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organic compounds\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

Journal logoCRYSTALLOGRAPHIC
COMMUNICATIONS
ISSN: 2056-9890
Volume 67| Part 8| August 2011| Page o1980
doi:10.1107/S1600536811025943

Di­ethyl [(9-anthr­yl)(4-methyl­anilino)meth­yl]phospho­nate

Ivanka Kraicheva,a* Ivelina Tsacheva,a Elitsa Vodenicharova,a Emil Tasheva and Kolio Troeva

aInstitute of Polymers, Bulgarian Academy of Sciences, Acad. G. Bonchev str., bl. 103A, 1113 Sofia, Bulgaria
*Correspondence e-mail: kraicheva@yahoo.com

(Received 13 June 2011; accepted 30 June 2011; online 9 July 2011)

The title compound, C26H28NO3P, crystallized with two independent mol­ecules in the asymmetric unit. The structural features (bond lengths and angles) of the two mol­ecules are almost identical. The inter­planar angle between the anthracene and toluidine rings is similar in the two mol­ecules, with values of 82.92 (5) and 80.70 (5)°. In the crystal, both molecules form inversion dimers linked by pairs of N—H⋯O hydrogen bonds. Three of the four ethyl groups are disordered over two sets of sites, the major components having occupancies of 0.748 (15), 0.77 (4) and 0.518 (19).

Related literature

For general background of the use of amino­phospho­nic acid derivatives in organic synthesis and as biologically active compounds, see: Kraicheva et al. (2011[Kraicheva, I., Tsacheva, I., Vodenicharova, E., Tashev. E., Tosheva, T., Kril, A., Topashka-Ancheva, M., Iliev, I., Gerassimova, Ts. & Troev, K. (2011). Eur. J. Med. Chem. Submitted.]).

[Scheme 1]

Experimental

Crystal data

  • C26H28NO3P

  • Mr = 433.46

  • Triclinic, [P \overline 1]

  • a = 9.5990 (3) Å

  • b = 12.6386 (5) Å

  • c = 20.2131 (7) Å

  • α = 75.865 (3)°

  • β = 76.780 (4)°

  • γ = 74.927 (3)°

  • V = 2260.13 (14) Å3

  • Z = 4

  • Mo Kα radiation

  • μ = 0.15 mm−1

  • T = 290 K

  • 0.31 × 0.18 × 0.15 mm
Data collection

  • Agilent SuperNova Dual diffractometer with an Atlas detector

  • Absorption correction: multi-scan (CrysAlis PRO; Agilent, 2010[Agilent (2010). CrysAlis PRO. Agilent Technologies, Yarnton, England.]) Tmin = 0.947, Tmax = 1.000

  • 20827 measured reflections

  • 12691 independent reflections

  • 8114 reflections with I > 2σ(I)

  • Rint = 0.036
Refinement

  • R[F2 > 2σ(F2)] = 0.056

  • wR(F2) = 0.153

  • S = 1.02

  • 12691 reflections

  • 637 parameters

  • 4 restraints

  • H-atom parameters constrained

  • Δρmax = 0.29 e Å−3

  • Δρmin = −0.34 e Å−3

Table 1
Hydrogen-bond geometry (Å, °)

D—H⋯A D—H H⋯A DA D—H⋯A
N1—H1⋯O1i 0.98 2.02 2.990 (2) 170
N1B—H1B⋯O21ii 0.90 2.15 3.016 (2) 163
Symmetry codes: (i) -x+1, -y+1, -z+1; (ii) -x+1, -y, -z.

Data collection: CrysAlis PRO (Agilent, 2010[Agilent (2010). CrysAlis PRO. Agilent Technologies, Yarnton, England.]); cell refinement: CrysAlis PRO; data reduction: CrysAlis PRO; program(s) used to solve structure: SHELXS97 (Sheldrick 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]); program(s) used to refine structure: SHELXL97 (Sheldrick, 2008[Sheldrick, G. M. (2008). Acta Cryst. A64, 112-122.]; molecular graphics: ORTEP-3 for Windows (Farrugia, 1997[Farrugia, L. J. (1997). J. Appl. Cryst. 30, 565.]); software used to prepare material for publication: WinGX (Farrugia, 1999[Farrugia, L. J. (1999). J. Appl. Cryst. 32, 837-838.]).

Supporting information

Crystal structure: contains datablocks I, global. DOI: 10.1107/S1600536811025943/ng5182sup1.cif

Structure factors: contains datablock I. DOI: 10.1107/S1600536811025943/ng5182Isup2.hkl

Supporting information file. DOI: 10.1107/S1600536811025943/ng5182Isup3.cml

checkCIF report


Comment top

Aminophosphonic acid derivatives constitute an important class of biologically active compounds with a great potential for medicinal and pharmaceutical applications. They are phosphorus analogues of natural alpha-aminocarboxylic acids - the bilding blocks of peptides and proteins Due to the close structural resemblance, aminophosphonates can mimic the aminoacids and can act as inhibitors and regulators of metabolic processes. Therefore they are extremely useful in the development of potential drugs against several metabolic disorders. Moreover, many of aminophosphonate derivatives exhibit antibacterial, antiviral and anticancer activity. The title compound has been synthesized and tested for cytotoxicity on Balb/c 3 T3 (clone31) cells, for in vitro antitumor activity using a panel of six human epithelial cancer cell lines and for genotoxicity and antiproliferative activity in vivo. Here we report its crystal structure.

The title compound (Fig. 1) possesses three distinct functional groups: anthracen, diethyl phosphonate and p-toluidine. It crystallizes with two independent molecules in the assymetric unit. The anthracen and toluidine moieties are nearly planar (with respective r.m.s. of 0.014/0.003 and 0.017/0.005Å for molecule A and B).

The interplanar angle beteween the anthracen and the toluidine is 82.92 (5) and 80.70 (5) °.

One can say that the diethyl phosphonate moiety is also positioned in the toluidine mean plane thus inferring a T-shape to the molecule.

In the crystal structure of the studied compound symmetrically equivalent molecules are linked together by N—H···O hydrogen bonds to form cyclic dimmers (Fig. 2).

Three of the four ethyl moieties present in the crystal structure of the title compound are disordered over two positions. The positional disorder on the O and C ethyl atoms was resolved by finding alternative positions from the difference Fourier map, and was subsequently refined over two positions. Where necessary bonds were constrained to distances of 1.54 (5) Å (P—O) and 1. 44 (5) Å (O—C and C—C). The occupancies of the component of the ethyl fragments starting with O2, O3 and O22 atoms are 0.737 (5), 0.755 (2) and 0.482 (3) respectively.

Related literature top

For general background of the use of aminophosphonic acid derivatives in organic synthesis and as biologically active compounds, see: Kraicheva et al. (2011).

