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01-11-2012 | Original Paper

Dilute solution properties of some polycarboxybetaines with antibacterial activity

Authors: Anca Giorgiana Grigoras, Stefania Racovita, Silvia Vasiliu, Manuela Tatiana Nistor, Simona Dunca, Virgil Barboiu, Vasile Cristian Grigoras

Published in: Journal of Polymer Research | Issue 11/2012

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Abstract

The dilute solution properties of polymeric quaternary ammonium betaines derived from poly(N-vinylimidazole) PNVI and containing either a methylene (B1), ethylene (B2), or propylene (B3) betaine group, respectively, were analyzed. A PNVI blank was also tested. The weight-average molecular weight \( {{\overline{M}}_{\text{w}}} \), second virial coefficient A ₂, radius of gyration R _g, and hydrodynamic radius R _h of unfractionated probes were determined by MALLS (multiangle laser light scattering) and WALLS (wide-angle laser light scattering) measurements. All of these parameters varied with the type of solvent: pure water, an aqueous solution of 0.5 M NaCl, or an alcohol. These solution properties were useful for predicting the interactions of the polycarboxybetaines (acting as antimicrobial agents) with the components of the bacterial cell wall. Some of the polycarboxybetaines exhibited antimicrobial activities, as shown by the Kirby–Bauer diffusion method. A concentration of about 20 mg mL⁻¹ for B1 or B3 in an aqueous solution of 0.5 M NaCl is sufficient to inhibit the growth of Escherichia coli.

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Kudaibergenov SE, Ciferri A (2007) Natural and synthetic polyampholytes. 2. Functions and applications. Macromol Rapid Commun 28:1969–1986CrossRef

Bielowski P, Sosada M (1985) The synthesis and properties of selected derivatives of oligo- and polybetaines. Acta Polym 3:369–372

Johnson KM, Fevola MJ, Lochhead RY, McCormick CL (2004) Hydrophobically modified acrylamide-based polybetaines. II. Interaction with surfactants in aqueous solution. J Appl Polym Sci 92:658–671CrossRef

Bohrisch J, Grosche O, Wendler U, Jaeger W, Engelhardt H (2000) Electroosmotic mobility and aggregation phenomena of model polymers with permanent cationic groups. Macromol Chem Phys 201:447–452CrossRef

Dai F, Wang P, Wang Y, Tang L, Yang J, Liu W, Li H, Wang G (2008) Double thermoresponsive polybetaine-based ABA triblock copolymers with capability to condense DNA. Polymer 49:5322–5328CrossRef

Kharlampieva E, Pristinski D, Sukhishvili SA (2007) Hydrogen-bonded multilayers of poly(carboxybetaine)s. Macromolecules 40:6967–6972CrossRef

Kharlampieva E, Izumrudov VA, Sukhishvili SA (2007) Electrostatic layer-by-layer self-assembly of poly(carboxybetaine)s: role of zwitterions in film growth. Macromolecules 40:3663–3668

Yaroslavov AA, Sitnikova TA, Rakhnyanskaya AA, Ermakov YA, Burova TV, Grinberg VY, Menger FM (2007) Contrasting behavior of zwitterionic and cationic polymers bound to anionic liposomes. Langmuir 23:7539–7544CrossRef

Lowe AB, McCormick CL (2002) Synthesis and solution properties of zwitterionic polymers. Chem Rev 102:4177–4189CrossRef

10.

Cottet H, Simo C, Vayaboury W, Cifuentes A (2005) Nonaqueous and aqueous capillary electrophoresis of synthetic polymers. J Chromatogr A 1068:59–73

11.

Salamone JC, Tsai CC, Watterson AC, Olsen AP (1978) Aqueous solution properties of a poly(vinyl imidazolium sulphobetaine). Polymer 19:1157–1162CrossRef

12.

Schulz DN, Peiffer DG, Agrawal PK, Larabee J, Kaladas JJ, Soni L, Handwerker B, Garner RT (1986) Phase behaviour and solution properties of sulphobetaine polymers. Polymer 27:1734–1742CrossRef

13.

