Elizabeth Skippington: Difference between revisions
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= Literature = | = Literature = | ||
==LGT== | |||
Davids W, Zhang Z: '''The impact of horizontal gene tranfer in shaping operons and protein interaction networks- direct evidence of preferential attachment.''' BMC Evoutionary Biology 2008, 8:23 [http://www.biomedcentral.com/content/pdf/1471-2148-8-23.pdf] | Davids W, Zhang Z: '''The impact of horizontal gene tranfer in shaping operons and protein interaction networks- direct evidence of preferential attachment.''' BMC Evoutionary Biology 2008, 8:23 [http://www.biomedcentral.com/content/pdf/1471-2148-8-23.pdf] | ||
Revision as of 05:44, 3 April 2008
PIC Server [1]
Literature
LGT
Davids W, Zhang Z: The impact of horizontal gene tranfer in shaping operons and protein interaction networks- direct evidence of preferential attachment. BMC Evoutionary Biology 2008, 8:23 [2]
Wellner A and Lurie MN: Complexity, connectivity, and duplicability as barriers to lateral gene transfer. Genome Biology 2007, 8:R156 [3]
LGT and regulatory networks
Lercher MJ, and Pál C: Integration of Horizontally Transferred Genes into Regulatory Interaction Networks Takes Many Million Years. Molecular Biology and Evolution 2008, 25(3):559-567 [4]
Price MN, Dehal PS, Arkin AP: Horizontal gene transfer and the evolution of transcriptional regulation in Escherichia coli. Genome Biol 2008, 9(1):R4 [5]
LGT and metabolic networks
Eisenberg E, Levanon EY: Preferential attachment in the protein network evolution. Phys Rev Lett 2003, 91(13):138701 [6]
Transfer of operons
Homma K, Fukuchi S, Nakamura Y, Gojobori T, Nishikawa K: Gene Cluster Analysis Method Identifies Horizontally Transferred Genes with High Reliability and Indicates that They Provide the Main Mechanism of Operon Gain in 8 Species of {gamma}-Proteobacteria. Molecular Biology and Evolution 2007 24(3):805-813 [7]