Experimental top

The studied compound has been obtained according to Kraicheva et al. 2011. Suitable crystals were obtained by slow evaporation from methanol/methylen chloride solution (1:1 v/v) at room temperature.

Refinement top

All H atoms bonded to C were placed in idealized positions (C—Haromatic = 0.93 Å, C—Hmethylen = 0.97 Å and C—Hmethyl = 0.96 Å. The imino H atom was located from difference fourier map. All H atoms were constrained to ride on their parent atoms, with Uiso(H) = 1.2Ueq(C or N) and 1.5Ueq(Cmethyl).

The positional disorder on the O and C ethyl atoms was resolved by finding alternative positions from the difference Fourier map, and was subsequently refined over two positions. Where necessary distance restraints (C—C= 1.52+/-0.05 Å, C—O=1.44+/-0.05 Å and P—O = 1.54+/-0.05 Å) were employed The occupancies of the component of the ethyl fragments starting with O2, O3 and O22 atoms are 0.748 (4), 0.768 (2) and 0.482 (3) respectively.

Computing details top

Data collection: CrysAlis PRO (Agilent, 2010); cell refinement: CrysAlis PRO (Agilent, 2010); data reduction: CrysAlis PRO (Agilent, 2010); program(s) used to solve structure: SHELXS97 (Sheldrick 2008); 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).

Figures top
[Figure 1] Fig. 1. The asymmetric unit of title compound with the atom numbering scheme showing 50% probability displacement ellipsoids. H atoms have been omitted for clarity. The minor disorder component is shown as dasshed lines.
[Figure 2] Fig. 2. The packing arrangement of the molecules in the unit cell, showing the hydrogen-bonding interactions as dashed lines. [symmetry codes: (i) 1 - x, 1 - y, 1 - z; (ii) 1 - x, 1 - y, -z]
Diethyl [(9-anthryl)(4-methylanilino)methyl]phosphonate top
Crystal data top
C26H28NO3PF(000) = 920
Mr = 433.46Dx = 1.274 Mg m3
Triclinic, P1Melting point = 406–407 K
a = 9.5990 (3) ÅMo Kα radiation, λ = 0.7107 Å
b = 12.6386 (5) ÅCell parameters from 6846 reflections
c = 20.2131 (7) Åθ = 2.8–31.3°
α = 75.865 (3)°µ = 0.15 mm1
β = 76.780 (4)°T = 290 K
γ = 74.927 (3)°Prism, yellow
V = 2260.13 (14) Å30.31 × 0.18 × 0.15 mm
Z = 4
Data collection top
Agilent SuperNova Dual
diffractometer with an Atlas detector		12691 independent reflections
Radiation source: SuperNova (Mo) X-ray Source8114 reflections with I > 2σ(I)
Mirror monochromatorRint = 0.036
Detector resolution: 10.3974 pixels mm-1θmax = 30.0°, θmin = 2.8°
ω scansh = 1213
Absorption correction: multi-scan
(CrysAlis PRO; Agilent, 2010)		k = 1713
Tmin = 0.947, Tmax = 1.000l = 2828
20827 measured 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)] = 0.056Hydrogen site location: inferred from neighbouring sites
wR(F2) = 0.153H-atom parameters constrained
S = 1.02 w = 1/[σ2(Fo2) + (0.0574P)2 + 0.3871P]
where P = (Fo2 + 2Fc2)/3
12691 reflections(Δ/σ)max = 0.001
637 parametersΔρmax = 0.29 e Å3
4 restraintsΔρmin = 0.34 e Å3
Crystal data top
C26H28NO3Pγ = 74.927 (3)°
Mr = 433.46V = 2260.13 (14) Å3
Triclinic, P1Z = 4
a = 9.5990 (3) ÅMo Kα radiation
b = 12.6386 (5) ŵ = 0.15 mm1
c = 20.2131 (7) ÅT = 290 K
α = 75.865 (3)°0.31 × 0.18 × 0.15 mm
β = 76.780 (4)°
Data collection top
Agilent SuperNova Dual
diffractometer with an Atlas detector		12691 independent reflections
Absorption correction: multi-scan
(CrysAlis PRO; Agilent, 2010)		8114 reflections with I > 2σ(I)
Tmin = 0.947, Tmax = 1.000Rint = 0.036
20827 measured reflections
Refinement top
R[F2 > 2σ(F2)] = 0.0564 restraints
wR(F2) = 0.153H-atom parameters constrained
S = 1.02Δρmax = 0.29 e Å3
12691 reflectionsΔρmin = 0.34 e Å3
637 parameters
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.

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.

