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Acta Cryst. (2013). C69, 1267-1272
https://doi.org/10.1107/S0108270113029545
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A 1:2 cocrystal of genistein with isonicotinamide: crystal structure and Hirshfeld surface analysis

M. Sowa, K. Slepokura and E. Matczak-Jon
Genistein, a naturally occurring polyphenolic compound, was combined with isonicotinamide, a pharmaceutically acceptable coformer, to yield a 1:2 cocrystal [systematic name: 5,7-dihy­droxy-3-(4-hy­droxy­phen­yl)chromen-4-one-pyridine-4-carboxamide (1/2)], C15H10O5·2C6H6N2O. The mol­ecules in the cocrystalline phase are present in their neutral forms, and assemble a mol­ecular layer by means of hydrogen bonding.
Keywords: crystal structure; flavonoids; cocrystals; active pharmaceutical ingredients; genistein; Hirshfeld surface analysis.
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Supporting information

cif

Crystallographic Information File (CIF) https://doi.org/10.1107/S0108270113029545/fm3012sup1.cif
Contains datablocks I, global

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S0108270113029545/fm3012Isup2.hkl
Contains datablock I

mol

MDL mol file https://doi.org/10.1107/S0108270113029545/fm3012Isup3.mol
Supplementary material

CCDC reference: 968754

Computing details top

Data collection: CrysAlis CCD (Oxford Diffraction, 2010); cell refinement: CrysAlis RED (Oxford Diffraction, 2010); data reduction: CrysAlis RED (Oxford Diffraction, 2010); program(s) used to refine structure: SHELXL2013 (Sheldrick, 2008); molecular graphics: OLEX2 (Dolomanov et al., 2009) and (DIAMOND (Brandenburg, 2005); software used to prepare material for publication: SHELXL2013 (Sheldrick, 2008).

5,7-Dihydroxy-3-(4-hydroxyphenyl)chromen-4-one–pyridine-4-carboxamide (1/2) top
Crystal data top
C15H10O5·2C6H6N2OZ = 2
Mr = 514.48F(000) = 536
Triclinic, P1Dx = 1.472 Mg m3
a = 8.233 (3) ÅMo Kα radiation, λ = 0.71073 Å
b = 11.872 (4) ÅCell parameters from 6644 reflections
c = 13.773 (4) Åθ = 3.0–36.7°
α = 109.61 (3)°µ = 0.11 mm1
β = 95.34 (3)°T = 120 K
γ = 109.75 (3)°Block, yellow
V = 1160.7 (7) Å30.28 × 0.20 × 0.13 mm
Data collection top
Kuma KM4-CCD kappa-geometry
diffractometer with a Sapphire 2 CCD camera		4659 reflections with I > 2σ(I)
Radiation source: Enhance (Mo) X-ray SourceRint = 0.033
ω scansθmax = 36.8°, θmin = 3.0°
Absorption correction: multi-scan
(CrysAlis RED; Oxford Diffraction, 2010)		h = 1013
Tmin = 0.797, Tmax = 1.000k = 1513
12982 measured reflectionsl = 2318
6651 independent reflections
Refinement top
Refinement on F2Primary atom site location: structure-invariant direct methods
Least-squares matrix: fullSecondary atom site location: difference Fourier map
R[F2 > 2σ(F2)] = 0.055Hydrogen site location: difference Fourier map
wR(F2) = 0.150H atoms treated by a mixture of independent and constrained refinement
S = 1.01 w = 1/[σ2(Fo2) + (0.095P)2]
where P = (Fo2 + 2Fc2)/3
6651 reflections(Δ/σ)max < 0.001
371 parametersΔρmax = 0.53 e Å3
0 restraintsΔρmin = 0.37 e Å3
Special details top

