đŸ‘€ S. Baskaran

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Also published as: Rathinasamy Baskaran,
articles

Metal-Based Drug–DNA Interactions and Analytical Determination Methods

S. Hangan, J. Lodge, A. Odani +529 more · 2024 · Molecules · MDPI · added 2026-04-20
S. Hangan, J. Lodge, A. Odani, T. Yamaguchi, I. Persson, N. Hadjiliadis, E. Sletten, S.A. Mehrdad, A. Cucchiarini, J.L. Mergny, S.K. Noureini, S. Muthaiah, A. Bhatia, M. Kannan, A.N. Srivastva, M. Stankovic, J. Kljun, N.L.J. Stevanovic, J. Lazic, S.S. Bogojevic, S. Vojnovic, M. Zlatar, J. Nikodinovic-Runic, I. Turel, M.I. Djuran, I. Aleksic, A. Veselinovic, B.D. Glisic, H. Alshater, A.I. Al-Sulami, S.A. Aly, E.M. Abdalla, M.A. Sakr, S.S. Hassan, S. de la Mata Moratilla, S. Casado Angulo, N. GĂłmez-Casanova, J.L. Copa-Patiño, I. Heredero-Bermejo, F.J. de la Mata, S. GarcĂ­a-Gallego, A. Hangan, A. Turza, R.L. Lucaciu, B. Sevastre, E. Pall, L.S. Oprean, G. Borodi, D. Rusu, A. Stănilă, I.O. Marian, C.O. Marian, M. Rusu, R. Lucaciu, T.J. Hubin, P.N. Amoyaw, K.D. Roewe, N.C. Simpson, R.D. Maples, T.N. Carder Freeman, A.N. Cain, J.G. Le, S.J. Archibald, S.I. Khan, E. Bortolamiol, F. Visentin, T. Scattolin, I. Kostova, A.C. Hangan, L. Dican, E. PĂĄll, R.L. Stan, S. Gheorghe-Cetean, A. Tsoupras, S. Pafli, C. Stylianoudakis, K. Ladomenou, C.A. Demopoulos, A. Philippopoulos, J. Wlodarczyk, J. Krajewska, L. Szeleszczuk, P. Szalwinska, A. Gurba, S. Lipiec, P. Taciak, R. Szczepaniak, I. Mlynarzuk-Bialy, J. Fichna, C. Abate, F. Carnamucio, O. Giuffre, C. Foti, C. Chuong, C.M. DuChane, E.M. Webb, P. Rai, J.M. Marano, C.M. Bernier, J.S. Merola, J. Weger-Lucarelli, L. Oprean, P. Kumar, S. Gorai, M.K. Santra, B. Mondal, D. Manna, M. Sirajuddin, S. Ali, A. Badshah, J.D. Watson, F.H.C. Crick, B. Maddox, P.J. Kennelly, K.M. Botham, O. McGuinness, V.W. Rodwell, P.A. Weil, R.A. Harvey, D.R. Ferrier, J.M. Berg, J.L. Tymoczko, G.J. Gatto, L. Stryer, J.A. Cowan, P. Yakovchuk, E. Protozanova, M.D. Frank-Kamenetskii, M.J. Hannon, I. Bertini, H.B. Gray, S.J. Lippard, J.S. Valentine, Z. Shakked, G. Guerstein-Guzikevich, M. Eisenstein, F. Frolow, D. Rabinovich, J.C. Garcia-Ramos, R. Galindo-Murillo, F. Cortez-Guzman, L. Ruiz-Azuara, S. Neidle, M. HĂ€gerlöf, P. Papsai, C.S. Chow, S.K.C. Elmroth, J. François, N.T. Thuong, C. HĂ©lĂšne, J.L. Huppert, T.A. Brooks, S. Kendrick, L. Hurley, X. Li, Y. Peng, J. Ren, X. Qu, Y. Akiyama, S.M. Hecht, L.H. Hurley, J. Zhou, C. Wei, G. Jia, X. Wang, Z. Feng, C. Li, A. Mukherjee, K.M. Vasquez, E. Marian, L.G. Vicas, J. Tunde, M. Muresan, Z. Diaconeasa, C. Ionescu, R.G. Pearson, G. Barone, A. Terenzi, A. Lauria, A.M. Almerico, J.M. Leal, N. Busto, B. Garcia, J. Vinje, J.A. Parkinson, P.J. Sadler, T. Brown, A.A. Almaqwashi, T. Paramanathan, I. Rouzina, M.C. Williams, F.R. Keene, J.A. Smith, J.G. Collins, A. Rilak, R. Masnikosa, I. Bratsos, E. Alessio, S.K. Srivastava, T.C. Johnstone, K. Suntharalingam, S. Cetean, T. Ciuleanu, D.C. Leucuta, C. Cainap, A.M. Constantin, I. Cazacu, S. Cainap, A. Gherman, Y. He, Y. Ding, D. Wang, W. Zhang, W. Chen, X. Liu, W. Qin, X. Qian, H. Chen, Z. Guo, E. StefĂ no, F. De Castro, A. Ciccarese, A. Muscella, S. Marsigliante, M. Benedetti, F.P. Fanizzi, P.M. Takahara, A.C. Rosenzweig, C.A. Frederick, M. Demeunynck, C. Bailly, W.D. Wilson, K. Nakamoto, M. Tsuboi, G.D. Strahan, B.M. Zeglis, V.C. Pierre, J.K. Barton, C. Shobha Devi, B. Thulasiram, R.R. Aerva, P. Nagababu, T. Biver, F. Secco, M. Venturini, C.E. Maciel-Flores, J.A. Lozano-Alvarez, E.Y. BiviĂĄn-Castro, F. Jia, S. Wang, Y. Man, B. Liu, P. Modrich, A. Erxleben, E. Dumont, A. Monari, D.L. Morris, G.S. Khan, A. Shah, D. Zia-ur-Rehman, B.J. Pages, D.L. Ang, E.P. Wright, J.R. Aldrich-Wright, S.M. Nelson, L.R. Ferguson, W.A. Denny, L. Winkler, F. Cortes-Guzman, T.E. Cheatham, O. Sarpataki, N.K. Olah, M. Taulescu, I. Marcus, C. Cătoi, M.M. GonzĂĄlez-Ballesteros, L. SĂĄnchez-SĂĄnchez, A. Espinoza-GuillĂ©n, J. Espinal-EnrĂ­quez, C. MejĂ­a, E. HernĂĄndez-Lemus, P.H. von Hippel, A.H. Marcus, S. Komeda, T. Moulaei, K. Kruger Woods, M. Chikuma, N.P. Farrell, L.D. Williams, T. Jany, A. Moreth, C. Gruschka, A. Sischka, A. Spiering, M. Dieding, Y. Wang, S. Haji