Opsins underground
Introduction
The genome article for the naked mole-rat (Heterocephalus glaber) appeared in Nature in October 2011. That paper made remarkable inroads into understanding slowed aging in this species, the longest-lived of all rodents. The mole-rat is thus an appropriate genomic model species to get at adaptations to aging processes.
As a hystricognath rodent (Euarchontoglires), mole-rat is only superficially related by convergent evolution to blind mole-rats (eg Spalax, murid rodent), lawn moles (Talpa: Laurasiathere insectivore), golden moles (Amblysomus: Afrotheres) or marsupial moles (Notoryctes). None of these species have comprehensive data sets that would allow comparison of opsin degeneration patterns but in some cases retinal anatomy has been studied.
Rodent lifespans range from a few years in mice and rats to nearly three decades in beavers, porcupines, and squirrels in addition to naked mole-rats. These species are in separate phylogenetic clades, implying slow aging (respectively fast-aging in other rodents?) has evolved on multiple occasions.
The mole-rat has quite an unusual life history, spending its life in dark hypoxic underground tunnels but in rare eusociality. The question arises as to what has happened to opsins and the many other components of the visual repertoire. Here it must be noted that "at lower temperatures, they bask in the shallow, more sun-warmed parts of their burrow systems" and that photos clearly show black eye spots implying melanin in the RPE (retinal pigmented epithelium).
This basking might also permit the photoisomerization step in the synthesis of vitamin D, though "intestinal calcium transport in mole-rats is independent of both genomic and non-genomic vitamin D" and vitamin D endrocrine receptors and hydroxylating enzymes are are present.
Photolyases, a class of flavo-enzymes involved in repair of UV-caused dna damage (thymine dimers), also utilize visible light in the reaction mechanism in bacteria. These enzymes are distantly homologous to mammalian CRY1 and CRY2 genes that entrain circadian rhythms perhaps via blue light reception in the retina but no longer repair dna. Light-driven magnetoreception has also been proposed in the subterranean mole-rat Cryptomys as well as human.
Opsin retention has been before in subterranean mammals, bats, dolphins, nocturnal primates and cave fish, with the outcome consistent with "use it or lose it" -- genes quickly degenerate by mutation as selective pressure for their maintenence ceases. Because the same genes are often used in both vision and hearing, utility in one system could maintain a given gene in both. Subterranean animals often have greatly reduced hearing and vision.
The mole-rat, like most placental mammals, has genetic potential for two-color cone vision plus dim-light rhodopsin in addition to five other opsins (peropsin, neuropsin, melanopsin, encephalopsin and rgropsin whose anatomical sites of expression (in the absence of mole-rat data) are likely the same as in mouse. The functions of these other opsins -- with the exception of rhabdomeric melanopsin -- are poorly understood but must be important because of their long history of conservation. The types and distribution of cone cells -- notably cone cell sharing -- in the mole-rat retina has not yet been determined.
The genome of last common ancestor of living amniotes contained a remarkable 21 opsins (defined as full length paralogs to rhodopsin with covalently bound retinoid at lysine-296). However by the time of earliest mammals, 9 of these opsins had already been lost; an additional two were lost in placental mammals. In terms of rod and cone opsins, mammals originally had 4-color vision along with colored oil droplet wavelength filters like lizards, turtles and birds still do.
Degeneration of the mammalian retina was the subject of a 1942 book by Gordon Walls. Although opsin were not sequenced until 50 years later, he anticipated their loss from detailed anatomical considerations. Walls proposed that mammals experienced a multi-million year bottleneck of deep forest nocturnality (rather than cave, marine or subterranean lifestyle) during their evolution and attributed opsin loss to loss of darwinian selection. Cone opsin loss has been previously studied in marine mammals (dolphin SWS1 opsin pseudogenized) and fruit bats (again SWS1 loss).
The figure above -- derived from exhaustive opsin gene family annotation in all available genome projects -- shows that the immediate rodent ancestor of naked mole-rat (NMR) had eight phylogenetically expected opsins, as mouse does today. The Nature article addresses the opsin portfolio of mole-rat but constrained by article size limits and the many other genes deserving commentary.
According to the article,
"We further examined the molecular basis for poor visual function and small eyes in the NMR (naked mole-rat). Of the four vertebrate opsin genes (RHO, OPN1LW, OPN1MW and OPN1SW), two (OPN1LW and OPN1MW) were missing; this distinguishes the NMR from other rodents with dichromatic color vision, such as mice, rats and guinea pigs. However, the NMR has intact RHO (rhodopsin) and OPN4 (melanopsin), supporting the presence of rod-dominated retina and the capacity to distinguish light/dark cues."
"Of about 200 genes associated with visual perception (GO:0007601) in humans and mice, almost 10% were inactivated or missing. These mammalian genes participate in crystallin formation, phototransduction in the retina, retinal development, dark adaptation, night blindness and colour vision.... Inactivation of CRYBA4, a microphthalmia-related gene, may be associated with the small-sized eyes, whereas inactivation of CRYBA4 and CRYBB3 and a NMR-specific mutation in CRYGS may be associated with abnormal eye morphology. Thus, while some genes responsible for vision are preserved, poor visual function may be explained by deterioration of genes coding for various critical components of the visual system."
Gene Protein Description Inactivation event Time of gene loss OPN1MW MWS mid wavelength complete loss detected with synteny in NMR stem lineage OPN1LW LWS long wavelength complete loss detected with synteny in NMR stem lineage -------- OPN1SW SWS1 short wavelength none retained to present EHB08658 RHO RHO1 dim rhodopsin none retained to present EHB14304 OPN3 ENC encephalopsin none retained to present EHB09988 OPN4 MEL1 melanopsin none retained to present RRH PER peropsin none retained to present OPN5 NEUR1 neuropsin none retained to present RGR RGR rgropsin none retained to present
The first two lines of the article summary table are reproduced above. The other lines are derived here using Blat of mouse opsin repertoire queries. Note the first line OPN1MW is an outright error as this gene is well-known to be a tandem duplication restricted to higher primates with no applicability to other mammals. These duplicates never existed in any ancestor of mole-rat and so was not lost in mole-rat. The genome assembly has good quality in this region; no tandem duplication of opsins specific to the mole-rat lineage occurs.
The second line is also in error. The terminal exon of mole-rat OPN1LW (LWS) is readily recovered by Blat of mouse query against mole-rat assembly. This gene fragment occurs in mole-rat in the expected syntenic location IRAK1 MECP2 OPN1LW TEX28 with conserved strand orientations. Because of assembly gaps, this exon could be either part of an intact gene or be all that is left after a large deletion, as discussed in depth below.
The article does not discuss OPN1SW, the short wavelength opsin lost in marine mammal and bat. This cone opsin is however present in mole-rat and little diverged from available rodent orthologs. This suggests functionality, apart from a six residue deletion in exon 4 associated with a frameshift in a run of six thymidines TTTTTT that would preserve reading frame if seven. This may represent inability of short read technology to precede past a compositionally simple region and allow read tiling rather than an actual deletion. No assembly gap is shown in the relevant region (JH170314:3551709-3551938). This region affects the lysine to which retinal is attached the region has to be carefully re-examined.
The other six opsins expected in mole-rat are readily located and appear intact apart from a small number of missing exons. The annotation provided at GenBank for encephalopsin (OPN3) is erroneous. As in all genome assemblies, that of mole-rat has incomplete coverage. Here eight genes were expected and eight can be detected. However only 11 of the 50 expected exons are represented (78% exonic coverage). However if a deletion has taken out 5 exons of OPN1LW (LWS) then coverage is better -- 6 out of 50 missing of 88%.
This article will use standard protein acronyms when assigned gene names have little mneumonic value, do not follow HGNC rules for paralog nomenclature, and do not exist at all for ancestral opsins still present in other amniotes. The table above provides nomenclatural correspondences.
Does mole-rat have OPN1LW (LWS) or just a residual exon?
Since the only detectable OPN1LW exon of mole-rat lies in a region with several large assembly gaps corresponding to the missing exon placement in mouse genome, mole-rat may have a complete functional copy of OPN1LW. Alternatively, the observed genomic compression of this region relative to mouse suggests a large deletion occurred in mole-rat.
Although exons 3 and 4 of mole-rat OPN1LW may lie in assembly gaps, it is not clear why the penultimate exon 5 cannot be recovered by blastx from the region indicated by the green arrow in the figure below. Rapid lineage-specific gain and loss of retroposons can cause intronic and inter-genic regions to diverge very rapidly. Here, the sole correspondences of RepeatMasked sequence between mole-rat and mouse are indicted by the two small regions denoted het1/2 and mus1/2.
Conservation of the amino acid sequence of the sole exon present is high; only very recent pseudogenization is compatible with mostly mild substitutions and no internal stop codons or frameshifts. However the proline replacing arginine -- if the sequence here is correct -- is assuredly disabling in any imaging opsin in any metazoan. This arginine is slightly distal to the retinal binding motif and critical to opsin transducin signalling even in non-opsin GPCR.
OPN1LW LWS_hetGla FPNCILQLFGKKVEDSLELSSASKTEASSVSSVSPA* last mole-rat exon aligned to mouse F.NCIL.LFGKKV.DS.ELSS.SKTE.SSVSSVSPA* 6 differance out of 36 residues OPN1LW LWS_musMus FRNCILHLFGKKVDDSSELSSTSKTEVSSVSSVSPA*
The alignment below shows that exon 6 of mole-rat OPN1LW (LWS) has three unusual substitutions but overall is highly conserved as are all mammalian LWS sequences. The proline substituted for arginine at position two is a radical substitution both in terms of physical attributes and site-specific conservation. At the dna level, this represents a CpG hotspot mutation, CGA to CCA. Glutamate for aspartate is a mild substitution in many proteins but not at this site as it is tolerated only in guinea pig and rabbit. It is a transversion GAT to GAG here. Leucine for serine is again an extreme change in amino acid properties at a site not tolerating variation. It arose here as a CTT to CTC transversion in the split codon box of these six-codon amino acids. This region of the LWS protein constitutes the cytoplasmic tail with the usual seven-transmembrane GPCR structure.
The genomic sequence here represents a single male individual. The fragment-only haplotype and these substitutions may not be representative of the overall mole-rat population. Since mole-rats have standard placental XY sex determination and this gene always lies on mammalian chromosome X, males cannot have a compensatory normal copy. However male color blindness is common in other species including human.
In the scenario of balanced polymorphism at this locus, females of a species might attain a measure of trichromatic vision whereas males could not. Should the balancing polymorphism be this deletional pseudogene, the male population would be an equal mixture of functioning and non-functioning at this locus whereas only a quarter of females would. This conceivably could correlate with mole-rats living in large colonies with a single breeding queen.
