Digital expression profiling of novel diatom transcripts provides insight into their biological functions

Uma Maheswari; Kamel Jabbari; Jean Louis Petit; Betina M. Porcel; Andrew E. Allen; Jean Paul Cadoret; Alessandra De Martino; Marc Heijde; Raymond Kaas; Julie La Roche; Pascal J. Lopez; Véronique Martin-Jézéquel; Agnès Meichenin; Thomas Mock; Micaela Schnitzler Parker; Assaf Vardi; E. Virginia Armbrust; Jean Weissenbach; Michaël Katinka; Chris Bowler

doi:10.1186/gb-2010-11-8-r85

Digital expression profiling of novel diatom transcripts provides insight into their biological functions

Uma Maheswari, Kamel Jabbari, Jean Louis Petit, Betina M. Porcel, Andrew E. Allen, Jean Paul Cadoret, Alessandra De Martino, Marc Heijde, Raymond Kaas, Julie La Roche, Pascal J. Lopez, Véronique Martin-Jézéquel, Agnès Meichenin, Thomas Mock, Micaela Schnitzler Parker, Assaf Vardi, E. Virginia Armbrust, Jean Weissenbach, Michaël Katinka, Chris Bowler

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

84 Citations (Scopus)

Abstract

Background: Diatoms represent the predominant group of eukaryotic phytoplankton in the oceans and are responsible for around 20% of global photosynthesis. Two whole genome sequences are now available. Notwithstanding, our knowledge of diatom biology remains limited because only around half of their genes can be ascribed a function based onhomology-based methods. High throughput tools are needed, therefore, to associate functions with diatom-specific genes.Results: We have performed a systematic analysis of 130,000 ESTs derived from Phaeodactylum tricornutum cells grown in 16 different conditions. These include different sources of nitrogen, different concentrations of carbon dioxide, silicate and iron, and abiotic stresses such as low temperature and low salinity. Based on unbiased statistical methods, we have catalogued transcripts with similar expression profiles and identified transcripts differentially expressed in response to specific treatments. Functional annotation of these transcripts provides insights into expression patterns of genes involved in various metabolic and regulatory pathways and into the roles of novel genes with unknown functions. Specific growth conditions could be associated with enhanced gene diversity, known gene product functions, and over-representation of novel transcripts. Comparative analysis of data from the other sequenced diatom, Thalassiosira pseudonana, helped identify several unique diatom genes that are specifically regulated under particular conditions, thus facilitating studies of gene function, genome annotation and the molecular basis of species diversity.Conclusions: The digital gene expression database represents a new resource for identifying candidate diatom-specific genes involved in processes of major ecological relevance.

Original language	English
Article number	R85
Journal	Genome Biology
Volume	11
Issue number	8
DOIs	https://doi.org/10.1186/gb-2010-11-8-r85
Publication status	Published - Aug 25 2010
Externally published	Yes

Bibliographical note

Funding Information:
Funding for the Diatom Digital Gene Expression Database was from the European Union-funded Diatomics project and the Agence Nationale de la Recherche (France). cDNA construction and DNA sequencing was funded by Genoscope (France). We are grateful to Pierre Vincens, Jean-Pierre Roux and Edouard Bray for managing the server and the software and for their help in web interface creation, Ikhlak Ahmed for his help with statistical analysis using R statistical language, as well as Igor Grigoriev and Alan Kuo from JGI. We would also like to thank Patrick Wincker, Julie Poulain and the technical staff of Genoscope for their essential contribution to the experimental part of the work, as well as Franck Anière and the entire system network team at Genoscope. The database is freely available on the web at [48]. The P. tricornutum cDNAs have been submitted to the NCBI dbEST (GenBank accession numbers [GenBank:CD374840] to [GenBank:CD384835] and [GenBank:BI306757] to [GenBank:BI307753]).

