mo_B0747_0m_4

Table 1 Crystal data and structure refinement for mo_B0747_0m_4.
Identification code mo_B0747_0m_4
Empirical formula C19H47KLi3N3O5Si
Formula weight 485.60
Temperature/K 100.03
Crystal system triclinic
Space group P-1
a/Å 10.740(3)
b/Å 11.012(3)
c/Å 14.879(4)
α/° 86.695(9)
β/° 78.411(9)
γ/° 68.404(9)
Volume/Å3 1602.5(7)
Z 2
ρcalcg/cm3 1.006
μ/mm‑1 0.229
F(000) 528.0
Crystal size/mm3 0.55 × 0.21 × 0.18
Radiation MoKα (λ = 0.71073)
2Θ range for data collection/° 4.538 to 51.998
Index ranges -12 ≤ h ≤ 13, -13 ≤ k ≤ 13, 0 ≤ l ≤ 18
Reflections collected 6289
Independent reflections 6289 [Rint = 0.0000, Rsigma = 0.0474]
Data/restraints/parameters 6289/1/328
Goodness-of-fit on F2 1.057
Final R indexes [I>=2σ (I)] R1 = 0.0645, wR2 = 0.1621
Final R indexes [all data] R1 = 0.0901, wR2 = 0.1728
Largest diff. peak/hole / e Å-3 0.57/-0.40

 

Table 2 Fractional Atomic Coordinates (×104) and Equivalent Isotropic Displacement Parameters (Å2×103) for mo_B0747_0m_4. Ueq is defined as 1/3 of of the trace of the orthogonalised UIJ tensor.
AtomxyzU(eq)
C17381(5)4307(4)838(3)70.4(11)
C27478(4)6938(3)1171(3)63.4(10)
C39853(4)4517(4)1396(3)73.9(12)
C47111(3)5602(3)5225(2)34.3(6)
C58045(3)6237(3)4638(2)38.7(7)
C68246(3)7773(3)3443(2)46.9(8)
C76321(3)8450(3)4705(2)46.7(8)
C83513(3)8105(3)3348(2)46.2(8)
C122784(3)8454(3)6137(2)38.7(7)
C131300(3)8678(3)6609(2)42.0(8)
C14745(4)7923(3)5292(3)49.4(9)
C15-596(3)7949(3)6782(3)54.1(10)
C165560(4)8230(4)7449(3)73.7(11)
C174752(7)9168(5)8190(4)116(2)
C185487(9)8633(6)8967(5)152(3)
C196122(5)7180(5)8785(3)84.8(13)
K15138.2(6)5298.4(6)7134.2(4)37.82(19)
Li17458(4)3949(4)3642(3)33.4(10)
Li26183(4)6385(4)3595(3)34.6(10)
Li34329(4)6265(4)4949(3)29.5(9)
N17285(2)7339(2)4103.4(16)36.2(6)
N23033(3)6950(3)2132.8(19)60.4(8)
N3784(2)7763(2)6279.6(17)37.6(6)
O17260.8(19)5131.9(17)2654.0(13)35.1(4)
O26383.8(17)5195.5(15)4701.5(12)27.8(4)
O34277.9(18)6988.0(17)3761.2(13)34.6(4)
O43639.5(17)7140.1(16)6133.7(12)31.6(4)
O55985(3)6985(2)7907(2)76.8(8)
Si17943.6(8)5214.6(8)1607.1(6)39.6(2)
C9A2435(6)7822(5)2903(4)50.5(16)
C10A1897(6)6427(7)1983(4)62.2(14)
C9B3579(8)8123(7)2400(5)39(2)
C10B1734(10)7303(11)2531(8)64(2)
C2AA3356(13)7000(13)1110(9)64(2)
C1AA3484(8)7443(8)1283(5)62.2(14)
C0AA1590(40)8660(40)5800(30)42.0(8)
C10350(40)8260(40)7370(30)54.1(10)
C3AA-350(40)7850(40)5850(30)49.4(9)

 

