Pegasoferae?: Difference between revisions

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Pegasoferae is a novel proposal for the phylogenetic ordering within Laurasiatheres, grouping bats, perissodactyls, and carnivores to the exclusion of the other hoofed mammalian group artiodactyls. Bats have been placed in many previous locations, notably in the Euarchonta wing (with primates). While that particular idea is clearly refuted by many lines of evidence, the proper placement of bats remains under discussion.
Pegasoferae is a novel proposal for the phylogenetic ordering within Laurasiatheres, grouping bats, perissodactyls, and carnivores to the exclusion of the other hoofed mammalian group artiodactyls. Bats have been placed in many previous locations, notably in the Euarchonta wing (with primates). While that particular idea is clearly refuted by many lines of evidence, the proper placement of bats remains under discussion.
[[Image:Pegasoferae.png|left|]]


Rare genomic events may be more useful for this than maximal likelihood because the orders of Laurasiatheres may have diverged relatively rapidly. Retroposon events are so numerous per million years however that they may be able to resolve branching at these tight nodes.
Rare genomic events may be more useful for this than maximal likelihood because the orders of Laurasiatheres may have diverged relatively rapidly. Retroposon events are so numerous per million years however that they may be able to resolve branching at these tight nodes.


The phlogenetic distribution of the L1MA9 retroposon INT189 has been [http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=16785431 taken as evidence] for bats being the immediate outgroup of horse + dog. That interpretation can be revisited using  newly available genomes. Yet only two sequences representing perissodactyl and carnivore are at GenBank as cat assembly has a gap in the critical region. But other new data in 3 bats and 4 cetartiodactyls and 2 shrew/hedgehog confirm the lack of L1MA9 near the distal exon.  
The phlogenetic distribution of the L1MA9 retroposon INT189 has been [http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=16785431 taken as evidence] for bats being the immediate outgroup of horse + dog. That interpretation can be revisited using  newly available genomes. Yet only two sequences representing perissodactyl and carnivore are at GenBank as cat assembly has a gap in the critical region. But other new data in 3 bats and 4 cetartiodactyls and 2 shrew/hedgehog confirm the lack of L1MA9 near the distal exon.  
[[Image:Pegasoferae.png|left|]]


The trouble is a second L1MA9 element lies upstream of the MER58A middle marker. This is lacking in both carnivores. Evidently it was deleted in stem carnivore -- otherwise it would be providing evidence for carnivores being outgroup to cows + bats + horse. In short this single intron is providing 'support' for two contradictory topologies.  
The trouble is a second L1MA9 element lies upstream of the MER58A middle marker. This is lacking in both carnivores. Evidently it was deleted in stem carnivore -- otherwise it would be providing evidence for carnivores being outgroup to cows + bats + horse. In short this single intron is providing 'support' for two contradictory topologies.  

Revision as of 05:22, 4 May 2008

Pegasoferae is a novel proposal for the phylogenetic ordering within Laurasiatheres, grouping bats, perissodactyls, and carnivores to the exclusion of the other hoofed mammalian group artiodactyls. Bats have been placed in many previous locations, notably in the Euarchonta wing (with primates). While that particular idea is clearly refuted by many lines of evidence, the proper placement of bats remains under discussion.

Pegasoferae.png

Rare genomic events may be more useful for this than maximal likelihood because the orders of Laurasiatheres may have diverged relatively rapidly. Retroposon events are so numerous per million years however that they may be able to resolve branching at these tight nodes.

The phlogenetic distribution of the L1MA9 retroposon INT189 has been taken as evidence for bats being the immediate outgroup of horse + dog. That interpretation can be revisited using newly available genomes. Yet only two sequences representing perissodactyl and carnivore are at GenBank as cat assembly has a gap in the critical region. But other new data in 3 bats and 4 cetartiodactyls and 2 shrew/hedgehog confirm the lack of L1MA9 near the distal exon.

The trouble is a second L1MA9 element lies upstream of the MER58A middle marker. This is lacking in both carnivores. Evidently it was deleted in stem carnivore -- otherwise it would be providing evidence for carnivores being outgroup to cows + bats + horse. In short this single intron is providing 'support' for two contradictory topologies.

