definitive epidermis



Overview

A single cell layer of post-mitotic epithelial cells containing ciliated and non-ciliated cell types.

 

definitive epidermis

 

"DEFINITIVE EPIDERMIS" TERM REFERENCES

OCLC:16809160

 

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Tissue Description

 

Definitive epidermis development begins during S5, with the advent of p53 expression in piwi-1+ cells (Figure 6 A, Figure 1 – figure supplement 15 A-B, Figure 1 – source data 5). p53 and zfp-1, transcriptional regulators upregulated during S5, are required for production of epidermal progenitors in adults, and knock-down of either gene results in loss of the epidermal lineage(s) (Pearson and Sánchez Alvarado, 2010; van Wolfswinkel et al., 2014; Wagner et al., 2012). Epidermal lineage progression during embryogenesis likely utilizes the same transition states elucidated during adult homeostasis. Transcripts expressed in post-mitotic epidermal progenitors, including the Category 2 genes prog-1 (NB.21.11e), prog-2 (NB.32.1g), prog1-1, prog2-2, and prog2-3, the Category 3 genes AGAT-1, AGAT-2, AGAT-3, Cyp1A1, egr-5, SMED30000058, SMED30001567, SMED30002242, pmp-10, SMED30008120, SMED30025584, odc-1/DCOR-1, litaf, pmp-6 and the Category 4 gene zpuf-6 were among the enriched transcripts in S5 embryos (Figure 1 – source data 5) (Eisenhoffer et al., 2008; Tu et al., 2015; van Wolfswinkel et al., 2014; Zhu et al., 2015). Consistent with the RNA-sequencing expression trends, the Category 2 and 3 progenitor markers, prog-1 and AGAT-1, respectively, were first detected by WISH during S5, in scattered parenchymal cells (Figure 1 – figure supplement 15 D-E).  Notably, p53, prog-1, AGAT-1 and zpuf-6 positive cells were more numerous on the presumptive dorsal side of elongating S6 embryos (Figure 1 – figure supplement 15 B,D,E,G), and cells appeared to be more densely packed along the anterior dorsoventral margin. This positional bias in epidermal progenitors was transient, with little difference in the number or density of positive cells observed during S7 or later. Markers of late epidermal progenitor population(s) present within the epidermal monolayer, such as vim-1, vim-2 and vim-3 (Tu et al., 2015; van Wolfswinkel et al., 2014), showed enriched expression during S7 and S8 (Figure 1 – source data 7, Figure 1 – source data 8). vim-3 was first detected by WISH during S6, predominantly on the dorsal side of elongating embryos (Figure 1 – figure supplement 15 H). By S7, an uninterrupted layer of vim3+ cells blanketed the embryos, with dorsoventral biases in epidermal cell density becoming less apparent as development proceeded. crocc (rootletin), a marker or terminally differentiated, ciliated epithelial cells (Scimone et al., 2011), was detected during S6 and thereafter (Figure 1 – figure supplement 15 I). 

 

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Figures

Figure 1 – figure supplement 15: Molecular markers for the definitive epidermis

A, C, F:  Average RPKM values per embryo for: A) zeta (z) class neoblast transcripts C) Category 2 and Category 3 transcripts, and F) Category 4 and 5 transcripts, Y (yolk), S2-S8 (Eisenhoffer et al., 2008; Pearson and Sánchez Alvarado, 2010; Tu et al., 2015; van Wolfswinkel et al., 2014; Wagner et al., 2012; Zhu et al., 2015). Transcripts shown had enriched expression during S5, S6, S7 and/or S8 and are flagged in excel tables for S5-S8 enriched transcripts (Figure 1 – source data 5, Figure 1 – source data 6, Figure 1 – source data 7, Figure 1 – source data 8). 

B, D-E, G-I: WISH with riboprobes complementary to: B) p53, D) prog-1, E) AGAT-1, G) zpuf-6, H) vim-3, I) crocc (blue), S3-S8.  Anterior: top (S6-S8). D: dorsal. V: ventral. Red arrowheads: definitive pharynx. Red arrows: ciliated protonephridial tubules. Scale bars: 100 µm.

 

 

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In Situ Hybridization Data

Smed IDAccessionNameAliasEnriched during stage(s)Tissue/PatternImages
SMED30024865Intermediate filament b-like proteinvim-3Stage 5, Stage 6, Stage 7, Stage 8Category 5 cell, definitive epidermis
SMED30030007RootletinH.2.8b, croccStage 5, Stage 6, Stage 7, Stage 8Category 5 cell, definitive epidermis, protonephridia

 

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Sequences

smed_20140614 transcript sequences for genes validated by in situ hybridization (above).