Geometry. All e.s.d.'s (except the e.s.d. in the dihedral angle between two l.s. planes) are estimated using the full covariance matrix. The cell e.s.d.'s are taken into account individually in the estimation of e.s.d.'s in distances, angles and torsion angles; correlations between e.s.d.'s in cell parameters are only used when they are defined by crystal symmetry. An approximate (isotropic) treatment of cell e.s.d.'s is used for estimating e.s.d.'s involving l.s. planes.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/Ueq
O10.51834 (13)0.12381 (11)0.64558 (8)0.0209 (2)
O40.89729 (14)0.23163 (11)0.48528 (8)0.0229 (2)
O51.08861 (14)0.14973 (12)0.57897 (9)0.0251 (2)
H51.042 (3)0.184 (2)0.5331 (19)0.057 (7)*
O70.84395 (15)0.04517 (11)0.81085 (8)0.0227 (2)
H70.942 (4)0.070 (3)0.809 (2)0.070 (8)*
O140.52340 (16)0.52997 (11)0.30225 (9)0.0238 (2)
H140.411 (3)0.510 (2)0.2813 (19)0.056 (7)*
C20.5048 (2)0.19105 (15)0.58482 (11)0.0202 (3)
H20.40260.21100.58000.024*
C30.62496 (18)0.23205 (14)0.53057 (10)0.0173 (3)
C40.78245 (18)0.20255 (14)0.53669 (10)0.0175 (3)
C50.95471 (19)0.11236 (15)0.62600 (11)0.0189 (3)
C60.97093 (19)0.05227 (15)0.69395 (11)0.0204 (3)
H61.07410.03530.70630.024*
C70.83373 (19)0.01619 (14)0.74491 (11)0.0189 (3)
C80.68226 (19)0.04062 (15)0.72878 (11)0.0195 (3)
H80.59040.01670.76400.023*
C90.66908 (18)0.10083 (14)0.65992 (10)0.0176 (3)
C100.80092 (18)0.13788 (14)0.60627 (10)0.0162 (3)
C110.59631 (19)0.30788 (14)0.46906 (11)0.0186 (3)
C120.42640 (19)0.28361 (15)0.41736 (11)0.0192 (3)
H120.32710.21560.42010.023*
C130.39942 (19)0.35676 (15)0.36201 (11)0.0202 (3)
H130.28270.33800.32700.024*
C140.5425 (2)0.45720 (15)0.35776 (11)0.0192 (3)
C150.71296 (19)0.48563 (15)0.41141 (11)0.0207 (3)
H150.81140.55590.41080.025*
C160.73853 (19)0.41135 (15)0.46552 (11)0.0205 (3)
H160.85530.43100.50110.025*
O1A1.47917 (17)0.25272 (15)1.04226 (11)0.0415 (4)
N1A1.11717 (17)0.11429 (13)0.83485 (10)0.0231 (3)
H2A11.665 (3)0.190 (2)0.8742 (19)0.052 (7)*
H2A21.730 (3)0.247 (2)0.9574 (19)0.053 (7)*
N2A1.64569 (18)0.22442 (15)0.92436 (11)0.0272 (3)
C2A1.1357 (2)0.11254 (16)0.93324 (11)0.0237 (3)
H2A1.05830.08750.97470.028*
C3A1.2613 (2)0.14519 (15)0.97712 (11)0.0216 (3)
H3A1.26920.14311.04700.026*
C4A1.37647 (19)0.18126 (14)0.91769 (11)0.0185 (3)