The sizes of many bat genomes have been experimentally determined: the 30-genus average of 2.6 gbp is about 500,000,000 bp less than human. Since bats in essence have the same 20,000 coding genes as other mammals, that discrepancy has to arise from less intronic and intergenic dna. Possibly bats had fewer active retroposing elements. Far more likely, bats they have an average number and the discrepancy arises from a faster rate of deletions than insertions.

Thus for taxonomically informative (ancestral laurasiathere) retroposons, many millions of deletion events have occured. Since the L1MA9 elements here are only 100bp or so, it would come as no surprise if a high percentage of the older relevent ones have experienced partial (or full) deletions making them unrecognizable with RepeatMasker.

Thus presence of a retroposon in a given orthologous position bat can be informative but absence is not so informative. INT189 is an absence. That one event isn't insufficient anyway to establish branching order. So bat/horse/carnivore tree topology remains unresolved. If horse is the outgroup to carnivore + bat -- and cow outgroup to all of these -- then hoofed animals are parsimoniously ancestral (rather than arising twice by convergent evolution) and bat and carnivore lost hooves (a bit unreasonable as dog and bats retain the ancestral 5 digits).


Summary of the phylogenetic distribution of the L1MA9 retroposon INT189:

>PGM2_canFam Canis familiaris (dog)           abseny               -MER58 182-265 23% -L1MA9 6069-6302 27%
>PGM2_felCat Felis catus (cat)   genomic del  absent               -MER58              no data
>PGM2_equCab Equus caballus (horse)          -L1MA9 6172-6264 26%  -MER58A  1-145 23% -L1MA9 6050-6302 23%
>PGM2_myoLuc Myotis lucifugus (microbat)     -L1MA9 6174-6264 20%  -MER58A 38-157 26%
>PGM2_pteVam Pteropus vampyrus (macrobat)    -L1MA9 6161-6291 25%  -MER58A 35-145 29%
>PGM2_pipAbr Pipistrellus abramus (microbat) -L1MA9 6180-6301 252% -MER58A 38-157 24%
>PGM2_bosTau Bos taurus (cow)                -L1MA9 6155-6263 28%  -MER58A  7-157 21%
>PGM2_turTru Tursiops truncatus (dolphin)    -L1MA9 6155-6265 29%  -MER58A 37-148 21%
>PGM2_susScr Sus scrofa (pig) cdna + tiled   -L1MA9 6159-6264 27%  -MER58 212-271 28%
>PGM2_vicVic Vicugna vicugna (vicugna) tiled -L1MA9 6162-6310 24%  -MER58A 35-157 20%
>PGM2_ateAlb Atelerix albiventris (hedgehog) ...                   ...
>PGM2_sorAra Sorex araneus (shrew)           ...                   ...
>PGM2_canFam Canis familiaris (dog) -MER58 182-265 23% -L1MA9 6069-6302 27% VISAELASFLATKNLSLSQQLKAIYVE YGYHITKASYFICHDQGTIKKLFENLRNY 
GTCATCAGCGCCGAGTTGGCTAGCTTTCTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAAGGCCATTTATGTTGAGTACGTTTCTATTAACTCTG 
TTTAATTGAAATAATACTTTTTAAAAGTTTTATTATGTTTTTATGTGTGACACTAATATTCTAACCCTCTTACTTTGGGTGAGGGTTCTTCTGAAAACTA 
AAGGATCACTTTTTCTTTTAATGCTTAACTATTCAATACTAATTATCACTTATGACTGTGTTAATCCTTAACAAATGAGAACATCAGTTGCAGAAATAGC 
TAATTGAGGAGGGTGATTCCCTGATGTCAGAAAGGACAAAGGTTTTCGTGAAACATCTATTACGTGTTTAGAgccactagtcaagtctgcctttgtagtg 
caaaagcagctgatggcaagacgtacaggaatgggtgtggtgtggctgcaatgaaaTGAAACTTTCACCTCCCAAGATAGGCCGAAGGCCAGGCAGCAGT 
TTGGCAATACCTGGGGTCAATAGTTATACCTCTTTTTTATGCTAAATTATTCCTTTGAAGCTAGTCATTGTTATCGTTTCATTTAGCTTAAAATATACTG 
ATTGCTACATGTTCTGTATACACCACGTGAGATTATTTGTTCCTCATTTTGCATATTTGTACTTTTtttattgagatgtaattgacattaatgtcaggta 
taataacataatgattcgatatttatatattattacaaagtgatcaccatagtaagtcgagttaacatccacaccacatataatcacaaatattcattct 
tgtgatgatagcttttatgatctgtggtcttagcaactttcaaatatacagtacaatactagtagatacagtcaccaagttatatatATATAATTTTATT 
TCTTTTGATAGATATGGCTACCATATTACCAAAGCTTCCTATTTTATCTGCCATGATCAAGGCACCATTAAAAAATTGTTTGAAAACCTTAGAAACTAC 