Samo, A. Stammler, H. Bögge, S. Li, B. Yuan, J. Zhang, L. Yue, H. Hou, J. Hu, S. Chen, B.R. Kirthan, M.C. Prabhakara, H.S. Bhojya Naik, P.H.A. Nayak, E.I. Naik, U. Saha, S. Chatterjee, M. Dolai, G.S. Kumar, A.M. Abu-Dief, N.H. Alotaibi, E.S. Al-Farraj, H.A. Qasem, S. Alzahrani, M.K. Mahfouz, A. Abdou, B. Kurt, H. Temel, M. Atlan, S. Kaya, H.A. Kiwaan, A.S. El-Mowafy, A.A. El-Bindary, S. Baskaran, M.N. Krishnan, M. Arumugham, R. Kumar, N. Kumar, R. Kaushal, P. Awasthi, A. Kellett, Z. Molphy, C. Slator, V. McKee, V.G. Vaidyanathan, B.U. Nair, R. Vijayalakshmi, P. Karacan, O. Okay, S. Phukan, S. Mitra, S. Nafisi, A.A. Saboury, N. Keramat, J.F. Neault, H.A. Tajmir-Riahi, P. Sathyadevi, P. Krishnamoorthy, R.R. Butorac, A.H. Cowley, N.S.P. Bhuvanesh, N. Dharmaraj, F. Arjmand, S. Parveen, M. Afzal, M. Shahid, J.B. Lepecq, C. Paoletti, J.L. Garcia-Gimenez, M. Gonzalez-Alvarez, M. Liu-Gonzalez, B. Macias, J. Borras, G. Alzuet, M. Aslanoglu, M. Zaheer, R. Qureshi, Z. Akhter, M.F. Nazar, M. Ngoepe, H. Clayton, P. Mucha, P. Hikisz, K. GwoĆșdziƄski, U. Krajewska, A. Leniart, E. Budzisz, E.F. Garman, J.R. Helliwell, E.P. Mitchell, A.N. Boynton, K.M. Boyle, M.J. Waring, S. Da Vela, D.I. Svergun, L.A. Feigin, P.P.P. Kumar, D.K. Lim, T.H. Jensen, M. Bech, O. Bunk, M. Thomsen, A. Menzel, A. Bouchet, G. Le Duc, R. Feidenhans, F. Pfeiffer, S. Sidhu, G. Falzon, S.A. Hart, J.G. Fox, R.A. Lewis, K.K.W. Siu, D.A. Jacques, J. Trewhella, N. Allec, M. Choi, N. Yesupriya, B. Szychowski, M.R. White, M.G. Kann, E.D. Garcin, M.C. Daniel, A. Badano, Y. Qu, J.B. Mangrum, A. Hegmans, S.J. Berners-Price, L. Ronconi, X. Filip, C. Tripon, C. Morari, C. Filip, T. Urathamakul, D.J. Waller, J.L. Beck, S.F. Ralph, X. Fan, J. Wang, X. Zhang, Z. Yang, J.C. Zhang, L. Zhao, H. Peng, J. Lei, H.W. Wang, J.L. Rubinstein, X. Benjin, L. Ling, A. Punjani, D.J. Fleet, M.A. Brubaker, A. Goldstein, Y. Soroka, M. FruĆĄic-Zlotkin, I. Popov, R. Kohen, M. Havrdova, K. Polakova, J. Skopalik, M. Vujtek, A. Mokdad, M. Homolkova, J. Tucek, J. Nebesarova, R. Zboril, M. Malatesta, M.R. RodrĂ­guez, M.J. Lavecchia, B.Z. ParajĂłn-Costa, A.C. GonzĂĄlez-BarĂł, M.R. GonzĂĄlez-BarĂł, E. CattĂĄneo, A.N. Alaghaz, S. Aldulmani, A. Yadav, K. Poonia, R. Ștefan, K.R. Fox, M.V. Villa, R. Lapresa, J. Hernandez-Gil, F. Sanz, J.B. Chaires, M. Mudasir, E.T. Wahyuni, D.H. Tjahjono, N. Yoshioka, H. Inoue, P. Jaividhya, R. Dhivya, M.A. Akbarsha, M. Palaniandavar, N. Raman, R. Jeyamurugan, A. Sakthivel, L. Mitu, A. Prisecaru, R.G. Kipping, E.J. Peterson, J.L. GarcĂ­a-GimĂ©nez, J. HernĂĄndez-Gil, A. MartĂ­nez-RuĂ­z, A. Castiñeiras, M. Liu-GonzĂĄles, F.V. PallardĂł, J. BorrĂĄs, G. Alzuet Piña, M. Swathi, D.S. Shankar, S. Daravath, N. Ganji, P.V.A. Lakshmi, R. Shivaraj, A. PĂ©rez, F.J. Luque, M. Orozco, N.M. Henriksen, D.R. Davis, D.A. Case, T.E.I. Cheatham, T. Darden, H. Gohlke, R. Luo, K.M. Merz, A. Onufriev, C. Simmerling, B. Wang, R.J. Woods, M.B. Peters, Y. Yang, L. FĂŒsti-MolnĂĄr, M.N. Weaver, M. Sahadevan, M. Sundaram, K. Subramanian Show less
DNA structure has many potential places where endogenous compounds and xenobiotics can bind. Therefore, xenobiotics bind along the sites of the nucleic acid with the aim of changing its structure, its Show more
DNA structure has many potential places where endogenous compounds and xenobiotics can bind. Therefore, xenobiotics bind along the sites of the nucleic acid with the aim of changing its structure, its genetic message, and, implicitly, its functions. Currently, there are several mechanisms known to be involved in DNA binding. These mechanisms are covalent and non-covalent interactions. The covalent interaction or metal base coordination is an irreversible binding and it is represented by an intra-/interstrand cross-link. The non-covalent interaction is generally a reversible binding and it is represented by intercalation between DNA base pairs, insertion, major and/or minor groove binding, and electrostatic interactions with the sugar phosphate DNA backbone. In the present review, we focus on the types of DNA–metal complex interactions (including some representative examples) and on presenting the methods currently used to study them. Show less
📄 PDF DOI: 10.3390/molecules29184361
DNA-binding coordination-chemistry review

