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Cleavage products resulting from DNase I treatment of adenoviral nucleoprotein were examined by gel electrophoresis, Southern blotting and hybridization to cloned restriction fragments derived from various regions of the viral genome. DNase I produced specific double-stranded cleavages in DNA of purified adenoviral cores and in DNA of intranuclear viral chromatin at early and late times of infection. At least some of these sites were also cleaved by DNase I in purified viral DNA, showing that sequence specificity of DNase I cleavage may contribute to the observation of specific double-stranded DNase I cleavage sites in adenoviral nucleoprotein. In addition, sites were observed which were specific either for cores or for intranuclear chromatin. In contrast to many cellular genes which have been characterized, there was no obvious relationship between DNase I cleavage sites and other features of the viral genome such as promoters or polyadenylation sites. 相似文献
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In synaptosomal membranes from rat brain cortex, in the presence of 150 mM NaCl, the opioid antagonist [3H]naltrexone bound to two populations of receptor sites with affinities of 0.27 and 4.3 nM, respectively. Guanosine-5'-(3-thiotriphosphate) had little modulating effect and did not alter the biphasic nature of ligand binding. On the other hand, receptor-selective opioids differentially inhibited the two binding components of [3H]naltrexone. As shown by nonlinear least-squares analysis, the mu opioids Tyr-D-Ala-Gly-(Me)Phe-Gly-ol or sufentanil abolished high-affinity [3H]naltrexone binding, whereas the delta-selective ligands [D-Pen2,D-Pen5]enkephalin, ICI 174,864, and oxymorphindole inhibited and eventually eliminated the low-affinity component in a concentration-dependent manner. These results indicate that, in contrast to the guanine nucleotide-sensitive biphasic binding of opioid-alkaloid agonists, the heterogeneity of naltrexone binding in brain membranes reflects ligand interaction with different opioid-receptor types. 相似文献
4.
Parameters of ligand binding, stimulation of low-Km GTPase, and inhibition of adenylate cyclase were determined in intact human neuroblastoma SH-SY5Y cells and in their isolated membranes, both suspended in identical physiological buffer medium. In cells, the mu-selective opioid agonist [3H]Tyr-D-Ala-Gly(Me)Phe-Gly-ol ([3H]DAMGO) bound to two populations of sites with KD values of 3.9 and 160 nM, with less than 10% of the sites in the high-affinity state. Both sites were also detected at 4 degrees C and were displaced by various opioids, including quaternary naltrexone. The opioid antagonist [3H]naltrexone bound to a single population of sites, and in cells treated with pertussis toxin the biphasic displacement of [3H]naltrexone by DAMGO became monophasic with only low-affinity binding present. The toxin specifically reduced high-affinity agonist binding but had no effect on the binding of [3H]naltrexone. In isolated membranes, both agonist and antagonist bound to a single population of receptor sites with affinities similar to that of the high-affinity binding component in cells. Addition of GTP to membranes reduced the Bmax for [3H]DAMGO by 87% and induced a linear ligand binding component; a low-affinity binding site, however, could not be saturated. Compared with results obtained with membranes suspended in Tris buffer, agonist binding, including both receptor density and affinity, in the physiological medium was attenuated. The results suggest that high-affinity opioid agonist binding represents the ligand-receptor-guanine nucleotide binding protein (G protein) complex present in cells at low density due to modulation by endogenous GTP.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
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Fedor N. Novikov Viktor S. Stroylov Oleg V. Stroganov Ghermes G. Chilov 《Journal of molecular modeling》2010,16(7):1223-1230
In the current study an innovative method of structural filtration of docked ligand poses is introduced and applied to improve
the virtual screening results. The structural filter is defined by a protein-specific set of interactions that are a) structurally
conserved in available structures of a particular protein with its bound ligands, and b) that can be viewed as playing the
crucial role in protein-ligand binding. The concept was evaluated on a set of 10 diverse proteins, for which the corresponding
structural filters were developed and applied to the results of virtual screening obtained with the Lead Finder software.
