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  1. Article: Gene-metabolite annotation with shortest reactional distance enhances metabolite genome-wide association studies results.

    Baron, Cantin / Cherkaoui, Sarah / Therrien-Laperriere, Sandra / Ilboudo, Yann / Poujol, Raphaël / Mehanna, Pamela / Garrett, Melanie E / Telen, Marilyn J / Ashley-Koch, Allison E / Bartolucci, Pablo / Rioux, John D / Lettre, Guillaume / Des Rosiers, Christine / Ruiz, Matthieu / Hussin, Julie G

    bioRxiv : the preprint server for biology

    2023  

    Abstract: Studies combining metabolomics and genetics, known as metabolite genome-wide association studies (mGWAS), have provided valuable insights into our understanding of the genetic control of metabolite levels. However, the biological interpretation of these ... ...

    Abstract Studies combining metabolomics and genetics, known as metabolite genome-wide association studies (mGWAS), have provided valuable insights into our understanding of the genetic control of metabolite levels. However, the biological interpretation of these associations remains challenging due to a lack of existing tools to annotate mGWAS gene-metabolite pairs beyond the use of conservative statistical significance threshold. Here, we computed the shortest reactional distance (SRD) based on the curated knowledge of the KEGG database to explore its utility in enhancing the biological interpretation of results from three independent mGWAS, including a case study on sickle cell disease patients. Results show that, in reported mGWAS pairs, there is an excess of small SRD values and that SRD values and p-values significantly correlate, even beyond the standard conservative thresholds. The added-value of SRD annotation is shown for identification of potential false negative hits, exemplified by the finding of gene-metabolite associations with SRD ≤1 that did not reach standard genome-wide significance cut-off. The wider use of this statistic as an mGWAS annotation would prevent the exclusion of biologically relevant associations and can also identify errors or gaps in current metabolic pathway databases. Our findings highlight the SRD metric as an objective, quantitative and easy-to-compute annotation for gene-metabolite pairs that can be used to integrate statistical evidence to biological networks.
    Language English
    Publishing date 2023-03-24
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2023.03.22.533869
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article ; Online: Gene-metabolite annotation with shortest reactional distance enhances metabolite genome-wide association studies results.

    Baron, Cantin / Cherkaoui, Sarah / Therrien-Laperriere, Sandra / Ilboudo, Yann / Poujol, Raphaël / Mehanna, Pamela / Garrett, Melanie E / Telen, Marilyn J / Ashley-Koch, Allison E / Bartolucci, Pablo / Rioux, John D / Lettre, Guillaume / Rosiers, Christine Des / Ruiz, Matthieu / Hussin, Julie G

    iScience

    2023  Volume 26, Issue 12, Page(s) 108473

    Abstract: Metabolite genome-wide association studies (mGWAS) have advanced our understanding of the genetic control of metabolite levels. However, interpreting these associations remains challenging due to a lack of tools to annotate gene-metabolite pairs beyond ... ...

    Abstract Metabolite genome-wide association studies (mGWAS) have advanced our understanding of the genetic control of metabolite levels. However, interpreting these associations remains challenging due to a lack of tools to annotate gene-metabolite pairs beyond the use of conservative statistical significance threshold. Here, we introduce the shortest reactional distance (SRD) metric, drawing from the comprehensive KEGG database, to enhance the biological interpretation of mGWAS results. We applied this approach to three independent mGWAS, including a case study on sickle cell disease patients. Our analysis reveals an enrichment of small SRD values in reported mGWAS pairs, with SRD values significantly correlating with mGWAS p values, even beyond the standard conservative thresholds. We demonstrate the utility of SRD annotation in identifying potential false negatives and inaccuracies within current metabolic pathway databases. Our findings highlight the SRD metric as an objective, quantitative and easy-to-compute annotation for gene-metabolite pairs, suitable to integrate statistical evidence to biological networks.
    Language English
    Publishing date 2023-11-14
    Publishing country United States
    Document type Journal Article
    ISSN 2589-0042
    ISSN (online) 2589-0042
    DOI 10.1016/j.isci.2023.108473
    Database MEDical Literature Analysis and Retrieval System OnLINE

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