Sole exon of mole-rat OPN1LW (LWS) Difference alignment relative to other mammals Explanation of genus species codes LWS_hetGla FP NCILQLFGKKVEDSLELSSASKTEASSVSSVSPA LWS_hetGla FPNCILQLFGKKVEDSLELSSASKTEASSVSSVSPA Heterocephalus glaber (naked_molerat) LWS_musMus FRNCILHLFGKKVDDSSELSSTSKTEVSSVSSVSPA LWS_musMus .R....H......D..S....T....V......... Mus musculus (mouse) LWS_ratNor FRNCILQLFGKKVDDSSELSSTSKTEVSSVSSVSPA LWS_ratNor .R...........D..S....T....V......... Rattus norvegicus (rat) LWS_nanEhr FQNCILQLFGKKVDDSSELSSTSKTEASSVSSVSPA LWS_nanEhr .Q...........D..S....T.............. Nannospalax ehrenbergi (mole_rat) LWS_speTri FRNCILQLFGKKVDDTSELSSASRTEASSVSSVSPA LWS_speTri .R...........D.TS......R............ Spermophilus tridecemlineatus (squirrel) LWS_cavPor FRNCILQLFGKKVEDSSELSSTSRTEASSVSSVSPA LWS_cavPor .R..............S....T.R............ Cavia porcellus (guinea_pig) LWS_oryCun FRNCILQLFGKKVEDSSELSSASRTEASSVSSVSPA LWS_oryCun .R..............S......R............ Oryctolagus cuniculus (rabbit) LWS_homSap FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_homSap .R...........D.GS.........V......... Homo sapiens (human) LWS_panTro FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_panTro .R...........D.GS.........V......... Pan troglodytes (chimp) LWS_gorGor FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_gorGor .R...........D.GS.........V......... Gorilla gorilla (gorilla) LWS_ponPyg FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_ponPyg .R...........D.GS.........V......... Pongo pygmaeus (orang_sumatran) LWS_nomLeu FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_nomLeu .R...........D.GS.........V......... Nomascus leucogenys (gibbon) LWS_macMul FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_macMul .R...........D.GS.........V......... Macaca mulatta (rhesus) LWS_macFas FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_macFas .R...........D.GS.........V......... Macaca fascicularis (macaque) LWS_papHam FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_papHam .R...........D.GS.........V......... Papio hamadras (baboon) LWS_calJac FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_calJac .R...........D.GS.........V......... Callithrix jacchus (marmoset) LWS_cebCap FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_cebCap .R...........D.GS.........V......... Cebus capucinus (monkey) LWS_ateJef FRNCILQLFGKKVDDGSELSSASKTEVSSVSSVSPA LWS_ateJef .R...........D.GS.........V......... Ateles geoffroyi (monkey) LWS_otoGar FRNCILQLFGKKVDDSSELSSTSKTEVSSVSSVSPA LWS_otoGar .R...........D..S....T....V......... Otolemur garnettii (bushbaby) LWS_otoCra FRNCILQLFGKKVDDSSELSSTSKTEVSSVSSVSPA LWS_otoCra .R...........D..S....T....V......... Otolemur crassicaudatus (bushbaby)full LWS_micMur FRNCILQLFGKKVDDGSELSSTSKTEVSSVSSVSPA LWS_micMur .R...........D.GS....T....V......... Microcebus murinus (mouse_lemur) LWS_tupBel FRNCILQLFGKKVDDSSELSSASRTEASSVSSVSPA LWS_tupBel .R...........D..S......R............ Tupaia belangeri (tree_shrew)full LWS_canFam FRNCILQLFGKKVDDSSELSSASRTEASSVSSVSPA LWS_canFam .R...........D..S......R............ Canis familiaris (dog) LWS_phoVit FRNCILQLFGKKVDDSSELSSASKTEASSVSSVSPA LWS_phoVit .R...........D..S................... Phoca vitulina (seal) LWS_felCat FRNCIMQLFGKKVDDGSELSSASRTEASSVSSVSPA LWS_felCat .R...M.......D.GS......R............ Felis catus (cat) LWS_bosTau FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVSPA LWS_bosTau .R...........D..S....V.............. Bos taurus (cow) LWS_turTru FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVSPA LWS_turTru .R...........D..S....V.............. Tursiops truncatus (dolphin) LWS_delDel FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVSPA LWS_delDel .R...........D..S....V.............. Delphinus delphis (dolphin) LWS_gloMel FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVTPA LWS_gloMel .R...........D..S....V...........T.. Globicephala melas (pilot_whale) LWS_susScr FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVSPA LWS_susScr .R...........D..S....V.............. Sus scrofa (pig) LWS_equCab FRNCILQLFGKKVDDSSELSSVSKTEASSVSSVSPA LWS_equCab .R...........D..S....V.............. Equus caballus (horse) LWS_myoLuc FRNCILQLFGKRVDDSSELSSTSRTEASSVSSVSPA LWS_myoLuc .R.........R.D..S....T.R............ Myotis lucifugus (brown LWS_pteVam FRNCILQLFGKKVDDSSELSSSSKTEASSVSSVSPA LWS_pteVam .R...........D..S....S.............. Pteropus vampyrus (flying_fox) LWS_loxAfr FRNCILQLFGKKVDDSSELSSASKTEASSVSSVSPA LWS_loxAfr .R...........D..S................... Loxodonta africana (elephant) LWS_triMan FRNCILQLFGKKVDDGSELSSASKTEASSVSSVSPA LWS_triMan .R...........D.GS................... Trichechus manatus (manatee) LWS_echTel FRNCILQLFGKKVDDSSELSSTSRTEASSVSSVSPA LWS_echTel .R...........D..S....T.R............ Echinops telfairi (tenrec) LWS_proCap FRNCILQLFGKKVDDSSELSSTSKMEASSASSVSPA LWS_proCap .R...........D..S....T..M....A...... Procavia capensis (hyrax) LWS_monDom FRTCILQLFGKKVDDGSEVSSTSKTEGSSVSSVAPA LWS_monDom .RT..........D.GS.V..T....G......A.. Monodelphis domesticus (opossum) LWS_didAur FRTCILQLFGKKVDDGSEVSSTSKTEVSSVSSVAPA LWS_didAur .RT..........D.GS.V..T....V......A.. Didelphis aurita (big-eared LWS_tarRos FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVAPA LWS_tarRos .RT..........D.GS.V..T.R..V......A.. Tarsipes rostratus (honey LWS_macEug FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVAPA LWS_macEug .RT..........D.GS.V..T.R..V......A.. Macropus eugenii (wallaby) LWS_setBra FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVPA- LWS_setBra .RT..........D.GS.V..T.R..V......PA- Setonix brachyurus (quokka) LWS_cerCon FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVAPA LWS_cerCon .RT..........D.GS.V..T.R..V......A.. Cercartetus concinnus (pygmy LWS_smiCra FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVAPA LWS_smiCra .RT..........D.GS.V..T.R..V......A.. Sminthopsis crassicaudata (dunnart) LWS_myrFas FRTCILQLFGKKVDDGSEVSSTSRTEVSSVSSVAPA LWS_myrFas .RT..........D.GS.V..T.R..V......A.. Myrmecobius fasciatus (numbat) LWS_isoObe FRTCILQLFGKKVDDGSEVSGTSRTEVSSVSSVAPA LWS_isoObe .RT..........D.GS.V.GT.R..V......A.. Isoodon obesulus (bandicoot) LWS_ornAna FRNCIMQLFGKKVDDGSELSSTSRTEVSSVSSVSPA LWS_ornAna .R...M.......D.GS....T.R..V......... Ornithorhynchus anatinus (platypus) LWS_tacAcu FRTCILQLFGKKVDDGSEVSSTSKTEVSSVSSVAPA LWS_tacAcu .RT..........D.GS.V..T....V......A.. Tachyglossus aculeatus (echidna)
Within the broader context of imaging opsin comparative genomics, the glutamate/aspartate substitution is very common. While not without effects on interaction of the cytoplasmic tail with transducins, this change in mole-rat LWS is not likely to be disabling. The leucine/serine substitution is not located at a site important overall to imaging opsins; the reason it is invariant from lamprey to mouse/human in LWS is not known. The loss of arginine at 2nd position is completely disabling in any opsin (indeed any GCPR) because it is critical to the signalling mechanism.