>SMED30002072 ID=SMED30002072|Name=Intermediate filament b-like protein|organism=Schmidtea mediterranea sexual|type=transcript|length=2324bp
CATAAATGGTGCACTTTTGAGAAATTTGCGTTGGAGTAAATAGAAAGCAGTCTTAACAAAAGGATAACTAGGTCAGAACA
ATAGCTGCGTTGAAAAATCTATTATAAATATATCCAACTTTCAACTTGTTTCTCTAAAGTTATTTTTGTAATAATGGAAT
CGTCTAAAAGAACTGTCATTACGACTTCTAAACAAGAAGGGCCGATTAGTGGCTCAAGTTCGGTTACTAGATCTGGAGTC
TCAATGACATCAGGTTCTGGTTCTACTTACGGATCGGGATCTGGAGGAGAATTGGGCTCAGGTTCAGGATCCGGCTCTGG
AAGTCGATATCAAAGTTCGTCTCGTGTTACTACAACAACTAGATCTGACTATCCACAATCTGGAAATGAAAGAGAAGACT
ATAATGAATCAGGAAGTCAACAATTCAATGAAGATGGATCAGAGATTTCTGGTCGAATCGTTTCAACTACCAGATCCATG
TATAAGCCAATAAGTCAATCAAGGAATAATTTCAAAGACTTGCAAAGAAATGCTGCATCTTTAAGTTATAGTATGCAGTC
TGGAAACCAACAAAGTGGTTCAGTTATGCCACTCATCAGAGGTGATAGTGTAGCCTTACAGACTGGACTGAATTCGATAA
AGAAAGGAAGAGCTCAAGAAAAAAAAGACTTACAAGAGCTGAATGAAAGATTTGCGAGTTATATAGAAAAAGCACGATTT
TTGGAAGAGCAAAATAAGCAATTAGTCGGTGAAATTGAAGAACTCAAAGGGGGAACTATTCAAGATACATCAAAAGTTAA
AGAGATCTATGAAGTTGAAATCAATCAACTCCGATCTTTACTAAACGAATCAGAGAAAAGTAGAGCACCACTGGAAATTC
AAGTGAATTCCTTGGAATACGAAATAGGCGATTTGCAAAAAAGACTGCTGCTATTAGAGGATATAGGTACACAGTATAGA
GCAACGATTGATAAACAGCGTCGAGAACTCGAGACCTTCGAAGGGGAAATGGTTGAATTGAAAAGGTTTAAAGACACTCG
AAGTATCGATGCTACAAAAGAAAAGGATGAAACAAGCAACTTAAGAGATGAAATAAAAAAATTAAGACAAAACTATGAAA
AAGAAGCATTAGCGCATATCACCCTTGAACATGACTTGCAGAGTTTGAGAGAAACTATGGAGTTCGAGAAACAAATCCAT
GCTACAGAAGTAAAAGAGCTGGCAACCGTTGCATATCAAAACCCAACGAAAGAAAACATGGTTTACTGGCAAAGTGAAAT
GGGACGTGCTTTACGGGACATTCAAACTGAATATGAAAACAAGCTTACAGGAATCAAACAAGAATTGGAGGCTTCTTATG
GTTTACAAATGCAGGAAATACGAACAAGTAAAACCAGAGACAATGTGGAAACGACCCATTACAAAGAAGAGAACAGCCGA
ATAAAATCTCAAATCCAAAGCATGAGATCGAGAATCGCTGATCTTGAGATGCAGAATGCTGAATACGAACACAACTTGAA
TAATATTCGTGCTAATTACGAAGAAACTCAAAGAAGTCTTGAATTGCAGTTGTTGTATTTGCAAGAGCAATTGACAGGAA
CTCAACAAGAATTGACAGTCGCTTTGACCGAACTCCAAAGCTTATTGGACGCGAAGTTGGGACTGGAATTAGAAATCGCA
GCCTATGCAAAACTATTAGAATTCGAAGAGAGTCGTGTCAATTTCTCTGGTGATGGCAACGCTACTTTATCTCAATTTAT
GAGTTTCACATCAAGTAGCGGAGCTGGAGGTGCTGGAGGGGCTGGAGGTGCTGGTGGTGCTGGAGGAGGAGGAGGAGGAA
GCAGTGGGTTCGGATCAGGAAGTAGAATTGGAGGGTCAAGTGGTTTCAGCGGAATGACAGAAAGAGAAACAACTGACTAT
CAGTCAAAACGAATGAAATTTAGACGAACGACAAAGGGAAACATTTCCATTGCAGAGACTGACCTTATAGGTTCAACAAT
TATTCTGGAAAATATTGGGACCAAAGTGGAATCACTCGAAGGTATGACTATTAAAAGAGTAGTCGACGGCAGCGAAAATA
AAATCTCATTTACCATTTCCGGAAAAGTTAACTTAAATGCTGGTGAAAAGATTTCTCTTTGTGCCAAAGGGAAAATAACC
GGCAAAGGACGAGAAATCGAAATTGATGATGCTTCATGGGGGGTTGGTAACAATGTCGTAACAACACTTTGTGATTCAGA
AGGAGCGGAAAAGGCAGCTCACTATCAAGAGGTTTCGGCCTAGAAACCTTGCTAAATATTAAACTGAATTTGTATGAACA
TAAC
>SMED30014019 ID=SMED30014019|Name=Intermediate filament b-like protein|organism=Schmidtea mediterranea sexual|type=transcript|length=768bp
AATTAGAAATCGCAGCCTATGCAAGGTTATTAGAAATTGAGGAAGAGCGAGTTTTAAGTTCCGCTGATCAACGTTCTGTG
ATGTCTCAATTTATGAGTTTTTCAGCTGGTGGTGGAGCTGGAGGTTCTAGTGGAGTTGGAGGATCAGGAGTTGGAGGATC
AGGATTTGGAGGATCTAGCTTTGGAGTGTCAGGCACCGGACGATCAGGCTTTGGAGTGTCAGGTACCGGAGGATCTATGG
GAGGAAGTAGATTTAGTGGAAGTCTAGGACTTGGGGGCGGGATTCATTCAAAAAAGATGTCTTCAAGAAGAACGACAACG
GGAAACATTTCTATTGCCGAAAGTGATGAATCTGGGTTATTTATTGTTTTAGAAAATATGGGAAGTCAGACTCAAAGTCT
ATCTGGCATGATGATTAAAAGAAACATAGATGGCGTAGCAAACTTTGTGACCTACTCAATTCCGAAGAAGATCGATCTAT
CCGCTGGTGAAAGAATAACAATTTGTGGACATGGAAAGAAAACAGGTAAAGGAAAAGAACTAGAAATAGAAGAAGATTCT
TGGGGATTTGGAGAAAACGTCATTACTGCGTTATGTGATGCGAATGGCGAGGAAAAAGCGGCTCTTTATCAAGAAATAGT
