1pdx Citations

A refined model for the solution structure of oxidized putidaredoxin.

Pochapsky TC, Jain NU, Kuti M, Lyons TA, Heymont J
Biochemistry 38 4681-90 (1999)
Related entries: 1ayf, 1put

Cited: 25 times
EuropePMC logo PMID: 10200155

Abstract

A refined model for the solution structure of oxidized putidaredoxin (Pdxo), a Cys4Fe2S2 ferredoxin, has been determined. A previous structure (Pochapsky et al. (1994) Biochemistry 33, 6424-6432; PDB entry ) was calculated using the results of homonuclear two-dimensional NMR experiments. New data has made it possible to calculate a refinement of the original Pdxo solution structure. First, essentially complete assignments for diamagnetic 15N and 13C resonances of Pdxo have been made using multidimensional NMR methods, and 15N- and 13C-resolved NOESY experiments have permitted the identification of many new NOE restraints for structural calculations. Stereospecific assignments for leucine and valine CH3 resonances were made using biosynthetically directed fractional 13C labeling, improving the precision of NOE restraints involving these residues. Backbone dihedral angle restraints have been obtained using a combination of two-dimensional J-modulated 15N,1H HSQC and 3D (HN)CO(CO)NH experiments. Second, the solution structure of a diamagnetic form of Pdx, that of the C85S variant of gallium putidaredoxin, in which a nonligand Cys is replaced by Ser, has been determined (Pochapsky et al. (1998) J. Biomol. NMR 12, 407-415), providing information concerning structural features not observable in the native ferredoxin due to paramagnetism. Third, a crystal structure of a closely related ferredoxin, bovine adrenodoxin, has been published (Müller et al. (1998) Structure 6, 269-280). This structure has been used to model the metal binding site structure in Pdx. A family of fourteen structures is presented that exhibits an rmsd of 0.51 A for backbone heavy atoms and 0.83 A for all heavy atoms. Exclusion of the modeled metal binding loop region reduces overall the rmsd to 0.30 A for backbone atoms and 0.71 A for all heavy atoms.

Articles - 1pdx mentioned but not cited (6)

  1. Evolutionary Relationships Between Low Potential Ferredoxin and Flavodoxin Electron Carriers. Campbell IJ, Bennett GN, Silberg JJ. Front Energy Res 7 (2019)
  2. A score of the ability of a three-dimensional protein model to retrieve its own sequence as a quantitative measure of its quality and appropriateness. Martínez-Castilla LP, Rodríguez-Sotres R. PLoS One 5 e12483 (2010)
  3. Diversification of Ferredoxins across Living Organisms. Nzuza N, Padayachee T, Chen W, Gront D, Nelson DR, Syed K. Curr Issues Mol Biol 43 1374-1390 (2021)
  4. The Pentablock Amphiphilic Copolymer T1107 Prevents Aggregation of Denatured and Reduced Lysozyme. Poellmann MJ, Sosnick TR, Meredith SC, Lee RC. Macromol Biosci 17 (2017)
  5. Three pairs of surrogate redox partners comparison for Class I cytochrome P450 enzyme activity reconstitution. Liu X, Li F, Sun T, Guo J, Zhang X, Zheng X, Du L, Zhang W, Ma L, Li S. Commun Biol 5 791 (2022)
  6. Crystallization and preliminary X-ray diffraction studies of a novel ferredoxin involved in the dioxygenation of carbazole by Novosphingobium sp. KA1. Umeda T, Katsuki J, Usami Y, Inoue K, Noguchi H, Fujimoto Z, Ashikawa Y, Yamane H, Nojiri H. Acta Crystallogr Sect F Struct Biol Cryst Commun 64 632-635 (2008)


Reviews citing this publication (4)

  1. Adrenodoxin: structure, stability, and electron transfer properties. Grinberg AV, Hannemann F, Schiffler B, Müller J, Heinemann U, Bernhardt R. Proteins 40 590-612 (2000)
  2. Transient complexes of redox proteins: structural and dynamic details from NMR studies. Prudêncio M, Ubbink M. J Mol Recognit 17 524-539 (2004)
  3. Functional interaction of cytochrome P450 with its redox partners: a critical assessment and update of the topology of predicted contact regions. Hlavica P, Schulze J, Lewis DF. J Inorg Biochem 96 279-297 (2003)
  4. The NMR contribution to protein-protein networking in Fe-S protein maturation. Banci L, Camponeschi F, Ciofi-Baffoni S, Piccioli M. J Biol Inorg Chem 23 665-685 (2018)

Articles citing this publication (15)

