TY - JOUR AU - Delabre, Mattéo AU - El-Mabrouk, Nadia AU - Huber, Katharina T. AU - Lafond, Manuel AU - Moulton, Vincent AU - Noutahi, Emmanuel AU - Castellanos, Miguel Sautie PY - 2020 DA - 2020/05/26 TI - Evolution through segmental duplications and losses: a Super-Reconciliation approach JO - Algorithms for Molecular Biology SP - 12 VL - 15 IS - 1 AB - The classical gene and species tree reconciliation, used to infer the history of gene gain and loss explaining the evolution of gene families, assumes an independent evolution for each family. While this assumption is reasonable for genes that are far apart in the genome, it is not appropriate for genes grouped into syntenic blocks, which are more plausibly the result of a concerted evolution. Here, we introduce the Super-Reconciliation problem which consists in inferring a history of segmental duplication and loss events (involving a set of neighboring genes) leading to a set of present-day syntenies from a single ancestral one. In other words, we extend the traditional Duplication-Loss reconciliation problem of a single gene tree, to a set of trees, accounting for segmental duplications and losses. Existency of a Super-Reconciliation depends on individual gene tree consistency. In addition, ignoring rearrangements implies that existency also depends on gene order consistency. We first show that the problem of reconstructing a most parsimonious Super-Reconciliation, if any, is NP-hard and give an exact exponential-time algorithm to solve it. Alternatively, we show that accounting for rearrangements in the evolutionary model, but still only minimizing segmental duplication and loss events, leads to an exact polynomial-time algorithm. We finally assess time efficiency of the former exponential time algorithm for the Duplication-Loss model on simulated datasets, and give a proof of concept on the opioid receptor genes. SN - 1748-7188 UR - https://doi.org/10.1186/s13015-020-00171-4 DO - 10.1186/s13015-020-00171-4 ID - Delabre2020 ER -