C5A1.3580 (2)0.18397 (15)0.81524 (11)0.0214 (3)
H5A1.43370.20880.77210.026*
C6A1.2278 (2)0.14995 (16)0.77731 (11)0.0236 (3)
H6A1.21610.15190.70740.028*
C7A1.5068 (2)0.22172 (16)0.96667 (12)0.0228 (3)
O1B0.12272 (15)0.69755 (12)0.03549 (9)0.0288 (3)
N1B0.19402 (17)0.50814 (13)0.22105 (10)0.0241 (3)
H2B10.332 (3)0.616 (2)0.1895 (16)0.035 (5)*
H2B20.377 (3)0.680 (2)0.110 (2)0.059 (7)*
N2B0.3086 (2)0.64438 (17)0.13790 (13)0.0329 (3)
C2B0.2329 (2)0.57454 (17)0.15895 (13)0.0260 (3)
H2B0.34520.59150.14140.031*
C3B0.1202 (2)0.61983 (15)0.11890 (12)0.0226 (3)
H3B0.15490.66680.07530.027*
C4B0.04527 (19)0.59584 (14)0.14318 (11)0.0186 (3)
C5B0.0896 (2)0.52331 (16)0.20509 (11)0.0230 (3)
H5B0.20260.50220.22180.028*
C6B0.0329 (2)0.48243 (16)0.24191 (12)0.0248 (3)
H6B0.00100.43340.28430.030*
C7B0.1631 (2)0.64985 (16)0.10111 (11)0.0220 (3)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
O10.0187 (5)0.0299 (6)0.0253 (5)0.0138 (5)0.0099 (4)0.0185 (5)
O40.0219 (5)0.0341 (6)0.0246 (5)0.0153 (5)0.0127 (4)0.0193 (5)
O50.0212 (5)0.0383 (7)0.0306 (5)0.0168 (5)0.0141 (4)0.0236 (5)
O70.0242 (6)0.0319 (6)0.0251 (5)0.0166 (5)0.0101 (4)0.0198 (5)
O140.0244 (6)0.0301 (6)0.0281 (5)0.0154 (5)0.0080 (4)0.0197 (5)
C20.0212 (7)0.0260 (8)0.0223 (6)0.0134 (6)0.0085 (5)0.0148 (6)
C30.0171 (7)0.0204 (7)0.0169 (6)0.0083 (6)0.0040 (5)0.0093 (5)
C40.0178 (7)0.0206 (7)0.0169 (6)0.0084 (6)0.0054 (5)0.0094 (5)
C50.0187 (7)0.0230 (7)0.0190 (6)0.0100 (6)0.0073 (5)0.0102 (5)
C60.0200 (7)0.0272 (8)0.0207 (6)0.0132 (6)0.0078 (5)0.0128 (6)
C70.0229 (7)0.0212 (7)0.0173 (6)0.0104 (6)0.0061 (5)0.0111 (5)
C80.0212 (7)0.0257 (8)0.0194 (6)0.0121 (6)0.0088 (5)0.0142 (6)
C90.0157 (7)0.0211 (7)0.0186 (6)0.0092 (6)0.0054 (5)0.0088 (5)
C100.0172 (7)0.0198 (7)0.0155 (5)0.0094 (6)0.0054 (5)0.0090 (5)
C110.0207 (7)0.0230 (7)0.0179 (6)0.0114 (6)0.0073 (5)0.0113 (5)
C120.0181 (7)0.0221 (7)0.0203 (6)0.0087 (6)0.0069 (5)0.0105 (5)
C130.0196 (7)0.0258 (8)0.0196 (6)0.0127 (6)0.0053 (5)0.0105 (6)
C140.0238 (7)0.0230 (7)0.0192 (6)0.0148 (6)0.0077 (5)0.0119 (5)
C150.0194 (7)0.0233 (7)0.0235 (6)0.0090 (6)0.0075 (5)0.0128 (6)
C160.0179 (7)0.0258 (8)0.0217 (6)0.0096 (6)0.0047 (5)0.0129 (6)
O1A0.0376 (7)0.0793 (10)0.0489 (8)0.0393 (7)0.0270 (6)0.0527 (8)
