+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 +  SHELXL-97 - CRYSTAL STRUCTURE REFINEMENT - WinGX VERSION +
 +  Copyright(C) George M. Sheldrick 1993-7     Release 97-2 +
 +  shelxl               started at 11:05:52  on 23-Nov-2010 +
 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 
 TITL 2009lsh011 in Cc
 CELL  0.71073   3.8456  22.1895   9.4477   90.000   90.048   90.000
 ZERR     4.00   0.0010   0.0045   0.0024    0.000    0.015    0.000
 LATT  -7
 SYMM    X, - Y, 1/2 + Z
 SFAC  C    H    N    O
 UNIT  36   32   8    4
 
 V =      806.19     F(000) =     336.0     Mu =   0.09 mm-1      Cell Wt =      640.70    Rho =  1.320
 
 MERG   2
 OMIT    -3.00  50.00
 TWIN
 DFIX 1.4 0.02 N1A C7A
 ISOR 0.01 N1B
 ISOR 0.005 N1A
 FMAP   2
 PLAN    5
 SIZE     0.01   0.02   0.38
 EQIV $1 x, -y+1, z+1/2
 EQIV $2 x, -y+1, z-1/2
 HTAB N1A   O1A_$1
 HTAB N1B  O1B_$2
 HTAB
 BOND   $H
 ACTA
 L.S.  12
 TEMP  -153.00
 WGHT      0.0412      0.9056
 BASF   2.27401
 FVAR       0.72228   0.50513
 C1    1    0.874623    0.599420    0.098969    11.00000    0.04176    0.02232 =
          0.05518    0.00017    0.00339   -0.00493
 C2    1    0.796458    0.627981   -0.028647    11.00000    0.03987    0.02910 =
          0.04370   -0.00277    0.00281   -0.00370
 AFIX  43
 H2    2    0.850858    0.609028   -0.116031    11.00000   -1.20000
 AFIX   0
 C3    1    0.640031    0.683792   -0.027319    11.00000    0.05571    0.02601 =
          0.04140    0.00442    0.00166   -0.00129
 AFIX  43
 H3    2    0.585367    0.702929   -0.114491    11.00000   -1.20000
 AFIX   0
 C4    1    0.561281    0.712410    0.098023    11.00000    0.03499    0.02783 =
          0.04655   -0.00108    0.00002   -0.00556
 C5    1    0.637830    0.683491    0.226635    11.00000    0.05480    0.02376 =
          0.03941   -0.00583    0.00294   -0.00149
 AFIX  43
 H5    2    0.582099    0.702572    0.313724    11.00000   -1.20000
 AFIX   0
 C6    1    0.792790    0.627787    0.226900    11.00000    0.04788    0.02666 =
          0.04713    0.00517   -0.00456   -0.00167
 AFIX  43
 H6    2    0.844589    0.608453    0.314121    11.00000   -1.20000
 AFIX   0
 PART    1
 C7A   1    1.131163    0.503213    0.015255    21.00000    0.05947    0.02292 =
          0.05618    0.00212    0.00265    0.00023
 C8A   1    1.313997    0.446563    0.068631    21.00000    0.07318    0.03086 =
          0.04661   -0.00324   -0.00613    0.00200
 AFIX 137
 H8A1  2    1.485701    0.433376   -0.001423    21.00000   -1.50000
 H8A2  2    1.142214    0.414545    0.083246    21.00000   -1.50000
 H8A3  2    1.431504    0.455385    0.158353    21.00000   -1.50000
 AFIX   0
 N1A   3    1.047474    0.542945    0.122450    21.00000    0.04244    0.02997 =
          0.03291   -0.00297    0.00020   -0.00344
 AFIX  43
 H1A   2    1.103068    0.533122    0.209827    21.00000   -1.20000
 AFIX   0
 O1A   4    1.069011    0.513426   -0.109113    21.00000    0.06138    0.03460 =
          0.04097   -0.00172   -0.01018    0.00380
 PART    2
 SAME C7A > O1A
 C7B   1    1.126485    0.503554    0.181066   -21.00000    0.05145    0.02876 =
          0.04562    0.00775   -0.00480   -0.01672
 C8B   1    1.313221    0.446866    0.129642   -21.00000    0.03740    0.02682 =
          0.05784   -0.00301    0.00062    0.00129
 AFIX 137
 H8B1  2    1.166637    0.411545    0.147421   -21.00000   -1.50000
 H8B2  2    1.533819    0.442432    0.180596   -21.00000   -1.50000
 H8B3  2    1.358979    0.450261    0.027927   -21.00000   -1.50000
 AFIX   0
 N1B   3    1.035966    0.542206    0.074869   -21.00000    0.05467    0.02187 =
          0.03171    0.00660   -0.01329   -0.00794
 AFIX  43
 H1B   2    1.079041    0.531389   -0.012997   -21.00000   -1.20000
 AFIX   0
 O1B   4    1.073868    0.512563    0.305996   -21.00000    0.07550    0.03133 =
          0.04364    0.00354    0.00274   -0.00622
 PART    0
 C9    1    0.402132    0.771184    0.099101    11.00000    0.04445    0.03210 =
          0.03862   -0.00281   -0.00626   -0.00328
 N2    3    0.280677    0.818342    0.099431    11.00000    0.06608    0.03189 =
          0.05554   -0.00061    0.00102    0.00213
 HKLF    4
 
