The Evolution of Unusually Small Amelogenin Genes in Cetaceans; Pseudogenization, X–Y Gene Conversion, and Feeding Strategy

Among extant cetaceans, mysticetes are filter feeders that do not possess teeth and use their baleen for feeding, while most odontocetes are considered suction feeders, which capture prey by suction without biting or chewing with teeth. In the present study, we address the functionality of amelogeni...

Full description

Saved in:
Bibliographic Details
Published in:Journal of molecular evolution 2020-03, Vol.88 (2), p.122-135
Main Authors: Kawasaki, Kazuhiko, Mikami, Masato, Goto, Mutsuo, Shindo, Junji, Amano, Masao, Ishiyama, Mikio
Format: Article
Language:English
Subjects:
Amelogenin
Amelogenin - genetics
Animal Genetics and Genomics
Animals
Base Sequence
Biological evolution
Biomedical and Life Sciences
Biting
Cell Biology
Cetacea
Cetacea - genetics
Chewing
Chromosomes
Conversion
Crystal growth
Dental enamel
Dental Enamel Proteins - genetics
Enamel
Evolution, Molecular
Evolutionary Biology
Evolutionary genetics
Exons
Feeders
Feeding
Feeding Behavior
Filter feeders
Gene Conversion
Genes
Introns
Life Sciences
Microbiology
Mutation
Original Article
Plant Genetics and Genomics
Plant Sciences
Prey
Sex chromosomes
Splice junctions
Suction
Teeth
X Chromosome - genetics
Y Chromosome - genetics
Y gene
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Among extant cetaceans, mysticetes are filter feeders that do not possess teeth and use their baleen for feeding, while most odontocetes are considered suction feeders, which capture prey by suction without biting or chewing with teeth. In the present study, we address the functionality of amelogenin ( AMEL ) genes in cetaceans. AMEL encodes a protein that is specifically involved in dental enamel formation and is located on the sex chromosomes in eutherians. The X-copy AMELX is functional in enamel-bearing eutherians, whereas the Y-copy AMELY appears to have undergone decay and was completely lost in some species. Consistent with these premises, we detected various deleterious mutations and/or non-canonical splice junctions in AMELX of mysticetes and four suction feeding odontocetes, Delphinapterus leucas , Monodon monoceros , Kogia breviceps , and Physeter macrocephalus , and in AMELY of mysticetes and odontocetes. Regardless of the functionality, both AMELX and AMELY are equally and unusually small in cetaceans, and even their functional AMELX genes presumably encode a degenerate core region, which is thought to be essential for enamel matrix assembly and enamel crystal growth. Furthermore, our results suggest that the most recent common ancestors of extant cetaceans had functional AMELX and AMELY , both of which are similar to AMELX of Platanista minor . Similar small AMELX and AMELY in archaic cetaceans can be explained by gene conversion between AMELX and AMELY . We speculate that common ancestors of modern cetaceans employed a degenerate AMELX , transferred from a decaying AMELY by gene conversion, at an early stage of their transition to suction feeders.
ISSN:0022-2844
1432-1432
DOI:10.1007/s00239-019-09917-0