Fractional atomic coordinates and isotropic or equivalent isotropic displacement parameters (Å2) top
xyzUiso*/UeqOcc. (<1)
C1010.32852 (19)0.42066 (15)0.42195 (9)0.0383 (4)
H1010.25160.38730.45450.046*
C1020.32061 (18)0.40400 (14)0.35010 (9)0.0360 (4)
C1030.38352 (19)0.46855 (15)0.28834 (9)0.0399 (4)
C1040.4604 (2)0.55260 (17)0.28607 (11)0.0502 (5)
H1040.47070.56690.32750.060*
C1050.5185 (3)0.6119 (2)0.22562 (12)0.0632 (6)
H1050.56850.66540.22640.076*
C1060.5050 (3)0.5943 (2)0.16170 (12)0.0741 (7)
H1060.54440.63670.12060.089*
C1070.4352 (3)0.5163 (2)0.16009 (11)0.0675 (7)
H1070.42710.50480.11750.081*
C1080.3723 (2)0.45006 (18)0.22268 (9)0.0470 (5)
C1090.3007 (2)0.36943 (19)0.22033 (10)0.0523 (5)
H1090.29440.35820.17740.063*
C1100.2384 (2)0.30518 (16)0.27977 (10)0.0440 (4)
C1110.1637 (3)0.22403 (19)0.27558 (12)0.0587 (6)
H1110.16010.21280.23230.070*
C1130.1044 (3)0.17947 (19)0.39868 (13)0.0623 (6)
H1130.05850.13770.43820.075*
C1140.1760 (2)0.25470 (17)0.40555 (10)0.0502 (5)
H1140.17890.26250.44970.060*
C1150.24696 (19)0.32237 (15)0.34655 (9)0.0386 (4)
C1160.0284 (3)0.79981 (17)0.40743 (11)0.0584 (6)
H1160.02470.87500.40460.070*
C1170.1572 (2)0.72306 (17)0.41614 (10)0.0515 (5)
H1170.23890.74750.41870.062*
C1180.1675 (2)0.60930 (15)0.42123 (8)0.0402 (4)
C1200.0428 (2)0.57649 (16)0.41685 (9)0.0443 (4)
H1200.04570.50140.41980.053*
C1210.0860 (2)0.65542 (18)0.40804 (10)0.0493 (5)
H1210.16830.63160.40560.059*
C1220.0961 (2)0.76765 (18)0.40273 (10)0.0534 (5)
C1230.2378 (3)0.8513 (2)0.39294 (14)0.0830 (8)
H23A0.29100.82450.36800.124*
H23B0.21670.92160.36720.124*
H23C0.29580.86080.43740.124*
C1260.8357 (3)0.4455 (2)0.32847 (12)0.0691 (7)
H26A0.91060.47840.33430.104*
H26B0.77880.49700.29610.104*
H26C0.88040.37790.31120.104*
C2010.19612 (18)0.10024 (15)0.06409 (8)0.0368 (4)
H2010.13810.04380.07110.044*
C2020.09303 (18)0.19745 (14)0.09577 (8)0.0350 (4)
C2030.02950 (19)0.17438 (15)0.14672 (8)0.0381 (4)
C2040.0612 (2)0.06593 (18)0.17192 (10)0.0501 (5)
H2040.00240.00550.15490.060*
C2050.1815 (3)0.0481 (2)0.22005 (11)0.0650 (6)
H2050.19920.02360.23480.078*
C2060.2798 (3)0.1369 (3)0.24797 (12)0.0695 (7)
H2060.36160.12340.28100.083*
C2070.2557 (2)0.2408 (2)0.22694 (11)0.0616 (6)
H2070.32080.29870.24600.074*
C2080.1315 (2)0.26435 (17)0.17570 (9)0.0438 (4)
C2090.1076 (2)0.37117 (17)0.15378 (10)0.0501 (5)
H2090.17540.42900.17190.060*
C2100.0136 (2)0.39572 (15)0.10583 (9)0.0438 (4)
C2110.0369 (3)0.50719 (17)0.08596 (12)0.0588 (6)
H2110.03110.56360.10530.071*
C2120.1541 (3)0.53224 (19)0.04032 (13)0.0661 (6)
H2120.16710.60530.02800.079*
C2130.2572 (3)0.44751 (18)0.01113 (11)0.0601 (6)
H2130.33910.46530.02020.072*
C2140.2408 (2)0.34046 (17)0.02739 (10)0.0481 (4)
H2140.31130.28670.00660.058*
C2150.11737 (19)0.30786 (14)0.07585 (9)0.0374 (4)
C2160.0702 (2)0.19826 (17)0.09719 (10)0.0476 (5)
H2160.16980.19860.08650.057*
C2170.0126 (2)0.15950 (16)0.04435 (9)0.0438 (4)
H2170.03180.13440.00080.053*
C2180.16218 (19)0.15833 (14)0.05918 (9)0.0387 (4)
C2200.2244 (2)0.19460 (16)0.12763 (10)0.0454 (4)
H2200.32440.19310.13890.055*
C2210.1408 (2)0.23251 (17)0.17861 (10)0.0517 (5)
H2210.18550.25650.22380.062*
C2220.0089 (2)0.23628 (17)0.16500 (10)0.0476 (5)
C2230.0985 (3)0.2816 (3)0.22198 (12)0.0806 (8)
H23D0.19940.27990.20310.121*
H23E0.06320.23650.25680.121*
H23F0.09010.35720.24230.121*
C2260.3190 (3)0.0812 (2)0.23724 (13)0.0782 (7)
H26D0.35470.14570.21530.094*
H26E0.23070.09210.27030.094*
C2270.4284 (4)0.0743 (3)0.27378 (16)0.1135 (12)
H27D0.51820.06870.24180.170*
H27E0.44490.14020.30910.170*
H27F0.39460.00960.29470.170*
C1120.0984 (3)0.1634 (2)0.33272 (14)0.0661 (6)
H1120.04950.11120.32890.079*
N10.29837 (18)0.53514 (13)0.43061 (8)0.0485 (4)
H10.36740.55970.44930.058*
N1B0.25112 (17)0.12429 (14)0.00954 (7)0.0459 (4)
H1B0.34790.10260.02320.055*
O10.50897 (16)0.36126 (12)0.51906 (7)0.0542 (4)
O20.4889 (7)0.2224 (6)0.4522 (4)0.0535 (11)0.748 (15)
C1240.6130 (7)0.1334 (4)0.4410 (5)0.0776 (17)0.748 (15)
H24A0.68260.16090.40170.093*0.748 (15)
H24B0.58140.07460.42910.093*0.748 (15)
C1250.6876 (13)0.0857 (6)0.5009 (6)0.128 (4)0.748 (15)
H25A0.76850.02590.48990.193*0.748 (15)
H25B0.61990.05750.54000.193*0.748 (15)
H25C0.72310.14250.51190.193*0.748 (15)
O2B0.531 (3)0.229 (2)0.4318 (13)0.078 (6)0.252 (15)
C3240.592 (2)0.1266 (13)0.4840 (15)0.094 (6)0.252 (15)
H32A0.57270.14160.53040.113*0.252 (15)
H32B0.55530.06170.48470.113*0.252 (15)
C3250.742 (2)0.1148 (19)0.4540 (14)0.110 (7)0.252 (15)
H32C0.79900.05330.48170.164*0.252 (15)
H32D0.77300.18220.45170.164*0.252 (15)
H32E0.75670.10070.40800.164*0.252 (15)
O230.28356 (18)0.01628 (13)0.18572 (7)0.0675 (5)