 
 Covalent radii and connectivity table for  2009lsh011 in Cc
 
 C    0.770
 H    0.320
 N    0.700
 O    0.660
 
 C1 - C2 C6 N1B_b N1A_a
 C2 - C3 C1
 C3 - C2 C4
 C4 - C3 C5 C9
 C5 - C6 C4
 C6 - C5 C1
 C7A_a - O1A_a N1A_a C8A_a
 C8A_a - C7A_a
 N1A_a - C7A_a C1
 O1A_a - C7A_a
 C7B_b - O1B_b N1B_b C8B_b
 C8B_b - C7B_b
 N1B_b - C7B_b C1
 O1B_b - C7B_b
 C9 - N2 C4
 N2 - C9
 
 
 Operators for generating equivalent atoms:
 
 $1   x, -y+1, z+1/2
 $2   x, -y+1, z-1/2
 
 
 Floating origin restraints generated
 
 
 
    4221  Reflections read, of which   497  rejected
 
  -4 =< h =<  4,    -26 =< k =< 26,    -11 =< l =< 11,   Max. 2-theta =   49.97
 
       0  Systematic absence violations
 
       0  Inconsistent equivalents
 
    1348  Unique reflections, of which      0  suppressed
 
 R(int) = 0.0811     R(sigma) = 0.0971      Friedel opposites not merged
 
 Maximum memory for data reduction =  1674 /   16171
 
 
 
 Default effective X-H distances for T = -153.0 C
 
 AFIX m =    1     2     3     4   4[N]  3[N]  15[B]  8[O]   9   9[N]   16
 d(X-H) =  1.00  0.99  0.98  0.95  0.88  0.91  1.12  0.84  0.95  0.88  0.95
 
 Note that these distances are chosen to give the best fit to the X-ray data
 and so avoid the introduction of systematic error.  The true internuclear
 distances are longer and do not vary with temperature !  The apparent
 variation with temperature is caused by libration.
 
 
 Least-squares cycle   1      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   1 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    1
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72227     0.00345    -0.004    OSF
     2     0.50506     0.01339    -0.006   FVAR  2
     3     2.25658     5.95461    -0.003   BASF  1
 
 Mean shift/esd =   0.004    Maximum =  -0.026 for   y  N2
 
 Max. shift = 0.001 A for H8A2_a     Max. dU = 0.000 for C7A_a
 
 
 Least-squares cycle   2      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1680 before cycle   2 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    2
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345    -0.003    OSF
     2     0.50504     0.01339    -0.001   FVAR  2
     3     2.24825     5.95509    -0.001   BASF  1
 
 Mean shift/esd =   0.001    Maximum =  -0.008 for   y  N2
 
 Max. shift = 0.000 A for H8B2_b     Max. dU = 0.000 for C7A_a
 
 
 Least-squares cycle   3      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   3 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    3
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24724     5.95480     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.001 for  U33 C5
 
 Max. shift = 0.000 A for H8B2_b     Max. dU = 0.000 for C8A_a
 
 
 Least-squares cycle   4      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   4 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    4
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24717     5.95490     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.001 for   y  N1B_b
 
 Max. shift = 0.000 A for H8B1_b     Max. dU = 0.000 for N1A_a
 
 
 Least-squares cycle   5      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   5 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    5
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24570     5.95481     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for BASF  1
 
 Max. shift = 0.000 A for H8B2_b     Max. dU = 0.000 for C8A_a
 
 
 Least-squares cycle   6      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   6 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    6
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24528     5.95486     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for   y  C9
 
