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| research:publications [2024/04/03 12:59] – mikael | research:publications [2024/04/03 13:00] – mikael | ||
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| - Tule S, Foley G, Zhao C, Forbes M and Bodén M. (Accepted) Optimal Phylogenetic Reconstruction of Insertion and Deletion Events. // | - Tule S, Foley G, Zhao C, Forbes M and Bodén M. (Accepted) Optimal Phylogenetic Reconstruction of Insertion and Deletion Events. // | ||
| - | - Balderson B, Fane M, Harvey TJ, Piper M, Smith A and Bodén M. (Accepted) Systematic analysis of the Transcriptional Landscape of Melanoma Reveals Drug-target Expression Plasticity. //Briefings in Functional Genomics//. DOI [[https:// | + | - Balderson B, Fane M, Harvey TJ, Piper M, Smith A and Bodén M. (2024) Systematic analysis of the Transcriptional Landscape of Melanoma Reveals Drug-target Expression Plasticity. //Briefings in Functional Genomics//. DOI [[https:// |
| - Teshima M, Sutiono S, Döring M, Beer B, Boden M, Schenk G and Sieber V (2023) Development of a Highly Selective NAD+-Dependent Glyceraldehyde Dehydrogenase and its Application in Minimal Cell-Free Enzyme Cascades. // | - Teshima M, Sutiono S, Döring M, Beer B, Boden M, Schenk G and Sieber V (2023) Development of a Highly Selective NAD+-Dependent Glyceraldehyde Dehydrogenase and its Application in Minimal Cell-Free Enzyme Cascades. // | ||
| - Balderson B, Piper M, Thor S and Bodén M. (2023) Cytocipher detects significantly different populations of cells in single cell RNA-seq data. // | - Balderson B, Piper M, Thor S and Bodén M. (2023) Cytocipher detects significantly different populations of cells in single cell RNA-seq data. // | ||