Gene Loss

GlossID	Species	Gene Loss Mechanism	Loss Type	Lineage Specific	Evidence	Accession Nr.
GL_KPTG9P	Physeter catodon	LOF (frameshift, premature stop, ss)	Full	No	Genomic

Type	Excerpt	DOI
Functional	"BCO1 encodes an enzyme that catalyzes the cleavage of beta carotene into two retinal molecules (a form of vitamin A)"	10.1038/s41467-018-03667-1
Methodology & Validation	"For a gene to be classified as lost, we require that a lineage, which descends from an ancestor with an intact gene, exhibits several gene-inactivating mutations that most likely result in a non-functional protein. As gene-inactivating mutations, we consider frameshifting insertions and deletions, inframe stop codon mutations, and splice site-disrupting mutations. In addition, we consider the loss of exons or even entire genes, which could occur due to either large deletions in the genome or the accumulation of numerous mutations that destroy any sequence similarity. For all previously unknown gene losses presented here, we further confirmed the loss by validating the gene-inactivating mutations with unassembled sequencing reads from the respective species."	10.1038/s41467-018-03667-1
Timing of Loss	"Sup Table 5: 31 -37 Million years ago"	10.1038/s41467-018-03667-1
Phenotypic	"The loss of BCO1 provides new insights into the metabolism of the sperm whale by implying that this species is unable to convert carotenoids into vitamin A."	10.1038/s41467-018-03667-1

Sup Figure 13 & 20; Sup Table 4