Symmetric Meso-Chloro-Substituted Pentamethine Cyanine Dyes Containing Benzothiazolyl/Benzoselenazolyl Chromophores Novel Synthetic Approach and Studies on Photophysical Properties upon Interaction with bio-Objects
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- 作者:Atanas Kurutos ; Olga Ryzhova ; Valeriya Trusova ; Galyna Gorbenko…
- 关键词:Pentamethine cyanine dyes ; 2 ; methylbenzothiazole ; 2 ; methylbenzoselenazole ; Fluorescent markers ; Liposomes ; DNA ; proteins ; H ; aggregates
- 刊名:Journal of Fluorescence
- 出版年:2016
- 出版时间:January 2016
- 年:2016
- 卷:26
- 期:1
- 页码:177-187
- 全文大小:940 KB
- 参考文献:1.Pauli J, Vag T, Haag R, Spieles M, Wenzel M, Kaiser W, Resch-Genger U, Hilger I (2009) An in vitro characterization study of new near infrared dyes for molecular imaging. Eur J Med Chem 44:3496–3503PubMed CrossRef
2.Ebert B, Riefke B, Sukowski U, Licha K (2011) Cyanine dyes as contrast agents for near-infrared imaging in vivo: acute tolerance, pharmacokinetics and fluorescence imaging. J Biomed Opt 16(6):060030–060039CrossRef
3.Lidzey D, Bradley D, Virgili T, Armitage A, Skolnick H, Walker S (1999) Room temperature polariton emission from strongly coupled organic semiconductor microcavities. Phys Rev Lett 82(16):3316–3319CrossRef
4.Jenatsch S, Geiger T, Heier J, Kirsch C, Nuesch F, Paracchino A, Rentsch D, Ruhstaller B, Veron A, Hany R (2015) Influence of chemically p-type doped active organic semiconductor on the film thickness versus performance trend in cyanine/C60 bilayer solar cells. Sci Technol Adv Mater 16:0350030–0350039CrossRef
5.Czerney P, Graneb G, Birckner E, Vollmer F, Rettig W (1995) Molecular engineering of cyanine-type fluorescent and laser dyes. J Photochem Photobiol A Chem 89:31–36CrossRef
6.Castro F, Faes A, Geiger T, Graeff C, Nagel N, Nuesch F, Hany R (2006) On the use of cyanine dyes as low-band gap materials in bulk heterojunction photovoltaic devices. Synth Met 156:973–978CrossRef
7.Wu W, Hua J, Jin Yi, Zhan W, tian H (2008) Protovoltaic Properties of Tree new Cyanine Dyes for dye-Sensitized Solar Cells Photochem Photobiol Sci 7:63–68.
8.Chatterju S, Gottschalk P, Davis P, Schuster G (1988) Electron-transfer reactions in cyanine borate ion pairs: photopolymerization initiators sensitive to visible light. J Am Chem Soc 110(7):2326–2328CrossRef
9.Ja K, Zasada M, Paczkowski J (2007) Photopolymerization reaction initiated by a visible light photoinitiating system: cyanine dye/borate salt/1,3,5,-triazine. J Polym Sci Part A: Polym Chem 45(16):3626–3636CrossRef
10.Markova L, Malinovskii V, Patsenker L, Haner R (2013) J-vs. H-type assembly: penthamethine cyanine (Cy5) as a near-IR chiroptical reporter. Chem Commun 49:5298–5300CrossRef
11.Nanjunda R, Owens E, Mickelson L, Dost T, Stroeva K, Huynh H, Germann M, Henary M, Wilson W (2013) Selective G-quadruplex DNA recognition by a new class of desined cyanines. Molecules 18:13588–13607PubMed PubMedCentral CrossRef
12.Kaloyanova S, Trusova V, Gorbenko G, Deligeorgiev T (2011) Synthesis and fluorescence characterization of novel asymmetric cyanine dyes for DNA detection. J Photochem Photobiol A 217:147–156CrossRef
13.Guralchuk G, Sorokin A, Katrunov I, Yefimova S, Lebedenko A, Yu M, Yarmoluk S (2007) Specificity of cyanine dye L-21 aggregation in solution witrh nucleic acids. J Fluoresc 17:370–376PubMed CrossRef
