J Biol Inorg Chem
22. Cui F, Qin L, Zhang G, Liu Q, Yao X, Lei B (2008) J Pharm
Biomed Anal 48:1029–1036
changes in the absorption spectrum of HSA upon addi-
tion of the complexes show that the HSA–complex adducts
formed in the ground state. In addition, molecular dock-
ing studies revealed that hydrogen-bond, hydrophobic,
and π–cation interactions have dominant role in the bind-
ing of these complexes to HSA. In addition, the ONIOM
calculation was employed to investigate the efects of the
HSA interaction on geometry of the compounds. Based on
the ONIOM calculations, the structural parameters of the
complexes changed due to their appropriate interactions
with HSA or DNA. In general, the results of the present
study exhibit the efect of the metal ion on the binding of
the complexes to DNA or HSA.
23. McCallum MM, Pawlak AJ, Shadrick WR, Simeonov A, Jadhav
A, Yasgar A, Maloney DJ, Arnold LA (2014) Anal Bioanal
Chem 406:1867–1875
24. Li F, Feterl M, Warner JM, Day AI, Keene FR, Collins JG (2013)
Dalton Trans 42:8868–8877
25. Domonkos C, Zsila F, Fitos I, Visy J, Kassai R, Bálint B, Kotschy
A (2015) RSC Adv 5:53809–53818
26. Ghuman J, Zunszain PA, Petitpas I, Bhattacharya AA, Otagiri M,
Curry S (2005) J Mol Biol 353:38–52
27. Bal W, Sokołowska M, Kurowska E, Faller P (2013) Biochim et
Biophys Acta Gen Subj 1830:5444–5455
28. Gou Y, Zhang Y, Qi J, Zhou Z, Yang F, Liang H (2015) J Inorg
Biochem 144:47–55
29. Kazemi Z, Amiri Rudbari H, Mirkhani V, Sahihi M, Moghadam
M, Tangestaninejad S, Mohammadpoor-Baltork I (2015) J Mol
Struct 1096:110–120
Acknowledgements The authors are grateful to the Research Council
of the University of Isfahan for fnancial support of this work.
30. Kazemi Z, Amiri Rudbari H, Sahihi M, Mirkhani V, Moghadam
M, Tangestaninejad S, Mohammadpoor-Baltork I, Gharaghani S
(2016) J Photochem Photobiol B Biol 162:448–462
31. Khosravi I, Hosseini F, Khorshidifard M, Sahihi M, Amiri Rud-
bari H (2016) J Mol Struct 1119:373–384
32. Zhang J, Zhang F, Li H, Liu C, Xia J, Ma L, Chu W, Zhang Z,
Chen C, Li S (2012) Curr Med Chem 19:2957–2975
33. Pages BJ, Ang DL, Wright EP, Aldrich-Wright JR (2015) Dalton
Trans 44:3505–3526
References
1. Baranwal BP, Tripathi K, Singh AK, Tripathi S (2012) Spectro-
chim Acta Part A Mol Biomol Spectrosc 91:365–369
2. Ershad S, Sagathforoush L-A, Karim-Nezhad G, Kangari S (2009)
Int J Electrochem Sci 4:846–854
34. Khorshidifard M, Amiri Rudbari H, Kazemi-Delikani Z,
Mirkhani V, Azadbakht R (2015) J Mol Struct 1081:494–505
35. Pace CN, Vajdos F, Fee L, Grimsley G, Gray T (1995) Protein
Sci 4:2411–2423
3. Gao B, Wan M, Men J, Zhang Y (2012) Appl Cataly A Gen
439:156–162
36. Reichmann M, Rice S, Thomas C, Doty P (1954) J Am Chem
Soc 76:3047–3053
4. Habibi MH, Shojaee E, Nichol GS (2012) Spectrochim Acta Part
A Mol Biomol Spectrosc 98:396–404
37. Zheng K, Liu F, Xu X-M, Li Y-T, Wu Z-Y, Yan C-W (2014) N
J Chem 38:2964–2978
