Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10536940 | Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics | 2014 | 8 Pages |
Abstract
Recently we have described the globin-coupled heme containing adenylate cyclase from Leishmania major (HemAC-Lm) that shows an O2 dependent cAMP signaling (Sen Santara, et. al. Proc. Natl. Acad. Sci. U.S.A. 110, 16790-16795 (2013)). The heme iron of HemAC-Lm is expected to participate in oxygen binding and activates adenylate cyclase activity during catalysis, but its interactions with O2 are uncharacterized. We have utilized the HemAC-Lm and stopped-flow methods to study the formation and decay of the HemAC-Lm oxygenated complex at 25 °C. Mixing of the ferrous HemAC-Lm with air-saturated buffer generates a very stable oxygenated complex with absorption maxima at 414, 540 and 576 nm. The distal axial ligand in the deoxygenated ferrous HemAC-Lm is displaced by O2 at a rate of ~ 10 sâ 1. To prepare apoprotein of heme iron in HemAC-Lm, we have mutated the proximal His161 to Ala and characterized the mutant protein. The apo as well as heme reconstituted ferric state of the mutant protein shows a ~ 30 fold lower catalytic activity compared to oxygenated form of wild type protein. The oxygenated form of heme reconstituted mutant protein is highly unstable (decay rate = 6.1 sâ 1). Decomposition of the oxygenated intermediate is independent of O2 concentration and is monophasic. Thus, the stabilization of ferrous-oxy species is an essential requirement in the wild type HemAC-Lm for a conformational alteration in the sensor domain that, sequentially, activates the adenylate cyclase domain, resulting in the synthesis of cAMP.
Related Topics
Physical Sciences and Engineering
Chemistry
Analytical Chemistry
Authors
Jayasree Roy, Sumit Sen Santara, Moumita Bose, Supratim Mukherjee, Rina Saha, Subrata Adak,