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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2008 Apr 10;64(Pt 5):o810–o811. doi: 10.1107/S1600536808009306

N-(3-Oxo-1-thia-4-aza­spiro­[4.5]dec-4-yl)-6-phenyl­imidazo[2,1-b][1,3]thia­zole-3-acetamide hemihydrate

Mehmet Akkurt a,*, Şerife Pınar Yalçın a, Nuray Ulusoy Güzeldemirci b, Orhan Büyükgüngör c
PMCID: PMC2961240  PMID: 21202301

Abstract

The title compound, C21H22N4O2S2·0.5H2O, crystallizes with two mol­ecules in the asymmetric unit. The dihedral angles between the phenyl and imidazothiazole ring systems are 19.16 (9) and 21.37 (9)°. In the imidazothiazole ring systems, the cyclohexane rings adopt chair conformations, while the thiazole rings have distorted envelope conformations. The two mol­ecules are stabilized by intra­molecular N—H⋯O, O—H⋯O and C—H⋯S inter­actions and the crystal structure is stabilized by inter­molecular N—H⋯O, O—H⋯O, C—H⋯O and C—H⋯N inter­actions.

Related literature

For related literature, see: Akkurt et al. (2005, 2007); Allen et al. (1987); Amarouch et al. (1988); Andreani et al. (1998); Cremer & Pople (1975); Devlin & Hargrave (1989); Gürsoy & Ulusoy Güzeldemirci (2007); Srimanth et al. (2002); Ulusoy (2002); Ur et al. (2004); Öztürk Yıldırım, Akkurt, Ur, Cesur, Cesur & Büyükgüngör (2005); Öztürk Yıldırım, Akkurt, Ur, Cesur, Cesur & Heinemann (2005).graphic file with name e-64-0o810-scheme1.jpg

Experimental

Crystal data

  • C21H22N4O2S2·0.5H2O

  • M r = 435.58

  • Triclinic, Inline graphic

  • a = 11.0175 (3) Å

  • b = 11.8817 (3) Å

  • c = 17.6162 (5) Å

  • α = 75.123 (2)°

  • β = 73.502 (2)°

  • γ = 81.012 (2)°

  • V = 2128.36 (10) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 0.28 mm−1

  • T = 296 K

  • 0.52 × 0.39 × 0.25 mm

Data collection

  • Stoe IPDSII diffractometer

  • Absorption correction: integration (X-RED32; Stoe & Cie, 2002) T min = 0.869, T max = 0.934

  • 38012 measured reflections

  • 8351 independent reflections

  • 6705 reflections with I > 2σ(I)

  • R int = 0.054

Refinement

  • R[F 2 > 2σ(F 2)] = 0.039

  • wR(F 2) = 0.098

  • S = 1.02

  • 8351 reflections

  • 538 parameters

  • 3 restraints

  • H atoms treated by a mixture of independent and constrained refinement

  • Δρmax = 0.29 e Å−3

  • Δρmin = −0.34 e Å−3

Data collection: X-AREA (Stoe & Cie, 2002); cell refinement: X-AREA; data reduction: X-RED32 (Stoe & Cie, 2002); program(s) used to solve structure: SIR97 (Altomare et al., 1999); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: ORTEP-3 for Windows (Farrugia, 1997); software used to prepare material for publication: WinGX (Farrugia, 1999).

Supplementary Material

Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536808009306/hg2390sup1.cif

e-64-0o810-sup1.cif (44.4KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536808009306/hg2390Isup2.hkl

e-64-0o810-Isup2.hkl (400.2KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Table 1. Hydrogen-bond geometry (Å, °).

D—H⋯A D—H H⋯A DA D—H⋯A
N3—H3A⋯O3 0.86 1.98 2.841 (2) 175
O5—H5A⋯O1 0.833 (19) 1.880 (19) 2.7097 (19) 174.4 (18)
O5—H5B⋯O4i 0.848 (18) 1.917 (18) 2.764 (2) 177 (2)
N7—H7⋯O5ii 0.86 1.94 2.7617 (19) 160
C10—H10⋯O4i 0.93 2.41 3.306 (2) 161
C12—H12A⋯O2i 0.97 2.48 3.074 (2) 120
C15—H15B⋯N2iii 0.97 2.57 3.462 (3) 153
C18—H18A⋯S2 0.97 2.87 3.255 (2) 105
C20—H20B⋯S2 0.97 2.84 3.227 (3) 105
C21—H21A⋯S4 0.97 2.83 3.768 (2) 163
C33—H33B⋯O5ii 0.97 2.54 3.376 (2) 144
C36—H36B⋯N6iii 0.97 2.56 3.448 (3) 153
C39—H39A⋯S4 0.97 2.87 3.246 (2) 104
C41—H41B⋯S4 0.97 2.78 3.194 (2) 106
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Symmetry codes: (i) Inline graphic; (ii) Inline graphic; (iii) Inline graphic.

Acknowledgments

The authors acknowledge the Faculty of Arts and Sciences, Ondokuz Mayıs University, Turkey, for the use of the Stoe IPDSII diffractometer (purchased under grant F.279 of the University Research Fund).

supplementary crystallographic information

Comment

Imidazo[2,1-b]thiazolederivatives have demonstrated a broad range of biological activities, including immunoregulatory (Devlin & Hargrave, 1989), anticancer (Srimanth et al., 2002), antihelmintic (Amarouch et al., 1988), cardiotonic (Andreani et al., 1998) and antimycobacterial (Ur et al., 2004). In connection with our previous papers on the synthesis of imidazo[2,1-b]thiazoles (Gürsoy & Ulusoy Güzeldemirci, 2007) and their crystal structures (Akkurt et al., 2007), we report here the crystal structure of the title spiro derivative, 6-phenyl-N-(3-oxo-1-thia-4-azaspiro[4.5]dec-4-yl)-imidazo[2,1-\ b]thiazole-3-acetamide hemihydrate (III) (Scheme 1 and 2).

In the two molecules A (Fig. 1) and B (Fig. 2) of the title compound, the bond lengths in two molecules are normal (Allen et al., 1987). The mean C—S bond length [1.778 (2) Å] in two molecules may be compared with the corresponding values in similar molecules [1.737 (5) Å (Akkurt et al., 2007), 1.7588 (2) Å (Öztürk Yıldırım, Akkurt, Ur, Cesur, Cesur & Büyükgüngör, 2005), 1.783 (2) Å (Öztürk Yıldırım, Akkurt, Ur, Cesur, Cesur & Heinemann, 2005) and 1.729 (2) Å (Akkurt et al., 2005)].

The thiazole and imidazole rings in the two molecules A [with S1] and B [with S3] of the title compound are essentially coplanar, with a dihedral angle of 2.29 (10) and 1.33 (10)°, respectively. The dihedral angles of the benzene rings and the mean plane of the thiazole and imidazole rings systems are19.16 (9) and 21.37 (9)° for molecules A and B, respectively. The other thiazole rings have distorted envelope conformations [puckering parameters (Cremer & Pople, 1975): Q(2) = 0.1773 (2) Å, φ(2) = 342.0 (6) ° for molecule A, and Q(2) = 0.193 (2) Å, φ(2) = 170.2 (5) ° for molecule B], while the cyclohexane rings to connected to them have chair conformation for two molecules in the asymmetric unit [puckering parameters: QT = 0.567 (3) Å, θ =178.1 (3) °, φ = 179 (7) ° for molecule A, and QT = 0.570 (2) Å, θ =179.6 (2) °, φ = 109 (6) ° for molecule B].

