publication . Article . Other literature type . 2016

Abiotic Stress Tolerance of Charophyte Green Algae: New Challenges for Omics Techniques

Andreas Holzinger; Martina Pichrtova;
Open Access English
  • Published: 20 May 2016 Journal: Frontiers in Plant Science, volume 7 (issn: 1664-462X, Copyright policy)
  • Publisher: Frontiers Media S.A.
Abstract
Charophyte green algae are a paraphyletic group of freshwater and terrestrial green algae, comprising the classes of Chlorokybophyceae, Coleochaetophyceae, Klebsormidiophyceae, Zygnematophyceae, Mesostigmatophyceae, and Charo- phyceae. Zygnematophyceae (Conjugating green algae) are considered to be closest algal relatives to land plants (Embryophyta). Therefore, they are ideal model organisms for studying stress tolerance mechanisms connected with transition to land, one of the most important events in plant evolution and the Earth’s history. In Zygnematophyceae, but also in Coleochaetophyceae, Chlorokybophyceae, and Klebsormidiophyceae terrestrial members are f...
Subjects
free text keywords: Plant Science, transcriptomics, proteomics, metabolomics, UV irradiation, desiccation, phylogenomic analysis, Review, Plant culture, SB1-1110
Funded by
FWF| Colonization of Land by Conjugating Green Algae
Project
  • Funder: Austrian Science Fund (FWF) (FWF)
  • Project Code: I 1951
  • Funding stream: Internationale Projekte
,
FWF| Desiccation Tolerance in Alpine Aeroterrestrial Green Algae
Project
  • Funder: Austrian Science Fund (FWF) (FWF)
  • Project Code: P 24242
  • Funding stream: Einzelprojekte
139 references, page 1 of 10

Agrawal S. C. (2009). Factors affecting spore germination in algae - review. Folia Microbiol. 54 273–302. 10.1007/s12223-009-0047-0 19826917 [OpenAIRE] [PubMed] [DOI]

Aigner S.Remias D.Karsten U.Holzinger A. (2013). Unusual phenolic compounds contribute to the ecophysiological performance in the purple-colored green alga Zygogonium ericetorum (Zygnematophyceae, Streptophyta) from a high-alpine habitat. J. Phycol. 49 648–660. 10.1111/jpy.12075 25810559 [OpenAIRE] [PubMed] [DOI]

Allen A.Alston R. E. (1959). Formation of purple pigment in Spirogyra pratensis cultures. Nature 183 1064–1065. 10.1038/1831064b0 13644289 [OpenAIRE] [PubMed] [DOI]

Ashraf M.Godward M. B. E. (1980). Ultrastructure and chemistry of the zygospore wall of Spirogyra. Ann. Bot. 46 485–487.

Becker B. (2013). Snowball earth and the split of Streptophyta and Chlorophyta. Trends Plant Sci. 18 180–183. 10.1016/j.tplants.2012.09.010 23102566 [OpenAIRE] [PubMed] [DOI]

Becker B.Marin B. (2009). Streptophyte algae and the origin of embryophytes. Ann. Bot. 103 999–1004. 10.1093/aob/mcp044 19273476 [OpenAIRE] [PubMed] [DOI]

Belnap J.Lange O. L. (2001). Biological Soil Crusts: Structure, Function and Management. Berlin: Springer.

Berry H. A.Lembi C. A. (2000). Effects of temperature and irradiance on the seasonal variation of a Spirogyra (Chlorophyta) population in a midwestern lake (U.S.A.). J. Phycol. 36 841–851. 10.1046/j.1529-8817.2000.99138.x [OpenAIRE] [DOI]

Bisson M. A.Kirst G. O. (1995). Osmotic acclimation and turgor pressure regulation in algae. Naturwissenschaften 82 461–471. 10.1007/BF01131597 [OpenAIRE] [DOI]

Brosch-Salomon S.Höftberger M.Holzinger A.Lütz-Meindl U. (1998). Ultrastructural localization of polysaccharides and N-acetyl-D-galactosamine in the secondary pathway of green algae (Desmidiaceae). J. Exp. Bot. 49 145–153. 10.1093/jxb/49.319.145 [OpenAIRE] [DOI]

Brown L. M.Hellebust J. A. (1980). The contribution of organic solutes to osmotic balance in some green and eustigmatophyte algae. J. Phycol. 16 265–270. 10.1111/j.0022-3646.1980.00265.x [OpenAIRE] [DOI]

Cannell R. J.Farmer P.Walker J. M. (1988). Purification and characterization of pentagalloylglucose, and alpha-glucosidase inhibitor/antibiotic from the freshwater green alga Spirogyra varians. Biochem. J. 255 937–941. 10.1042/bj2550937 3145739 [OpenAIRE] [PubMed] [DOI]

Carreto J. I.Carignan M. O. (2011). Mycosporine-like amino acids: relevant secondary metabolites. Chemical and ecological aspects. Marine Drugs 9 387–446. 10.3390/md9030387 21556168 [OpenAIRE] [PubMed] [DOI]

Choi J.-I.Yoon M.Lim S.Kim G. H.Park H. (2015). Effect of gamma irradiation on physiological and proteomic changes of arctic Zygnema sp. (Chlorophyta, Zygnematales). Phycologia 54 333–341. 10.2216/14-106.1 [OpenAIRE] [DOI]