GGCTTAAATGGCATAGCCGAAAGACTTGCAAATTTAACCTTTTATTTAATGATTTCATTTAATGTTCCTCGCGTTCATTA
TTTGTTTGCTTCTTTCTAGATTAAAGTTTTAAATTTGTTGAAAAAAAA
>SMED30023882 ID=SMED30023882|Name=Rootletin|organism=Schmidtea mediterranea sexual|type=transcript|length=6811bp
TATAAATTTTAGCAATCCATATCAACTGATATGAGATTTTCAATTTCGCATTAATTTAAAATATTTATTCAAGTCACACA
TCTTAAATCTGGTTTTATAAGAATCATAATGAGTTCCGCAAATAGAGACGAGAGATTGGAACAAGTTGCACAAAAACTGA
ATAAATTTACAGATATATTTTACCAGAGAGTGGAAAATGTTTTAGCTGATAGAGACAATCAAGGATACTTAAAATACAAT
TCCGGACGAATTGTAAGCAATACATCTCCTGGCATCGGCGGTTTCGACCTGTCAAACGGCGATAAACCCCAAAAAATGCC
AGAAGTTGTTAAAGACATCATTCTGAGAGATTTTGGTGACACTGATGAGGATGAAGATTCCATAAAGGATTTACGAATGC
CAAAACCAAACTCTCAAAACACTCAGTCAAGCAGTCGCTTACAAACCTACGGCAACGGATTAGATTCCGTAACTCAACTA
AAAGCAGAAAATGCTACTCTTAAAGATAGCTTGTTTAATGTTGAAGAAGAACTGTTACGATTGAAAAATGAAAGAGATAA
TCTAGCAATTAAATTCAATGCCATAAATGAAAAACTCAACAAAACATTTACAGCGGAAAAATGTGGAGATAGAAGAGTGT
CTAATGCCAGCGAAGAACTTAGCAATGCGAATTCTTTAGCATCACAAACGATTCAATTGAGAAAACAACTTGACGACGAT
CATCGGGAGTATAAACGCAAACTTGCCGCCCAGCACGATCACCAGATTAAGCAGGCAGAATTAATTAAAAGACTCCAACA
AAAATTAGAACAACTCGAAGGTCGGAATGGCTTAGTGGAAAAATTAAACCAACAGAATAGTAAGCTACGGTCTGAAATAA
GTCGGTTAAAAAACCATTTCCAAACAACAACTTCGGATTTAAATCGTCGAATTGACATTGCGGAAAATCATCTGAAATCA
GCAGAAACCGATAAAAATATGGATCTCGAATCAGTGGTTAATGAATTGAAAGAGGAACAGTCAAAATCTATGAGTTTGTT
GCAAATGACAGCTTTATTGAGAGACCAATTAGACGAAGCTACAAATGCAAATCAAGGCCTAACAGAGGACGTTCAAAGAC
TGTCAGAAGAAAATAGTTTCTTGAAAAGCGAATTAGAACAAAAAGACATGGATTGGAAAGACGATGAAGCCACGTTTAGT
CGATTCTTGATTGGTGAACAGAATCGCATTAAATCTTTGTGGAATGCAGTTGTAAATTTTAAAAGACAATTCAATGACAT
TAAATCGTCAAATGAACGAGATTTGCATCAGTTACGGGTTAACATTGAACAATCTACTCAGTCGTTACGATTAGCTTGTT
CAAATCTTGACACGAATCACGTAAACAGGTTAAGTCAATTACAGTTCCAACTGGATACAGAAAAAAATAATTGCTCCCAG
TTAGAAAATTCTTTATCCAAAATGAAAGAAGAATTCCGAAAAACTGAAACTCAATATCAAAAACAGATTGAATCATTAAA
TGAGCAATTTGTCCACGTCAATCGCTCTAATGAAAGTCTAACGAAAGAGCTTGCTGATAAAGAAAAAGTCCTAACTACTC
TCCACAAATTAAGAAATGGCATGAATGGAGATTTAGACAATTCAATATACAACAATGATGATTCTGCTACCAGACAGTTG
ATTATTGACACTGATGCTGTTCATCAAGCATTAAGGGATATCGCTCAACTTGTTATGAATGATGTCGATCAAGTTGATGA
CTCTCCATGGATGCAAGATGATTATCTGGACGAATCCAAAACCACGGGACAACTGAAACCAACCCTATCCATAAATAGTT
TGCATTCAAATAGAAGTGTGAGCCCAACTCGCCCATCGAAACGTAGCCACTTCAACTCAGGATCTTTAGACAGAAATCGC
GTTTATCGAAATAAATCTCCAGTGAGTATTGCTGATTCAACATGTGCAGCTGTCAGATCGGCTTTACACAAACGAGCACT
TCAAGTTCAAGATTTAACCAGCAAAATCAATTCCGCAAAAAATAATCACAATAGCGTCAAAAAACAATTGGATGACAGTG
AAAACGAGCGCAGAAATTTAGAAAAACAATTCATTGAATTGCGAAGTGAATACGATTCAAATCATCGGGAACTGGACGAC
ATTCAACGGGAATGTGAACGGATGCGACATACAATTTCAATGCTGGAAGAAGACAAATTAAAGTTGGACAAAAGTCGAAT
GAATTCTTATGAAGAATGTAAATCATACAAACAAGACATGGAAAAACTAAAGACTCTTAATTACGAATTACAACGCGACA
AAGAAAATCTAACAGATAATTGTCAAGATTTAGATAGAAATCTAGAAAGACAAACGAAAGAAGTGGAGAGATTGACGAAA
TCAATTGAAAATTCCGAAAGTAAGAGTAGTCGACTGAAAGAAGAAATTTCTTCCCTTAAAGAATCTTTAAATCGGGCTTT
ACTTGAGAAAGAAGTTTTAGAACAAGAAAATTCAGTTCTCACAGATTCATTGAATAAGACCGAAGTTCTAAAAGCCGAAT
ACGAAGTTAAAGCAAACAAATTTAAAACGGAGGAAGCCAGACTTCGAGATAAATTCCATCAGTTGGAATCTATGAATCAT
TTCTTAGTCAAAGAAAATTCTGAATTCAAAACGATCATAGATCAAACGGAATCGGAAAAGCATCGGCTTTCTGGAGAGAA
AAAAGCCTTGGAACAAGAGAAATACGGCATCCGAGAGGAATTAATGCGGGTTGAAAATGAGAAGGAAGAATTGAATCAAA
TGAAAGATGGTCTTCATCAGTCTATGCAAAATGTTGAAAAATCTTATGAAAATTTACAAGATGAATTATCAAAATTAAAT
TATGAAAAAGGGCAATTAGAAACCGCTAATGTGACTTTACAACGGGAGCGAAATGCACTTTCAACAGAATTGCTCCAAGC
GAGACGAGATGCCGAGCGATTGTCAGCTGCTGTGCAAAAATCAATGAAAGATAAAGAAGTGCTAGCTAAAGAAAAAATCG