The two molecules are stabilized by intramolecular N—H···O, O—H···O and C—H···S interactions and the crystal packing is stabilized by intermolecular N—H···O, O—H···O, C—H···O and C—H..N hydrogen bonding interactions (Table 1, Fig. 3).

Experimental

A mixture of 6-phenyl-N-(cyclohexylidene)imidazo[2,1-b]thiazole-3-\ acetohydrazide (0.005 mol) and HSCH2COOH (0.01 mol) was refluxed in dry benzene (30 ml) using a Dean-Stark trap for 48 h. Excess benzene was evaporated in vacuo.The residue was triturated with saturated NaHCO3 until CO2 evolution ceased and then allowed to stand overnight. The solid thus obtained was filtered, washed with H2O and recrystallized from C2H5OH to yield colourless prisms of (III) (Ulusoy, 2002).

IR [ν, cm-1,KBr]: 3390, 3272 (O—H, N—H), 1718,1670 (C=O). 1H-NMR [δ, p.p.m.,DMSO-d6]: 0.92–1.78 (10H, m, cyclohex.), 3.60 (2H, s, thiazolidinone SCH2),3.93 (2H, s, CH2CO), 7.10(1H, s, imidazothiazole C2—H),7.21–7.43 (3H, m, ph.), 7.81 (2H, d, J= 7.6 Hz, ph.), 8.23 (1H, s, imidazothiazole C5—H),10.45 (1H, s, CONH). 13C-NMR(APT) [δ, p.p.m., DMSO-d6]: 22.64 (cyclohex. C4), 23.70 (cyclohex. C3 and C5),27.62 (thiazolidinone C5), 32.48 (s, CH2CO), 36.69 (cyclohex. C2 and C6),71.91 (thiazolidinone C2), 108.15 (imidazothiazole C5),110.12 (imidazothiazole C2), 124.36 (ph. C4), 126.77 (ph.C3 and C5), 128.40 (ph. C2 and C6),125.68, 134.08, 145.90, 148.42 (imidazothiazole C3, C6, C7aand ph. C1), 166.54 (CONH), 167.64 (thiazolidinone C=O). EI—MS (70 eV), m/z (%): 426 (M+, 70), 353 (72), 257 (9), 241 (69), 214 (100). Analysis calculated for C21H22N4O2S2.0.5H2O: C 57.90, H 5.32, N 12.86%. Found: C 57.87, H 5.77, N 12.94%.

Refinement

The H atoms of the water molecule were found from a difference Fourier map and refined freely. DFIX restraints were applied to the O—H distances [0.83 (2) Å] and H—O—H angles [by restraining the H···H distances to 1.40 (2) Å]. The other H atoms were positioned geometrically, with N—H = 0.86 Å, C—H = 0.93 and 0.97 Å, and refined using a riding model, with Uiso(H) = 1.2Ueq(C,N).

Figures

Fig. 1.

Fig. 1.

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An ORTEP-3 plot of the molecule A in the asymmetric unit, with the atom numbering scheme. Displacement ellipsoids for non-H atoms are drawn at the 30% probability level.

Fig. 2.

Fig. 2.

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An ORTEP-3 plot of the molecule Bs in the asymmetric unit, with the atom numbering scheme. Displacement ellipsoids for non-H atoms are drawn at the 30% probability level.

Fig. 3.

Fig. 3.

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View of the packing and hydrogen bonding interactions for the title compound in the unitcell.

Fig. 4.

Fig. 4.

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The formation of the title compound.

Crystal data

C21H22N4O2S2·0.5H2O Z = 4
Mr = 435.58 F000 = 916
Triclinic, P1 Dx = 1.359 Mg m3
Hall symbol: -P 1 Mo Kα radiation λ = 0.71073 Å
a = 11.0175 (3) Å Cell parameters from 51089 reflections
b = 11.8817 (3) Å θ = 1.8–28.0º
c = 17.6162 (5) Å µ = 0.28 mm1
α = 75.123 (2)º T = 296 K
β = 73.502 (2)º Block, colourless
γ = 81.012 (2)º 0.52 × 0.39 × 0.25 mm
V = 2128.36 (10) Å3
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Data collection

Stoe IPDS2 diffractometer 8351 independent reflections
Monochromator: plane graphite 6705 reflections with I > 2σ(I)
Detector resolution: 6.67 pixels mm-1 Rint = 0.054
T = 296 K θmax = 26.0º
ω scans θmin = 1.8º
Absorption correction: integration(X-RED32; Stoe & Cie, 2002) h = −13→13
Tmin = 0.869, Tmax = 0.934 k = −14→14
38012 measured reflections l = −21→21
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Refinement

Refinement on F2 Secondary atom site location: difference Fourier map
Least-squares matrix: full Hydrogen site location: inferred from neighbouring sites
R[F2 > 2σ(F2)] = 0.039 H atoms treated by a mixture of independent and constrained refinement
wR(F2) = 0.098   w = 1/[σ2(Fo2) + (0.0455P)2 + 0.3604P] where P = (Fo2 + 2Fc2)/3
S = 1.02 (Δ/σ)max = 0.001
8351 reflections Δρmax = 0.29 e Å3
538 parameters Δρmin = −0.34 e Å3
3 restraints Extinction correction: none
Primary atom site location: structure-invariant direct methods
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Special details

Geometry. Bond distances, angles etc. have been calculated using the rounded fractional coordinates. All su's are estimated from the variances of the (full) variance-covariance matrix. The cell e.s.d.'s are taken into account in the estimation of distances, angles and torsion angles
Refinement. Refinement on F2 for ALL reflections except those flagged by the user for potential systematic errors. Weighted R-factors wR and all goodnesses of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The observed criterion of F2 > σ(F2) is used only for calculating -R-factor-obs etc. and is not relevant to the choice of reflections for refinement. R-factors based on F2 are statistically about twice as large as those based on F, and R-factors based on ALL data will be even larger.
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Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2)