 Max. shift = 0.000 A for H8B1_b     Max. dU = 0.000 for C7B_b
 
 
 Least-squares cycle   7      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   7 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    7
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24647     5.95475     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for BASF  1
 
 Max. shift = 0.000 A for H8B1_b     Max. dU = 0.000 for N1A_a
 
 
 Least-squares cycle   8      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   8 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    8
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24502     5.95488     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for BASF  1
 
 Max. shift = 0.000 A for H8A1_a     Max. dU = 0.000 for C8A_a
 
 
 Least-squares cycle   9      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle   9 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle    9
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24573     5.95474     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for   y  C9
 
 Max. shift = 0.000 A for H8A3_a     Max. dU = 0.000 for N1B_b
 
 
 Least-squares cycle  10      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1680 before cycle  10 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle   10
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24620     5.95495     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for   y  C9
 
 Max. shift = 0.000 A for H8B1_b     Max. dU = 0.000 for N1A_a
 
 
 Least-squares cycle  11      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle  11 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle   11
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24597     5.95500     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for   y  C9
 
 Max. shift = 0.000 A for H8B2_b     Max. dU = 0.000 for C8A_a
 
 
 Least-squares cycle  12      Maximum vector length =  511      Memory required =   2087 /  186746
 
 wR2 =  0.1679 before cycle  12 for   1348 data and   149 /   149 parameters
 
 
 Summary of restraints applied in cycle   12
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 
     N      value        esd    shift/esd  parameter
 
     1     0.72226     0.00345     0.000    OSF
     2     0.50503     0.01339     0.000   FVAR  2
     3     2.24462     5.95474     0.000   BASF  1
 
 Mean shift/esd =   0.000    Maximum =   0.000 for BASF  1
 
 Max. shift = 0.000 A for H8A3_a     Max. dU = 0.000 for N1A_a
 
 
 Largest correlation matrix elements
 
    -0.851 y C8B_b / y C8A_a                 0.738 U23 C8B_b / U23 C8A_a            -0.674 y O1B_b / y O1A_a
    -0.844 y N1B_b / y N1A_a                 0.734 U23 O1B_b / U23 O1A_a            -0.656 U13 C8B_b / x C8B_b
    -0.832 x C8B_b / x C8A_a                 0.730 U23 C8B_b / y C8A_a               0.644 U23 C8A_a / y C8A_a
    -0.819 x N1B_b / x N1A_a                -0.727 U13 N1B_b / x N1A_a              -0.639 U23 C8B_b / y C8B_b
    -0.804 U22 C8B_b / U22 C8A_a            -0.711 y C8B_b / U23 C8A_a              -0.636 U23 N1B_b / y N1A_a
    -0.803 U22 N1B_b / U22 N1A_a            -0.707 U11 C8B_b / U11 C8A_a            -0.628 U33 C7B_b / U33 C7A_a
     0.780 U13 C8B_b / x C8A_a               0.688 x N1B_b / U13 N1A_a               0.613 U13 C8A_a / x C8A_a
    -0.740 x C8B_b / U13 C8A_a               0.674 z N1B_b / U33 N1A_a               0.610 z O1B_b / z O1A_a
 
 
 
 Idealized hydrogen atom generation before cycle  13
 
 Name     x       y       z    AFIX  d(X-H)  shift  Bonded to  Conformation determined by
 
 H2    0.8509  0.6090 -0.1160   43   0.950   0.000   C2              C3  C1
 H3    0.5854  0.7029 -0.1145   43   0.950   0.000   C3              C2  C4
 H5    0.5821  0.7026  0.3137   43   0.950   0.000   C5              C6  C4
 H6    0.8446  0.6085  0.3141   43   0.950   0.000   C6              C5  C1
 H8A1  1.4858  0.4334 -0.0014  137   0.980   0.000   C8A_a           C7A_a  H8A1_a
 H8A2  1.1422  0.4145  0.0832  137   0.980   0.000   C8A_a           C7A_a  H8A1_a
 H8A3  1.4314  0.4554  0.1584  137   0.980   0.000   C8A_a           C7A_a  H8A1_a
 H1A   1.1030  0.5331  0.2098   43   0.880   0.000   N1A_a           C7A_a  C1
 H8B1  1.1666  0.4115  0.1474  137   0.980   0.000   C8B_b           C7B_b  H8B1_b
 H8B2  1.5337  0.4424  0.1806  137   0.980   0.000   C8B_b           C7B_b  H8B1_b
 H8B3  1.3591  0.4503  0.0279  137   0.980   0.000   C8B_b           C7B_b  H8B1_b
 H1B   1.0791  0.5314 -0.0130   43   0.880   0.000   N1B_b           C7B_b  C1
 