>PGM2_felCat Felis catus (cat) genomic del incomplete coverage -MER58 ASFLATKNLsLSQQLKAIYGE YGYRITKASYFICHDQGTIKQLFENLRNY 
GCTAGCTTTCTAGCAACCAAGAATTTGTTTGTCTCAGCAGCTAAAGGCCATCTACGGCGAGTAAGTGTCTTCTAACCTGGTAAAGAAGTAATAG 
TGTTAAATATTTTCTTATGGTTCTACGTGTGAGATATTAATATTCTTTCTAATGCTCTTTGGTTGTGAATTCTATTTCTTTTTCTTTTTTTAATGTTTAT 
TTATTTTTGAGAGAGAGAGAGAGAGAGATGGAGTATGAGCAGGGGAGGGGCAGAGAGAGAGGGAGATACAGAATCCAAAGCAGGCTCCAGGCTCTGAGCT 
GTCAGCACAGAGCTCCACACGGGGCTTAAACTCACAAACCATGAGATCATGACCTGAGCTGAAGTCAGACACTCAACCGTTTGAGCCACCCACGTGCCCC 
ATGAATTCTATTTCTTATGAAACTAAATAATCATCTTTTCTTTTGATACTTAACCATGTAATGGTAATTATCATTCACGATTGCACGAATCCTTAACAAA 
TGAGGGCATCAGTTGCAGAAATAGCTAATTGAAGAATGTGATTTTAAGTGTGTGATGTCAAAAAAGATTAAAGGTGTTCATGAAATCTCTATTAAGTTTT 
TAGAGCAATGACCCAGGTCTGCCTTTATAAAGTGCAAAAGCAGCCCGTGGCAACACGTTGCAGTAAGACTCTTACTTACAAATACAGGCTAAAGGCCAGG 
CAGCAGTTTGGCAATCCCCAGGGTTAATTGTTGTACCTCTTTTTTATGCTAAATTATTCCTTTGAAGGTACTCATGGCTATTTGTTTCATTTGGTTTAAA 
ATATACTGGTTGACAAATGTACACTGTGTGGAATTATGTGTTCCTCATTTTGCATATTTGTATTTCCTTAACTGAGATATAACTGACATTAGTTTCAGGT 
ATGCGATACAGTGTTTCAATATCTGTATATATTACAAAATGATCATCACAGTACATCTAGTAACAGTCGCACCACACTTAATACAAAAGT  
TCCaTATGGCTACCGTATTACCAAAGCTTCATATTTTATTTGCCATGATCAAGGCACCATTAAACAATTATTTGAAAACCTTAGAAACTAT 

