Supporting information
Crystallographic Information File (CIF) https://doi.org/10.1107/S010827010000785X/fg1581sup1.cif | |
Structure factor file (CIF format) https://doi.org/10.1107/S010827010000785X/fg1581Isup2.hkl |
CCDC reference: 150368
The crystals were obtained as colourless prisms by solvent evaporation from a methanol-ethyl acetate mixture.
Ranitidine HCl crystallized in the monoclinic system; space group P21/n from the systematic absences. Hydrogen atoms, except for H7 at N7 which was found from a difference map, were calculated geometrically. During the refinement H atoms were treated isotropically and were riding on parent atoms (at distances 0.93 to 0.98 Å) except for H7 which had its positional and isotropic temperature parameters refined independently.
Data collection: Nonius KappaCCD Server Software; cell refinement: DENZO-SMN (Otwinowski & Minor, 1997); data reduction: DENZO-SMN; program(s) used to solve structure: SHELXS97 (Sheldrick, 1997); program(s) used to refine structure: SHELXL97 (Sheldrick, 1997); molecular graphics: ORTEP-3 for Windows (Farrugia, 1998); software used to prepare material for publication: SHELXL97.
C13H23N4O3S+·Cl− | F(000) = 744 |
Mr = 350.86 | Dx = 1.331 Mg m−3 |
Monoclinic, P21/n | Mo Kα radiation, λ = 0.71073 Å |
a = 12.1918 (6) Å | Cell parameters from all reflections reflections |
b = 6.5318 (3) Å | µ = 0.35 mm−1 |
c = 22.0382 (8) Å | T = 100 K |
β = 93.985 (3)° | Prism, colourless |
V = 1750.76 (13) Å3 | 0.45 × 0.25 × 0.23 mm |
Z = 4 |
Nonius Kappa CCD diffractometer | 2680 reflections with I > 2σ(I) |
Radiation source: rotating-anode | Rint = 0.000 |
Graphite monochromator | θmax = 27.5°, θmin = 3.1° |
ω rotation scans | h = 0→15 |
3994 measured reflections | k = 0→8 |
3994 independent reflections | l = −28→28 |
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)] = 0.042 | Hydrogen site location: inferred from neighbouring sites |
wR(F2) = 0.130 | H atoms treated by a mixture of independent and constrained refinement |
S = 0.80 | w = 1/[σ2(Fo2) + (0.0488P)2] where P = (Fo2 + 2Fc2)/3 |
3994 reflections | (Δ/σ)max < 0.001 |
210 parameters | Δρmax = 0.29 e Å−3 |
0 restraints | Δρmin = −0.27 e Å−3 |
C13H23N4O3S+·Cl− | V = 1750.76 (13) Å3 |
Mr = 350.86 | Z = 4 |
Monoclinic, P21/n | Mo Kα radiation |
a = 12.1918 (6) Å | µ = 0.35 mm−1 |
b = 6.5318 (3) Å | T = 100 K |
c = 22.0382 (8) Å | 0.45 × 0.25 × 0.23 mm |
β = 93.985 (3)° |
Nonius Kappa CCD diffractometer | 2680 reflections with I > 2σ(I) |
3994 measured reflections | Rint = 0.000 |
