Effect of Molecular Structure on Complexation Between Acidic- and Basic-Polypeptides in Solution |
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| Authors: | Byoung-Kee Jo Hyun-Don Kim Chun-Hag Jang Ki-Won Song Jang-Oo Lee |
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| Institution: | 1. R &2. D Center, Pacific Chemical Co., Ltd. , Yongin, 449-800, Korea;3. Sam Sung Advanced Institute of Technology , Taejeon, 305-606, Korea;4. Department of Polymer Science &5. Engineering , Pusan National University , Pusan, 609-735, Korea;6. Department of Textile Engineering , Pusan National University , Pusan, 609-735, Korea |
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| Abstract: | Abstract Interpolymer complex formation between basic polypeptides, poly(L- proline) Form I PLP(I)], Form II PLP(II)] and poly-4-hydroxy-L-proline (PHLP), and acidic polypeptides, poly(L-glutamic acid) (PLGA), poly(D- glutamic acid) (PDGA) and poly(L-aspartic acid) (PLAA), has been studied in water-methanol (1:2 v/v) mixed-solvent by viscometry, potentiometry, light scattering and circular dichroism (CD) measurements. It has been found that polymer complexes between basic- and acidic- polypeptides are formed via hydrogen bonding with a stoichiometric ratio of basic/acidic polypeptides =1:2 (in unit mole ratio) and that PLP(II) forms polymer complex more favorably with PLGA than with PLAA, and the complex of PLP(II) with PLGA is also more favorable than the complex formation of PHLP with PLGA. In addition, the complex formation is highly dependent on the conformation, especially the optical structure of the component polymers, i.e., the stereoselective complexation is observed. The PLGA having a right-handed helix at pH 3.2 formed the complex favorably and quickly with left-handed helix PLP(II), whereas PDGA having a left-handed helix at pH 3.2 favorably formed the complex with right-handed helix PLP(I). |
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| Keywords: | Hydrogen bonding Polymer complex Conformation Acidic polypeptides Basic polypeptides Stereoselective complexation |
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