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Acta Crystallographica Section E: Structure Reports Online logoLink to Acta Crystallographica Section E: Structure Reports Online
. 2009 May 7;65(Pt 6):o1237. doi: 10.1107/S1600536809015864

1-(2-Chloro­acet­yl)-3-methyl-2,6-bis­(3,4,5-trimethoxy­phen­yl)piperidine-4-one

B N Lakshminarayana a, J Shashidhara Prasad a,*, C R Gnanendra b, M A Sridhar a, D Chenne Gowda b
PMCID: PMC2969802  PMID: 21583104

Abstract

In the crystal structure of the title compound, C26H32ClNO8, the piperidine ring is in a twist-chair conformation, with puckering parameters Q = 0.655 (4) Å, θ = 93.1 (1) and ϕ = 254.4 (3)°. The ortho C atoms of the piperidine ring deviate from the plane defined by the remaining ring atoms by 0.380 (3) and −0.250 (3) Å.

Related literature

For the biological and pharmacological properties of piperidines, see: Prostakov & Gaivoronskaya (1978). For the biological activity of piperidones with aryl substituents at the 2 and 6 positions, see: Mobio et al. (1989); Ganellin & Spickett (1965). For ring-puckering analysis, see: Cremer & Pople (1975). For the synthesis, see: Baliah et al. (1983).graphic file with name e-65-o1237-scheme1.jpg

Experimental

Crystal data

  • C26H32ClNO8

  • M r = 521.98

  • Orthorhombic, Inline graphic

  • a = 13.8720 (8) Å

  • b = 16.5110 (11) Å

  • c = 22.8120 (16) Å

  • V = 5224.9 (6) Å3

  • Z = 8

  • Mo Kα radiation

  • μ = 0.20 mm−1

  • T = 293 K

  • 0.30 × 0.27 × 0.25 mm

Data collection

  • MacScience DIPLabo 32001 diffractometer

  • Absorption correction: none

  • 8214 measured reflections

  • 4464 independent reflections

  • 3146 reflections with I > 2σ(I)

  • R int = 0.027

Refinement

  • R[F 2 > 2σ(F 2)] = 0.062

  • wR(F 2) = 0.186

  • S = 1.05

  • 4464 reflections

  • 332 parameters

  • H-atom parameters constrained

  • Δρmax = 0.47 e Å−3

  • Δρmin = −0.39 e Å−3

Data collection: XPRESS (MacScience, 2002); cell refinement: SCALEPACK (Otwinowski & Minor, 1997); data reduction: DENZO (Otwinowski & Minor, 1997) and SCALEPACK; program(s) used to solve structure: SHELXS97 (Sheldrick, 2008); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008); molecular graphics: PLATON (Spek, 2009) and ORTEPII (Johnson, 1976); software used to prepare material for publication: PLATON.

Supplementary Material

Crystal structure: contains datablocks global, I. DOI: 10.1107/S1600536809015864/nc2143sup1.cif

e-65-o1237-sup1.cif (26.1KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536809015864/nc2143Isup2.hkl

e-65-o1237-Isup2.hkl (218.8KB, hkl)

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

Acknowledgments

The authors are grateful to the DST and Government of India project SP/I2/FOO/93 and the University of Mysore for financial assistance.

supplementary crystallographic information

Comment

Piperidines are an important group of compounds in the field of medicinal chemistry owing to the fact that they can frequently be recognized in the structures of numerous naturally occurring alkaloid and synthetic compounds with interesting biological and pharmacological properties (Prostakov et al., 1978). Furthermore, the significant biological activities of piperridones were associated with aryl substituents at 2 and 6 positions (Ganellin & Spickett, 1965; Mobio et al., 1989). In view of the importance of such compounds the crystal structure of the title compound is reported.

The substituent at C2 is in an equatorial position as indicated by the dihedral angle of 85.18 (2)° between the piperidine and the phenyl ring. The methyl group at C5 reflects C8 and is oriented in an anti-periplanar conformation as indicated by the torsion angle of N1—C6—C5—C8 = -173.25°. The torsion angle of 180.0 (3)° for C6—N1—C9—O10 shows that O10 is also in an anti-periplanar conformation. The methoxy groups at C27, C25, C17 and C15 are nearly planar with the phenyl ring whereas the methoxy group at C26 and C16 is nearly orthogonal to the phenyl rings.