Liaw DJ, Lee WF, Whung YC, Lin MC (1987) Aqueous solution properties of poly[3-dimethyl (methacryloyloxyethyl) ammonium propane sulfonate]. J Appl Polym Sci 34:999–1011CrossRef

14.

Chen S, Chen S, Jiang S, Mo Y, Luo J, Tang J, Ge Z (2011) Study of zwitterionic sulfopropylbetaine containing reactive siloxanes for application in antibacterial materials. Colloids Surf B 85:323–329

15.

Ji Y, Wei Y, Liu X, Wang J, Ren K, Ji J (2012) Zwitterionic polycarboxybetaine coating functionalized with REDV peptide to improve selectivity for endothelial cells. J Biomed Mater Res 100:1387–1397CrossRef

16.

Chen S, Li L, Zhao C, Zheng J (2010) Multifunctional PMMA-ceramic composites as structural dielectrics. Polymer 51:5283–5832

17.

Jiang S, Cao Z (2010) Ultralow-fouling, functionalizable and hydrolyzable zwitterionic materials and their derivatives for biological applications. Adv Mater 22:920–932CrossRef

18.

Saravanan S, Selvan PS, Gopal N, Gupta JK, De B (2005) Synthesis and antibacterial activity of some imidazole-5-(4H)one derivatives. Arch Pharm 338:488–492

19.

Soykan C, Coskun R, Delibas A (2005) Microbial screening of copolymers of N-vinylimidazole with phenacyl methacrylate: synthesis and monomer reactivity ratios. J Macromol Sci Pure Appl Chem 42:1603–1619CrossRef

20.

Niu A, Liaw DJ, Sang HC, Wu C (2000) Light-scattering study of a zwitterionic polycarboxybetaine in aqueous solution. Macromolecules 33:3492–3494CrossRef

21.

Donovan MS, Lowe AB, Sanford TA, McCormick CL (2003) Sulfobetaine-containing diblock and triblock copolymers via reversible addition-fragmentation chain transfer polymerization in aqueous media. J Polym Sci Pol Chem 41:1262–1281

22.

Ravi P, Dai S, Tam KC (2005) Synthesis and self-assembly of [60] fullerene containing sulfobetaine polymer in aqueous solution. J Phys Chem B 109:22791–22798

23.

Colak S, Tew GN (2008) Synthesis and solution properties of norbornene-based polybetaines. Macromolecules 41:8436–8440CrossRef

24.

Zhang Z, Cheng G, Carr LR, Vaisocherova H, Chen S, Jiang S (2008) The hydrolysis of cationic polycarboxybetaine esters to zwitterionic polycarboxybetaines with controlled properties. Biomaterials 29:4719–4725CrossRef

25.

Fevola MJ, Bridges JK, Kellum MG, Hester RD, McCormick CL (2004) pH-responsive polyzwitterions: a comparative study of acrylamide-based polyampholyte terpolymers and polybetaine copolymers. J Appl Polym Sci 94:24–39CrossRef

26.

Luca C, Neagu V, Vasiliu S, Barboiu V (2005) In: Dragan ES (ed) Focus on ionic polymers. Research Singpost, Kerala

27.

Racovita S, Vasiliu S, Neagu V (2010) Solution properties of three polyzwitterions based on poly(N-vinylimidazole). Iran Polym J 19:333–341

28.

Kojima T (1980) Studies of molecular aggregation of a polybenzimidazole in solution by fluorescence spectroscopy. J Polym Sci Pol Phys 18:1685–1695

29.

Ying Q, Chu B (1987) Static and dynamic solution properties of poly(1,4-benzamide) in dimethylacetamide with 3 % (g/mL) lithium chloride. Macromolecules 20:871–877CrossRef

30.

Podzimek S (2011) Light scattering, size exclusion chromatography and asymmetric flow field flow fractionation. Powerful tools for characterization of polymers, proteins and nanoparticles. Wiley, Hoboken

31.

