Smith DF

References (4)

Title : Chromosome and gene copy number variation allow major structural change between species and strains of Leishmania - Rogers_2011_Genome.Res_21_2129
Author(s) : Rogers MB , Hilley JD , Dickens NJ , Wilkes J , Bates PA , Depledge DP , Harris D , Her Y , Herzyk P , Imamura H , Otto TD , Sanders M , Seeger K , Dujardin JC , Berriman M , Smith DF , Hertz-Fowler C , Mottram JC
Ref : Genome Res , 21 :2129 , 2011
Abstract : Leishmania parasites cause a spectrum of clinical pathology in humans ranging from disfiguring cutaneous lesions to fatal visceral leishmaniasis. We have generated a reference genome for Leishmania mexicana and refined the reference genomes for Leishmania major, Leishmania infantum, and Leishmania braziliensis. This has allowed the identification of a remarkably low number of genes or paralog groups (2, 14, 19, and 67, respectively) unique to one species. These were found to be conserved in additional isolates of the same species. We have predicted allelic variation and find that in these isolates, L. major and L. infantum have a surprisingly low number of predicted heterozygous SNPs compared with L. braziliensis and L. mexicana. We used short read coverage to infer ploidy and gene copy numbers, identifying large copy number variations between species, with 200 tandem gene arrays in L. major and 132 in L. mexicana. Chromosome copy number also varied significantly between species, with nine supernumerary chromosomes in L. infantum, four in L. mexicana, two in L. braziliensis, and one in L. major. A significant bias against gene arrays on supernumerary chromosomes was shown to exist, indicating that duplication events occur more frequently on disomic chromosomes. Taken together, our data demonstrate that there is little variation in unique gene content across Leishmania species, but large-scale genetic heterogeneity can result through gene amplification on disomic chromosomes and variation in chromosome number. Increased gene copy number due to chromosome amplification may contribute to alterations in gene expression in response to environmental conditions in the host, providing a genetic basis for disease tropism.
ESTHER : Rogers_2011_Genome.Res_21_2129
PubMedSearch : Rogers_2011_Genome.Res_21_2129
PubMedID: 22038252

Title : Comparative genomic analysis of three Leishmania species that cause diverse human disease - Peacock_2007_Nat.Genet_39_839
Author(s) : Peacock CS , Seeger K , Harris D , Murphy L , Ruiz JC , Quail MA , Peters N , Adlem E , Tivey A , Aslett M , Kerhornou A , Ivens A , Fraser A , Rajandream MA , Carver T , Norbertczak H , Chillingworth T , Hance Z , Jagels K , Moule S , Ormond D , Rutter S , Squares R , Whitehead S , Rabbinowitsch E , Arrowsmith C , White B , Thurston S , Bringaud F , Baldauf SL , Faulconbridge A , Jeffares D , Depledge DP , Oyola SO , Hilley JD , Brito LO , Tosi LR , Barrell B , Cruz AK , Mottram JC , Smith DF , Berriman M
Ref : Nat Genet , 39 :839 , 2007
Abstract : Leishmania parasites cause a broad spectrum of clinical disease. Here we report the sequencing of the genomes of two species of Leishmania: Leishmania infantum and Leishmania braziliensis. The comparison of these sequences with the published genome of Leishmania major reveals marked conservation of synteny and identifies only approximately 200 genes with a differential distribution between the three species. L. braziliensis, contrary to Leishmania species examined so far, possesses components of a putative RNA-mediated interference pathway, telomere-associated transposable elements and spliced leader-associated SLACS retrotransposons. We show that pseudogene formation and gene loss are the principal forces shaping the different genomes. Genes that are differentially distributed between the species encode proteins implicated in host-pathogen interactions and parasite survival in the macrophage.
ESTHER : Peacock_2007_Nat.Genet_39_839
PubMedSearch : Peacock_2007_Nat.Genet_39_839
PubMedID: 17572675
Gene_locus related to this paper: leibr-a4h6l0 , leibr-a4h6l1 , leibr-a4h9b6 , leibr-a4h908 , leibr-a4h956 , leibr-a4h959 , leibr-a4h960 , leibr-a4hen1 , leibr-a4hf07 , leibr-a4hgl0 , leibr-a4hhu6 , leibr-a4hj94 , leibr-a4hk72 , leibr-a4hpa8 , leibr-a4hpz5 , leiin-a4huz4 , leiin-a4hxe0 , leiin-a4hxh8 , leiin-a4hxi1 , leiin-a4hxn7 , leiin-a4hyv9 , leiin-a4i1v9 , leiin-a4i4z6 , leiin-a4i6n9 , leiin-a4i7q7 , leiin-a4idl6 , leima-e9ady6 , leima-OPB , leima-q4q0t5 , leima-q4q8a8 , leima-q4q398 , leima-q4q942 , leima-q4qe85 , leima-q4qe86 , leima-q4qj45