Experimental

To a well stirred solution of 3-methyl-2,6-bis(3,4,5-trimethoxyphenyl)piperidine-4-one (Baliah et al., 1983) (5 mmol) and triethylamine(5 mmol) in 30 ml of benzene, chloroacetyl chloride (5 mmol) in 20 ml benzene was added dropwise within about an hour. The resulting mixture was stirred for about 4 hours at room temperature. Afterwards the mixture was quenched in cold water and the organic layer was extracted with ethyl acetate, washed with 5% sodium bicarbonate solution and dried over anhydrous sodium sulphate. Slow evaporation of the solvent leads to crystals of 1-(2-chloroacetyl)-3-methyl-2,6-bis(3,4,5-trimethoxyphenyl) piperidine-4-one.

Refinement

H atoms were placed at idealized positions and allowed to ride on their parent atoms with C–H distances in the range 0.93–0.98 Å and Uiso(H) = 1.2Ueq(carrier atom; 1.5 for methyl H atoms).

Figures

Fig. 1.

Fig. 1.

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Crystal structure of the title compound with labelling and 50% probability displacement ellipsoids.

Crystal data

C26H32ClNO8 F(000) = 2208
Mr = 521.98 Dx = 1.327 Mg m3
Orthorhombic, Pbca Mo Kα radiation, λ = 0.71073 Å
Hall symbol: -P 2ac 2ab Cell parameters from 8214 reflections
a = 13.8720 (8) Å θ = 2.9–25.0°
b = 16.5110 (11) Å µ = 0.20 mm1
c = 22.8120 (16) Å T = 293 K
V = 5224.9 (6) Å3 Block, white
Z = 8 0.30 × 0.27 × 0.25 mm
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Data collection

MacScience DIPLabo 32001 diffractometer 3146 reflections with I > 2σ(I)
Radiation source: fine-focus sealed tube Rint = 0.027
graphite θmax = 25.0°, θmin = 2.9°
Detector resolution: 10.0 pixels mm-1 h = −16→16
ω scans k = −19→19
8214 measured reflections l = −27→26
4464 independent reflections
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Refinement