>PGM2_equCab Equus caballus (horse) -L1MA9 6172-6264 24% -MER58A 1-145 23% -L1MA9 6172-6264 26%-L1MA9 6050-6302 23% VISAELASFLATKNLSLSQQLKAIYVE YGYHITKASYFICYDQDTIKKLFENLRNY 
GTCATAAGCGCAGAGTTGGCTAGCTTTCTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAAGGCCATCTATGTTGAGTAAGTTTCTATTAACTCTC 
TTTAACTGAGGTAATTTTTTTTATTAGtttcaaatgtacaacataatgattcaatgtatgtatatattttgaaatgatcgccacaataagtctggctaac 
ctgtatcaccgacatagGGCTCTTTTTAAATGTTTTATGTTCTTTTGCATGAAACAGTAATATTCTTTTGAATGCTCTTACTTTAGCTATGAATTGTTCC 
TTATGAAAACTAAGTAAGAGATCACTTTTTCCTTTCGATACTTAACCACTTAGTAGTATTACCCTTTGTGATTGCATTAATCCTTAACAAATGAGAACAT 
TAGTCACGGAAATGGTGAAGTGAAGAATGTAATTTTCAGTGTCTGAGGTCAAAAAAGATTAAATGTGTTCATGAAACATCTATTTAGTCTTTAACTTCat 
tgctcagctctgcctttgtagtgcagaaacagccggggacaatacataatgtaatgggtgtggggtggctgtgttccagtagatcttttacttaaaaata 
caggccgaaggccaggcagcagtttggcaatccctgGGGGAGATTATTGTACCTTTTTTTAATGTTAAATTATCCCTTTGAAGTTAGTCATGGTTATTTC 
ATTTAGTTTAGAATATAATGGTTAATACATAGTGTATGTACACCATGTGGAATTATTTTTTCCCATTTTGCATTTCTTCTtttgttgagatataattaac 
atagaacattatattagcttcaggtgtacagtgtaattatttgataattgtatatattgcagattgatcaccaccataagactagttaacatccatcacc 
acacatagttataaatttttttcttgtgatgagaacttttaaggtctattctcttagcaaccttcaaatatacaatacagtattattaattctagtcacc 
gtgctgtgtattatatcctcatgacccattTTATTATTTTGTTTCGAAAGGTATGGCTACCATATTACCAAAGCTTCATATTTTATCTGCTATGATCAAG 
ACACCATTAAAAAATTGTTTGAAAACCTTAGAAACTAC 

>PGM2_myoLuc Myotis lucifugus (microbat) -L1MA9 6174-6264 20% -MER58A 38-157 26% VISAELASFLATKNLSLSQQLKAIYVE YGYHITKASYFICHDQGTIKKLFENLRNY AAPE01636299 
GTCATAAGCGCAGAGCTGGCTAGCTTTCTTGCAACCAAAAATTTGTCTCTGTCTCAGCAGCTAAAGGCCATCTACGTTGAGTAAGTTTCTATTGATTATTG 
AATTGAAGTAATATAGTTTGATTAGTTTCATGTGTACAATGTAATGATTCAATATGTGTATATATTGGGACATGGTTGCCACAATAAGTCGTTAACATAC 
ATTACCACATGTGGCAATGTATTTTAAGTGTATTATGTTCTTGCGTATGAGATGCTAATGTTCTTTCCAAAGCTCTGACTTTAGTTATGAATTCTATTTC 
TTAAGAAAACGAAACGAGATTATCTTTTCCTTTTGATACTTACCATTTGTGATAGCACTAATCTTTACTAAATGAGAACATGACACAGAATGTGATTTTA 
AGTGTCTGATGCCAAAAAAGATTAAATGTGTTCATGAAACGTCTATTTAGTCTTTATAGCAGTTTCTCAACTCTTGCCTTTCTGATGCAAAAGGAGCCAG 
ACACAGTACATAATGCAATGGGCGTGGTATGGCTGTTCCAGTATAATTTTACTTACAAGTATAGGCTGAAGGCAAGGTAGCAGCTTGGTGAGCCCTCGGG 
TAAATTGTTGCACCTCCTTTTAATGCTAAATGATTGCTTTGAAGCTAGTCATGGTCATTTGTCTCATTACGTATTTGAGAATGTGCTGGTTGGTGCCCGT 
TCTGTATATGCTATGCATAATTATTTGTTCCTCATTTTGCATGTATTTGTATTTGTTTTGATAGGTATGGCTACCATATTACCAAAGCTTCATATTTTAT 
CTGCCATGATCAAGGAACCATTAAGAAATTATTTGAGAACCTTAGAAACTAT 