Table 3 Anisotropic Displacement Parameters (Å2×103) for mo_B0747_0m_4. The Anisotropic displacement factor exponent takes the form: -2π2[h2a*2U11+2hka*b*U12+…].
AtomU11U22U33U23U13U12
C1105(3)71(3)41(2)-4.6(18)-4(2)-43(2)
C268(2)53(2)61(2)14.5(17)5.8(19)-24.0(18)
C347(2)93(3)55(2)15(2)13.4(17)-9(2)
C432.9(14)29.4(14)39.8(16)-0.2(11)1.6(12)-14.8(12)
C532.3(15)35.2(15)51.0(18)-5.0(13)0.2(13)-18.3(12)
C647.9(18)42.2(17)54(2)-4.6(14)11.1(15)-30.2(15)
C751.6(19)31.9(15)52.5(19)-7.7(13)12.2(15)-20.7(14)
C839.2(17)38.6(16)51(2)13.6(14)-0.9(14)-9.3(13)
C1241.0(16)25.5(13)49.5(18)-2.5(12)-0.7(13)-15.9(12)
C1337.6(17)25.3(15)54(2)-6.1(14)3.1(15)-6.3(13)
C1447(2)42.7(19)59(2)7.8(16)-11.8(17)-17.9(16)
C1529.9(17)43.7(19)76(3)0.8(18)10.0(16)-9.1(15)
C1673(3)61(2)86(3)-3(2)-6(2)-28(2)
C17142(5)60(3)105(4)-12(3)13(4)-7(3)
C18237(9)91(4)124(5)-43(4)-65(6)-35(5)
C1994(3)82(3)77(3)-10(2)-29(3)-22(3)
K139.4(4)34.8(3)41.0(4)1.3(3)-3.8(3)-17.6(3)
Li135(2)24(2)37(3)-1.9(18)3(2)-10.6(18)
Li233(2)28(2)38(3)-1.9(19)10(2)-14.1(19)
Li329(2)24(2)33(2)-2.5(17)3.3(18)-11.2(17)
N136.4(13)26.1(11)43.6(14)-5.3(10)9.9(10)-17(1)
N253.1(18)64.2(19)42.3(17)-5.6(14)-6.9(13)3.2(14)
N330.3(12)28.0(12)47.2(15)-0.6(10)6.5(10)-9.2(10)
O136.5(10)31(1)33.6(11)-1.9(8)8.6(8)-15.1(8)
O226.9(9)22.4(8)33.9(10)-2.6(7)2.8(7)-12.9(7)
O330.3(10)28.9(9)39.6(11)5.3(8)1.7(8)-10.3(8)
O432.1(10)21.3(9)37.4(11)-4.1(7)5.3(8)-10.8(7)
O5103(2)50.2(15)86(2)-5.5(14)-50.2(17)-21.1(15)
Si139.9(5)36.1(4)34.4(5)-0.2(3)8.6(3)-12.2(4)
C9A51(3)41(3)46(3)-1(2)-1(2)-5(2)
C10A54(3)78(3)53(3)0(2)-8(2)-24(2)
C9B34(4)37(4)40(5)6(3)-1(3)-8(3)
C10B53(4)72(6)65(5)-13(4)-8(4)-20(4)
C2AA53(4)72(6)65(5)-13(4)-8(4)-20(4)
C1AA54(3)78(3)53(3)0(2)-8(2)-24(2)
C0AA37.6(17)25.3(15)54(2)-6.1(14)3.1(15)-6.3(13)
C1029.9(17)43.7(19)76(3)0.8(18)10.0(16)-9.1(15)
C3AA47(2)42.7(19)59(2)7.8(16)-11.8(17)-17.9(16)

 