N1A0.0255 (7)0.0303 (7)0.0221 (6)0.0149 (6)0.0089 (5)0.0155 (5)
N2A0.0247 (7)0.0427 (9)0.0303 (7)0.0210 (7)0.0132 (6)0.0240 (6)
C2A0.0283 (8)0.0321 (9)0.0228 (6)0.0197 (7)0.0127 (6)0.0152 (6)
C3A0.0247 (8)0.0293 (8)0.0190 (6)0.0151 (7)0.0089 (5)0.0138 (6)
C4A0.0190 (7)0.0235 (7)0.0195 (6)0.0111 (6)0.0068 (5)0.0126 (6)
C5A0.0241 (7)0.0271 (8)0.0204 (6)0.0135 (6)0.0099 (5)0.0133 (6)
C6A0.0278 (8)0.0325 (8)0.0199 (6)0.0169 (7)0.0098 (6)0.0152 (6)
C7A0.0229 (8)0.0301 (8)0.0260 (7)0.0145 (7)0.0092 (6)0.0184 (6)
O1B0.0279 (6)0.0432 (7)0.0313 (6)0.0202 (6)0.0126 (5)0.0257 (5)
N1B0.0242 (7)0.0286 (7)0.0246 (6)0.0136 (6)0.0052 (5)0.0135 (5)
N2B0.0265 (8)0.0545 (10)0.0421 (8)0.0249 (7)0.0171 (6)0.0365 (8)
C2B0.0219 (8)0.0352 (9)0.0303 (8)0.0149 (7)0.0095 (6)0.0194 (7)
C3B0.0213 (7)0.0295 (8)0.0258 (7)0.0124 (7)0.0096 (6)0.0177 (6)
C4B0.0175 (7)0.0213 (7)0.0181 (6)0.0077 (6)0.0033 (5)0.0091 (5)
C5B0.0190 (7)0.0305 (8)0.0240 (7)0.0095 (6)0.0069 (6)0.0160 (6)
C6B0.0257 (8)0.0292 (8)0.0264 (7)0.0119 (7)0.0076 (6)0.0173 (6)
C7B0.0206 (7)0.0288 (8)0.0231 (6)0.0121 (6)0.0064 (5)0.0148 (6)
Geometric parameters (Å, º) top
O1—C21.3568 (17)C16—H160.9500
O1—C91.3686 (17)O1A—C7A1.2311 (18)
O4—C41.2580 (16)N1A—C2A1.3419 (19)
O5—C51.3517 (17)N1A—C6A1.3442 (19)
O5—H50.97 (2)N2A—C7A1.3358 (19)
O7—C71.3542 (17)N2A—H2A10.91 (2)
O7—H70.95 (3)N2A—H2A20.95 (2)
O14—C141.3669 (17)C2A—C3A1.377 (2)
O14—H140.87 (3)C2A—H2A0.9500
C2—C31.3527 (19)C3A—C4A1.3915 (19)
C2—H20.9500C3A—H3A0.9500
C3—C41.455 (2)C4A—C5A1.3933 (19)
C3—C111.484 (2)C4A—C7A1.506 (2)
C4—C101.4411 (19)C5A—C6A1.384 (2)
C5—C61.375 (2)C5A—H5A0.9500
C5—C101.421 (2)C6A—H6A0.9500
C6—C71.4051 (19)O1B—C7B1.2330 (18)
C6—H60.9500N1B—C2B1.337 (2)
C7—C81.387 (2)N1B—C6B1.339 (2)
C8—C91.3821 (19)N2B—C7B1.333 (2)
C8—H80.9500N2B—H2B10.90 (2)
C9—C101.4009 (19)N2B—H2B20.93 (3)
C11—C121.397 (2)C2B—C3B1.377 (2)
C11—C161.400 (2)C2B—H2B0.9500
C12—C131.389 (2)C3B—C4B1.391 (2)
C12—H120.9500C3B—H3B0.9500
C13—C141.387 (2)C4B—C5B1.393 (2)
C13—H130.9500C4B—C7B1.501 (2)
C14—C151.396 (2)C5B—C6B1.382 (2)
C15—C161.384 (2)C5B—H5B0.9500
C15—H150.9500C6B—H6B0.9500
C2—O1—C9118.88 (11)C15—C16—H16119.2
C5—O5—H5103.1 (14)C11—C16—H16119.2
C7—O7—H7111.7 (16)C2A—N1A—C6A117.54 (13)
C14—O14—H14108.2 (16)C7A—N2A—H2A1118.2 (15)
C3—C2—O1125.34 (13)C7A—N2A—H2A2117.7 (14)
