Search Results - "MAKAROV, E. M"

RBMY, a probable human spermatogenesis factor, and other hnRNP G proteins interact with Tra2β and affect splicing by VENABLES, J. P, ELLIOTT, D. J, MAKAROVA, O. V, MAKAROV, E. M, COOKE, H. J, EPERON, I. C

“…The RBMY gene family is found on the Y chromosome of all mammals, and microdeletions are strongly associated with infertility in men. RBMY expresses RBM only…”
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Exosomes Transfer p53 between Cells and Can Suppress Growth and Proliferation of p53-Negative Cells by Burdakov, V. S., Kovalev, R. A., Pantina, R. A., Varfolomeeva, E. Yu, Makarov, E. M., Filatov, M. V.

“…Exosomes are nanosized vesicles that are secreted by many types of cells. We have found that exosomes secreted by HEK293 and HT-1080 can suppress growth and…”
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Small Nuclear Ribonucleoprotein Remodeling during Catalytic Activation of the Spliceosome by Makarov, Evgeny M., Makarova, Olga V., Urlaub, Henning, Gentzel, Marc, Will, Cindy L., Wilm, Matthias, Lührmann, Reinhard

“…Major structural changes occur in the spliceosome during its activation just before catalyzing the splicing of pre-messenger RNAs (pre-mRNAs). Whereas changes…”
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Transcribing of Escherichia coli Genes with Mutant T7 RNA Polymerases: Stability of lacZ mRNA Inversely Correlates with Polymerase Speed by Makarova, O V, Makarov, E M, Sousa, R, Dreyfus, M

“…When in Escherichia coli the host RNA polymerase is replaced by the 8-fold faster bacteriophage T7 enzyme for transcription of the lacZ gene, the…”
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Histone deacetylase inhibitors cause the TP53-dependent induction of p21/Waf1 in tumor cells carrying mutations in TP53 by Kovalev, R A, Shtam, T A, Karelov, D V, Burdakov, V S, Volnitskiy, A V, Makarov, E M, Filatov, M V

“…p21/Waf1 protein is one of the main cell cycle arrest regulators and one of the most well-known transcriptional targets of TP53 protein. Here, we demonstrated…”
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Human U4/U6.U5 and U4atac/U6atac.U5 Tri-snRNPs Exhibit Similar Protein Compositions by Schneider, Claudia, Will, Cindy L., Makarova, Olga V., Makarov, Evgeny M., Lührmann, Reinhard

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Mammalian PRP4 Kinase Copurifies and Interacts with Components of Both the U5 snRNP and the N-CoR Deacetylase Complexes by Dellaire, Graham, Makarov, Evgeny M., Cowger, JeffJ.M., Longman, Dasa, Sutherland, Heidi G. E., Lührmann, Reinhard, Torchia, Joseph, Bickmore, Wendy A.

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The human homologue of the yeast splicing factor prp6p contains multiple TPR elements and is stably associated with the U5 snRNP via protein-protein interactions by Makarov, Evgeny M, Makarova, Olga V, Achsel, Tilmann, Lührmann, Reinhard

“…An essential step of pre-mRNA spliceosome assembly is the interaction between the snRNPs U4/U6 and U5, to form the [U4/U6.U5] tri-snRNP. While the tri-snRNP…”
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Synthesis and fungicidal activity of S-amino derivatives of O-alkyldithiocarbonic acids by Bakbardina, O. V., Pukhnyarskaya, I. Yu, Gazalieva, M. A., Fazylov, S. D., Makarov, E. M.

“…S-Amino derivatives of O-alkyldithiocarbonic acid were prepared by oxidative condensation of certain alkaloids with sodium xanthates. Some of the compounds…”
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10Sa RNA: processing by and inhibition of RNase III by Makarov, E M, Apirion, D

“…Characterization of the maturation of precursor 10Sa RNA revealed that RNase III processed p10Sa RNA to two intermediate molecules. We showed that the…”
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Kinetic aspects of tetracycline action on the acceptor (A) site of Escherichia coli ribosomes by Semenkov, Yu.P., Makarov, E.M., Makhno, V.I., Kirillov, S.V.

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The 65 and 110 kDa SR-related proteins of the U4/U6·U5 tri-snRNP are essential for the assembly of mature spliceosomes by Makarova, Olga V., Makarov, Evgeny M., Lührmann, Reinhard

“…The association of the U4/U6·U5 tri‐snRNP with pre‐spliceosomes is a poorly understood step in the spliceosome assembly pathway. We have identified two human…”
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Quantitative study of kanamycin action on different functions of Escherichia coli ribosomes by Semenkov, Yu.P., Katunin, V.I., Makarov, E.M., Kirillov, S.V.

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Quantitative study of interaction of deacylated tRNA with Escherichia coli ribosomes : Role of 50 S subunits in formation of the E site by Kirillov, S.V., Makarov, E.M., Semenkov, Yu.P.

“…The 30 S subunit contains 2 sites for tRNA binding (Phe-tRNA, AcPhe-tRNA, tRNA Phe OH) with the functional properties of D and A sites of the 70 S ribosome…”
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A novel splice variant of the DNA-PKcs gene is associated with clinical and cellular radiosensitivity in a patient with xeroderma pigmentosum by Abbaszadeh, Fatemeh, Clingen, Peter H, Arlett, Colin F, Plowman, Piers N, Bourton, Emma C, Themis, Matthew, Makarov, Evgeny M, Newbold, Robert F, Green, Michael H L, Parris, Christopher N

“…Radiotherapy-induced DNA double-strand breaks (DSBs) are critical cytotoxic lesions. Inherited defects in DNA DSB repair pathways lead to hypersensitivity to…”
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Zero-length cross-linking of the C-terminal domain of Escherichia coli ribosomal protein L7/L12 to L10 in the ribosome and in the (L7/L12)4-L10 pentameric complex by Makarov, E M, Oleinikov, A V, Zecherle, G N, Traut, R R

“…L7/L12Cys89 is a variant of L7/L12 that has a single cysteine residue located in the C-terminal domain in which Cys89 is the only cysteine residue in the…”
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Histone deacetylase inhibitors cause TP53-dependent induction of p21/Waf1 in tumor cells with TP53 mutations by Kovalev, R. A., Shtam, T. A., Karelov, D. V., Burdakov, V. S., Volnitskiy, A. V., Makarov, E. M., Filatova, M. V.

“…The p21/Waf1 protein is one of the main regulators of cell cycle arrest and one of the best-known transcriptional targets of the TP53 protein. Here, we…”
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A subset of human 35S U5 proteins, including Prp19, function prior to catalytic step 1 of splicing by Makarova, Olga V, Makarov, Evgeny M, Urlaub, Henning, Will, Cindy L, Gentzel, Marc, Wilm, Matthias, Lührmann, Reinhard

“…During catalytic activation of the spliceosome, snRNP remodeling events occur, leading to the formation of a 35S U5 snRNP that contains a large group of…”
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Quantitative study of interaction of deacylated tRNA with the P, A and E sites of Escherichia coli ribosomes by Semenkov, Yu. P., Makarov, E. M., Kirillov, S. V.

“…The association constants of deacylated tRNA…”
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Mechanism of codon—anticodon interaction in ribosomes: Codon—anticodon interaction of aminoacyl-tRNA at the ribosomal donor site by Kirillov, S.V., Kemkhadze, K.Sh, Makarov, E.M., Makhno, V.I., Odintsov, V.B., Semenkov, Yu.P.

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