An anaerobic mitochondrion that produces hydrogen

Brigitte Boxma; Rob M. De Graaf; Georg W.M. Van Der Staay; Theo A. Van Alen; Guenola Ricard; Toni Gabaldón; Angela H.A.M. Van Hoek; Seung Yeo Moon-Van Der Staay; Werner J.H. Koopman; Jaap J. Van Hellemond; Aloysius G.M. Helens; Thorsten Friedrich; Marten Veenhuls; Martijn A. Huynen; Johannes H.P. Hackstein

doi:10.1038/nature03343

An anaerobic mitochondrion that produces hydrogen

Brigitte Boxma, Rob M. De Graaf, Georg W.M. Van Der Staay, Theo A. Van Alen, Guenola Ricard, Toni Gabaldón, Angela H.A.M. Van Hoek, Seung Yeo Moon-Van Der Staay, Werner J.H. Koopman, Jaap J. Van Hellemond, Aloysius G.M. Helens, Thorsten Friedrich, Marten Veenhuls, Martijn A. Huynen, Johannes H.P. Hackstein^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

182 Citations (Scopus)

Abstract

Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product-biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes.

Original language	English
Pages (from-to)	74-79
Number of pages	6
Journal	Nature
Volume	434
Issue number	7029
DOIs	https://doi.org/10.1038/nature03343
Publication status	Published - 3 Mar 2005
Externally published	Yes

Bibliographical note

Funding Information:
Acknowledgements We thank J. Endler for suggestions. The research was supported by a BBSRC grant to I.C.C., T.S.T. and J. C. Partridge.

Funding Information:
Acknowledgements We thank L. Landweber, J. Wong and W.-J. Chang for advice on the cloning of complete minichromosomes and for sharing the first sequence of a PDH gene in N. ovalis; S. van Weelden and H. de Roock for help in the metabolic studies; J. Brouwers for analysis of the quinones; G. Cremers, L. de Brouwer, A. Ederveen, A. Grootemaat, M. Hachmang, S. Huver, S. Jannink, N. Jansse, R. Janssen, M. Kwantes, B. Penders, G. Schilders, R. Talens, D. van Maassen, H. van Zoggel, M. Veugelink and P. Wijnhoven for help with the isolation of various N. ovalis sequences; and K. Sjollema for electron microscopy. G.W.M.v.d.S., S.Y.M.-v.d.S. and G.R. were supported by the European Union 5th framework grant ‘CIMES’. This work was also supported by equipment grants from ZON (Netherlands Organisation for Health Research and Development), NWO (Netherlands Organisation for Scientific Research), and the European Union 6th framework programme for research, priority 1 “Life sciences, genomics and biotechnology for health” to W.J.H.K..

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Boxma, B., De Graaf, R. M., Van Der Staay, G. W. M., Van Alen, T. A., Ricard, G., Gabaldón, T., Van Hoek, A. H. A. M., Moon-Van Der Staay, S. Y., Koopman, W. J. H., Van Hellemond, J. J., Helens, A. G. M., Friedrich, T., Veenhuls, M., Huynen, M. A., & Hackstein, J. H. P. (2005). An anaerobic mitochondrion that produces hydrogen. Nature, 434(7029), 74-79. https://doi.org/10.1038/nature03343

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title = "An anaerobic mitochondrion that produces hydrogen",

abstract = "Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product-biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes.",

author = "Brigitte Boxma and {De Graaf}, {Rob M.} and {Van Der Staay}, {Georg W.M.} and {Van Alen}, {Theo A.} and Guenola Ricard and Toni Gabald{\'o}n and {Van Hoek}, {Angela H.A.M.} and {Moon-Van Der Staay}, {Seung Yeo} and Koopman, {Werner J.H.} and {Van Hellemond}, {Jaap J.} and Helens, {Aloysius G.M.} and Thorsten Friedrich and Marten Veenhuls and Huynen, {Martijn A.} and Hackstein, {Johannes H.P.}",

note = "Funding Information: Acknowledgements We thank J. Endler for suggestions. The research was supported by a BBSRC grant to I.C.C., T.S.T. and J. C. Partridge. Funding Information: Acknowledgements We thank L. Landweber, J. Wong and W.-J. Chang for advice on the cloning of complete minichromosomes and for sharing the first sequence of a PDH gene in N. ovalis; S. van Weelden and H. de Roock for help in the metabolic studies; J. Brouwers for analysis of the quinones; G. Cremers, L. de Brouwer, A. Ederveen, A. Grootemaat, M. Hachmang, S. Huver, S. Jannink, N. Jansse, R. Janssen, M. Kwantes, B. Penders, G. Schilders, R. Talens, D. van Maassen, H. van Zoggel, M. Veugelink and P. Wijnhoven for help with the isolation of various N. ovalis sequences; and K. Sjollema for electron microscopy. G.W.M.v.d.S., S.Y.M.-v.d.S. and G.R. were supported by the European Union 5th framework grant {\textquoteleft}CIMES{\textquoteright}. This work was also supported by equipment grants from ZON (Netherlands Organisation for Health Research and Development), NWO (Netherlands Organisation for Scientific Research), and the European Union 6th framework programme for research, priority 1 “Life sciences, genomics and biotechnology for health” to W.J.H.K..",

year = "2005",

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doi = "10.1038/nature03343",

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T1 - An anaerobic mitochondrion that produces hydrogen

AU - Boxma, Brigitte

AU - De Graaf, Rob M.

AU - Van Der Staay, Georg W.M.

AU - Van Alen, Theo A.

AU - Ricard, Guenola

AU - Gabaldón, Toni

AU - Van Hoek, Angela H.A.M.

AU - Moon-Van Der Staay, Seung Yeo

AU - Koopman, Werner J.H.

AU - Van Hellemond, Jaap J.

AU - Helens, Aloysius G.M.

AU - Friedrich, Thorsten

AU - Veenhuls, Marten

AU - Huynen, Martijn A.

AU - Hackstein, Johannes H.P.

N1 - Funding Information: Acknowledgements We thank J. Endler for suggestions. The research was supported by a BBSRC grant to I.C.C., T.S.T. and J. C. Partridge. Funding Information: Acknowledgements We thank L. Landweber, J. Wong and W.-J. Chang for advice on the cloning of complete minichromosomes and for sharing the first sequence of a PDH gene in N. ovalis; S. van Weelden and H. de Roock for help in the metabolic studies; J. Brouwers for analysis of the quinones; G. Cremers, L. de Brouwer, A. Ederveen, A. Grootemaat, M. Hachmang, S. Huver, S. Jannink, N. Jansse, R. Janssen, M. Kwantes, B. Penders, G. Schilders, R. Talens, D. van Maassen, H. van Zoggel, M. Veugelink and P. Wijnhoven for help with the isolation of various N. ovalis sequences; and K. Sjollema for electron microscopy. G.W.M.v.d.S., S.Y.M.-v.d.S. and G.R. were supported by the European Union 5th framework grant ‘CIMES’. This work was also supported by equipment grants from ZON (Netherlands Organisation for Health Research and Development), NWO (Netherlands Organisation for Scientific Research), and the European Union 6th framework programme for research, priority 1 “Life sciences, genomics and biotechnology for health” to W.J.H.K..

PY - 2005/3/3

Y1 - 2005/3/3

N2 - Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product-biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes.

AB - Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product-biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes.

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U2 - 10.1038/nature03343

DO - 10.1038/nature03343

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VL - 434

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EP - 79

JO - Nature

JF - Nature

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ER -

An anaerobic mitochondrion that produces hydrogen

Abstract

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