x y z Uiso*/Ueq
S1 0.05906 (5) −0.07649 (4) 0.91226 (4) 0.0650 (2)
S2 0.82255 (5) 0.06276 (5) 0.64335 (3) 0.0633 (2)
O1 0.51521 (13) −0.09814 (10) 0.86877 (9) 0.0613 (4)
O2 0.77147 (14) −0.03089 (17) 0.87525 (9) 0.0824 (6)
N1 0.21182 (12) 0.08291 (11) 0.86246 (8) 0.0406 (4)
N2 0.07989 (15) 0.12137 (13) 0.78125 (9) 0.0525 (5)
N3 0.55426 (12) 0.08920 (12) 0.84165 (8) 0.0423 (4)
N4 0.66458 (12) 0.07339 (12) 0.78224 (8) 0.0438 (4)
C1 0.16656 (17) 0.29982 (16) 0.68388 (11) 0.0506 (5)
C2 0.1063 (2) 0.2917 (2) 0.62638 (12) 0.0639 (7)
C3 0.1088 (2) 0.3821 (3) 0.55737 (14) 0.0811 (9)
C4 0.1708 (3) 0.4788 (2) 0.54542 (14) 0.0822 (9)
C5 0.2302 (2) 0.4874 (2) 0.60160 (15) 0.0767 (8)
C6 0.2283 (2) 0.39910 (17) 0.67062 (13) 0.0632 (7)
C7 0.16624 (16) 0.20488 (15) 0.75640 (10) 0.0457 (5)
C8 0.24710 (16) 0.18353 (14) 0.80548 (10) 0.0437 (5)
C9 0.25238 (15) 0.00677 (14) 0.92704 (10) 0.0418 (5)
C10 0.17980 (17) −0.08177 (16) 0.95955 (12) 0.0526 (6)
C11 0.11095 (17) 0.05086 (15) 0.84477 (11) 0.0476 (5)
C12 0.36795 (15) 0.02720 (16) 0.94737 (10) 0.0443 (5)
C13 0.48551 (15) −0.00160 (14) 0.88323 (10) 0.0410 (5)
C14 0.76563 (16) 0.00525 (18) 0.80555 (11) 0.0526 (6)
C15 0.86737 (18) −0.0181 (2) 0.73343 (12) 0.0615 (7)
C16 0.65776 (15) 0.10149 (14) 0.69704 (10) 0.0415 (5)
C17 0.56447 (17) 0.03156 (16) 0.68369 (11) 0.0494 (6)
C18 0.5583 (2) 0.0620 (2) 0.59546 (13) 0.0697 (8)
C19 0.5257 (3) 0.1911 (3) 0.56671 (16) 0.0926 (10)
C20 0.6163 (3) 0.2626 (2) 0.58065 (15) 0.0890 (9)
C21 0.6218 (2) 0.23148 (16) 0.66925 (13) 0.0635 (7)
S3 0.00085 (5) 0.34118 (5) 0.95204 (3) 0.0644 (2)
S4 0.80682 (4) 0.45925 (4) 0.68876 (3) 0.0499 (1)
O3 0.45903 (13) 0.30931 (11) 0.88067 (9) 0.0627 (5)
O4 0.72609 (13) 0.31913 (13) 0.91780 (8) 0.0676 (5)
N5 0.16872 (13) 0.48752 (12) 0.89897 (9) 0.0461 (5)
N6 0.02651 (14) 0.54441 (14) 0.82469 (10) 0.0563 (5)
N7 0.52947 (12) 0.47506 (11) 0.88527 (8) 0.0395 (4)
N8 0.64254 (12) 0.45960 (11) 0.82786 (8) 0.0415 (4)
C22 0.12270 (18) 0.72081 (17) 0.72858 (12) 0.0572 (6)
C23 0.0572 (2) 0.7221 (2) 0.67113 (13) 0.0662 (7)
C24 0.0637 (2) 0.8126 (2) 0.60334 (15) 0.0811 (9)
C25 0.1349 (3) 0.9027 (3) 0.59114 (15) 0.0872 (9)
C26 0.2000 (2) 0.9046 (2) 0.64714 (17) 0.0863 (9)
C27 0.1938 (2) 0.81328 (19) 0.71592 (15) 0.0714 (8)
C28 0.11981 (17) 0.62186 (16) 0.79871 (12) 0.0518 (6)
C29 0.20755 (16) 0.58894 (15) 0.84390 (11) 0.0494 (6)
C30 0.20970 (16) 0.40507 (15) 0.96034 (11) 0.0459 (5)
C31 0.12971 (18) 0.32183 (17) 0.99445 (12) 0.0559 (6)
C32 0.05979 (16) 0.46679 (16) 0.88438 (12) 0.0508 (6)
C33 0.33060 (15) 0.41641 (16) 0.97807 (11) 0.0464 (5)
C34 0.44507 (15) 0.39476 (14) 0.90929 (10) 0.0416 (5)
C35 0.73393 (15) 0.37844 (15) 0.84930 (11) 0.0456 (5)
C36 0.84643 (17) 0.37065 (17) 0.77895 (11) 0.0537 (6)
C37 0.66435 (15) 0.53459 (13) 0.74539 (10) 0.0400 (5)
C38 0.55215 (17) 0.54151 (16) 0.70950 (11) 0.0498 (6)
C39 0.5738 (2) 0.6200 (2) 0.62431 (13) 0.0687 (8)
C40 0.6054 (2) 0.74073 (19) 0.62337 (15) 0.0780 (9)
C41 0.7171 (2) 0.73238 (17) 0.65896 (13) 0.0642 (7)
C42 0.69282 (18) 0.65648 (15) 0.74490 (11) 0.0500 (6)
O5 0.43460 (15) −0.31518 (11) 0.92938 (9) 0.0647 (5)
H2 0.06420 0.22620 0.63380 0.0770*
H3 0.06790 0.37640 0.51920 0.0970*
H3A 0.52960 0.15720 0.85200 0.0510*
H4 0.17250 0.53850 0.49920 0.0990*
H5 0.27230 0.55310 0.59350 0.0920*
H6 0.26880 0.40640 0.70860 0.0760*
H8 0.31230 0.22760 0.80130 0.0520*
H10 0.19230 −0.14110 1.00350 0.0630*
H12A 0.37230 −0.02150 1.00010 0.0530*
H12B 0.36380 0.10830 0.95000 0.0530*
H15A 0.87850 −0.10100 0.73440 0.0740*
H15B 0.94720 0.00540 0.73440 0.0740*
H17A 0.48060 0.04730 0.71810 0.0590*
H17B 0.59000 −0.05120 0.69930 0.0590*
H18A 0.63970 0.03850 0.56170 0.0840*
H18B 0.49470 0.01890 0.58990 0.0840*
H19A 0.43950 0.21250 0.59560 0.1110*
H19B 0.52940 0.20850 0.50920 0.1110*
H20A 0.58890 0.34510 0.56550 0.1070*
H20B 0.70060 0.24870 0.54630 0.1070*
H21A 0.68380 0.27570 0.67560 0.0760*
H21B 0.53950 0.25290 0.70310 0.0760*
H7 0.51340 0.53600 0.90550 0.0470*
H23 0.00840 0.66110 0.67870 0.0790*
H24 0.01920 0.81210 0.56580 0.0970*
H25 0.13970 0.96300 0.54500 0.1050*
H26 0.24780 0.96650 0.63910 0.1040*
H27 0.23780 0.81470 0.75350 0.0860*
H29 0.27820 0.62690 0.83850 0.0590*
H31 0.14160 0.25940 1.03680 0.0670*
H33A 0.33810 0.36070 1.02790 0.0560*
H33B 0.32930 0.49430 0.98620 0.0560*
H36A 0.86810 0.29010 0.77390 0.0640*
H36B 0.91910 0.39830 0.78710 0.0640*
H38A 0.47580 0.57180 0.74450 0.0600*
H38B 0.53930 0.46360 0.70730 0.0600*
H39A 0.64310 0.58420 0.58760 0.0830*
H39B 0.49800 0.62780 0.60520 0.0830*
H40A 0.62520 0.78650 0.56790 0.0940*
H40B 0.53200 0.78060 0.65450 0.0940*
H41A 0.73250 0.81020 0.65990 0.0770*
H41B 0.79260 0.69940 0.62480 0.0770*
H42A 0.62140 0.69240 0.78020 0.0600*