O30.6276 (8)0.3689 (6)0.3922 (3)0.0490 (12)0.77 (4)
C1270.7412 (11)0.4202 (8)0.3947 (6)0.077 (3)0.77 (4)
H12D0.69720.48890.41180.092*0.77 (4)
H12E0.80060.37100.42760.092*0.77 (4)
O3B0.619 (3)0.404 (5)0.3910 (13)0.079 (7)0.23 (4)
C2730.754 (3)0.4200 (16)0.4067 (15)0.046 (4)0.23 (4)
H27A0.80600.35300.43360.055*0.23 (4)
H27B0.73630.48250.42960.055*0.23 (4)
O210.43711 (15)0.07165 (12)0.08495 (7)0.0539 (4)
O220.4284 (11)0.1262 (8)0.1064 (5)0.0494 (15)0.482 (19)
C2240.5885 (18)0.1236 (15)0.0752 (7)0.065 (3)0.482 (19)
H22D0.64930.06660.10450.078*0.482 (19)
H22E0.60920.10350.03000.078*0.482 (19)
C2250.6267 (16)0.2323 (10)0.0677 (6)0.056 (3)0.482 (19)
H22A0.73140.22290.05820.084*0.482 (19)
H22B0.58770.26000.10990.084*0.482 (19)
H22C0.58590.28450.03020.084*0.482 (19)
O22B0.4432 (11)0.1264 (8)0.0802 (6)0.0587 (18)0.518 (19)
C2290.5762 (16)0.1197 (14)0.1033 (8)0.070 (3)0.518 (19)
H22F0.65120.05610.09110.085*0.518 (19)
H22G0.56000.11500.15300.085*0.518 (19)
C4250.616 (2)0.2254 (15)0.0652 (9)0.112 (6)0.518 (19)
H42A0.69000.23920.08470.168*0.518 (19)
H42B0.53060.28520.06850.168*0.518 (19)
H42C0.65230.22100.01740.168*0.518 (19)
P10.49980 (6)0.34524 (4)0.45120 (3)0.04332 (14)
P1B0.35236 (5)0.03141 (4)0.10715 (3)0.04175 (13)
Atomic displacement parameters (Å2) top
U11U22U33U12U13U23
C1010.0405 (9)0.0401 (9)0.0382 (9)0.0057 (8)0.0127 (8)0.0131 (8)
C1020.0363 (9)0.0367 (9)0.0370 (9)0.0004 (7)0.0135 (7)0.0123 (7)
C1030.0360 (9)0.0423 (10)0.0399 (9)0.0004 (8)0.0097 (7)0.0117 (8)
C1040.0481 (11)0.0518 (12)0.0512 (11)0.0111 (9)0.0118 (9)0.0077 (9)
C1050.0557 (13)0.0623 (14)0.0660 (14)0.0174 (11)0.0052 (11)0.0022 (12)
C1060.0728 (16)0.0869 (19)0.0522 (13)0.0262 (15)0.0079 (12)0.0026 (13)
C1070.0696 (15)0.0884 (18)0.0393 (11)0.0176 (14)0.0011 (10)0.0125 (11)
C1080.0440 (10)0.0573 (12)0.0369 (9)0.0030 (9)0.0062 (8)0.0131 (9)
C1090.0521 (11)0.0684 (14)0.0391 (10)0.0034 (10)0.0090 (9)0.0250 (10)
C1100.0419 (10)0.0476 (11)0.0473 (10)0.0007 (8)0.0145 (8)0.0233 (9)
C1110.0644 (14)0.0589 (13)0.0661 (14)0.0070 (11)0.0234 (12)0.0328 (12)
C1130.0703 (15)0.0520 (13)0.0707 (14)0.0226 (11)0.0216 (12)0.0047 (11)
C1140.0591 (12)0.0472 (11)0.0494 (11)0.0145 (10)0.0174 (10)0.0085 (9)
C1150.0399 (9)0.0378 (9)0.0407 (9)0.0023 (7)0.0141 (8)0.0125 (8)
C1160.0786 (16)0.0376 (11)0.0523 (12)0.0035 (11)0.0083 (11)0.0094 (9)
C1170.0605 (13)0.0469 (11)0.0505 (11)0.0125 (10)0.0100 (10)0.0149 (9)
C1180.0478 (10)0.0427 (10)0.0307 (8)0.0055 (8)0.0086 (8)0.0116 (7)
C1200.0503 (11)0.0415 (10)0.0420 (9)0.0068 (8)0.0102 (8)0.0114 (8)
C1210.0454 (11)0.0572 (12)0.0421 (10)0.0039 (9)0.0081 (9)0.0113 (9)
C1220.0591 (13)0.0509 (12)0.0381 (10)0.0055 (10)0.0060 (9)0.0070 (9)
C1230.0782 (18)0.0672 (16)0.0792 (17)0.0191 (14)0.0132 (14)0.0074 (13)
C1260.0499 (13)0.0983 (19)0.0649 (14)0.0136 (13)0.0065 (11)0.0329 (14)
C2010.0352 (8)0.0374 (9)0.0378 (9)0.0014 (7)0.0071 (7)0.0136 (7)
C2020.0344 (8)0.0366 (9)0.0337 (8)0.0003 (7)0.0105 (7)0.0107 (7)
C2030.0379 (9)0.0449 (10)0.0325 (8)0.0054 (8)0.0085 (7)0.0115 (7)
C2040.0535 (12)0.0527 (12)0.0440 (10)0.0131 (10)0.0016 (9)0.0138 (9)
C2050.0701 (15)0.0769 (16)0.0514 (12)0.0353 (13)0.0045 (11)0.0123 (12)
C2060.0564 (14)0.104 (2)0.0535 (13)0.0337 (14)0.0101 (11)0.0255 (13)
C2070.0449 (11)0.0882 (18)0.0534 (12)0.0068 (12)0.0011 (10)0.0340 (12)
C2080.0363 (9)0.0571 (12)0.0389 (9)0.0010 (8)0.0075 (8)0.0198 (9)
C2090.0481 (11)0.0520 (12)0.0499 (11)0.0082 (9)0.0126 (9)0.0261 (10)
C2100.0502 (11)0.0392 (10)0.0421 (9)0.0027 (8)0.0155 (9)0.0145 (8)
C2110.0740 (15)0.0388 (11)0.0640 (13)0.0027 (10)0.0198 (12)0.0198 (10)
C2120.0927 (19)0.0393 (11)0.0672 (14)0.0149 (12)0.0171 (14)0.0086 (11)
C2130.0709 (15)0.0497 (12)0.0576 (13)0.0204 (11)0.0046 (11)0.0053 (10)
C2140.0509 (11)0.0434 (11)0.0479 (10)0.0080 (9)0.0058 (9)0.0100 (9)
C2150.0400 (9)0.0353 (9)0.0370 (9)0.0011 (7)0.0114 (7)0.0106 (7)
C2160.0389 (10)0.0560 (12)0.0498 (11)0.0021 (9)0.0097 (9)0.0209 (9)
C2170.0428 (10)0.0495 (11)0.0380 (9)0.0053 (8)0.0042 (8)0.0146 (8)
C2180.0395 (9)0.0357 (9)0.0416 (9)0.0005 (7)0.0099 (8)0.0157 (8)
C2200.0413 (10)0.0465 (11)0.0457 (10)0.0070 (8)0.0034 (8)0.0106 (9)
C2210.0546 (12)0.0531 (12)0.0421 (10)0.0073 (10)0.0068 (9)0.0060 (9)
C2220.0505 (11)0.0495 (11)0.0442 (10)0.0002 (9)0.0160 (9)0.0162 (9)
C2230.0679 (16)0.111 (2)0.0574 (14)0.0031 (15)0.0263 (13)0.0154 (14)
C2260.0806 (18)0.0803 (18)0.0590 (14)0.0117 (15)0.0067 (13)0.0021 (13)
C2270.109 (3)0.142 (3)0.084 (2)0.012 (2)0.055 (2)0.016 (2)
C1120.0738 (16)0.0536 (13)0.0876 (17)0.0201 (12)0.0275 (14)0.0258 (13)
N10.0481 (9)0.0455 (9)0.0609 (10)0.0010 (7)0.0225 (8)0.0251 (8)
