CLIMGeno V.2.0
Climate x Genetic association GWAS browser
SNPfold CC:
The SNPfold algorithm (Halvorsen et al., 2010) considers the ensemble of structures predicted by the RNA partition functions of RNAfold (Bindewald & Shapiro, 2006) for each reference and alternative sequence and quantifies structural differences between these ensembles by calculating a Pearson correlation coefficient on the base-pairing probabilities between the two sequences. The closer this correlation coefficient is to 1, the less likely it is that the RNA structure is changed by the SNP. The creators of SNPfold note (Corley et al., 2015) that for genome-wide prediction, the bottom 5% of the correlation coefficient values (corresponding in this CLIMtools dataset to a correlation coefficient of 0.445) are most likely to be riboSNitches and the top 5% of correlation coefficient values (corresponding in this CLIMtools dataset to a correlation coefficient of 0.99) are most likely to be non-riboSNitches. Correlation coefficients are provided for all SNPs within protein-coding genes, unless the SNP was located < 40 nt from a transcript end, in which case the correlation coefficient is indicated as “not calculated.” The correlation coefficient for SNPs within upstream regions are indicated as “non applicable.”
Please cite us in any publication that utilizes information from Arabidopsis CLIMtools:
-Ferrero‑Serrano,Á, Sylvia, MM, Forstmeier, PC, Olson, AJ, Ware, D,Bevilacqua, PC & Assmann, SM (2021). Experimental demonstration and pan‑structurome prediction of climate‑associated riboSNitches in Arabidopsis. Under review in Genome Biology.
-Ferrero-Serrano, Á & Assmann SM. Phenotypic and genome-wide association with the local environment of Arabidopsis. Nature Ecology & Evolution. doi: 10.1038/s41559-018-0754-5 (2019)
Considerations before using this tool
Explore FDR of any ExG association
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Contact us: clim.tools.lab@gmail.com
