Sauer Kenneth, Yachandra Vittal K
Melvin Calvin Laboratory, Physical Biosciences Division, Lawrence Berkeley National Laboratory, and Department of Chemistry, University of California, Berkeley, CA 94720, USA.
Proc Natl Acad Sci U S A. 2002 Jun 25;99(13):8631-6. doi: 10.1073/pnas.132266199. Epub 2002 Jun 19.
The photosynthetic water oxidation complex consists of a cluster of four Mn atoms bridged by O atoms, associated with Ca2+ and Cl-, and incorporated into protein. The structure is similar in higher plants and algae, as well as in cyanobacteria of more ancient lineage, dating back more than 2.5 billion years ago on Earth. It has been proposed that the proto-enzyme derived from a component of a natural early marine manganese precipitate that contained a CaMn4O9 cluster. A variety of MnO2 minerals are found in nature. Three major classes are spinels, sheet-like layered structures, and three-dimensional networks that contain parallel tunnels. These relatively open structures readily incorporate cations (Na+, Li+, Mg2+, Ca2+, Ba2+, H+, and even Mn2+) and water. The minerals have different ratios of Mn(III) and Mn(IV) octahedrally coordinated to oxygens. Using x-ray spectroscopy we compare the chemical structures of Mn in the minerals with what is known about the arrangement in the water oxidation complex to define the parameters of a structural model for the photosynthetic catalytic site. This comparison provides for the structural model a set of candidate Mn(4) clusters-some previously proposed and considered and others entirely novel.
光合水氧化复合物由四个由氧原子桥连的锰原子簇组成,与钙离子和氯离子结合,并整合到蛋白质中。高等植物、藻类以及起源更为古老的蓝细菌(可追溯到地球上25亿多年前)中的结构相似。有人提出,原始酶源自天然早期海洋锰沉淀物的一种成分,该沉淀物含有CaMn4O9簇。自然界中发现了多种二氧化锰矿物。三大类是尖晶石、片状层状结构以及包含平行隧道的三维网络。这些相对开放的结构很容易结合阳离子(Na+、Li+、Mg2+、Ca2+、Ba2+、H+,甚至Mn2+)和水。这些矿物中八面体配位的锰(III)和锰(IV)与氧的比例不同。我们使用X射线光谱法将矿物中锰的化学结构与水氧化复合物中已知的排列进行比较,以确定光合催化位点结构模型的参数。这种比较为结构模型提供了一组候选的锰(4)簇——一些是先前提出并考虑过的,还有一些是全新的。