Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.
Project description:Development of a cost-effective and practical targeted transcriptional fingerprinting assay (TFA) for monitoring a diverse repertoire of immune responses identified in the human blood transcriptome relying on a modular transcriptional repertoire built on the basis of variations in transcript abundance measured on a genome wide scale in the blood of nearly 1000 subjects across 16 immunologic conditions.