Calub T M, Waterhouse A L, French A D
Department of Chemistry, Tulane University, New Orleans, Louisiana 70118.
Carbohydr Res. 1990 Oct 25;207(2):221-35. doi: 10.1016/0008-6215(90)84050-5.
Conformational energies for inulobiose [beta-D-fructofuranosyl-(2----1)-beta-D-fructofuranoside], a model for inulin, were computed with the molecular mechanics program MMP2(85). The torsion angles of the three linkage bonds were driven in 20 degree increments, and the steric energy of all other parameters was minimized. The linkage torsion angles defined by C-1'-C-2'-O-C-1 (phi) and O-C-1-C-2-O-2 (omega) have minima at +60 degrees and -60 degrees, respectively, regardless of side group orientation; accessible minima exist at other staggered conformations. The torsion angle at the central bond C-2'-O-1-C-1-C-2 (psi) was approximately 180 degrees in all the low-energy conformers. This appears to be generally true for rings linked by three bonds. The fructofuranose rings initially had low-energy 4/3T conformations (angle of pseudorotation, phi 2 = 265 degrees) that were retained except when the linkage conformations created severe inter-residue conflicts. In those cases, almost all puckerings of the furanose rings were found.
以菊粉的模型菊粉双糖[β-D-呋喃果糖基-(2→1)-β-D-呋喃果糖苷]为研究对象,使用分子力学程序MMP2(85)计算其构象能。三个连接键的扭转角以20度的增量驱动,其他所有参数的空间能最小化。由C-1'-C-2'-O-C-1(φ)和O-C-1-C-2-O-2(ω)定义的连接扭转角,无论侧基取向如何,分别在+60度和-60度处具有最小值;在其他交错构象中也存在可及的最小值。在所有低能量构象体中,中心键C-2'-O-1-C-1-C-2(ψ)的扭转角约为180度。对于由三个键连接的环,这似乎普遍成立。呋喃果糖环最初具有低能量的4/3T构象(假旋转角,φ2 = 265度),除非连接构象产生严重的残基间冲突,否则该构象会保留。在这些情况下,发现了呋喃糖环几乎所有的折叠形式。