 
 
  2009lsh011 in Cc
 
 ATOM           x         y         z          sof         U11       U22       U33       U23       U13       U12        Ueq
 
 C1          0.87462   0.59942   0.09898     1.00000     0.04175   0.02231   0.05518   0.00017   0.00341  -0.00492    0.03975
   0.00894   0.00121   0.00016   0.00067     0.00000     0.00363   0.00220   0.00312   0.00267   0.00319   0.00225    0.00135
 
 C2          0.79646   0.62798  -0.02865     1.00000     0.03990   0.02907   0.04371  -0.00275   0.00282  -0.00368    0.03756
   0.00961   0.00120   0.00021   0.00067     0.00000     0.00327   0.00277   0.00325   0.00245   0.00244   0.00222    0.00126
 
 H2          0.85086   0.60902  -0.11603     1.00000     0.04508
                                             0.00000     0.00000
 
 C3          0.64002   0.68379  -0.02732     1.00000     0.05569   0.02600   0.04140   0.00443   0.00165  -0.00130    0.04103
   0.00867   0.00123   0.00021   0.00060     0.00000     0.00372   0.00278   0.00372   0.00251   0.00297   0.00258    0.00146
 
 H3          0.58536   0.70293  -0.11449     1.00000     0.04924
                                             0.00000     0.00000
 
 C4          0.56127   0.71241   0.09802     1.00000     0.03500   0.02781   0.04655  -0.00108   0.00003  -0.00556    0.03645
   0.00903   0.00129   0.00016   0.00071     0.00000     0.00285   0.00222   0.00274   0.00311   0.00251   0.00228    0.00111
 
 C5          0.63783   0.68349   0.22664     1.00000     0.05479   0.02373   0.03942  -0.00584   0.00296  -0.00149    0.03931
   0.00841   0.00119   0.00021   0.00058     0.00000     0.00373   0.00272   0.00372   0.00241   0.00291   0.00251    0.00143
 
 H5          0.58210   0.70258   0.31372     1.00000     0.04717
                                             0.00000     0.00000
 
 C6          0.79281   0.62778   0.22690     1.00000     0.04788   0.02664   0.04712   0.00516  -0.00457  -0.00167    0.04055
   0.00927   0.00129   0.00021   0.00069     0.00000     0.00348   0.00272   0.00333   0.00253   0.00257   0.00227    0.00131
 
 H6          0.84462   0.60845   0.31412     1.00000     0.04866
                                             0.00000     0.00000
 
 C7A_a       1.13114   0.50321   0.01526     0.50503     0.05938   0.02289   0.05612   0.00207   0.00262   0.00017    0.04613
   0.01976   0.00300   0.00046   0.00116     0.01339     0.00818   0.00645   0.01026   0.00590   0.00613   0.00510    0.00385
 
 C8A_a       1.31399   0.44656   0.06862     0.50503     0.07316   0.03088   0.04655  -0.00321  -0.00614   0.00200    0.05020
   0.04430   0.00703   0.00083   0.00174     0.01339     0.01251   0.00838   0.01131   0.00767   0.01039   0.00636    0.00535
 
 H8A1_a      1.48581   0.43339  -0.00141     0.50503     0.07530
                                             0.01339     0.00000
 
 H8A2_a      1.14223   0.41453   0.08315     0.50503     0.07530
                                             0.01339     0.00000
 
 H8A3_a      1.43135   0.45536   0.15838     0.50503     0.07530
                                             0.01339     0.00000
 
 N1A_a       1.04744   0.54294   0.12246     0.50503     0.04247   0.03000   0.03291  -0.00296   0.00021  -0.00345    0.03513
   0.02691   0.00461   0.00069   0.00161     0.01339     0.00572   0.00615   0.00616   0.00416   0.00458   0.00371    0.00473
 
 H1A_a       1.10300   0.53311   0.20984     0.50503     0.04215
                                             0.01339     0.00000
 
 O1A_a       1.06902   0.51343  -0.10911     0.50503     0.06141   0.03456   0.04094  -0.00175  -0.01017   0.00381    0.04564
   0.01703   0.00196   0.00040   0.00105     0.01339     0.00552   0.00470   0.00557   0.00514   0.00372   0.00346    0.00280
 
