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The Genome of the Kinetoplastid Parasite,Leishmania major
- Source :
- Ivens, A C, Peacock, C S, Worthey, E A, Murphy, L, Aggarwal, G, Berriman, M, Sisk, E, Rajandream, M-A, Adlem, E, Aert, R, Anupama, A, Apostolou, Z, Attipoe, P, Bason, N, Bauser, C, Beck, A, Beverley, S M, Bianchettin, G, Borzym, K, Bothe, G, Bruschi, C V, Collins, M, Cadag, E, Ciarloni, L, Clayton, C, Coulson, R M R, Cronin, A, Cruz, A K, Davies, R M, De Gaudenzi, J, Dobson, D E, Duesterhoeft, A, Fazelina, G, Fosker, N, Frasch, A C, Fraser, A, Fuchs, M, Gabel, C, Goble, A, Goffeau, A, Harris, D, Hertz-Fowler, C, Hilbert, H, Horn, D, Huang, Y, Klages, S, Knights, A, Kube, M, Larke, N, Litvin, L, Lord, A, Louie, T, Marra, M, Masuy, D, Matthews, K, Michaeli, S, Mottram, J C, Müller-Auer, S, Munden, H, Nelson, S, Norbertczak, H, Oliver, K, O'neil, S, Pentony, M, Pohl, T M, Price, C, Purnelle, B, Quail, M A, Rabbinowitsch, E, Reinhardt, R, Rieger, M, Rinta, J, Robben, J, Robertson, L, Ruiz, J C, Rutter, S, Saunders, D, Schäfer, M, Schein, J, Schwartz, D C, Seeger, K, Seyler, A, Sharp, S, Shin, H, Sivam, D, Squares, R, Squares, S, Tosato, V, Vogt, C, Volckaert, G, Wambutt, R, Warren, T, Wedler, H, Woodward, J, Zhou, S, Zimmermann, W, Smith, D F, Blackwell, J M, Stuart, K D, Barrell, B & Myler, P J 2005, ' The genome of the kinetoplastid parasite, Leishmania major ', Science, vol. 309, no. 5733, pp. 436-42 . https://doi.org/10.1126/science.1112680
- Publication Year :
- 2005
- Publisher :
- American Association for the Advancement of Science (AAAS), 2005.
-
Abstract
- Leishmaniaspecies cause a spectrum of human diseases in tropical and subtropical regions of the world. We have sequenced the 36 chromosomes of the 32.8-megabase haploid genome ofLeishmania major(Friedlin strain) and predict 911 RNA genes, 39 pseudogenes, and 8272 protein-coding genes, of which 36% can be ascribed a putative function. These include genes involved in host-pathogen interactions, such as proteolytic enzymes, and extensive machinery for synthesis of complex surface glycoconjugates. The organization of protein-coding genes into long, strand-specific, polycistronic clusters and lack of general transcription factors in theL. major, Trypanosoma brucei, andTrypanosoma cruzi(Tritryp) genomes suggest that the mechanisms regulating RNA polymerase IIâdirected transcription are distinct from those operating in other eukaryotes, although the trypanosomatids appear capable of chromatin remodeling. Abundant RNA-binding proteins are encoded in the Tritryp genomes, consistent with active posttranscriptional regulation of gene expression.
- Subjects :
- Transcription, Genetic
RNA Splicing
Pseudogene
family encoding amastin
Genes, Protozoan
Molecular Sequence Data
Protozoan Proteins
Leishmaniasis, Cutaneous
Biology
Genome
Article
chemistry.chemical_compound
Transcription (biology)
RNA polymerase
parasitic diseases
Animals
RNA Processing, Post-Transcriptional
gene
Gene
Leishmania major
Genetics
Multidisciplinary
General transcription factor
Proteolytic enzymes
Membrane Proteins
RNA
Genes, rRNA
differentiation
Sequence Analysis, DNA
organization
Lipid Metabolism
pre-messenger-rna
Chromatin
Gene Expression Regulation
chemistry
Multigene Family
Protein Biosynthesis
friedlin chromosome-1
trypanosoma-brucei
cruzi
transcription
protein
Genome, Protozoan
Glycoconjugates
Protein Processing, Post-Translational
RNA, Protozoan
Subjects
Details
- ISSN :
- 10959203 and 00368075
- Volume :
- 309
- Database :
- OpenAIRE
- Journal :
- Science
- Accession number :
- edsair.doi.dedup.....605efc1a4f8db0eb1ecd8e2397fa9e1a
- Full Text :
- https://doi.org/10.1126/science.1112680