Abstract
The complex [Mn(EMMP)(OAc)2]·3H2O, [EMMP = N,N′-(ethane-1,2-diyl)bis(1-phenyl-1-{pyridin-2-yl}methanimine] has been prepared and has a distorted square-faced bicapped trigonal prismatic geometry. In the crystal network of the complex, the water molecules form stronger hydrogen bonds than the complex molecules and participate in the formation of R44(8) hydrogen bond motifs. The ability of the complex and its ligand to interact with the biomacromolecules (BRAF kinase, CatB, DNA gyrase, HDAC7, rHA, RNR, TrxR, TS and Top II) has been investigated by docking calculations and compared with that of doxorubicin.
References
1.
Susan R.D.
,
Marc L.
,
Simon M.
,
Orian S.S.
, and
Philip T.
, Curr. Inorg. Chem. , 2012 , 2 , 325 .
2.
Vigato P.A.
,
Peruzzo V.
, and
Tamburini S.
, Coord. Chem Rev. , 2012 , 256 , 953 .
3.
Signorella S.
, and
Hureau C.
, Coord. Chem. Rev. , 2012 , 256 , 1229 .
4.
Labuda J.
,
Feníková L.
, and
Ďuračková Z.
, Bioelectrochem. Bioenerg. , 1997 , 44 , 31 .
5.
Zhang W.
,
Loebach J.L.
,
Wilson S.R.
, and
Jacobsen E.N.
, J. Am. Chem. Soc. , 1990 , 112 , 2801 .
6.
Song F.
,
Wang C.
,
Falkowski J.M.
,
Ma L.
, and
Lin W.
, J. Am. Chem. Soc. , 2010 , 132 , 15390 .
7.
Tian D.
,
Liu B.
,
Gan Q.
,
Li H.
, and
Darensbourg D.J.
, ACS Catal. , 2012 , 2 , 2029 .
8.
Khan K.M.
,
Khan M.
,
Ali M.
,
Taha M.
,
Rasheed S.
,
Perveen S.
, and
Choudhary M.I.
, Bioorg. Med. Chem. , 2009 , 17 , 7795 .
9.
Choudhary M.
,
Patel R.N.
, and
Rawat S.P.
, J. Mol. Struct. , 2014 , 1070 , 94 .
10.
Sigel H.
, Metal ions in biological systems. Manganese and its role in biological processes. Taylor and Francis , Oxford, UK , 2000 , Vol. 37 .
11.
McGarrigle E.M.
, and
Gilheany D.G.
, Chem. Rev. , 2005 , 105 , 1563 .
12.
Mandal S.
,
Rout A.K.
,
Fleck M.
,
Pilet G.
,
Ribas J.
, and
Bandyopadhyay D.
, Inorg. Chim. Acta , 2010 , 363 , 2250 .
13.
Weiss H.
, and
Riley D.P.
, Uses of inorganic chemistry in medicine. Royal Society of Chemistry , London, UK , 1999 , p. 77 .
14.
Marandi F.
,
Moeini K.
,
Alizadeh F.
,
Mardani Z.
,
Quah Ching K.
, and
Loh W.-S.
, Z. Naturforsch. , 2018 , 73b , 369 .
15.
Marandi F.
,
Moeini K.
,
Alizadeh F.
,
Mardani Z.
,
Quah C.K.
,
Loh W.-S.
, and
Woollins J.D.
, Inorg. Chim. Acta , 2018 , 482 , 717 .
16.
Adeniyi A.A.
, and
Ajibade P.A.
, Molecules , 2013 , 18 , 3760 .
17.
Hakimi M.
,
Mardani Z.
,
Moeini K.
,
Schuh E.
, and
Mohr F.
, Z. Naturforsch. , 2013 , 68b , 267 .
18.
Marandi F.
,
Moeini K.
, and
Rudbari Hadi A.
, Z. Naturforsch. , 2016 , 71b , 959 .
19.
Nakamoto K.
(ed.), Infrared and raman spectra of inorganic and coordination compounds , edn 6. John Wiley , Hoboken , 2009 , p. 232 .
20.
Hakimi M.
