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Results: 1 to 20 of 56

1.

Intracellular pH imaging in cancer cells in vitro and tumors in vivo using the new genetically encoded sensor SypHer2.

Shirmanova MV, Druzhkova IN, Lukina MM, Matlashov ME, Belousov VV, Snopova LB, Prodanetz NN, Dudenkova VV, Lukyanov SA, Zagaynova EV.

Biochim Biophys Acta. 2015 May 8. pii: S0304-4165(15)00126-9. doi: 10.1016/j.bbagen.2015.05.001. [Epub ahead of print]

PMID:
25964069
2.

Photobleaching and phototoxicity of KillerRed in tumor spheroids induced by continuous wave and pulsed laser illumination.

Kuznetsova DS, Shirmanova MV, Dudenkova VV, Subochev PV, Turchin IV, Zagaynova EV, Lukyanov SA, Shakhov BE, Kamensky VA.

J Biophotonics. 2015 Feb 3;9999(9999). doi: 10.1002/jbio.201400130. [Epub ahead of print]

PMID:
25648724
3.

Method for quantitative analysis of nonsense-mediated mRNA decay at the single cell level.

Pereverzev AP, Gurskaya NG, Ermakova GV, Kudryavtseva EI, Markina NM, Kotlobay AA, Lukyanov SA, Zaraisky AG, Lukyanov KA.

Sci Rep. 2015 Jan 12;5:7729. doi: 10.1038/srep07729.

4.

Red-shifted fluorescent aminated derivatives of a conformationally locked GFP chromophore.

Baranov MS, Solntsev KM, Baleeva NS, Mishin AS, Lukyanov SA, Lukyanov KA, Yampolsky IV.

Chemistry. 2014 Oct 6;20(41):13234-41. doi: 10.1002/chem.201403678. Epub 2014 Aug 29.

PMID:
25171432
5.

Phototoxic effects of lysosome-associated genetically encoded photosensitizer KillerRed.

Serebrovskaya EO, Ryumina AP, Boulina ME, Shirmanova MV, Zagaynova EV, Bogdanova EA, Lukyanov SA, Lukyanov KA.

J Biomed Opt. 2014 Jul;19(7):071403. doi: 10.1117/1.JBO.19.7.071403.

PMID:
24365992
6.

Genetically encoded immunophotosensitizer 4D5scFv-miniSOG is a highly selective agent for targeted photokilling of tumor cells in vitro.

Mironova KE, Proshkina GM, Ryabova AV, Stremovskiy OA, Lukyanov SA, Petrov RV, Deyev SM.

Theranostics. 2013 Oct 12;3(11):831-40. doi: 10.7150/thno.6715. eCollection 2013.

7.

Flavoprotein miniSOG as a genetically encoded photosensitizer for cancer cells.

Ryumina AP, Serebrovskaya EO, Shirmanova MV, Snopova LB, Kuznetsova MM, Turchin IV, Ignatova NI, Klementieva NV, Fradkov AF, Shakhov BE, Zagaynova EV, Lukyanov KA, Lukyanov SA.

Biochim Biophys Acta. 2013 Nov;1830(11):5059-67. doi: 10.1016/j.bbagen.2013.07.015. Epub 2013 Jul 20.

PMID:
23876295
8.

Tryptophan-based chromophore in fluorescent proteins can be anionic.

Sarkisyan KS, Yampolsky IV, Solntsev KM, Lukyanov SA, Lukyanov KA, Mishin AS.

Sci Rep. 2012;2:608. doi: 10.1038/srep00608. Epub 2012 Aug 29.

9.

Phototoxic effects of fluorescent protein KillerRed on tumor cells in mice.

Shirmanova MV, Serebrovskaya EO, Lukyanov KA, Snopova LB, Sirotkina MA, Prodanetz NN, Bugrova ML, Minakova EA, Turchin IV, Kamensky VA, Lukyanov SA, Zagaynova EV.

J Biophotonics. 2013 Mar;6(3):283-90. doi: 10.1002/jbio.201200056. Epub 2012 Jun 13.

PMID:
22696211
10.

Circular permutation of red fluorescent proteins.

Shui B, Wang Q, Lee F, Byrnes LJ, Chudakov DM, Lukyanov SA, Sondermann H, Kotlikoff MI.

PLoS One. 2011;6(5):e20505. doi: 10.1371/journal.pone.0020505. Epub 2011 May 27.

11.

Normalization of full-length-enriched cDNA.

Bogdanova EA, Barsova EV, Shagina IA, Scheglov A, Anisimova V, Vagner LL, Lukyanov SA, Shagin DA.

Methods Mol Biol. 2011;729:85-98. doi: 10.1007/978-1-61779-065-2_6.

PMID:
21365485
12.

Normalizing cDNA libraries.

Bogdanov EA, Shagina I, Barsova EV, Kelmanson I, Shagin DA, Lukyanov SA.

Curr Protoc Mol Biol. 2010 Apr;Chapter 5:Unit 5.12.1-27. doi: 10.1002/0471142727.mb0512s90.

PMID:
20373503
13.

DSN depletion is a simple method to remove selected transcripts from cDNA populations.

Bogdanova EA, Shagina IA, Mudrik E, Ivanov I, Amon P, Vagner LL, Lukyanov SA, Shagin DA.

Mol Biotechnol. 2009 Mar;41(3):247-53. doi: 10.1007/s12033-008-9131-y. Epub 2009 Jan 6.

PMID:
19127453
14.

Thermolabile duplex-specific nuclease.

Anisimova VE, Barsova EV, Bogdanova EA, Lukyanov SA, Shcheglov AS.

Biotechnol Lett. 2009 Feb;31(2):251-7. doi: 10.1007/s10529-008-9850-y. Epub 2008 Sep 23.

PMID:
18810329
15.

Human trash ESTs--sequences from cDNA collection that are not aligned to genome assembly.

Panchin AY, Spirin SA, Lukyanov SA, Lebedev YB, Panchin YV.

J Bioinform Comput Biol. 2008 Aug;6(4):759-73.

PMID:
18763741
16.

Is crab duplex-specific nuclease a member of the Serratia family of non-specific nucleases?

Anisimova VE, Shcheglov AS, Bogdanova EA, Rebrikov DV, Nekrasov AN, Barsova EV, Shagin DA, Lukyanov SA.

Gene. 2008 Jul 15;418(1-2):41-8. doi: 10.1016/j.gene.2008.04.005. Epub 2008 Apr 16.

PMID:
18514436
17.

Isolation, characterization and molecular cloning of duplex-specific nuclease from the hepatopancreas of the Kamchatka crab.

Anisimova VE, Rebrikov DV, Shagin DA, Kozhemyako VB, Menzorova NI, Staroverov DB, Ziganshin R, Vagner LL, Rasskazov VA, Lukyanov SA, Shcheglov AS.

BMC Biochem. 2008 May 21;9:14. doi: 10.1186/1471-2091-9-14.

18.

Normalization of full-length enriched cDNA.

Bogdanova EA, Shagin DA, Lukyanov SA.

Mol Biosyst. 2008 Mar;4(3):205-12. doi: 10.1039/b715110c. Epub 2008 Jan 8.

PMID:
18437263
19.

Renaturation, activation, and practical use of recombinant duplex-specific nuclease from Kamchatka crab.

Anisimova VE, Rebrikov DV, Zhulidov PA, Staroverov DB, Lukyanov SA, Shcheglov AS.

Biochemistry (Mosc). 2006 May;71(5):513-9.

PMID:
16732729
20.

Hydroxyproline-based DNA mimics provide an efficient gene silencing in vitro and in vivo.

Efimov VA, Birikh KR, Staroverov DB, Lukyanov SA, Tereshina MB, Zaraisky AG, Chakhmakhcheva OG.

Nucleic Acids Res. 2006 May 2;34(8):2247-57. Print 2006.

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