Ouellette A J, Anderson L B, Barry B A
Department of Biochemistry, University of Minnesota, St. Paul, MN 55108, USA.
Proc Natl Acad Sci U S A. 1998 Mar 3;95(5):2204-9. doi: 10.1073/pnas.95.5.2204.
Photosynthetic water oxidation occurs at the Mn-containing catalytic site of photosystem II (PSII). By the use of 14C-labeled amines and SDS-denaturing PAGE, covalent adducts derived from primary amines and the PSII subunits, CP47, D2/D1, and the Mn-stabilizing protein, can be observed. When PSII contains the 18- and 24-kDa extrinsic proteins, which restrict access to the active site, no 14C labeling is obtained. NaCl, but not Na2SO4, competes with 14C labeling in Mn-containing PSII preparations, and the concentration dependence of this competition parallels the activation of oxygen evolution. Formation of 14C-labeled adducts is observed in the presence or in the absence of a functional manganese cluster. However, no significant Cl- effect on 14C labeling is observed in the absence of the Mn cluster. Isolation and quantitation of the 14C-labeled aldehyde product, produced from [14C]benzylamine, gives yields of 1. 8 +/- 0.3 mol/mol PSII and 2.9 +/- 0.2 mol/mol in Mn-containing and Mn-depleted PSII, respectively. The corresponding specific activities are 0.40 +/- 0.07 micromol(micromol PSII-hr)-1 and 0.64 +/- 0.04 micromol(micromol PSII-hr)-1. Cl- suppresses the production of [14C]benzaldehyde in Mn-containing PSII, but does not suppress the production in Mn-depleted preparations. Control experiments show that these oxidation reactions do not involve the redox-active tyrosines, D and Z. Our results suggest the presence of one or more activated carbonyl groups in protein subunits that form the active site of PSII.
光合水氧化发生在光系统II(PSII)含锰的催化位点。通过使用14C标记的胺和SDS变性聚丙烯酰胺凝胶电泳,可以观察到源自伯胺与PSII亚基CP47、D2/D1和锰稳定蛋白的共价加合物。当PSII含有限制进入活性位点的18 kDa和24 kDa外在蛋白时,未获得14C标记。在含锰的PSII制剂中,NaCl而非Na2SO4与14C标记竞争,且这种竞争的浓度依赖性与放氧的激活情况平行。在存在或不存在功能性锰簇的情况下均观察到14C标记加合物的形成。然而,在没有锰簇的情况下,未观察到Cl-对14C标记有显著影响。对由[14C]苄胺产生的14C标记醛产物进行分离和定量,在含锰和不含锰的PSII中,产率分别为1.8±0.3 mol/mol PSII和2.9±0.2 mol/mol PSII。相应的比活性分别为0.40±0.07 μmol/(μmol PSII·小时)和0.64±0.04 μmol/(μmol PSII·小时)。Cl-抑制含锰PSII中[14C]苯甲醛的产生,但不抑制不含锰制剂中的产生。对照实验表明,这些氧化反应不涉及氧化还原活性酪氨酸D和Z。我们的结果表明,在构成PSII活性位点的蛋白质亚基中存在一个或多个活化的羰基。