3994 independent reflections |
R[F2 > 2σ(F2)] = 0.042 | 0 restraints |
wR(F2) = 0.130 | H atoms treated by a mixture of independent and constrained refinement |
S = 0.80 | Δρmax = 0.29 e Å−3 |
3994 reflections | Δρmin = −0.27 e Å−3 |
210 parameters |
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. |
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. |
x | y | z | Uiso*/Ueq | ||
Cl1 | 0.40889 (4) | 0.24606 (8) | −0.03956 (2) | 0.02621 (16) | |
O1 | 0.49639 (13) | −0.0598 (2) | 0.20041 (6) | 0.0242 (3) | |
C2 | 0.48856 (19) | −0.0926 (3) | 0.26160 (9) | 0.0248 (5) | |
C3 | 0.3902 (2) | −0.0294 (4) | 0.27828 (11) | 0.0324 (6) | |
H3 | 0.3651 | −0.0348 | 0.3172 | 0.0330 (15)* | |
C4 | 0.3312 (2) | 0.0481 (4) | 0.22433 (11) | 0.0316 (5) | |
H4 | 0.2603 | 0.1015 | 0.2215 | 0.0330 (15)* | |
C5 | 0.39872 (19) | 0.0284 (3) | 0.17855 (10) | 0.0248 (5) | |
C6 | 0.38943 (18) | 0.0802 (3) | 0.11325 (10) | 0.0253 (5) | |
H6A | 0.3122 | 0.0867 | 0.0994 | 0.0330 (15)* | |
H6B | 0.4230 | −0.0280 | 0.0908 | 0.0330 (15)* | |
N7 | 0.44348 (15) | 0.2813 (3) | 0.09936 (9) | 0.0249 (4) | |
H7 | 0.438 (3) | 0.281 (5) | 0.0564 (15) | 0.062 (10)* | |
C8 | 0.56184 (19) | 0.2861 (4) | 0.12042 (11) | 0.0311 (5) | |
H8A | 0.5960 (6) | 0.409 (2) | 0.1044 (6) | 0.0330 (15)* | |
H8B | 0.5983 (6) | 0.164 (2) | 0.1058 (6) | 0.0330 (15)* | |
H8C | 0.5692 (2) | 0.289 (2) | 0.1650 (6) | 0.0330 (15)* | |
C9 | 0.3838 (2) | 0.4605 (4) | 0.12235 (11) | 0.0310 (5) | |
H9A | 0.3851 (10) | 0.4542 (12) | 0.1660 (7) | 0.0330 (15)* | |
H9B | 0.3089 (12) | 0.4586 (13) | 0.1055 (6) | 0.0330 (15)* | |
H9C | 0.4188 (9) | 0.5846 (19) | 0.1104 (6) | 0.0330 (15)* | |
C10 | 0.58691 (19) | −0.1792 (4) | 0.29512 (10) | 0.0277 (5) | |
H10A | 0.6065 | −0.3058 | 0.2755 | 0.0330 (15)* | |
H10B | 0.5686 | −0.2127 | 0.3361 | 0.0330 (15)* | |
S11 | 0.70691 (5) | −0.00941 (9) | 0.29966 (3) | 0.02977 (17) | |
C12 | 0.6502 (2) | 0.2250 (3) | 0.32782 (10) | 0.0261 (5) | |
H12A | 0.7046 | 0.3327 | 0.3261 | 0.0330 (15)* | |
H12B | 0.5869 | 0.2639 | 0.3012 | 0.0330 (15)* | |
C13 | 0.61514 (19) | 0.2095 (3) | 0.39289 (9) | 0.0255 (5) | |
H13A | 0.5670 | 0.0924 | 0.3962 | 0.0330 (15)* | |
H13B | 0.6795 | 0.1888 | 0.4206 | 0.0330 (15)* | |
N14 | 0.55837 (15) | 0.3938 (3) | 0.40989 (8) | 0.0238 (4) | |
H14 | 0.4899 | 0.4021 | 0.3978 | 0.0330 (15)* | |
C15 | 0.60016 (18) | 0.5520 (3) | 0.44215 (9) | 0.0218 (5) | |
N16 | 0.70553 (15) | 0.5547 (3) | 0.46272 (8) | 0.0245 (4) | |
H16 | 0.7461 | 0.4522 | 0.4543 | 0.0330 (15)* | |