H42B 0.76690 0.65050 0.76550 0.0600*
H5A 0.459 (2) −0.2488 (15) 0.9077 (12) 0.0750*
H5B 0.384 (2) −0.3144 (19) 0.9756 (10) 0.0750*
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
S1 0.0629 (3) 0.0560 (3) 0.0770 (4) −0.0232 (2) −0.0327 (3) 0.0105 (2)
S2 0.0430 (2) 0.0949 (4) 0.0429 (3) −0.0046 (2) 0.0006 (2) −0.0132 (2)
O1 0.0593 (8) 0.0384 (6) 0.0690 (9) −0.0023 (6) 0.0044 (7) −0.0063 (6)
O2 0.0527 (8) 0.1431 (15) 0.0474 (8) 0.0145 (9) −0.0170 (7) −0.0237 (9)
N1 0.0368 (7) 0.0405 (7) 0.0420 (7) −0.0023 (5) −0.0119 (6) −0.0036 (6)
N2 0.0518 (9) 0.0530 (8) 0.0545 (9) −0.0033 (7) −0.0239 (7) −0.0044 (7)
N3 0.0376 (7) 0.0424 (7) 0.0424 (7) −0.0032 (6) −0.0002 (6) −0.0128 (6)
N4 0.0356 (7) 0.0531 (8) 0.0401 (7) −0.0056 (6) −0.0024 (6) −0.0130 (6)
C1 0.0442 (9) 0.0545 (10) 0.0407 (9) 0.0109 (8) −0.0059 (7) −0.0035 (8)
C2 0.0599 (12) 0.0743 (13) 0.0494 (11) 0.0076 (10) −0.0155 (9) −0.0060 (10)
C3 0.0772 (15) 0.1069 (19) 0.0469 (12) 0.0196 (14) −0.0211 (11) −0.0067 (12)
C4 0.0858 (17) 0.0768 (15) 0.0532 (13) 0.0167 (13) −0.0061 (12) 0.0121 (11)
C5 0.0836 (16) 0.0564 (12) 0.0642 (14) 0.0056 (11) −0.0017 (12) 0.0056 (10)
C6 0.0681 (13) 0.0525 (11) 0.0566 (12) 0.0034 (9) −0.0112 (10) −0.0011 (9)
C7 0.0420 (9) 0.0455 (9) 0.0447 (9) 0.0026 (7) −0.0103 (7) −0.0063 (7)
C8 0.0401 (8) 0.0418 (8) 0.0443 (9) −0.0037 (7) −0.0098 (7) −0.0023 (7)
C9 0.0362 (8) 0.0467 (9) 0.0363 (8) 0.0013 (7) −0.0081 (6) −0.0030 (7)
C10 0.0452 (9) 0.0513 (10) 0.0549 (11) −0.0054 (8) −0.0166 (8) 0.0043 (8)
C11 0.0452 (9) 0.0448 (9) 0.0539 (10) −0.0060 (7) −0.0192 (8) −0.0048 (8)
C12 0.0349 (8) 0.0588 (10) 0.0346 (8) −0.0031 (7) −0.0070 (6) −0.0053 (7)
C13 0.0359 (8) 0.0446 (9) 0.0378 (8) −0.0011 (7) −0.0094 (6) −0.0028 (7)
C14 0.0363 (9) 0.0787 (12) 0.0448 (10) −0.0029 (8) −0.0096 (7) −0.0198 (9)
C15 0.0402 (9) 0.0950 (15) 0.0507 (11) 0.0047 (9) −0.0099 (8) −0.0272 (10)
C16 0.0402 (8) 0.0405 (8) 0.0401 (9) −0.0058 (7) −0.0038 (7) −0.0087 (7)
C17 0.0485 (10) 0.0514 (10) 0.0506 (10) −0.0054 (8) −0.0127 (8) −0.0148 (8)
C18 0.0665 (13) 0.0924 (16) 0.0579 (13) −0.0055 (12) −0.0232 (10) −0.0230 (11)
C19 0.0980 (19) 0.112 (2) 0.0586 (14) 0.0179 (17) −0.0357 (14) −0.0017 (14)
C20 0.113 (2) 0.0595 (13) 0.0659 (15) 0.0046 (13) −0.0101 (14) 0.0143 (11)
C21 0.0802 (14) 0.0389 (9) 0.0608 (12) −0.0082 (9) −0.0071 (10) −0.0029 (8)
S3 0.0473 (3) 0.0729 (3) 0.0725 (3) −0.0255 (2) −0.0150 (2) −0.0040 (3)
S4 0.0475 (2) 0.0523 (2) 0.0451 (2) 0.0038 (2) −0.0066 (2) −0.0133 (2)
O3 0.0584 (8) 0.0493 (7) 0.0831 (10) −0.0109 (6) −0.0039 (7) −0.0319 (7)
O4 0.0530 (8) 0.0756 (9) 0.0524 (8) 0.0118 (7) −0.0103 (6) 0.0098 (7)
N5 0.0353 (7) 0.0495 (8) 0.0531 (9) −0.0066 (6) −0.0074 (6) −0.0136 (7)
N6 0.0440 (8) 0.0646 (10) 0.0600 (10) −0.0044 (7) −0.0123 (7) −0.0148 (8)
N7 0.0353 (7) 0.0365 (7) 0.0453 (8) −0.0025 (5) −0.0061 (6) −0.0120 (6)
N8 0.0345 (7) 0.0412 (7) 0.0433 (7) 0.0005 (5) −0.0063 (6) −0.0060 (6)
C22 0.0445 (10) 0.0602 (11) 0.0560 (11) 0.0065 (8) −0.0009 (8) −0.0137 (9)
C23 0.0595 (12) 0.0724 (13) 0.0585 (13) 0.0107 (10) −0.0097 (10) −0.0160 (10)
C24 0.0741 (15) 0.0959 (18) 0.0574 (14) 0.0163 (14) −0.0077 (11) −0.0139 (13)
C25 0.0711 (15) 0.0965 (19) 0.0581 (14) 0.0143 (14) 0.0064 (12) 0.0069 (13)
C26 0.0650 (14) 0.0745 (15) 0.0913 (19) −0.0087 (12) 0.0080 (14) 0.0007 (13)
C27 0.0578 (12) 0.0701 (13) 0.0724 (14) −0.0005 (10) −0.0078 (10) −0.0044 (11)
C28 0.0431 (9) 0.0535 (10) 0.0553 (11) 0.0015 (8) −0.0060 (8) −0.0168 (8)
C29 0.0397 (9) 0.0477 (9) 0.0575 (11) −0.0054 (7) −0.0065 (8) −0.0116 (8)
C30 0.0387 (8) 0.0503 (9) 0.0476 (10) −0.0081 (7) −0.0056 (7) −0.0128 (8)
C31 0.0472 (10) 0.0613 (11) 0.0568 (11) −0.0165 (8) −0.0096 (8) −0.0063 (9)
C32 0.0371 (8) 0.0595 (10) 0.0560 (11) −0.0091 (8) −0.0080 (8) −0.0148 (9)
C33 0.0414 (9) 0.0513 (9) 0.0466 (9) −0.0100 (7) −0.0075 (7) −0.0121 (8)
C34 0.0374 (8) 0.0401 (8) 0.0484 (9) −0.0041 (6) −0.0123 (7) −0.0102 (7)
C35 0.0385 (8) 0.0449 (9) 0.0500 (10) −0.0003 (7) −0.0125 (7) −0.0053 (8)
C36 0.0400 (9) 0.0583 (11) 0.0553 (11) 0.0053 (8) −0.0097 (8) −0.0084 (9)
C37 0.0388 (8) 0.0373 (8) 0.0414 (9) −0.0016 (6) −0.0085 (7) −0.0076 (7)
C38 0.0456 (9) 0.0488 (9) 0.0565 (11) −0.0025 (7) −0.0192 (8) −0.0088 (8)
C39 0.0721 (14) 0.0776 (14) 0.0593 (13) −0.0055 (11) −0.0335 (11) −0.0023 (10)
C40 0.0891 (17) 0.0597 (12) 0.0755 (15) −0.0061 (12) −0.0310 (13) 0.0124 (11)
C41 0.0710 (13) 0.0423 (10) 0.0718 (14) −0.0097 (9) −0.0142 (11) −0.0013 (9)
C42 0.0513 (10) 0.0418 (9) 0.0566 (11) −0.0050 (7) −0.0109 (8) −0.0133 (8)
O5 0.0816 (10) 0.0369 (6) 0.0617 (9) −0.0066 (6) 0.0052 (7) −0.0120 (6)
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Geometric parameters (Å, °)

