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Prochlorococcus



Prochlorococcus

Scientific classification
Kingdom: Bacteria
Division: Cyanobacteria
Order: Synechococcales
Family: Synechococcaceae
Genus: Prochlorococcus
Chisholm et al., 1992
Species

P. marinus

Prochlorococcus is a genus of very small (0.6 µm) marine cyanobacteria with an unusual pigmentation (chlorophyll b) belonging to photosynthetic picoplankton. It is probably the most abundant photosynthetic organism on Earth.

Contents

Overview

Although there had been several earlier records of very small chlorophyll-b-containing cyanobacteria in the ocean[1][2], Prochlorococcus was actually discovered in 1986[3] by Sallie W. (Penny) Chisholm of the Massachusetts Institute of Technology, Robert J. Olson of the Woods Hole Oceanographic Institution, and other collaborators in the Sargasso Sea using flow cytometry. The first culture of Prochlorococcus was isolated in the Sargasso Sea in 1988 (strain SS120) and shortly another strain was obtained from the Mediterranean Sea (strain MED). The name Prochlorococcus[4] originated from the fact it was originally assumed that Prochlorococcus was related to Prochloron and other chlorophyll b containing bacteria, called prochlorophytes, but it is now known that prochlorophytes form several separate phylogenetic groups within the cyanobacteria subgroup of the bacteria kingdom.

Marine cyanobacteria are to date the smallest known photosynthetic organisms: Prochlorococcus is the smallest at just 0.5 to 0.8 micrometres across. Possibly they are also the most plentiful species on Earth: a single millilitre of surface seawater may contain 100,000 cells or more. Worldwide, there are estimated to be 100 octillion individuals.[5] Prochlorococcus is ubiquitous between 40°N and 40°S and dominates in the oligotrophic (nutrient poor) regions of the oceans[6].

The light harvesting pigment complement of Prochlorococcus is unique, consisting predominantly of divinyl derivatives of chlorophyll a (Chl a2) and b (Chl b2) and lacking monovinyl chlorophylls. Prochlorococcus occupies two distinct niches, leading to the nomenclature of the low light (LL) and high light (HL) groups [7], which vary in pigment ratios (LL possess a high ration of chlorophyll b2: a2 and HL low b2: a2), light requirements, nitrogen and phosphorus utilization, copper and virus sensitivity. These "ecotypes" can be differentiated on the basis of the sequence of their ribosomal RNA gene. Recently the genomes of several strains of Prochlorococcus have been sequenced [8][9].

References

  1. ^ P. W. Johnson & J. M. Sieburth (1979). Chroococcoid cyanobacteria in the sea: a ubiquitous and diverse phototrophic biomass. Limnology and Oceanography 24: 928–935.
  2. ^ W. W. C. Gieskes & G. W. Kraay (1983). Unknown chlorophyll a derivatives in the North Sea and the tropical Atlantic Ocean revealed by HPLC analysis. Limnology and Oceanography 28: 757–766.
  3. ^ S. W. Chisholm, R. J. Olson, E. R. Zettler, J. Waterbury, R. Goericke & N. Welschmeyer (1988). A novel free-living prochlorophyte occurs at high cell concentrations in the oceanic euphotic zone. Nature 334: 340–343.
  4. ^ Sallie W. Chisholm, S. L. Frankel, R. Goericke, R. J. Olson, B. Palenik, J. B. Waterbury, L. West-Johnsrud & E. R. Zettler (1992). Prochlorococcus marinus nov. gen. nov. sp.: an oxyphototrophic marine prokaryote containing divinyl chlorophyll a and b. Archives of Microbiology 157: 297–300.
  5. ^ DGF. NASA.
  6. ^ F. Partensky, W. R. Hess & D. Vaulot (1999). Prochlorococcus, a marine photosynthetic prokaryote of global significance. Microbiology and Molecular Biology Reviews 63: 106–127.
  7. ^ N. J. West & D. J. Scanlan (1999). Niche-partitioning of Prochlorococcus in a stratified water column in the eastern North Atlantic Ocean. Applied and Environmental Microbiology 65: 2585–2591.
  8. ^ G. Rocap, F. W. Larimer, J. Lamerdin, S. Malfatti, P. Chain, N. A. Ahlgren, A. Arellano, M. Coleman, L. Hauser, W. R. Hess, Z. I. Johnson, M. Land, D. Lindell, A. F. Post, W. Regala, M. Shah, S. L. Shaw, C. Steglich, M. B. Sullivan, C. S. Ting, A. Tolonen, E. A. Webb, E. R. Zinser & S. W. Chisholm (2003). Genome divergence in two Prochlorococcus ecotypes reflects oceanic niche differentiation. Nature 424: 1042–1047. doi:10.1038/nature01947.
  9. ^ A. Dufresne, M. Salanoubat, F. Partensky, F. Artiguenave, I. M. Axmann, V. Barbe, S. Duprat, M. Y. Galperin, E. V. Koonin, F. Le Gall, K. S. Makarova, M. Ostrowski, S. Oztas, C. Robert, I. B. Rogozin, D. J. Scanlan, N. Tandeau de Marsac, J. Weissenbach, P. Wincker, Y. I. Wolf & W. R. Hess (2003). Genome sequence of the cyanobacterium Prochlorococcus marinus SS120, a nearly minimal oxyphototrophic genome. Proceedings of the National Academy of Sciences 100: 10020–10025. doi:10.1073/pnas.1733211100.

Further reading

  • L. Campbell, H. A. Nolla & D. Vaulot (1994). The importance of Prochlorococcus to community structure in the central North Pacific Ocean. Limnology and Oceanography 39: 954–961.
  • Jagroop Pandhal, Phillip C. Wright & Catherine A. Biggs (2007). A quantitative proteomic analysis of light adaptation in a globally significant marine cyanobacterium Prochlorococcus marinus MED4. Journal of Proteome Research 6 (3): 996–1005. doi:S1535-3893(06)00460-X 10.1021/pr060460c S1535-3893(06)00460-X.
  • Steve Nadis (2003). The cells that rule the seas: the ocean’s tiniest inhabitants, notes biological researcher Sallie W. Chisholm, hold the key to understanding the biosphere — and what happens when humans disrupt it. Scientific American: 52f.

See also

 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Prochlorococcus". A list of authors is available in Wikipedia.
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