Coba F.Aguilera J.Figueroa F. L.Gálvez M. V.Herrera E. (2009). Antioxidant activity of mycosporine-like amino acids isolated from three red macroalgae and one marine lichen. J. Appl. Phycol. 21 161–169. 10.1007/s10811-008-9345-1 [OpenAIRE] [DOI]

139 references, page 1 of 10
Abstract
Charophyte green algae are a paraphyletic group of freshwater and terrestrial green algae, comprising the classes of Chlorokybophyceae, Coleochaetophyceae, Klebsormidiophyceae, Zygnematophyceae, Mesostigmatophyceae, and Charo- phyceae. Zygnematophyceae (Conjugating green algae) are considered to be closest algal relatives to land plants (Embryophyta). Therefore, they are ideal model organisms for studying stress tolerance mechanisms connected with transition to land, one of the most important events in plant evolution and the Earth’s history. In Zygnematophyceae, but also in Coleochaetophyceae, Chlorokybophyceae, and Klebsormidiophyceae terrestrial members are f...
Subjects
free text keywords: Plant Science, transcriptomics, proteomics, metabolomics, UV irradiation, desiccation, phylogenomic analysis, Review, Plant culture, SB1-1110
Funded by
FWF| Colonization of Land by Conjugating Green Algae
Project
  • Funder: Austrian Science Fund (FWF) (FWF)
  • Project Code: I 1951
  • Funding stream: Internationale Projekte
,
FWF| Desiccation Tolerance in Alpine Aeroterrestrial Green Algae
Project
  • Funder: Austrian Science Fund (FWF) (FWF)
  • Project Code: P 24242
  • Funding stream: Einzelprojekte
139 references, page 1 of 10

Agrawal S. C. (2009). Factors affecting spore germination in algae - review. Folia Microbiol. 54 273–302. 10.1007/s12223-009-0047-0 19826917 [OpenAIRE] [PubMed] [DOI]

Aigner S.Remias D.Karsten U.Holzinger A. (2013). Unusual phenolic compounds contribute to the ecophysiological performance in the purple-colored green alga Zygogonium ericetorum (Zygnematophyceae, Streptophyta) from a high-alpine habitat. J. Phycol. 49 648–660. 10.1111/jpy.12075 25810559 [OpenAIRE] [PubMed] [DOI]

Allen A.Alston R. E. (1959). Formation of purple pigment in Spirogyra pratensis cultures. Nature 183 1064–1065. 10.1038/1831064b0 13644289 [OpenAIRE] [PubMed] [DOI]

Ashraf M.Godward M. B. E. (1980). Ultrastructure and chemistry of the zygospore wall of Spirogyra. Ann. Bot. 46 485–487.

Becker B. (2013). Snowball earth and the split of Streptophyta and Chlorophyta. Trends Plant Sci. 18 180–183. 10.1016/j.tplants.2012.09.010 23102566 [OpenAIRE] [PubMed] [DOI]

Becker B.Marin B. (2009). Streptophyte algae and the origin of embryophytes. Ann. Bot. 103 999–1004. 10.1093/aob/mcp044 19273476 [OpenAIRE] [PubMed] [DOI]

Belnap J.Lange O. L. (2001). Biological Soil Crusts: Structure, Function and Management. Berlin: Springer.

Berry H. A.Lembi C. A. (2000). Effects of temperature and irradiance on the seasonal variation of a Spirogyra (Chlorophyta) population in a midwestern lake (U.S.A.). J. Phycol. 36 841–851. 10.1046/j.1529-8817.2000.99138.x [OpenAIRE] [DOI]

Bisson M. A.Kirst G. O. (1995). Osmotic acclimation and turgor pressure regulation in algae. Naturwissenschaften 82 461–471. 10.1007/BF01131597 [OpenAIRE] [DOI]

Brosch-Salomon S.Höftberger M.Holzinger A.Lütz-Meindl U. (1998). Ultrastructural localization of polysaccharides and N-acetyl-D-galactosamine in the secondary pathway of green algae (Desmidiaceae). J. Exp. Bot. 49 145–153. 10.1093/jxb/49.319.145 [OpenAIRE] [DOI]

Brown L. M.Hellebust J. A. (1980). The contribution of organic solutes to osmotic balance in some green and eustigmatophyte algae. J. Phycol. 16 265–270. 10.1111/j.0022-3646.1980.00265.x [OpenAIRE] [DOI]

Cannell R. J.Farmer P.Walker J. M. (1988). Purification and characterization of pentagalloylglucose, and alpha-glucosidase inhibitor/antibiotic from the freshwater green alga Spirogyra varians. Biochem. J. 255 937–941. 10.1042/bj2550937 3145739 [OpenAIRE] [PubMed] [DOI]

Carreto J. I.Carignan M. O. (2011). Mycosporine-like amino acids: relevant secondary metabolites. Chemical and ecological aspects. Marine Drugs 9 387–446. 10.3390/md9030387 21556168 [OpenAIRE] [PubMed] [DOI]

Choi J.-I.Yoon M.Lim S.Kim G. H.Park H. (2015). Effect of gamma irradiation on physiological and proteomic changes of arctic Zygnema sp. (Chlorophyta, Zygnematales). Phycologia 54 333–341. 10.2216/14-106.1 [OpenAIRE] [DOI]

Coba F.Aguilera J.Figueroa F. L.Gálvez M. V.Herrera E. (2009). Antioxidant activity of mycosporine-like amino acids isolated from three red macroalgae and one marine lichen. J. Appl. Phycol. 21 161–169. 10.1007/s10811-008-9345-1 [OpenAIRE] [DOI]

139 references, page 1 of 10
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