C17 | 0.75598 (19) | 0.7213 (3) | 0.49855 (10) | 0.0265 (5) | |
H17A | 0.7435 (10) | 0.8480 (19) | 0.4773 (4) | 0.0330 (15)* | |
H17B | 0.8334 (11) | 0.6976 (12) | 0.5049 (6) | 0.0330 (15)* | |
H17C | 0.7242 (10) | 0.7281 (14) | 0.5370 (6) | 0.0330 (15)* | |
C18 | 0.53295 (17) | 0.7231 (3) | 0.45492 (9) | 0.0219 (5) | |
H18 | 0.5637 | 0.8259 | 0.4799 | 0.0330 (15)* | |
N19 | 0.42754 (16) | 0.7450 (3) | 0.43301 (8) | 0.0245 (4) | |
O20 | 0.37837 (13) | 0.6112 (3) | 0.39817 (7) | 0.0304 (4) | |
O21 | 0.37558 (14) | 0.9062 (3) | 0.44580 (8) | 0.0344 (4) |
U11 | U22 | U33 | U12 | U13 | U23 | |
Cl1 | 0.0270 (3) | 0.0248 (3) | 0.0266 (3) | −0.0053 (2) | 0.0002 (2) | 0.0041 (2) |
O1 | 0.0268 (9) | 0.0239 (8) | 0.0216 (7) | 0.0027 (6) | 0.0006 (6) | 0.0020 (6) |
C2 | 0.0321 (13) | 0.0204 (11) | 0.0220 (11) | −0.0016 (10) | 0.0017 (9) | 0.0028 (9) |
C3 | 0.0306 (14) | 0.0376 (14) | 0.0301 (12) | −0.0005 (11) | 0.0088 (10) | 0.0073 (10) |
C4 | 0.0214 (12) | 0.0365 (14) | 0.0369 (13) | 0.0018 (10) | 0.0031 (10) | 0.0073 (11) |
C5 | 0.0218 (12) | 0.0219 (11) | 0.0302 (11) | −0.0012 (9) | −0.0015 (9) | 0.0045 (9) |
C6 | 0.0225 (12) | 0.0244 (11) | 0.0285 (11) | −0.0038 (9) | −0.0018 (9) | 0.0028 (9) |
N7 | 0.0224 (10) | 0.0273 (10) | 0.0247 (10) | −0.0026 (8) | −0.0004 (7) | 0.0046 (8) |
C8 | 0.0224 (12) | 0.0379 (14) | 0.0324 (12) | −0.0065 (10) | −0.0020 (9) | 0.0111 (10) |
C9 | 0.0311 (14) | 0.0274 (12) | 0.0346 (12) | 0.0006 (10) | 0.0038 (10) | 0.0058 (10) |
C10 | 0.0352 (14) | 0.0231 (11) | 0.0248 (11) | 0.0052 (10) | 0.0014 (9) | 0.0030 (9) |
S11 | 0.0258 (3) | 0.0331 (3) | 0.0304 (3) | 0.0063 (2) | 0.0020 (2) | −0.0058 (2) |
C12 | 0.0281 (12) | 0.0245 (12) | 0.0261 (11) | 0.0020 (9) | 0.0043 (9) | −0.0007 (9) |
C13 | 0.0318 (13) | 0.0205 (11) | 0.0242 (11) | 0.0019 (9) | 0.0020 (9) | −0.0023 (9) |
N14 | 0.0221 (10) | 0.0223 (9) | 0.0271 (9) | −0.0001 (8) | 0.0023 (7) | −0.0014 (7) |
C15 | 0.0257 (12) | 0.0224 (11) | 0.0177 (10) | 0.0002 (9) | 0.0046 (8) | 0.0043 (8) |
N16 | 0.0247 (10) | 0.0208 (9) | 0.0279 (9) | 0.0051 (8) | 0.0010 (8) | −0.0020 (7) |
C17 | 0.0209 (12) | 0.0263 (12) | 0.0315 (12) | 0.0032 (9) | −0.0027 (9) | −0.0040 (9) |
C18 | 0.0230 (12) | 0.0227 (11) | 0.0201 (10) | 0.0012 (9) | 0.0017 (8) | 0.0017 (8) |
N19 | 0.0236 (10) | 0.0256 (10) | 0.0246 (9) | 0.0027 (8) | 0.0032 (7) | −0.0005 (8) |
O20 | 0.0250 (9) | 0.0331 (9) | 0.0326 (9) | −0.0011 (7) | −0.0009 (7) | −0.0056 (7) |
O21 | 0.0284 (9) | 0.0310 (9) | 0.0437 (10) | 0.0111 (8) | 0.0007 (7) | −0.0067 (8) |