 C7B_b       1.12646   0.50355   0.18107     0.49497     0.05141   0.02877   0.04570   0.00776  -0.00482  -0.01673    0.04196
   0.01766   0.00284   0.00046   0.00110     0.01339     0.00775   0.00705   0.00969   0.00579   0.00574   0.00522    0.00382
 
 C8B_b       1.31323   0.44687   0.12964     0.49497     0.03742   0.02676   0.05786  -0.00304   0.00060   0.00129    0.04068
   0.03809   0.00564   0.00074   0.00192     0.01339     0.00892   0.00788   0.01207   0.00792   0.00939   0.00541    0.00442
 
 H8B1_b      1.16658   0.41155   0.14735     0.49497     0.06102
                                             0.01339     0.00000
 
 H8B2_b      1.53374   0.44242   0.18065     0.49497     0.06102
                                             0.01339     0.00000
 
 H8B3_b      1.35914   0.45028   0.02794     0.49497     0.06102
                                             0.01339     0.00000
 
 N1B_b       1.03600   0.54221   0.07488     0.49497     0.05466   0.02182   0.03167   0.00660  -0.01329  -0.00793    0.03606
   0.03163   0.00468   0.00065   0.00170     0.01339     0.00700   0.00638   0.00706   0.00509   0.00613   0.00457    0.00425
 
 H1B_b       1.07913   0.53140  -0.01299     0.49497     0.04327
                                             0.01339     0.00000
 
 O1B_b       1.07388   0.51256   0.30601     0.49497     0.07551   0.03138   0.04363   0.00351   0.00274  -0.00623    0.05017
   0.01398   0.00218   0.00041   0.00111     0.01339     0.00640   0.00473   0.00614   0.00503   0.00411   0.00376    0.00292
 
 C9          0.40214   0.77118   0.09910     1.00000     0.04446   0.03205   0.03863  -0.00282  -0.00625  -0.00327    0.03838
   0.00901   0.00132   0.00019   0.00068     0.00000     0.00331   0.00251   0.00280   0.00254   0.00273   0.00235    0.00126
 
 N2          0.28067   0.81834   0.09943     1.00000     0.06606   0.03191   0.05554  -0.00062   0.00102   0.00212    0.05117
   0.00884   0.00121   0.00017   0.00067     0.00000     0.00338   0.00204   0.00259   0.00285   0.00263   0.00238    0.00124
 
 
 
 Final Structure Factor Calculation for  2009lsh011 in Cc
 
 Total number of l.s. parameters =   149     Maximum vector length =  511      Memory required =   1940 /   25046
 
 wR2 =  0.1679 before cycle  13 for   1348 data and     2 /   149 parameters
 
 
 Summary of restraints applied in cycle   13
 
                 ANTIBUMP   DFIX     DANG  SAME/SADI  CHIV/Z  CHIV/NZ    FLAT     DELU     SIMU     ISOR     SUMP
 
        Number       0.       1.       0.       6.       0.       0.       0.       0.       0.      12.       0.
 
 rms sigma        0.000    0.020    0.000    0.032    0.000    0.000    0.000    0.000    0.000    0.008    0.000
 
 rms deviation    0.000    0.019    0.000    0.015    0.000    0.000    0.000    0.000    0.000    0.009    0.000
 
 
 GooF = S =     1.134;     Restrained GooF =      1.131  for     21 restraints
 
 Weight = 1 / [ sigma^2(Fo^2) + ( 0.0412 * P )^2 +   0.91 * P ]   where  P = ( Max ( Fo^2, 0 ) + 2 * Fc^2 ) / 3
 
 R1 =  0.0699 for    893 Fo > 4sig(Fo)  and  0.1246 for all   1348 data
 wR2 =  0.1679,  GooF = S =   1.134,  Restrained GooF =    1.131  for all data
 
 Occupancy sum of asymmetric unit =   12.00 for non-hydrogen and    8.00 for hydrogen atoms
 
 
 
 Principal mean square atomic displacements U
 
   0.0560   0.0421   0.0211   C1
   0.0462   0.0388   0.0277   C2
   0.0559   0.0425   0.0247   C3
   0.0466   0.0380   0.0247   C4
   0.0555   0.0406   0.0218   C5
   0.0530   0.0432   0.0254   C6
   0.0608   0.0548   0.0228   C7A_a
   0.0747   0.0457   0.0302   C8A_a
   0.0434   0.0343   0.0276   N1A_a
   0.0662   0.0367   0.0340   O1A_a
   0.0639   0.0430   0.0191   C7B_b
   0.0582   0.0376   0.0263   C8B_b
   0.0632   0.0265   0.0185   N1B_b
   0.0765   0.0445   0.0295   O1B_b
   0.0486   0.0376   0.0290   C9
   0.0663   0.0555   0.0318   N2
 
