Erbes D L, King D, Gibbs M
Institute for Photobiology of Cells and Organelles, Brandeis University, Waltham, Massachusetts 02154.
Plant Physiol. 1979 Jun;63(6):1138-42. doi: 10.1104/pp.63.6.1138.
O(2) irreversibly inactivates hydrogenase from Chlamydomonas reinhardi. The mechanism for the inactivation involves the reaction of one molecule of hydrogenase with one molecule of O(2) (or two oxygen atoms) in the transition complex of the rate-limiting step. The second order rate constant for this reaction is 190 atmospheres(-1) minute(-1) (1.4 x 10(5) molar(-1) minute(-1)). At levels above 0.01 atmosphere O(2), the increased numbers of O(2) molecules may compete for the site of inactivation hindering the proper orientation for inactivation of any one O(2) molecule and resulting in lowered rates of inactivation.CO is a reversible inhibitor of hydrogenase acting competitively against H(2). The K(i) for CO is 0.0010 atmosphere. CO antagonizes O(2) inactivation. In a period when complete inactivation by O(2) would usually occur, the presence of CO greatly reduces the inactivation rate.After 3 hours of adaptation in whole cells, the presence of H(2) lowers the rate of deadaptation of hydrogenase. Inasmuch as H(2) promotes increased O(2) uptake the cellular concentration of O(2) is likely to be lower. After 48 hours of adaptation O(2) uptake is reduced even when H(2) is present and the pattern of deadaptation under O(2) with and without H(2) and CO is qualitatively the same as observed for the inactivation of cell-free hydrogenase. The mechanism of inactivation of cell-free hydrogenase by O(2) may be the same as the mechanism for loss of hydrogenase during deadaptation in whole algal cells.
氧气(O₂)可使莱茵衣藻的氢化酶不可逆地失活。失活机制涉及在限速步骤的过渡复合物中,一分子氢化酶与一分子O₂(或两个氧原子)发生反应。该反应的二级速率常数为190大气压⁻¹分钟⁻¹(1.4×10⁵摩尔⁻¹分钟⁻¹)。在O₂浓度高于0.01大气压时,增加的O₂分子数量可能会竞争失活位点,阻碍任何一个O₂分子进行失活的正确取向,从而导致失活速率降低。一氧化碳(CO)是氢化酶的可逆抑制剂,对氢气(H₂)具有竞争性抑制作用。CO的抑制常数(K(i))为0.0010大气压。CO可拮抗O₂的失活作用。在通常会发生O₂完全失活的时间段内,CO的存在会大大降低失活速率。
在全细胞中适应3小时后,H₂的存在会降低氢化酶的去适应速率。由于H₂促进O₂摄取增加,细胞内O₂浓度可能较低。适应48小时后,即使存在H₂,O₂摄取也会减少,并且在有和没有H₂及CO的情况下,O₂条件下去适应的模式与无细胞氢化酶失活时观察到的定性相同。无细胞氢化酶被O₂失活的机制可能与整个藻类细胞去适应过程中氢化酶丧失的机制相同。