>PGM2_pteVam Pteropus vampyrus (macrobat) -L1MA9 6161-6291 25% -MER58A 35-145 29% VISAELASFLATKNLSLSQQLKAIYVE YGYHITKASYFICHDQGTIKKLFENLRNY 
GTCATAAGCGCGGAGTTGGCTAGCTTTTTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAAGGCCATCTATGTTGAGTAAGTTTCTATTGACTCTA 
CATAACTGAAATAATATTTTTTATTAGTTTCAGGTGTACAGCACAGTGATTCGGTATATGTATATATTATGACATGATTGCTATAAGTCTATTGCATGCA 
TCAGTCTATTACTACATGCATCACCACACGTAGTAATATTTTTAAATGTATTATGTACTTGTGCACAAGATACTAATATTCTTTCCAATGCTCTTACTTT 
AGTTATGAATTCTATTTCTTATAAAAACCAAATAAGAAATTACCTTTTCCCTTTGATACTTAGCCATTTAATAGTAATTACCATTTGTGATGACAGTAAC 
CTTTACCAGATGAGACATTAGCCACAGAAACAGCTAAAGAATATGATTTTAAGTGTCCGATGTCAAAAGATTAAATGTGTTTATGAAACATCCTATTTAG 
TCTTTTTATAGCATTATTCAGCTGTGCCTTTGTAGTACAAAAGCAGCCAGACCCGATGCATATGTAATGGGTGCAGCGTGGCTACATTTCTGTAAAATTT 
TTACTTACAAATATAGGCTGAAGGCCAGGCAACAGTTTGGTGATCCCCTGAGTAAATTGTTATACTTCTTTCTTAATGCTGAACTATTCCTTTGAAGCTA 
GTCATGGTCATTTGTTTCATTAAGCGTTTTAGAATGTACTGGTTGATACATGTTCTGTGTACACTATGCAGAATGATTTGTTCCTTATTTTGCATGTGTT 
TGTATTTATTTTGATAGGTATGGCTACCATATTACCAAAGCTTCATATTTCATCTGCCATGATCAAGGCACCATCAAAAAATTATTTGAAAACCTTAGAAACTAT 

>PGM2_pipAbr Pipistrellus abramus (microbat) -L1MA9 6180-6301 25% -MER58A 38-157 24% AB258957 AIYVE YGYHITKASYFICHDQGTIKKLFENLRNY 
GGCCATCTATGTCGAGTAAGTTTCTATTGATTATTGAATTAAAGTAATATAATTTGATTAGATTCATGCGTACAGTGTAATGATTCAATACATGTATATA 
ATGGGACATGGTTGCCACAATAAGTCGTTAACATACATCACCACCTGTGGCAATATATTTTAGGTGTATTATGTTCTTTAGTATGAGACACTAGTACTAA 
TATTCTTTCCAAGGCTCTGACTTTAGTTATGAATTCTATTTCTTAAGAAAATGAAACGAGATTATCTTTTCCTTTGGATACTTACCATTTGTGATTGCAC 
TAATCTTGATTAAACGAGAACATTACACAGAATGTGATTTTAAGTGTCTGATGCCAAAAAAGATTACATGTGTTCATGAAACATCTATTTAGTCTTTATA 
GCAATTTCTCAACTCTTGCCTTTCTGGTGCAAAAGCAGCCTGACACAATACATAATGTAATCGGCGAGGGATGGCTGGTCCAATAAAACTGTACTTACCA 
ATGTAGGCTGAAGGCAAGGTAGCAGCGTGGTGTTCCCTCAGAATTATTTGTTCCTCATTTTGCACGTATTATTTGTTTTGATAGGTATGGCTACCATATT 
ACCAAAGCTTCATATTTTATCTGCCATGATCAAGGCACCATTAAGAAATTATTTGAAAACCTAAGAAACTACGATGGGAAGAATAATTAT 

>PGM2_bosTau Bos taurus (cow) -L1MA9 6155-6263 28% -MER58A 7-157 21% VITAELASFLATKNLSLSQQLKAIYVE  YGYHITRASYFICHDQETIKQLFENLRNY AB258958 [L1_Carn7] 
GTCATAACTGCAGAGTTGGCCAGCTTTCTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAAAGCCATCTATGTTGAGTAAGTTTCTATTGACTATT 
TAATTGAAGTAATTTTTTTTTATCAGttcaggtatacaacacagtgattcagtgtatgtctatattgtgaaatgatcacagtggatacaattaacatgca 
tccccacacaggaatattttttaatgtTTTACTCTCTTCTTGTGCACCCGATACTCATATTCTTTCTGATGCTCTTGCTTTAGTTATGAATTCTATTTCG 
TATGAAAACTAAATAAGAGATCACCTTTTCCTTTTGCTACTTAAGCAGTTAATAGTAATTACCATTCATGATGACGTTAATCCTTAATAAATGAGAACGT 
TAGCTGCAGAAATGGCTAAGGGAAGAATGTGATTTTTTAAATGTCCAGTGTTGAAAAAGACTAAATGTGTTCATTAAACATCTATTTAgtctttgtagca 
attacttatttctgcctttctagtgcaaaagcaaccagacacaaggtaatgggcatgacgtggctgtattccaatgataaaacttttacttacaaacaga 
gactgagggccACACAGCAGGGCAGTGATTCCTGGTGTAGATTGTTGGACCTCTTTATTTAATGCTGAATTACTCCTTTGAAATTAGTCATGGTTGTTTG 
TTTTAGAATATACTGTTTGATAGATACATGTTCAGTGTACACTGTGCCCAATTATTTGTCCCTCATTTGCATGTAACCATGTTTGTATTGATAGGTATGG 
CTACCATATCACCAGAGCTTCGTATTTTATCTGCCATGATCAAGAAACTATTAAACAATTATTTGAAAACCTTAGAAACTAT 