Oxaliplatin resistance in colorectal cancer cells is mediated via activation of ABCG2 to alleviate ER stress induced apoptosis.

Hsi-Hsien Hsu, Ming-Cheng Chen, Rathinasamy Baskaran +7 more · 2018 · Journal of cellular physiology · Wiley · added 2026-04-20
Oxaliplatin (OXA), is a third generation platinum drug used as first-line chemotherapy in colorectal cancer (CRC). Cancer cells acquires resistance to anti-cancer drug and develops resistance. ATP-bin Show more
Oxaliplatin (OXA), is a third generation platinum drug used as first-line chemotherapy in colorectal cancer (CRC). Cancer cells acquires resistance to anti-cancer drug and develops resistance. ATP-binding cassette (ABC) drug transporter ABCG2, one of multidrug resistance (MDR) protein which can effectively discharge a wide spectrum of chemotherapeutic agents out of cancer cells and subsequently reduce the intracellular concentration of these drugs. Role of ABCG2 and plausible molecular signaling pathways involved in Oxaliplatin-Resistant (OXA-R) colon cancer cells was evaluated in the present study. OXA resistant LoVo cells was developed by exposing the colon cells to OXA in a dose-dependent manner. Development of multi drug resistance in OXA-R cells was confirmed by exposing the resistance cells to oxaliplatin, 5-FU, and doxorubicin. OXA treatment resulted in G2 phase arrest in parental LoVo cells, which was overcome by OXA-R LoVo cells. mRNA and protein expression of ABCG2 and phosphorylation of NF-ÎșB was significantly higher in OXA-R than parental cells. Levels of ER stress markers were downregulated in OXA-R than parental cells. OXA-R LoVo cells exposed to NF-ÎșB inhibitor QNZ effectively reduced the ABCG2 and p-NF-ÎșB expression and increased ER stress marker expression. On other hand, invasion and migratory effect of OXA-R cells were found to be decreased, when compared to parental cells. Metastasis marker proteins also downregulated in OXA-R cells. ABCG2 inhibitor verapamil, downregulate ABCG2, induce ER stress markers and induces apoptosis. In vivo studies in nude mice also confirms the same. Show less
no PDF DOI: 10.1002/jcp.26406
Pt amino-acid