59 Page 10 of 10
J. Chem. Sci. (2018) 130:59
27. Shepard E M and Dooley D M 2015 Inhibition and Oxy-
gen Activation in Copper Amine Oxidases Acc. Chem.
Res. 48 1218
28. Miller S M and Klinman J P 1983 Magnitude of intrin-
sic isotope effects in the dopamine beta-monooxygenase
reaction Biochemistry 22 3091
electrochemistry, X-ray structure and DFT calculation J.
Mol. Struct. 1116 1
39. Elantabli F M, Radebe M P, Motswainyana W M,
Owaga B O, El-Medani S M, Ekengard E, Haukka
M, Nordlander E and Onani M O 2017 Thiophene
based imino-pyridyl palladium(II) complexes: Synthe-
sis, molecular structures and Heck coupling reactions J.
Organomet. Chem. 843 40
29. Miller S M and Klinman J P 1985 Secondary iso-
tope effects and structure-reactivity correlations in the
dopamine beta-monooxygenase reaction: evidence for a 40. Cai
Y P, Su C Y, Xu A W, Kang B S,
chemical mechanism Biochemistry 24 2114
Tong Y X, Liu H Q and Jie S 2001 Synthe-
ses and characterization of copper(II) complexes of
bis(acetylacetone)trimethylenediimine Polyhedron 20
657
30. Tian G, Berry J A and Klinman J P 1994 Oxygen-
18 kinetic isotope effects in the dopamine beta-
monooxygenase reaction: evidence for a new chemical
mechanism in non-heme metallomonooxygenases Bio- 41. Fujii T, Yamaguchi S, Funahashi Y, Ozawa T, Tosha
chemistry 33 226
T, Kitagawa T and Masuda H 2006 Mononuclear
copper(II)–hydroperoxo complex derived from reaction
of copper(I) complex with dioxygen as a model of D β M
and PHM Chem. Commun. 110 4428
31. Francisco W A, Merkler D J, Blackburn N J and Klinman
J P 1998 Kinetic mechanism and intrinsic isotope effects
for the peptidylglycine alpha-amidating enzyme reaction
Biochemistry 37 8244
32. Chen P, Fujisawa K and Solomon E I 2000 Spectroscopic
and Theoretical Studies of Mononuclear Copper(II)
Alkyl- and Hydroperoxo Complexes: Electronic Struc-
ture Contributions to Reactivity J. Am. Chem. Soc. 122
10177
42. Mizuno M, Honda K, Cho J, Furutachi H, Tosha T, Mat-
sumoto T, Fujinami S, Kitagawa T and Suzuki M 2006
A Mononuclear Alkylperoxocopper(II) Complex as a
Reaction Intermediate in the Oxidation of the Methyl
Group of the Supporting Ligand Angew. Chemie Int.
Edit. 45 6911
33. KoderaM, KitaT, MiuraI, NakayamaN, KawataT, Kano 43. Tano T, Ertem M Z, Yamaguchi S, Kunishita A, Sugi-
K and Hirota S 2001 Hydroperoxo–Copper(II) Com-
plex Stabilized by N3S-Type Ligand Having a Phenyl
Thioether J. Am. Chem. Soc. 123 7715
moto H, Fujieda N, Ogura T, Cramer C J and Itoh S 2011
Reactivity of copper(II)-alkylperoxo complexes Dalton
Trans. 40 10326
34. (a) Wada A, Harata M, Hasegawa K, Jitsukawa K, 44. Kirillova M V, Kuznetsov M L, Kozlov Y N, Shul’pina
Masuda H, Mukai M, Kitagawa T and Einaga H
1998 Structure and spectroscopic characterization of
a mononuclear hydroperoxo-copper(II) complex with
tripodal pyridylamine ligands Angew. Chem., Int. Ed.
37 798; (b) Fujii T, Naito A, Yamaguchi S, Wada A,
L S, Kitaygorodskiy A K, Pombeiro A J L and Shul’pin
G B 2011 Participation of Oligovanadates in Alkane
Oxidation with H2O2 Catalyzed by Vanadate Anion in
Acidified Acetonitrile: Kinetic and DFT Studies ACS
Catal. 1 1511
Funahashi Y, Jitsukawa K, Nagatomo S, Kitagawa T 45. (a) Bruker 2006 SAINT Version 7.60a (Madison, Wis-
and Masuda H 2003 Construction of a square-planar
hydroperoxo-copper(II) complex inducing a higher cat-
alytic reactivity Chem. Commun. 42 2700
consin, USA: Bruker AXS Inc.); (b) Sheldrick G M 1997
SHELXS-97, SHELXL-2014 and SADABS version
2.05, University of Göttingen, Germany; (c) Barbour L
J 2001 X-Seed-A software tool for supramolecular crys-
tallography J. Supramol. Chem. 1 189; (d) Atwood J L
and Barbour L J 2003 Molecular graphics: from science
(Accessed on: 2 November 2017)
35. Evans J P, Ahn K and Klinman J P 2003 Evidence That
Dioxygen and Substrate Activation Are Tightly Cou-
pled in Dopamine β-Monooxygenase J. Biol. Chem. 278
49691
36. (a) Motswainyana W M, Ojwach S O, Onani M O,
Iwuoha E I and Darkwa J 2011 Novel hemi-labile 46. (a) Atzori M, Pop F, Cauchy T, Mercuri M L and
pyridyl-imine palladium complexes: Synthesis, molec-
ular structures and reactions with ethylene Polyhedron
30 2574; (b) Motswainyana W M, Onani M O, Ojwach
S O and Omondi B 2012 New imino-pyridyl nickel(II)
complexes: Synthesis, molecular structures and appli-
cation as Heck coupling catalysts Inorganica. Chim.
Acta 391 93; (c) Motswainyana W M, Onani M O and
Madiehe A 2012 Bis(ferrocenylimine)palladium(II) and
platinum(II) complexes: Synthesis, molecular structures
and evaluation as antitumor agents Polyhedron 41 44
37. Kundu S, Biswas S, Mondal AS, Roy P and Mondal T
K 2015 Template synthesis of square-planar Ni(II) com-
plexes with new thiophene appended Schiff base ligands:
Avarvari N 2014 Thiophene- benzoquinone: synthesis,
crystal structure and preliminary coordination of ani-
late ligands Org. Biomol. Chem. 12 8752; (b) Adhikary
J, Chakraborty A, Dasgupta S, Chattopadhyay S K,
Kruszynski R, Trzesowska-Kruszynska A, Stepanovic´ S,
Gruden- Pavlovic´ M, Swart M and Das D 2016 Unique
mononuclear MnII complexes of an end-off compart-
ment Schiff base ligand: experimental and theoretical
studies on their bio-relevant catalytic promiscuity Dalton
Trans. 45 12409; (c) Rani C V, Mitu L, Chakkaravarthi
G and Rajagopal G 2017 Bis3,5-di-tert-butyl-N-[(4–
methylamino)phenyl]salicylaldiminatocobalt(II) IUCr-
Data 2 x170525
Characterization, X-ray structure and DFT calculation J. 47. Samanta S, Ray S, Joardar S and Dutta S 2015 Synthesis
Mol. Struct. 1100 27
and characterization of mononuclear copper (II) com-
plexes of pyridine 2-carboxamide: Their application as
catalyst in peroxidative oxidation agents and antimicro-
bial agents J. Chem. Sci. 127 1451
38. Kundu S, Pramanik A K, Mondal A S and Mondal
T K 2016 Ni(II) and Pd(II) complexes with new N,O
donor thiophene appended Schiff base ligand: Synthesis,