Title : The genome of the kinetoplastid parasite, Leishmania major - Ivens_2005_Science_309_436
Author(s) : Ivens AC , Peacock CS , Worthey EA , Murphy L , Aggarwal G , Berriman M , Sisk E , Rajandream MA , Adlem E , Aert R , Anupama A , Apostolou Z , Attipoe P , Bason N , Bauser C , Beck A , Beverley SM , Bianchettin G , Borzym K , Bothe G , Bruschi CV , Collins M , Cadag E , Ciarloni L , Clayton C , Coulson RM , Cronin A , Cruz AK , Davies RM , De Gaudenzi J , Dobson DE , Duesterhoeft A , Fazelina G , Fosker N , Frasch AC , 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 JC , Muller-Auer S , Munden H , Nelson S , Norbertczak H , Oliver K , O'Neil S , Pentony M , Pohl TM , Price C , Purnelle B , Quail MA , Rabbinowitsch E , Reinhardt R , Rieger M , Rinta J , Robben J , Robertson L , Ruiz JC , Rutter S , Saunders D , Schafer M , Schein J , Schwartz DC , 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 DF , Blackwell JM , Stuart KD , Barrell B , Myler PJ
Ref : Science , 309 :436 , 2005
Abstract : Leishmania species 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 of Leishmania 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 the L. major, Trypanosoma brucei, and Trypanosoma cruzi (Tritryp) genomes suggest that the mechanisms regulating RNA polymerase II-directed 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.
ESTHER : Ivens_2005_Science_309_436
PubMedSearch : Ivens_2005_Science_309_436
PubMedID: 16020728
Gene_locus related to this paper: leima-e9ady6 , leima-L2464.12 , leima-L2802.02 , leima-OPB , leima-q4fw33 , leima-q4fwg8 , leima-q4fwj0 , leima-q4fya7 , leima-q4q0a1 , leima-q4q0t5 , leima-q4q0v0 , leima-q4q1h9 , leima-q4q2c9 , leima-q4q4j7 , leima-q4q4t6 , leima-q4q5j1 , leima-q4q6e9 , leima-q4q7v8 , leima-q4q8a8 , leima-q4q9g9 , leima-q4q080 , leima-q4q398 , leima-q4q615 , leima-q4q819 , leima-q4q871 , leima-q4q942 , leima-q4qae7 , leima-q4qb85 , leima-q4qdz7 , leima-q4qe26 , leima-q4qe31 , leima-q4qe85 , leima-q4qe86 , leima-q4qe87 , leima-q4qe90 , leima-q4qec8 , leima-q4qgz4 , leima-q4qgz5 , leima-q4qhs0 , leima-q4qj45

Title : A physical map of the Leishmania major Friedlin genome - Ivens_1998_Genome.Res_8_135
Author(s) : Ivens AC , Lewis SM , Bagherzadeh A , Zhang L , Chan HM , Smith DF
Ref : Genome Res , 8 :135 , 1998
Abstract : An extensive physical map of the Leishmania major Friedlin genome has been assembled by the combination of fingerprint analysis of a shuttle vector cosmid library and probe hybridization. The integrated data obtained for 9004 fingerprinted clones and 974 probes have placed 91.2% of the 33.58-Mb genome into contigs representing each of the 36 chromosomes. This first-generation map has already provided a suitable framework for both high-throughput DNA sequencing and functional studies of the L. major parasite.
ESTHER : Ivens_1998_Genome.Res_8_135
PubMedSearch : Ivens_1998_Genome.Res_8_135
PubMedID: 9477341
Gene_locus related to this paper: leima-L2464.12 , leima-L2802.02 , leima-P883.01 , leima-P883.35