Abstract
BackgroundComparisons of the molecular framework among organisms can be done on both structural and functional levels. One of the most common top-down approaches for functional comparisons is RNA sequencing. This estimation of organismal transcriptional responses is of interest for understanding evolution of molecular activity, which is used for answering a diversity of questions ranging from basic biology to pre-clinical species selection and translation. However, direct comparison between species is often hindered by evolutionary divergence in structure of molecular framework, as well as large difference in the depth of our understanding of the genetic background between humans and other species. Here, we focus on the latter. We attempt to understand how differences in transcriptome annotation affect direct gene abundance comparisons between species.ResultsWe examine and suggest some straightforward approaches for direct comparison given the current available tools and using a sample dataset from human, cynomolgus monkey, dog, rat and mouse with a common quantitation and normalization approach. In addition, we examine how variation in genome annotation depth and quality across species may affect these direct comparisons.ConclusionsOur findings suggest that further efforts for better genome annotation or computational normalization tools may be of strong interest.
Highlights
Comparisons of the molecular framework among organisms can be done on both structural and functional levels
We identify issues with tpm value comparison across species that appear to be related to annotation depth disparity and may stem from read mapping related to annotation differences
The summed value represents the denominator of Eq 1 and reveals a quantifiable and consistent relationship that is dependent on both the number of mapped reads, and may be related to the number of genes used in the summation, as a factor that affects the size of the denominator. These findings suggest that the inflation observed, and initially ascribed to variation in annotation depth, is a mathematical artifact of the total number of reads mapped in a sub-sampled genome
Summary
Comparisons of the molecular framework among organisms can be done on both structural and functional levels. One of the most common top-down approaches for functional comparisons is RNA sequencing This estimation of organismal transcriptional responses is of interest for understanding evolution of molecular activity, which is used for answering a diversity of questions ranging from basic biology to pre-clinical species selection and translation. Direct comparison between species is often hindered by evolutionary divergence in structure of molecular framework, as well as large difference in the depth of our understanding of the genetic background between humans and other species. Functional cross-species comparisons can be used to evaluate the predictive potential of pre-clinical species to model human molecular frameworks [6]. Comparisons of pre-clinical species as models of human functional genomics have been made, but rarely controlled on a large scale.
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