,
Moeini K.
,
Mardani Z.
, and
Khorrami F.
, J. Korean Chem. Soc. , 2013 , 57 , 352 .
21.
Farrugia L.J.
, J. Appl. Crystallogr. , 1997 , 30 , 565 .
22.
Burnett M.N.
, and
Johnson C.K.
, Ortep-III, Report ORNL-6895. Oak Ridge National Laboratory , Oak Ridge, Tennessee, USA , 1996 .
23.
Bergerhof G.
,
Berndt M.
, and
Brandenburg K.
, J. Res. Natl Stand. Technol. , 1996 , 101 , 221 .
24.
Allen F.H.
, Acta Crystallogr. , 2002 , B58 , 380 .
25.
Ratilainen J.
,
Airola K.
,
Fröhlich R.
,
Nieger M.
, and
Rissanen K.
, Polyhedron , 1999 , 18 , 2265 .
26.
Qiang Z.
,
Zhi S.
,
Hao Y.
, and
Hui-Zhen S.
, Chinese J. Struct. Chem. , 2016 , 35 , 69 .
27.
Wang S.
, and
Westmoreland T.D.
, Inorg. Chem. , 2009 , 48 , 719 .
28.
Louloudi M.
,
Nastopoulos V.
,
Gourbatsis S.
,
Perlepes S.P.
, and
Hadjiliadis N.
, Inorg. Chem. Commun. , 1999 , 2 , 479 .
29.
Hwang I.C.
, and
Ha K.
, Acta Crystallogr. , 2008 , E64 , m453 .
30.
Mikuriya M.
,
Hatano Y.
, and
Asato E.
, Chem. Lett. , 1996 , 25 , 849 .
31.
Baldeau S.M.
,
Slinn C.H.
,
Krebs B.
, and
Rompel A.
, Inorg. Chim. Acta , 2004 , 357 , 3295 .
32.
Hakimi M.
,
Mardani Z.
,
Moeini K.
,
Mohr F.
, and
Fernandes M.A.
, Polyhedron , 2014 , 67 , 27 .
33.
Hakimi M.
,
Moeini K.
,
Mardani Z.
, and
Mohr F.
, Polyhedron , 2014 , 70 , 92 .
34.
Bhar K.
,
Chattopadhyay S.
,
Khan S.
,
Kumar R.K.
,
Maji T.K.
,
Ribas J.
, and
Ghosh B.K.
, Inorg. Chim. Acta , 2011 , 370 , 492 .
35.
Karmakar T.K.
,
Chandra S.K.
,
Ribas J.
,
Mostafa G.
,
Lu T.H.
, and
Ghosh B.K.
, Chem. Commun. , 2002 , 2364 .
36.
Khandar A.A.
,
Yilmaz V.T.
,
Costantino F.
,
Gumus S.
,
Hosseini-Yazdi S.A.
, and
Mahmoudi G.
, Inorg. Chim. Acta , 2013 , 394 , 36 .
37.
Jones G.
,
Willett P.
,
Glen R.C.
,
Leach A.R.
, and
Taylor R.
, J. Mol. Biol. , 1997 , 267 , 727 .
38.
Drugs.com
, Doxorubicin , 2018 ; https//www.drugs.com/mtm/doxorubicin.html [accessed 12 November 2018].
39.
Frisch M.J.
,
Trucks G.W.
,
Schlegel H.B.
Gaussian 09. Gaussian Inc. , Wallingford, CT, USA , 2009 .
40.
Perdew J.P.
, Phys. Rev. , 1986 , B33 , 8822 .
41.
Gavezzotti A.
, Acc. Chem. Res. , 1994 , 27 , 309 .
42.Rigaku Oxford Diffraction , CrysAlisPro software system, v.1.171. Rigaku Corporation , Oxford, UK , 2018 .
43.
Palatinus L.
, and
Chapuis G.
, J. Appl. Crystallogr. , 2007 , 40 , 786 .
44.
Petříček V.
,
Dušek M.
, and
Palatinus L.
, Z. Kristallogr.-Cryst. Mater , 2014 , 229 , 345 .