Metric (us) PO22 band of free DNA at 1238.9, 1099 cm21 respectively. In DNA-theophylline Lixisenatide web complexes the PO22 band of free DNA at 1238.9 cm21 exhibited splitting and shifting into 1250 and 1240.9 cm21. 69-25-0 web Similarly in DNAtheobromine and DNA-caffeine complexes the PO22 band exhibited shifting into 1223.83, 1205 cm21 and 1238.42, 1210 cm21 respectively. Whereas the usPO22 band of free DNA at 1099 showed shifting into 1090, 1070.95 and 1098 in DNAtheophylline, DNA-theobromine and DNA-caffeine complexes respectively (Table 1). The changes observed in the vibrational frequency of PO22 band are attributed to the possible interaction of methylxanthines with DNA bases as well as to the phosphate groups. At the same time only minor perturbations were observed in the IR marker bands of free DNA, sugar-phosphate stretch (890 cm21) and phosphodiester mode (828 cm21) upon drugMethylxanthines Binding with DNATable 1. The vibrational frequencies of C = O, NH and PO22 (FTIR, KBr cm21) bands of free DNA, free drugs and DNA-drug complexes.Free Drugs (cm21) X1 NH C=O PO22 (uas) PO22 (us) 3350?900 1694.4 1238.9 1099 3121 1718, 1666.8 — — X2 3113 1691.7 — — X3 3111 3600?600 3650?650 1691.7 1223.83, 1205 1070.95 3450?700 1693.35 1238.42, 1210Functional Groups Free DNA (cm21)DNA-X1 (cm21)DNA-X2 (cm21)DNA-X3 (cm21)1699.8, 1658.7 1702.7 — — 1250, 1240.9X1 = theophylline, X2 = theobromine and X3 = caffeine. DNA-X1 = DNA-theophylline complex, DNA-X2 = DNA-theobromine complex and DNA-X3 = DNA-caffeine complex. doi:10.1371/journal.pone.0050019.tinteraction and hence the DNA remained in the B-family structure in complexes or very partial structural changes were noticed. Hence based on the FTIR analyses the order of DNA binding affinity is visualized as “caffeine theophylline.theobromine”, and it is correspondingly similar with that of the binding constants derived from UV analysis. On the other hand Nafisi et.al. have shown that theophylline binds to DNA with more efficacy than the caffeine [17]. The current study indicates more or less an equal efficacy for theophylline and caffeine than theobromine. Minor variations are observed for UV and FTIR analyses with that of Nafisi et.al for caffeine and theophylline complexations with DNA. This is mainly due to different concentrations of caffeine and theophylline used for DNA complexation, and especially the FTIR that we have performed are of solid-state analysis [40]. Generally IR spectra for DNA and its ligand complexes are taken in solution [17] but in our case IR spectra for DNA-drug complexes are studied in solid-state using KBr pellet as reported from our previous works [40], and also the DNA used here for the FTIR study was not highly polymerized and hence the minor variation in the IR transmittance for PO22 stretch and other marker bands by 10?0 cm21.complexes (with or without metal) at 270 nm (lmax). This 270 15755315 nm somewhat closer to the lmax of native drug spectra, indicating all these methylxanthines interact with DNA bases from outside to the DNA double helix with certain level of masking the DNA. In other words this is referred as `DNA masking effect’ by methylxanthines, which are noticed at higher concentration ofInteraction of methylxanthines in the presence of Mg2+ with DNA: UV absorptionChanges in the UV spectra of calf thymus DNA induced by methylxanthines were monitored in the presence of Mg2+. This was carried out, both, as a function of magnesium and methylxanthines concentration. The interaction was.Metric (us) PO22 band of free DNA at 1238.9, 1099 cm21 respectively. In DNA-theophylline complexes the PO22 band of free DNA at 1238.9 cm21 exhibited splitting and shifting into 1250 and 1240.9 cm21. Similarly in DNAtheobromine and DNA-caffeine complexes the PO22 band exhibited shifting into 1223.83, 1205 cm21 and 1238.42, 1210 cm21 respectively. Whereas the usPO22 band of free DNA at 1099 showed shifting into 1090, 1070.95 and 1098 in DNAtheophylline, DNA-theobromine and DNA-caffeine complexes respectively (Table 1). The changes observed in the vibrational frequency of PO22 band are attributed to the possible interaction of methylxanthines with DNA bases as well as to the phosphate groups. At the same time only minor perturbations were observed in the IR marker bands of free DNA, sugar-phosphate stretch (890 cm21) and phosphodiester mode (828 cm21) upon drugMethylxanthines Binding with DNATable 1. The vibrational frequencies of C = O, NH and PO22 (FTIR, KBr cm21) bands of free DNA, free drugs and DNA-drug complexes.Free Drugs (cm21) X1 NH C=O PO22 (uas) PO22 (us) 3350?900 1694.4 1238.9 1099 3121 1718, 1666.8 — — X2 3113 1691.7 — — X3 3111 3600?600 3650?650 1691.7 1223.83, 1205 1070.95 3450?700 1693.35 1238.42, 1210Functional Groups Free DNA (cm21)DNA-X1 (cm21)DNA-X2 (cm21)DNA-X3 (cm21)1699.8, 1658.7 1702.7 — — 1250, 1240.9X1 = theophylline, X2 = theobromine and X3 = caffeine. DNA-X1 = DNA-theophylline complex, DNA-X2 = DNA-theobromine complex and DNA-X3 = DNA-caffeine complex. doi:10.1371/journal.pone.0050019.tinteraction and hence the DNA remained in the B-family structure in complexes or very partial structural changes were noticed. Hence based on the FTIR analyses the order of DNA binding affinity is visualized as “caffeine theophylline.theobromine”, and it is correspondingly similar with that of the binding constants derived from UV analysis. On the other hand Nafisi et.al. have shown that theophylline binds to DNA with more efficacy than the caffeine [17]. The current study indicates more or less an equal efficacy for theophylline and caffeine than theobromine. Minor variations are observed for UV and FTIR analyses with that of Nafisi et.al for caffeine and theophylline complexations with DNA. This is mainly due to different concentrations of caffeine and theophylline used for DNA complexation, and especially the FTIR that we have performed are of solid-state analysis [40]. Generally IR spectra for DNA and its ligand complexes are taken in solution [17] but in our case IR spectra for DNA-drug complexes are studied in solid-state using KBr pellet as reported from our previous works [40], and also the DNA used here for the FTIR study was not highly polymerized and hence the minor variation in the IR transmittance for PO22 stretch and other marker bands by 10?0 cm21.complexes (with or without metal) at 270 nm (lmax). This 270 15755315 nm somewhat closer to the lmax of native drug spectra, indicating all these methylxanthines interact with DNA bases from outside to the DNA double helix with certain level of masking the DNA. In other words this is referred as `DNA masking effect’ by methylxanthines, which are noticed at higher concentration ofInteraction of methylxanthines in the presence of Mg2+ with DNA: UV absorptionChanges in the UV spectra of calf thymus DNA induced by methylxanthines were monitored in the presence of Mg2+. This was carried out, both, as a function of magnesium and methylxanthines concentration. The interaction was.