>PGM2_turTru Tursiops truncatus (dolphin) -L1MA9 6155-6265 29% -MER58A 37-148 21% FISAEVGSFLAQNCLVSAAKAIYV YGYHITKASYFICHDQGTIKKLFENLRNY 
TTCATAAGTGCAGAGGTTGGCAGCTTTCTAGCACAGAATTGTCTTGTTTCAGCAGCTAAAGCCATCTATGTTGAGTAAGTTCTTCTATGACTGTTAAATG 
AGTAATGTTTTTTTTCATTTCAGTTGTGCAACACAATGATTCAATGTATATCTATTATTGTGAAATGATTGCAACAAATACAGTTTACATGTATCCCCAC 
ATGTAGTAATATTTTTTAATGTTTTACTCCGTTCTTATGCATGAGATACTAATATTCTTTCTGATGTCCTTACTTTGGCTATGAATTCTATTGCCTATAA 
AAACTAAATAAGGGATCACCTTTTCCTTTCGATATTTAACTACTTAATAGTAGTTACCCCTTCATGATGACATTGATTCTTAACAAATGAGAACATTAGT 
TGCAGAAATGGCTAAGGGAAGAATGTGATTTTTAAGTGTCCAATGTCAAAAAAGACACATGTGTTCACAAAACATGTTTAGCCTTTAAAGCAATTATTCA 
CCAGTGTCTTTGTAGTGCAAAAGCAGCCAGACACAATACATAAGGTAATGGGCATGGCATGGCTACGTTCCAATAGAGAAACTTTTACTTAGAAATACAG 
GCTGAGGGCCACAGAGCAGTTCAGCGATCCCTGGGGTAGATTGTTGGACCTCTTTTATAAAATTGGACCTCTTTTTTTTTTTTTTTTTTTTTGGCGGGGG 
GTACGTGGACCTCTCACTGTTGTGGCCTCTCCCGTTGCAGAGCACAGGCTCCAGACGCGCAGGCTCAGTGGCCATGGCTCGCGGGCCCAGCCGCTCCACG 
GCATGTGGGATCTTCCCAGACCGGGGCACGAACCCGTGTCCCCTGCGTCGGCAGGCGGACTCTCAACCACTGCGCCACCAGGGAAGCCCTGAACCTCTTT 
TTTAATGCTGAATTATTCCTTTGAAATTAGTCGCGGTTATTTGTTTTAGAATATACTGGTTGATACATGTTCAGTGTACACTGTGCAGAATTATTTGTTC 
CTCGTTTTGCATGTAATTGTGTTTGTATTGATAG GTATGGCTACCATATCACCAAGGCTTCGTATTTTATCTGCCACGATCAAGGCACTATTAAAAAATTATTTGAAAACCTTAGAAACTAC 