C3—C2—H2117.3H2A1—N2A—H2A2123 (2)
O1—C2—H2117.3N1A—C2A—C3A123.29 (13)
C2—C3—C4118.31 (13)N1A—C2A—H2A118.4
C2—C3—C11119.93 (13)C3A—C2A—H2A118.4
C4—C3—C11121.74 (12)C2A—C3A—C4A119.09 (13)
O4—C4—C10121.24 (13)C2A—C3A—H3A120.5
O4—C4—C3122.77 (13)C4A—C3A—H3A120.5
C10—C4—C3115.99 (11)C3A—C4A—C5A118.15 (13)
O5—C5—C6119.38 (13)C3A—C4A—C7A117.49 (12)
O5—C5—C10119.66 (13)C5A—C4A—C7A124.28 (12)
C6—C5—C10120.94 (12)C6A—C5A—C4A118.94 (13)
C5—C6—C7119.47 (13)C6A—C5A—H5A120.5
C5—C6—H6120.3C4A—C5A—H5A120.5
C7—C6—H6120.3N1A—C6A—C5A122.99 (13)
O7—C7—C8117.55 (12)N1A—C6A—H6A118.5
O7—C7—C6121.02 (13)C5A—C6A—H6A118.5
C8—C7—C6121.43 (13)O1A—C7A—N2A123.15 (14)
C9—C8—C7117.95 (12)O1A—C7A—C4A118.79 (13)
C9—C8—H8121.0N2A—C7A—C4A118.05 (13)
C7—C8—H8121.0C2B—N1B—C6B116.63 (13)
O1—C9—C8116.69 (12)C7B—N2B—H2B1122.1 (13)
O1—C9—C10120.23 (13)C7B—N2B—H2B2114.8 (16)
C8—C9—C10123.08 (13)H2B1—N2B—H2B2123 (2)
C9—C10—C5117.13 (13)N1B—C2B—C3B124.04 (14)
C9—C10—C4121.01 (12)N1B—C2B—H2B118.0
C5—C10—C4121.84 (12)C3B—C2B—H2B118.0
C12—C11—C16117.47 (13)C2B—C3B—C4B119.07 (14)
C12—C11—C3121.52 (13)C2B—C3B—H3B120.5
C16—C11—C3120.93 (13)C4B—C3B—H3B120.5
C13—C12—C11121.45 (14)C3B—C4B—C5B117.47 (13)
C13—C12—H12119.3C3B—C4B—C7B117.87 (13)
C11—C12—H12119.3C5B—C4B—C7B124.66 (13)
C14—C13—C12120.13 (14)C6B—C5B—C4B119.17 (14)
C14—C13—H13119.9C6B—C5B—H5B120.4
C12—C13—H13119.9C4B—C5B—H5B120.4
O14—C14—C13122.36 (13)N1B—C6B—C5B123.58 (14)
O14—C14—C15118.24 (13)N1B—C6B—H6B118.2
C13—C14—C15119.40 (13)C5B—C6B—H6B118.2
C16—C15—C14119.97 (14)O1B—C7B—N2B122.72 (14)
C16—C15—H15120.0O1B—C7B—C4B119.77 (13)
C14—C15—H15120.0N2B—C7B—C4B117.50 (13)
C15—C16—C11121.54 (14)
C9—O1—C2—C34.2 (2)C3—C11—C12—C13178.40 (12)
O1—C2—C3—C40.1 (2)C11—C12—C13—C140.5 (2)
O1—C2—C3—C11178.44 (14)C12—C13—C14—O14178.39 (12)
C2—C3—C4—O4176.76 (14)C12—C13—C14—C151.3 (2)
C11—C3—C4—O44.8 (2)O14—C14—C15—C16177.81 (12)
C2—C3—C4—C103.6 (2)C13—C14—C15—C161.9 (2)
C11—C3—C4—C10174.90 (12)C14—C15—C16—C110.7 (2)
O5—C5—C6—C7178.47 (13)C12—C11—C16—C151.1 (2)
C10—C5—C6—C70.3 (2)C3—C11—C16—C15177.81 (13)
C5—C6—C7—O7178.84 (14)C6A—N1A—C2A—C3A0.0 (2)
C5—C6—C7—C80.4 (2)N1A—C2A—C3A—C4A0.4 (3)
O7—C7—C8—C9178.71 (13)C2A—C3A—C4A—C5A0.6 (2)
C6—C7—C8—C90.6 (2)C2A—C3A—C4A—C7A177.47 (14)
C2—O1—C9—C8175.27 (13)C3A—C4A—C5A—C6A0.5 (2)