P E L LWS_hetGla FPNCILQL--FGKKV---EDSLELSSASKTEAS --SVSSVSPA LWS_musMus KSATIYNPIIYVFMNRQFR NCILHL--FGKKV---DDSSELSSTSKTEVS --SVSSVSPA LWS_homSap KSATIYNPVIYVFMNRQFR NCILQL--FGKKV---DDGSELSSASKTEVS --SVSSVSPA LWS_monDom KSATIYNPIIYVFMNRQFR TCILQL--FGKKV---DDGSEVSSTSRTEVS --SVSSVAPA LWS_ornAna KSATIYNPIIYVFMNRQFR NCIMQL--FGKKV---DDGSELSSTSRTEVS --SVSSVSPA LWS_galGal KSATIYNPIIYVFMNRQFR NCILQL--FGKKV---DDGSEV-STSRTEVS SVSNSSVSPA LWS_anoCar KSATIYNPIIYVFMNRQFR NCIMQL--FGKKV---DDGSELSSTSRTEVS SVSNSSVSPA LWS_xenTro KSATIYNPIIYVFMNRQFR NCIYQL--FGKKV---DDGSEVSSTSRTEVS SVSNSSVSPA LWS_neoFor KSATIYNPIIYVFMNRQFR NCIYQL--LGKKV---DDGSELSSTSKTEVS SVSNSSVSPA LWS_takRub KSATIYNPVIYVFMNRQFR VCIMKL--FGKEV---DDGSEV-STSKTEVS -----SVAPA LWS_gasAcu KSATIYNPVIYVFMNRQFR SCIMQL--FGKEV---DDGSEV-STSKTEVS -----SVAPA LWS1_calMi KSSTIYNPIIYVFMNRQFR NCILQL--FGKKV---DDGSELSSTSKTDVS SVSNSSVSPA LWS2_calMi KSSTIYNPIIYVFMNRQFR NCILQL--FGKKV---DDGSELSSTSKTDVS SVSNSSVSPA LWS_petMar KGATIYNPIIYVFMNRQFR NCILQL--FGKKV---DDGSEVSSSSRTEVS SVSNSSVSPA LWS_letJap KSATIYNPVIYVFMNRQFR NCIMQL--FGKKV---DDGSEVSSASRTEVS SVSNSSISPA LWS_geoAus KSATIYNPIIYVFMNRQFR NCIMQL--FGKKV---DDGSEVSSSARTEVS SVSNSSVSPA P E L SWS1_hetGl KSSCVYNPIIYCFMNKQFR ACIMEL-VCRKSMA--DESDMSSS-QKTEVS AVSSSKVGPN SWS1_musMu KSSCVYNPIIYCFMNKQFR ACILEM-VCRKPMA--DESDVSGS-QKTEVS TVSSSKVGPH SWS1_homSa KSACIYNPIIYCFMNKQFQ ACIMKM-VCGKAMT--DESDTCSS-QKTEVS TVSSTQVGPN SWS1_monDo KSACVYNPIIYCFMNKQFH ACIMEM-VCRKPMT--DDSDVSSS-QKTEVS AVSSSQVGPT SWS1_smiCr KSACVYNPIIYCFMNKQFH ACIMEM-ICKKPMT--DDSETTSS-QKTEVS TVSSSQVGPS SWS1_tarRo KSACVYNPIVYWFMNKQFH ACIMEM-VCRKPMT--DDSEISSS-QKTEVS TVSSSQVGPS SWS1_taeGu KSSCVYNPIIYCFMNKQFR ACIMET-VCGRPMT--DDSEVSSSAQRTEVS SVSSSQVGPS SWS1_anoCa KSSCVYNPIIYCFMNKQFR ACILET-VCGKPMS--DESDVSSSAQKTEVS SVSSSQVSPS SWS1_utaSt KSACVYNPIIYCFMNKQFR ACIMET-VCGKPMT--DESDVSSSAQKTEVS SVSSSQVSPS SWS1_neoFo KSSFVYNPIIYCFMNKQFR ACIMQT-VFGKPMT--DDSDISSSG-KTEVS SVSSSQVNPS SWS1_galGa KSACVYNPIIYCFMNKQFR ACIMET-VCGKPLT--DDSDASTSAQRTEVS SVSSSQVGPT SWS1_xenLa KSSCVYNPIIYSFMNKQFR GCIMET-VCGRPMS--DDSSVSSTSQRTEVS TVSSSQVSPA SWS1_petMa KASCVYNPLIYSFMNKQFR ARIMET-VCGKFIT--DESETSSS--RTAVS SVSTSQVSPG SWS1_geoAu KASCVYNPLIYSFMNKQFR ACILET-VCGKPIT--DESETSSS--RTEVS SVSTTQMIPG SWS1_danRe KSSSVYNPLIYAFMNKQFN ACIMET-VFGKKI---DES--------SEVS SKTETSSVSA SWS1_oryLa KSSCVYNPLIYAFMNKQFN GCIMEM-VFGKKM---EEA--------SEVS SKTE-VSTDS P E L RHO1_hetGl KSSSIYNPVIYIMLNKQFR NCMLTTLCCGKNPLGDDD--ASATASKTETS -----QVAPA RHO1_musMu KSSSIYNPVIYIMLNKQFR NCMLTTLCCGKNPLGDDD--ASATASKTETS -----QVAPA RHO1_homSa KSAAIYNPVIYIMMNKQFR NCMLTTICCGKNPLGDDE--ASATVSKTETS -----QVAPA RHO1_bosTa KTSAVYNPVIYIMMNKQFR NCMVTTLCCGKNPLGDDE--ASTTVSKTETS -----QVAPA RHO1_monDo KSSSVYNPVIYIMMNKQFR TCMITTLCCGKNPLGDDE--ASATASKTETS -----QVAPA RHO1_ornAn KSSAIYNPVIYIMMNKQFR NCMLTTICCGKNPLGDDE--ASATASKTEQS SVSTSQVSPA RHO1_galGa KSSAIYNPVIYIVMNKQFR NCMITTLCCGKNPLGDEDTSAG----KTETS SVSTSQVSPA RHO1_anoCa KSSAIYNPVIYILMNKQFR NCMIMTLCCGKNPLGDEDTSAGT---KTETS TVSTSQVSPA RHO1_xenTr KSSAIYNPVIYIVLNKQFR NCLITTLCCGKNPFGDEEGSSAA-SSKTEAS SVSSSQVSPA RHO1_neoFo KTASVYNPVIYILMNKQFR NCMITTLCCGKNPFGDEETTSA-GTSKTEAS SVSSSQVSPA RHO1_latCh KSASFYNPVIYILLNKQFR NCMITTLCCGKNPFGDEDATSAAGSSKTEAS SVSSSSVSPA RHO1_takRu KSAALYNPVIYILLNRQFR NCMITTVCCGKNPFGDDDAATTV--SKTQSS SVSSSQVAPA RHO1_angAn KSSAIYNPLIYICLNSQFR NCMITTLFCGKNPFQEEE-GASTTASKTEAS SVSS--VSPA RHO1_conMy KSSALYNPMIYICMNKQFR HCMITTLCCGKNPFEEED-GASATSSKTEAS SVSSSSVSPA RHO1_calMi KSSALYNPLIYILLNKQFR NCMITTLCCGKNPFEEDE-STSAAASKTEAS SVSSSQVSPA RHO1_leuEr KSSAVYNPLIYILMNKQFR NCMITTICLGKNPFEEEE-STSASASKTEAS SVSSSQVAPA RHO1_petMa KTSALYNPIIYILMNKQFR NCMITTLCCGKNPLGDEDSGASTS--KTEVS SVSTSQVSPA RHO1_letJa KSSALYNPVIYILMNKQFR NCMITTLCCGKNPLGDDESGASTS--KTEVS SVSTSQVSPA RHO1_geoAu KSSALYNPVIYILMNKQFR NCMITTLCCGKNPLGDDDSGASTS--KTEVS SVSTSQVAPA P E L RHO2_galGa KSSSLYNPIIYVLMNKQFR NCMITTICCGKNPFGDEDVSSTVSQSKTEVS SVSSSQVSPA RHO2_taeGu KSSSLYNPIIYVLMNKQFR NCMITTICCGKNPFGDEETSSTVSQSKTEVS SVSSSQVSPA RHO2_podSi KSSSLYNPIIYVLMNKQFR NCMITTICCGKNPFGDDDVSSTVSQSKTEVS SISSSQVSPA RHO2_anoCa KSSSLYNPIIYVLMNKQFR NCMITTICCGKNPFGDEDVSSSVSQSKTEVS SVSSSQVSPA RHO2_gekGe KSSSIYNPIIYVLLNKQFR NCMVTTICCGKNPFGDEDVSSSVSQSKTEVS SVSSSQVAPA RHO2_pheMa KSSCIYNPIIYVLLNKQFR NCMVTTICCGKNPFGDEDASSSVSQSKTEVS SVSSSQVAPA RHO2_neoFo KSSALYNPIIYVLMNKQFR NCMVTTLCCGKNPFGDDDVSSSVSAGKTEVS SVSSSQVSPA RHO2_latCh KSSCLFNPIIYVLLNKQFR NCMITTLCCGKNPLGDDDTSSAVSQSKTDVS SVSSSQVSPA RHO2_takRu KSSALYNPVIYVLLNKQFR NCMLSTIGMGGAV--DDE--TSVSASKTEVS -------SVS RHO2_gasAc KSSALYNPVIYVLLNKQFR NCMLTTIGMGGMV--EDE--TSVSASKTEVS -------SVS RHO2_oreNi KSSALYNPIIYVLMNKQFR NCMLSTIGMGGMV--EDE--TSVSTSKTEVS -------SVS RHO2_hipHi KSSALYNPVIYVLLNKQFR NCMLSTIGMGGMV--EDE--SSVSASKTEVS -------SVS RHO2_mulSu KSSALYNPVIYVMMNKQFR NCILSAIGMGGMV--EDE--TSVSTSKTEVS -------TAS RHO2_pomMi KSSALYNPVIYVLMNKQFR NCMLSAVGMGGMV--DDE--TSVSASKTEVS -------SVS RHO2_oryLa KSSALFNPIIYILLNKQFR NCMLATIGMGGMV--EDE--TSVSTSKTEVS -------TAA RHO2a_danR KTSAVFNPIIYVLLNKQFR SCMLNTLFCGKSPLGDDE-SSSVSTSKTEVS -----SVSPA RHO2b_danR KASALFNPIIYVLLNKQFR SCMLNTLFCGKSPLGDDE-SSSVSTSKTEVS -----SVSPA RHO2c_danR KSSSIFNPIIYVLLNKQFR NCMLTTLFCGKNPLGDDE-SSTVSTSKTEVS -----SVSPA RHO2d_danR KTSALYNPVIYVLLNKQFR NCMLTTLFCGKNPLGDDE-SSTVSTSKTEVS -----SVSPA RHO2_calMi KSSVLYNPIIYILMNKQFR SSMITTVCCGKNPFGDDD-SSSVTSQSKTEVSSVSTSQVSPA RHO2_geoAu KSSVLYNPIIYVLLNKQFR TCMVTTLFCGKNPFGEDD-SSMVSTSKTEVS SVSSSQVSPS P E L SWS2_ornAn KASTIYNPIIYVFMNKQFR SCMLKLVFCGKSPFGDEDE-ISGSSQATQVS SVSSSQVSPA SWS2_anoCa KASTVYNPVIYVLMNKQFR SCMLKLIFCGKSPFGDEDD-VSGSSQATQVS SVSSSQVSPA SWS2_utaSt KASSVYNPVIYVFMNKQFR SCMLKLVFCGKSPFGDEDD-VSGSSQTTQVS SVSSSQVSPA SWS2_taeGu KASTVYNPIIYVFMNKQFR SCMLKLVFCGRSPFGDEDD-VSGSSQATQVS SVSSSQVSPA SWS2_neoFo KSSTVYNPLIYVFMNKQFR SCMMKLIFCGKSPFGDEDD-ASSASQSTQVS SVSSSQVAPA SWS2_galGa KSSTVYNPVIYVLMNKQFR SCMLKLLFCGRSPFGDDED-VSGSSQATQVS SVSSSHVAPA SWS2_xenTr KASTVYNPFIYIFMNRQFR SCMMKMIFCGKNPLGDDEE--TSVSGSTQVS SVSSSQIAPS SWS2_takRu KASTVYNPIIYVVLNKQFR SCMKKML---GMSGGDDEE-------SSSQS VTEVSKVSPS SWS2_gasAc KSSAVYNPVIYVLLNKQFR SCMMKML---GMGGGDDEE-------SSTSS VTEVSKVGPA SWS2_geoAu KASTVYNPVIYIFLNKQFR SCMMKTIFCGKNPLGDDED---ATSTTTQVS SVSTSQVAPA P E L
Mole-rat OPN1SW (SWS1) deletional frameshift
The mole-rat assembly exhibits an oddity in exon 4 of STS1 that -- if the sequence is accurate -- is more than sufficient to completely disable this opsin as it takes out the retinal binding site. Note defective opsins not only can still be expressed but also have adverse affects on cone health.
The context however is a string of 6 repeated thymidines tttttt below followed by deletions of 7 and then 3 basepairs relative to the closely related mouse sequence. Since the sequencing technique here involved short reads from an Illumina HiSeq 2000, the assembly may have stumbled in this region.
Below an extra T has been introduced to restore reading frame. This still leaves the retinal lysine followed by a phylogenetically unprecedented 3 bp deletion. The V in 4th position also conflicts with deep invariance. This requires too complex a mutational event or equally implausible multiple events at the same site. This region needs to be resequenced with longer read technology.
ttacggcttgtcaccatccccgccttcttttccaagagctcctgtgtctacaaccccatcatctactgcttcatgaataagcag mouse OPN1SW (SWS1) exon 4 L R L V T I P A F F S K S S C V Y N P I I Y C F M N K Q ttacggcttttttTcctc------ttctcccccaagagc---tgtgtttacaatcccatcatctactgcttcatgaacaagcag mole-rat extra T then 9 bp deletion L R L F F L F S P K S C V Y N P I I Y C F M N K Q
Below, the mole-rat sequence is compared to orthologs from other theran mammals to display anomalies in the deletion region. Otherwise, mole-rat sequences does not seem too unusual. This would require the putative frameshifting deletion to be extremely recent because otherwise the sequence would be much more diverged elsewhere -- and in a manner oblivious to the general sequence conservation pattern. This observation strongly favors sequence error in the TTTTTTT region.
SWS1_hetGla MSGEEDFYLFKNTSSVGPWDGSQYHIAPIWAFHLQAAFMGLVFFVGTPLNAIVLVATLQYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFFFGRHVCALEAFLGSVAGLVTGWSLAFLAFERYLVICKPFGNFRFSSKHALIVVLATWVIGIGVSIPPFFGWSR SWS1_musMus ....D.....Q.I........P...L..V...R.......F.................H.......................................L................................V.......SI..N.....M......I............... SWS1_ratNor ....DE....Q.I........P......V...........F...A......T......H.......................................L.........................................I..N.....T...I..T............... SWS1_criGri ....DE......I........P......V...........F..LA......T...V..R.......................S...............L................................I........I........M...V..T............... SWS1_cavPor ..E.........A........P...V..V...R.......I..CI.....G.......L.....................V..................L................M...................................................... SWS1_homSap MRKMS..E......I........P......V...Y.......T..LI.F....M......R................F....L......P..V...N...V.........G...T..................I.................T......T............... SWS1_oryCun RNTMS..E......L.T.R....P.....R-...........F..........M......R..............I..A...A......N..V...Y...V...F.......T..A.............L...II................L...V..T..V............ SWS1_ochPri RSTMS..E......L...A....P......................A......V......R..............I..A...A......N..LS..Y...VL..F..S....T..AT................I.................V.........V...M........ SWS1_panTro MRKMS..E......I........P......V...Y.......T..LI.F....M......R................F....L......P..V...N...V.........G...T..................I.................T......T............... SWS1_gorGor MRKMS..E......I.P......P......V...Y.......T..LI.F....M......R.......X........F....L......P..V...N...V.........G...T..................I.................T......T............... SWS1_ponAbe MRKMSD.E......I........P......V...Y.......T..L..L....M......R................F....L......P..V...N...V.........G...T..................I.................T......T............... SWS1_rheMac MRKMS..E......I...K....P......V...Y.......T..LA.F....M.....VR................F....L......P..VN..K...V.......F.....T..................I.................T......T............... SWS1_papHam MRKMS..E.F....I...K....P......V...Y.......T..LA.F....M.....VR................F....L......P..VN..K...V.......F.....T..................I.................T......T............... SWS1_calJac MSKMS..E......I........P......S..YY.......I..LI.L...TM.....VR.....H....V.....V....L......P..V.......V.........G...T..................I.................M...T..T............... SWS1_tarSyr MSKMS..E......I........P......S.V..I......V..S..I....M......H.R...................L.....LP......R...V.........G......................M............P..S.M......T......V........ SWS1_micMur MSKMS..E......L........P......V.T.Y...V...F...A.....VM......R..............L.F....S.....LP......R...L.........G...CA....I............V.............R...M......A............... SWS1_otoGar MSKMS..E......L........P...L..V...C.E.-...F...A.....VM......C....W...S....SL....I.N..L..LPI.....-...L..C.A....G..S..V...I.-........C.I.........C....P..M......TT...I..ST...... SWS1_tupBel ISKMS..E......A.L......P...L..V...........F..........S.....MR.R............I.F....Y......V..LN..........FI.G....M.T.....I.-........C.I.........C....P..M......TT...I..ST...... SWS1_vicPac ..KMS..E......I...K....P...L......R.......F..L.......T..I...R.R..................IY.M....C..V...Y...V...R...M......A.................II...............VM..V...I..V............ SWS1_turTru MSKMS..E.-....I--......P..RL..V.........T.F..V.....D.T......R.R..................IY......V...T......V........G....RT...L........V....II................M......T............... SWS1_bosTau MSKMS..E.L....I.L......P...L..V.......V...F..........T......R.R..................IY......I...T..Y...V.............CT.................II................M..V...T............... SWS1_equCab MSKMS..E.F.Y..I...R....P......V...R.....L.I..L..M...SL......R.....................V.....LI...N......V..P....F.S...T..................II................M......I...S........... SWS1_felCat MSKMSG.E......I.L......P......V.......V...F..........T......R.R...................Y.VS..SI...T...A..I.......W...M.CT...................................M......T............... SWS1_canFam MSKMSG.E......I.L......P......V.......V...F...A.....GT......R.....................Y..V.--.......Q...V..............T.................I.................M......T............... SWS1_myoLuc MSKMSG.E......I........P......V...........F...A......T......R...................................Q...V..............T.................I.V.....S................T............... SWS1_pteVam MSKMSG.E......I.L......P.H....V...........F..........T......R.R.................................Q...V..............T.................I.................M......T............... SWS1_eriEur INKMSG.E......I........P......L...........F...A.....SM..L...R.R.........................L.......K...I..PL...W......A.....S...........V.V.....S.....R...M......IM.V............ SWS1_sorAra .SKMSG.E......I.T......P......V...........F...A......T...P..R.R............................I....K...VI........T..A.A.................II................L...................... SWS1_loxAfr MSKMSG.E......I......G.P....G.V..........AF..........L......R.R............I......S......I...S..K...I...Y.......V....................I........I........M......T............... SWS1_monDom .....D.E......I........P......A....F.TV...F..CA......V......R.................C..I....A......S.SQ...I.......M.......................FI...........N....MM...................... SWS1_smiCra .....D.E......I.L......P...L..A....F.T....F...A..S..GV..I...R..............I..A..I..V.......VS.SQ...V.......M.G.....................FI...........N....MM......I............... SWS1_tarRos .....D.E.....DI........P......A....F.TT...F...A......V..I...R..............I..A..I..VI.......S.SQ...I.......M.......................FI................MM...................... SWS1_hetGla YIPEGLQCSCGPDWYTVGTKYRSEYYSWFLFIFCFIVPLSLICFSYSQLLRTLRAVAAQQQESATTQKAEREVSRMVVVMVGSFCVCYVPYAALAMYIVNNRNHGLDLRLFFL--FSPKS-CVYNPIIYCFMNKQFRACIMELVCRKSMADESDMSSSQKTEVSAVSSSKVGPN SWS1_musMus F.........................T.........I.....................................H..........L...........M............V.......KS....................L.M....P......V.G.......T........H SWS1_ratNor F.......................H.T.........I.........F...........................H..........L...........M............V.......KS....................L.M....P.T......G.......T........H SWS1_criGri F.........................T....L..........................................H..........L...........M............V.......KS......................M....PVT......G.....A.T........H SWS1_cavPor .M..............M........FA...................C.......T.......................................................V.......KS..I........................P........T................. SWS1_homSap F.......................S.T...................T....A.K.......................................F...M............V...S...KSA.I.............Q....KM..G.A.T....TC........T...TQ.... SWS1_oryCun F.........................T.........I...I.....A.............................................S....M............V.......KS.................G....M..G.P.T.D..V..A......T....R.... SWS1_ochPri FL........................T.........I.........A...G.........................................S................FV.......KSA................G....M..G.P.T.D..V..A......T....R.... SWS1_panTro F.......................S.T...................T....A.K.......................................F...M............V...S...KSA.I.............Q....KM..G.A.T....TC........T...TQ.... SWS1_gorGor F.......................S.T...................T....A.K.......................................F...M............V...S...KSA.I............VGPN..KM..G.A.T....TC........T...TQ.... SWS1_ponAbe F.......................S.T...................T....A.K.......................................F...M............V...S...KSA.I.............Q....KM..G.A.T....TC........T...TQ.... SWS1_rheMac F.......................S.T...................T....A.K.......................................F...M............V.......KSA.I.............Q.H..KM..G.A.T....I.........T....Q.... SWS1_papHam F.......................S.T...................T....A.K.......................................F...M............V.......KSA.I.............Q.H..KM..G.A.T....I.........T....Q.... SWS1_calJac ..A.......................T............A......A....A.K...........................................M............V.......KS..I......S............M..G.A.T....I.........T....Q.... SWS1_tarSyr F.........................T.........M.........A....A......................C..........L...........M............V...S...KSA.I.............Q.....M....A......T..........L...Q.S.. SWS1_micMur F................D........T....L..................QA.................................L........................V.......KSA...............Q.....M..G.A.T....T.......I.TF...Q...K SWS1_otoGar F...........NY.-M....YH...T..........LI......S....GAR.D...........H.......H........S.--..........M...C......L.V.......KSA...............Q.....M....ALT...NIF.P......IL...H...I SWS1_tupBel F.........................T............A..........GA........................LM..-................M.......I....V.......KSA.....................M....P.T...E.....R....T....Q.... SWS1_vicPac .L...................Y....T.......Y...............GA............S.........H...M......L..T................V....V.......KSA.....................M..G...T..............T....Q.... SWS1_turTru FA.......