ATTTAATATCACAATTGACTACTTTTGAACACGAATTGAGAGAAAATGCGGACGCAATTTATGTTTTACAAGAAGAAAAA
GAACAACTTGATGGTTCACTCTATGAAAGCCAGCAAAACATTTCTCAATTGGAGGCTAAAATAGAAGCTCTCGAATCTAA
TTTGCAACAATTAGAAAGGAAAAGATCCATTATTTTTGACGAAAAACAACGATTGCAACATGAATTTGATGTAGAACTTC
AAAAACTTAGTAAAGCTAAAGAATCTTTACAAATAAAACTTAACGAATCCGAGAAAGAATGGAACAAAATTCTCCGATCG
GAAAAAGAAGCTCGCGAAGAAGACATTGAACGCTTGATTGCTGAGAGAGAAGAGCTTCGAAATGAATTCATGAAGTATAA
AGAAGAAATAAAGCTGCAATTTCAAGAGGAAATTGATGATTTGAGACATAGATTGAATAGAGATAAAGAGGAACTGGCTC
AAGAGATTATTACAATCCAAAGAGAAAGAGACGATTGTTTATTGGAAGCAGAAATGGGAAAACAGCACGCTATTAATTTG
CTGGAGCAGGAAAAAATGTCAATGTATGAGAAGATTTCCCAATTGACAGATCTACTCAGAACTTCTGAATCTGATCTAGA
GCGTACTCGAAATGAATGTGAAATTCGAGCCCAACAAGATCAAAATACAATTCAAACATTTAATGGCGATTTAAAGAAAT
TCCGTCTTCAATTTGAACAAATTCACATCGATCATGATCGGGAAATAAAAAATTTACAATGTGCCTACAAAGAACTTGAA
AATCAAAAATATCAAGATATGAGAGAAAATGAAGAATTGAAGTCACTATTGAAAATTGCAGAAGAAACAAGGGATAATTT
ACGACAAGATCTATCAGAGTCAATGGGGAAAATCAGAGAAACCGAAGACCAAAGGGAAAGATTGCGCCGGGAATTAATGG
ACGAAAAACGAAATTATTTCGAAGTGAAAAAAGAATTGGAAACTATTCAGTTGTCAAATAAGGAACTTAGAGAAAAATTG
AAAACATCTGAAATGCAAAAAATTGATATCCAAAGACAATTACAAGATTTACAAAATAAATTATCAATTCTTGAAGAGCA
GAAACAAGTGTTACAAAAAGAAGTAAAAGATACCAGATATAATTTACAGGATACTGAAAAAGCTCGAGTTGATGTTCGTC
GCGAATTGGAAGAATTACGAAGTCAGGTCAAGAAACTTGATACTGAACGTGGGAAATTGGTAAATGAAGTGAGCGGATTA
CAAGTGCGTGTAGCAACTGATGAAAATAAAGAAGTAGAAGCTAGACGAGAGAACTTTGGATTGAAACAGAAAGTAATAGA
ATCTGAAGCGACCAAAGAAGAATTATCTAAACAGCTTTATCAATCGCTTCGAAAGAATGAGGAACTTGAAGAAATTCTCA
ATTCCAAAGAGAAAACCACTAAACAATATTACGATGAAGTGTTAAAAGATTACAAGTCATTAGAAGAAAGTAAATTAAAT
CTCGAGAATCAATTGGAAATCACAAATCACAATTTTGAGGAATTAAATTCAACTTTATCTACTAAAGAAAATAGAATAAG
TCTTCTGGAAAATCAAATAAATATTTTGGATCAAAAGCGAAAAGGTGCAGAAAATCGGTTGGCAACTATACATAGTCATT
TAAGAAAACTGATTGGATTTCGTCAGCAAATTTGTCAGACATTAAGGAACAGATCTCCGAGTCCTGGCAGACGTTCTCGA
TCAGTGTCTCCTGAAAAAGGACGAGTTTCCAGTAGGAATTCTGTTGAATTTAATTTCTCTGAAGATCGTAAAAGAGTTGG
AAGATTTGGTGATGTGAATCAATATTCAGAATCTGTTATTCCCGGTTCTGATCTGGATCCAGAAGCAGTTCGGATAGCAT
TGAGAGACATTACTCAACACATTGTTTCCATAGAAAGAGAACGCGACGATATGGAAATCAAAGCTAAAAATTCCGCTTTG
AAAAGTGATGAAACATCGGTTCAGTTAGATCAAGCTTTACAAAGAATCAATCAACTGCAGAAAAACTTTGGAGAAGTTGA
AGAAGATAAAAAAGGAATTGATAGTAGATTGTCAAGCGCCCAGACTGCTCTGATGATGCAGGAGGAAACCATTCACAGAA
ATGAGCGCGAAAGAAAATCTTTGATTGATAAAGTTGGGAAACTCGAAAGACAATTAGCCCACGTAGAAACTGAAAAGAAA
TATTTACAAGAACGCGTTGATAAAATGAGAACAGGTGAATCCTATCACGAAGAAGAAAGAAGAGGTTTAATTAAAGCGGT
TGATGATGCAGAAAATAGATGTACACAATTAGAACTTCTGCGTCGAGGTTTGGAAGGTGAGTTGCAGAGACTGAAAATGG
GATTTAATGATAAAGAAACTGAAAACCAAGTCTTGAGGGATAGAGTAGATGCTCTAACAAAACAGATTTCCGATTTAGAA
TCTAAAGCTCAAAGTTTACAATTAACTATAGATAGATTATCAATGAATCTTGCAAGAACCGAAGAAGAGGAGAACACGCA
AAAAGATAAAGTTCACCAACTTAATCTTTCGTTAAGTGAACATCAAGGAAACCTTCAAAGTATGCAAGATAAATTAGTTC
AACTTCAGAGTACTTTGGCAAGTTCGGAACATGATCGAAGAGTGCTTCAGGAAAGATTAGAGTCTGTCAAACATAATTTA
TCAGAAGCTAAATCCCAAAATCATACTCTTGTGGATAGAATGAAGGCCACGCAGCAAGAATTGATGGAATCTGAATCCAG
GAAACACGAAATTGAAGGTGAAATAAAACGACTAAGCCAAATTCTTTCTCAGCGACAAGAAATTGAACAAGAACTTCAAT
CTAAAATTCATCGCTCAGCAATGGAGAAGAATTTGCTAACAGAAAGATTAAATAGTTTAACAGCTTCTCTTGCTGGCCTA
GAATCCGAAAGAAGAGATATTGAGAAAGTTCATATAAAAACTGAAAAAGAAAAGAATTCACTTAAAAAGACATTAGACAA
ACTTGAAAAAGAGAAAAATCGATCTGAAGAATCTATCAATCAATCACTTTTGAAACGCAGTGAATTCGATGAATTTACCC
GCCGGCTTGAGGATGAGAATGAAGTGCTACATCGACAAGTTCAAAAATTACAAAACCAATTGGCAGAAGCTGAACAGTGC
