mechanisms of gene control system. In this paper, we analyzed the distribution of different riboswitch families in various cyanobacterial genomes. It was observed that only four riboswitch classes were abundant in cyanobacteria, B12-element (Cob)/AdoCbl/AdoCbl-variant riboswitch being the most abundant. The analysis suggests that riboswitch mode of regulation is present in cyanobacterial species irrespective of their habitat types. A large number of unidentified genes regulated by riboswitches listed in this analysis indicate the wide range of targets for these riboswitch families. The analysis revealed a large number of genes regulated by riboswitches which may assist in elaborating the diversity among the cyanobacterial species. 相似文献
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Increased plasminogen activator inhibitor-1 (PAI-1) activity is associated with greater risk of myocardial infarction. PAI-1 expression is regulated by a 4G/5G promoter polymorphism. The 4G allele is associated with higher PAI-levels and greater circadian variation. Here we show that clock protein heterodimers BMAL/CLOCK cause greater activation (approximately 2-fold, P<0.05) of the 4G allele. Site-directed mutagenesis studies suggest that clock genes act on two canonical E-boxes to regulate PAI-1 promoter activity. These results identify a potential novel mechanism whereby allele-specific clock genes - mediated modulation of PAI-1 expression may contribute to circadian variation in cardiac risk. 相似文献