# Intron turnover of slc26a1 and slc26a2 and convergence of intron insertion sites

**Authors:** Kota Torii, Chihiro Ota, Ayumi Nagashima, Masaki Kajikawa, Akira Kato

PMC · DOI: 10.1038/s41598-025-15147-w · Scientific Reports · 2025-08-16

## TL;DR

This paper studies how introns in two genes evolved differently in ray-finned fish, showing lineage-specific gains and convergent insertion sites.

## Contribution

The study reveals lineage-specific intron gains and convergent insertion sites in slc26a1 and slc26a2 genes among ray-finned fish.

## Key findings

- Eurypterygii ray-finned fish have seven and four exons in slc26a1 and slc26a2, suggesting intron gains in their ancestor.
- Notothenioid slc26a2 has six exons, indicating two intron insertions via transposon-like sequences.
- Newly acquired introns in Eurypterygii are positioned similarly to other slc26 family members, showing convergence.

## Abstract

Intron gain and loss are rare events in vertebrates; however, comparative genome analysis of elephant sharks, tetrapods, and teleosts revealed a higher level of intron turnover in teleosts. slc26a1 and slc26a2 are members of the anion-exchanger gene family. Human, zebrafish, and Japanese pufferfish slc26a1 consist of two, two, and seven exons, respectively, and slc26a2, two, three, and four exons, respectively. To better understand intron turnover in teleosts, we analyzed the exon–intron organization of slc26a1 and slc26a2 in 81 vertebrates, including 62 ray-finned fish. In most Eurypterygii, which comprise the majority of the Neoteleostei and include Acanthomorpha, Aulopiformes, and Myctophiformes, slc26a1 and slc26a2 have seven and four exons, respectively, whereas those of most other ray-finned fishes consist of two and three exons, respectively, suggesting that intron gain occurred in both slc26a1 and slc26a2 of the Eurypterygii ancestor. In addition, notothenioid slc26a2 has six exons, suggesting that two introns were inserted into the notothenioid ancestor. The two newly acquired introns in the notothenioid consist of transposon-like sequences, suggesting that they were generated via transposon insertion. The positions of some of the newly acquired introns of slc26a1 and slc26a2 in Eurypterygii are identical or very close to those of other slc26 members. These results demonstrate the lineage-specific intron gains of slc26a1 and slc26a2 in ray-finned fish and convergence at the insertion sites of some of the newly acquired introns.

## Linked entities

- **Genes:** SLC26A1 (solute carrier family 26 member 1) [NCBI Gene 10861], SLC26A2 (solute carrier family 26 member 2) [NCBI Gene 1836]
- **Species:** Homo sapiens (taxon 9606), Danio rerio (taxon 7955)

## Full-text entities

- **Genes:** SLC26A2 (solute carrier family 26 member 2) [NCBI Gene 1836] {aka D5S1708, DTD, DTDST, EDM4, MST153, MSTP157}, SAT1 (spermidine/spermine N1-acetyltransferase 1) [NCBI Gene 6303] {aka DC21, KFSD, KFSDX, SAT, SSAT, SSAT-1}, TNKS (tankyrase) [NCBI Gene 8658] {aka ARTD5, PARP-5a, PARP5A, PARPL, TIN1, TINF1}, SLC26A3 (solute carrier family 26 member 3) [NCBI Gene 1811] {aka CLD, DRA}, slc26a2 [NCBI Gene 101169619], SLC26A1 (solute carrier family 26 member 1) [NCBI Gene 10861] {aka CAON, CAON1, EDM4, HYSULF, SAT-1, SAT1}, SLC26A6 (solute carrier family 26 member 6) [NCBI Gene 65010], slc26a2 [NCBI Gene 102347458], SLC26A7 (solute carrier family 26 member 7) [NCBI Gene 115111] {aka SUT2}
- **Diseases:** diastrophic dysplasia (MESH:C536170), renal sulfate wasting (MESH:D019282), painful (MESH:D010146), perichondritis (MESH:D007818), skeletal abnormalities (MESH:D009139), chondrodysplasia syndromes (MESH:D010009)
- **Chemicals:** BR002474 (-), Cl- (MESH:D002713), phosphate (MESH:D010710), HCO3- (MESH:D001639), oxalate (MESH:D010070), sulfate (MESH:D013431)
- **Species:** Chaenocephalus aceratus (blackfin icefish, species) [taxon 36190], Megalops atlanticus (tarpon, species) [taxon 7932], Nerophis ophidion (straightnose pipefish, species) [taxon 159077], Oryzias latipes (Japanese medaka, species) [taxon 8090], Scleropages formosus (Asian arowana, species) [taxon 113540], Neoteleostei (clade) [taxon 123365], Syngnathus typhle (broad-nosed pipefish, species) [taxon 161592], Gallus gallus (bantam, species) [taxon 9031], Petromyzon marinus (marine lamprey, species) [taxon 7757], Xenopus laevis (African clawed frog, species) [taxon 8355], Oncorhynchus mykiss (rainbow trout, species) [taxon 8022], Gadus morhua (Atlantic cod, species) [taxon 8049], Conger conger (European conger, species) [taxon 82655], Homo sapiens (human, species) [taxon 9606], Eptatretus burgeri (inshore hagfish, species) [taxon 7764], Syngnathinae (pipefishes, subfamily) [taxon 129914], Phyllopteryx taeniolatus (common seadragon, species) [taxon 161469], Actinopterygii (fishes, superclass) [taxon 7898], Osmerus eperlanus (European smelt, species) [taxon 29151], Coelacanthimorpha (lobe-finned fishes, clade) [taxon 118072], Eleginops maclovinus (Patagonian blennie, species) [taxon 56733], Trematomus bernacchii (emerald rockcod, species) [taxon 40690], Anguilla anguilla (European eel, species) [taxon 7936], Pogonophryne albipinna (species) [taxon 1090488], Hippocampinae (seahorses, subfamily) [taxon 129917], Anguilla japonica (Japanese eel, species) [taxon 7937], Eurypterygia (clade) [taxon 123366], Harpagifer antarcticus (Antarctic spiny plunderfish, species) [taxon 43256], Bovichtus diacanthus (species) [taxon 483258], Tilapia (genus) [taxon 8126], Hippocampus abdominalis (big-belly seahorse, species) [taxon 109274], Danio rerio (leopard danio, species) [taxon 7955], Notothenia rossii (marbled rockcod, species) [taxon 101497], Aplochiton taeniatus (species) [taxon 946358], Tetraodon nigroviridis (spotted green pufferfish, species) [taxon 99883], Mus musculus (house mouse, species) [taxon 10090], Galaxiiformes (galaxias and mudfish, order) [taxon 51241], Myxine glutinosa (Atlantic hagfish, species) [taxon 7769], Lepisosteus oculatus (spotted gar, species) [taxon 7918]
- **Mutations:** G10K

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC12357937