DNA sequencing and genetic diversity of the 18S–26S nuclear ribosomal internal transcribed spacers (ITS) in nine Antarctic moss species

M.L. SKOTNICKI; A.M. MACKENZIE; M.A. CLEMENTS; P.M. SELKIRK

doi:10.1017/S0954102005002816

Abstract

We have sequenced the 18S–26S nuclear ribosomal DNA ITS region from the genome of nine different moss species from the Ross Sea region of Antarctica. This relatively quick and simple technique enables these species to be readily distinguished, facilitating their taxonomic identification. Only a single moss shoot is required, and for identification of these bryophytes it is only necessary to determine a few hundred nucleotides of the DNA sequence in a single sequencing reaction. Several previously unidentified Antarctic moss specimens were readily characterized by comparison with ITS sequences of known moss species. The relationships between species and locations previously detected by the RAPD (Random Amplified Polymorphic DNA) technique were confirmed by DNA sequencing, demonstrating that the two techniques can be complementary for molecular analysis of the ecology of mosses in Antarctica.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Buck, William R. Allen, Bruce and Pursell, Ronald A. 2006. Recent literature on bryophytes—109(2). The Bryologist, Vol. 109, Issue. 2, p. 276.

Rogers, Alex David 2007. Evolution and biodiversity of Antarctic organisms: a molecular perspective. Philosophical Transactions of the Royal Society B: Biological Sciences, Vol. 362, Issue. 1488, p. 2191.

Clarke, Laurence J. Ayre, David J. and Robinson, Sharon A. 2008. Somatic mutation and the Antarctic ozone hole. Journal of Ecology, Vol. 96, Issue. 2, p. 378.

Hills, Simon F.K. Stevens, Mark I. and Gemmill, Chrissen E.C. 2010. Molecular support for Pleistocene persistence of the continental Antarctic moss Bryum argenteum. Antarctic Science, Vol. 22, Issue. 6, p. 721.

Rowntree, J. K. Cowan, R. S. Leggett, M. Ramsay, M. M. and Fay, M. F. 2010. Which moss is which? Identification of the threatened moss Orthodontium gracile using molecular and morphological techniques. Conservation Genetics, Vol. 11, Issue. 3, p. 1033.

Liu, Shenghao Lee, Hyoungseok Kang, Pil-Sung Huang, Xiaohang Yim, Joung Han Lee, Hong Kum and Kim, Il-Chan 2010. Complementary DNA library construction and expressed sequence tag analysis of an Arctic moss, Aulacomnium turgidum. Polar Biology, Vol. 33, Issue. 5, p. 617.

McGaughran, Angela Stevens, Mark I. Hogg, Ian D. and Carapelli, Antonio 2011. Extreme Glacial Legacies: A Synthesis of the Antarctic Springtail Phylogeographic Record. Insects, Vol. 2, Issue. 2, p. 62.

Skotnicki, M. L. Selkirk, P. M. and Boger, S. D. 2012. New records of three moss species (Ptychostomum pseudotriquetrum, Schistidium antarctici, and Coscinodon lawianus) from the southern Prince Charles Mountains, Mac.Robertson Land, Antarctica. Polar Record, Vol. 48, Issue. 4, p. 394.

Rogers, Alex D. 2012. Antarctic Ecosystems. p. 417.

Leonardía, Alfredo Amiel P Tan, Benito C and Kumar, Prakash P 2013. Genetic diversity among clumps ofAcanthorrhynchium papillatum(Harv.) M.Fleisch. as measured by variation in ITS2 sequences. Journal of Bryology, Vol. 35, Issue. 4, p. 255.

Liu, Shenghao Wang, Nengfei Zhang, Pengying Cong, Bailin Lin, Xuezheng Wang, Shouqiang Xia, Guangmin and Huang, Xiaohang 2013. Next-generation sequencing-based transcriptome profiling analysis of Pohlia nutans reveals insight into the stress-relevant genes in Antarctic moss. Extremophiles, Vol. 17, Issue. 3, p. 391.

Pisa, S. Biersma, E. M. Convey, P. Patiño, J. Vanderpoorten, A. Werner, O. and Ros, R. M. 2014. The cosmopolitan moss Bryum argenteum in Antarctica: recent colonisation or in situ survival?. Polar Biology, Vol. 37, Issue. 10, p. 1469.

Kophimai, Yuppayao Peintinger, Markus Werth, Silke Cornejo, Carolina Scheidegger, Christoph and Bergamini, Ariel 2014. Ploidy level, genetic diversity, and differentiation in two closely related mosses,Scorpidium cossoniiandS. revolvens(Calliergonaceae). Journal of Bryology, Vol. 36, Issue. 1, p. 33.

Yao, Xinghao Wang, Tailin Wang, Huijuan Liu, Hongwei Liu, Shenghao Zhao, Qingang Chen, Kaoshan and Zhang, Pengying 2019. Identification, characterization and expression analysis of the chalcone synthase family in the Antarctic moss Pohlia nutans. Antarctic Science, Vol. 31, Issue. 1, p. 23.

de Carvalho, Camila Rodrigues Santiago, Iara Furtado da Costa Coelho, Lívia Câmara, Paulo Eduardo Aguiar Saraiva Silva, Micheline Carvalho Stech, Michael Rosa, Carlos Augusto and Rosa, Luiz Henrique 2019. Fungi of Antarctica. p. 165.

Zaccara, Serena Patiño, Jairo Convey, Peter Vanetti, Isabella and Cannone, Nicoletta 2020. Multiple colonization and dispersal events hide the early origin and induce a lack of genetic structure of the moss Bryum argenteum in Antarctica. Ecology and Evolution, Vol. 10, Issue. 16, p. 8959.

Rehman, Wahid Ul Gupta, Kriti and Bast, Felix 2021. Morphophylogenetic assessment of a new moss species Bryum bharatiense sp. nov. (Bryaceae) from Larsemann Hills, Eastern Antarctica. Journal of Asia-Pacific Biodiversity, Vol. 14, Issue. 3, p. 283.

Liu, Shenghao Li, Tingting Fang, Shuo Zhang, Pengying Yi, Dan Cong, Bailin Zhang, Zhaohui and Zhao, Linlin 2022. Metabolic profiling and gene expression analyses provide insights into cold adaptation of an Antarctic moss Pohlia nutans. Frontiers in Plant Science, Vol. 13, Issue. ,

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DNA sequencing and genetic diversity of the 18S–26S nuclear ribosomal internal transcribed spacers (ITS) in nine Antarctic moss species

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Article contents

DNA sequencing and genetic diversity of the 18S–26S nuclear ribosomal internal transcribed spacers (ITS) in nine Antarctic moss species

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