  1. Structure and function of plant-type ferredoxins. Fukuyama K. Photosynth Res 81 289-301 (2004)
  2. Crystal structure of putidaredoxin, the [2Fe-2S] component of the P450cam monooxygenase system from Pseudomonas putida. Sevrioukova IF, Garcia C, Li H, Bhaskar B, Poulos TL. J Mol Biol 333 377-392 (2003)
  3. Flavocytochrome P450 BM3 mutant A264E undergoes substrate-dependent formation of a novel heme iron ligand set. Girvan HM, Marshall KR, Lawson RJ, Leys D, Joyce MG, Clarkson J, Smith WE, Cheesman MR, Munro AW. J Biol Chem 279 23274-23286 (2004)
  4. Redox-dependent structural reorganization in putidaredoxin, a vertebrate-type [2Fe-2S] ferredoxin from Pseudomonas putida. Sevrioukova IF. J Mol Biol 347 607-621 (2005)
  5. Solution NMR structure of putidaredoxin-cytochrome P450cam complex via a combined residual dipolar coupling-spin labeling approach suggests a role for Trp106 of putidaredoxin in complex formation. Zhang W, Pochapsky SS, Pochapsky TC, Jain NU. J Mol Biol 384 349-363 (2008)
  6. NMR study on the structural changes of cytochrome P450cam upon the complex formation with putidaredoxin. Functional significance of the putidaredoxin-induced structural changes. Tosha T, Yoshioka S, Takahashi S, Ishimori K, Shimada H, Morishima I. J Biol Chem 278 39809-39821 (2003)
  7. A second [2Fe-2S] ferredoxin from Sphingomonas sp. Strain RW1 can function as an electron donor for the dioxin dioxygenase. Armengaud J, Gaillard J, Timmis KN. J Bacteriol 182 2238-2244 (2000)
  8. Comparison of the complexes formed by cytochrome P450cam with cytochrome b5 and putidaredoxin, two effectors of camphor hydroxylase activity. Rui L, Pochapsky SS, Pochapsky TC. Biochemistry 45 3887-3897 (2006)
  9. Induction of protein conformational change inside the charged electrospray droplet. Banerjee S. J Mass Spectrom 48 193-204 (2013)
  10. Contrasting Health Effects of Bacteroidetes and Firmicutes Lies in Their Genomes: Analysis of P450s, Ferredoxins, and Secondary Metabolite Clusters. Nkosi BVZ, Padayachee T, Gront D, Nelson DR, Syed K. Int J Mol Sci 23 5057 (2022)
  11. Solution structure of HndAc: a thioredoxin-like domain involved in the NADP-reducing hydrogenase complex. Nouailler M, Morelli X, Bornet O, Chetrit B, Dermoun Z, Guerlesquin F. Protein Sci 15 1369-1378 (2006)
  12. Cluster and fold stability of E. coli ISC-type ferredoxin. Yan R, Adinolfi S, Iannuzzi C, Kelly G, Oregioni A, Martin S, Pastore A. PLoS One 8 e78948 (2013)
  13. A simple protocol to study blue copper proteins by NMR. Gelis I, Katsaros N, Luchinat C, Piccioli M, Poggi L. Eur J Biochem 270 600-609 (2003)
  14. Prochlorococcus phage ferredoxin: structural characterization and electron transfer to cyanobacterial sulfite reductases. Campbell IJ, Olmos JL, Xu W, Kahanda D, Atkinson JT, Sparks ON, Miller MD, Phillips GN, Bennett GN, Silberg JJ. J Biol Chem 295 10610-10623 (2020)
  15. Partial fusion of a cytochrome P450 system by carboxy-terminal attachment of putidaredoxin reductase to P450cam (CYP101A1). Johnson EO, Wong LL. Catal Sci Technol 6 7549-7560 (2016)


Related citations provided by authors (6)

  1. New aspects of electron transfer revealed by the crystal structure of a truncated bovine adrenodoxin, Adx(4-108).. Müller A, Müller JJ, Muller YA, Uhlmann H, Bernhardt R, Heinemann U Structure 6 269-80 (1998)
  2. An NMR-derived model for the solution structure of oxidized putidaredoxin, a 2-Fe, 2-S ferredoxin from Pseudomonas.. Pochapsky TC, Ye XM, Ratnaswamy G, Lyons TA Biochemistry 33 6424-32 (1994)
  3. Redox-dependent 1H NMR spectral features and tertiary structural constraints on the C-terminal region of putidaredoxin.. Pochapsky TC, Ratnaswamy G, Patera A Biochemistry 33 6433-41 (1994)
  4. Characterization of hyperfine-shifted 1H resonances in oxidized and reduced putidaredoxin, an Fe2S2 ferredoxin from Pseudomonas putida. Ratnaswamy G, Pochapsky TC Magn Reson Chem 31 73-77 (1993)
  5. 1H NMR sequential assignments and identification of secondary structural elements in oxidized putidaredoxin, an electron-transfer protein from Pseudomonas.. Ye XM, Pochapsky TC, Pochapsky SS Biochemistry 31 1961-8 (1992)
  6. 1H NMR identification of a beta-sheet structure and description of folding topology in putidaredoxin.. Pochapsky TC, Ye XM Biochemistry 30 3850-6 (1991)

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