5. Bera P, Kim C-H, Seok SI (2010) Solid State Sci 12:532–535
6. Madhu V, Sabbani S, Kishore R, Naik IK, Das SK (2015) Cryst
Eng Comm 17:3219–3223
38. Fu X-B, Liu D-D, Lin Y, Hu W, Mao Z-W, Le Dalton X-Y
(2014) Transactions 43:8721–8737
7. Majumder I, Chakraborty P, Das S, Kara H, Chattopadhyay SK,
Zangrando E, Das D (2015) RSC Adv 5:51290–51301
8. Tian H, Yu Z, Hagfeldt A, Kloo L, Sun L (2011) J Am Chem Soc
133:9413–9422
39. Ganeshpandian M, Loganathan R, Suresh E, Riyasdeen
A, Akbarsha MA, Palaniandavar M (2014) Dalton Trans
43:1203–1219
40. Arjmand F, Jamsheera A, Mohapatra D (2013) J Photochem Pho-
tobiol B Biol 121:75–85
9. Arjmand F, Sayeed F, Muddassir M (2011) J Photochem Photobiol
B Biol 103:166–179
41. Fromherz P, Rieger B (1986) J Am Chem Soc 108:5361–5362
42. Fu X-B, Weng G-T, Liu D-D, Le X-Y (2014) J Photochem Photo-
biol A Chem 276:83–95
10. Anacona J, Rodriguez JL, Camus J (2014) Spectrochim Acta Part
A Mol Biomol Spectrosc 129:96–102
11. Sundararajan M, Jeyakumar T, Anandakumaran J, Selvan BK
(2014) Spectrochim Acta Part A Mol Biomol Spectrosc 131:82–93
12. Tarushi A, Polatoglou E, Kljun J, Turel I, Psomas G, Kessissoglou
DP (2011) Dalton Trans 40:9461–9473
43. Waring M (1965) J Mol Biol 13:269–282
44. Tian M-Y, Zhang X-F, Xie L, Xiang J-F, Tang Y-L, Zhao C-Q
(2008) J Mol Struct 892:20–24
45. Morris GM, Goodsell DS, Halliday RS, Huey R, Hart WE, Belew
RK, Olson AJ (1998) J Comput Chem 19:1639–1662
46. Dawson MI, Hobbs PD, Peterson VJ, Leid M, Lange CW, Feng
K-C, Chen G-Q, Gu J, Li H, Kolluri SK (2001) Cancer Res
61:4723–4730
13. Chakraborty A, Kumar P, Ghosh K, Roy P (2010) Eur J Phar-
macol 647:1–12
14. Joseph J, Nagashri K, Janaki GB (2012) Eur J Med Chem
49:151–163
15. Sahani M, Yadava U, Pandey O, Sengupta S (2014) Spectrochim
Acta Part A Mol Biomol Spectrosc 125:189–194
16. Pillai SI, Subramanian SP, Kandaswamy M (2013) Eur J Med
Chem 63:109–117
47. Farrokhpour H, Hadadzadeh H, Darabi F, Abyar F, Amiri Rudbari
H, Ahmadi-Bagheri T (2014) RSC Adv 4:35390–35404
48. Mrkalić EM, Jelić RM, Klisurić OR, Matović ZD (2014) Dalton
Trans 43:15126–15137
17. Ki J, Mukherjee A, Rangasamy S, Purushothaman B, Song JM
(2016) RSC Adv 6:57530–57539
49. Wang Y-Q, Zhang H-M, Zhang G-C, Tao W-H, Tang S-H (2007)
J Lumin 126:211–218
18. Ibrahim OB, Mohamed MA, Refat MS (2014) Can Chem Trans
2:108–121
50. Dighe SU, Khan S, Soni I, Jain P, Shukla S, Yadav R, Sen P,
Meeran SM, Batra S (2015) J Med Chem 58:3485–3499
51. Darabi F, Hadadzadeh H, Ebrahimi M, Khayamian T, Amiri Rud-
bari H (2014) Inorgan Chim Acta 409:379–389
19. Maret W (2012) J Inorg Biochem 111:110–116
20. Vallee BL, Auld DS (1990) Biochemistry 29:5647–5659
21. Lu Y, Cui F, Fan J, Yang Y, Yao X, Li J (2009) J Lumin
129:734–740
52. Lakowicz JR (2006) Plasmonics 1:5–33
53. Kyropoulou M, Raptopoulou CP, Psycharis V, Psomas G (2013)
Polyhedron 61:126–136
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