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41.
Kutuzov MM Ilina ES Sukhanova MV Pyshnaya IA Pyshnyi DV Lavrik OI Khodyreva SN 《Biochemistry. Biokhimii?a》2011,76(1):147-156
To study the interaction of poly(ADP-ribose) polymerase 1 (PARP1) with apurinic/apyrimidinic sites (AP sites) within clustered
damages, DNA duplexes were created that contained an AP site in one strand and one of its analogs situated opposite the AP
site in the complementary strand. Residues of 3-hydroxy-2-hydroxymethyltetrahydrofuran (THF), diethylene glycol (DEG), and
decane-1,10-diol (DD) were used. It is shown for the first time that apurinic/apyrimidinic endonuclease 1 (APE1) cleaves the
DNA strands at the positions of DEG and DD residues, and this suggests these groups as AP site analogs. Insertion of DEG and
DD residues opposite an AP site decreased the rate of AP site hydrolysis by APE1 similarly to the effect of the THF residue,
which is a well-known analog of the AP site, and this allowed us to use such AP DNAs to imitate DNA with particular types
of clustered damages. PARP1, isolated and in cell extracts, efficiently interacted with AP DNA with analogs of AP sites producing
a Schiff base. PARP1 competes with APE1 upon interaction with AP DNAs, decreasing the level of its cross-linking with AP DNA,
and inhibits hydrolysis of AP sites within AP DNAs containing DEG and THF residues. Using glutaraldehyde as a linking agent,
APE1 is shown to considerably decrease the amount of AP DNA-bound PARP1 dimer, which is the catalytically active form of this
enzyme. Autopoly(ADP-ribosyl)ation of PARP1 decreased its inhibitory effect. The possible involvement of PARP1 and its automodification
in the regulation of AP site processing within particular clustered damages is discussed. 相似文献
42.
Zakharenko AL Sukhanova MV Khodyreva SN Novikov FN Stroĭlov VS Nilov DK Chilov GG Shviadas VK Lavrik OI 《Molekuliarnaia biologiia》2011,45(3):565-569
A search for poly(ADP-ribose) polymerase-1 inhibitors by virtual screening of a chemical compound database and a subsequent experimental verification of their activities have been done. It was shown that the most efficient method to predict inhibitory properties implies a combinatorial approach joining molecular docking capabilities with structural filtration. Among more than 300000 database chemicals 9 PARP1 inhibitors were revealed; the most active ones, namely: STK031481, STK056130, and STK265022,--displayed biological effect at a micro-molar concentration (IC50 = 2.0 microM, 1.0 microM and 2.6 microM, respectively). 相似文献
43.
Condensates are biomolecular assemblies that concentrate biomolecules without the help of membranes. They are morphologically highly versatile and may emerge via distinct mechanisms. Nucleic acids–DNA, RNA and poly(ADP-ribose) (PAR) play special roles in the process of condensate organization. These polymeric scaffolds provide multiple specific and nonspecific interactions during nucleation and ‘development’ of macromolecular assemblages. In this review, we focus on condensates formed with PAR. We discuss to what extent the literature supports the phase separation origin of these structures. Special attention is paid to similarities and differences between PAR and RNA in the process of dynamic restructuring of condensates during their functioning. 相似文献
44.
Affinity labelling has been employed to localize the substrate-binding sites on the enzyme subunits of phenylalanyl-tRNA synthetase (L-phenylalanine:tRNAPhe-ligase, EC 6.1.1.20) of Escherichia coli MRE-600 (alpha 2 beta 2-type). N-Chlorambucilylphenylalanyl-tRNA, N-bromoacetylphenylalanyl-tRNA, tRNAPhe containing an azido group at the eighth position of the molecule (S4U), tRNAPhe containing azido groups at different points of the molecule, p-azidoanilidate of phenylalanine, adenosine 5'-trimethaphosphate and N-bromoacetyl-L-phenylalaninyladenylate were used in experiments. It has been shown that tRNA-binding sites are formed on heavy beta-subunits of the enzyme. Phenylalanyl-tRNA is also localized on beta-subunits, while the aminoacyl moiety of aminoacyl-tRNA is localized near the contact region of subunits. The phenylalanine-binding site is located on light alpha-subunits of the enzyme. Adenosine 5'-trimethaphosphate and the analogue of phenylalanyladenylate modify both types of enzyme subunits. In our opinion, the catalytic center of tRNA aminoacylation is formed in the contact region of subunits, and the aminoacyl moiety is transferred into tRNA (from the alpha- into beta-subunit in the region of their contact). 相似文献
45.