------......Y....T.......YT..............GVF.........A......G....HK..M......L..T............H...V...FV..S...PKSA...............Q.....M..G-P.T..........M...T....Q.... SWS1_bosTau FV...................Y....T.......Y...............GA............S.........H..........L..T................V....V.......KSA.....................M..G.P.T...EL.........T....Q.... SWS1_equCab F.................................................GA.............................................M...P.......FV.......KS......................M..G.A.I...EL.I.......T....Q.... SWS1_felCat F.........................T...................M...GA..V-------..S.......................T....M...M............V.......KSA.....................M..G...T.D.EV..........L...Q.... SWS1_canFam F.........................T...................L....A............S....................L..T....M...M............V.......KSA.....................M..G...TED.E..........T..P.Q.... SWS1_myoLuc F.........................T.......................GA............S....................L...........M............V.......KSA..................M..M..G...T..............TL...Q...S SWS1_pteVam F.........................T.......................GA............S....................L...........M............V.......KSA...............Q........G.P.T.........R....TL...Q.... SWS1_eriEur F....................H..S.T....L....A.........L..........V......S.............M......L..........F.....D.......V.......KSA........R............M..G...I.D........M...S..P.-ID.. SWS1_sorAra F.........................T.......................GA............S....................L...........M....D.......V.......KSA.....................ML.GR.VTED..TP........TL...Q.... SWS1_loxAfr FL........................T.......................GA.............................A...L...........M............V.......KSA................G....M..G..V...........M...T....Q.... SWS1_monDom F.........................T.........M..F...........A..........................M......L...........M...Q........V.......KSA...............H.....M....P.T.D..V..............Q...T SWS1_smiCra ..........................T.......................GA.................................L.......M...M............V.......KSA...............H.....MI.K.P.T.D.ETT........T....Q...S SWS1_tarRos .....................H....TG......................GA.................................L...........M............V.......KSA......V.W......H.....M....P.T.D.EI.........T....Q...S
Alignment of mole-rat to 4 other subterranean hystricognath rodents and lawn mole: SWS1_hetGla LQAAFMGLVFFVGTPLNAIVLVATLQYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFFFGRHVCALEAFLGSVAGLVTGWSLAFLAFERYLVICKPFGNFRFSSKHALIVVLATWVIGIGVSIPPFFGWSRYIPEGLQCSCGP SWS1_cteMag ...S...F...A.............K.......................V...S...........L...E..............................................M.................................. SWS1_cteTal ...S...F...A.............K.......................V...S...........L...E............--------------------------------------------------------------------- SWS1_spaCyn .......F...A.....................................................L..HQ........................L.....................M.................................. SWS1_octDeg .......F...A.....................................................L..HQ........................L.....................M.............................----- SWS1_cavPor .......I..CI.....G.......L.....................V.................L..HQ.............M........................................................M.......... SWS1_talEur ----------.A......T......R.R.........................L.......K...I..............A.................I..........------------------------------------------ cteTal Ctenomys talarum (tuco-tuco) ADF36522 Hystricognathi spaCyn Spalacopus cyanus (coruro) ADF36520 Hystricognathi octDeg Octodon degus (degu) ADF36519 Hystricognathi [lives in burrows but good vision] cavPor Cavia porcellus (guinea_pig) Hystricognathi [not subterranean but hystricognath] cteMag Ctenomys magellanicus (tuco-tuco) ADF36521 Hystricognathi talEur Talpa europaea (mole) ABV31135 Laurasitheres Insectivora
The place of mole-rats within rodent phylogeny
The issue here is how long has the selective pressure been relaxed on naked mole-rats. For that, close-in outgroups and a dated phylogenetic tree are needed. Seven other species have genome projects available and opsins can be extracted to obtain a baseline for mole-rat opsins and unusual properties they might have. Note guinea pig is the immediate outgroup to mole-rat among genome projects, not mouse or rat.
Unfortunately no genomes have been completed for species with convergent life histories such as blind mole rat (Spalax ehrenbergi) insectivore moles, African golden moles, or marsupial moles. Individual opsins are sometimes available for this species, importantly [www.ncbi.nlm.nih.gov/nuccore/AF309568,AF139726,AM748539 LWS, melanopsin and rhodopsin] for blind mole rat and four rhodopsin fragments for lawn moles.
Rodent opsin reference sequences
The comparative genomics of opsins have been studied to exhaustion: no variation in exon number or intron location or phasing occurs in any terrestrial vertebrate. The sequences below have one exon per row. The numbers 0 1 2 indicate the observed codon overhang (reading frame). These are deeply conserved within eumetazoans; mole-rat presents no new issues. Processed pseudogenes are absent in opsins, consistent with no gene expression of opsins in terminal germline cell lineages.
>RHO1_hetGla Heterocephalus glaber (naked molerat) RHO syn(-MBD4 +IFT122 +H1FOO -PLXND1) EHB14304 0 MNGTEGPNFYVPFSNITGMVRSPFEYPQYYLAEPWQFSMLAAYMFLLIVLGFPVNFLTLYVTVQHKKLRTPLNYILLNLAVADLFMVICGFTTTLYTSMHGYFVFGATGCNMEGFFATLG 1 2 GEIALWSLVVLAIERYMVVCKPMSNFRFGENHAIVGVAFTWVMALACAAPPLAGWSR 2 1 YIPEGMQCSCGIDYYTPKPEINNESFVIYMFVVHFTIPLVIIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIAFLICWVPYASVAMYIFTHQGSDFGPIFMTIPAFFAKSSSIYNPVIYIMMNKQ 0 0 FRNCMLTTICCGKSPLGDDEASTTASKTETSQVAPA* 0 >LWS_hetGla Heterocephalus glaber (naked molerat) OPN1LW syn(-IRAK1 -MECP2 -TEX28) 88% identical musMus, missing exons 1-5 because of assembly gaps 0 1 2 1 2 2 1 2 0 0 0 FPNCILQLFGKKVEDSLELSSASKTEASSVSSVSPA* 0 >SWS1_hetGla Heterocephalus glaber (naked molerat) OPN1SW syn(-FAM137A +SWS1 -CALU -NAG6 -FLNC) 89% identical musMus, frameshifting deletion 6aa exon 4 0 MSGEEDFYLFKNTSSVGPWDGSQYHIAPIWAFHLQAAFMGLVFFVGTPLNAIVLVATLQYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFFFGRHVCALEAFLGSVA 1 2 GLVTGWSLAFLAFERYLVICKPFGNFRFSSKHALIVVLATWVIGIGVSIPPFFGWSR 2 1 YIPEGLQCSCGPDWYTVGTKYRSEYYSWFLFIFCFIVPLSLICFSYSQLLRTLRA 0 0 VAAQQQESATTQKAEREVSRMVVVMVGSFCVCYVPYAALAMYIVNNRNHGLDLRLFTIPAFFSPKSCVYNPIIYCFMNKQ 0 0 FRACIMELVCRKSMADESDMSSSQKTEVSAVSSSKVGPN* 0 >MEL1_hetGla Heterocephalus glaber (naked molerat) OPN4 melanopsin AFSB01020105 0 MDTPSGPRVSPDPAQEPSFLATLSAPGRGDGTPSSLSTPGQLPPGNPT 0 0 AAGTQAAVRVPFSTADVPAHVHYTLGAVILLVGLTGMLGNLTVIYTFFR 2 1 RGLRTPANMFVINLAVSDFLMSFTQAPVFFTSSLYKRWLFGEA 2 2 GCEFYAFCGALFGITSMITLTAITLDRYLVITRPLATIGLASKRQAALVLLGIWLYALAWSLPPFFGW 1 2 sAYVPEGLLTSCSWDYMTFTPSVRSYTMLLFCFVFFLPLLIIIYCYVFIFRAIRETGR 2 1 AFESCGESPSRRRQWQRLRSEWKMAKIALLVILLFVLSWAPYSTVALVAFAG 2 1 HAHILTPSMSSVPAVIAKASAIHNPIIYAIAHPKYR 2 1 MAIVQHLPCLGLLLGVSGQRSLPSLSYRSTHRSRLSSQASDLSWISGRRRQESLGSESEV 0 0 GWTDTEAWGSAQQASERPPCGTGLEGWEARAHPKAQEWEAETPGK 0 0 TKGRLPSLDPQM* 0 >ENC_hetGla Heterocephalus glaber (naked molerat) OPN3 88% identical musMus, missing first exon 0 1 2 GIVSITTLTVLAYERYIRVVHARVINFSWAWKAITYIWLYSLAWAGAPLLGWNRYILDVHGLSCTVDWKSKDANDSSFVLFLFLGCLVVPMGVIAHCYGHILYSIRM 0 0 FSMLQLRCVEDLQTIQVMKILRYEKKVAKMCFLMVFIFLVCWMPYIVICFLVVNGYGHRVTPTVSVVSYLFAKSSTVYNPVIYTIMIRK 0 0 FRRSLLQLLCFRLLRCQQPAKDLPAVESEMQIRPIVMSQKDGDRPKKKVTFNSSSIIFIITSDESLSVDDSDRTSGSKVDTIQVRPL* 0 >PER_hetGla Heterocephalus glaber (naked molerat) RRH syn(-CFI +NOLA1 +EGF -ELOVL6) 79% identical musMus, missing exons 1,7 0 1 2 GLISILSNIIVLGIFVKYKELRTPTNAIIMNLALTDIGVSSIGYPMSAASYLHGSWKFGYPGCQ 0 0 VYAGLNIFFGMASIGLLTVIAVDRYLTICRPDI 1 2 GRRLTSTSYVSMILGAWINGLFWALMPIIGWASYAPDPTGATCTINWRKNDt 2 1 