Refinement on F2 Primary atom site location: structure-invariant direct methods
Least-squares matrix: full Secondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.062 Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.186 H-atom parameters constrained
S = 1.05 w = 1/[σ2(Fo2) + (0.0931P)2 + 2.926P] where P = (Fo2 + 2Fc2)/3
4464 reflections (Δ/σ)max < 0.001
332 parameters Δρmax = 0.47 e Å3
0 restraints Δρmin = −0.39 e Å3
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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 of F2 against ALL reflections. The weighted R-factor wR and goodness of fit S are based on F2, conventional R-factors R are based on F, with F set to zero for negative F2. The threshold expression of F2 > σ(F2) is used only for calculating R-factors(gt) 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
Cl12 0.14569 (9) −0.00580 (6) 0.36264 (6) 0.1014 (5)
O7 0.0245 (3) −0.4484 (3) 0.28056 (17) 0.1467 (19)
O10 0.07651 (19) −0.14395 (16) 0.42507 (10) 0.0742 (9)
O19 0.49642 (15) −0.28235 (15) 0.40351 (9) 0.0623 (8)
O21 0.57332 (13) −0.19912 (15) 0.31391 (9) 0.0584 (8)
O23 0.46432 (15) −0.15115 (15) 0.22323 (9) 0.0595 (8)
O31 0.27178 (17) −0.31372 (15) 0.56956 (9) 0.0649 (8)
O33 0.26328 (19) −0.47563 (15) 0.57353 (9) 0.0725 (9)
O35 0.1596 (2) −0.55902 (15) 0.49519 (11) 0.0847 (10)
N1 0.12281 (16) −0.24570 (15) 0.36489 (10) 0.0473 (8)
C2 0.0590 (2) −0.3025 (2) 0.39713 (13) 0.0524 (10)
C3 −0.0007 (3) −0.3497 (2) 0.35294 (16) 0.0690 (14)
C4 0.0569 (3) −0.3931 (2) 0.30853 (16) 0.0760 (16)
C5 0.1608 (3) −0.3656 (2) 0.30122 (14) 0.0603 (11)
C6 0.1732 (2) −0.27421 (18) 0.31092 (12) 0.0476 (10)
C8 0.2024 (4) −0.3910 (3) 0.24254 (19) 0.0953 (19)
C9 0.1181 (2) −0.1667 (2) 0.38063 (14) 0.0537 (11)
C11 0.1658 (3) −0.10579 (19) 0.34041 (16) 0.0613 (12)
C13 0.2804 (2) −0.25428 (18) 0.31204 (12) 0.0447 (9)
C14 0.3213 (2) −0.21277 (19) 0.26566 (12) 0.0488 (10)
C15 0.4183 (2) −0.19340 (19) 0.26646 (12) 0.0485 (10)
C16 0.4755 (2) −0.21760 (19) 0.31333 (13) 0.0497 (10)
C17 0.4349 (2) −0.26141 (19) 0.35897 (12) 0.0482 (10)
C18 0.3374 (2) −0.27934 (18) 0.35895 (12) 0.0466 (9)
C20 0.4600 (3) −0.3312 (2) 0.44945 (14) 0.0661 (11)
C22 0.5942 (2) −0.1200 (2) 0.33503 (18) 0.0742 (14)
C24 0.4061 (3) −0.1076 (2) 0.18305 (15) 0.0661 (11)
C25 0.1140 (2) −0.3524 (2) 0.44265 (13) 0.0507 (10)
C26 0.1100 (2) −0.4354 (2) 0.44530 (14) 0.0576 (11)
C27 0.1605 (3) −0.4770 (2) 0.48873 (14) 0.0593 (11)
C28 0.2159 (2) −0.4349 (2) 0.52945 (12) 0.0551 (11)
C29 0.2184 (2) −0.3514 (2) 0.52730 (12) 0.0520 (10)
C30 0.1675 (2) −0.3100 (2) 0.48416 (13) 0.0521 (10)
C32 0.2524 (3) −0.2308 (2) 0.58099 (17) 0.0713 (12)
C34 0.3539 (3) −0.5089 (3) 0.55613 (19) 0.0890 (17)
C36 0.1045 (4) −0.6052 (2) 0.4561 (2) 0.0960 (18)
H2 0.01350 −0.26880 0.41910 0.0630*
H3A −0.04010 −0.38860 0.37390 0.0830*
H3B −0.04380 −0.31240 0.33310 0.0830*
H5 0.19860 −0.39300 0.33160 0.0720*
H6 0.14450 −0.24620 0.27730 0.0570*
H8A 0.18970 −0.44750 0.23610 0.1420*
H8B 0.27080 −0.38190 0.24250 0.1420*
H8C 0.17310 −0.35970 0.21190 0.1420*
H11A 0.14120 −0.11290 0.30100 0.0740*
H11B 0.23470 −0.11600 0.33950 0.0740*
H14 0.28350 −0.19780 0.23380 0.0590*
H18 0.31020 −0.30790 0.39000 0.0560*
H20A 0.40750 −0.30360 0.46830 0.0990*
H20B 0.51010 −0.34130 0.47750 0.0990*
H20C 0.43750 −0.38170 0.43370 0.0990*
H22A 0.56350 −0.08060 0.31040 0.1120*
H22B 0.66270 −0.11150 0.33460 0.1120*
H22C 0.57060 −0.11460 0.37440 0.1120*
H24A 0.37270 −0.14500 0.15800 0.0990*
H24B 0.44600 −0.07280 0.15970 0.0990*
H24C 0.36010 −0.07550 0.20420 0.0990*
H26 0.07340 −0.46390 0.41810 0.0690*
H30 0.16930 −0.25370 0.48300 0.0630*
H32A 0.27190 −0.19880 0.54790 0.1070*
H32B 0.28760 −0.21390 0.61510 0.1070*
H32C 0.18460 −0.22360 0.58770 0.1070*
H34A 0.34540 −0.54120 0.52150 0.1340*
H34B 0.37900 −0.54200 0.58710 0.1340*
H34C 0.39830 −0.46570 0.54800 0.1340*
H36A 0.03760 −0.59130 0.46030 0.1440*
H36B 0.11310 −0.66170 0.46460 0.1440*
H36C 0.12490 −0.59440 0.41670 0.1440*
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Atomic displacement parameters (Å2)