N1B0.0336 (8)0.0616 (10)0.0390 (8)0.0027 (7)0.0053 (6)0.0184 (7)
O10.0599 (9)0.0638 (9)0.0471 (8)0.0125 (7)0.0248 (7)0.0124 (7)
O20.058 (2)0.0393 (16)0.067 (2)0.0059 (19)0.0242 (17)0.0098 (18)
C1240.087 (3)0.049 (2)0.096 (4)0.007 (2)0.021 (3)0.032 (3)
C1250.157 (8)0.067 (3)0.177 (8)0.031 (4)0.121 (7)0.027 (4)
O2B0.085 (13)0.058 (9)0.104 (14)0.029 (8)0.062 (10)0.045 (9)
C3240.127 (14)0.052 (8)0.106 (15)0.030 (9)0.008 (13)0.033 (10)
C3250.100 (14)0.095 (12)0.133 (17)0.013 (9)0.047 (13)0.004 (12)
O230.0779 (11)0.0682 (10)0.0406 (8)0.0215 (8)0.0197 (7)0.0129 (7)
O30.0478 (18)0.057 (2)0.048 (2)0.0098 (16)0.0123 (15)0.0194 (19)
C1270.072 (4)0.134 (6)0.051 (3)0.054 (4)0.012 (3)0.032 (3)
O3B0.039 (6)0.11 (2)0.073 (8)0.017 (10)0.027 (6)0.017 (9)
C2730.039 (6)0.044 (9)0.064 (11)0.006 (6)0.028 (7)0.014 (6)
O210.0446 (7)0.0513 (8)0.0595 (8)0.0090 (6)0.0094 (7)0.0197 (7)
O220.045 (2)0.046 (2)0.058 (4)0.0084 (16)0.006 (3)0.016 (3)
C2240.050 (4)0.066 (5)0.077 (6)0.007 (3)0.007 (5)0.023 (6)
C2250.048 (5)0.061 (5)0.066 (6)0.018 (4)0.008 (4)0.021 (4)
O22B0.046 (3)0.062 (3)0.072 (4)0.016 (2)0.025 (4)0.001 (4)
C2290.053 (6)0.070 (4)0.101 (8)0.014 (4)0.042 (7)0.016 (7)
C4250.067 (6)0.156 (12)0.124 (10)0.067 (7)0.022 (6)0.004 (9)
P10.0467 (3)0.0427 (3)0.0453 (3)0.0046 (2)0.0201 (2)0.0117 (2)
P1B0.0369 (2)0.0411 (3)0.0455 (3)0.0009 (2)0.0121 (2)0.0107 (2)
Geometric parameters (Å, º) top
C101—N11.446 (2)C213—C2141.354 (3)
C101—C1021.539 (2)C213—H2130.9300
C101—P11.8208 (17)C214—C2151.435 (3)
C101—H1010.9800C214—H2140.9300
C102—C1031.415 (2)C216—C2221.383 (3)
C102—C1151.417 (2)C216—C2171.394 (3)
C103—C1041.429 (3)C216—H2160.9300
C103—C1081.434 (2)C217—C2181.395 (3)
C104—C1051.351 (3)C217—H2170.9300
C104—H1040.9300C218—N1B1.382 (2)
C105—C1061.403 (3)C218—C2201.391 (2)
C105—H1050.9300C220—C2211.369 (3)
C106—C1071.338 (3)C220—H2200.9300
C106—H1060.9300C221—C2221.390 (3)
C107—C1081.436 (3)C221—H2210.9300
C107—H1070.9300C222—C2231.506 (3)
C108—C1091.384 (3)C223—H23D0.9600
C109—C1101.381 (3)C223—H23E0.9600
C109—H1090.9300C223—H23F0.9600
C110—C1111.423 (3)C226—O231.426 (3)
C110—C1151.442 (2)C226—C2271.446 (4)
C111—C1121.342 (3)C226—H26D0.9700
C111—H1110.9300C226—H26E0.9700
C113—C1141.357 (3)C227—H27D0.9600
C113—C1121.413 (3)C227—H27E0.9600
C113—H1130.9300C227—H27F0.9600
C114—C1151.432 (3)C112—H1120.9300
C114—H1140.9300N1—H10.9784
C116—C1171.376 (3)N1B—H1B0.8955
C116—C1221.387 (3)O1—P11.4596 (13)
C116—H1160.9300O2—C1241.428 (9)
C117—C1181.395 (3)O2—P11.577 (8)
C117—H1170.9300C124—C1251.468 (12)
C118—N11.379 (2)C124—H24A0.9700
C118—C1201.392 (3)C124—H24B0.9700
C120—C1211.389 (3)C125—H25A0.9600
C120—H1200.9300C125—H25B0.9600
C121—C1221.376 (3)C125—H25C0.9600
C121—H1210.9300O2B—P11.55 (2)
C122—C1231.510 (3)O2B—C3241.54 (3)
C123—H23A0.9600C324—C3251.41 (3)
C123—H23B0.9600C324—H32A0.9700
C123—H23C0.9600C324—H32B0.9700
C126—C1271.451 (10)C325—H32C0.9600
C126—C2731.59 (3)C325—H32D0.9600
C126—H26A0.9600C325—H32E0.9600
C126—H26B0.9600O23—P1B1.5598 (15)
C126—H26C0.9600O3—C1271.420 (11)
C201—N1B1.445 (2)O3—P11.537 (7)
C201—C2021.537 (2)C127—H12D0.9700
C201—P1B1.8200 (17)C127—H12E0.9700
C201—H2010.9800O3B—C2731.48 (3)
C202—C2031.417 (2)O3B—P11.64 (3)
C202—C2151.420 (2)C273—H27A0.9700
C203—C2041.427 (3)C273—H27B0.9700
C203—C2081.442 (2)O21—P1B1.4584 (14)
C204—C2051.358 (3)O22—C2241.517 (18)
C204—H2040.9300O22—P1B1.553 (9)
C205—C2061.408 (3)C224—C2251.48 (2)
C205—H2050.9300C224—H22D0.9700
C206—C2071.342 (3)C224—H22E0.9700
C206—H2060.9300C225—H22A0.9600
C207—C2081.432 (3)C225—H22B0.9600
C207—H2070.9300C225—H22C0.9600
C208—C2091.376 (3)O22B—C2291.432 (16)
C209—C2101.383 (3)O22B—P1B1.583 (9)
C209—H2090.9300C229—C4251.47 (2)
C210—C2111.429 (3)C229—H22F0.9700
C210—C2151.439 (2)C229—H22G0.9700
C211—C2121.336 (3)C425—H42A0.9600
C211—H2110.9300C425—H42B0.9600
C212—C2131.402 (3)C425—H42C0.9600
C212—H2120.9300
N1—C101—C102116.10 (14)C216—C217—H217120.0
N1—C101—P1109.21 (11)C218—C217—H217120.0
C102—C101—P1113.18 (12)N1B—C218—C220118.43 (17)
N1—C101—H101105.8N1B—C218—C217123.58 (17)
C102—C101—H101105.8C220—C218—C217117.99 (17)
P1—C101—H101105.8C221—C220—C218120.97 (18)
C103—C102—C115119.87 (15)C221—C220—H220119.5
C103—C102—C101121.64 (15)C218—C220—H220119.5
C115—C102—C101118.49 (15)C220—C221—C222122.15 (19)
C102—C103—C104124.40 (16)C220—C221—H221118.9
C102—C103—C108119.39 (17)C222—C221—H221118.9
C104—C103—C108116.21 (17)C216—C222—C221116.85 (17)
C105—C104—C103122.1 (2)C216—C222—C223122.4 (2)
C105—C104—H104119.0C221—C222—C223120.77 (19)
C103—C104—H104119.0C222—C223—H23D109.5
C104—C105—C106121.2 (2)C222—C223—H23E109.5
C104—C105—H105119.4H23D—C223—H23E109.5
C106—C105—H105119.4C222—C223—H23F109.5
