Gene Expression Patterns Can Determine Time of Death
News Feb 14, 2018 | Original Story from the Centre for Genomic Regulation
Credit: CRG/ Rembrandt Van Rijn
International team of scientists led by Roderic Guigó at the Centre for Genomic Regulation in Barcelona showed that changes in gene expression in different tissues triggered by death can be used to predict the time of death of an individual. As reported in a paper published in Nature Communications today, researchers suggest that by analysing a few readily available tissues (for example lung or skin tissue), the post-mortem interval (time elapsed since death) can be determined with considerable accuracy and may have implications for forensic analyses.
It all started with the GTEx project, which aimed at creating a reference database and tissue bank for scientists to study how genomic variants affect gene activity and disease susceptibility. GTEx was designed to sample as many tissues as possible from a large number of individuals in order to understand the causal effects of genes and variants, and which tissues contribute to predisposition to disease. “GTEx data allow us to ask questions about genetic variation and its effects on gene expression both in one tissue and across many tissues. Since the samples we are using all come from deceased donors, we need to find out if there were changes in gene expression related to the death or the time of death, so we could better model our predictions of variation between tissues or in disease,” explains Roderic Guigó, lead author of this study and coordinator of the Bioinformatics and Genomics Programme at the CRG.
To understand the tissue-specific changes to gene expression following the death of a person, Roderic Guigó and his colleagues studied RNA-sequencing data of over 7,000 samples from 36 different tissues obtained from 540 donor within the GTEx project. They show that the time since death has an effect on gene expression and that this effect varies from tissue to tissue. The authors developed models for the prediction of the post-mortem interval based on these tissue-specific gene expression changes using high-throughput sequencing of the cell.
“We found that many genes change expression over relatively short post-mortem intervals, in a largely tissue specific manner. This information helps us to better understand variation and also it allows us to identify the transcriptional events triggered by death in an organism,” adds Pedro G. Ferreira, CRG Alumnus currently at the Institute of Molecular Pathology and Immunology, University of Porto in Portugal.
This article has been republished from materials provided by the Centre for Genomic Regulation. Note: material may have been edited for length and content. For further information, please contact the cited source.
Reference: Ferreira, P. G., Muñoz-Aguirre, M., Reverter, F., Godinho, C. P. S., Sousa, A., Amadoz, A., … Guigó, R. (2018). The effects of death and post-mortem cold ischemia on human tissue transcriptomes. Nature Communications, 9(1), 490. https://doi.org/10.1038/s41467-017-02772-x
Gene Therapy Could End Transfusions for Blood Disorder PatientsNews
Beta-thalassemia patients need a regular dose of red blood cells transfused into their body. A new gene therapy that edits faulty genes in the patients' cells could end this monthly ritual.READ MORE
How Do Plants Avoid UV Damage?News
Public health warnings against too much exposure to UV are based on sound advice: UV rays can damage DNA and cause cancers and other diseases. Plants, however, cannot avoid UV. A new study now shows how plants' DNA repair system helps combat constant UV exposure.READ MORE
Comments | 0 ADD COMMENT
World Congress on Advanced Biomaterials and Tissue Engineering
Jun 20 - Jun 21, 2018
29th International Conference on Public Mental Health and Neuroscience
Jul 16 - Jul 18, 2018
International Conference on Epigenetics and Epitranscriptomics
Sep 17 - Sep 18, 2018