Table 4 Bond Lengths for mo_B0747_0m_4.
AtomAtomLength/Å AtomAtomLength/Å
C1Si11.879(4) Li1Li312.606(6)
C2Si11.887(3) Li1N312.139(5)
C3Si11.872(4) Li1O11.899(5)
C4C51.534(4) Li1O22.013(5)
C4O21.399(3) Li1O411.943(5)
C5N11.480(4) Li2K113.067(5)
C6N11.469(3) Li2Li32.567(6)
C7N11.480(4) Li2N12.109(5)
C8O31.392(3) Li2O11.897(5)
C8C9A1.572(7) Li2O22.039(5)
C8C9B1.396(8) Li2O31.871(5)
C12C131.541(4) Li3K113.475(5)
C12O41.399(3) Li3Li112.606(6)
C12C0AA1.41(4) Li3Li312.636(8)
C13N31.463(4) Li3O22.050(4)
C14N31.477(4) Li3O212.024(4)
C15N31.466(4) Li3O31.898(5)
C16C171.457(6) Li3O41.931(5)
C16O51.451(5) N2K112.854(3)
C17C181.501(9) N2C9A1.424(6)
C18C191.507(7) N2C10A1.585(7)
C19O51.381(5) N2C9B1.698(9)
K1Li113.046(5) N2C10B1.320(10)
K1Li213.068(5) N2C2AA1.494(14)
K1Li313.475(5) N2C1AA1.413(8)
K1Li33.538(5) N3Li112.139(5)
K1N212.854(3) N3C0AA1.58(4)
K1O112.742(2) N3C101.67(5)
K1O312.720(2) N3C3AA1.465(19)
K1O42.671(2) O1K112.742(2)
K1O52.740(3) O1Si11.5956(19)
K1Si113.6802(12) O2Li312.024(4)
K1C9A13.461(5) O3K112.720(2)
Li1C1212.747(5) O4Li111.943(5)
Li1C1312.715(5) Si1K113.6803(13)
Li1K113.046(5) C10AK113.524(6)
Li1Li22.528(6)    

11-X,1-Y,1-Z

 

