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The complete genome sequence of the hypertermophilic, sulphate-reducing archaeon Archaeoglobus fulgidus

Document Type

Academic Journal

Author

Klenk, Hans-Peter; Clayton, Rebecca A.; Tomb, Jean-Francois; White, Owen; Nelson, Karen E.; Ketchum, Karen A.; Dodson, Robert J.; Gwinn, Michelle; Hickey, Erin K.; Peterson, Jeremy D.; Richardson, Delwood L.; Kerlavage, Anthony R.; Graham, David E.; Kyrpides, Nikos C.; Fleischmann, Robert D.; Quackenbush, John; Lee, Norman H.; Sutton, Granger G.; Gill, Steven; Kirkness, Ewen F.; Dougherty, Brian A.; McKenney, Keith; Adams, Mark D.; Loftus, Brendan; Peterson, Scott; Reich, Claudia I.; McNeil, Leslie K.; Badger, Jonathan H.; Glodek, Anna; Zhou, Lixin; Overbeek, Ross; Gocayne, Jeannine D.; Weidman, Janice F.; McDonald, Lisa; Utterback, Teresa; Cotton, Matthew D.; Artiach, Patricia; Kaine, Brian P.; Sykes, Sean M.; Sadow, Paul W.; D'Andrea Kurt P.; Bowman, Cheryl; Fujii, Claire; Garland, Stacey A.; Mason, Tanya M.; Olsen, Gary J.; Fraser, Claire M.; Smith, Hamilton O.; Woese, Carl R.

Source

Nature. Nov 27, 1997, Vol. 390 Issue 6658, p364, 15 p.

Subject

Analysis
Genetic aspects
Genomes -- Analysis
Thermophiles -- Genetic aspects
Bacteria, Thermophilic -- Genetic aspects

Language

ISSN

0028-0836

Abstract

The full genetic sequence of sulphur-metabolizing organism Archaeoglobus fulgidus has been established. A genetic map of 2,178,400 base pairs containing 2,436 open reading frames is illustrated. A significant proportion of genetic information is similar to the archaeon organism Methanococcus jannaschii. Genetic evidence shows that A. fulgidus uses a number of different electron transport systems.

Online Access

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