S1—C10 1.745 (2) C6—H6 0.9300
S1—C11 1.7293 (19) C8—H8 0.9300
S2—C15 1.789 (2) C10—H10 0.9300
S2—C16 1.8411 (18) C12—H12B 0.9700
S3—C32 1.738 (2) C12—H12A 0.9700
S3—C31 1.743 (2) C15—H15B 0.9700
S4—C37 1.8413 (17) C15—H15A 0.9700
S4—C36 1.7929 (19) C17—H17B 0.9700
O1—C13 1.214 (2) C17—H17A 0.9700
O2—C14 1.209 (2) C18—H18B 0.9700
O3—C34 1.216 (2) C18—H18A 0.9700
O4—C35 1.218 (2) C19—H19A 0.9700
O5—H5B 0.848 (18) C19—H19B 0.9700
O5—H5A 0.833 (19) C20—H20A 0.9700
N1—C11 1.366 (2) C20—H20B 0.9700
N1—C8 1.377 (2) C21—H21A 0.9700
N1—C9 1.395 (2) C21—H21B 0.9700
N2—C11 1.311 (2) C22—C23 1.396 (3)
N2—C7 1.384 (2) C22—C27 1.384 (3)
N3—N4 1.3839 (19) C22—C28 1.467 (3)
N3—C13 1.345 (2) C23—C24 1.380 (3)
N4—C16 1.473 (2) C24—C25 1.362 (4)
N4—C14 1.368 (2) C25—C26 1.381 (4)
N3—H3A 0.8600 C26—C27 1.397 (4)
N5—C32 1.366 (2) C28—C29 1.371 (3)
N5—C29 1.379 (2) C30—C31 1.335 (3)
N5—C30 1.388 (2) C30—C33 1.485 (3)
N6—C32 1.306 (3) C33—C34 1.522 (2)
N6—C28 1.388 (3) C35—C36 1.494 (3)
N7—C34 1.342 (2) C37—C42 1.526 (2)
N7—N8 1.3845 (19) C37—C38 1.523 (3)
N8—C37 1.472 (2) C38—C39 1.525 (3)
N8—C35 1.346 (2) C39—C40 1.523 (3)
N7—H7 0.8600 C40—C41 1.512 (3)
C1—C2 1.389 (3) C41—C42 1.524 (3)
C1—C7 1.471 (3) C23—H23 0.9300
C1—C6 1.388 (3) C24—H24 0.9300
C2—C3 1.397 (3) C25—H25 0.9300
C3—C4 1.368 (4) C26—H26 0.9300
C4—C5 1.363 (4) C27—H27 0.9300
C5—C6 1.385 (3) C29—H29 0.9300
C7—C8 1.364 (3) C31—H31 0.9300
C9—C10 1.330 (3) C33—H33A 0.9700
C9—C12 1.486 (2) C33—H33B 0.9700
C12—C13 1.517 (2) C36—H36B 0.9700
C14—C15 1.491 (3) C36—H36A 0.9700
C16—C17 1.519 (3) C38—H38A 0.9700
C16—C21 1.521 (3) C38—H38B 0.9700
C17—C18 1.522 (3) C39—H39A 0.9700
C18—C19 1.507 (4) C39—H39B 0.9700
C19—C20 1.513 (5) C40—H40B 0.9700
C20—C21 1.525 (3) C40—H40A 0.9700
C2—H2 0.9300 C41—H41A 0.9700
C3—H3 0.9300 C41—H41B 0.9700
C4—H4 0.9300 C42—H42B 0.9700
C5—H5 0.9300 C42—H42A 0.9700
S1···O2i 3.3487 (17) C6···H8 2.9200
S1···N1 2.5482 (15) C8···H12B 3.0400
S1···S1ii 3.7967 (8) C8···H17A 3.0600
S1···S3ii 3.4544 (8) C8···H6 2.7600
S1···C10ii 3.581 (2) C13···H12Av 3.0000
S1···C31ii 3.608 (2) C13···H5A 2.906 (19)
S2···N4 2.5890 (14) C13···H17A 2.8300
S2···C25iii 3.655 (3) C17···H41Avi 3.0200
S3···C10ii 3.685 (2) C21···H3A 3.0200
S3···O4i 3.3109 (16) C21···H38B 2.9500
S3···N5 2.5507 (16) C23···H15Aviii 2.8600
S3···S1ii 3.4544 (8) C23···H5 3.1000
S4···C3iv 3.610 (3) C24···H15Aviii 2.9000
S4···N8 2.6008 (14) C26···H15Bviii 3.0000
S4···C2iv 3.615 (2) C27···H29 2.9100
S1···H31ii 3.1300 C29···H27 2.7600
S2···H18A 2.8700 C29···H38A 2.9800
S2···H20B 2.8400 C29···H33B 3.0600
S3···H36Bi 3.1600 C32···H36Bi 2.9400
S4···H41B 2.7800 C34···H38A 3.0800
S4···H39A 2.8700 C34···H5Bv 3.03 (2)
S4···H21A 2.8300 C35···H5Bv 2.934 (17)
O1···N4 2.686 (2) C39···H19Bix 3.0500
O1···O2 3.092 (2) C40···H19Bix 3.0000
O1···C14 2.996 (2) C40···H17Bvii 3.0600
O1···C17 3.159 (2) C41···H17Bvii 2.8900
O1···O5 2.7097 (19) C42···H7 3.1000
O2···N3 2.724 (2) H2···N2 2.6200
O2···S1iv 3.3487 (17) H3A···C21 3.0200
O2···O1 3.092 (2) H3A···O3 1.9800
O2···C13 3.082 (2) H3A···H12B 2.1600
O2···C12v 3.074 (2) H3A···H21B 2.5600
O3···C35 3.122 (2) H5···C23 3.1000
O3···N3 2.841 (2) H5A···O1 1.880 (19)
O3···N8 2.711 (2) H5A···C13 2.906 (19)
O3···O4 3.215 (2) H5A···H7vi 2.5400
O4···C10v 3.306 (2) H5B···C34v 3.03 (2)
O4···O5v 2.764 (2) H5B···C35v 2.934 (17)
O4···N7 2.713 (2) H5B···H7vi 2.4600
O4···C34 3.121 (2) H5B···H33Bvi 2.3900
O4···S3iv 3.3109 (16) H5B···O4v 1.917 (18)
O4···O3 3.215 (2) H6···C8 2.7600
O5···C34v 3.331 (2) H6···H8 2.4000
O5···C33vi 3.376 (2) H7···H5Bvii 2.4600
O5···N7vi 2.7617 (19) H7···H5Avii 2.5400
O5···C33v 3.349 (2) H7···C42 3.1000
O5···O1 2.7097 (19) H7···O5vii 1.9400
O5···O4v 2.764 (2) H7···H33B 2.1700
O1···H17A 2.8600 H8···H6 2.4000
O1···H5A 1.880 (19) H8···O3 2.8300
O1···H17B 2.7900 H8···C6 2.9200
O2···H12Av 2.4800 H10···O4v 2.4100
O3···H8 2.8300 H10···H12A 2.5900
O3···H3A 1.9800 H12A···H10 2.5900
O3···H12B 2.6200 H12A···C13v 3.0000
O4···H10v 2.4100 H12A···O2v 2.4800
O4···H5Bv 1.917 (18) H12B···O3 2.6200
O5···H33Bvi 2.5400 H12B···C8 3.0400
O5···H42Avi 2.8300 H12B···H3A 2.1600
O5···H29vi 2.9200 H15A···C24iii 2.9000
O5···H33Av 2.7500 H15A···C23iii 2.8600
O5···H7vi 1.9400 H15B···C26iii 3.0000
N1···S1 2.5482 (15) H15B···N2iv 2.5700
N1···N2 2.237 (2) H17A···H21B 2.5500
N2···N1 2.237 (2) H17A···C13 2.8300
N3···O2 2.724 (2) H17A···O1 2.8600
N3···O3 2.841 (2) H17A···N3 2.7100
N4···S2 2.5890 (14) H17A···C8 3.0600
N4···O1 2.686 (2) H17B···C40vi 3.0600
N5···N6 2.237 (2) H17B···C41vi 2.8900
N5···S3 2.5507 (16) H17B···H40Bvi 2.5500
N6···C36i 3.448 (3) H17B···O1 2.7900
N6···N5 2.237 (2) H17B···H41Avi 2.2000
N7···O4 2.713 (2) H18A···S2 2.8700
N7···O5vii 2.7617 (19) H19B···C39ix 3.0500
N8···S4 2.6008 (14) H19B···H39Bix 2.4700
N8···O3 2.711 (2) H19B···H40Aix 2.4500
