BOLDINA, Galina, FOGEL, Paul, ROCHER, Corinne, BETTEMBOURG, Charles, LUTA, George und AUGÉ, Franck, 2022. A2 Sign: Agnostic Algorithms for Signatures—a universal method for identifying molecular signatures from transcriptomic datasets prior to cell-type deconvolution. Bioinformatics. 15 Februar 2022. Vol. 38, no. 4, p. 1015-1021. DOI 10.1093/bioinformatics/btab773.

Boldina, G., Fogel, P., Rocher, C., Bettembourg, C., Luta, G., Augé, F., 2022. A2 Sign: Agnostic Algorithms for Signatures—a universal method for identifying molecular signatures from transcriptomic datasets prior to cell-type deconvolution. Bioinformatics 38, 1015-1021. https://doi.org/10.1093/bioinformatics/btab773

Boldina, G., Fogel, P., Rocher, C., Bettembourg, C., Luta, G., & Augé, F. (2022). A2 Sign: Agnostic Algorithms for Signatures—a universal method for identifying molecular signatures from transcriptomic datasets prior to cell-type deconvolution. Bioinformatics, 38(4), 1015-1021. https://doi.org/10.1093/bioinformatics/btab773

Boldina G, Fogel P, Rocher C, Bettembourg C, Luta G, Augé F (2022) A2 Sign: Agnostic Algorithms for Signatures—a universal method for identifying molecular signatures from transcriptomic datasets prior to cell-type deconvolution.. Bioinformatics 38:1015-1021. https://doi.org/10.1093/bioinformatics/btab773

Boldina, Galina/ Fogel, Paul/ Rocher, Corinne/ Bettembourg, Charles/ Luta, George/ Augé, Franck, A2 Sign: Agnostic Algorithms for Signatures—a universal method for identifying molecular signatures from transcriptomic datasets prior to cell-type deconvolution., Bioinformatics 2022, 1015-1021.