U11 U22 U33 U12 U13 U23
Cl12 0.1112 (9) 0.0590 (6) 0.1341 (10) −0.0100 (6) 0.0317 (8) −0.0153 (6)
O7 0.159 (3) 0.153 (4) 0.128 (3) −0.093 (3) 0.024 (3) −0.062 (3)
O10 0.0898 (18) 0.0728 (17) 0.0599 (14) 0.0103 (14) 0.0180 (14) 0.0001 (12)
O19 0.0498 (12) 0.0887 (18) 0.0483 (12) 0.0076 (11) −0.0098 (10) 0.0087 (11)
O21 0.0394 (11) 0.0803 (16) 0.0554 (12) 0.0056 (10) 0.0030 (10) −0.0077 (11)
O23 0.0507 (12) 0.0819 (16) 0.0460 (11) 0.0024 (11) 0.0044 (10) 0.0106 (11)
O31 0.0698 (14) 0.0686 (15) 0.0563 (13) 0.0078 (12) −0.0193 (12) −0.0053 (11)
O33 0.0930 (18) 0.0727 (16) 0.0519 (12) 0.0264 (14) −0.0143 (12) 0.0041 (11)
O35 0.123 (2) 0.0532 (15) 0.0780 (17) 0.0040 (14) −0.0279 (16) 0.0027 (13)
N1 0.0439 (13) 0.0544 (15) 0.0437 (13) −0.0017 (11) −0.0038 (11) 0.0064 (11)
C2 0.0450 (16) 0.065 (2) 0.0471 (17) −0.0039 (14) −0.0004 (14) 0.0133 (14)
C3 0.0561 (19) 0.082 (3) 0.069 (2) −0.0179 (18) −0.0134 (18) 0.0181 (19)
C4 0.091 (3) 0.078 (3) 0.059 (2) −0.032 (2) −0.010 (2) −0.0022 (19)
C5 0.074 (2) 0.059 (2) 0.0480 (17) −0.0071 (16) −0.0056 (16) −0.0033 (15)
C6 0.0459 (16) 0.0573 (19) 0.0395 (14) −0.0012 (13) −0.0030 (13) 0.0037 (13)
C8 0.122 (4) 0.084 (3) 0.080 (3) −0.014 (3) 0.013 (3) −0.028 (2)
C9 0.0534 (18) 0.059 (2) 0.0488 (17) 0.0052 (14) −0.0093 (15) 0.0025 (15)
C11 0.063 (2) 0.053 (2) 0.068 (2) −0.0030 (15) 0.0041 (17) 0.0006 (16)
C13 0.0458 (15) 0.0477 (16) 0.0405 (14) 0.0050 (13) −0.0035 (13) −0.0027 (12)
C14 0.0482 (16) 0.0592 (19) 0.0391 (15) 0.0065 (13) −0.0035 (13) 0.0010 (13)
C15 0.0464 (16) 0.0610 (19) 0.0382 (15) 0.0056 (14) 0.0041 (13) −0.0047 (13)
C16 0.0434 (16) 0.0617 (19) 0.0440 (16) 0.0083 (13) 0.0020 (13) −0.0080 (14)
C17 0.0460 (16) 0.0606 (19) 0.0381 (15) 0.0123 (14) −0.0033 (13) −0.0044 (13)
C18 0.0491 (16) 0.0526 (18) 0.0382 (14) 0.0045 (13) −0.0007 (13) 0.0010 (13)
C20 0.074 (2) 0.072 (2) 0.0524 (19) 0.0114 (18) −0.0165 (18) 0.0106 (17)
C22 0.0535 (19) 0.091 (3) 0.078 (2) −0.0043 (19) 0.0008 (19) −0.019 (2)
C24 0.065 (2) 0.078 (2) 0.0553 (19) 0.0018 (18) 0.0036 (17) 0.0149 (17)
C25 0.0483 (16) 0.060 (2) 0.0438 (16) −0.0018 (14) −0.0009 (14) 0.0072 (14)
C26 0.066 (2) 0.058 (2) 0.0489 (17) −0.0037 (16) −0.0071 (16) 0.0021 (15)
C27 0.075 (2) 0.0498 (19) 0.0531 (18) 0.0052 (16) −0.0015 (17) 0.0044 (15)
C28 0.066 (2) 0.059 (2) 0.0404 (15) 0.0137 (16) −0.0069 (15) 0.0030 (14)
C29 0.0525 (17) 0.061 (2) 0.0424 (16) 0.0044 (14) −0.0017 (14) −0.0024 (14)
C30 0.0540 (17) 0.0533 (18) 0.0491 (16) 0.0016 (14) −0.0026 (15) 0.0063 (14)
C32 0.080 (2) 0.064 (2) 0.070 (2) −0.0091 (18) −0.011 (2) −0.0067 (18)
C34 0.096 (3) 0.085 (3) 0.086 (3) 0.038 (2) −0.026 (2) −0.012 (2)
C36 0.147 (4) 0.056 (2) 0.085 (3) −0.007 (3) −0.022 (3) −0.010 (2)
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Geometric parameters (Å, °)