N2···H36Ai 2.8400 H19B···C40ix 3.0000
N2···H15Bi 2.5700 H20B···S2 2.8400
N2···H2 2.6200 H21A···S4 2.8300
N3···H17A 2.7100 H21B···N3 2.7300
N3···H21B 2.7300 H21B···H17A 2.5500
N6···H36Bi 2.5600 H21B···H38B 2.5200
N6···H23 2.6400 H21B···H3A 2.5600
N7···H42A 2.9000 H23···N6 2.6400
N7···H38A 2.6400 H27···C29 2.7600
C1···C36i 3.521 (3) H27···H29 2.4000
C2···S4i 3.615 (2) H29···C27 2.9100
C2···C36i 3.519 (3) H29···H27 2.4000
C3···S4i 3.610 (3) H29···H38A 2.4400
C5···C23 3.417 (3) H29···O5vii 2.9200
C8···C13 3.508 (2) H31···S1ii 3.1300
C10···S1ii 3.581 (2) H31···H33A 2.5900
C10···O4v 3.306 (2) H33A···H31 2.5900
C10···S3ii 3.685 (2) H33A···O5v 2.7500
C12···O2v 3.074 (2) H33B···O5vii 2.5400
C13···C8 3.508 (2) H33B···C29 3.0600
C13···C17 3.306 (2) H33B···H5Bvii 2.3900
C13···O2 3.082 (2) H33B···H7 2.1700
C14···O1 2.996 (2) H36A···N2iv 2.8400
C15···C24iii 3.488 (3) H36B···C1iv 3.0600
C15···C25iii 3.465 (4) H36B···S3iv 3.1600
C17···C13 3.306 (2) H36B···N6iv 2.5600
C17···O1 3.159 (2) H36B···C32iv 2.9400
C23···C5 3.417 (3) H38A···N7 2.6400
C24···C15viii 3.488 (3) H38A···C29 2.9800
C25···C15viii 3.465 (4) H38A···H29 2.4400
C25···S2viii 3.655 (3) H38A···C34 3.0800
C29···C34 3.458 (3) H38B···C21 2.9500
C31···S1ii 3.608 (2) H38B···H21B 2.5200
C33···O5vii 3.376 (2) H39A···C4ix 2.8200
C33···O5v 3.349 (2) H39A···S4 2.8700
C34···C38 3.457 (2) H39B···H19Bix 2.4700
C34···O5v 3.331 (2) H40A···H19Bix 2.4500
C34···O4 3.121 (2) H40B···H17Bvii 2.5500
C34···C29 3.458 (3) H40B···H42A 2.5900
C35···O3 3.122 (2) H41A···C17vii 3.0200
C36···C1iv 3.521 (3) H41A···H17Bvii 2.2000
C36···C2iv 3.519 (3) H41B···S4 2.7800
C36···N6iv 3.448 (3) H42A···N7 2.9000
C38···C34 3.457 (2) H42A···H40B 2.5900
C1···H36Bi 3.0600 H42A···O5vii 2.8300
C4···H39Aix 2.8200
C10—S1—C11 89.76 (9) C18—C19—H19B 109.00
C15—S2—C16 94.55 (9) C18—C19—H19A 109.00
C31—S3—C32 89.81 (10) H20A—C20—H20B 108.00
C36—S4—C37 93.69 (8) C19—C20—H20A 109.00
H5A—O5—H5B 110 (2) C21—C20—H20B 109.00
C9—N1—C11 115.26 (14) C21—C20—H20A 109.00
C8—N1—C11 106.06 (14) C19—C20—H20B 109.00
C8—N1—C9 138.60 (15) H21A—C21—H21B 108.00
C7—N2—C11 103.65 (16) C16—C21—H21A 109.00
N4—N3—C13 120.15 (14) C16—C21—H21B 109.00
C14—N4—C16 121.05 (14) C20—C21—H21B 109.00
N3—N4—C16 118.40 (13) C20—C21—H21A 109.00
N3—N4—C14 118.31 (13) C27—C22—C28 121.11 (19)
C13—N3—H3A 120.00 C23—C22—C28 120.73 (19)
N4—N3—H3A 120.00 C23—C22—C27 118.1 (2)
C29—N5—C30 138.38 (16) C22—C23—C24 121.0 (2)
C30—N5—C32 115.52 (15) C23—C24—C25 120.4 (2)
C29—N5—C32 106.09 (15) C24—C25—C26 120.1 (3)
C28—N6—C32 103.80 (16) C25—C26—C27 119.9 (2)
N8—N7—C34 119.88 (13) C22—C27—C26 120.6 (2)
N7—N8—C37 120.22 (13) C22—C28—C29 126.78 (18)
N7—N8—C35 119.23 (13) N6—C28—C29 111.15 (17)
C35—N8—C37 120.50 (14) N6—C28—C22 121.99 (18)
N8—N7—H7 120.00 N5—C29—C28 105.34 (16)
C34—N7—H7 120.00 N5—C30—C33 119.68 (16)
C2—C1—C7 120.74 (18) C31—C30—C33 129.22 (18)
C6—C1—C7 120.96 (18) N5—C30—C31 111.08 (17)
C2—C1—C6 118.30 (18) S3—C31—C30 113.62 (15)
C1—C2—C3 120.0 (2) N5—C32—N6 113.62 (17)
C2—C3—C4 120.7 (2) S3—C32—N5 109.94 (14)
C3—C4—C5 119.7 (2) S3—C32—N6 136.44 (15)
C4—C5—C6 120.6 (2) C30—C33—C34 111.58 (15)
C1—C6—C5 120.8 (2) N7—C34—C33 114.61 (15)
N2—C7—C1 121.12 (16) O3—C34—C33 121.81 (16)
C1—C7—C8 127.44 (17) O3—C34—N7 123.55 (16)
N2—C7—C8 111.42 (15) N8—C35—C36 111.73 (15)
N1—C8—C7 105.50 (15) O4—C35—N8 124.10 (17)
C10—C9—C12 129.00 (17) O4—C35—C36 124.17 (17)
N1—C9—C12 120.05 (15) S4—C36—C35 108.23 (13)
N1—C9—C10 110.83 (16) N8—C37—C38 111.38 (14)
S1—C10—C9 113.87 (15) S4—C37—C38 110.84 (12)
S1—C11—N2 136.35 (16) S4—C37—C42 109.67 (12)
S1—C11—N1 110.25 (13) S4—C37—N8 102.87 (11)
N1—C11—N2 113.38 (16) N8—C37—C42 110.98 (13)
C9—C12—C13 109.81 (14) C38—C37—C42 110.85 (14)
O1—C13—N3 121.85 (16) C37—C38—C39 111.58 (16)
N3—C13—C12 114.82 (15) C38—C39—C40 111.30 (18)
O1—C13—C12 123.31 (16) C39—C40—C41 111.23 (19)
O2—C14—N4 124.47 (18) C40—C41—C42 111.33 (18)
N4—C14—C15 110.82 (16) C37—C42—C41 110.31 (15)
O2—C14—C15 124.72 (19) C24—C23—H23 120.00
S2—C15—C14 108.78 (15) C22—C23—H23 119.00
C17—C16—C21 109.66 (15) C23—C24—H24 120.00
N4—C16—C17 112.39 (14) C25—C24—H24 120.00
N4—C16—C21 110.48 (14) C26—C25—H25 120.00
S2—C16—C17 111.81 (12) C24—C25—H25 120.00
S2—C16—N4 102.18 (11) C25—C26—H26 120.00
S2—C16—C21 110.13 (13) C27—C26—H26 120.00
C16—C17—C18 111.68 (16) C26—C27—H27 120.00
C17—C18—C19 111.47 (19) C22—C27—H27 120.00
C18—C19—C20 111.3 (2) N5—C29—H29 127.00
C19—C20—C21 111.4 (2) C28—C29—H29 127.00
C16—C21—C20 111.24 (17) C30—C31—H31 123.00
C1—C2—H2 120.00 S3—C31—H31 123.00
C3—C2—H2 120.00 C30—C33—H33A 109.00
C4—C3—H3 120.00 C34—C33—H33A 109.00
C2—C3—H3 120.00 C34—C33—H33B 109.00
C3—C4—H4 120.00 C30—C33—H33B 109.00
C5—C4—H4 120.00 H33A—C33—H33B 108.00
C6—C5—H5 120.00 S4—C36—H36B 110.00
