Molecular design of peptides. Synthesis, molecular structure and beta-turn II' formation of N-Boc-L-Phe-dehydro-Abu-NH-CH3 in crystals.

T P Singh, P Narula
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Abstract

The peptide N-Boc-L-Phe-dehydro-Abu-NH-CH3 was synthesized by the usual workup procedure. The crystals grown from methanol at 4 degrees C belong to the space group P2(1)2(1)2(1) with a = 7.589(2), b = 13.690(4), c = 21.897(6) A, Z = 4 and dc = 1.149(5) g cm-3 for C19H29N3O5.CH3OH. The peptide crystals were highly sensitive to radiation. The final agreement factor R was 0.055 for 1109 observed reflections (I > or = 2 sigma) with data extending to a 2 theta value of 103 degrees. The methanol oxygen atom is split into two occupancies. Both sites are involved in identical hydrogen bonding. As a result of substitution of a dehydro-Abu residue at the (i + 2) position the peptide adopts an ideal beta-turn II' conformation with torsion angles of corner residues as phi 1 = 63(1) degrees, psi 1 = -127(1) degrees, phi 2 = -66(1) degrees and psi 2 = -10(1) degrees, and an intramolecular hydrogen bond N-H...O of length 3.01(1) A. This shows that the conformational constraints produced by dehydro-Abu are similar in nature to but different in magnitude than those produced by dehydro-Phe and dehydro-Leu. The methanol-peptide interactions show characteristic features of multiple hydrogen-bond formations involving polar sites of participating peptide and methanol molecules. The packing of the molecules in the unit cell is stabilized by interactions through methanol molecules with the help of several hydrogen bonds.

肽的分子设计。n - boc - l - ph -脱氢- abu - nhh - ch3晶体的合成、分子结构和β -turn II'形成。
采用常规工艺合成了n - boc - l - ph -脱氢- abu - nh - ch3肽。在4℃甲醇中生长的C19H29N3O5.CH3OH晶体属于P2(1)2(1)2(1)空间群,a = 7.589(2), b = 13.690(4), C = 21.897(6) a, Z = 4, dc = 1.149(5) g cm-3。肽晶体对辐射高度敏感。1109个观测到的反射(I > or = 2 sigma)的最终一致因子R为0.055,数据延伸到2 theta值为103度。甲醇的氧原子被分成两个占位。两个位置都参与了相同的氢键。由于在(i + 2)位置取代了脱氢- abu残基,肽形成了理想的β -turn II'构象,残基转角分别为φ 1 = 63(1)度、φ 1 = -127(1)度、φ 2 = -66(1)度和φ 2 = -10(1)度,分子内氢键N-H…长度为3.01(1)a的O表明,脱氢- abu产生的构象约束与脱氢- phe和脱氢- leu产生的构象约束性质相似,但大小不同。甲醇-多肽相互作用表现出多肽与甲醇分子极性位点形成多个氢键的特征。通过甲醇分子在几个氢键的帮助下相互作用来稳定单元胞中分子的包装。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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