14.Mishra A, Behera R, Behera P, Mishra B, Behera G (2000) Cyanines during the 1990s: a review. Chem Rev 100:1973–2011PubMed CrossRef
15.Kricka L (2002) Stains, labels and detection strategies for nucleic acids assays. Ann Clin Biochem 39(2):114–129PubMed CrossRef
16.Biver T, Boggioni A, Secco F, Turriani E, Venturini S, Yarmoluk S (2007) Influence of cyanine dye structure on self-aggregation and interaction with nucleic acids: a kinetic approach to TO and BO binding. Arch Biochem Biophys 465:90–100PubMed CrossRef
17.Davidson Y, Gunn B, Soper S (1996) Spectroscopic and binding properties of near-infrared tricarbocyanine dyes to double-stranded DNA. Appl Spectrosc 50(2):211–221CrossRef
18.Rye H, Yue S, Wemmer D, Quesada M, Haughland R, Mathies R, Glazer A (1992) Stable fluorescence complexes of double-stranded DNA with bis-intercalating asymmetric cyanine dyes: properties and application. Nucleic Acids Rev 20:2803–2812CrossRef
19.Volkova K, Kovalska V, Balanda A, Losytskyy M, Colub A, Vermeij R, Subramaniam V, Tolmachev O, Yarmoluk S (2008) Specific fluorescent detection of fibrillar alpha-synuclein using mono- and trimethine cyanine dyes. Bioorg Med Chem 16:1452–1459PubMed CrossRef
20.Kovalska V, Losytskyy M, Tolmachev O, Yu S, Segers-Nolten G, Subramaniam V, YArmoluk S (2012) Tri- and pentamethine cyanine dyes for fluorescence detection of α-synuclein oligomeric aggregates. Is Missing the Journal 22(6):1441–1448
21.Sovenyhazy K, Bordelon J, Petty J (2003) Spectroscopic studies pf the multiple binding modes of a trinethine
idged cyanine dye with DNA. Nucleic Acids Res 31(10):2561–2569PubMed PubMedCentral CrossRef
22.Kovalska V, Tokar V, Losytskyy M, Deligeorgiev T, Vassilev A, Gadjev N, Drexhage K, Yarmoluk S (2006) Studies of monomeric and homodimeric oxazolo[4,5-b]pyridinium cyanine dyes as fluorescent probes for nucleic acids visualization. J Biochem Biophys Methods 68(3):155–165PubMed CrossRef
23.Puyol M, Encinas C, Rivera L, Miltsov S, Alonso J (2007) Characterisation of new norcyanine dyes and their application as pH chromoionophores in optical sensors. Dyes Pigments 73:383–389CrossRef
24.Zhang Z, Achilefu S (2005) Design, synthesis and evaluation of near-infrared fluorescent pH indicators in a physiologically relevant range. Chem Commun:5887–5889
25.Guo Z, Park S, Yoon J, Skin I (2014) Recent progress in the development of near-infrared fluorescent probes for bioimaging applications. Chem Soc Rev 43(1):16–29PubMed CrossRef
26.Luo S, Zhang E, Yo S, Cheng T, Shi C (2011) A review of NIR dyes in cancer targeting and imaging. Biomaterials 32:7127–7138PubMed CrossRef
27.Bartlett G (1959) Phosphorus assay in column chromatography. J Biol Chem 234:466–468PubMed
28.Bulychev A, Verchoturov V, Gulaev B (1988) Current methods of biophysical studies. Vyschaya shkola, Moscow
29.Caroff A, Litzinger E, Connor R, Fishman I, Armitage B (2002) Helical aggregation of cyanine dyes on DNA templates: effect of dye structure on formation of homo- and heteroaggregates. Langmuir 18:6330–6337CrossRef
30.Kirstein S, Daehne S (2006) J-aggregates of amphiphilic cyanine dyes; self-organization of artificial light harvesting complexes. Int J Photogr 2006:1–21
