|
authors |
Sequeira, RA; Singh, N; Pereira, MM; Chudasama, NA; Bhattacharya, S; Sharma, M; Mondal, D; Prasad, K |
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nationality |
International |
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journal |
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES |
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author keywords |
Ionic liquid; epsilon-Poly-L-lysine; Peptide; Dissolution; Packaging; Structural stability |
|
keywords |
SECONDARY STRUCTURE; DNA; POLYLYSINE; POLY(L-LYSINE); GEL |
|
abstract |
Packaging of structurally sensitive biomolecules such as proteins, peptides and DNA in non-aqueous media at ambient conditions with chemical and structural stability is important to explore the potential of such biomacromolecules as substrate for functional biomaterial design and for biotechnological applications. In this perspective, solubility, chemical and structural stability of epsilon-poly-L -lysine (epsilon-PL), a homopolypeptide produced by Streptomyces albulus in different ionic liquids (1Ls) namely 2-hydroxyethyl ammonium formate (2-HEAF), 2-hydroxyethyl ammonium acetate (2-HEAA), choline formate (Ch-Formate) and choline acetate (Ch-Acetate) was studied. Maximum solubility (15% w/v) of the homopolypeptide was observed in 2-HEAF and lowest was found in Ch-Formate (2% w/v). After regeneration of the dissolved polypeptide in the IL, the IL could be recycled and reused in the dissolution process. Unlike in other ILs, 3-15% w/v of epsilon-PL in 2-HEAF gave formation of a thixotropic thermoreversible soft gel. Molecular docking studies established favourable interactions of [2-HEA](+) cation over [Ch](+) with epsilon-PLindicating [2-HEA](+) as the most promising cation for the dissolution process. However, the role of the anions was also found to be important, which could lead to improvement in polypeptide solubility when combined to the selected cation. The findings demonstrate suitability of the ionic liquids for functionalization of polypeptides for biomaterial preparation. (C) 2018 Elsevier B.V. All rights reserved. |
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publisher |
ELSEVIER SCIENCE BV |
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issn |
0141-8130 |
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year published |
2018 |
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volume |
120 |
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beginning page |
378 |
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ending page |
384 |
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digital object identifier (doi) |
10.1016/j.ijbiomac.2018.08.102 |
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web of science category |
Biochemistry & Molecular Biology; Chemistry, Applied; Polymer Science |
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subject category |
Biochemistry & Molecular Biology; Chemistry; Polymer Science |
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unique article identifier |
WOS:000452587500046
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