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Congergibacter litoralis KT71 is a gram-negative gammaproteobacteria part of the NOR5/OM60 Clade discovered in seawater from Heligoland, an island in the North Sea by H. Eilers from the Max Planck Institute for Microbiology. C. litoralis KT71 is described as a pleomorphic bacterium and has a size of 2 x 0.5 μm. When grown in culture, C. litoralis KT71 has a generation time of 4.5 hours and prefers to grow on complex substrates where the sole carbon source is undefined, though it can utilize some sole carbon sources because they are most likely used by the organism for its central metabolism.

Phylogeny
C. litoralis KT71 was one of the first cultured members of OM60/NOR5 clade and is part of the aerobic anoxygenic phototrophs (AAnPs), a group of bacteria that include marine and freshwater gamma- and alphaproteobacteria. When placed on a phylogenetic tree with other gammaproteobacteria, some of its closest relatives include Neptuniibacter caesariensis,Arcobacter butzleri, and Oligotropha carboxidovora. Within the environment, members of the OM60/NOR5 clade are cosmopolitan in ocean environments, but seem to have greater abundances in euphotic coastal marine areas.

Discovery and Isolation
KT71 was first isolated from a surface water sample taken near Helgoland, an island in the North Sea by Eilers et al. in August of 1999. To isolate the organism, Eliers et al. used direct plating on complex low-nutrient media called MPM developed by Schut et al. MPM was designed to mimic seawater. However, Eilers et. al. modified this to adjust the pH to 7.5 and reduced NH4Cl and KH2PO4 to 50 and 1.5 μM, respectively. Briefly, seawater was plated onto MPM and modified MPM and allowed to grow for 37 days. During the 37 days, colonies were picked and placed into liquid MPM culture.

Basic Genomic Information
In 2004, C. litoralis KT71 was picked for whole genome sequencing. To sequence the organism, plasmid and fosmid libraries were prepared with insert sizes of 4 and 40 kb. The clonal sequences were sequenced by an Applied Biosystems 3730XL DNA sequencer at the J. Craig Venter Science Foundation Joint Technology Center. From this, it was determined that C. litoralis KT71 had a genome size of 4.35Mbp with a GC content of 57.7%. Moreover, the genome contains 3933 coding genes.

Metabolism
C. litoralis KT71 is an aerobic anoxygenic photoheterotroph (AAnPs). In general terms, this means that KT71 is a strict aerobic organism with preference for low-oxygen environments. To find these environments, KT71 uses a flagellum combined with chemotaxis to move towards low-oxygen areas. Though it does contain a complete photosynthesis superoperon, KT71 cannot grow autotrophically. Instead, KT71 uses light for light-dependent cyclic electron transport through its photosystem to generate a proton gradient. When grown in culture, KT71 can grow well with carbon sources such as glutamate, pyruvate, and fatty acids as well as more complex substrates like yeast extract and trypticase peptone. Within its genome, genes involved in the pentose phosphate pathway, trichloroacetic acid cycle (TCA), citric acid cycle were found which correlated to the metabolism observed in culture. Further, KT71 is unable to use glucose as a sole carbon source, which was supported by genome analysis that showed a lack of glucose metabolism genes. Although the supplementation of inorganic sulfur to media did not promote growth, KT71 does contain sulfur-oxidizing (sox) genes that are uniquely arranged in its genome. It is predicted that the potential use of the sox genes would be in the adenosine 5'-phosphosulfate (APS)/ 3'-Phosphoadenosine-5'-phosphosulfate (PAPS) pathway.

Importance
Though KT71 and other AAnPs can make up over 10% of the bacterioplankonic community in oligotrophic oceans, more recent studies have shown them to be less important in open ocean and more important (over 15%) in eutrophic and mesotrophic coastal oceans. Further, though AAnPs have been characterized previously in alphaproteobacteria, KT71 was the first gammaproteobacteria AAnP to be isolated and suggest a potential for a second group of AAnPs. KT71 will therefore serve as the model organism for this group to help shed light on the importance of gammaproteobacteria AAnPs in the coastal environment.

Role
When grown in pure culture, it was observed that KT71 formed aggregates. These formations were supported by genome analysis in which genes coding for Type IV pili as well as extracellular polysaccharide production were found. It was predicted by Fuchs et al. that KT71 uses the polysaccharide formation to help form marine snow. KT71 uses these particles that are high in nutrients as a source of nutrients or live in a commensal relationship with other bacteria that provide the necessary compounds that KT71 uses for substrates.