O1—C2 | 1.375 (2) | C10—H10A | 0.9700 |
O1—C5 | 1.379 (3) | C10—H10B | 0.9700 |
C2—C3 | 1.344 (3) | S11—C12 | 1.807 (2) |
C2—C10 | 1.477 (3) | C12—C13 | 1.528 (3) |
C3—C4 | 1.438 (3) | C12—H12A | 0.9700 |
C3—H3 | 0.9300 | C12—H12B | 0.9700 |
C4—C5 | 1.352 (3) | C13—N14 | 1.451 (3) |
C4—H4 | 0.9300 | C13—H13A | 0.9700 |
C5—C6 | 1.475 (3) | C13—H13B | 0.9700 |
C6—N7 | 1.511 (3) | N14—C15 | 1.335 (3) |
C6—H6A | 0.9700 | N14—H14 | 0.8600 |
C6—H6B | 0.9700 | C15—N16 | 1.332 (3) |
N7—C9 | 1.485 (3) | C15—C18 | 1.425 (3) |
N7—C8 | 1.485 (3) | N16—C17 | 1.456 (3) |
N7—H7 | 0.95 (3) | N16—H16 | 0.8600 |
C8—H8A | 0.9797 | C17—H17A | 0.9574 |
C8—H8B | 0.9797 | C17—H17B | 0.9574 |
C8—H8C | 0.9797 | C17—H17C | 0.9574 |
C9—H9A | 0.9614 | C18—N19 | 1.349 (3) |
C9—H9B | 0.9614 | C18—H18 | 0.9300 |
C9—H9C | 0.9614 | N19—O21 | 1.270 (2) |
C10—S11 | 1.833 (2) | N19—O20 | 1.284 (2) |
C2—O1—C5 | 106.88 (16) | S11—C10—H10A | 108.7 |
C3—C2—O1 | 110.16 (19) | C2—C10—H10B | 108.7 |
C3—C2—C10 | 133.6 (2) | S11—C10—H10B | 108.7 |
O1—C2—C10 | 116.16 (19) | H10A—C10—H10B | 107.6 |
C2—C3—C4 | 106.6 (2) | C12—S11—C10 | 102.03 (11) |
C2—C3—H3 | 126.7 | C13—C12—S11 | 113.89 (15) |
C4—C3—H3 | 126.7 | C13—C12—H12A | 108.8 |
C5—C4—C3 | 106.7 (2) | S11—C12—H12A | 108.8 |
C5—C4—H4 | 126.6 | C13—C12—H12B | 108.8 |
C3—C4—H4 | 126.6 | S11—C12—H12B | 108.8 |
C4—C5—O1 | 109.57 (19) | H12A—C12—H12B | 107.7 |
C4—C5—C6 | 134.2 (2) | N14—C13—C12 | 110.92 (17) |
O1—C5—C6 | 116.26 (19) | N14—C13—H13A | 109.5 |
C5—C6—N7 | 113.09 (18) | C12—C13—H13A | 109.5 |
C5—C6—H6A | 109.0 | N14—C13—H13B | 109.5 |
N7—C6—H6A | 109.0 | C12—C13—H13B | 109.5 |
C5—C6—H6B | 109.0 | H13A—C13—H13B | 108.0 |
N7—C6—H6B | 109.0 | C15—N14—C13 | 127.48 (19) |
H6A—C6—H6B | 107.8 | C15—N14—H14 | 116.3 |
C9—N7—C8 | 111.42 (19) | C13—N14—H14 | 116.3 |
C9—N7—C6 | 112.65 (17) | N16—C15—N14 | 121.0 (2) |
C8—N7—C6 | 112.52 (18) | N16—C15—C18 | 118.4 (2) |
C9—N7—H7 | 110 (2) | N14—C15—C18 | 120.6 (2) |
C8—N7—H7 | 108 (2) | C15—N16—C17 | 123.76 (19) |
C6—N7—H7 | 101.5 (19) | C15—N16—H16 | 118.1 |
N7—C8—H8A | 109.5 | C17—N16—H16 | 118.1 |
N7—C8—H8B | 109.5 | N16—C17—H17A | 109.5 |
H8A—C8—H8B | 109.5 | N16—C17—H17B | 109.5 |
N7—C8—H8C | 109.5 | H17A—C17—H17B | 109.5 |
H8A—C8—H8C | 109.5 | N16—C17—H17C | 109.5 |
H8B—C8—H8C | 109.5 | H17A—C17—H17C | 109.5 |
N7—C9—H9A | 109.5 | H17B—C17—H17C | 109.5 |
N7—C9—H9B | 109.5 | N19—C18—C15 | 124.0 (2) |
H9A—C9—H9B | 109.5 | N19—C18—H18 | 118.0 |
N7—C9—H9C | 109.5 | C15—C18—H18 | 118.0 |
H9A—C9—H9C | 109.5 | O21—N19—O20 | 118.51 (18) |