Cl12—C11 1.749 (3) C27—C28 1.392 (5)
O7—C4 1.201 (6) C28—C29 1.380 (5)
O10—C9 1.225 (4) C29—C30 1.391 (4)
O19—C17 1.371 (3) C2—H2 0.9800
O19—C20 1.416 (4) C3—H3A 0.9700
O21—C16 1.391 (3) C3—H3B 0.9700
O21—C22 1.422 (4) C5—H5 0.9800
O23—C15 1.366 (4) C6—H6 0.9800
O23—C24 1.418 (4) C8—H8A 0.9600
O31—C29 1.366 (4) C8—H8B 0.9600
O31—C32 1.419 (4) C8—H8C 0.9600
O33—C28 1.377 (4) C11—H11A 0.9700
O33—C34 1.428 (5) C11—H11B 0.9700
O35—C27 1.362 (4) C14—H14 0.9300
O35—C36 1.400 (5) C18—H18 0.9300
N1—C2 1.485 (4) C20—H20A 0.9600
N1—C6 1.492 (4) C20—H20B 0.9600
N1—C9 1.355 (4) C20—H20C 0.9600
C2—C3 1.520 (5) C22—H22A 0.9600
C2—C25 1.529 (4) C22—H22B 0.9600
C3—C4 1.476 (5) C22—H22C 0.9600
C4—C5 1.520 (6) C24—H24A 0.9600
C5—C6 1.535 (4) C24—H24B 0.9600
C5—C8 1.517 (6) C24—H24C 0.9600
C6—C13 1.523 (4) C26—H26 0.9300
C9—C11 1.514 (5) C30—H30 0.9300
C13—C14 1.382 (4) C32—H32A 0.9600
C13—C18 1.393 (4) C32—H32B 0.9600
C14—C15 1.383 (4) C32—H32C 0.9600
C15—C16 1.390 (4) C34—H34A 0.9600
C16—C17 1.387 (4) C34—H34B 0.9600
C17—C18 1.385 (4) C34—H34C 0.9600
C25—C26 1.373 (5) C36—H36A 0.9600
C25—C30 1.392 (4) C36—H36B 0.9600
C26—C27 1.394 (5) C36—H36C 0.9600
C17—O19—C20 118.0 (3) C4—C5—H5 107.00
C16—O21—C22 113.8 (2) C6—C5—H5 107.00
C15—O23—C24 117.4 (2) C8—C5—H5 107.00
C29—O31—C32 117.8 (3) N1—C6—H6 108.00
C28—O33—C34 113.9 (3) C5—C6—H6 108.00
C27—O35—C36 118.5 (3) C13—C6—H6 108.00
C2—N1—C6 119.3 (2) C5—C8—H8A 109.00
C2—N1—C9 116.6 (2) C5—C8—H8B 109.00
C6—N1—C9 123.0 (2) C5—C8—H8C 109.00
N1—C2—C3 108.7 (2) H8A—C8—H8B 109.00
N1—C2—C25 112.3 (2) H8A—C8—H8C 110.00
C3—C2—C25 116.5 (3) H8B—C8—H8C 109.00
C2—C3—C4 114.2 (3) Cl12—C11—H11A 109.00
O7—C4—C3 122.1 (4) Cl12—C11—H11B 109.00
O7—C4—C5 121.6 (4) C9—C11—H11A 109.00
C3—C4—C5 116.3 (3) C9—C11—H11B 109.00
C4—C5—C6 112.6 (3) H11A—C11—H11B 108.00
C4—C5—C8 112.0 (3) C13—C14—H14 120.00
C6—C5—C8 110.9 (3) C15—C14—H14 120.00
N1—C6—C5 112.1 (2) C13—C18—H18 120.00
N1—C6—C13 112.1 (2) C17—C18—H18 120.00
C5—C6—C13 108.9 (3) O19—C20—H20A 109.00
O10—C9—N1 122.5 (3) O19—C20—H20B 110.00
O10—C9—C11 120.2 (3) O19—C20—H20C 109.00
N1—C9—C11 117.3 (3) H20A—C20—H20B 109.00
Cl12—C11—C9 112.4 (3) H20A—C20—H20C 109.00
C6—C13—C14 119.7 (2) H20B—C20—H20C 110.00
C6—C13—C18 120.2 (2) O21—C22—H22A 110.00
C14—C13—C18 120.1 (3) O21—C22—H22B 109.00
C13—C14—C15 120.3 (3) O21—C22—H22C 109.00
O23—C15—C14 124.3 (3) H22A—C22—H22B 110.00
O23—C15—C16 115.8 (2) H22A—C22—H22C 109.00
C14—C15—C16 119.9 (3) H22B—C22—H22C 109.00
O21—C16—C15 120.1 (3) O23—C24—H24A 109.00
O21—C16—C17 120.2 (3) O23—C24—H24B 110.00
C15—C16—C17 119.7 (3) O23—C24—H24C 110.00
O19—C17—C16 115.8 (2) H24A—C24—H24B 109.00
O19—C17—C18 123.7 (3) H24A—C24—H24C 109.00
C16—C17—C18 120.5 (3) H24B—C24—H24C 109.00
C13—C18—C17 119.4 (3) C25—C26—H26 120.00
C2—C25—C26 123.2 (3) C27—C26—H26 120.00
