Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes
Rossoni AW, Sch�nknecht G, Lee HJ, Rupp RL, Flachbart S, Mettler-Altmann T, Weber APM, Eisenhut M (2019)
Plant and Cell Physiology 60(3): 702-712.
Zeitschriftenaufsatz
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Autor*in
Rossoni, Alessandro W;
Sch�nknecht, Gerald;
Lee, Hyun Jeong;
Rupp, Ryan L;
Flachbart, Samantha;
Mettler-Altmann, Tabea;
Weber, Andreas P M;
Eisenhut, MarionUniBi 
Einrichtung
Abstract / Bemerkung
**Abstract**
Galdieria sulphuraria is a unicellular red alga that lives in hot, acidic, toxic metal-rich, volcanic environments, where few other organisms survive. Its genome harbors up to 5% of genes that were most likely acquired through horizontal gene transfer. These genes probably contributed to G.sulphuraria’s adaptation to its extreme habitats, resulting in today’s polyextremophilic traits. Here, we applied RNA-sequencing to obtain insights into the acclimation of a thermophilic organism towards temperatures below its growth optimum and to study how horizontally acquired genes contribute to cold acclimation. A decrease in growth temperature from 42�C/46�C to 28�C resulted in an upregulation of ribosome biosynthesis, while excreted proteins, probably components of the cell wall, were downregulated. Photosynthesis was suppressed at cold temperatures, and transcript abundances indicated that C-metabolism switched from gluconeogenesis to glycogen degradation. Folate cycle and S-adenosylmethionine cycle (one-carbon metabolism) were transcriptionally upregulated, probably to drive the biosynthesis of betaine. All these cold-induced changes in gene expression were reversible upon return to optimal growth temperature. Numerous genes acquired by horizontal gene transfer displayed temperature-dependent expression changes, indicating that these genes contributed to adaptive evolution in G.sulphuraria.
Galdieria sulphuraria is a unicellular red alga that lives in hot, acidic, toxic metal-rich, volcanic environments, where few other organisms survive. Its genome harbors up to 5% of genes that were most likely acquired through horizontal gene transfer. These genes probably contributed to G.sulphuraria’s adaptation to its extreme habitats, resulting in today’s polyextremophilic traits. Here, we applied RNA-sequencing to obtain insights into the acclimation of a thermophilic organism towards temperatures below its growth optimum and to study how horizontally acquired genes contribute to cold acclimation. A decrease in growth temperature from 42�C/46�C to 28�C resulted in an upregulation of ribosome biosynthesis, while excreted proteins, probably components of the cell wall, were downregulated. Photosynthesis was suppressed at cold temperatures, and transcript abundances indicated that C-metabolism switched from gluconeogenesis to glycogen degradation. Folate cycle and S-adenosylmethionine cycle (one-carbon metabolism) were transcriptionally upregulated, probably to drive the biosynthesis of betaine. All these cold-induced changes in gene expression were reversible upon return to optimal growth temperature. Numerous genes acquired by horizontal gene transfer displayed temperature-dependent expression changes, indicating that these genes contributed to adaptive evolution in G.sulphuraria.
Erscheinungsjahr
2019
Zeitschriftentitel
Plant and Cell Physiology
Band
60
Ausgabe
3
Seite(n)
702-712
ISSN
0032-0781
eISSN
1471-9053
Page URI
https://pub.uni-bielefeld.de/record/2988759
Zitieren
Rossoni AW, Sch�nknecht G, Lee HJ, et al. Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes. Plant and Cell Physiology. 2019;60(3):702-712.
Rossoni, A. W., Sch�nknecht, G., Lee, H. J., Rupp, R. L., Flachbart, S., Mettler-Altmann, T., Weber, A. P. M., et al. (2019). Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes. Plant and Cell Physiology, 60(3), 702-712. https://doi.org/10.1093/pcp/pcy240
Rossoni, Alessandro W, Sch�nknecht, Gerald, Lee, Hyun Jeong, Rupp, Ryan L, Flachbart, Samantha, Mettler-Altmann, Tabea, Weber, Andreas P M, and Eisenhut, Marion. 2019. “Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes”. Plant and Cell Physiology 60 (3): 702-712.
Rossoni, A. W., Sch�nknecht, G., Lee, H. J., Rupp, R. L., Flachbart, S., Mettler-Altmann, T., Weber, A. P. M., and Eisenhut, M. (2019). Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes. Plant and Cell Physiology 60, 702-712.
Rossoni, A.W., et al., 2019. Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes. Plant and Cell Physiology, 60(3), p 702-712.
A.W. Rossoni, et al., “Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes”, Plant and Cell Physiology, vol. 60, 2019, pp. 702-712.
Rossoni, A.W., Sch�nknecht, G., Lee, H.J., Rupp, R.L., Flachbart, S., Mettler-Altmann, T., Weber, A.P.M., Eisenhut, M.: Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes. Plant and Cell Physiology. 60, 702-712 (2019).
Rossoni, Alessandro W, Sch�nknecht, Gerald, Lee, Hyun Jeong, Rupp, Ryan L, Flachbart, Samantha, Mettler-Altmann, Tabea, Weber, Andreas P M, and Eisenhut, Marion. “Cold Acclimation of the Thermoacidophilic Red Alga Galdieria sulphuraria: Changes in Gene Expression and Involvement of Horizontally Acquired Genes”. Plant and Cell Physiology 60.3 (2019): 702-712.
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