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http://dx.doi.org/10.4490/algae.2011.26.4.277

On the genus Rhodella, the emended orders Dixoniellales and Rhodellales with a new order Glaucosphaerales (Rhodellophyceae, Rhodophyta)  

Scott, Joe (Department of Biology, College of William & Mary)
Yang, Eun-Chan (Bigelow Laboratory for Ocean Sciences)
West, John A. (School of Botany, University of Melbourne)
Yokoyama, Akiko (Structural Biosciences, Graduate School of Life and Environmental Sciences, University of Tsukuba)
Kim, Hee-Jeong (Bigelow Laboratory for Ocean Sciences)
De Goer, Susan Loiseaux (11 Rue des Moguerou)
O'Kelly, Charles J. (Friday Harbor Laboratories, University of Washington)
Orlova, Evguenia (Department of Biology, College of William & Mary)
Kim, Su-Yeon (Department of Biology, Chungnam National University)
Park, Jeong-Kwang (Department of Biology, Chungnam National University)
Yoon, Hwan-Su (Bigelow Laboratory for Ocean Sciences)
Publication Information
ALGAE / v.26, no.4, 2011 , pp. 277-288 More about this Journal
Abstract
The marine unicellular red algal genus Rhodella was established in 1970 by L. V. Evans with a single species R. maculata based on nuclear projections into the pyrenoid. Porphyridium violaceum was described by P. Kornmann in 1965 and transferred to Rhodella by W. Wehrmeyer in 1971 based on plastid features and the non-parietal position of the nucleus. Molecular and fine structural evidences have now revealed that Rhodella maculata and R. violacea are one species, so R. violacea has nomenclatural priority and the correct name is Rhodella violacea (Kornmann) Wehrmeyer. The status of families within Rhodellophyceae was examined. The order Dixoniellales and family Dixoniellaceae are emended to include only Dixoniella and Neorhodella. The order Rhodellales and family Rhodellaceae are emended to include Rhodella and Corynoplastis. Glaucosphaera vacuolata Korshikov and the Glaucosphaeraceae Skuja (1954) with an emended description are transferred to the Glaucosphaerales ord. nov.
Keywords
Dixoniellales; Glaucosphaerales ord. nov.; molecular phylogeny; Rhodellales; Rhodella violacea; ultrastructure; unicellular red algae;
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1 Stamatakis, A. 2006. RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688-2690.   DOI   ScienceOn
2 Waller, R. F. & McFadden, G. I. 1995. Morphological and cytochemical analysis of an unusual nucleus-pyrenoid association in a unicellular red alga. Protoplasma 186:131-141.   DOI
3 Wehrmeyer, W. 1971. Elektronmikroskopische Untersuchung zur Feinstruktur von Porphyridium violaceum Kornmann mit Bemerkungen über seine taxonomische Stellung. Arch. Mikrobiol. 75:121-139.   DOI
4 West, J. A. 2005. Long term macroalgal culture maintenance. In Anderson, R. (Ed.) Algal Culturing Techniques. Academic Press, New York, pp. 157-163.
5 West, J. A., Scott, J. L., West, K. A., Karsten, U., Clayden, S. L. & Saunders, G. W. 2008. Rhodachlya madagascarensis gen. et sp. nov.: a distinct acrochaetioid represents a new order and family (Rhodachlyales ord. nov., Rhodachlyaceae fam. nov.) of the Florideophyceae (Rhodophyta). Phycologia 47:203-212.