C2—C25—C30 117.2 (3) C25—C30—H30 120.00
C26—C25—C30 119.6 (3) C29—C30—H30 120.00
C25—C26—C27 120.2 (3) O31—C32—H32A 109.00
O35—C27—C26 124.2 (3) O31—C32—H32B 109.00
O35—C27—C28 115.4 (3) O31—C32—H32C 110.00
C26—C27—C28 120.4 (3) H32A—C32—H32B 110.00
O33—C28—C27 120.5 (3) H32A—C32—H32C 109.00
O33—C28—C29 120.1 (3) H32B—C32—H32C 109.00
C27—C28—C29 119.3 (3) O33—C34—H34A 110.00
O31—C29—C28 116.3 (3) O33—C34—H34B 110.00
O31—C29—C30 123.4 (3) O33—C34—H34C 109.00
C28—C29—C30 120.2 (3) H34A—C34—H34B 110.00
C25—C30—C29 120.3 (3) H34A—C34—H34C 109.00
N1—C2—H2 106.00 H34B—C34—H34C 109.00
C3—C2—H2 106.00 O35—C36—H36A 109.00
C25—C2—H2 106.00 O35—C36—H36B 109.00
C2—C3—H3A 109.00 O35—C36—H36C 110.00
C2—C3—H3B 109.00 H36A—C36—H36B 109.00
C4—C3—H3A 109.00 H36A—C36—H36C 110.00
C4—C3—H3B 109.00 H36B—C36—H36C 109.00
H3A—C3—H3B 108.00
C20—O19—C17—C18 5.9 (4) C4—C5—C6—C13 171.4 (3)
C20—O19—C17—C16 −176.3 (3) C5—C6—C13—C18 −69.9 (3)
C22—O21—C16—C17 −97.6 (3) N1—C6—C13—C18 54.7 (4)
C22—O21—C16—C15 83.5 (4) N1—C6—C13—C14 −126.7 (3)
C24—O23—C15—C14 16.4 (4) C5—C6—C13—C14 108.6 (3)
C24—O23—C15—C16 −163.9 (3) N1—C9—C11—Cl12 175.0 (2)
C32—O31—C29—C30 19.2 (4) O10—C9—C11—Cl12 −4.3 (4)
C32—O31—C29—C28 −160.1 (3) C6—C13—C18—C17 179.4 (3)
C34—O33—C28—C29 −100.9 (4) C18—C13—C14—C15 −2.3 (5)
C34—O33—C28—C27 82.9 (4) C14—C13—C18—C17 0.8 (4)
C36—O35—C27—C28 179.3 (3) C6—C13—C14—C15 179.2 (3)
C36—O35—C27—C26 −0.2 (5) C13—C14—C15—C16 1.7 (5)
C9—N1—C2—C25 −103.5 (3) C13—C14—C15—O23 −178.6 (3)
C6—N1—C9—C11 0.7 (4) O23—C15—C16—O21 −0.6 (4)
C2—N1—C6—C5 −7.8 (3) O23—C15—C16—C17 −179.5 (3)
C2—N1—C9—O10 11.9 (4) C14—C15—C16—O21 179.2 (3)
C9—N1—C2—C3 126.2 (3) C14—C15—C16—C17 0.3 (5)
C6—N1—C2—C3 −42.4 (3) C15—C16—C17—O19 −179.6 (3)
C2—N1—C9—C11 −167.4 (3) C15—C16—C17—C18 −1.7 (5)
C6—N1—C9—O10 −180.0 (3) O21—C16—C17—C18 179.4 (3)
C9—N1—C6—C5 −175.6 (3) O21—C16—C17—O19 1.5 (4)
C6—N1—C2—C25 88.0 (3) O19—C17—C18—C13 178.9 (3)
C9—N1—C6—C13 61.6 (3) C16—C17—C18—C13 1.2 (4)
C2—N1—C6—C13 −130.7 (3) C2—C25—C30—C29 179.2 (3)
C3—C2—C25—C26 −1.1 (4) C30—C25—C26—C27 −1.0 (5)
C3—C2—C25—C30 −178.8 (3) C26—C25—C30—C29 1.4 (4)
N1—C2—C3—C4 55.7 (4) C2—C25—C26—C27 −178.7 (3)
N1—C2—C25—C26 −127.3 (3) C25—C26—C27—C28 −0.5 (5)
C25—C2—C3—C4 −72.3 (4) C25—C26—C27—O35 179.0 (3)
N1—C2—C25—C30 55.0 (3) O35—C27—C28—O33 −1.7 (5)
C2—C3—C4—C5 −17.8 (4) O35—C27—C28—C29 −177.9 (3)
C2—C3—C4—O7 160.5 (4) C26—C27—C28—C29 1.6 (5)
C3—C4—C5—C8 −159.8 (3) C26—C27—C28—O33 177.9 (3)
O7—C4—C5—C6 147.7 (4) O33—C28—C29—O31 1.8 (4)
C3—C4—C5—C6 −34.0 (4) C27—C28—C29—C30 −1.2 (4)
O7—C4—C5—C8 21.9 (5) O33—C28—C29—C30 −177.5 (3)
C8—C5—C6—C13 −62.2 (4) C27—C28—C29—O31 178.1 (3)
C8—C5—C6—N1 173.2 (3) O31—C29—C30—C25 −179.6 (3)
C4—C5—C6—N1 46.8 (3) C28—C29—C30—C25 −0.3 (4)
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Footnotes