CATGCTCAAAGAATAATGGAATTAACTTCTCGAATAAAAAATGAAATGCTCTCTGAAATTGATAGACTAAAATCTGCTCT
AAATTCCACTGAAAAAACTCTACAGTTTCGAGAAAGATCGCACAGACAAAAAGTAAAAAGTTTAGAAGAACAGATTAACA
TTCTCAAAGATCAACTCTCACAGGAACTCAAAAAACGTGAATTGAATTTAAATAAATCCAATCGTGGCCTTAAAAATGAT
ATTTGTGATATTAAAAGTATTTTGGAAAAGAATTCTAACAACATCTCAAAAACATCATTTGACAACTTACTTTACGAGCC
AGAAATACGAAGGATGAAAGATATATTATCGGAATCTGGTTATTCTAACAACTGCAATGTAATATCCACTATGAAACAAT
CTCAGCGTCCTGGAAGTCGCCTACAAAGCAATTCACTGTCGCGTCAAAACATATCGTCCGCCAGTCCAACTAGAGCCAAA
AAGAAATTATAAATATCCAAATGAAACTTCAAATATTTCTTTACGAAACAGCACTTAACATAAGACGATGATTATTATTA
TTATTATTATT
>SMED30024865 ID=SMED30024865|Name=Intermediate filament b-like protein|organism=Schmidtea mediterranea sexual|type=transcript|length=2214bp
GATCTTATAAATACAACATTAATTGTATAGTGAACTATGTTAGCCATTGAAATGGAGACAAGTAAAAAAATCGCAGTCAA
AACTACGAAACAAGAAGTAAGTGGAAGTGGAAGCTCTGGTGGACTAAATGAACAACAAGCTTTTGGAAGTGGTAGCTTTC
GAACCGGGTCTGGAGGTGTACAGATAAGTGCTAGTGGAGCAATTGGATCTAGCAGTTCAGGCGGAGTTAGTGGCACTGGC
GGAGTTGGTAGCATTGGTGGAGGCAGTGGTGCTGGTGGTGAAGGAACAGGAGCTAGCACAGTTATCACTACAAGCAGATC
TTATTATAAGCCTATCAGTCAACCTAGAAATAATTTAAAAGACTTACAAAAAACTTCTGGTATGAGTTACAGTGCACAAT
CAAACTCCCAGCAAGGTTTAAGTAATATTCCATTGATTAGGGGAGACAGTGTTGCTCTACAATCTGGAGTAACTTCAATG
AAAAAAGGACGAGCTCAAGAGAAAAGAGATCTTCAGGATCTGAATGAAAGATTCGCTAGTTACATTGAAAAAGCTCGATT
TCTAGAGGCGCAAAATAAACAGCTAGCCAATGAGATTGAAAAGTTAAAAGGTGGAACCGTCCAGGACAACTCAAAGATCA
AAGAAATCTATGAAGTCGAAATCAATCAACTTCGAGCTTTGGTAAATGAATCGGAAAAAAGCAAAGCTCCTTTAGAAGCT
CAAGTTGATTCTCTTGAATACGAAATTGATGATTTGAGAAAACGATTAATGATGCTGGAAGACATCAACTCTCAGTACAA
ATCCACCATCGATAAGCAACGCAAAGACATTTCTGGATTTGAAGGGGAATTGGTGGAGCTAAGAAGATTCAAAGGCACCC
AAGGTGCTGATGTAAATAAAGAAAAGGAAGAAGTAAAAACACTAAGAGACGATTTGAAAAAATTGAGACAAGATTATGAG
AAAGAAGCTCTAGCTCATCTCACCCTTGAACATGAATTACAAAGCTTGAAAGAAGCATTAGAATTCGAGAAACAAATACA
TGACACAGAAGTAAAAGAGCTGGCAACCGTTGCATATCGAGACCCAACGAAAGAAAATATGGTTTACTGGCAAAGCGAAA
TGGGACGCGCGTTACGAGACATTCAAACTGAATATGAAAACAAGCTTACAGGAATCAAACAAGAATTGGAGGCTTCTTAT
GGTTTACAAATGCAGGAAATACGAACAAGTAAAACCAGAGACAATGTGGAAACGACCCATTACAAAGAAGAGAACAGCCG
AATAAAATCTCAAATCCAAAGCATGAGATCGAGAATCGCTGATCTTGAGATGCAGAATGCTGAATACGAACACAACTTGA
ATAATATTCGTGCTAATTACGAAGAAACTCAAAGAAGTCTTGAATTGCAGTTGTTGTATTTGCAAGAGCAATTGACAGGA
ACTCAACAAGAATTGACAGTCGCTTTGACCGAACTCCAAAGCTTATTGGACGCGAAGTTGGGACTGGAATTAGAAATCGC
AGCCTATGCAAAACTATTAGAATTCGAAGAGAGTCGTGTCAATTTCTCTGGTGATGGCAACGCTACTTTATCTCAATTTA
TGAGTTTCACATCAAGTAGCGGAGCTGGAGGTGCTGGAGGGGCTGGAGGTGCTGGTGGTGCTGGAGGAGGAGGAGGAGGA
AGCAGTGGGTTCGGATCAGGAAGTAGAATTGGAGGGTCAAGTGGTTTCAGCGGAATGACAGAAAGAGAAACAACTGACTA
TCAGTCAAAACGAATGAAATTTAGACGAACGACAAAGGGAAACATTTCCATTGCAGAGACTGACCTTATAGGTTCAACAA
TTATTCTGGAAAATATTGGGACCAAAGTGGAATCACTCGAAGGTATGACTATTAAAAGAGTAGTCGACGGCAGCGAAAAT
AAAATCTCATTTACCATTTCCGGAAAAGTTAACTTAAATGCTGGTGAAAAGATTTCTCTTTGTGCCAAAGGGAAAATAAC
CGGCAAAGGACGAGAAATCGAAATTGATGATGCTTCATGGGGGGTTGGTAACAATGTCGTAACAACACTTTGTGATTCAG
AAGGAGCGGAAAAGGCAGCTCACTATCAAGAGGTTTCGGCCTAGAAACCTTGCTAAATATTAAACTGAATTTGTATGAAC
ATAACAAAATTTTTAGTAATTTAATAAAAGTTTATTATTTTATAAATCCAAAAA
>SMED30026612 ID=SMED30026612|Name=Intermediate filament b-like protein|organism=Schmidtea mediterranea sexual|type=transcript|length=2359bp
TCTTATAAATACAACATTAATTGTATAGTGAACTATGTTAGCCATTGAAATGGAGACAAGTAAAAAAATCGCAGTCAAAA
CTACGAAACAAGAAGTAAGTGGAAGTGGAAGCTCTGGTGGACTAAATGAACAACAAGCTTTTGGAAGTGGTAGCTTTCGA
ACCGGGTCTGGAGGTGTACAGATAAGTGCTAGTGGAGCAATTGGATCTAGCAGTTCAGGCGGAGTTAGTGGCACTGGCGG