H9B—C9—H9C | 109.5 | O21—N19—C18 | 119.08 (19) |
C2—C10—S11 | 114.36 (16) | O20—N19—C18 | 122.38 (18) |
C2—C10—H10A | 108.7 | ||
C5—O1—C2—C3 | 0.3 (2) | O1—C2—C10—S11 | 66.0 (2) |
C5—O1—C2—C10 | −177.59 (18) | C2—C10—S11—C12 | 51.41 (18) |
O1—C2—C3—C4 | 0.2 (3) | C10—S11—C12—C13 | 67.15 (18) |
C10—C2—C3—C4 | 177.6 (2) | S11—C12—C13—N14 | −173.02 (15) |
C2—C3—C4—C5 | −0.6 (3) | C12—C13—N14—C15 | −98.5 (2) |
C3—C4—C5—O1 | 0.8 (3) | C13—N14—C15—N16 | 0.4 (3) |
C3—C4—C5—C6 | −179.0 (2) | C13—N14—C15—C18 | 179.86 (19) |
C2—O1—C5—C4 | −0.7 (2) | N14—C15—N16—C17 | −179.44 (19) |
C2—O1—C5—C6 | 179.14 (18) | C18—C15—N16—C17 | 1.1 (3) |
C4—C5—C6—N7 | 98.0 (3) | N16—C15—C18—N19 | 175.1 (2) |
O1—C5—C6—N7 | −81.8 (2) | N14—C15—C18—N19 | −4.4 (3) |
C5—C6—N7—C9 | −69.5 (2) | C15—C18—N19—O21 | −178.11 (18) |
C5—C6—N7—C8 | 57.4 (3) | C15—C18—N19—O20 | −0.1 (3) |
C3—C2—C10—S11 | −111.2 (3) |
D—H···A | D—H | H···A | D···A | D—H···A |
N7—H7···Cl1 | 0.94 (3) | 2.13 (3) | 3.070 (2) | 172 (3) |
N14—H14···O20 | 0.86 | 1.93 | 2.612 (3) | 135 |
N16—H16···Cl1i | 0.86 | 2.37 | 3.166 (2) | 155 |
C6—H6A···O20ii | 0.97 | 2.33 | 3.263 (3) | 160 |
C6—H6B···Cl1iii | 0.97 | 2.80 | 3.712 (2) | 158 |
C8—H8A···Cl1iv | 0.98 | 2.66 | 3.568 (3) | 153 |
C9—H9B···O21ii | 0.96 | 2.47 | 3.424 (3) | 171 |
C18—H18···O21v | 0.93 | 2.47 | 3.399 (3) | 173 |
Symmetry codes: (i) x+1/2, −y+1/2, z+1/2; (ii) −x+1/2, y−1/2, −z+1/2; (iii) −x+1, −y, −z; (iv) −x+1, −y+1, −z; (v) −x+1, −y+2, −z+1. |
Experimental details
Crystal data | |
Chemical formula | C13H23N4O3S+·Cl− |
Mr | 350.86 |
Crystal system, space group | Monoclinic, P21/n |
Temperature (K) | 100 |
a, b, c (Å) | 12.1918 (6), 6.5318 (3), 22.0382 (8) |
β (°) | 93.985 (3) |
V (Å3) | 1750.76 (13) |
Z | 4 |
Radiation type | Mo Kα |
µ (mm−1) | 0.35 |
Crystal size (mm) | 0.45 × 0.25 × 0.23 |
Data collection | |
Diffractometer | Nonius Kappa CCD diffractometer |
Absorption correction | – |
No. of measured, independent and observed [I > 2σ(I)] reflections | 3994, 3994, 2680 |
Rint | 0.000 |
(sin θ/λ)max (Å−1) | 0.649 |
Refinement | |
R[F2 > 2σ(F2)], wR(F2), S | 0.042, 0.130, 0.80 |
No. of reflections | 3994 |
No. of parameters | 210 |
H-atom treatment | H atoms treated by a mixture of independent and constrained refinement |
Δρmax, Δρmin (e Å−3) | 0.29, −0.27 |
Computer programs: Nonius KappaCCD Server Software, DENZO-SMN (Otwinowski & Minor, 1997), DENZO-SMN, SHELXS97 (Sheldrick, 1997), SHELXL97 (Sheldrick, 1997), ORTEP-3 for Windows (Farrugia, 1998), SHELXL97.
