Supplementary information
From the following article
Comparative genomic analysis of three Leishmania species that cause diverse human disease
Christopher S Peacock, Kathy Seeger, David Harris, Lee Murphy, Jeronimo C Ruiz, Michael A Quail, Nick Peters, Ellen Adlem, Adrian Tivey, Martin Aslett, Arnaud Kerhornou, Alasdair Ivens, Audrey Fraser, Marie-Adele Rajandream, Tim Carver, Halina Norbertczak, Tracey Chillingworth, Zahra Hance, Kay Jagels, Sharon Moule, Doug Ormond, Simon Rutter, Rob Squares, Sally Whitehead, Ester Rabbinowitsch, Claire Arrowsmith, Brian White, Scott Thurston, Frédéric Bringaud, Sandra L Baldauf, Adam Faulconbridge, Daniel Jeffares, Daniel P Depledge, Samuel O Oyola, James D Hilley, Loislene O Brito, Luiz R O Tosi, Barclay Barrell, Angela K Cruz, Jeremy C Mottram, Deborah F Smith & Matthew Berriman
Nature Genetics 39, 839 - 847 (2007) Published online: 17 June 2007
doi:10.1038/ng2053
Supplementary Fig. 1
The predicted structure of the telomere-associated transposable elements (TATEs) found in L. braziliensis.
Supplementary Fig. 2
RNAi machinery in Leishmania species.
Supplementary Fig. 3
The phylogenetic tree for cyclopropane fatty acyl phosholipid synthase (CFAS).
Supplementary Table 1
Summary of motifs reported in RNAi proteins.
Supplementary Table 2
Leishmania loci with species-specific differences and conserved pseudogenes.
Supplementary Table 3
dN/dS analysis of Leishmania genes annotated with Gene Ontology Biological Process terms.
Supplementary Table 4
Genes predicted to have evolved at different rates between the three species of Leishmania.
Supplementary Table 5
Gene Ontology groups that are overrepresented in the 924 genes that show significant divergence within orthologous groups.
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