Table 5 Bond Angles for mo_B0747_0m_4.
AtomAtomAtomAngle/˚ AtomAtomAtomAngle/˚
O2C4C5112.3(2) O3Li2K1161.29(14)
N1C5C4112.0(2) O3Li2Li1117.8(2)
O3C8C9A110.4(3) O3Li2Li347.53(15)
O3C8C9B120.4(4) O3Li2N1124.7(2)
O4C12C13112.3(2) O3Li2O1119.5(3)
O4C12C0AA113.7(16) O3Li2O297.33(19)
N3C13C12112.4(2) K11Li3K1135.85(12)
O5C16C17104.1(4) Li11Li3K11121.64(17)
C16C17C18102.5(5) Li11Li3K157.04(13)
C17C18C19104.7(4) Li11Li3Li3187.8(2)
O5C19C18106.2(4) Li2Li3K1120.46(18)
Li11K1Li2148.85(12) Li2Li3K1158.74(14)
Li11K1Li345.90(11) Li2Li3Li11177.1(2)
Li11K1Li3167.39(11) Li2Li3Li3189.8(2)
Li11K1Si1157.56(8) Li31Li3K1169.18(18)
Li11K1C9A1125.20(13) Li31Li3K166.67(18)
Li21K1Li3145.67(10) O21Li3K175.59(14)
Li21K1Li367.13(11) O2Li3K174.72(14)
Li21K1Si1156.16(8) O21Li3K1176.51(14)
Li21K1C9A176.83(13) O2Li3K1176.88(13)
Li31K1Li344.15(12) O21Li3Li1149.61(14)
Li31K1Si11101.52(7) O2Li3Li11126.2(2)
Li3K1Si11102.76(7) O21Li3Li2129.3(2)
N21K1Li11138.38(11) O2Li3Li250.94(15)
N21K1Li2190.84(11) O21Li3Li3150.11(14)
N21K1Li3136.05(9) O2Li3Li3149.24(14)
N21K1Li3193.03(9) O21Li3O299.35(19)
N21K1Si1194.05(7) O3Li3K1163.9(2)
N21K1C9A123.65(11) O3Li3K1151.10(12)
O11K1Li1137.85(9) O3Li3Li11136.1(2)
O11K1Li2137.60(9) O3Li3Li246.65(15)
O11K1Li380.59(8) O3Li3Li31117.5(3)
O11K1Li3180.38(8) O3Li3O21119.5(2)
O11K1N21105.22(8) O3Li3O296.12(19)
O11K1Si1123.44(4) O3Li3O4129.2(2)
O11K1C9A1103.19(11) O4Li3K11167.7(2)
O31K1Li1181.79(9) O4Li3K148.17(11)
O31K1Li2137.12(9) O4Li3Li1147.90(14)
O31K1Li3132.91(8) O4Li3Li2132.1(2)
O31K1Li375.74(8) O4Li3Li31113.1(3)
O31K1N2165.14(8) O4Li3O2114.1(2)
O31K1O1173.20(6) O4Li3O2195.60(19)
O31K1O5150.09(8) C5N1Li297.16(19)
O31K1Si1186.09(4) C6N1C5109.9(2)
O31K1C9A144.43(10) C6N1C7109.8(2)
O4K1Li1139.04(9) C6N1Li2118.3(2)
O4K1Li2183.09(10) C7N1C5111.8(2)
O4K1Li3175.88(8) C7N1Li2109.3(2)
O4K1Li332.60(8) C9AN2K11102.8(3)
O4K1N21168.66(7) C9AN2C10A106.1(4)
O4K1O1175.61(6) C10AN2K11101.2(3)
O4K1O31104.92(6) C9BN2K11100.7(3)
O4K1O593.90(7) C10BN2K11115.7(5)
O4K1Si1190.53(5) C10BN2C9B106.8(6)
O4K1C9A1145.03(10) C10BN2C2AA117.4(7)
O5K1Li11125.75(10) C2AAN2K11113.4(5)
O5K1Li21172.56(11) C2AAN2C9B99.5(6)
O5K1Li31140.11(10) C1AAN2K11119.7(4)
O5K1Li3113.46(9) C1AAN2C9A118.3(5)
O5K1N2193.21(9) C1AAN2C10A106.7(4)
O5K1O11135.04(8) C13N3C14111.6(2)
O5K1Si11117.25(8) C13N3C15111.1(2)
O5K1C9A1109.01(12) C13N3Li1196.0(2)
C9A1K1Li3112.44(11) C14N3Li11105.2(2)
C9A1K1Li3169.58(12) C15N3C14108.2(3)
C9A1K1Si11101.30(10) C15N3Li11124.1(2)
C121Li1K1184.15(14) C0AAN3Li1196.6(14)
C131Li1C12132.78(10) C0AAN3C10103(2)
C131Li1K11105.69(16) C10N3Li1199.5(16)
Li2Li1C121145.4(2) C3AAN3Li11126.2(18)
Li2Li1C131169.5(3) C3AAN3C0AA113(2)
Li2Li1K1166.03(15) C3AAN3C10115(3)
Li2Li1Li3191.32(19) Li1O1K1179.79(15)
Li31Li1C12163.96(14) Li2O1K1180.56(15)
Li31Li1C13193.03(17) Li2O1Li183.5(2)
Li31Li1K1177.06(15) Si1O1K11113.45(10)
N31Li1C12159.95(13) Si1O1Li1140.06(17)
N31Li1C13132.40(11) Si1O1Li2134.41(17)
N31Li1K11137.8(2) C4O2Li1117.8(2)
N31Li1Li2154.2(2) C4O2Li2106.25(19)
N31Li1Li31102.9(2) C4O2Li3113.82(19)
O1Li1C121131.9(2) C4O2Li31124.4(2)
O1Li1C131122.9(2) Li1O2Li277.17(19)
O1Li1K1162.37(14) Li1O2Li3126.9(2)
O1Li1Li248.22(15) Li1O2Li3180.42(18)
O1Li1Li31130.7(2) Li2O2Li377.76(18)
O1Li1N31125.7(2) Li31O2Li2129.3(2)
O1Li1O2100.1(2) Li31O2Li380.65(19)
O1Li1O41119.5(3) C8O3K11115.17(18)
O2Li1C121113.38(19) C8O3Li2123.1(2)
O2Li1C131136.8(2) C8O3Li3138.9(2)
O2Li1K1188.68(16) Li2O3K1181.59(15)
O2Li1Li251.88(15) Li2O3Li385.8(2)
O2Li1Li3149.97(14) Li3O3K1195.99(14)
O2Li1N31124.2(2) C12O4K1143.75(17)
O41Li1C12128.69(10) C12O4Li11109.5(2)
O41Li1C13160.65(14) C12O4Li3116.0(2)
O41Li1K1159.99(13) Li11O4K180.97(15)
O41Li1Li2116.7(2) Li3O4K199.22(14)
O41Li1Li3147.53(14) Li3O4Li1184.57(19)
O41Li1N3188.44(18) C16O5K1108.8(2)
O41Li1O295.6(2) C19O5C16109.5(3)
Li1Li2K1165.13(15) C19O5K1134.1(3)
Li1Li2Li391.05(19) C1Si1C2106.15(19)
Li3Li2K1175.58(15) C1Si1K1171.19(13)
N1Li2K11173.3(2) C2Si1K11109.95(12)
N1Li2Li1108.3(2) C3Si1C1107.6(2)
N1Li2Li3106.1(2) C3Si1C2105.54(18)
O1Li2K1161.85(14) C3Si1K11143.32(13)
O1Li2Li148.27(15) O1Si1C1110.76(14)
O1Li2Li3129.7(2) O1Si1C2113.45(14)
O1Li2N1113.5(2) O1Si1C3112.92(15)
O1Li2O299.2(2) O1Si1K1143.11(7)
O2Li2K1187.61(15) N2C9AC8113.4(4)
O2Li2Li150.95(15) N2C10AK1152.6(2)
O2Li2Li351.30(14) C8C9BN2107.7(5)
O2Li2N188.6(2) C12C0AAN3113(3)