31.Losytskyy M, Volkova K, Kovalska V, Makovenko I, Yu S, Tolmachev O, Yarmoluk S (2005) Fluorescence properties of pentamethine cyanine dyes with cyclopentene and cyclohexene group in presence of biological molecules. J Fluoresc 15(6):849–857PubMed CrossRef
32.Balen G, Martinet C, Caron G, Bouchard G, Reist M, Carrupt P, Fruttero R, Gasco A, Testa B (2004) Liposome/water lipophilicity: methods, information content, and pharmaceutical applications. Med Res Rev 3:299–324CrossRef
33.Ahsan M, Samy J, Khalilullah H, Nomani M, Saraswat P, Gaur R, Singh A (2011) Molecular properties prediction and synthesis of novel 1, 3, 4-oxadiazole analogues as potent antimicrobial and antitubercular agents. Bioorg Med Chem Lett 21(24):7246–7250PubMed CrossRef
34.Irwin J, Shoichet B (2005) ZINC-a free database of commercially available compounds for virtual screening. J Chem Inf Model 45:177–182PubMed PubMedCentral CrossRef
35.Ishchenko A Structure and spectral-luminescent properties of polymethine dyes. Russ Chem Rev 60:865–884.
36.Kasha M (1963) Energy transfer mechanism and the molecular exciton model for molecular aggregate. Radiat Res 20:55–71PubMed CrossRef
37.Ogul’chansky T, Yaschuk V, Losytskyy M, Kocheshev I, Yarmoluk S (2000) Interaction of cyanine dyes with nucleic acids. XVII towards an aggregation of cyanine dyes in solutions as a factor facilitating nucleic acid detection. Spectrochim Acta Part A 56:805–814CrossRef
38.Hannah K, Armitage DNA-templated assembly of helical cyanine dye aggregates: a supramolecular chain polymerization. Acc Chem Res 37:845–853.
39.Kasha M, Rawls H, El-Bayoumi M The exciton model in molecular spectroscopy Pure Appl Chem 11:372–392. - 作者单位:Atanas Kurutos (1)
Olga Ryzhova (2)
Valeriya Trusova (2) (3)
Galyna Gorbenko (2)
Nikolay Gadjev (1)
Todor Deligeorgiev (1)
1. Sofia University “St. Kliment Ohridski”, Faculty of Chemistry and Pharmacy, 1, blv. J. Bourchier, 1164, Sofia, Bulgaria
2. Department of Nuclear and Medical Physics, V.N. Karazin Kharkiv National University, 4 Svobody Sq., Kharkiv, 61077, Ukraine
3. 19-32 Geroyev Truda, Kharkiv, 61044, Ukraine - 刊物类别:Biomedical and Life Sciences
- 刊物主题:Biomedicine
Biomedicine
Biophysics and Biomedical Physics
Biotechnology
Biochemistry
Analytical Chemistry - 出版者:Springer Netherlands
- ISSN:1573-4994
文摘
A series of symmetric pentamethine cyanine dyes derived from various N-substituted benzothiazolium/benzoselenazolium salts, and a conjugated bis-aniline derivative containing a chlorine atom at meso-position with respect to the polymethine chain, were synthesized using a novel improved synthetic approach under mild conditions at room temperature. The reaction procedure was held by grinding the starting compounds for relative short times. The novel method is reliable and highly reproducible. Some photophysical characteristics were recorded in various solvents, including absorption, and fluorescence quantum yields using Cy-5 as a reference. Additional studies on interactions with several bio-objects such as liposomes, DNA, and proteins have been investigated in the present work. Keywords Pentamethine cyanine dyes 2-methylbenzothiazole 2-methylbenzoselenazole Fluorescent markers Liposomes DNA, proteins H-aggregates