TY - JOUR AU - Alexeev, Nikita AU - Alekseyev, Max A. PY - 2017 DA - 2017/05/24 TI - Estimation of the true evolutionary distance under the fragile breakage model JO - BMC Genomics SP - 356 VL - 18 IS - 4 AB - The ability to estimate the evolutionary distance between extant genomes plays a crucial role in many phylogenomic studies. Often such estimation is based on the parsimony assumption, implying that the distance between two genomes can be estimated as the rearrangement distance equal the minimal number of genome rearrangements required to transform one genome into the other. However, in reality the parsimony assumption may not always hold, emphasizing the need for estimation that does not rely on the rearrangement distance. The distance that accounts for the actual (rather than minimal) number of rearrangements between two genomes is often referred to as the true evolutionary distance. While there exists a method for the true evolutionary distance estimation, it however assumes that genomes can be broken by rearrangements equally likely at any position in the course of evolution. This assumption, known as the random breakage model, has recently been refuted in favor of the more rigorous fragile breakage model postulating that only certain “fragile” genomic regions are prone to rearrangements. SN - 1471-2164 UR - https://doi.org/10.1186/s12864-017-3733-3 DO - 10.1186/s12864-017-3733-3 ID - Alexeev2017 ER -