C107—C106—C105119.8 (2)H23D—C223—H23F109.5
C107—C106—H106120.1H23E—C223—H23F109.5
C105—C106—H106120.1O23—C226—C227112.8 (3)
C106—C107—C108121.4 (2)O23—C226—H26D109.0
C106—C107—H107119.3C227—C226—H26D109.0
C108—C107—H107119.3O23—C226—H26E109.0
C109—C108—C103119.85 (18)C227—C226—H26E109.0
C109—C108—C107120.88 (18)H26D—C226—H26E107.8
C103—C108—C107119.3 (2)C226—C227—H27D109.5
C110—C109—C108121.99 (17)C226—C227—H27E109.5
C110—C109—H109119.0H27D—C227—H27E109.5
C108—C109—H109119.0C226—C227—H27F109.5
C109—C110—C111120.60 (18)H27D—C227—H27F109.5
C109—C110—C115119.46 (17)H27E—C227—H27F109.5
C111—C110—C115119.92 (19)C111—C112—C113119.6 (2)
C112—C111—C110121.45 (19)C111—C112—H112120.2
C112—C111—H111119.3C113—C112—H112120.2
C110—C111—H111119.3C118—N1—C101122.73 (15)
C114—C113—C112121.3 (2)C118—N1—H1117.3
C114—C113—H113119.4C101—N1—H1119.6
C112—C113—H113119.4C218—N1B—C201123.52 (15)
C113—C114—C115121.76 (19)C218—N1B—H1B118.4
C113—C114—H114119.1C201—N1B—H1B116.9
C115—C114—H114119.1C124—O2—P1123.9 (5)
C102—C115—C114124.57 (16)O2—C124—C125114.0 (9)
C102—C115—C110119.44 (17)O2—C124—H24A108.7
C114—C115—C110115.99 (17)C125—C124—H24A108.7
C117—C116—C122121.6 (2)O2—C124—H24B108.7
C117—C116—H116119.2C125—C124—H24B108.7
C122—C116—H116119.2H24A—C124—H24B107.6
C116—C117—C118121.2 (2)C124—C125—H25A109.5
C116—C117—H117119.4C124—C125—H25B109.5
C118—C117—H117119.4H25A—C125—H25B109.5
N1—C118—C120123.23 (17)C124—C125—H25C109.5
N1—C118—C117119.26 (17)H25A—C125—H25C109.5
C120—C118—C117117.51 (18)H25B—C125—H25C109.5
C121—C120—C118120.30 (18)P1—O2B—C324117.5 (18)
C121—C120—H120119.8C325—C324—O2B98 (3)
C118—C120—H120119.8C325—C324—H32A112.1
C122—C121—C120122.2 (2)O2B—C324—H32A112.1
C122—C121—H121118.9C325—C324—H32B112.1
C120—C121—H121118.9O2B—C324—H32B112.1
C121—C122—C116117.21 (19)H32A—C324—H32B109.7
C121—C122—C123120.8 (2)C324—C325—H32C109.5
C116—C122—C123122.0 (2)C324—C325—H32D109.5
C122—C123—H23A109.5H32C—C325—H32D109.5
C122—C123—H23B109.5C324—C325—H32E109.5
H23A—C123—H23B109.5H32C—C325—H32E109.5
C122—C123—H23C109.5H32D—C325—H32E109.5
H23A—C123—H23C109.5C226—O23—P1B125.73 (15)
H23B—C123—H23C109.5C127—O3—P1126.4 (6)
C127—C126—H26A109.5C126—C127—O3114.1 (8)
C273—C126—H26A100.0C126—C127—H12D108.7
C127—C126—H26B109.5O3—C127—H12D108.7
C273—C126—H26B116.5C126—C127—H12E108.7
H26A—C126—H26B109.5O3—C127—H12E108.7
C127—C126—H26C109.5H12D—C127—H12E107.6
C273—C126—H26C111.4C273—O3B—P1121.8 (19)
H26A—C126—H26C109.5O3B—C273—C12696.5 (18)
H26B—C126—H26C109.5O3B—C273—H27A112.5
N1B—C201—C202116.66 (14)C126—C273—H27A112.5
N1B—C201—P1B107.55 (11)O3B—C273—H27B112.5
C202—C201—P1B114.17 (11)C126—C273—H27B112.5
N1B—C201—H201105.9H27A—C273—H27B110.0
C202—C201—H201105.9C224—O22—P1B122.6 (9)
P1B—C201—H201105.9C225—C224—O22112.1 (12)
C203—C202—C215119.74 (15)C225—C224—H22D109.2
C203—C202—C201118.02 (15)O22—C224—H22D109.2
C215—C202—C201122.24 (15)C225—C224—H22E109.2
C202—C203—C204124.16 (17)O22—C224—H22E109.2
C202—C203—C208119.50 (17)H22D—C224—H22E107.9
C204—C203—C208116.33 (17)C224—C225—H22A109.5
C205—C204—C203122.1 (2)C224—C225—H22B109.5
C205—C204—H204119.0H22A—C225—H22B109.5
C203—C204—H204119.0C224—C225—H22C109.5
C204—C205—C206120.9 (2)H22A—C225—H22C109.5
C204—C205—H205119.6H22B—C225—H22C109.5
C206—C205—H205119.6C229—O22B—P1B122.6 (9)
C207—C206—C205120.1 (2)O22B—C229—C425101.9 (13)
C207—C206—H206120.0O22B—C229—H22F111.4
C205—C206—H206120.0C425—C229—H22F111.4
C206—C207—C208121.3 (2)O22B—C229—H22G111.4
C206—C207—H207119.4C425—C229—H22G111.4
C208—C207—H207119.4H22F—C229—H22G109.3
C209—C208—C207121.20 (19)C229—C425—H42A109.5
C209—C208—C203119.44 (17)C229—C425—H42B109.5
C207—C208—C203119.36 (19)H42A—C425—H42B109.5
C208—C209—C210122.40 (17)C229—C425—H42C109.5
C208—C209—H209118.8H42A—C425—H42C109.5
C210—C209—H209118.8H42B—C425—H42C109.5
C209—C210—C211120.74 (18)O1—P1—O3116.2 (2)
C209—C210—C215119.54 (18)O1—P1—O2B123.7 (8)
C211—C210—C215119.71 (19)O3—P1—O2B86.3 (10)
C212—C211—C210121.6 (2)O1—P1—O2112.7 (3)
C212—C211—H211119.2O3—P1—O2105.1 (3)
C210—C211—H211119.2O1—P1—O3B109.9 (14)
C211—C212—C213119.5 (2)O2B—P1—O3B101 (2)
C211—C212—H212120.2O2—P1—O3B120 (2)
C213—C212—H212120.2O1—P1—C101113.62 (8)
C214—C213—C212121.8 (2)O3—P1—C101108.5 (3)
C214—C213—H213119.1O2B—P1—C101104.8 (9)
C212—C213—H213119.1O2—P1—C10199.0 (3)
C213—C214—C215121.6 (2)O3B—P1—C101101.0 (11)
C213—C214—H214119.2O21—P1B—O22120.8 (3)
C215—C214—H214119.2O21—P1B—O23114.37 (8)
C202—C215—C214124.89 (16)O22—P1B—O2395.8 (3)
C202—C215—C210119.31 (16)O21—P1B—O22B110.3 (4)
C214—C215—C210115.81 (17)O23—P1B—O22B114.6 (4)
C222—C216—C217122.05 (18)O21—P1B—C201114.42 (8)
C222—C216—H216119.0O22—P1B—C201105.2 (4)