ASJC Scopus Subject Areas

Ecology, Evolution, Behavior and Systematics
Genetics
Cell Biology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1186/gb-2010-11-8-r85

Cite this

Maheswari, U., Jabbari, K., Petit, J. L., Porcel, B. M., Allen, A. E., Cadoret, J. P., De Martino, A., Heijde, M., Kaas, R., La Roche, J., Lopez, P. J., Martin-Jézéquel, V., Meichenin, A., Mock, T., Schnitzler Parker, M., Vardi, A., Armbrust, E. V., Weissenbach, J., Katinka, M., & Bowler, C. (2010). Digital expression profiling of novel diatom transcripts provides insight into their biological functions. Genome Biology, 11(8), Article R85. https://doi.org/10.1186/gb-2010-11-8-r85

Maheswari, U, Jabbari, K, Petit, JL, Porcel, BM, Allen, AE, Cadoret, JP, De Martino, A, Heijde, M, Kaas, R, La Roche, J, Lopez, PJ, Martin-Jézéquel, V, Meichenin, A, Mock, T, Schnitzler Parker, M, Vardi, A, Armbrust, EV, Weissenbach, J, Katinka, M & Bowler, C 2010, 'Digital expression profiling of novel diatom transcripts provides insight into their biological functions', Genome Biology, vol. 11, no. 8, R85. https://doi.org/10.1186/gb-2010-11-8-r85

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title = "Digital expression profiling of novel diatom transcripts provides insight into their biological functions",

abstract = "Background: Diatoms represent the predominant group of eukaryotic phytoplankton in the oceans and are responsible for around 20% of global photosynthesis. Two whole genome sequences are now available. Notwithstanding, our knowledge of diatom biology remains limited because only around half of their genes can be ascribed a function based onhomology-based methods. High throughput tools are needed, therefore, to associate functions with diatom-specific genes.Results: We have performed a systematic analysis of 130,000 ESTs derived from Phaeodactylum tricornutum cells grown in 16 different conditions. These include different sources of nitrogen, different concentrations of carbon dioxide, silicate and iron, and abiotic stresses such as low temperature and low salinity. Based on unbiased statistical methods, we have catalogued transcripts with similar expression profiles and identified transcripts differentially expressed in response to specific treatments. Functional annotation of these transcripts provides insights into expression patterns of genes involved in various metabolic and regulatory pathways and into the roles of novel genes with unknown functions. Specific growth conditions could be associated with enhanced gene diversity, known gene product functions, and over-representation of novel transcripts. Comparative analysis of data from the other sequenced diatom, Thalassiosira pseudonana, helped identify several unique diatom genes that are specifically regulated under particular conditions, thus facilitating studies of gene function, genome annotation and the molecular basis of species diversity.Conclusions: The digital gene expression database represents a new resource for identifying candidate diatom-specific genes involved in processes of major ecological relevance.",

author = "Uma Maheswari and Kamel Jabbari and Petit, {Jean Louis} and Porcel, {Betina M.} and Allen, {Andrew E.} and Cadoret, {Jean Paul} and {De Martino}, Alessandra and Marc Heijde and Raymond Kaas and {La Roche}, Julie and Lopez, {Pascal J.} and V{\'e}ronique Martin-J{\'e}z{\'e}quel and Agn{\`e}s Meichenin and Thomas Mock and {Schnitzler Parker}, Micaela and Assaf Vardi and Armbrust, {E. Virginia} and Jean Weissenbach and Micha{\"e}l Katinka and Chris Bowler",

note = "Funding Information: Funding for the Diatom Digital Gene Expression Database was from the European Union-funded Diatomics project and the Agence Nationale de la Recherche (France). cDNA construction and DNA sequencing was funded by Genoscope (France). We are grateful to Pierre Vincens, Jean-Pierre Roux and Edouard Bray for managing the server and the software and for their help in web interface creation, Ikhlak Ahmed for his help with statistical analysis using R statistical language, as well as Igor Grigoriev and Alan Kuo from JGI. We would also like to thank Patrick Wincker, Julie Poulain and the technical staff of Genoscope for their essential contribution to the experimental part of the work, as well as Franck Ani{\`e}re and the entire system network team at Genoscope. The database is freely available on the web at [48]. The P. tricornutum cDNAs have been submitted to the NCBI dbEST (GenBank accession numbers [GenBank:CD374840] to [GenBank:CD384835] and [GenBank:BI306757] to [GenBank:BI307753]).",

year = "2010",

month = aug,

day = "25",

doi = "10.1186/gb-2010-11-8-r85",

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volume = "11",

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T1 - Digital expression profiling of novel diatom transcripts provides insight into their biological functions

AU - Maheswari, Uma

AU - Jabbari, Kamel

AU - Petit, Jean Louis

AU - Porcel, Betina M.

AU - Allen, Andrew E.

