PhyloAcc

From UFRC
Revision as of 20:53, 18 May 2021 by Maxprok (talk | contribs) (Created page with "Category:SoftwareCategory:Phylogenetics {|<!--CONFIGURATION: REQUIRED--> |{{#vardefine:app|phyloacc}} |{{#vardefine:url|https://github.com/xyz111131/PhyloAcc}} <!--CON...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search

Description

phyloacc website  

This is a software to detect the shift pattern of DNA substitution rate of a genomic region and identify genomic elements accelerated in some specific species from a set of conserved elements. The underlying model assumes a latent discrete state (Z) of relative substitution rate of each branch on the phylogeny which can be neutral, conserved and accelerated. For each genomic element, it will start from a neutral or conserved state at the common ancestor of the phylogeny, transit to conserved state if not yet being conserved and then reach an accelerated state in some lineages. Our method utilizes adaptive collapsed Gibbs sampling to obtain the pattern of substitution rate shifts (posterior distribution of Z) as well as relative substitution rates of conserved and accelerated state. To identify DNA elements with accelerating on specific branches, we compare marginal likelihoods under three models: null model (M0) where all branches are neutral or conserved; accelerated model (M1) in which branches leading to target species are accelerated; and full model (M2), with no constraints on latent states. Then we use two Bayes factors: between M1 and M0 (BF1) and between M1 and M2 (BF2) as criteria to identify DNA elements accelerated exclusively in target lineages.

Environment Modules

Run module spider phyloacc to find out what environment modules are available for this application.

System Variables

  • HPC_PHYLOACC_DIR - installation directory
  • HPC_PHYLOACC_BIN - executable directory




Citation

If you publish research that uses phyloacc you have to cite it as follows:

Zhirui Hu, Timothy B Sackton, Scott V. Edwards, Jun S. Liu: A hierarchical Bayesian model for detecting convergent rate changes of conserved noncoding elements on phylogenetic trees, bioRxiv, 2018. https://www.biorxiv.org/content/early/2018/02/22/260745.1