SFVSYTMTVIAVNFTGPLAVMFYCYFHVTWSIKHHATGNCPTFPNRDWSDQVDVTK 0 0 MSVVMILMFLVAWSPYSIVCLWASFGDPKKIPPSMAIIAPLFAKSSTFYNPCIYVIANKK 2 1 * 0 >NEUR1_hetGla Heterocephalus glaber (naked molerat) OPN5 94% identical musMus 0 MALNHTAPPQDERLPHYLQDEDPFVSKLSWEADLVAGFYLTII 1 2 GILSTCGNGYVLYMSSRRKKKLRPAEIMTINLAICDLGIS 1 2 VVGKPFTIISCFRHRWVFGWIGCRWYGWAGFFFGCGSLTTMTVVSLDRYLKICYLSY 1 2 GVWLKRKHAYICLAAIWAYVSFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASARGQVFILNILFFCLLLPMATIVFSYAKIIAKVKSSSKEVAHFDSRIHSSHVLEMKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPTLLAKSAAMYNPIIYQVIDYRFACCQNGGLKATKKKSLEDFR 2 1 LHTVTTVRKSSAVLEIHQEV* 0 >RGR_hetGla Heterocephalus glaber (naked molerat) RGR syn(+PCDH21 -LRIT1 -GRID1 -WAPAL) 74% identical musMus, missing exons 1 0 1 2 ALCGLSLNGLTIVSFCKIPELWTPRHLLVLSLALADSGLSLNTLIAAVSSLLR 2 1 RWPYGSGGCQTHGFQGFVTALASISGSAAIAWGHHQHYCT 1 2 GSQLAWSTAIRLVLFVWLSSAFWAALPLLGWGHYDYEPLGTCCTLDYSKRDR 2 1 NSTSFLFTMGFFSFLIPLFITFTSYQLMEQKLARSSRLQ 0 0 VNTSLPARTLMLCWGPYVFLHLYAVIADASSLSPKLQM 0 0 VPALIAKTVPTINAINYALGSKMGSRRPWQCLSLQRSKRD* 0 >RHO1_musMus Mus musculus (mouse) RHO syn(-MBD4 +IFT122 +H1FOO -PLXND1) 0 MNGTEGPNFYVPFSNVTGVVRSPFEQPQYYLAEPWQFSMLAAYMFLLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLAVADLFMVFGGFTTTLYTSLHGYFVFGPTGCNLEGFFATLG 1 2 GEIALWSLVVLAIERYVVVCKPMSNFRFGENHAIMGVVFTWIMALACAAPPLVGWSR 2 1 YIPEGMQCSCGIDYYTLKPEVNNESFVIYMFVVHFTIPMIVIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIFFLICWLPYASVAFYIFTHQGSNFGPIFMTLPAFFAKSSSIYNPVIYIMLNKQ 0 0 FRNCMLTTLCCGKNPLGDDDASATASKTETSQVAPA* 0 >RHO1_ratNor Rattus norvegicus (rat) 0 MNGTEGPNFYVPFSNITGVVRSPFEQPQYYLAEPWQFSMLAAYMFLLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLAVADLFMVFGGFTTTLYTSLHGYFVFGPTGCNLEGFFATLG 1 2 GEIGLWSLVVLAIERYVVVCKPMSNFRFGENHAIMGVAFTWVMALACAAPPLVGWSR 2 1 YIPEGMQCSCGIDYYTLKPEVNNESFVIYMFVVHFTIPMIVIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIFFLICWLPYASVAMYIFTHQGSNFGPIFMTLPAFFAKTASIYNPIIYIMMNKQ 0 0 FRNCMLTTLCCGKNPLGDDEASATASKTETSQVAPA* 0 >RHO1_cavPor Cavia porcellus (guinea_pig) 0 MNGTEGENFYIPFSNATGVVRSPFEYPQYYLAEPWQFSILAAYMFMLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLAVANLFMVLGGFTTTLYTSMNGYFVFGPTGCNLEGFFATLG 1 2 GEIALWSLVVLAIERYVVVCKPMSNFRFGENHAIMGVVFTWIMALACAAPPLVGWSR 2 1 YIPEGMQCSCGVDYYTLKSEVNHESFVIYMFVVYFTIPMIIIFFCYEQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIAFLICWVPYASVAAYIFTHQGSNFGPIFMTVPAFFAKSSSIYNPVIYIMMNKQ 0 0 FRNCMLTTICCGKNPLGDDEASTTVSKTETSQVAPA* 0 >RHO1_nanEhr Nannospalax ehrenbergi (mole-rat) AAG25707 MNGTEGPNFYVPFSNGTGVVRSPFEQPQYYLAEPWQFSMLAAYMFLLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLALADLFMVIGGFTTTFYTSLHGYFVFGPTGCNLEGFFATLG 1 2 GEIALWSLVVLAIERYVVVCKPMSNFRFGENHAITGVAFTWVMALACAVPPLVGWSR 2 1 YIPEGMQCSCGIDYYTLKPEVNNESFVIYMFVVHFTIPMIIIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIAFLICWVPYASVAMYIFTHQGSNFGPIFMTLPAFFAKSASIYNPVIYIMMNKQ 0 0 FRNCMLTTLCCGKNLLGDEEASPTASKTETSQVAPA* 0 >RHO1_criGri Cricetulus griseus (hamster) EGW12630 MNGTEGPNFYVPFSNATGVVRSPFEYPQYYLAEPWQFSMLAAYMFLLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLAVADLFMVFGGFTTTLYTSLHGYFVFGPTGCNLEGFFATLG 1 2 GEIALWSLVVLAIERYVVVCKPMSNFRFGENHAIMGVVFTWIMALACAAPPLVGWSR 2 1 YIPEGMQCSCGVDYYTLKPEVNNESFVIYMFVVHFTIPLIVIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVILMVVFFLICWVPYAGVAFYIFTHQGSNFGPIFMTLPAFFAKSSSIYNPVIYIMMNKQ 0 0 FRNCMLTTLCCGKNILGDDEASATASKTETSQVAPA* 0 >RHO1_oryCun Oryctolagus cuniculus (rabbit) MNGTEGPDFYIPMSNQTGVVRSPFEYPQYYLAEPWQFSMLAAYMFLLIVLGFPINFLTLYVTVQHKKLRTPLNYILLNLAVADLFMVLGGFTTTLYTSLHGYFVFGPTGCNVEGFFATLG 1 2 GEIALWSLVVLAIERYVVVCKPMSNFRFGENHAIMGVAFTWIMALACAAPPLVGWSR 2 1 YIPEGMQCSCGIDYYTLKPEVNNESFVIYMFVVHFTIPLIIIFFCYGQLVFTVKE 0 0 AAAQQQESATTQKAEKEVTRMVIIMVIAFLICWVPYASVAFYIFTHQGSNFGPIFMTIPAFFAKSSSIYNPVIYIMMNKQ 0 0 FRNCMLTTICCGKNPLGDDEASATASKTETSQVAPA* 0 >LWS_musMus Mus musculus (mouse) Opn1mw = OPN1LW syn(-IRAK1 -MECP2 -TEX28) 0 MAQRLTGEQTLDHYEDSTHASIFTYTNSNSTK 1 2 GPFEGPNYHIAPRWVYHLTSTWMILVVVASVFTNGLVLAATMRFKKLRHPLNWILVNLAVADLAETIIASTISVVNQIYGYFVLGHPLCVIEGYIVSLC 1 2 GITGLWSLAIISWERWLVVCKPFGNVRFDAKLATVGIVFSWVWAAIWTAPPIFGWSR 0 0 YWPYGLKTSCGPDVFSGTSYPGVQSYMMVLMVTCCIFPLSIIVLCYLQVWLAIRA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVFAYCLCWGPYTFFACFATAHPGYAFHPLVASLPSYFAKSATIYNPIIYVFMNRQ 0 0 FRNCILHLFGKKVDDSSELSSTSKTEVSSVSSVSPA* 0 >LWS_ratNor Rattus norvegicus (rat) 0 MAQQLTGEQTLDHYEDSTQASIFTYTNSNSTR 1 2 GPFEGPNYHIAPRWVYHLTSTWMILVVIASVFTNGLVLAATMRFKKLRHPLNWILVNLAVADLAETIIASTISVVNQIYGYFVLGHPLCVIEGYIVSLC 1 2 GITGLWSLAIISWERWLVVCKPFGNVRFDAKLATVGIVFSWVWAAVWTAPPIFGWSR 2 1 YWPYGLKTSCGPDVFSGTSYPGVQSYMMVLMVTCCIFPLSIIVLCYLQVWLAIRA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVFAYCLCWGPYTFFACFATAHPGYAFHPLVASLPSYFAKSATIYNPIIYVFMNRQ 0 0 FRNCILQLFGKKVDDSSELSSTSKTEVSSVSSVSPA* 0 >LWS_nanEhr Nannospalax ehrenbergi (mole_rat) 0 MAQQWAPQRLAGGQTQDSYEDSTQASLFTYTNSNSTR 1 2 GPFEGPNYHIAPRWVYHLTTTWMILVVVASIFTNGLVLVATMRFKKLRHPLNWILVNLAVADLAETIIASTISVVNQIYGYFVLGHPLCVIEGYTVSLC 1 2 GITGLWSLAIISWERWMVVCKPFGNVRFDAKLATMGITFAWVWAAVWTAPPVFGWSR 2 1 YWPYGLKTSCGPDVFSGTSYPGVQSYMVVLMITCCIIPLSIILLCYLQVWLAIRT 2 0 VAKQQKESESTQKAEKEVTHMVVVMVFAYCLCWGPYTFFVCFATAHPGYAFHPLVAALPAYFAKSATIYNPIIYVFMNRQ 0 0 FQNCILQLFGKKVDDSSELSSTSKTEASSVSSVSPA* 0 >LWS_speTri Spermophilus tridecemlineatus (squirrel) Ictidomys 0 MAQRWDPQRLAGGQPQDSHEDSTQSSIFTYTNSNATR 1 2 GPFEGPNYHIAPRWVYHITSIWMIIVVIASVFTNGLVLVATMKFKKLRHPLNWILVNLAIADLAETVIASTISVVNQFFGYFVLGHPLCVVEGYTVSVC 1 2 GITGLWSLAIISWERWLVVCKPFGNVRFDAKLAIVGIAFAWTWSAVWTAPPIFGWSR 2 1 YWPYGLKTSCGPDVFSGNSYPGVQSYMMVLMVTCCIIPLSIIILCYLQVWLAIRA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVLAYCLCWGPYASFACFATANPGYAFHPLVAAVPAYFAKSATIYNPVIYVFMNRQ 0 0 FRNCILQLFGKKVDDTSELSSASRTEASSVSSVSPA* 0 >LWS_sciCar Sciurus carolinensis (squirrel) frag 0 mAQRWDPQRLAGGQPQDSHEDSTQSSIFTYTNSNATR 1 2 GPFEGPNYHIAPRWVYHITSTWMIIVVIASVFTNGLVLVATMKFKKLRHPLNWILVNLAIADLAETVIASTISVVNQLYGYFVLGHPLCVVEGYTVSVC 1 2 GITGLWSLAIISWERWLVVCKPFGNMRFDAKLAIVGIAFSWIWSAVWTAPPIFGWSR 2 1 YWPYGLKTSCGPDVFSGTSYPGMQSYMMVLMVTCCIIPLSIIILCYLQVWLAIRA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVFAYCLCWGPYTFFACFATANPGYAFHPLVAALPAYFAKSATIYNPIyvfmnrq 0 0 * 0 >LWS_cavPor Cavia porcellus (guinea_pig) 0 MAQRWGPHALSGVQAQDAYEDSTQASLFTYTNSNNTR 1 2 GPFEGPNYHIAPRWVYHLTSAWMTIVVIASIFTNGLVLVATMRFKKLRHPLNWILVNLAVADLAETVIASTISVVNQVYGYFVLGHPLCVVEGYTVSLC 1 2 GITGLWSLAIISWERWLVVCKPFGNVRFDAKLAIVGIVFSWVWSAVWTAPPIFGWSR 2 1 YWPYGLKTSCGPDVFSGTSYPGVQSYMMVLMVTCCITPLSIIVLCYLHVWLAIRA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVLAYCLCWGPYAFFACFATANPGYSFHPLVAALPAYFAKSATIYNPIIYVFMNRQ 0 0 FRNCILQLFGKKVEDSSELSSTSRTEASSVSSVSPA* 0 >LWS_oryCun Oryctolagus cuniculus (rabbit) 0 MTQPWGPQMLAGGQPPESHEDSTQASIFTYTNSNSTR 1 2 GPFEGPNFHIAPRWVYHLTSAWMILVVIASVFTNGLVLVATMRFKKLRHPLNWILVNLAVADLAETVIASTISVVNQFYGYFVLGHPLCVVEGYTVSLC 1 2 GITGLWSLAIISWERWLVVCKPFGNVRFDAKLAIAGIAFSWIWAAVWTAPPIFGWSR 2 1 YWPYGLKTSCGPDVFSGTSYPGVQSYMMVLMVTCCIIPLSVIVLCYLQVWMAIPA 0 0 VAKQQKESESTQKAEKEVTRMVVVMVFAYCLCWGPYTFFACFATAHPGYSFHPLVAAIPSYFAKSATIYNPIIYVFMNRQ 0 0 FRNCILQLFGKKVEDSSELSSASRTEASSVSSVSPA* 0 >SWS1_cavPor Cavia porcellus (guinea_pig) Hystricognathi 0 MSEEEDFYLFKNASSVGPWDGPQYHVAPVWAFRLQAAFMGIVFCIGTPLNGIVLVATLLYKKLRQPLNYILVNVSLGGFLVCIFS MVTGWSLAFLAFERYLVICKPFGNFRFSSKHALIVVLATWVIGIGVSIPPFFGWSR 2 1 YMPEGLQCSCGPDWYTMGTKYRSEYFAWFLFIFCFIVPLSLICFSYCQLLRTLRT 0 0 VAAQQQESATTQKAEREVSRMVVVMVGSFCVCYVPYAALAMYIVNNRNHGLDLRLVTIPAFFSKSSCIYNPIIYCFMNKQ 0 0 FRACIMELVCRKPMADESDMSTSQKTEVSAVSSSKVGPN* >SWS1_cteTal Ctenomys talarum (tuco-tuco) ADF36522 Hystricognathi LQASFMGFVFFAGTPLNAIVLVATLKYKKLRQPLNYILVNVSLGGFLFCVFSVSTVFIASCHGYFLFGREVCALEAFLGSVA >SWS1_cteMag Ctenomys magellanicus (tuco-tuco) ADF36521 Hystricognathi LQASFMGFVFFAGTPLNAIVLVATLKYKKLRQPLNYILVNVSLGGFLFCVFSVSTVFIASCHGYFLFGREVCALEAFLGSVAGLVTGWSLAFLAFERYLVICKPFGNFRFSSKHALMVVLATWVIGIGVSIPPFFGWSRYIPEGLQCSCGP >SWS1_spaCyn Spalacopus cyanus (coruro) ADF36520 Hystricognathi LQAAFMGFVFFAGTPLNAIVLVATLQYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFLFGHQVCALEAFLGSVAGLVTGWSLAFLALERYLVICKPFGNFRFSSKHALMVVLATWVIGIGVSIPPFFGWSRYIPEGLQCSCGP >SWS1_octDeg Octodon degus (degu) ADF36519 Hystricognathi LQAAFMGFVFFAGTPLNAIVLVATLQYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFLFGHQVCALEAFLGSVAGLVTGWSLAFLALERYLVICKPFGNFRFSSKHALMVVLATWVIGIGVSIPPFFGWSRYIPEGLQ >SWS1_talEur Talpa europaea (mole) ABV31135 Laurasiathere Insectivora FAGTPLNATVLVATLRYRKLRQPLNYILVNVSLGGFLFCIFSVLTVFIASCKGYFIFGRHVCALEAFLGSAAGLVTGWSLAFLAFERYIVICKPFGNFR >SWS1_musMus Mus musculus (mouse) OPN1SW syn(-FAM137A +SWS1 -CALU -NAG6 -FLNC) 0 MSGEDDFYLFQNISSVGPWDGPQYHLAPVWAFRLQAAFMGFVFFVGTPLNAIVLVATLHYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFLFGRHVCALEAFLGSVA 1 2 GLVTGWSLAFLAFERYVVICKPFGSIRFNSKHALMVVLATWIIGIGVSIPPFFGWSR 2 1 FIPEGLQCSCGPDWYTVGTKYRSEYYTWFLFIFCFIIPLSLICFSYSQLLRTLRA 0 0 VAAQQQESATTQKAEREVSHMVVVMVGSFCLCYVPYAALAMYMVNNRNHGLDLRLVTIPAFFSKSSCVYNPIIYCFMNKQ 0 0 FRACILEMVCRKPMADESDVSGSQKTEVSTVSSSKVGPH* 0 >SWS1_ratNor Rattus norvegicus (rat) 0 MSGEDEFYLFQNISSVGPWDGPQYHIAPVWAFHLQAAFMGFVFFAGTPLNATVLVATLHYKKLRQPLNYILVNVSLGGFLFCIFSVFTVFIASCHGYFLFGRHVCALEAFLGSVA 1 2 GLVTGWSLAFLAFERYLVICKPFGNIRFNSKHALTVVLITWTIGIGVSIPPFFGWSR 2 1 FIPEGLQCSCGPDWYTVGTKYRSEHYTWFLFIFCFIIPLSLICFSYFQLLRTLRA 0 0 VAAQQQESATTQKAEREVSHMVVVMVGSFCLCYVPYAALAMYMVNNRNHGLDLRLVTIPAFFSKSSCVYNPIIYCFMNKQ 0 0 FRACILEMVCRKPMTDESDMSGSQKTEVSTVSSSKVGPH >SWS1_criGri Cricetulus griseus (hamster) XP_003497566 0 MSGEDEFYLFKNISSVGPWDGPQYHIAPVWAFHLQAAFMGFVFLAGTPLNATVLVVTLRYKKLRQPLNYILVNVSLGGFLFCSFSVFTVFIASCHGYFLFGRHVCALEAFLGSVA 1 2 GLVTGWSLAFLAFERYIVICKPFGNIRFSSKHALMVVLVTWTIGIGVSIPPFFGWSR 2 1 FIPEGLQCSCGPDWYTVGTKYRSEYYTWFLFLFCFIVPLSLICFSYSQLLRTLRA 0 0 VAAQQQESATTQKAEREVSHMVVVMVGSFCLCYVPYAALAMYMVNNRNHGLDLRLVTIPAFFSKSSCVYNPIIYCFMNKQ 0 0 FRACIMEMVCRKPVTDESDMSGSQKTEASTVSSSKVGPH* 0 >MEL1_cavPor Cavia porcellus (guinea_pig) Hystricognathi 0 MEPSSGPTQGSSVSATLPAPSRGDDTLSSLFTPAPLPPGSPT 0 0 VAGAQAAAWIPFPTVDVPAHAHYTLGAVILLVGLTGMLGNLTVIYTFCR 2 1 SRGLRTPANMFIINLAVSDFLMSFTQAPVFFTSSLYKRWLFGEA 2 1 GCEFYAFCGALFGITSMITLTAITLDRYLVITRPLATIGVASKRQAALVLLGVWLYALAWSLPPFFGW 1 2 SAYVPEGLLTSCSWDYVTFTPSVRAYTMLLFCFVFFLPLLVIIYCYIFIFRAIRETGR 2 1 AFESCGESPRRRRQWQRLRSEWKMAKIALLVILLFVLSWAPYSAVALVAFAG 2 1 YAHMLTPYMNSVPAVIAKASAIHNPIIYAITHPKYR 2 1 AAIVQHLPCLGVLLGVSGQHGRPSLRYRSTHRSTLSSQASDLSWISGRRRQESLGSESEV 0 0 GWTDTEAWGAAQQGSGQSPYDLVLEDWEARAPPKARVWGAGTPGK 0 0 TKGQLTCLDPQM* 0 >MEL1_musMus Mus musculus (mouse) OPN4 melanopsin 0 MDSPSGPRVLSSLTQDPSFTTSPALQGIWNGTQNVSVRAQLLSVSPT 0 0 TSAHQAAAWVPFPTVDVPDHAHYTLGTVILLVGLTGMLGNLTVIYTFCR 2 1 NRGLRTPANMFIINLAVSDFLMSVTQAPVFFASSLYKKWLFGET 1 2 GCEFYAFCGAVFGITSMITLTAIAMDRYLVITRPLATIGRGSKRRTALVLLGVWLYALAWSLPPFFGW 1 2 SAYVPEGLLTSCSWDYMTFTPQVRAYTMLLFCFVFFLPLLIIIFCYIFIFRAIRETGR 2 1 ACEGCGESPLRQRRQWQRLQSEWKMAKVALIVILLFVLSWAPYSTVALVAFAG 2 1 YSHILTPYMSSVPAVIAKASAIHNPIIYAITHPKYR 2 1 VAIAQHLPCLGVLLGVSGQRSHPSLSYRSTHRSTLSSQSSDLSWISGRKRQESLGSESEV 0 0 GWTDTETTAAWGAAQQASGQSFCSQNLEDGELKASSSPQVQRSKTPK 0 0 VPGPSTCRPMKGQGARPSSLRGDQKGRLAVCTGLSECPHPHTSQFPLAFLEDDVTLRHL* 0 >MEL1_ratNor Rattus norvegicus (rat) AY072689 0 MNSPSESRVPSSLTQDPSFTASPALLQGIWNSTQNISVRVQLLSVSPT 0 0 TPGLQAAAWVPFPTVDVPDHAHYTLGTVILLVGLTGMLGNLTVIYTFCR 2 1 NRGLRTPANMLIINLAVSDFLMSFTQAPVFFASSLYKKWLFGET 1 2 GCKFYAFCGAVFGIVSMITLTAIAMDRYLVITRPLATIGMRSKRRTALVLLGVWLYALAWSLPPFFGW 1 2 SAYVPEGLLTSCSWDYVTFTPLVRAYTMLLFCFVFFLPLLIIIFCYIFIFRAIRETGR 2 1 ACEGCGESPLRRRQWQRLQSEWKMAKVALIVILLFVLSWAPYSTVALVGFAG 2 1 YSHILTPYMSSVPAVIAKASAIHNPIIYAITHPKYR 2 1 AAIAQHLPCLGVLLGVSGQRSHPSLSYRSTHRSTLSSQSSDLSWISGQKRQESLGSESEV 0 0 GWTDTETTAAWGAAQQASGQSFCSHDLEDGEVKAPSSPQEQKSKTPK 0 0 TKRHLPSLDRRM* 0 >MEL1_nanEhr Nannospalax ehrenbergi (molerat) OPN4 0 MNSPSGPRVPPGLAQKPSFMVTPVLPNQWISFQKNVSVGIQLPPASAT 0 0 ATGAQAASWVPFPTVDVPVHAHYTLGTVILLVGLTGMLGNLIVIYTFCR 2 1 SRGLRTRANMFTVNLAVSDFLMSFTQAPVFFASSLYKRWLFGEA 2 2 GCEFYAFCGAVSGITSMTTLTAIALDRYLVITRPLATIGVASKRRTALVLLGVWLYALAWSLPPFFGW 1 2 SAYVPEGLLTSCSWDYMTFTPSVRAYTMLLFCFVFFLPLLIIIFCYIFIFKAIRETGR 2 1 ACEGCGESPQRRRQWQRLQNEWKMAKVALLVIFLFVLSWAPYSTVALVAFAG 2 1 YSHILTPYMNSVPAVIAKASAIHNPIIYAITHPKYR 2 1 LAISQHLPCLGVLIGVSSQRSHPSLSYRSTHRSTLSSQASDLSWISGRKRQESLGSESEV 0 0 GWTDTEVTAAWGVAQEASGWSPYRHSLEDGEVKASPSPQGQEAKTSR 0 0 TKGQLPSLNLRM* 0 >MEL1_phoSun Phodopus sungorus (hamster) AY726733 ends in error: AKGQLPSLDLGMQDAP 0 MDSPPGPTAPPGLTQGPSFMASTTLHSHWNSTQKVSTRAQLLAVSPT 0 0 ASGPEAAAWVPFPTVDVPDHAHYILGTVILLVGLTGMLGNLTVIYTFCR 2 1 SRSLRTPANMLIINLAVSDFLMSFTQAPVFFASSLYKKWLFGET 2 1 GCEFYAFCGAVLGITSMITLTAIALDRYLVITRPLATIGMGSKRRTALVLLGIWLYALAWSLPPFFGW 1 2 SAYVPEGLLTSCSWDYVTFTPQVRAYTMLLFCFVFFLPLLVIIFCYISIFRAIRETGR 2 1 ACEGWSESPQRRRQWHRLQSEWKMAKVALIVILLFVLSWAPYSTVALVAFAG 2 1 YSHILTPYMSSVPAVIAKASAIHNPIVYAITHPKYR 2 1 AAIAQHLPCLGVLLGVSSQRNRPSLSYRSTHRSTLSSQSSDLSWISAPKRQESLGSESEV 0 0 GWTDTEATAVWGAAQPASGQSSCGQNLEDGMVKAPSSPQ 0 * 0 >MEL1_oryCun Oryctolagus cuniculus (rabbit) ENSOCUT00000017574 0 MNSPWGSRVPPGPAQEPRSTAAPPSRWDGSESSISSPGQLTPGSPT 0 0 APGAQEAAWVPFPTVDVPDHAHYTLGTVILLVGLTGMLGNLTVIYTFCR 2 1 SRSLRTPANMFIINLAVSDFLMSFTQAPVFFASSLYKRWLFGET 2 1 GCEFYAFCGALFGISSMITLTAIALDRYLVITRPLAAVGMVSKKRAGLVLLGVWLYALAWSLPPLFGW 1 2 SAYVPEGLLTSCSWDYVTFTPSVRSYTMLLFCFVFFLPLLVIVYCYIFIFRAIRETGR 2 1 ACQGSHESPQRRQWRRLQSEWKMAKVALLVILLFLLSWAPYSTVALVAFAG 2 1 YAHSLSPYMNSVPAVIAKASAIHNPIIYAITHPKY 2 1 RAAIAQHLPCLGVLLGVSGRHSRPSLSYRSTHRSTLSSQASDLSWISGRRRQESLGSESEV 0 0 GWTDTEAAAAWGAALQLSGRYLCGQGLEDGEIKATPRRQ 0 0 GPEAETPRKTKRLRPCLDPRT* 0 >ENC_cavPor Cavia porcellus (guinea pig) 3 aa del 0 MYSGNRSSGQGYWEGGGPEDPAPAGTLSPAPLFSPGAYERLALLLGSLGLLGVGNNLLVLVLYYKFQRLRSPTHLFLANISLSDLLGSLFGVTFTFVSCLKNGWVWDAVGCVWDGFSRSLF 1 2 GIVSITTLTVLAYERYIRVVHARVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDIHGLSCTVDWKSKDANDSSFVLFLFLGCLVVPVGVIVHCYGHILYSIRM 0 0 LRGVEDLQTIQVMKILRSENKVAIMCFLMVFIFLVCWMPYIVICFLLVNGYRHRVTPTVSIVSYLFTKSSTVYNPVIYVLMIRK 0 0 FRRSLLQLHCLRLLRCQQPAKDLPAVEREMHIRPIVMSQKDGDRPKKKVTFNSSSIIFIITSDESLSVDDSDRTSGSKVDTIQVRPL* 0 >ENC_musMus Mus musculus (mouse) OPN3 encephalopsin panopsin 2aa del 0 MYSGNRSGDQGYWEDGAGAEGAAPAGTRSPAPLFSPTAYERLALLLGCLALLGVGGNLLVLLLYSKFPRLRTPTHLFLVNLSLGDLLVSLFGVTFTFASCLRNGWVWDAVGCAWDGFSGSLF 1 2 GFVSITTLTVLAYERYIRVVHARVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDIHGLGCTVDWRSKDANDSSFVLFLFLGCLVVPVGIIAHCYGHILYSVRM 0 0 LRCVEDLQTIQVIKMLRYEKKVAKMCFLMAFVFLTCWMPYIVTRFLVVNGYGHLVTPTVSIVSYLFAKSSTVYNPVIYIFMNRK 0 0 FRRSLLQLLCFRLLRCQRPAKNLPAAESEMHIRPIVMSQKDGDRPKKKVTFNSSSIIFIITSDESLSVEDSDRSSASKVDVIQVRPL* 0 >ENC_ratNor Rattus norvegicus (rat) XP_573517 2aa del 0 MYSGNRSGGQGYWEDGAGAEGAAPAGTRSPAPLFSPTAYERLALLLGCLALLGVGGNLLVLLLYSKFPRLRTPTHLFLVNLSLGDLLVSLFGVTFTFASCLRNGWVWDAVGCAWDGFSGSLF 1 2 GFVSITTLTVLAYERYIRVVHARVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDVHGLGCTVDWKSKDANDSSFVLFLFLGCLVVPMGIIAHCYGHILYSVRM 0 0 LRCVEDLQTIQVIKMLRYEKKVAKMCFLMAFVFLTCWMPYVVTRFLVVNGYGHLVTPTVSIVSYLFAKSSTVYNPVIYIFMIRK 0 0 FRRSLLQLLCFRLLRCQRPAKNLPAAESEMQIRPIVMSQKDGDRPKKKVTFNSSSIIFIITSDESLSVEDSDRSSASKVDVIQVRPL* 0 >ENC_speTri Spermophilus tridecemlineatus (squirrel) 0 MYSGNRSGSQGSWEGDGSAGAEGSAPEGTLSPTPLFSPGTNERLALLFRSVGLLGAGSNLLVLVLYYKFQGSAHPLTFFLVNISLGDLLMSLFGVTFTFVSCLRNRWVWDTVACVWDGFSSSLF 1 2 GIVSITTLTVLAYERYIRVVHARVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDVHGLGCTVEWKSKDANDSSFVLFLFLGCLVVPVGVIAHCYGHILYSIRM 0 0 LRCVEDLQIFQVIKILRYEKKLAKMCFVMVFTFLICWMPYIVVCFLVANGYGQRVTPTVSIVSNLFAKSSTVYNPVIYIFMIRK 0 0 FRRSLLQLLCSRLLRCQQPAKDLPAVGNEMQIRPIVISQKDGERPKKKVTFNSSSIVFIITSDESLSVDDSNRTSGSKADVIQVRPL* 0 >ENC_criGri Cricetulus griseus (hamster) XP_003499904=pathetic 0 PTHLFLVNLSLGDLLVSLFGVTFTFASCLRNGWVWDAVGCAWDGFSGSLF 1 2 GFVSITTLTVLAYERYIRVVHSRVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDIHGLGCTVDWKSKDANDSSFVLFLFLGCLVVPLGIITHCYGHILYSVRM 0 0 LRCVEDLQTIQVIKILRCEKKVAKMSFAMVFVFLTCWMPYIVTRFLVVNGYGHLVTPTVSIVSSLFAKSSTVYNPIIYIFMIRK 0 0 FRRSLLQLLCFRLLRCQRPAKNLPAAESEMQIRPIVMSQKDRDRPKKKVTFNSSSIIFIITSDESLSVDDSDRTNASKANVIQVRPL >ENC_dipOrd Dipodomys ordii (kangaroo_rat) 0 MYSGNRSGGQEYWEDGGAAGSEGPAPAGTLSPAPLFSAGAYERLALLLGSAGLLGVGNNLLVLVLYYKFQRLRTPTHLLLVNISLSDLLVSLFGVTFTFVSCLRNGWVWDTVGCVWDGFSRSLF 1 2 GIVSITTLTVLAYERYIRVVHARVINFTWAWRAITYIWLYSLAWAGAPLLGWNRYILDIHGLGCTVDWKAKDANDSSFVLFLFIGCLVVPVGIIAHCYGHILYSIRM 0 0 LRCVEDLQTIQIIKILQYEKKLAKMCFLMALTFLMCWMPYIVTCFLVVNSHGHLVTPTISIVSHLLAKSSTIYNPVIYIFMIRK 0 0 FRRSLLQLLCFRLLRCQRPAKDLPAAGSEMQIRPIVMSQKDGDRPKKKVTFNSSSIIFIITSDESLSVDDSVRSSGSKADVIQVRPL* 0 >ENC_oryCun Oryctolagus cuniculus (rabbit) 0 MYSGNRSGEQGYWEGGGAAGAEGPGPAGTLSPAPLFSPSTYERLALLLGSIGLLGVGSNLLVLVLYYKFQRLRTPTLLFLVNISLSDLLVSVFGVTFTFVSCLRNGWVWDTVGCVWDGFSSSLF 1 2 GIVSITTLTVLAYERYIRVVHARVINFSWAWRAITYIWLYSLAWAGAPLLGWNRYILDIHGLGCTVDWKSKNANDSSFVLFLFLGCLVVPVGVIAHCYGHILYSVRM 