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Systematic functional analysis of Leishmania protein kinases identifies regulators of differentiation or survival

Author

Listed:
  • N. Baker

    (University of York
    University of York)

  • C. M. C. Catta-Preta

    (University of York
    University of York)

  • R. Neish

    (University of York
    University of York)

  • J. Sadlova

    (Charles University)

  • B. Powell

    (University of York)

  • E. V. C. Alves-Ferreira

    (University of York
    University of York)

  • V. Geoghegan

    (University of York
    University of York)

  • J. B. T. Carnielli

    (University of York
    University of York)

  • K. Newling

    (University of York)

  • C. Hughes

    (University of York
    University of York)

  • B. Vojtkova

    (Charles University)

  • J. Anand

    (University of York
    University of York)

  • A. Mihut

    (University of York)

  • P. B. Walrad

    (University of York
    University of York)

  • L. G. Wilson

    (University of York
    University of York)

  • J. W. Pitchford

    (University of York
    University of York)

  • P. Volf

    (Charles University)

  • J. C. Mottram

    (University of York
    University of York)

Abstract

Differentiation between distinct stages is fundamental for the life cycle of intracellular protozoan parasites and for transmission between hosts, requiring stringent spatial and temporal regulation. Here, we apply kinome-wide gene deletion and gene tagging in Leishmania mexicana promastigotes to define protein kinases with life cycle transition roles. Whilst 162 are dispensable, 44 protein kinase genes are refractory to deletion in promastigotes and are likely core genes required for parasite replication. Phenotyping of pooled gene deletion mutants using bar-seq and projection pursuit clustering reveal functional phenotypic groups of protein kinases involved in differentiation from metacyclic promastigote to amastigote, growth and survival in macrophages and mice, colonisation of the sand fly and motility. This unbiased interrogation of protein kinase function in Leishmania allows targeted investigation of organelle-associated signalling pathways required for successful intracellular parasitism.

Suggested Citation

  • N. Baker & C. M. C. Catta-Preta & R. Neish & J. Sadlova & B. Powell & E. V. C. Alves-Ferreira & V. Geoghegan & J. B. T. Carnielli & K. Newling & C. Hughes & B. Vojtkova & J. Anand & A. Mihut & P. B. W, 2021. "Systematic functional analysis of Leishmania protein kinases identifies regulators of differentiation or survival," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21360-8
    DOI: 10.1038/s41467-021-21360-8
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    Cited by:

    1. Nathaniel G. Jones & Vincent Geoghegan & Gareth Moore & Juliana B. T. Carnielli & Katherine Newling & Félix Calderón & Raquel Gabarró & Julio Martín & Rab K. Prinjha & Inmaculada Rioja & Anthony J. Wi, 2022. "Bromodomain factor 5 is an essential regulator of transcription in Leishmania," Nature Communications, Nature, vol. 13(1), pages 1-18, December.

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