AGTTGGTAGCATTGGTGGAGGCAGTGGTGCTGGTGGTGAAGGAACAGGAGCTAGCACAGTTATCACTACAAGCAGATCTT
ATTATAAGCCTATTAGTCAACCTAGAAATAATTTAAAAGACTTACAAAAAACTTCTGGTATGAGTTACAGTGCACAATCA
AACTCCCAGCAAGGTTCAAGTAATATTCCATTGATTAGGGGAGACAGTGTTGCTCTACAATCTGGAGTAACTTCAATGAA
AAAAGGACGAGCTCAAGAGAAAAGAGATCTTCAGGATCTGAATGAAAGATTCGCTAGTTACATTGAAAAAGCTCGATTTC
TAGAAGCGCAAAATAAACAATTGGTCAATGAAATTGAAAAGTTAAAAGGTGGAACCGTCCAGGACAACTCAAAGATCAAA
GAAATCTATGAAGTCGAAATCAATCAACTTCGAACTTTGTTAAGTGATTCTGAAAAAAGCAGAGCACCCTTAGAAGTACA
AGTTGATTCTCTTGAATACGAAATTGATGATTTGAGAAAACGATTAATGATGCTGGAAGACATAAACTCTCAGTACAAAT
CCACCATCGATAAGCAACGCAAAGACATTTCTGGATTTGAAGGGGAATTGGTGGAGCTCAGAAGATTCAAAGGCACCCAA
GGTGCTGATGTAAATAAAGAAAAGGAAGAAGTAAAAACACTAAGAGACGATTTGAAAAAATTGAGACAAGATTATGAGAA
AGAAGCTCTAGCTCATCTCACCCTTGAACATGAATTACAAAGCTTGAAAGAAGCATTAGAATTCGAGAAACAAATACATG
ACACAGAAGTAAAAGAGCTGGCAACCGTTGCATATCGAGACCCAACGAAAGAAAACATGGTTTACTGGCAAAGCGAAATG
GGACGCGCGTTACGAGACATTCAAAATGAATATGAAAACAAGCTTACAGGAATCAAACAAGAATTGGATTCGTCATATGG
CTCACAACTGCAGGAAATACAAACAAGCAAGACCAGGGATAATGTGGAAACGACCCATTACAAAGAAGAGAACAGCCGGG
TAAAATCTCAAATCCAAAGCATGAGATCGAGAATCGCTGATCTTGAGATGCAGAATGCTGAATACGAACACAACTTGAAT
AATATTCGTGCTAATTACGAAGAAACTCAAAGAAGTCTTGAATTGCAGTTGTTGAATTTGCAAGAGCAATTGACAGGAAC
TCAACAGGACTTGACTATTACTTTGACCGAACTCCAAAGCCTATTGGACGCCAAATTGGGACTGGAATTAGAAATCGCTG
CATACTCAAAGTTGTTAGAATTCGAAGAGAATCGTGTTAATTTTTCATCAGATGGTAACACATCACAATTTATCAGTTTT
TCATCTGGCGTGGGAGCTGGTGGTGTAGGAGGAGGATCAAGTGGAGGGTCAGGTAGAGGATCAGGTGGAGGGTCAGGTGG
TGGGTCAGGTGGTGGATCAGGTGGAGGATCAGGTGGGGGATTTGGAGGTGGAGCAGGATTAGGATCAGGCGGAGGAGGAG
GATCAGGAAGTGGGTCTGGTGGAGGCGCAGGTGGGGCTGGTTCTAGTATTGGAATTGGAGGTGGGGGCAATTTTGTAGGT
GGTTCTCTGAGATTTAACATTAATGAATTGAGCAGTACAGAGGCTGAAGAATACCAATTGAAAAGAATGAAGTTCAGACG
AACAACTAAAGGAAACATATCAATAGCAGAAGCTGACATCAATGGACTGTTTATAGTTCTAGAGAATAACGGAACAAAAT
TTGAATCTTTAACTGGAATGACGATTAAGAGAAATATTGATGGGAATGAGGATGCGGTTTCATTCACCATTCAAAACCGA
ACAAGTTTGAGTTCTGGAGAAAAACTAACTATCTGGGCCAAAGGAAAGAAAACTGGCAAAGGAAAAGAACTTGAAATAGA
AGAAGACGGCTGGGGGCTGGGGGATACTATTGTGACCTCTTTATACAATGCGGAAGGAGAAGAGAAAGCGGTCCATTATC
AAGAAATACAGGGTTGAGCAGGTGCTCACTTAAGACTGACTTGAAATTTATTTGTTTAAATAATACTTTCAATAGGGATT
TTAATGCTAATAAAAAGTATTTAAACTATTAAAAAAAAA
>SMED30030007 ID=SMED30030007|Name=Rootletin|organism=Schmidtea mediterranea sexual|type=transcript|length=6612bp
GTTGTTTTTAAATCACTATTTTTTTTATTTCATCTGATTATAATTTTTTTTTATTGAAATTTGTATTTTGAAATTGGTGA
ACAATGAGTGAGATAGATTATTCCGCTATTGTTCGGAGACGCATTGGAGATATCGATGGGGATTCAAGTGAAGATTCCAG
TTCAAAGGGTTTGCTTCAAGTTAACTTGGAACTGAGAAAGCGCTTAGAGGAAGAACACAATGAGTATCGTAGAAAGCTGA
TAGTTTTCCAAGACAGCCAACAGAAACAAGCGCAATTGGTTCAAAGATTGCAGAAAAAGGTATTGCAATACAAAGAAAAA
TGCACGGAACTTGAATCTAAAATGCAATTTGGCGATTATGAGACTCGAAAAACGAAGTATGGAAGTCCAACGAATAACGG
CTATGGGTCGCGTAGTGAGAATCCCTACGACAATCTGGATTTGGAGAGCACACTCATTAAGTTAGAAGAGGAACAAAAAA
AAACAAATTATCTAACGGAGTTCAATGAACGGCTTCAAGAACAATTAACTCAAGCAACTCAATCAAACCAGAATTTGACG
AGAGACATCAGTAAGCTTTCCGAAGAATGGCAGAGATCAAGGGAGGAGCTTGAACAGAGAGAAAAAATTTGGCGAAATGA
AGAAATGTCATTTAATGACTATTTAGCATCTGAGCATTCGAATCTGCAAAATTTGCAACGCAATACGATAAATTTCCGCC
GTCAATTTATAGAATTGAAAGCTTCAACTGAACGGGAAATAAATAATTTGAAAAATGAATTCAACCGACAGGCACGCTGT
TTGCAAACTGCTTGTTCCAATCTTTCGTGCAACATGAAATCTGCAGAATCTAAACAACAATTGAGTACTGAACGAGAAAG
TCGGGACAAGTTGAATCTCGAAAATCAACTGCGAGAAAAAAACAGAGAATTAACTGATTACCAAACTCGGTATGAATGTG