C217—C216—H216119.0O23—P1B—C201103.62 (8)
C216—C217—C218119.96 (17)O22B—P1B—C20198.3 (3)
N1—C101—C102—C10344.0 (2)C209—C210—C215—C214179.10 (16)
P1—C101—C102—C10383.48 (18)C211—C210—C215—C2140.7 (2)
N1—C101—C102—C115135.43 (17)C222—C216—C217—C2180.0 (3)
P1—C101—C102—C11597.10 (16)C216—C217—C218—N1B178.08 (17)
C115—C102—C103—C104179.81 (17)C216—C217—C218—C2201.2 (3)
C101—C102—C103—C1040.8 (3)N1B—C218—C220—C221177.97 (18)
C115—C102—C103—C1080.2 (2)C217—C218—C220—C2211.4 (3)
C101—C102—C103—C108179.66 (15)C218—C220—C221—C2220.3 (3)
C102—C103—C104—C105179.97 (19)C217—C216—C222—C2211.0 (3)
C108—C103—C104—C1050.4 (3)C217—C216—C222—C223178.1 (2)
C103—C104—C105—C1060.6 (3)C220—C221—C222—C2160.9 (3)
C104—C105—C106—C1071.0 (4)C220—C221—C222—C223178.2 (2)
C105—C106—C107—C1080.4 (4)C110—C111—C112—C1130.5 (4)
C102—C103—C108—C1090.2 (3)C114—C113—C112—C1110.4 (4)
C104—C103—C108—C109179.44 (18)C120—C118—N1—C10113.7 (3)
C102—C103—C108—C107179.46 (18)C117—C118—N1—C101166.66 (17)
C104—C103—C108—C1070.9 (3)C102—C101—N1—C11859.0 (2)
C106—C107—C108—C109179.8 (2)P1—C101—N1—C118171.63 (14)
C106—C107—C108—C1030.6 (3)C220—C218—N1B—C201170.83 (16)
C103—C108—C109—C1100.1 (3)C217—C218—N1B—C2018.4 (3)
C107—C108—C109—C110179.5 (2)C202—C201—N1B—C21862.0 (2)
C108—C109—C110—C111179.10 (19)P1B—C201—N1B—C218168.22 (14)
C108—C109—C110—C1150.3 (3)P1—O2—C124—C12576.8 (12)
C109—C110—C111—C112177.8 (2)P1—O2B—C324—C32597 (3)
C115—C110—C111—C1121.0 (3)C227—C226—O23—P1B95.3 (3)
C112—C113—C114—C1150.8 (3)C273—C126—C127—O3162 (6)
C103—C102—C115—C114178.18 (17)P1—O3—C127—C126172.0 (5)
C101—C102—C115—C1141.2 (3)P1—O3B—C273—C126165 (3)
C103—C102—C115—C1100.7 (2)C127—C126—C273—O3B1 (6)
C101—C102—C115—C110179.88 (15)P1B—O22—C224—C225168.1 (8)
C113—C114—C115—C102178.57 (19)P1B—O22B—C229—C425179.2 (8)
C113—C114—C115—C1100.3 (3)C127—O3—P1—O110.1 (10)
C109—C110—C115—C1020.7 (3)C127—O3—P1—O2B136.1 (12)
C111—C110—C115—C102179.51 (17)C127—O3—P1—O2135.4 (9)
C109—C110—C115—C114178.23 (18)C127—O3—P1—O3B58 (4)
C111—C110—C115—C1140.5 (3)C127—O3—P1—C101119.5 (9)
C122—C116—C117—C1180.6 (3)C324—O2B—P1—O18 (3)
C116—C117—C118—N1179.37 (18)C324—O2B—P1—O3112 (2)
C116—C117—C118—C1200.3 (3)C324—O2B—P1—O266 (3)
N1—C118—C120—C121179.37 (17)C324—O2B—P1—O3B115 (2)
C117—C118—C120—C1210.3 (3)C324—O2B—P1—C101140.3 (19)
C118—C120—C121—C1220.5 (3)C124—O2—P1—O188.8 (7)
C120—C121—C122—C1160.8 (3)C124—O2—P1—O338.7 (8)
C120—C121—C122—C123179.8 (2)C124—O2—P1—O2B41 (3)
C117—C116—C122—C1210.8 (3)C124—O2—P1—O3B42.6 (13)
C117—C116—C122—C123179.8 (2)C124—O2—P1—C101150.8 (7)
N1B—C201—C202—C203139.97 (16)C273—O3B—P1—O126 (4)
P1B—C201—C202—C20393.51 (16)C273—O3B—P1—O392 (5)
N1B—C201—C202—C21540.3 (2)C273—O3B—P1—O2B106 (4)
P1B—C201—C202—C21586.19 (17)C273—O3B—P1—O2106 (3)
C215—C202—C203—C204177.95 (16)C273—O3B—P1—C101147 (3)
C201—C202—C203—C2041.8 (2)N1—C101—P1—O148.50 (15)
C215—C202—C203—C2082.6 (2)C102—C101—P1—O1179.49 (12)
C201—C202—C203—C208177.73 (14)N1—C101—P1—O382.5 (2)
C202—C203—C204—C205178.87 (18)C102—C101—P1—O348.5 (3)
C208—C203—C204—C2050.6 (3)N1—C101—P1—O2B173.6 (10)
C203—C204—C205—C2060.8 (3)C102—C101—P1—O2B42.6 (10)
C204—C205—C206—C2070.2 (4)N1—C101—P1—O2168.2 (2)
C205—C206—C207—C2080.6 (3)C102—C101—P1—O260.9 (3)
C206—C207—C208—C209179.4 (2)N1—C101—P1—O3B69.1 (19)
C206—C207—C208—C2030.7 (3)C102—C101—P1—O3B61.9 (19)
C202—C203—C208—C2090.5 (2)C224—O22—P1B—O217.4 (14)
C204—C203—C208—C209179.98 (17)C224—O22—P1B—O23130.3 (12)
C202—C203—C208—C207179.67 (16)C224—O22—P1B—O22B53.0 (19)
C204—C203—C208—C2070.1 (2)C224—O22—P1B—C201123.9 (12)
C207—C208—C209—C210178.13 (17)C226—O23—P1B—O2112.5 (2)
C203—C208—C209—C2101.7 (3)C226—O23—P1B—O22115.1 (4)
C208—C209—C210—C211178.03 (17)C226—O23—P1B—O22B116.3 (4)
C208—C209—C210—C2151.7 (3)C226—O23—P1B—C201137.7 (2)
C209—C210—C211—C212179.3 (2)C229—O22B—P1B—O2165.1 (16)
C215—C210—C211—C2120.5 (3)C229—O22B—P1B—O2262 (2)
C210—C211—C212—C2130.2 (3)C229—O22B—P1B—O2365.7 (16)
C211—C212—C213—C2140.7 (4)C229—O22B—P1B—C201174.9 (14)
C212—C213—C214—C2150.5 (3)N1B—C201—P1B—O2158.41 (14)
C203—C202—C215—C214176.93 (16)C202—C201—P1B—O21170.46 (12)
C201—C202—C215—C2142.8 (2)N1B—C201—P1B—O2276.4 (3)
C203—C202—C215—C2102.5 (2)C202—C201—P1B—O2254.7 (4)
C201—C202—C215—C210177.80 (14)N1B—C201—P1B—O23176.40 (12)
C213—C214—C215—C202179.64 (18)C202—C201—P1B—O2345.27 (15)
C213—C214—C215—C2100.2 (3)N1B—C201—P1B—O22B58.4 (5)
C209—C210—C215—C2020.4 (2)C202—C201—P1B—O22B72.7 (5)
C211—C210—C215—C202179.83 (16)
Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1···O1i0.982.022.990 (2)170
N1B—H1B···O21ii0.902.153.016 (2)163
Symmetry codes: (i) x+1, y+1, z+1; (ii) x+1, y, z.