C4—C5—H5 120.00 C35—C36—H36A 110.00
C5—C6—H6 120.00 C35—C36—H36B 110.00
C1—C6—H6 120.00 H36A—C36—H36B 108.00
N1—C8—H8 127.00 S4—C36—H36A 110.00
C7—C8—H8 127.00 C37—C38—H38B 109.00
C9—C10—H10 123.00 C39—C38—H38A 109.00
S1—C10—H10 123.00 C37—C38—H38A 109.00
C13—C12—H12B 110.00 H38A—C38—H38B 108.00
C9—C12—H12B 110.00 C39—C38—H38B 109.00
H12A—C12—H12B 108.00 C38—C39—H39A 109.00
C13—C12—H12A 110.00 C38—C39—H39B 109.00
C9—C12—H12A 110.00 C40—C39—H39B 109.00
S2—C15—H15B 110.00 H39A—C39—H39B 108.00
C14—C15—H15A 110.00 C40—C39—H39A 109.00
C14—C15—H15B 110.00 C39—C40—H40B 109.00
H15A—C15—H15B 108.00 C41—C40—H40A 109.00
S2—C15—H15A 110.00 C41—C40—H40B 109.00
C18—C17—H17B 109.00 H40A—C40—H40B 108.00
C16—C17—H17B 109.00 C39—C40—H40A 109.00
H17A—C17—H17B 108.00 C40—C41—H41B 109.00
C18—C17—H17A 109.00 C42—C41—H41A 109.00
C16—C17—H17A 109.00 C40—C41—H41A 109.00
C19—C18—H18A 109.00 H41A—C41—H41B 108.00
C17—C18—H18B 109.00 C42—C41—H41B 109.00
C17—C18—H18A 109.00 C37—C42—H42A 110.00
C19—C18—H18B 109.00 C37—C42—H42B 110.00
H18A—C18—H18B 108.00 C41—C42—H42B 110.00
C20—C19—H19A 109.00 H42A—C42—H42B 108.00
C20—C19—H19B 109.00 C41—C42—H42A 110.00
H19A—C19—H19B 108.00
C10—S1—C11—N2 176.9 (2) C37—N8—C35—O4 174.60 (17)
C10—S1—C11—N1 −1.42 (14) C37—N8—C35—C36 −5.0 (2)
C11—S1—C10—C9 0.62 (16) N7—N8—C37—S4 −167.85 (11)
C15—S2—C16—N4 14.50 (13) C6—C1—C7—N2 163.05 (18)
C16—S2—C15—C14 −11.71 (16) C2—C1—C7—C8 160.2 (2)
C15—S2—C16—C17 −105.91 (14) C2—C1—C7—N2 −17.7 (3)
C15—S2—C16—C21 131.92 (14) C7—C1—C6—C5 178.9 (2)
C31—S3—C32—N6 178.7 (2) C6—C1—C2—C3 0.0 (3)
C32—S3—C31—C30 0.70 (16) C7—C1—C2—C3 −179.3 (2)
C31—S3—C32—N5 −1.50 (15) C2—C1—C6—C5 −0.3 (3)
C37—S4—C36—C35 14.05 (14) C6—C1—C7—C8 −19.0 (3)
C36—S4—C37—C42 102.61 (13) C1—C2—C3—C4 0.4 (4)
C36—S4—C37—N8 −15.53 (12) C2—C3—C4—C5 −0.4 (4)
C36—S4—C37—C38 −134.68 (13) C3—C4—C5—C6 0.0 (4)
C9—N1—C11—N2 −176.73 (15) C4—C5—C6—C1 0.3 (4)
C8—N1—C11—S1 179.35 (12) N2—C7—C8—N1 0.7 (2)
C11—N1—C9—C12 174.83 (15) C1—C7—C8—N1 −177.46 (17)
C11—N1—C8—C7 −0.77 (18) C10—C9—C12—C13 103.4 (2)
C8—N1—C9—C10 −177.71 (19) C12—C9—C10—S1 −175.59 (15)
C9—N1—C11—S1 1.97 (19) N1—C9—C12—C13 −72.2 (2)
C8—N1—C9—C12 −1.4 (3) N1—C9—C10—S1 0.4 (2)
C8—N1—C11—N2 0.7 (2) C9—C12—C13—N3 117.53 (17)
C11—N1—C9—C10 −1.5 (2) C9—C12—C13—O1 −61.1 (2)
C9—N1—C8—C7 175.65 (18) N4—C14—C15—S2 4.7 (2)
C11—N2—C7—C1 177.98 (17) O2—C14—C15—S2 −175.19 (19)
C11—N2—C7—C8 −0.3 (2) N4—C16—C21—C20 179.11 (19)
C7—N2—C11—N1 −0.2 (2) N4—C16—C17—C18 179.80 (15)
C7—N2—C11—S1 −178.47 (17) C17—C16—C21—C20 −56.5 (2)
N4—N3—C13—O1 −2.2 (2) S2—C16—C21—C20 67.0 (2)
N4—N3—C13—C12 179.16 (14) S2—C16—C17—C18 −65.96 (18)
C13—N3—N4—C16 96.51 (18) C21—C16—C17—C18 56.5 (2)
C13—N3—N4—C14 −66.7 (2) C16—C17—C18—C19 −56.0 (3)
C16—N4—C14—O2 −172.19 (19) C17—C18—C19—C20 54.4 (3)
N3—N4—C14—C15 170.62 (16) C18—C19—C20—C21 −54.6 (3)
N3—N4—C16—C17 −58.36 (19) C19—C20—C21—C16 56.1 (3)
C14—N4—C16—C21 −132.82 (18) C23—C22—C28—C29 157.0 (2)
C14—N4—C16—C17 104.34 (19) C27—C22—C28—C29 −20.6 (3)
C14—N4—C16—S2 −15.66 (19) C27—C22—C28—N6 163.0 (2)
N3—N4—C14—O2 −9.5 (3) C27—C22—C23—C24 0.4 (3)
N3—N4—C16—C21 64.5 (2) C23—C22—C28—N6 −19.3 (3)
N3—N4—C16—S2 −178.36 (12) C23—C22—C27—C26 −0.4 (3)
C16—N4—C14—C15 7.9 (2) C28—C22—C27—C26 177.3 (2)
C32—N5—C30—C33 176.91 (16) C28—C22—C23—C24 −177.4 (2)
C30—N5—C32—N6 −178.10 (16) C22—C23—C24—C25 0.2 (4)
C29—N5—C32—S3 −179.06 (12) C23—C24—C25—C26 −0.7 (4)
C30—N5—C32—S3 2.0 (2) C24—C25—C26—C27 0.7 (4)
C29—N5—C32—N6 0.8 (2) C25—C26—C27—C22 −0.1 (4)
C29—N5—C30—C33 −1.5 (3) N6—C28—C29—N5 0.7 (2)
C32—N5—C30—C31 −1.5 (2) C22—C28—C29—N5 −176.02 (18)
C32—N5—C29—C28 −0.9 (2) C31—C30—C33—C34 109.4 (2)
C30—N5—C29—C28 177.7 (2) N5—C30—C31—S3 0.3 (2)
C29—N5—C30—C31 −180.0 (2) N5—C30—C33—C34 −68.7 (2)
C28—N6—C32—N5 −0.4 (2) C33—C30—C31—S3 −177.96 (16)
C32—N6—C28—C22 176.68 (18) C30—C33—C34—N7 132.25 (16)
C28—N6—C32—S3 179.43 (18) C30—C33—C34—O3 −49.7 (2)
C32—N6—C28—C29 −0.2 (2) O4—C35—C36—S4 172.38 (16)
N8—N7—C34—O3 −3.4 (3) N8—C35—C36—S4 −8.03 (19)
C34—N7—N8—C37 109.47 (17) S4—C37—C38—C39 −66.61 (18)
N8—N7—C34—C33 174.63 (14) N8—C37—C38—C39 179.50 (15)
C34—N7—N8—C35 −73.1 (2) C42—C37—C38—C39 55.4 (2)
N7—N8—C35—C36 177.60 (14) S4—C37—C42—C41 66.18 (18)
N7—N8—C35—O4 −2.8 (3) N8—C37—C42—C41 179.15 (15)
C35—N8—C37—S4 14.76 (18) C38—C37—C42—C41 −56.5 (2)
C35—N8—C37—C38 133.53 (16) C37—C38—C39—C40 −54.3 (2)
N7—N8—C37—C38 −49.08 (19) C38—C39—C40—C41 54.6 (2)
C35—N8—C37—C42 −102.45 (18) C39—C40—C41—C42 −56.4 (2)
N7—N8—C37—C42 74.93 (19) C40—C41—C42—C37 57.3 (2)
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Symmetry codes: (i) x−1, y, z; (ii) −x, −y, −z+2; (iii) x+1, y−1, z; (iv) x+1, y, z; (v) −x+1, −y, −z+2; (vi) x, y−1, z; (vii) x, y+1, z; (viii) x−1, y+1, z; (ix) −x+1, −y+1, −z+1.