D—H···A | D—H | H···A | D···A | D—H···A |
N7—H7···Cl1 | 0.94 (3) | 2.13 (3) | 3.070 (2) | 172 (3) |
N14—H14···O20 | 0.86 | 1.93 | 2.612 (3) | 135 |
N16—H16···Cl1i | 0.86 | 2.37 | 3.166 (2) | 155 |
C6—H6A···O20ii | 0.97 | 2.33 | 3.263 (3) | 160 |
C6—H6B···Cl1iii | 0.97 | 2.80 | 3.712 (2) | 158 |
C8—H8A···Cl1iv | 0.98 | 2.66 | 3.568 (3) | 153 |
C9—H9B···O21ii | 0.96 | 2.47 | 3.424 (3) | 171 |
C18—H18···O21v | 0.93 | 2.47 | 3.399 (3) | 173 |
Symmetry codes: (i) x+1/2, −y+1/2, z+1/2; (ii) −x+1/2, y−1/2, −z+1/2; (iii) −x+1, −y, −z; (iv) −x+1, −y+1, −z; (v) −x+1, −y+2, −z+1. |
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Ranitidine, an H2 receptor antagonist, is a high potency inhibitor of gastric acid secretion, and is used in the treatment of peptic ulcers and related gastro-intestinal disorders (Brogden et al., 1982). The crystal structure of ranitidine hydrogen oxalate (Kojić-Prodić et al., 1982) and ranitidine hydrochloride (Ishida et al., 1990) have previously been reported. Here we report the crystal structure of ranitidine hydrochloride, (I), in a different and as yet unpublished crystal form, and compare it with the published structures. \sch
The molecular structure is presented in Fig. 1. The enamine portion of the molecule can exist in two possible configurations with respect to the C15═C18 double bond: E and Z arrangements, in which the methylamino and nitro substituents are cis and trans to each other, respectively. The Z configuration is adopted in this structure, as opposed to the E arrangement in the crystal structure of ranitidine hydrogen oxalate, and both forms, disordered, in the previous structure of ranitidine hydrochloride. An equimolar mixture of E/Z enamine isomers has been reported in solution (Cholerton et al., 1984); interconversion presumably is facilitated by Π-electron delocalization over the enamine system. Thus the C15═C18 bond in this structure is lengthened to 1.425 (3) Å, and the single bonds C15—N14, C15—N16 and C18—N19 are shortened to 1.335 (3), 1.332 (3) and 1.349 (3) Å, respectively. Similarly, the two N—O distances in the nitro group, 1.270 (2) and 1.284 (2) Å, indicate electron delocalization, even though O20 takes part in a strong hydrogen bond and O21 is involved in a weak C—H···O interaction. The same phenomena were observed in ranitidine hydrogen oxalate, whereas in the other crystal form of ranitidine hydrohloride the disordered structure was interpreted in terms of electronically localized E and Z forms with distinct double and single bond lengths. Bond distances and angles in the rest of the molecule agree well with commonly accepted values. The least-squares plane through the nine atoms involved in the enamine moiety (C13 to O21) indicate they are planar, the r.m.s. deviation of the atoms being 0.035 (2) Å with maximum of 0.069 (2) Å for O20 and minimum of 0.001 (1) Å for C13. The ranitidine molecule, as a whole, adopts an eclipsed conformation (i.e. neither fully folded nor fully extended) similar to that of disordered ranitidine hydrochloride. Rotation of the group of atoms C13 through O21 by 114° about the C12—C13 bond results in conformational coincidence of this structure with the Z isomer in the disordered ranitidine HCl structure (Fig. 2) (primed set of atoms in Ishida et al. (1990)]. In contrast, ranitidine hydrogen oxalate was found to have a folded conformation. An open conformation is reportedly the one that is most likely to exist in solution (Sega et al., 1982; Gaggelli et al., 1988).
An intramolecular hydrogen bond from N14 to O20 (see Table 1) helps to stabilize the planarity of the 2-ethylamino-2-methylamino-1-nitroethylene moiety. Such an interaction is present in all of the ranitidine crystal structures and is the reason for E/Z configurations being favored in the solid state; in aqueous solution, with water available as a hydrogen-bond donor, rotation about the C15—C18 bond occurs readily (Cholerton et al., 1984). Rotation also occurs in other solvents: attempted crystallization of the present material in acetonitrile, the crystallization solvent used in the previous ranitidine hydrochloride structure determination, resulted in our getting crystals of that crystal form.
The furanyl ring is almost perfectly planar and forms an angle of 69.5 (1)° with the plane through the 2-ethylamino-2-methylamino-1-nitroethylene moiety atoms (C13 through O21), close to the value 63.4 (1)° in disordered ranitidine hydrochloride, and 75.2 (1)° in ranitidine hydrogen oxalate. In the crystal structure, the molecules are held together through hydrogen bonds from N atoms N7 and N16 to two different Cl anions (Table 1) forming one-dimensional infinite chains of molecules running perpendicular to the b axis along the base vector (101), in a head-to-tail fashion. The chains of molecules are held together by van der Waals interactions and weak hydrogen bonds of the type C—H···O (Steiner, 1997; Desiraju, 1996). The existence of this type of carbon-hydrogen bonds is facilitated by the presence of the adjacent activating groups NO2 and N+, and Cl− ions. The chloride ion is coordinated by four hydrogen atoms (H7, H16, H6B and H8A) forming a tetrahedron with almost perfect geometry.