Supplementary data and figures for this paper are available from the IUCr electronic archives (Reference: NC2143).

References

  1. Baliah, V., Jeyaraman, R. & Chandrashekaran, L. (1983). Chem. Rev.83, 379—423.
  2. Cremer, D. & Pople, J. A. (1975). J. Am. Chem. Soc.97, 1354–1358.
  3. Ganellin, C. R. & Spickett, R. G. (1965). J. Med. Chem.8, 619–625. [DOI] [PubMed]
  4. Johnson, C. K. (1976). ORTEPII Report ORNL-5138. Oak Ridge National Laboratory, Tennessee, USA.
  5. MacScience (2002). XPRESS MacScience Co. Ltd, Yokohama, Japan.
  6. Mobio, I. G., Soldatenkov, A. T., Federov, V. O., Ageev, E. A., Sergeeva, N. D., Lin, S., Stashenko, E. E., Prostakov, N. S. & Andreeva, E. I. (1989). Khim. Farm. Zh.23, 421–427.
  7. Otwinowski, Z. & Minor, W. (1997). Methods in Enzymology, Vol. 276, Macromolecular Crystallography, Part A, edited by C. W. Carter Jr & R. M. Sweet, pp. 307–326. New York: Academic Press.
  8. Prostakov, N. S. & Gaivoronskaya, L. A. (1978). Russ Chem. Rev.47, 447—469.
  9. Sheldrick, G. M. (2008). Acta Cryst. A64, 112–122. [DOI] [PubMed]
  10. Spek, A. L. (2009). Acta Cryst. D65, 148–155. [DOI] [PMC free article] [PubMed]

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/S1600536809015864/nc2143sup1.cif

e-65-o1237-sup1.cif (26.1KB, cif)

Structure factors: contains datablocks I. DOI: 10.1107/S1600536809015864/nc2143Isup2.hkl

e-65-o1237-Isup2.hkl (218.8KB, 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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