论文部分内容阅读
Structural characteristics and proton binding properties of sub-fractions (FA3-FA13) of fulvic acid (FA),eluted stepwise by pyrophosphate buffer were examined by use of fluorescence titration combined with fluorescence regional integration (FRI) and differential fluorescence spectroscopy (DFS).Humic-like (H-L) and fulvic-like (F-L) materials,which accounted for more than 80% of fluorescence response,were dominant in five sub-fractions of FA.Based on FRI analysis,except the response of F-L materials in FA9 and FA13,maximum changes in percent fluorescence response were less than 10% as pH was increased from 2.5 to 11.5.Contents of carboxylic and phenolic groups were compared for fluorescence peaks of FA sub-fractions based on pH-dependent fluorescence derived from DFS.Static quenching was the dominant mechanism for binding of protons by FA sub-fractions.Dissociation constants (pKa) were calculated by use of results of DFS and the modified Stem-Volmer relationship.The pKa of H-L,F-L,tryptophan-like and tyrosine-like materials of FA subfractions exhibited ranges of 3.17-4.06,3.12-3.97,4.14-4.45 and 4.25-4.76,respectively,for acidic pHs.At basic pHs,values of pKa for corresponding materials were in ranges of 9.71-10.24,9.62-10.99,9.67-10.31 and 9.33-10.28,respectively.At acidic pH,protein-like (P-L) materials had greater affinities for protons than did either H-L or F-L materials.The dicarboxylic and phenolic groups were likely predominant sites of protonation for both H-L and F-L materials at both acidic and basic pHs.Amino acid groups were significant factors during proton binding to protein-like materials of FA sub-fractions at basic pH.