Peterson Haak scite author profile

Background: State laws in the USA mandate that blood be drawn from all newborn infants to screen for health-threatening conditions. These screening assays consume only a small portion of the blood samples, which are collected on filter paper (‘Guthrie’) cards. Many states archive unused blood spots, often in unrefrigerated storage. Objectives: While individual RNA transcripts have been identified from archived neonatal blood spots, no study to date has performed quantitative analysis of archived blood spot RNA. Methods: We demonstrate that RNA can be isolated and amplified from newborn blood spots stored unfrozen for as long as 9 years, and can be analyzed by microarray and qPCR. Results: Microarray assays of archived neonatal blood spots consistently detected 3,000–4,000 expressed genes with correlations of 0.90 between replicates. Blood spot mRNA is amenable to qPCR and we detected biologically relevant expression levels of housekeeping and immune-mediating genes. Conclusions: These experiments demonstrate the feasibility of using blood spots as a source of RNA which can be analyzed using quantitative microarray and qPCR assays. The application of these methods to the analysis of widely collected biological specimens may be a valuable resource for the study of perinatal determinants of disease development.

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Acquiring genome‐wide gene expression profiles in Guthrie card blood spots using microarrays

Khoo¹,

Dykema²,

Vadlapatla³

et al. 2010

Pathology International

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Standard Guthrie cards have been widely used to collect blood samples from essentially all USA and Japanese neonates for newborn screening programs. Thus, archival blood spot samples are a unique and comprehensive resource for molecular pathology studies. However, the challenge in using these samples is the presumed low quantity and degraded quality of nucleic acids that can be isolated from these samples, particularly the RNA. Here, we report a new assay using Agilent 4x44K microarrays for acquiring genome-wide gene expression profiles from blood spots on Guthrie cards. Due to the small amount of RNA obtained from each sample, major modifications, such as concentrating and amplifying the RNA and using a different labeling procedure, were performed. Approximately 9000 expressed genes can be detected after normalization of data, an increment of 260% in detection power compared with previously reported cDNA microarrays made in-house with standard procedures. The correlation coefficients in technical and biological replicates were 0.92 and 0.85, respectively, confirming the reproducibility of this study. This new and comprehensive assay will add value to the utility of archival Guthrie cards (e.g. neonatal blood spot cards) and open new opportunities to molecular epidemiology, pathology, genomic, and diagnostic studies of perinatal diseases.

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Review Paper: Gene Expression Profiling in Veterinary and Human Medicine: Overview of Applications and Proposed Quality Control Practices

et al. 2009

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High throughput molecular analysis of veterinary tissue samples is being applied to a wide range of research questions aimed at improving survival, development of diagnostic assays, and improving the economics of commercial production of animal products. Many of these efforts also, implicitly or explicitly, have ramifications for the clinical care of humans and, potentially, animals. Here we provide an overview of applications of gene expression profiling in veterinary research and practice. We then focus on the current state of quality control and quality assurance efforts in gene expression profiling studies, underscoring lessons learned from such analysis of human samples. Finally, we propose practices aimed at ensuring the reliability and reproducibility of such assays. The implementation of quality assurance practices by a trained pathologist is an essential link in the chain of events leading ultimately to reliable and reproducible research findings and appropriate clinical care.

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Gene expression of ThinPrep® fixed cervical cytopathology cells

et al. 2006

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Peterson Haak

Archived Unfrozen Neonatal Blood Spots Are Amenable to Quantitative Gene Expression Analysis

Acquiring genome‐wide gene expression profiles in Guthrie card blood spots using microarrays

Review Paper: Gene Expression Profiling in Veterinary and Human Medicine: Overview of Applications and Proposed Quality Control Practices

Gene expression of ThinPrep® fixed cervical cytopathology cells

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