 
 
 Analysis of variance for reflections employed in refinement      K = Mean[Fo^2] / Mean[Fc^2]  for group
 
 
 Fc/Fc(max)       0.000    0.015    0.026    0.032    0.041    0.053    0.065    0.081    0.104    0.144    1.000
 
 Number in group       141.     130.     148.     132.     127.     137.     129.     134.     134.     136.
 
            GooF      1.173    1.166    1.218    1.225    1.220    1.070    1.138    0.934    0.981    1.174
 
             K        2.505    0.774    0.954    0.870    1.070    0.993    0.977    1.014    1.014    1.026
 
 
 Resolution(A)    0.84     0.87     0.91     0.95     1.01     1.07     1.15     1.26     1.47     1.81     inf
 
 Number in group       141.     138.     126.     138.     134.     138.     128.     139.     131.     135.
 
            GooF      1.294    1.233    1.188    1.199    1.142    0.980    1.034    1.089    0.959    1.165
 
             K        1.022    1.133    1.083    1.037    0.974    1.011    1.003    0.979    1.061    1.013
 
             R1       0.296    0.293    0.317    0.167    0.135    0.082    0.077    0.093    0.053    0.037
 
 
 Recommended weighting scheme:  WGHT      0.0411      0.9029
 Note that in most cases convergence will be faster if fixed weights (e.g. the
 default WGHT 0.1) are retained until the refinement is virtually complete, and
 only then should the above recommended values be used.
 
 
 
 Most Disagreeable Reflections (* if suppressed or used for Rfree)
 
     h   k   l        Fo^2         Fc^2   Delta(F^2)/esd  Fc/Fc(max)  Resolution(A)
 
    -3   5  -8        139.19         41.95       4.07       0.051       0.85
    -1  25  -2        148.30         48.74       3.68       0.055       0.85
     0  12   0        426.93        329.57       3.47       0.142       1.85
     0   4  -4       1641.26       1295.89       3.08       0.281       2.17
    -4   0   4        126.60         11.86       3.04       0.027       0.89
    -2  22   1         41.82          4.79       3.02       0.017       0.89
    -4   0  -2         -3.56         22.53       2.97       0.037       0.94
     0  14  -4         24.64          3.58       2.95       0.015       1.32
     1  17   6         -4.63         11.75       2.91       0.027       0.97
    -3  15  -2         32.70          2.68       2.88       0.013       0.95
    -2   8  -8        211.23        140.31       2.74       0.092       0.95
     0  12   8         45.25         83.63       2.73       0.071       1.00
    -3   5   0         40.83         70.92       2.69       0.066       1.23
     3  15   2         38.05          2.64       2.59       0.013       0.95
     0  14  -3         19.03         45.33       2.59       0.053       1.42
    -2   6   1       3045.19       2546.64       2.53       0.394       1.68
     0  10  -6         33.66          2.15       2.51       0.011       1.28
     0  10  -8        -10.08          8.82       2.48       0.023       1.04
     0  12 -10         59.41          2.30       2.47       0.012       0.84
     0   6   0       1894.93       2162.20       2.43       0.363       3.70
     0  10   6         42.42          2.15       2.37       0.011       1.28
    -1   5  -3       1001.61        807.27       2.36       0.222       2.14
    -4  10   0         84.36         52.71       2.35       0.057       0.88
    -3  19   2        -12.06         10.60       2.33       0.025       0.85
    -1  19  -6         76.49         18.82       2.30       0.034       0.91
     2  18   5         47.25         13.94       2.28       0.029       0.91
     1  17   7         23.73         53.87       2.28       0.057       0.91
     0  16  -6         23.08         50.81       2.27       0.056       1.04
    -2  20   4        -29.67         18.48       2.24       0.034       0.89
    -2  12  -4        227.60        321.69       2.24       0.140       1.16
     3   7   4         -7.15         55.32       2.23       0.058       1.06
     0  20  -2         11.35         51.91       2.23       0.056       1.08
     0  22   2        348.77        240.71       2.22       0.121       0.99
    -3   7   5         43.12         16.66       2.21       0.032       1.01
     3   7  -6         76.22         29.91       2.20       0.043       0.95
    -2  18   6        -29.99         17.15       2.18       0.032       0.87
    -3   5   4        109.85         78.79       2.17       0.069       1.09
     3   7  -3        -17.60         19.45       2.17       0.034       1.11
     2  20   3         65.93         22.56       2.16       0.037       0.92
    -4   4   1         22.78          4.96       2.16       0.017       0.94
     1   1  -9         15.75         38.10       2.14       0.048       1.01
    -3   3  -1         70.84         99.48       2.13       0.078       1.25
     0  12  -8         52.26         83.62       2.13       0.071       1.00
    -3   5  -1         29.52         49.51       2.10       0.055       1.22
     0  22  -6         15.16         39.41       2.10       0.049       0.85
     0  18   3       1757.75       1526.18       2.10       0.305       1.15
     2  14   1        -11.15          6.05       2.09       0.019       1.21
     3  13   4         66.79         25.95       2.07       0.040       0.94
    -3   7   2          5.00         24.75       2.06       0.039       1.15
     2  12   0         53.96         83.34       2.06       0.071       1.33
 
