Department of Chemical Sciences & Centre for Advanced Functional Materials, Indian Institute of Science Education and Research (IISER) Kolkata, Mohanpur, West Bengal, 741246, India.
Angew Chem Int Ed Engl. 2020 Mar 9;59(11):4329-4334. doi: 10.1002/anie.201914633. Epub 2020 Jan 28.
Early evolution benefited from a complex network of reactions involving multiple C-C bond forming and breaking events that were critical for primitive metabolism. Nature gradually chose highly evolved and complex enzymes such as lyases to efficiently facilitate C-C bond formation and cleavage with remarkable substrate selectivity. Reported here is a lipidated short peptide which accesses a homogenous nanotubular morphology to efficiently catalyze C-C bond cleavage and formation. This system shows morphology-dependent catalytic rates, suggesting the formation of a binding pocket and registered enhancements in the presence of the hydrogen-bond donor tyrosine, which is exploited by extant aldolases. These assemblies showed excellent substrate selectivity and templated the formation of a specific adduct from a pool of possible adducts. The ability to catalyze metabolically relevant cascade transformations suggests the importance of such systems in early evolution.
早期进化得益于涉及多个 C-C 键形成和断裂事件的复杂反应网络,这些事件对原始代谢至关重要。自然界逐渐选择了高度进化和复杂的酶,如裂合酶,以有效地促进 C-C 键的形成和裂解,并具有显著的底物选择性。本文报道了一种脂化短肽,它可以进入均匀的纳米管状形态,有效地催化 C-C 键的断裂和形成。该体系表现出形态依赖性的催化速率,表明形成了一个结合口袋,并在氢键供体酪氨酸存在下得到了显著增强,这种酪氨酸被现存的醛缩酶所利用。这些组装体表现出优异的底物选择性,并在可能的加合物池中模板化形成特定的加合物。催化代谢相关级联转化的能力表明,此类系统在早期进化中具有重要意义。