11-X,1-Y,1-Z

 

Table 6 Hydrogen Atom Coordinates (Å×104) and Isotropic Displacement Parameters (Å2×103) for mo_B0747_0m_4.
AtomxyzU(eq)
H1A757634071047106
H1B78754300207106
H1C63984740859106
H2A7901692052295
H2B78087441152495
H2C64847348124295
H3A1017448821850111
H3B102194740778111
H3C1016735651452111
H4A76704839553841
H4B64586236570241
H5A84916558504246
H5B87705572421146
H6A87928062377470
H6B77368498308970
H6C88507046302570
H7A56388174511170
H7B58649172432770
H7C68228740507470
H8AA41278391286955
H8AB30388818381255
H8BC37748828350455
H8BD25458317364455
H12A27998755549646
H12B31378983645846
H12C32968949575546
H12D25288808677246
H13A12518582728050
H13B7099582649750
H14A1708823518374
H14B3667319509974
H14C16727734494074
H15A-6057909744381
H15B-8757259660281
H15C-12328803663781
H16A50058223699588
H16B63608436713488
H17A380091998343139
H17B4747100558029139
H18A484288349564182
H18B619790048972182
H19A709868498831102
H19B564767199234102
H9AA18917447337361
H9AB18048658270861
H10A22705787147593
H10B11117159183793
H10C16066011254493
H9BA45287947207347
H9BB29918990221747
H10D13796645239896
H10E12148148229596
H10F16467378319696
H2AA2826786891096
H2AB3120633984496
H2AC4332682790596
H1AA41817791134793
H1AB27108141109493
H1AC3873673881993
H0AA18298478513550
H0AB9799584590750
H10G11708046763381
H10H-2377816772081
H10I-1549205741281
H3AA-9218768579074
H3AB-9047398622174
H3AC57436523474

 

Table 7 Atomic Occupancy for mo_B0747_0m_4.
AtomOccupancy AtomOccupancy AtomOccupancy
H8AA0.626(6) H8AB0.626(6) H8BC0.374(6)
H8BD0.374(6) H12A0.928(3) H12B0.928(3)
H12C0.072(3) H12D0.072(3) C130.928(3)
H13A0.928(3) H13B0.928(3) C140.928(3)
H14A0.928(3) H14B0.928(3) H14C0.928(3)
C150.928(3) H15A0.928(3) H15B0.928(3)
H15C0.928(3) C9A0.626(6) H9AA0.626(6)
H9AB0.626(6) C10A0.626(6) H10A0.626(6)
H10B0.626(6) H10C0.626(6) C9B0.374(6)
H9BA0.374(6) H9BB0.374(6) C10B0.374(6)
H10D0.374(6) H10E0.374(6) H10F0.374(6)
C2AA0.374(6) H2AA0.374(6) H2AB0.374(6)
H2AC0.374(6) C1AA0.626(6) H1AA0.626(6)
H1AB0.626(6) H1AC0.626(6) C0AA0.072(3)
H0AA0.072(3) H0AB0.072(3) C100.072(3)
H10G0.072(3) H10H0.072(3) H10I0.072(3)
C3AA0.072(3) H3AA0.072(3) H3AB0.072(3)
H3AC0.072(3)     

 

Table 8 Solvent masks information for mo_B0747_0m_4.
NumberXYZVolumeElectron countContent
10.0000.0000.000180.432.3?

Experimental

Single crystals of C19H47KLi3N3O5Si [mo_B0747_0m_4] were []. A suitable crystal was selected and [] on a 'Bruker APEX-II CCD' diffractometer. The crystal was kept at 100.03 K during data collection. Using Olex2 [1], the structure was solved with the ShelXT [2] structure solution program using Intrinsic Phasing and refined with the XL [3] refinement package using Least Squares minimisation.