 
 
 Bond lengths and angles
 
 C1 -        Distance       Angles
 C2        1.3947 (0.0082)
 C6        1.3987 (0.0082)  119.61 (0.36)
 N1B_b     1.4314 (0.0156)  111.01 (0.74) 129.38 (0.77)
 N1A_a     1.4357 (0.0160)  129.02 (0.73) 111.33 (0.72)  18.14 (0.72)
               C1 -          C2            C6            N1B_b
 
 C2 -        Distance       Angles
 C3        1.3770 (0.0071)
 C1        1.3947 (0.0082)  119.64 (0.49)
 H2        0.9500           120.18        120.18
               C2 -          C3            C1
 
 C3 -        Distance       Angles
 C2        1.3770 (0.0072)
 C4        1.3776 (0.0072)  121.25 (0.46)
 H3        0.9500           119.37        119.37
               C3 -          C2            C4
 
 C4 -        Distance       Angles
 C3        1.3776 (0.0072)
 C5        1.4051 (0.0073)  119.13 (0.37)
 C9        1.4407 (0.0063)  121.13 (0.52) 119.73 (0.51)
               C4 -          C3            C5
 
 C5 -        Distance       Angles
 C6        1.3723 (0.0071)
 C4        1.4051 (0.0073)  120.24 (0.44)
 H5        0.9500           119.88        119.88
               C5 -          C6            C4
 
 C6 -        Distance       Angles
 C5        1.3723 (0.0071)
 C1        1.3987 (0.0082)  120.12 (0.50)
 H6        0.9500           119.94        119.94
               C6 -          C5            C1
 
 C7A_a -     Distance       Angles
 O1A_a     1.2201 (0.0110)
 N1A_a     1.3809 (0.0109)  122.83 (1.14)
 C8A_a     1.5259 (0.0128)  124.12 (1.02) 113.03 (1.18)
               C7A_a -       O1A_a         N1A_a
 
 C8A_a -     Distance       Angles
 C7A_a     1.5259 (0.0128)
 H8A1_a    0.9800           109.47
 H8A2_a    0.9800           109.47        109.47
 H8A3_a    0.9800           109.47        109.47        109.47
               C8A_a -       C7A_a         H8A1_a        H8A2_a
 
 N1A_a -     Distance       Angles
 C7A_a     1.3809 (0.0109)
 C1        1.4357 (0.0160)  123.51 (1.32)
 H1A_a     0.8800           118.25        118.25
               N1A_a -       C7A_a         C1
 
 O1A_a -     Distance       Angles
 C7A_a     1.2201 (0.0110)
               O1A_a -
 
 C7B_b -     Distance       Angles
 O1B_b     1.2143 (0.0114)
 N1B_b     1.3648 (0.0127)  124.65 (1.24)
 C8B_b     1.5280 (0.0125)  121.56 (1.06) 113.78 (1.18)
               C7B_b -       O1B_b         N1B_b
 
 C8B_b -     Distance       Angles
 C7B_b     1.5280 (0.0125)
 H8B1_b    0.9800           109.47
 H8B2_b    0.9800           109.47        109.47
 H8B3_b    0.9800           109.47        109.47        109.47
               C8B_b -       C7B_b         H8B1_b        H8B2_b
 
 N1B_b -     Distance       Angles
 C7B_b     1.3648 (0.0127)
 C1        1.4314 (0.0155)  123.42 (1.41)
 H1B_b     0.8800           118.29        118.29
               N1B_b -       C7B_b         C1
 