AAATGACAGAATTGCAACACCGAGTGAAAGAATTAACAGTTCTCAGTGACAAACTGAAAATTCAAAACCTGGAAAAGGAT
CGAGCATTGACAGCTTTGCAAAGAATTAAGAATGGAGATACCGCAGGAGAAATAAATATGGAAGACAAAGCTACAAGAGT
TCTTATTGAAGACACAGAAAGTATGCATCAAGCACTTCGAAATATTTCTCAAGTAGTACTAAATGATTCTGACTATTTCG
ATGCAGAAGACACAGGATTTGAAACAGTTCGAAAGAATAATCGTTCGCCAAGTCCAAGGAGAAATCGTAGCGTCAGTCCT
AACTCAAGATCAGCTAAAACACCGCCATTTGCCGATGCAACGTATGCGGCGGTTCAGTCGGCTATAAATAAAAAATCTCT
ACAGATTCAAGAGCTTAAATCAAAATTAAACAGTTCTAAAGAGAGTTGTACAAACTTCAAAAGACAAATTGATGACAATG
AAAATGAACGTCGACGATTAGAGAATCAAGTTCTCGCCATGAGAGATGAAATTGAAAGTTTACGACGAGATAAAGATGAT
AGTTTTAGAGAAGCGGATCGGTTTAAAAATGCTCTGAACATCACTTCAAATGAACGAAGCCAATTGGAAAAGATTCGATC
ATCACTAAACGATCAAATTGAGCAGCAACTCACAGAAATTGAACGACTTAAGTCAGCCAATCACGAATTACAACGATTGA
GAGAGGCATTGGAAGATGAGCAAGAAGATACTAAAAAAGACTTAGAAAGACAAATTAAAGAAAGTGAAAGATGCCAACGA
TCGATTGATGTTTTGGAAGATAAAATAAGTCGATTTAAAGAAGACGTAGTTAATTACAAAGAGGCAATTAATAAATACCA
ATTAGAAAAAGAAGTATTGGTGCAAGAAAAGGATGAGATTGGTGATGCTTTAAGTCGTTGTGAAATTTCTAAAGCCGAAT
TAGAAATCGAGGTGAATAAACGGCAAACTATTGAAGTAAATTTGGAAGAAAACATTTCAAAATTATCCTCAGAAATCGAA
GAATTGAATGATAAGCGAGCTGAAAACCACAGAACTATTAAACAGCTGGAACATGAAAGAAGTTCTCTTTTGAATGAAAA
ACGATTTTTGGAACAAGAAAAAAGTGGTTTGAAAGATGAGCTTGTTCGATCTGAACAAGAGGCTCTTGGTTTGTCAAATG
AGAAAGCCATTCAACGTCAAAGAATCGAACAACTTGAAATTAATACAGAAAGATTAGAAGAAGAGTTATCGGAACTCAAT
CGAGAAAAGCTAGATCTTACTGAACAAATAGGCTGTTTGCAGAGGCAGAAATCGGCTCTTGCAGAAGAATTGTTGCAATG
TCGTAGAGAATTAGAACGATCTAATAACAGTGTCAACAACTTATCAAAAGAAAAGGAATATCTTACCAAAGAGAAAGGAG
AACTCGTCGTTCAAGTTACAGCTTGCGAAAGGGAAAATCGTCAACAGTCAGAAGTTATTGCTTCTTTGAATTCCGATAGA
GAACAACTGGAAGCTACTCTTTATGATGCTCAACAATTAATCATTCAGTTGGAAACTCGAAAAGAGCAATTAGAAGGCGA
AAACCAAGAGTTGATTGTGAAAAAAGAAAATCTAAATGGAGAACTAGTCAGATTACGACAAGAGTTTCAACTAGAATACG
AGAAGGTTGTTAATTCACGAGAACAATTAAATTGCAGATATCAACAAATGGATAAAGAATATAAGATGGCAATTCAACAA
GAGCGAGATTCTCATGCTGAAGATGTAGAAAGACTAACTAAGATAAACGAAAGCAATCGTCATGGATCTGAAAACGAACG
AGAAGAGCTTATTCATCGATTCAATATGGAGCGTGACGACATGATTCAAAATTACGAACAAGAGAAACAAGAAATGGCCC
AGGAAATCATGACGATCCAACGAGAACGAGATGACTCATTATTAATGGCGGAAAATGAAAAGCAGCAATCATTGAGTTTA
TTAGAACAAGAAAAATGTGCAATCAATGAAAAGCTTATCAAAACGCAATTTGAACTGCAATCGGTTGAGTCGGAATTGGA
TCGCATTAAAAAGGAGTCGTCCAATCGTCAGGAGCAAGACAAACAGAACATTGCCGGCTTGTCGAGTGAACTCAAATCAT
TTAGATCTCAATTTGAGGATAAATGCCAAAATCACGAAATGGAAGTTAAAAGCCTAAATAGTGGAATCAAGGATCTAACA
TTAATGAAAGATCAAGCTCTCAAAGAAGTCCATGATTTGCATACCGGATTAAAAATAGCTGAAGAAACCCGTGATAATTT
GCGTCGGGAAATCATGGAAATGAATCGGAAATTGAAAGAAGCTGAGGAAGCCAAAGAGCACTTAAAGCGTGAAATTAATG
AATTGAAACGTGGATTATGCGAAGAACAAAGGGAAAAAGAAAATGTTATTAACTCAAATGAGAATTTGAGAAAGAAAATT
AAAGATGTTGAAACAGAAAGAATTGATTTGCACAGACAAGTAACGGATTCCAAACAAAAGGTTGCAGTACAAGATGAACA
ATTGGTCAATTCCAAACAAGAGGTCAATGAGTTAAGAAACAATCTTAAAGACGTAGAAAAAGCTCGATTAGATGTCAAAA
GAGAGTTACAAGAACTCAGACGCCATATCAAAGAGCTAGATACGGAAAGGGGCAAATTGACTAAAGAAGTCAATGATTTG
CAAACTCGTGTTGCTAGAGATGAAGAAAAAGAGGATGAAGCTCGTCGGGAAAATTTCGGTCTCAAACAAAAAGTTGTTGA
AACGGAAGCTTCAAGAGAAGCCGTTCGTAAAGATCTTGCTAATGCTCAACGACATATTGTTGATTTGGAAAATGTTCTGC
AGAGCAAAGACAGAGATTTCAGTTCCATGGTGGAATCGAGCCGCCGGGATTATAGGAAACTTGCTGATGCGAGAAATAGC
CTGCAACAAGTATATGATACGATGGTGGCCGATAATAATGAGCTGAGAATTGCTCTCAGTGGAGCAGAAGGTCGGGTCAG
TGCTCTGGAGTCACACATCGCACGAGTTGAAGGAGCTAAGAAAGAAATTGAATTCAAATTGGCTTCTATCCATAGCTCAT
TGCGAAGGCTGATAGGATTCCGACAGGAGAATGTAGTTACTATTCGGTCGAGAAACAACTCCAAATCTCCAGTTAGAGGT
CGATCAGTTAGTCCTCTTAGAAGTAGGCCGGTGTCGCCAACCAAAGGATTTGACAATACCTATGCTACTACAACTGATGG
