Proton NMR investigation of the [4Fe--4S]1+ cluster environment of nitrogenase iron p
 

Proton NMR investigation of the [4Fe--4S]1+ cluster environment of nitrogenase iron protein from Azotobacter vinelandii: defining nucleotide-induced conformational changes.

Related Articles Proton NMR investigation of the [4Fe--4S]1+ cluster environment of nitrogenase iron protein from Azotobacter vinelandii: defining nucleotide-induced conformational changes.

Biochemistry. 1995 Dec 5;34(48):15646-53

Authors: Lanzilotta WN, Holz RC, Seefeldt LC

This work presents the complete assignment of the isotropically shifted 1H NMR resonances of Azotobacter vinelandii nitrogenase iron protein (Fe protein) to beta-CH2 and alpha-CH protons of the [4Fe--4S]1+ cluster cysteinyl ligands. Four resonances were observed for the reduced Fe protein with chemical shifts of 49, 23, 17, and 13 ppm. T1 measurements and analysis of relative peak areas coupled with one-dimensional nuclear Overhauser effect (NOE) difference spectra were used to assign the two most downfield-shifted resonances (49 and 23 ppm) to cysteinyl ligand beta-CH2 protons and the 17 and 14 ppm resonances to cysteinyl ligand alpha-CH protons. Temperature dependent studies of the isotropically shifted protons revealed both Curie and anti-Curie behavior. These results, along with previous Mossbauer studies of the Fe protein, allowed the assignment of signal A (49 ppm) to four beta-CH2 protons and signal C (17 ppm) to 2 alpha-CH protons of two cysteinyl ligands bound to a mixed-valence iron pair (Fe3(+)--Fe2+) of the [4Fe--4S]1+ cluster. Signal B (23 ppm) was assigned to four beta-CH2 protons, and signal C (17 ppm) and D (13 ppm) were assigned to two alpha-CH protons of two cysteinyl ligands bound to a ferrous pair of irons (2Fe2+). The effects of MgATP, MgADP, and Mg-adenosine-beta, gamma-methylene-5'-triphosphate binding to the Fe protein on the assigned resonances were established and are discussed in the context of nucleotide-induced changes in the protein environment of the [4Fe--4S] cluster.(ABSTRACT TRUNCATED AT 250 WORDS)

PMID: 7495793 [PubMed - indexed for MEDLINE]



Source: PubMed