6 Wilson, S. M., Pickett-Heaps, J. D. & West, J. A. 2006. Vesicle transport and the cytoskeleton in the unicellular red alga Glaucosphaera vacuolata. Phycol. Res. 54:15-20.   DOI   ScienceOn
7 Wynne, M. J. & Schneider, C. W. 2010. Addendum to the synoptic review of red algal genera. Bot. Mar. 53:291-299.   DOI
8 Yang, E. C. & Boo, S. M. 2004. Evidence for two independent lineages of Griffithsia (Ceramiaceae, Rhodophyta) based on plastid protein-coding psaA, psbA, and rbcL gene sequences. Mol. Phylogenet. Evol. 31:680-688.   DOI   ScienceOn
9 Yang, E. C., Scott, J., West, J. A., Orlova, E., Gauthier, D., Küpper, F. C., Yoon, H. S. & Karsten, U. 2010. New taxa of the Porphyridiophyceae (Rhodophyta): Timspurckia oligopyrenoides gen. et sp. nov. and Erythrolobus madagascarensis sp. nov. Phycologia 49:604-616.   DOI   ScienceOn
10 Le, S. Q. & Gascuel, O. 2008. An improved general amino acid replacement matrix. Mol. Biol. Evol. 25:1307-1320.   DOI   ScienceOn
11 Nitschke, U., Boedeker, C., Karsten, U., Hepperle, D. & Eggert, A. 2010. Does the lack of mannitol accumulation in an isolate of Rhodella maculata (Rhodellophyceae, Rhodophyta) from the brackish Baltic Sea indicate a stressed population at the distribution limit? Eur. J. Phycol. 45:436-449.   DOI   ScienceOn
12 Parfrey, L. W., Grant, J., Tekle, Y. I., Lasek-Nesselquist, E., Morrison, H. G., Sogin, M. L., Patterson, D. J. & Katz, L. A. 2010. Broadly sampled multigene analyses yield a well-resolved eukaryotic tree of life. Syst. Biol. 59:518-533.   DOI   ScienceOn
13 Patrone, L. M., Broadwater, S. T. & Scott, J. L. 1991. Ultrastructure of vegetative and dividing cells of the unicellular red algae Rhodella violacea and Rhodella maculata. J. Phycol. 27:742-753.   DOI
14 Pickett-Heaps, J. D., West, J. A., Wilson, S. M. & McBride, D. L. 2001. Time-lapse video microscopy of cell (spore) movement in red algae. Eur. J. Phycol. 36:9-22.   DOI   ScienceOn
15 Pueschel, C. 1990. Cell structure. In Cole, K. M. & Sheath, R. G. (Eds.) Biology of the Red Algae. Cambridge University Press, New York, pp. 7-41.
16 Skuja, H. 1954. Abteilung: Glaucophyta. In Melchior, H. & Werdermann, E. (Eds.) A. Englers Syllabus der Pflanzenfamilien, 12. Aufl. 1. Band. Borntraeger, Berlin, pp. 56-57.
17 Rokas, A. & Carroll, S. B. 2005. More genes or more taxa? The relative contribution of gene number and taxon number to phylogenetic accuracy. Mol. Biol. Evol. 22:1337-1344.   DOI   ScienceOn
18 Scott, J., Yokoyama, A., Billard, C., Fresnel, J., Hara, Y., West, K. A. & West, J. A. 2008. Neorhodella cyanea, a new genus in the Rhodellophyceae (Rhodophyta). Phycologia 47:560-572.   DOI   ScienceOn
19 Scott, J. L., Broadwater, S. T., Saunders, B. D., Thomas, J. P. & Gabrielson, P. W. 1992. Ultrastructure of vegetative organization and cell division in the unicellular red alga Dixoniella grisea gen. nov. (Rhodophyta) and a consideration of the genus Rhodella. J. Phycol. 28:649-660.   DOI
20 Evans, L. V. 1970. Electron microscopical observations on a new red algal unicell, Rhodella maculata gen. nov., sp. nov. Br. Phycol. J. 5:1-13.   DOI
21 Fresnel, J., Billard, C., Hindak, F. & Pekarkova, B. 1989. New observations on Porphyridium griseum Geitler = Rhodella grisea (Geitler) comb. nova (Porphyridiales, Rhodophyceae). Plant Syst. Evol. 164:253-262.   DOI
22 Gantt, E. & Conti, S. F. 1965. The ultrastructure of Porphyridium cruentum. J. Cell Biol. 26:365-381.   DOI   ScienceOn
23 Gantt, E., Edwards, M. R. & Conti, S. F. 1968. Ultrastructure of Porphyridium aerugineum, a blue-green colored rhodophytan. J. Phycol. 4:65-71.   DOI
