Mechanisms for differential regulation of gene expression may underlie much of the phenotypic variation and adaptability of malaria parasites. Here we describe transcriptional variation among culture-adapted field isolates of Plasmodium falciparum, the species responsible for most malarial disease. It was found that genes coding for parasite protein export into the red cell cytosol and onto its surface, and genes coding for sexual stage proteins involved in parasite transmission are up-regulated in field isolates compared with long-term laboratory isolates. Much of this variability was associated with the loss of small or large chromosomal segments, or other forms of gene copy number variation that are prevalent in the P. falciparum genome ...
Gene expression patterns have been demonstrated to be highly variable between similar cell types, fo...
Background: Malaria parasites are genetically polymorphic and phenotypically plastic. In studying tr...
Malaria research has entered a postgenomic era since October 2002, when the complete genomic sequenc...
Mechanisms for differential regulation of gene expression may underlie much of the phenotypic variat...
Mechanisms for differential regulation of gene expression may underlie much of the phenotypic variat...
The determinants of transcriptional regulation in malaria parasites remain elusive. The presence of ...
Transcriptional differences enable the generation of alternative phenotypes from the...
Background Gene copy number variants (CNVs), which consist of deletions and amplific...
The mechanisms underlying the heterogeneity of clinical malaria remain largely unknown. We hypothesi...
The mechanisms underlying the heterogeneity of clinical malaria remain largely unknown. We hypothesi...
International audienceThe mechanisms underlying the heterogeneity of clinical malaria remain largely...
Abstract Background Gene copy number variation (CNV) is responsible for several important phenotypes...
This thesis investigates patterns and mechanisms of gene expression in P. falciparum. The rapidly cy...
Gene copy number variants (CNVs), which consist of gene deletions and amplifications contribute to t...
Gene expression patterns have been demonstrated to be highly variable between similar cell types, fo...
Gene expression patterns have been demonstrated to be highly variable between similar cell types, fo...
Background: Malaria parasites are genetically polymorphic and phenotypically plastic. In studying tr...
Malaria research has entered a postgenomic era since October 2002, when the complete genomic sequenc...
Mechanisms for differential regulation of gene expression may underlie much of the phenotypic variat...
Mechanisms for differential regulation of gene expression may underlie much of the phenotypic variat...
The determinants of transcriptional regulation in malaria parasites remain elusive. The presence of ...
Transcriptional differences enable the generation of alternative phenotypes from the...
Background Gene copy number variants (CNVs), which consist of deletions and amplific...
The mechanisms underlying the heterogeneity of clinical malaria remain largely unknown. We hypothesi...
The mechanisms underlying the heterogeneity of clinical malaria remain largely unknown. We hypothesi...
International audienceThe mechanisms underlying the heterogeneity of clinical malaria remain largely...
Abstract Background Gene copy number variation (CNV) is responsible for several important phenotypes...
This thesis investigates patterns and mechanisms of gene expression in P. falciparum. The rapidly cy...
Gene copy number variants (CNVs), which consist of gene deletions and amplifications contribute to t...
Gene expression patterns have been demonstrated to be highly variable between similar cell types, fo...
Gene expression patterns have been demonstrated to be highly variable between similar cell types, fo...
Background: Malaria parasites are genetically polymorphic and phenotypically plastic. In studying tr...
Malaria research has entered a postgenomic era since October 2002, when the complete genomic sequenc...