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One of its tagging SNPs, rs532841 (r = 0.652, d′ = 0.955; Table S10), is a missense mutation causing the amino acid change from valine (V) to methoionine (M) at position 791 (V791M), and the exonic splicing enhancer or silencer (ESE/ESS) motif is predicted to be changed using FASTSNP (Yuan et al. 2006).
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Many of the SNPs (567) are predicted to be nonsynonymous changes, while the remaining are either synonymous (665) or in UTRs (582) (Additional file 3: Table S7).
Of the 78 single pair somatic alterations, we observed 34 alterations in coding regions; 23 were missense alterations and 11 were predicted to be synonymous changes (for example, no alteration of the predicted amino acid).
Sift scores in bold are predicted to be non-tolerated changes.
This variant has not been reported in any public population variant database and is predicted to be a 'tolerated' change by SIFT in silico analysis.
In contrast, Lys224Glu was predicted to be a tolerable change by the three scores, but exhibited null kinase activity, demonstrating the complementarity of those two approaches.
That means that for equivalent changes in caloric value, bats are predicted to be more sensitive to changes in concentration than to changes in volume (Fig. 5).
TGA is also predicted to be very sensitive to changes in the TFPI level.
HOFs are difficult to predict, and susceptible to be changed during the operational phase.
Coffee is predicted to be severely affected by climate change.
No amino acid changes were predicted to be deleterious.
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Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com