0 0 LRCVEDLQTIQVIKILRYEKKVAKMCFFMVFTFLICWMPYVVICFLVVNGYGHLVTPTLSIVSYLFCKSSTAYNPIIYIFMIRK 0 0 FRRSLLQLLCFQPLRCQQPPKDLPTVGSEMQIRPIVMSQKDGDRPKKKVTFNSSSIIFIIASDESLAVDDNEKASGPKVDVIQVRPL* 0+ >RGR_cavPor Cavia porcellus (guinea_pig) 0 MATSEALPAGFGELEVLAVGTVLLLE 1 2 GLCGLSLNGLTVVSFWKSPALRTPNHLLVLSLALADSGLSLNALVAAGSSLLR 2 1 HWPGSGHCQALGFQGFTTALASISGTAALSWGRHQQCCT 1 2 RGRLTWSTAVPLVLFVWLSSAFWAALPLLGWGRYDYEPLGTCCTLDYSTGDR 2 1 NFTSFLFTMAFFNFLVPLFITVTSCQLMERHLARSSRLQ 0 0 VSVRQPARTLLLCWSPYALLYLYAVLADAHTLSPRLQM 0 0 VPALIAKTVPTIYSLGRGPWQSLEMQRSKQD* 0 >RGR_musMus Mus musculus (mouse) RGR syn(+PCDH21 -LRIT1 -GRID1 -WAPAL) 0 MAATRALPAGLGELEVLAVGTVLLME 1 2 ALSGISLNGLTIFSFCKTPDLRTPSNLLVLSLALADTGISLNALVAAVSSLLR 2 1 RWPHGSEGCQVHGFQGFATALASICGSAAVAWGRYHHYCT 1 2 GRQLAWDTAIPLVLFVWMSSAFWASLPLMGWGHYDYEPVGTCCTLDYSRGDR 2 1 NFISFLFTMAFFNFLVPLFITHTSYRFMEQKFSRSGHLP 0 0 VNTTLPGRMLLLGWGPYALLYLYAAIADVSFISPKLQM 0 0 VPALIAKTMPTINAINYALHREMVCRGTWQCLSPQKSKKDRTQ* 0 >RGR_ratNor Rattus norvegicus (rat) 0 MTATRALPAGFGELEVLAIGIVLLME 1 2 ALSGISLNGLTIFSFCKTPDLRTPSNLLVLSLALADTGISLNALVAAVSSLLR 2 1 RWPHGSEGCRVHGFQGFATALASICGSAAIAWGRYHHYCT 1 2 GRQLAWDTAIPLVLFVWLSSAFWASLPLMGWGHYDYEPVGTCCTLDYSRGDR 2 1 NFISFLFTMAFFNFLVPLFITHTSYRFMEQKLSRSGHLQ 0 0 VNTTLPGRMLLLGWGPYALLYLYAAVADVSFISPKLQM 0 0 VPALIAKTMPTINAINYALRSEMVCRGTWQCRSAQKSKQDRTQ* 0 >RGR_speTri Spermophilus tridecemlineatus (ground_squirrel) 0 MAETAALPAGFGELEVLAVGTVLLVE 1 2 ALSGLSLNGLTIFSFCKTPELRTPNHLLLLSLAVADSGISLNALIAAISSLLR 2 1 RWPYGSDGCQAHGFQGFVTALSSICGSAAIAWGRYHHYCT 1 2 GSQLAWNTAIPLVLFVWLSSTFWAALPLLGWGHYDYEPLGTCCTLDYSRGDR 2 1 NFISFLFTMAFFNFFVPLFITLTSYRLMEQKLARSGHLQ 0 0 0 0 * 0 >RGR_dipOrd Dipodomys ordii (kangaroo_rat) 0 MATSGDLPTGFGELEVLTVGTVLLVE 1 2 ALSGLSLNTLTIFSFCKTPELRTPIHLLDLSLAVADSGISLNALIAAISSLEW 2 1 HWPYGLEGCQAHGFQGFVTALASISGSAAIAWGRCHHHCT 1 2 GSLLGWDTAVSLVIFVWLSSAFWAALPLLGWGHYNYEPLGTCCTLDYSRGDR 2 1 NFTSFLFTMAFFNFLVPLFITLTSYQLMKQKFARSGRLQ 0 0 VNTTLPTRTLLLGWGPYALLYFYAAIMDVNSISPKLQM 0 0 VPALIAKMVPTVNAINYALCNELLCGGFSLGLLPQKGKQDRTQ* 0 >RGR_oryCun Oryctolagus cuniculus (rabbit) 0 MAEPGTLPPGFEELEVLAVGTVLLVE 1 2 ALSGLSLNGLTIFSFCKTPELWTPSHLLVLSLAVADSGISLNALIAAVSSLLR 2 1 RWPYGSDGCQAHGFQGFATALASICGSAAIAWGRYHHYCT 1 2 GSQLAWNTAVLLVLFVWLSSVFWAALPLLGWGHYDYEPLGTCCTLDYSRGDR 2 1 NFISFLITMAFFNFLMPLFITLTSYSLMEQKLSKSGRLQ 0 0 VNTTLPGRTLLFCWGPYAVLYLCAAVADMSSITLKLQM 0 0 VPALIAKTVPTVNAVNYALGSEVIRRGIWQCLLPQRSVRGRAQ* 0 >RGR_ochPri Ochotona princeps (pika) 0 MAEPGTLPPGFEELEVLAVGTVLLVE 1 2 ALTGLSLNSLTIFSFCTSPELRTPSHLLVLSLALADSGVSLNALAAATASLLR 2 1 RWPYGSDGCQAHGFQGFATALASICGSAAIAWGRYHHYCT 1 2 GSQLAWNTAVLLVLFVWLSSVFWAALPLLGWGHYDYEPLGTCCTLDYSRGDR 2 1 NFISFLVTMAFFNFLMPLFIMLTSYSLMEQKLAKSGRLQ 0 0 VNTTLPARTLLFCWGPYAILCLCATVMDMSTVSPKLLM 0 0 VPALIAKAVPTVNAINYALGSEVIRRGIWQCLLPQRSVRDRAQ* 0 >NEUR1_cavPor Cavia porcellus (guinea_pig) 0 MALNHTAPPQNEHLPRYLQDEDPFVSKLSWEADLVAGFYLTII 1 2 GILSTVGNGYVLYMSSRRKKKLRPAEIMTINLAICDLGIS 1 2 vVGKPFTIISCFRHRWVFGWIGCRWYGWAGFFFGCGSLITMTVVSLDRYLKICYLSY 1 2 GVWLKRKHAYICLAAIWAYVSFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASAGGQIFILHILFFCLLLPTAMIVFSYVKIIAKVKSSSKEIAHFDSRIHSSHVLEMKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPTLLAKSAAMYNPIIYQVIDSRFACCQNAGLKATKKKSLEDFR 2 1 LHTVTTDRKSAVLEIHQEV* 0 >NEUR1_musMus Mus musculus (mouse) OPN5 neuropsin 0 MALNHTALPQDERLPHYLRDEDPFASKLSWEADLVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWFGCRWYGWAGFFFGCGSLITMTAVSLDRYLKICYLSY 1 2 GVWLKRKHAYICLAVIWAYASFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASGGGQVFILSILFFCLLLPTAVIVFSYAKIIAKVKSSSKEVAHFDSRIHSSHVLEVKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPTLLAKSAAMYNPIIYQVIDYRFACCQAGGLRGTKKKSLEDFR 2 1 LHTVTTVRKSSAVLEIHQEV* 0 >NEUR1_ratNor Rattus norvegicus (rat) 0 MALNHTALPQDERLPHYLRDEDPFASKLSWEADLVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWFGCRWYGWAGFFFGCGSLITMTAVSLDRYLKICYLSY 1 2 gVWLKRKHAYICLAVIWAYASFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASGGGQVFILSILFFCLLLPTAVIVFSYAKIIAKVKSSSKEVAHFDSRIHSSHVLEVKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPNSIPIQLSVVPTLLAKSAAMYNPIIYQVIDYRFACCQTGGLRATKKKSLEDFR 2 1 LHTVTAVRKSSAVLEIHPEv* 0 >NEUR1_speTri Spermophilus tridecemlineatus (squirrel) 0 MALNHTALPQDEHLPHYLRDEDPFASKLSWEADLVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWIGCRWYGWAGFFFGCGSLITMTAVSLDRYLKICYLSY 1 2 GVWLKRKHAFICLAVIWAYASFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASVGGQVFINILFFCLLLPTAVIEFSYVKIIAKVKSSSEEVAHFDSRIHSSHV 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPSLLAKSAAMYNPIIYQVIDYKFACCQTGGLKATKKKSLEDFR 2 1 LHTVTAVRKSSAVVEIHQEv* 0 >NEUR1_dipOrd Dipodomys ordii (kangaroo_rat) 0 MAFNHTAGTQGQGLPHYLPEEDPFTSKLSWEADIVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWIGCRWYGWAGFFFGCGSLITMTAVSLDRYLKICYLSY 1 2 GVWLKRKHAYICLAVIWAYASFWTTMPLVGLGDYVPEPFGTSCTLDWWLAQASLAGQVFILNILFFCLLLPTSVIVFSYVKIIAKVKSSSKEVAHFDSRIPSSHVLEMKLTK 0 0 2 1 * 0 >NEUR1_oryCun Oryctolagus cuniculus (rabbit) 0 MALNHTALPQDEHLPHYLREGDPFASKLSWEADLVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWIGCRWYGWAGFFFGCGSLITMTAVSLDRYLKICYLSY 1 2 GVWLKRRHAYICLALIWAYASFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASVGGQVFILNILFFCLLLPTAVIVFSYVKIIAKVKSSSKEVAHFDSRIHSSHVLEMKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPTLLAKSAAMYNPIIYQVIDYKFSCCRTSGLKATKKKSLEDFR 2 1 LHTVTTVRKSSAVLEIHQEv* 0 >NEUR1_ochPri Ochotona princeps (pika) 0 MALNDTALPQDEHLPHYFRDGDPFASKLSWEADLVAGFYLTII 1 2 GILSTFGNGYVLYMSSRRKKKLRPAEIMTINLAVCDLGIS 1 2 VVGKPFTIISCFCHRWVFGWIGCRLYGWADFFFGCGSLITMTAVSLDRYLK 1 2 GVWLKRRHAYICLAVIWAYASFWTTMPLVGLGDYAPEPFGTSCTLDWWLAQASVGGQVFILNILFFCLLLPTAVIVFSYVKIIAKVKSSSKEVAHFDSRIHGSHVLEMKLTK 0 0 VAMLICAGFLIAWIPYAVVSVWSAFGRPDSIPIQLSVVPTLLAKSAAMYNPIIYQVIDYKFSCCRTGGLKQTKKKSLEDFR 2 1 LHTVTTVRKSSAVLEIHQEv* 0 >PER_cavPor Cavia porcellus (guinea_pig) 0 MLRHSLGNSSDSKNEDGSVFSQTEHNIVAAYLILA 1 2 GLISILSNIIVLGIFIKYKELRTPTNAIIMNLALTDIGVSSIGYPMSAASDLHGSWKFGYAGCQ 0 0 VYAGLNIFFGMASIGLLTVVAVDRYLTICRPDI 1 2 GRRMTSHSYVGMILGAWINGLFWALMPIIGWASYAPDPTGATCTINWRKNDV 2 1 AFVSYTMTVIAINFIVPLAVMFYCYLHITRAIRRHVAGDRPPNLSGDWSDQVDVTK 0 0 MSVVMILMFLVAWSPYSIVCLWASFGDPRRISPSMAIIAPLFAKSSTFYNPCIYVIANKK 2 1 FRRAMFAMFQCQTHQAVPVASILPMDASQSPLASGRI* 0 >PER_musMus Mus musculus (mouse) RRH peropsin syn(-CFI +NOLA1 +EGF -ELOVL6) 0 MLSEASDNSSGSRSEGSVFSRTEHSVIAAYLIVA 1 2 GITSILSNVVVLGIFIKYKELRTPTNAVIINLAFTDIGVSSIGYPMSAASDLHGSWKFGHAGCQ 0 0 IYAGLNIFFGMVSIGLLTVVAMDRYLTISCPDV 1 2 GRRMTTNTYLSMILGAWINGLFWALMPIIGWASYAPDPTGATCTINWRNNDT 2 1 SFVSYTMMVIVVNFIVPLTVMFYCYYHVSRSLRLYAASDCTAHLHRDWADQADVTK 0 0 MSVIMILMFLLAWSPYSIVCLWACFGNPKKIPPSMAIIAPLFAKSSTFYNPCIYVAAHKK 2 1 FRKAMLAMFKCQPHLAVPEPSTLPMDMPQSSLAPVRI* 0 >PER_ratNor Rattus norvegicus (rat) 0 MLRDALDNSSGSGSE-GSVFTKSEHSIIAAYLIVA 1 2 GIISILSNIIVLGIFIKYKELRTPTNAVIINLAFTDIGVSSIGYPMSAASDLHGSWKFGHAGCQ 0 0 VYAGLNIFFGMVSIGLLTVVALDRYLTISCPDV 1 2 GRRMTGNTYLSMVLGAWINGLFWALMPIVGWASYAPDPTGATCTINWRKNDT 2 1 SFVSYTMMVIVVNFIVPLTVMFYCYYHVSQSMRLSAASNCTTHLNRDWAHQADVTK 0 0 MSVMMILMFLLAWSPYSVVCLWACFGNPKKIPPSLAIIAPLFAKSSTFYNPCIYVAANKK 2 1 FRKAMFAMLKCQPHQAMPEPSTLAMGVPHSPLAPARI* 0 >PER_dipOrd Dipodomys ordii (kangaroo_rat) 0 MLRNNVGNSSGSRNEDGSVFSQTEHNIVATYLITA 1 2 GVISILSNLIVLGIFIKYKELRTPTNAIIINLALTDIGVSSIGYPMSAASDLYGRWKFGYAGCQ 0 0 IYAGLNIFFGMASIGLLTVVAIDRYLTICHPDI 1 2 GRGMTTRTYVTMILGAWINGLFWALMPIIGWASYAPDPTGATCTINWRKNDT 2 1 0 0 MSVVMILMFLVAWSPYSIVCLWASFGDPKEIPPPMAIIAPLFAKSSTFYNPCIYVVANKK 2 1 FRRAMLAMLKCQTHQAMPVTSILPMDVSQNPLASGRI* 0 >PER_oryCun Oryctolagus cuniculus (rabbit) 0 MLRNNLSNSSDFKHEDGSVFSQTEHNIVATYLILA 1 2 GMISILSNLIVLGIFIKYKELRTPTNAIIINLAFTDIGVSSIGYPMSAASDLHGSWKFGYAGCQ 0 0 IYAGLNIFFGMASIGLLTVVAMDRYLTICHPDV 1 2 GRRMTTRTYLGLILGAWVNGLFWALMPIAGWASYAPDPTGATCTINWRKNDT 2 1 SFVSFTMAVIAINFVVPLTVMFYCYYHVTQSIKQHRASDCTEYLNRDWSDQVDVTK 0 0 MSVIMIFMFLVAWSPYSIVCLWASFGDPKKIPPAMAIIAPLFAKSSTFYNPCIYVAANKR 2 1 FRRAMFAMFKCQTHQAMPVTSVLPMDVSQNPLPSGII* 0 >PER_ochPri Ochotona princeps (pika) 0 MLRHNLGNSSEAKVEAGSVFSQTEHNIVAAYLILA 1 2 GMISILSNLIVLGIFIKYKELRTPTNAIIINLAFTDIGVSSIGYPMSAASDLHGSWKFGYAGCQ 0 0 IYAGLNIFFGMASIGLLTVVAMDRYLTICQPDI 1 2 GRRMTTHTYFGMILGAWINGLFWALMPIVGWASYAPDPTGATCTINWRKNDK 2 1 SFVSFTMAVIMVNFVVPLTVMFYCYYYVTQSIKHHTASDCTKSLNRDWSDQVDVTK 0 0 MSVIMILMFLVAWSPYSIVCLWASFGDPQKIPPSMAIIAPLFAKSSTFYNPCIYVAANKR 2 1 SRRAMFAMFKCQIPQAKPVTSLSPRDVSQSPLSSGRT* 0