AU - Cadoret, Jean Paul

AU - De Martino, Alessandra

AU - Heijde, Marc

AU - Kaas, Raymond

AU - La Roche, Julie

AU - Lopez, Pascal J.

AU - Martin-Jézéquel, Véronique

AU - Meichenin, Agnès

AU - Mock, Thomas

AU - Schnitzler Parker, Micaela

AU - Vardi, Assaf

AU - Armbrust, E. Virginia

AU - Weissenbach, Jean

AU - Katinka, Michaël

AU - Bowler, Chris

N1 - Funding Information: Funding for the Diatom Digital Gene Expression Database was from the European Union-funded Diatomics project and the Agence Nationale de la Recherche (France). cDNA construction and DNA sequencing was funded by Genoscope (France). We are grateful to Pierre Vincens, Jean-Pierre Roux and Edouard Bray for managing the server and the software and for their help in web interface creation, Ikhlak Ahmed for his help with statistical analysis using R statistical language, as well as Igor Grigoriev and Alan Kuo from JGI. We would also like to thank Patrick Wincker, Julie Poulain and the technical staff of Genoscope for their essential contribution to the experimental part of the work, as well as Franck Anière and the entire system network team at Genoscope. The database is freely available on the web at [48]. The P. tricornutum cDNAs have been submitted to the NCBI dbEST (GenBank accession numbers [GenBank:CD374840] to [GenBank:CD384835] and [GenBank:BI306757] to [GenBank:BI307753]).

PY - 2010/8/25

Y1 - 2010/8/25

N2 - Background: Diatoms represent the predominant group of eukaryotic phytoplankton in the oceans and are responsible for around 20% of global photosynthesis. Two whole genome sequences are now available. Notwithstanding, our knowledge of diatom biology remains limited because only around half of their genes can be ascribed a function based onhomology-based methods. High throughput tools are needed, therefore, to associate functions with diatom-specific genes.Results: We have performed a systematic analysis of 130,000 ESTs derived from Phaeodactylum tricornutum cells grown in 16 different conditions. These include different sources of nitrogen, different concentrations of carbon dioxide, silicate and iron, and abiotic stresses such as low temperature and low salinity. Based on unbiased statistical methods, we have catalogued transcripts with similar expression profiles and identified transcripts differentially expressed in response to specific treatments. Functional annotation of these transcripts provides insights into expression patterns of genes involved in various metabolic and regulatory pathways and into the roles of novel genes with unknown functions. Specific growth conditions could be associated with enhanced gene diversity, known gene product functions, and over-representation of novel transcripts. Comparative analysis of data from the other sequenced diatom, Thalassiosira pseudonana, helped identify several unique diatom genes that are specifically regulated under particular conditions, thus facilitating studies of gene function, genome annotation and the molecular basis of species diversity.Conclusions: The digital gene expression database represents a new resource for identifying candidate diatom-specific genes involved in processes of major ecological relevance.

AB - Background: Diatoms represent the predominant group of eukaryotic phytoplankton in the oceans and are responsible for around 20% of global photosynthesis. Two whole genome sequences are now available. Notwithstanding, our knowledge of diatom biology remains limited because only around half of their genes can be ascribed a function based onhomology-based methods. High throughput tools are needed, therefore, to associate functions with diatom-specific genes.Results: We have performed a systematic analysis of 130,000 ESTs derived from Phaeodactylum tricornutum cells grown in 16 different conditions. These include different sources of nitrogen, different concentrations of carbon dioxide, silicate and iron, and abiotic stresses such as low temperature and low salinity. Based on unbiased statistical methods, we have catalogued transcripts with similar expression profiles and identified transcripts differentially expressed in response to specific treatments. Functional annotation of these transcripts provides insights into expression patterns of genes involved in various metabolic and regulatory pathways and into the roles of novel genes with unknown functions. Specific growth conditions could be associated with enhanced gene diversity, known gene product functions, and over-representation of novel transcripts. Comparative analysis of data from the other sequenced diatom, Thalassiosira pseudonana, helped identify several unique diatom genes that are specifically regulated under particular conditions, thus facilitating studies of gene function, genome annotation and the molecular basis of species diversity.Conclusions: The digital gene expression database represents a new resource for identifying candidate diatom-specific genes involved in processes of major ecological relevance.

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Digital expression profiling of novel diatom transcripts provides insight into their biological functions

Abstract

Bibliographical note

ASJC Scopus Subject Areas

PubMed: MeSH publication types

Access to Document

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