Hydrogen-bond geometry (Å, °)

D—H···A D—H H···A D···A D—H···A
N3—H3A···O3 0.86 1.98 2.841 (2) 175
O5—H5A···O1 0.833 (19) 1.880 (19) 2.7097 (19) 174.4 (18)
O5—H5B···O4v 0.848 (18) 1.917 (18) 2.764 (2) 177 (2)
N7—H7···O5vii 0.86 1.94 2.7617 (19) 160
C10—H10···O4v 0.93 2.41 3.306 (2) 161
C12—H12A···O2v 0.97 2.48 3.074 (2) 120
C15—H15B···N2iv 0.97 2.57 3.462 (3) 153
C18—H18A···S2 0.97 2.87 3.255 (2) 105
C20—H20B···S2 0.97 2.84 3.227 (3) 105
C21—H21A···S4 0.97 2.83 3.768 (2) 163
C33—H33B···O5vii 0.97 2.54 3.376 (2) 144
C36—H36B···N6iv 0.97 2.56 3.448 (3) 153
C39—H39A···S4 0.97 2.87 3.246 (2) 104
C41—H41B···S4 0.97 2.78 3.194 (2) 106
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Symmetry codes: (v) −x+1, −y, −z+2; (vii) x, y+1, z; (iv) x+1, y, z.

Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: HG2390).

References

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  2. Akkurt, M., Yıldırım, S. Ö., Ur, F., Cesur, Z., Cesur, N. & Büyükgüngör, O. (2005). Acta Cryst. E61, o718–o720.
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  4. Altomare, A., Burla, M. C., Camalli, M., Cascarano, G. L., Giacovazzo, C., Guagliardi, A., Moliterni, A. G. G., Polidori, G. & Spagna, R. (1999). J. Appl. Cryst.32, 115–119.
  5. Amarouch, H., Loiseau, P. R., Bonnafous, M., Caujolle, R., Payard, M., Loiseau, P. M., Bories, C. & Gayral, P. (1988). Farmaco Ed. Sci.43, 421–437. [PubMed]
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Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536808009306/hg2390sup1.cif

e-64-0o810-sup1.cif (44.4KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536808009306/hg2390Isup2.hkl

e-64-0o810-Isup2.hkl (400.2KB, hkl)

Additional supplementary materials: crystallographic information; 3D view; checkCIF report

Articles from Acta Crystallographica Section E: Structure Reports Online are provided here courtesy of International Union of Crystallography

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