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Crystal structure of a Pseudomonas malonate decarboxylase holoenzyme hetero-tetramer

Author

Listed:
  • Riyaz Maderbocus

    (Columbia University)

  • Blanche L. Fields

    (Columbia University)

  • Keith Hamilton

    (Columbia University)

  • Shukun Luo

    (Columbia University)

  • Timothy H. Tran

    (Columbia University)

  • Lars E. P. Dietrich

    (Columbia University)

  • Liang Tong

    (Columbia University)

Abstract

Pseudomonas species and other aerobic bacteria have a biotin-independent malonate decarboxylase that is crucial for their utilization of malonate as the sole carbon and energy source. The malonate decarboxylase holoenzyme contains four subunits, having an acyl-carrier protein (MdcC subunit) with a distinct prosthetic group, as well as decarboxylase (MdcD–MdcE) and acyl-carrier protein transferase (MdcA) catalytic activities. Here we report the crystal structure of a Pseudomonas malonate decarboxylase hetero-tetramer, as well as biochemical and functional studies based on the structural information. We observe a malonate molecule in the active site of MdcA and we also determine the structure of malonate decarboxylase with CoA in the active site of MdcD–MdcE. Both structures provide molecular insights into malonate decarboxylase catalysis. Mutations in the hetero-tetramer interface can abolish holoenzyme formation. Mutations in the hetero-tetramer interface and the active sites can abolish Pseudomonas aeruginosa growth in a defined medium with malonate as the sole carbon source.

Suggested Citation

  • Riyaz Maderbocus & Blanche L. Fields & Keith Hamilton & Shukun Luo & Timothy H. Tran & Lars E. P. Dietrich & Liang Tong, 2017. "Crystal structure of a Pseudomonas malonate decarboxylase holoenzyme hetero-tetramer," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00233-z
    DOI: 10.1038/s41467-017-00233-z
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    Cited by:

    1. Donghui Choe & Connor A. Olson & Richard Szubin & Hannah Yang & Jaemin Sung & Adam M. Feist & Bernhard O. Palsson, 2024. "Advancing the scale of synthetic biology via cross-species transfer of cellular functions enabled by iModulon engraftment," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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