>PGM2_susScr Sus scrofa (pig) cdna + tiled -L1MA9 6159-6264 27% MER58 212-271 28% VISAELASFLATKNLSLSQQLNAIYVE YGYHVTKGTYFICHDQGNVKKLFENLRNY 
GTCATAAGCGCAGAGTTGGCCAGCTTTCTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAATGCCATCTATGTTGA 
GTAAGTTTCTATTGACTGCATTTAATTGAAGTAATTTTTTTAATCAGTTTCGGGTGTACGACATAATGATTCAGTGTATATGTATTGTGAAATGATCCCAA 
TGAGTACAGCTAACATGCATCCCACACGTAATAATATTTTTTTTTCTTTCTTTTTCTTTTTTTAGGGCTACTCCTGTGGCATATGGAAGTTCCCAGGCTA 
AGGGTCGAATAGGATCCATAGCCGCTAGCCTAAGCCACAGCCACAGCAGCACGGAATTCGAGCCACATCTTTGACCTCCGCTACAGCTCATGGCAATGCC 
AGATCCTTAACCCACTGAGCAAAGCCAGGGATCAAACCCAACATCTCATGGATCCTAGTCGGGTTTGTTAACCCTTGAGCTGCAAAGGGAACTCCCATAA 
TAATCCTTTTAAATGTTTTACTCTGTTCTGATGCATGAGACTAATATTCTTTCTGATACTCTCATTTTAGCTATAAAGTTGATTTCTTATGAAAACTCAG 
TAAGAGATCACTCTTTCCTTTTGATATTTAACCCCTTAATAGTAATTACCATTCATGATGACATTAATCCATAACAGATGAGAACAGTAGTTGCAGAAATGGGTAAT 
GGAAGAATGTGATTTCAACTAAATGTCCAATATCAAAAAAGACTAAGTGTGTTCATGAAACATCTATTTACTATTTATAGCAGTTATTCAGCTCTGCCTT 
TGTAGTGGTAAAGTGGTCAGACACAATACTTAAGGTAAAAGTTTCCAGTTATGAAACTTTTACTTACAAATATGGGCTGAGACTGGGCAATAGTTCAGTG 
ATTCCTTGGGGTAGATTCTTGGACCTCTTTTTTTAAATGTTGGACCTCTTTTTTAATGCTAAGTTATTCCTTTGAAATTAGTCTTGCTTATTTGTGTCAT 
TTGTATTGAAGTATACTGGTGAATTACATGTTCTGTGTATGCTGTGTGGAATTATTTGTTCCTCATTTTGCATGTAATTGTATTTGTATTGATAGG 
TATGGCTACCATGTTACCAAAGGTACATATTTTATCTGCCATGATCAAGGCAATGTTAAAAAATTATTTGAAAACCTTAGAAACTACGATGGGAAGAATAATTAT 

>PGM2_vicVic Vicugna vicugna (vicugna) tiled -L1MA9 6162-6310 24% -MER58A 35-157 20% VITAELASFLATKNLSLSQQLKAIYVE YGYHITKASYFICHDQGTVKKLFENLRNY 
GTCATAACTGCAGAGTTGGCTAGCTTTCTAGCAACCAAGAATTTGTCTTTGTCTCAGCAGCTAAAGGCCATTTACGTTGAGTAAGTTTCTATTAATGCTG 
TTTAATTGGAGTAAGCTTTTTATCCATTTCAGATGTACCACATTATGACTCAGTATACGTCTACATTGTGAAATGATCACAATTAGTAAAGTTAACGTGT 
ATCATCACACATAGTAATATTTTATAATGCTTTACTCTGTTCTTGTGCATGGGACACTAATGTTCTTTCTGATGCTCTTTCTTTAGTTATGAATTCTGTT 
TCTTATGAGAACTAGATAAGAGATCATCTTTTCCTTTTGATACCTAATCACTTAATAGTAATTACCATTCATGATGACATTAATCCTTACAAATGAGAAA 
ATTAGTTGCAGAAATGGCTAATGGAAGAATGCGATTTTAAGTGTCTAATGTCAAAAAAGACTAAATGTGTTCATGAAACATCTGTTTAGTCTTTATAGCA 
ATTACTCAACTCTACCTTTGTAGTGCAGAAGCAGCCAGACTCAACACATAAGGTAATGATGTGGCTGTTCCACTAATAAAACTTTTACTCAAAAACACTG 
GCTGAGGGCCAGGCAACAGTTCAGCAATCCCTGGGGTAGATAGTTGGACCTCTTTTTTTTAATTCTAAATTATTCCTTTGAAACTCATCATGGTTATTTG 
TGTCATTTATTTTAGAGTATACTGGTTGATGACATGTTCAGTGTACACTGTGCAGAATTCTTTGTTCCTTGTTTGCATGTAATTGTATTTGTATTGATAG 
GTATGGCTACCATATTACCAAAGCTTCATATTTCATCTGTCACGATCAAGGCACTGTTAAAAAATTATTTGAAAACCTTAGAAACTAC 