C2—O1—C9—C104.7 (2)C7A—C4A—C5A—C6A177.09 (15)
C7—C8—C9—O1179.95 (13)C2A—N1A—C6A—C5A0.2 (2)
C7—C8—C9—C100.0 (2)C4A—C5A—C6A—N1A0.1 (3)
O1—C9—C10—C5179.26 (13)C3A—C4A—C7A—O1A18.0 (2)
C8—C9—C10—C50.7 (2)C5A—C4A—C7A—O1A158.63 (16)
O1—C9—C10—C41.1 (2)C3A—C4A—C7A—N2A163.23 (15)
C8—C9—C10—C4178.87 (14)C5A—C4A—C7A—N2A20.2 (2)
O5—C5—C10—C9177.93 (13)C6B—N1B—C2B—C3B1.9 (2)
C6—C5—C10—C90.8 (2)N1B—C2B—C3B—C4B0.2 (3)
O5—C5—C10—C40.2 (2)C2B—C3B—C4B—C5B1.7 (2)
C6—C5—C10—C4179.00 (13)C2B—C3B—C4B—C7B178.19 (14)
O4—C4—C10—C9177.30 (13)C3B—C4B—C5B—C6B2.0 (2)
C3—C4—C10—C93.0 (2)C7B—C4B—C5B—C6B177.94 (15)
O4—C4—C10—C54.6 (2)C2B—N1B—C6B—C5B1.6 (2)
C3—C4—C10—C5175.08 (13)C4B—C5B—C6B—N1B0.3 (2)
C2—C3—C11—C1234.8 (2)C3B—C4B—C7B—O1B9.8 (2)
C4—C3—C11—C12146.71 (14)C5B—C4B—C7B—O1B170.23 (15)
C2—C3—C11—C16141.72 (15)C3B—C4B—C7B—N2B169.73 (15)
C4—C3—C11—C1636.7 (2)C5B—C4B—C7B—N2B10.2 (2)
C16—C11—C12—C131.7 (2)
Hydrogen-bond geometry (Å, º) top
Cg3 is the centroid of the C11–C16 ring.
D—H···AD—HH···AD···AD—H···A
O5—H5···O40.97 (2)1.65 (3)2.567 (2)155 (2)
O7—H7···N1A0.95 (3)1.74 (3)2.671 (2)166 (2)
O14—H14···N1B0.87 (3)1.89 (3)2.727 (2)162 (2)
N2A—H2A1···O7i0.91 (2)2.33 (2)3.162 (2)152 (2)
N2A—H2A2···O1Bii0.95 (2)1.96 (3)2.905 (2)172 (2)
N2B—H2B1···O14iii0.90 (2)2.33 (2)3.203 (2)164 (2)
N2B—H2B2···O1Aiv0.93 (3)1.97 (3)2.894 (2)176 (2)
C2—H2···O5iii0.952.443.283 (2)149
C6A—H6A···O4v0.952.463.370 (2)160
C5A—H5A···Cg3v0.952.693.497 (2)143
Symmetry codes: (i) x+1, y, z; (ii) x+2, y1, z+1; (iii) x1, y, z; (iv) x2, y+1, z1; (v) x+2, y, z+1.
Geometry of selected ππ interactions (Å, °) top
Cg1 is the centroid of the O1/C2–C4/C10/C9 ring, Cg2 that of the C5–C10 ring, Cg3 that of the C11–C16 and Cg4 that of the N1B/C2B–C6B ring.
CgICgJCg···CgaDihedral anglebInterplanar distancecOffsetd
Cg1Cg1vi3.686 (3)03.582 (2)0.868 (3)
Cg1Cg4vii3.554 (2)5.76 (5)3.454 (2)0.836 (3)
Cg2Cg4vii3.925 (2)5.96 (5)3.423 (2)1.921 (3)
Cg3Cg3vii3.577 (2)03.393 (2)1.132 (3)
(a) The distance between ring centroids. (b) The angle between the planes of rings I and J. (c) The perpendicular distance of CgI from ring J. (d) The perpendicular distance of ring I from ring J. Symmetry codes: (vi) -x + 1, -y, -z + 1; (vii) -x + 1, -y + 1, -z + 1.
 

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