Klein J, Kunz M, Guderjahn L (1995) New amphiphilic copolymers derived from hydrophobically modified vinyl saccharides. Can J Chem 73:1941–1947CrossRef

32.

Kratochvil P (1982) Advances in classical light scattering from polymer solutions. Pure Appl Chem 54:379–393CrossRef

33.

Li H (2004) Preparation, characterization and solution viscosity of polystyrene-block-polyisoprene nanofiber fractions. Langmuir 20:4677–4683CrossRef

34.

Zhong F, Yokoyama W, Wang Q, Shoemaker CF (2006) Rice starch, amylopectin and amylose: molecular weight and solubility in dimethyl sulfoxide-based solvents. J Agric Food Chem 54:2320–2326CrossRef

35.

Yusa S, Kamachi M, Morishima Y (2000) Self-association of cholesterol-end-capped poly(sodium 2-(acrylamido)-2-methylpropanesulfonate) in aqueous solution. Macromolecules 33:1224–1231

36.

Zagar E (2005) Solution properties of polyurethanes studied by static light scattering, SEC-MALS, and viscometry. Acta Chim Slov 52:245–252

37.

Wang Q, Huang X, Nakamura A, Burchard W, Hallett FR (2005) Molecular characterisation of soybean polysaccharides: an approach by size exclusion chromatography, dynamic and static light scattering methods. Carbohydr Res 340:2637–2644CrossRef

38.

Contreras S, Gaspar AR, Guerra A, Lucia LA, Argyropoulos DS (2008) Propensity of lignin to associate: light scattering photometry study with native lignins. Biomacromolecules 9:3362–3369CrossRef

39.

Erhardt R, Boker A, Zettl H, Kaya H, Pyckhout-Hintzen W, Krausch G, Abetz V, Muller AHE (2001) Janus micelles. Macromolecules 34:1069–1075CrossRef

40.

Berth G, Dautzenberg H, Christensen BE, Harding SE, Rother G, Smidsrod O (1996) Static light scattering studies on xanthan in aqueous solutions. Macromolecules 29:3491–3498CrossRef

41.

Doherty EAS, Kan CW, Barron AE (2003) Sparsely cross-linked “nanogels” for microchannel DNA sequencing. Electrophoresis 24:4170–4180CrossRef

42.

Hungo WB, Longworth AR (1964) Some aspects of the mode of action of chlorhexidine. J Pharm Pharmacol 16:655–662

43.

Franklin TJ, Snow GA (1981) Biochemistry of antimicrobial action. Chapman & Hall, London

44.

Kanazawa A, Ikeda T, Endo T (1993) Polymeric phosphonium salts as a novel class of cationic biocides. II. Effects of counter anion and molecular weight on antibacterial activity of polymeric phosphonium salts. J Polym Sci Pol Chem 31:1441–1447

45.

Kenawy ER, Abdel-Hay FI, El-Raheem A, El-Shanshoury R, El-Newehy MH (2002) Biologically active polymers. V. Synthesis and antimicrobial activity of modified poly(glycidyl methacrylate-co-2-hydroxyethyl methacrylate) derivatives with quaternary ammonium and phosphonium salts. J Polym Sci Pol Chem 40:2384–2393

46.

Munoz-Bonilla A, Fernandez-Garcia M (2012) Polymeric materials with antimicrobial activity. Prog Polym Sci 37:281–339CrossRef

Title: Dilute solution properties of some polycarboxybetaines with antibacterial activity
Authors: Anca Giorgiana Grigoras
Stefania Racovita
Silvia Vasiliu
Manuela Tatiana Nistor
Simona Dunca
Virgil Barboiu
Vasile Cristian Grigoras
Publication date: 01-11-2012
Publisher: Springer Netherlands
Published in: Journal of Polymer Research / Issue 11/2012
Print ISSN: 1022-9760
Electronic ISSN: 1572-8935
DOI: https://doi.org/10.1007/s10965-012-0008-1

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