24 Giraud, G. 1962. Les infrastructures de quelques algues et leur physiologie. J. Microsc. 1:251-274.
25 Gouy, M., Guindon, S. & Gascuel, O. 2010. SeaView version 4: a multiplatform graphical user interface for sequence alignment and phylogenetic tree building. Mol. Biol. Evol. 27:221-224.   DOI   ScienceOn
26 Kornmann, P. 1965. Porphyridium violaceum, eine marine neue Art. Helgol. Wiss. Meeresunters. 12:420-423.   DOI   ScienceOn
27 Karsten, U., West, J. A., Zuccarello, G. C., Engbrodt, R., Yokoyama, A., Hara, Y. & Brodie, J. 2003. Low molecular weight carbohydrates of the Bangiophycidae (Rhodophyta). J. Phycol. 39:584-589.   DOI   ScienceOn
28 Karsten, U., West, J. A., Zuccarello, G. C., Nixdorf, O., Barrow, K. D. & King, R. J. 1999. Low molecular weight carbohydrate patterns in the Bangiophyceae (Rhodophyta). J. Phycol. 35:967-976.   DOI
29 Keane, T. M., Creevey, C. J., Pentony, M. M., Naughton, T. J. & McInerney, J. O. 2006. Assessment of methods for amino acid matrix selection and their use on empirical data shows that ad hoc assumptions for choice of matrix are not justified. BMC Evol. Biol. 6:29.   DOI
30 Korshikov, A. A. 1930. Glaucosphaera vacuolata, a new member of the Glaucophyceae. Arch. Protistenkunde 70:217-222.
31 Billard, C. & Fresnel, J. 1986. Rhodella cyanea nov. sp., une nouvelle Rhodophyceae unicellulaire. C. R. Acad. Sci. Serie IIII Sci. Vie 302:271-276.
32 Broadwater, S. T., Scott, J. L., Goss, S. P. A. & Saunders, B. D. 1995. Ultrastructure of vegetative organization and cell division in Glaucosphaera vacuolata Korshikov (Porphyridiales, Rhodophyta). Phycologia 34:351-361.   DOI
33 Deason, T. R., Butler, G. L. & Rhyne, C. 1983. Rhodella reticulata sp. nov., a new coccoid Rhodophytan alga (Porphyridiales). J. Phycol. 19:104-111.   DOI
34 Yoon, H. S., Hackett, J. D. & Bhattacharya, D. 2002. A single origin of the peridinin- and fucoxanthin-containing plastids in dinoflagellates through tertiary endosymbiosis. Proc. Natl. Acad. Sci. U. S. A. 99:11724-11729.   DOI   ScienceOn
35 Yang, E. C., Scott, J., West, J. A., Yoon, H. S., Yokoyama, A., Karsten, U., Loiseaux de Goer, S. & Orlova, E. 2011. Erythrolobus australicus sp. nov. (Porphyridiophyceae, Rhodophyta): a description based on several approaches. Algae 26:167-180.   DOI
36 Yokoyama, A., Sato, K. & Hara, Y. 2004. The generic delimitation of Rhodella (Porphyridiales, Rhodophyta) with emphasis on ultrastructure and molecular phylogeny. Hydrobiologia 512:177-183.   DOI
37 Yokoyama, A., Scott, J. L., Zuccarello, G. C., Kajikawa, M., Hara, Y. & West, J. A. 2009. Corynoplastis japonica gen. et sp. nov. and Dixoniellales ord. nov. (Rhodellophyceae, Rhodophyta) based on morphological and molecular evidence. Phycol. Res. 57:278-289.   DOI   ScienceOn
38 Yoon, H. S., Muller, K. M., Sheath, R. G., Ott, F. D. & Bhattacharya, D. 2006. Defining the major lineages of red algae (Rhodophyta). J. Phycol. 42:482-492.   DOI   ScienceOn
39 Yoon, H. S., Zuccarello, G. C. & Bhattacharya, D. 2010. Evolutionary history and taxonomy of red algae. In Seckbach, J. & Chapman, D. J. (Eds.) Red Algae in the Genomic Age: Cellular Origin, Life in Extreme Habitats and Astrobiology. Springer, Heidelberg, pp. 25-42.