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The cancer community understands the value of blood profiling measurements in assessing and monitoring cancer. We describe an effort among academic, government, biotechnology, diagnostic, and pharmaceutical companies called the Blood Profiling Atlas in Cancer (BloodPAC) Project. BloodPAC will aggregate, make freely available, and harmonize for further analyses, raw datasets, relevant associated clinical data (e.g., clinical diagnosis, treatment history, and outcomes), and sample preparation and handling protocols to accelerate the development of blood profiling assays.
Assuntos
Atlas como Assunto , Neoplasias/sangue , Bases de Dados Factuais , HumanosRESUMO
The availability of the genome sequences of multiple Aspergillus spp. presents the research community with an unprecedented opportunity for discovery. The genomes of Neosartorya fischeri and Aspergillus clavatus have been sequenced in order to extend our knowledge of Aspergillus fumigatus, the primary cause of invasive aspergillosis. Through comparative genomic analysis, we hope to elucidate both obvious and subtle differences between genomes, developing new hypotheses that can be tested in the laboratory. A preliminary examination of the genomes and their predicted proteomes reveals extensive conservation between protein sequences and significant synteny, or conserved gene order. Comparative genomic analysis at the level of these closely related aspergilli should provide important insight into the evolutionary forces at play and their effect on gene content, regulation and expression.
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The 2,160,837-base pair genome sequence of an isolate of Streptococcus pneumoniae, a Gram-positive pathogen that causes pneumonia, bacteremia, meningitis, and otitis media, contains 2236 predicted coding regions; of these, 1440 (64%) were assigned a biological role. Approximately 5% of the genome is composed of insertion sequences that may contribute to genome rearrangements through uptake of foreign DNA. Extracellular enzyme systems for the metabolism of polysaccharides and hexosamines provide a substantial source of carbon and nitrogen for S. pneumoniae and also damage host tissues and facilitate colonization. A motif identified within the signal peptide of proteins is potentially involved in targeting these proteins to the cell surface of low-guanine/cytosine (GC) Gram-positive species. Several surface-exposed proteins that may serve as potential vaccine candidates were identified. Comparative genome hybridization with DNA arrays revealed strain differences in S. pneumoniae that could contribute to differences in virulence and antigenicity.