6GTL
Achromobacter cycloclastes copper nitrite reductase at pH 6.0
Summary for 6GTL
| Entry DOI | 10.2210/pdb6gtl/pdb |
| Related | 6GSQ |
| Descriptor | Copper-containing nitrite reductase, COPPER (II) ION, NITRITE ION, ... (5 entities in total) |
| Functional Keywords | oxidoreductase, nitrite reductase |
| Biological source | Achromobacter cycloclastes |
| Total number of polymer chains | 1 |
| Total formula weight | 41196.36 |
| Authors | Halsted, T.P.,Eady, R.R.,Antonyuk, S.V.,Hasnain, S.S. (deposition date: 2018-06-18, release date: 2019-07-03, Last modification date: 2024-05-15) |
| Primary citation | Halsted, T.P.,Yamashita, K.,Gopalasingam, C.C.,Shenoy, R.T.,Hirata, K.,Ago, H.,Ueno, G.,Blakeley, M.P.,Eady, R.R.,Antonyuk, S.V.,Yamamoto, M.,Hasnain, S.S. Catalytically important damage-free structures of a copper nitrite reductase obtained by femtosecond X-ray laser and room-temperature neutron crystallography. Iucrj, 6:761-772, 2019 Cited by PubMed Abstract: Copper-containing nitrite reductases (CuNiRs) that convert NO to NO via a Cu-His-Cys-Cu proton-coupled redox system are of central importance in nitrogen-based energy metabolism. These metalloenzymes, like all redox enzymes, are very susceptible to radiation damage from the intense synchrotron-radiation X-rays that are used to obtain structures at high resolution. Understanding the chemistry that underpins the enzyme mechanisms in these systems requires resolutions of better than 2 Å. Here, for the first time, the damage-free structure of the resting state of one of the most studied CuNiRs was obtained by combining X-ray free-electron laser (XFEL) and neutron crystallography. This represents the first direct comparison of neutron and XFEL structural data for any protein. In addition, damage-free structures of the reduced and nitrite-bound forms have been obtained to high resolution from cryogenically maintained crystals by XFEL crystallography. It is demonstrated that Asp and His are deprotonated in the resting state of CuNiRs at pH values close to the optimum for activity. A bridging neutral water (DO) is positioned with one deuteron directed towards Asp O and one towards His N. The catalytic T2Cu-ligated water (W1) can clearly be modelled as a neutral DO molecule as opposed to DO or OD, which have previously been suggested as possible alternatives. The bridging water restricts the movement of the unprotonated Asp and is too distant to form a hydrogen bond to the O atom of the bound nitrite that interacts with Asp. Upon the binding of NO a proton is transferred from the bridging water to the O atom of Asp, prompting electron transfer from T1Cu to T2Cu and reducing the catalytic redox centre. This triggers the transfer of a proton from Asp to the bound nitrite, enabling the reaction to proceed. PubMed: 31316819DOI: 10.1107/S2052252519008285 PDB entries with the same primary citation |
| Experimental method | X-RAY DIFFRACTION (1.5 Å) |
Structure validation
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