>PGM2_ateAlb Atelerix albiventris (African hedgehog) No repetitive sequences [VISAELASFLATKNLSLSQQLKAIYVE] YGYHITKASYFICHDQVTIKKLFENLRNY AB258952  
TTAATGTGTTTGTTAAACATCTATTTATTCTTTACAGCTATCACTCAACTCTGACTTTGTAATACAAAATAGCCACACTTAGTCCATGAGGTCATGGACC 
TGATGTGACTGCCCCAATAAAACTTATACCTACAGATATAATCAAAATAAGATAAAATGGATGCTATCAATACTTAAGAATATTGGCTAAGTAAAAACAA 
AGAACTAGTTTAGAAACCTACAGGGGGTTATTGTTCTTCCTTTTTTTCATGCTATATTATTCCTTTGAAGCCAGTCATAGTTATTAGTCTCATTAACTTT 
ATAATATACTGGTTATATATGTTCTGTGTATACTAGGTAAAGTTATTTCTACCTAATTTTGCATACGTTTTATTTGTTTGCTAGGTATGGCTACCATATA 
ACCAAAGCTTCATATTTTATCTGCCATGATCAAGTCACCATTAAAAAATTATTTGAAAACCTTAGAAATTAT 

>PGM2_sorAra Sorex araneus (shrew) +SOR1_SINE +SOR1_SINE VISAELASFLATRNLSLSQQLKAIYVE YGYHITKASYFICHDQSIIKKLFENLRNY AALT01183695 AALT01470682 
GTCATTAGCGCGGAGCTGGCCAGCTTTCTCGCCACCAGGAACCTGAGTTTGTCCCAGCAGCTAAAGGCCATCTATGTGGAGTAAGTTCCCTACTGACTGT 
GCTTAATCAAAATAACCCGTATTTTTGGATCCATTTTTAACGGTTTATTATGCTCTTGTGTGTGTGATACTGATAGTCTCTCTAATGTCCTCACTTCAGT 
TATAAATCCTATTTCTTAAAAACATGAAGTTAAGGGGCTGAACCGATAGCACAGCGATAGCAAGGTTTGCCTTGCATGTGACCGATCTGGGTTCGATTCC 
CAGCATCCCATTTGGTCCCCTGAGCACTGCCAGGAGTAATTCCTGAGTGCATGAGTCAGGAGTAATCCCTGTGCATCGCTGGGTGTCACCAAAAAAAAAA 
AAACCATGAAGTTAAAAAATCACCTTTTGGGGGGGGTCGGAGAGATAGTGCAGCAGTGGGTAGGGAGCTTGAGTCATTCATGGGTCACCCAGCTTCAATC 
CCTGGCACGCCCTGTGGCCTCCCAAGTCCCGCCAGGAGTGATCCCTGAGCTCAGAACCATAAGCAAGCCCTGAGCACCATTGGTGTGGCCCCAGAATAAA 
TAAATTAGAGATAGAAATCACTTTTTCATGCTTAACTACTTAATAATACTTATGATTGCCATACTCCCTAATGAATGAGATCTAATCGCAGAACTAGTTA 
TTAGTTAAAAGTGTGAATTTAAATGTGTAGTGTCAAAAAAATG ACCAAGATAACCAGCTTATAACTTAGACTTATAAATGACTGCTTATCAATATATCT 
AAGGCCAGACAGCAGTTTACTTTAGCAGTTCCTAGGATAGGTTATTGTTCCTCTTTTTTTTTTCCCTTTATTTTTTGCCCCCTAGAGATCTACCTTTTAA 
AAAAATATTTTTTTAATTGAATCACAATGAGATACACAGTTACAAATTGTTTCTGATTTGATTTCAGTCAGACAATGTTCAAATATCTGTCCCTTTCACA 
GTGTACATTTCCCACCACCAGTGTCCCCACTTTCCTTCCTTGTTCCTCTTTTTTCATGCTCAGTGATTCCTTTGAAGCGAATTATGGTCATTCGCTTCAC 
TTGCTTAAAAGCAAATGAATCAGCGGCCGATTGATGTCCTGTGTTCGAAAGACAGAATTCTTTGTTCCTTATTTTGCGTGTATTTGTATTGATAGGTATG 
GCTACCATATAACCAAAGCTTCGTATTTTATCTGTCACGATCAAAGCATCATTAAAAAGTTGTTTGAAAACCTTAGAAATTAT