Gelina S. Kopeina Evgeniia A. Prokhorova Inna N. Lavrik Boris Zhivotovsky 《Cell proliferation》2018,51(5)
Apoptosis is a mode of regulated cell death that is indispensable for the morphogenesis, development and homeostasis of multicellular organisms. Caspases are cysteine‐dependent aspartate‐specific proteases, which function as initiators and executors of apoptosis. Caspases are cytosolic proteins that can cleave substrates located in different intracellular compartments during apoptosis. Many years ago, the involvement of caspases in the regulation of nuclear changes, a hallmark of apoptosis, was documented. Accumulated data suggest that apoptosis‐associated alterations in nucleocytoplasmic transport are also linked to caspase activity. Here, we aim to discuss the current state of knowledge regarding this process. Particular attention will be focused on caspase nuclear entry and their functions in the demolition of the nucleus upon apoptotic stimuli. 相似文献
46.
The influence of the drug Actovegin on the proliferative activity and mitotic regime of cells of transplanted RK-15-1EKVM and VNK-21 clone 13/04 lines is studied. The stimulating effect of the drug on cell proliferation when added to a growth medium containing cattle blood serum of differing compositions and at different concentrations is demonstrated. It is concluded that Actovegin shows promise for use in bioengineering of cell cultures. 相似文献
47.
48.
It has been shown that, in the absence of dATP in the poly(dT).oligo(dA) template-primer complex, the rate of primer cleavage by the E. coli DNA polymerase I Klenow fragment equals 4% of polymerization rate, while in the presence of dATP it equals as much as 50-60%. NaF and NMP taken separately inhibit exonuclease cleavage of oligo(dA) both with and without dATP. The addition of NaF (5-10 mM) or NMP (5-20 mM) increases the absolute increment of polymerization rate 5-9-fold relative to the absolute decrement of the rate of nuclease hydrolysis of primer. This proves the assumption that not more than 10-20% of primer molecules, interacting with the exonuclease center of polymerase, are cleaved by the enzyme. Presumably, NaF and nucleotides disturb the coupling of the 3'-end of oligonucleotide primer to the exonuclease center of the enzyme. As the primers mostly form complexes with the polymerizing center, the reaction of polymerization is activated. 相似文献
49.
E V Bobkova A V Gedrovitch V N Ankilova O I Lavrik L A Baratova A V Shishkov 《Biochemistry international》1990,20(5):1001-1009
A comparative study of thermostability and aminoacid composition of the phenylalanyl-tRNA synthetases from E. coli and Thermus thermophilus HB8 has been carried out. Compared with the mesophilic enzyme, a considerable increase of Pro, Leu, Phe, Arg and decrease of Asx, Ile, Ser, Thr and Lys content have been revealed in the thermophilic protein. Using tritium topography, Pro, (Leu + Ile) and Gly were found to be the most accessible on the surfaces of both the enzymes. In the E. coli enzyme, Thr residues were also easy to access while on the surface of the thermophilic enzyme there were more Arg residues. The quantitative assay of the surface compositions revealed the increased exposure of the (Leu + Ile) residues on the thermophilic protein as well as of the charged Asx and Arg residues. A possible correlation of the observed effects with thermostability is discussed. 相似文献
50.
Olga Zakharova Olga Luzina Alexandra Zakharenko Dmitry Sokolov Alexandr Filimonov Nadezhda Dyrkheeva Arina Chepanova Ekaterina Ilina Anna Ilyina Kristina Klabenkova Boris Chelobanov Dmitry Stetsenko Ayesha Zafar Chatchakorn Eurtivong Jóhannes Reynisson Konstantin Volcho Nariman Salakhutdinov Olga Lavrik 《Bioorganic & medicinal chemistry》2018,26(15):4470-4480
Tyrosyl-DNA phosphodiesterase 1 (Tdp1) is a repair enzyme for stalled DNA-topoisomerase 1 (Top 1) cleavage complexes and other 3′-end DNA lesions. Tdp1 is a promising target for anticancer therapy, since it can repair DNA lesions caused by Top1 inhibitors leading to drug resistance. Hence, Tdp1 inhibition should result in synergistic effect with Top1 inhibitors. Twenty nine derivatives of (+)-usnic acid were tested for in vitro Tdp1 inhibitory activity using a fluorescent-based assay. Excellent activity was obtained, with derivative 6m demonstrating the lowest IC50 value of 25?nM. The established efficacy was verified using a gel-based assay, which gave close results to that of the fluorescent assay. In addition, molecular modeling in the Tdp1 substrate binding pocket suggested plausible binding modes for the active analogues. The synergistic effect of the Tdp1 inhibitors with topotecan, a Top1 poison in clinical use, was tested in two human cell lines, A-549 and HEK-293. Compounds 6k and 6x gave very promising results. In particular, 6x has a low cytotoxicity and an IC50 value of 63?nM, making it a valuable lead compound for the development of potent Tdp1 inhibitors for clinical use. 相似文献