The application of structural filtration resulted in a considerable improvement of the enrichment factor ranging from several
folds to hundreds folds depending on the protein target. It appeared that the structural filtration had effectively repaired
the deficiencies of the scoring functions that used to overestimate decoy binding, resulting into a considerably lower false
positive rate. In addition, the structural filters were also effective in dealing with some deficiencies of the protein structure
models that would lead to false negative predictions otherwise. The ability of structural filtration to recover relatively
small but specifically bound molecules creates promises for the application of this technology in the fragment-based drug
discovery. 相似文献
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Regina Shebanova Natalia Nikitchina Nikita Shebanov Vladimir Mekler Konstantin Kuznedelov Egor Ulashchik Ruslan Vasilev Olga Sharko Vadim Shmanai Ivan Tarassov Konstantin Severinov Nina Entelis Ilya Mazunin 《Nucleic acids research》2022,50(2):1162
CRISPR RNAs (crRNAs) that direct target DNA cleavage by Type V Cas12a nucleases consist of constant repeat-derived 5′-scaffold moiety and variable 3′-spacer moieties. Here, we demonstrate that removal of most of the 20-nucleotide scaffold has only a slight effect on in vitro target DNA cleavage by a Cas12a ortholog from Acidaminococcus sp. (AsCas12a). In fact, residual cleavage was observed even in the presence of a 20-nucleotide crRNA spacer moiety only. crRNAs split into separate scaffold and spacer RNAs catalyzed highly specific and efficient cleavage of target DNA by AsCas12a in vitro and in lysates of human cells. In addition to dsDNA target cleavage, AsCas12a programmed with split crRNAs also catalyzed specific ssDNA target cleavage and non-specific ssDNA degradation (collateral activity). V-A effector nucleases from Francisella novicida (FnCas12a) and Lachnospiraceae bacterium (LbCas12a) were also functional with split crRNAs. Thus, the ability of V-A effectors to use split crRNAs appears to be a general property. Though higher concentrations of split crRNA components are needed to achieve efficient target cleavage, split crRNAs open new lines of inquiry into the mechanisms of target recognition and cleavage and may stimulate further development of single-tube multiplex and/or parallel diagnostic tests based on Cas12a nucleases. 相似文献
9.
Siranush Babakhanova Erica E. Jung Kazuhiko Namikawa Hanbin Zhang Yangdong Wang Oksana M. Subach Dmitry A. Korzhenevskiy Tatiana V. Rakitina Xian Xiao Wenjing Wang Jing Shi Mikhail Drobizhev Demian Park Lea Eisenhard Hongyun Tang Reinhard W. Kster Fedor V. Subach Edward S. Boyden Kiryl D. Piatkevich 《Protein science : a publication of the Protein Society》2022,31(3):728
In vivo imaging of model organisms is heavily reliant on fluorescent proteins with high intracellular brightness. Here we describe a practical method for rapid optimization of fluorescent proteins via directed molecular evolution in cultured mammalian cells. Using this method, we were able to perform screening of large gene libraries containing up to 2 × 107 independent random genes of fluorescent proteins expressed in HEK cells, completing one iteration of directed evolution in a course of 8 days. We employed this approach to develop a set of green and near‐infrared fluorescent proteins with enhanced intracellular brightness. The developed near‐infrared fluorescent proteins demonstrated high performance for fluorescent labeling of neurons in culture and in vivo in model organisms such as Caenorhabditis elegans, Drosophila, zebrafish, and mice. Spectral properties of the optimized near‐infrared fluorescent proteins enabled crosstalk‐free multicolor imaging in combination with common green and red fluorescent proteins, as well as dual‐color near‐infrared fluorescence imaging. The described method has a great potential to be adopted by protein engineers due to its simplicity and practicality. We also believe that the new enhanced fluorescent proteins will find wide application for in vivo multicolor imaging of small model organisms. 相似文献
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