  1. Dolomanov, O.V., Bourhis, L.J., Gildea, R.J, Howard, J.A.K. & Puschmann, H. (2009), J. Appl. Cryst. 42, 339-341.
  2. Sheldrick, G.M. (2015). Acta Cryst. A71, 3-8.
  3. Sheldrick, G.M. (2008). Acta Cryst. A64, 112-122.

Crystal structure determination of [mo_B0747_0m_4]

Crystal Data for C19H47KLi3N3O5Si (=485.60 g/mol): triclinic, space group P-1 (no. 2), a = 10.740(3) Å, b = 11.012(3) Å, c = 14.879(4) Å, α = 86.695(9)°, β = 78.411(9)°, γ = 68.404(9)°, = 1602.5(7) Å3, Z = 2, T = 100.03 K, μ(MoKα) = 0.229 mm-1, Dcalc = 1.006 g/cm3, 6289 reflections measured (4.538° ≤ 2Θ ≤ 51.998°), 6289 unique (Rint = 0.0000, Rsigma = 0.0474) which were used in all calculations. The final R1 was 0.0645 (I > 2σ(I)) and wR2 was 0.1728 (all data).

Refinement model description

Number of restraints - 1, number of constraints - unknown.

Details:

1. Fixed Uiso
At 1.2 times of:
All C(H,H) groups, All C(H,H,H,H) groups
At 1.5 times of:
All C(H,H,H) groups
2. Restrained distances
N3-C3AA
1.5 with sigma of 0.02
3. Uiso/Uaniso restraints and constraints
Uanis(C2AA) = Uanis(C10B)
Uanis(C10A) = Uanis(C1AA)
Uanis(C3AA) = Uanis(C14)
Uanis(C15) = Uanis(C10)
Uanis(C13) = Uanis(C0AA)
4. Others
Sof(H8BC)=Sof(H8BD)=Sof(C9B)=Sof(H9BA)=Sof(H9BB)=Sof(C10B)=Sof(H10D)=
Sof(H10E)=Sof(H10F)=Sof(C2AA)=Sof(H2AA)=Sof(H2AB)=Sof(H2AC)=1-FVAR(1)
Sof(H8AA)=Sof(H8AB)=Sof(C9A)=Sof(H9AA)=Sof(H9AB)=Sof(C10A)=Sof(H10A)=
Sof(H10B)=Sof(H10C)=Sof(C1AA)=Sof(H1AA)=Sof(H1AB)=Sof(H1AC)=FVAR(1)
Sof(H12C)=Sof(H12D)=Sof(C0AA)=Sof(H0AA)=Sof(H0AB)=Sof(C10)=Sof(H10G)=
Sof(H10H)=Sof(H10I)=Sof(C3AA)=Sof(H3AA)=Sof(H3AB)=Sof(H3AC)=1-FVAR(2)
Sof(H12A)=Sof(H12B)=Sof(C13)=Sof(H13A)=Sof(H13B)=Sof(C14)=Sof(H14A)=Sof(H14B)=
Sof(H14C)=Sof(C15)=Sof(H15A)=Sof(H15B)=Sof(H15C)=FVAR(2)
5.a Secondary CH2 refined with riding coordinates:
C4(H4A,H4B), C5(H5A,H5B), C8(H8AA,H8AB), C8(H8BC,H8BD), C12(H12A,H12B),
C12(H12C,H12D), C13(H13A,H13B), C16(H16A,H16B), C17(H17A,H17B), C18(H18A,H18B),
C19(H19A,H19B), C9A(H9AA,H9AB), C9B(H9BA,H9BB), C0AA(H0AA,H0AB)
5.b Idealised Me refined as rotating group:
C1(H1A,H1B,H1C), C2(H2A,H2B,H2C), C3(H3A,H3B,H3C), C6(H6A,H6B,H6C), C7(H7A,
H7B,H7C), C14(H14A,H14B,H14C), C15(H15A,H15B,H15C), C10A(H10A,H10B,H10C),
C10B(H10D,H10E,H10F), C2AA(H2AA,H2AB,H2AC), C1AA(H1AA,H1AB,H1AC), C10(H10G,
H10H,H10I), C3AA(H3AA,H3AB,H3AC)

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