Table 3.
Conservation of the human ACTN1 residues Thr257, Val328, Gln329, Lys324, Lys398, Ala432, Arg450, His622, Gln719, and Met748 in orthologs
| Species | UniProt ID | Residues | Identity rate (%) | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ACTN1 | Rod domain | |||||||||||||
| Human | Homo sapiens | P12814 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | Reference | Reference |
| Chimpanzee | Pan troglodytes | H2RDW7 | T244 | V315 | K311 | Q316 | K385 | A419 | R437 | H609 | Q706 | M735 | 99.8 | 100.0 |
| Macaque | Macaca mulatta | H9YUP4 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | 99.9 | 100.0 |
| Dog | Canis lupus familiaris | E2QY08 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | 99.3 | 99.3 |
| Cow | Bos taurus | Q3B7N2 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | 99.4 | 99.3 |
| Mouse | Mus musculus | Q7TPR4 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | 99.2 | 99.3 |
| Rat | Rattus norvegicus | Q6T487 | T257 | V328 | K324 | Q329 | K398 | A432 | R450 | H622 | Q719 | M748 | 99.3 | 99.3 |
| Zebrafish | Danio rerio | B8JHU4 | T267 | V338 | K334 | Q339 | K408 | A442 | R460 | H632 | Q729 | M758 | 93.4 | 91.9 |
| Xenopus | Xenopus tropicalis | F7B6G0 | T255 | V326 | K322 | Q327 | K396 | A430 | R448 | H620 | Q717 | M746 | 94.9 | 93.2 |
Note: The amino‐acid sequence of human ACTN1 protein was compared to orthologs using Clustal OMEGA (http://www.ebi.ac.uk/Tools/msa/clustalo/). The novel variations reported in this study alter the residues Thr257, Val328, Lys324, Gln329, Lys398, Ala432, Arg450, His622, Gln719, and Met748. The table gives the corresponding residue in eight other species. Identity rate is provided for the entire ACTN1 sequence (penultimate column) and for the rod domain sequence (last column), showing that ACTN1 sequence and its rod domain are highly conserved between these species.