7lq5 Citations

Structure of Geobacter cytochrome OmcZ identifies mechanism of nanowire assembly and conductivity.

Gu Y, Guberman-Pfeffer MJ, Srikanth V, Shen C, Giska F, Gupta K, Londer Y, Samatey FA, Batista VS, Malvankar NS
Nat Microbiol 8 284-298 (2023)
Cited: 8 times
EuropePMC logo PMID: 36732469

Abstract

OmcZ nanowires produced by Geobacter species have high electron conductivity (>30 S cm-1). Of 111 cytochromes present in G. sulfurreducens, OmcZ is the only known nanowire-forming cytochrome essential for the formation of high-current-density biofilms that require long-distance (>10 µm) extracellular electron transport. However, the mechanisms underlying OmcZ nanowire assembly and high conductivity are unknown. Here we report a 3.5-Å-resolution cryogenic electron microscopy structure for OmcZ nanowires. Our structure reveals linear and closely stacked haems that may account for conductivity. Surface-exposed haems and charge interactions explain how OmcZ nanowires bind to diverse extracellular electron acceptors and how organization of nanowire network re-arranges in different biochemical environments. In vitro studies explain how G. sulfurreducens employ a serine protease to control the assembly of OmcZ monomers into nanowires. We find that both OmcZ and serine protease are widespread in environmentally important bacteria and archaea, thus establishing a prevalence of nanowire biogenesis across diverse species and environments.

Articles - 7lq5 mentioned but not cited (1)

  1. Structure of Geobacter cytochrome OmcZ identifies mechanism of nanowire assembly and conductivity. Gu Y, Guberman-Pfeffer MJ, Srikanth V, Shen C, Giska F, Gupta K, Londer Y, Samatey FA, Batista VS, Malvankar NS. Nat Microbiol 8 284-298 (2023)


Articles citing this publication (7)

  1. Characterization of the inner membrane cytochrome ImcH from Geobacter reveals its importance for extracellular electron transfer and energy conservation. Pimenta AI, Paquete CM, Morgado L, Edwards MJ, Clarke TA, Salgueiro CA, Pereira IAC, Duarte AG. Protein Sci 32 e4796 (2023)
  2. Electron Transfer Mechanism at the Interface of Multi-Heme Cytochromes and Metal Oxide. Yu SS, Zhang XY, Yuan SJ, Jiang SL, Zhang Q, Chen JJ, Yu HQ. Adv Sci (Weinh) 10 e2302670 (2023)
  3. Exploring oxidative stress pathways in Geobacter sulfurreducens: the redox network between MacA peroxidase and triheme periplasmic cytochromes. Portela PC, Morgado L, Silva MA, Denkhaus L, Einsle O, Salgueiro CA. Front Microbiol 14 1253114 (2023)
  4. Global transcriptional analysis of Geobacter sulfurreducens gsu1771 mutant biofilm grown on two different support structures. Jaramillo-Rodríguez JB, Vega-Alvarado L, Rodríguez-Torres LM, Huerta-Miranda GA, Hernández-Eligio A, Juarez K. PLoS One 18 e0293359 (2023)
  5. Hemes on a string: insights on the functional mechanisms of PgcA from Geobacter sulfurreducens. Fernandes TM, Silva MA, Morgado L, Salgueiro CA. J Biol Chem 299 105167 (2023)
  6. Multi-heme cytochrome-mediated extracellular electron transfer by the anaerobic methanotroph 'Candidatus Methanoperedens nitroreducens'. Zhang X, Joyce GH, Leu AO, Zhao J, Rabiee H, Virdis B, Tyson GW, Yuan Z, McIlroy SJ, Hu S. Nat Commun 14 6118 (2023)
  7. The varied roles of pilA-N, omcE, omcS, omcT, and omcZ in extracellular electron transfer by Geobacter sulfurreducens. Jiang J, He P, Luo Y, Peng Z, Jiang Y, Hu Y, Qi L, Dong X, Dong Y, Shi L. Front Microbiol 14 1251346 (2023)


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