Experimental details

Crystal data
Chemical formulaC26H28NO3P
Mr433.46
Crystal system, space groupTriclinic, P1
Temperature (K)290
a, b, c (Å)9.5990 (3), 12.6386 (5), 20.2131 (7)
α, β, γ (°)75.865 (3), 76.780 (4), 74.927 (3)
V3)2260.13 (14)
Z4
Radiation typeMo Kα
µ (mm1)0.15
Crystal size (mm)0.31 × 0.18 × 0.15
Data collection
DiffractometerAgilent SuperNova Dual
diffractometer with an Atlas detector
Absorption correctionMulti-scan
(CrysAlis PRO; Agilent, 2010)
Tmin, Tmax0.947, 1.000
No. of measured, independent and
observed [I > 2σ(I)] reflections		20827, 12691, 8114
Rint0.036
(sin θ/λ)max1)0.704
Refinement
R[F2 > 2σ(F2)], wR(F2), S 0.056, 0.153, 1.02
No. of reflections12691
No. of parameters637
No. of restraints4
H-atom treatmentH-atom parameters constrained
Δρmax, Δρmin (e Å3)0.29, 0.34

Computer programs: CrysAlis PRO (Agilent, 2010), SHELXS97 (Sheldrick 2008), SHELXL97 (Sheldrick, 2008, ORTEP-3 for Windows (Farrugia, 1997), WinGX (Farrugia, 1999).

Hydrogen-bond geometry (Å, º) top
D—H···AD—HH···AD···AD—H···A
N1—H1···O1i0.982.022.990 (2)170
N1B—H1B···O21ii0.902.153.016 (2)163
Symmetry codes: (i) x+1, y+1, z+1; (ii) x+1, y, z.
 

Acknowledgements

Thanks are due to Bulgarian National Science Fund of the Ministry of Education and Science for the financial support [contract DTK 02/34 (2009)].

References

First citationAgilent (2010). CrysAlis PRO. Agilent Technologies, Yarnton, England.  Google Scholar
 First citationFarrugia, L. J. (1997). J. Appl. Cryst. 30, 565.  CrossRef IUCr Journals Google Scholar
 First citationFarrugia, L. J. (1999). J. Appl. Cryst. 32, 837–838.  CrossRef CAS IUCr Journals Google Scholar
 First citationKraicheva, I., Tsacheva, I., Vodenicharova, E., Tashev. E., Tosheva, T., Kril, A., Topashka-Ancheva, M., Iliev, I., Gerassimova, Ts. & Troev, K. (2011). Eur. J. Med. Chem. Submitted.  Google Scholar
 First citationSheldrick, G. M. (2008). Acta Cryst. A64, 112–122.  Web of Science CrossRef CAS IUCr Journals Google Scholar

This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.

Journal logoCRYSTALLOGRAPHIC
COMMUNICATIONS
ISSN: 2056-9890
Volume 67| Part 8| August 2011| Page o1980
doi:10.1107/S1600536811025943
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