 O1B_b -     Distance       Angles
 C7B_b     1.2143 (0.0114)
               O1B_b -
 
 C9 -        Distance       Angles
 N2        1.1458 (0.0051)
 C4        1.4407 (0.0063)  178.89 (0.57)
               C9 -          N2
 
 N2 -        Distance       Angles
 C9        1.1458 (0.0051)
               N2 -
 
 
 
 Specified hydrogen bonds (with esds except fixed and riding H)
 
  D-H          H...A        D...A        <(DHA)
 
  0.88         2.00         2.829(18)    155.9        N1A_a-H1A_a...O1A_$1a
  0.88         1.97         2.820(19)    162.3        N1B_b-H1B_b...O1B_$2b
 
 
 Hydrogen bonds with  H..A < r(A) + 2.000 Angstroms  and  <DHA > 110 deg.
 
 D-H           d(D-H)   d(H..A)   <DHA    d(D..A)   A
 
 N1A-H1A_a      0.880    2.002   155.94    2.829    O1A_a [ x, -y+1, z+1/2 ]
 
 N1B-H1B_b      0.880    1.969   162.29    2.820    O1B_b [ x, -y+1, z-1/2 ]
 
 
 FMAP and GRID set by program
 
 FMAP   2   1  11
 GRID    -6.250  -1  -2     6.250   1   2
 
 R1 =  0.1126 for    717 unique reflections after merging for Fourier
 
 
 Electron density synthesis with coefficients Fo-Fc
 
 Highest peak    0.25  at  0.0514  0.2597  0.6064  [  1.51 A from C9 ]
 Deepest hole   -0.19  at  0.3100  0.2997  0.2341  [  1.78 A from H3 ]
 
 Mean =    0.00,   Rms deviation from mean =    0.05 e/A^3,   Highest memory used =  2318 / 18367
 
 
 Fourier peaks appended to .res file
 
              x       y       z       sof     U      Peak   Distances to nearest atoms (including symmetry equivalents)
 
 Q1    1   0.0514  0.7403  0.1064   1.00000  0.05    0.25   1.51 C9  1.94 N2  1.99 C4  2.33 C5
 Q2    1   0.8133  0.7645  0.0949   1.00000  0.05    0.24   1.51 C4  1.59 C9  2.16 N2  2.23 C3
 Q3    1   0.1432  0.8707  0.1440   1.00000  0.05    0.20   1.34 N2  1.68 H8B2  2.04 H8B1  2.05 H8A1
 Q4    1   1.3284  0.5776 -0.0909   1.00000  0.05    0.18   1.59 H1B  1.75 O1A  1.98 H2  2.08 C7A
 Q5    1   0.0092  0.8243  0.0994   1.00000  0.05    0.17   1.05 N2  1.92 C9  2.38 H8B1  2.45 H8A2
 
 Shortest distances between peaks (including symmetry equivalents)
 
      1   2  1.07      3   5  1.23      2   5  1.53      1   5  1.87      2   3  2.72      1   3  2.94
 
 
 Time profile in seconds
 -----------------------
 
      0.13: Read and process instructions
      0.00: Fit rigid groups
      0.00: Interpret restraints etc.
      0.00: Generate connectivity array
      0.00: Analyse DFIX/DANG restraints
      0.00: Analyse SAME/SADI restraints
      0.00: Generate CHIV restraints
      0.00: Check if bonds in residues restrained
      0.00: Generate DELU restraints
      0.00: Generate SIMU restraints
      0.00: Generate ISOR restraints
      0.00: Generate NCSY restraints
      0.00: Analyse other restraints etc.
      0.22: Read intensity data, sort/merge etc.
      0.00: Set up constraints
      0.00: OSF, H-atoms from difference map
      0.02: Set up l.s. refinement
      0.00: Generate idealized H-atoms
      1.20: Structure factors and derivatives
      0.58: Sum l.s. matrices
      0.00: Generate and apply antibumping restraints
      0.06: Apply other restraints
      0.19: Solve l.s. equations
      0.00: Generate HTAB table
      0.05: Other dependent quantities, CIF, tables
      0.05: Analysis of variance
      0.02: Merge reflections for Fourier and .fcf
      0.02: Fourier summations
      0.02: Peaksearch
      0.00: Analyse peaklist
 
 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 +  shelxl            finished at 11:05:55   Total CPU time:       2.5 secs  +
 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++