AAAAGGTAGCCCTATCCCGCGCACAGGGTCTCCGAGTTCTAAACGAAGGCAATTATCAAGATCTCCGTCTAATTGCGATT
TCAATCCAGTCGATATAAATCCAGAAGCAGTTCGTCTGGCCTTGCGAGAATTCGTACAGCAGTTGGTTGATGCTGAACGA
GATAGAGATGACGCTTTTGCTCAAGCTCGCAGCCTAGAATCTCGATTGAAAGAACAAGAAGAACAAAATGAATATGCTGA
AAACCGTTTACAACAACTACAACAAGCTCTGTGTGATGCAGAAGAAGACAAAAAAGGCATTGATGGAAGATTGTCATCAG
CCCAAACTGCCTTAATGATGCAAGAAGAGACTATTCGGCGCAATGAGAGAGATAGAAAAGCAATGGCGGAAAAGTTGAGT
AATTACGATAGAACATTTGCATCCATGGAATCAGAAAAACGACAATTGGAAGATCGGTTGAATAAATTCCGTCATCATGA
TGCCCGATTGGAAGAAGAACATAAGCAGAGCAAAAAAGCTATTGAAAATGCTGAAAATAGAATAACTCAGCTTCAGCTTG
CCAAGCGATCGTTAGAAGGAGATCTTCAAAGAATGAAAATGGCGTTGACAGATAAAGAAACAGAAACCGAAGTTTTGGAT
GACCGCGTAAATAGTTTACTCAAACAAATACAAGATCTCGAGGGAAAATCTCAATCACTTCAACTAACGATTGACAGAAT
GAGTGTCGCCCTTGCAAAAACTGAGGAAGAAGGCAGTTTTCATAAGGACAAAATGCAACAGTTGAATATGAGTTTGAGCA
CTCATTCACAACAACTGGAACAATTACAGAATAAGATTTCTCAATTACAAAAAGCACTCGGCAGTTCAGAACAAGATCGT
CGGCTCTTAGAGGAACGATTAGAAAGCTCTAAAGGAGCATTGCATGAGGCAAAACATCAAAATAATTTGTTGATGGAAAG
AATACAAATAATTCAATCCGATTTAAATGATTCGGAAAATCGTCGATCAGAATTGGAAGGATTAAATCGACAGAGTAACA
CTTTGATTGTACAAAGACAAGAAGCTGAACAAGAACTCAATCAAAAATATCAGAAATTGAACTCGGAGAAAAACACATTA
CAAGAGCGAGTGAATAGCATGCAACGAAATTTGGCTTTGGCAGAAGCAGAAAAACAAGAAATAATAAAAAACCACGGAAA
ATTGGAAAAGGATAGATCTGCCTTGAAAAAGAGTCTTGGAAAAGTTGAACGTCAGAAATTGAAAACCGAAGAAATTGCTA
GCAAAACTGTTTTTGAACGTTCAGAATTAGATCAAATTTTAAGGAGACTTGAAGATGAAAATTGTGAATTACAGAGACAA
GTTGGAATTCTTCAAAATCAATTAGCAGAAGCTGAGCAAGCTCACTGCCACCATTTGATGGAAATCAATTCCCGCCATCG
CCAGGAAATGTCCATGGAAATGGAGCATTTGAGAGCATCGAATGTTCAAATAGAACGAACTCTAGAAGGCAGAGAACGAG
CCCACAGACAAAGAGTTAAGGGTCTGGAAGAACAGATCTCCACCCTCAAAGACCAGCTGACTCATGAAATGCAGAGGCGG
ATGGATAGTGGATATTACGAGTCTACCAGAAAGTCTAATCAATACGATTCAACTGGTGACTTGCGACATGTTCTGGATTC
CAGTTTAACTCGAGTTGCAAAAGACCCTCAACTGGACGCAATGCTACTGGAAACCGAAGCCAGGCGACTCGATGAGTCGA
TATTCATGTGTGGCAGTCGTGATCAGTCTCCGACCCGGCAGAAGCGAATCGAAATGTCAAAGAAGTCCGCAGCCCCTAAC
AATTCCAATCGGCGATTAACTGCCGGCCGTCGCAAATGAACTCGGCCTGTTCCAGTCCGTCCAGAGATGTTATGAAGCCA
CTTTTTAGATGCGTGAGTGTGAGTTCGTGTTGGTGACTGATTCATTTTTAGTAAACAGATTCTGGATTTTTGTTTTTATT
GATAGTGTAATTTCCTAATGCAGATCTGATAGTTGACTTGTTGTTCTTACGTATTCGGTATTTGTGATTCACATAGTCTG
TCATTGTTACTGTGATTTATCCTCTGTGTGACTTTTGTGATTTACTTACTTTATTGCCCCTATAATCAATAAATGGATTT
ATCGATAGTTCAGCCCTCCCCTCCAGCCCTCGTTTTGGGATCCGTAAATTTTGTTTCAATTGAGATCATTATAGTGATTT
TATTCCTTCGAAACCAAACCTTTGGGAGGGACATAAAATTAAATTATTGATTTTTTATTATCTTAGAAGTGAAAGATGTT
TATTTCCCAAATTAACTAATATCAATAATAACTTTAATTTATATCTTCATTA

 

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References

Eisenhoffer, G.T., Kang, H., and Sánchez Alvarado, A. (2008). Molecular analysis of stem cells and their descendants during cell turnover and regeneration in the planarian Schmidtea mediterranea. Cell Stem Cell 3, 327-339.

Pearson, B.J., and Sánchez Alvarado, A. (2010). A planarian p53 homolog regulates proliferation and self-renewal in adult stem cell lineages. Development 137, 213-221.

Tu, K.C., Cheng, L.C., Tk Vu, H., Lange, J.J., McKinney, S.A., Seidel, C.W., and Sánchez Alvarado, A. (2015). egr-5 is a post-mitotic regulator of planarian epidermal differentiation. Elife 4, e10501.

van Wolfswinkel, J.C., Wagner, D.E., and Reddien, P.W. (2014). Single-cell analysis reveals functionally distinct classes within the planarian stem cell compartment. Cell Stem Cell 15, 326-339.

Wagner, D.E., Ho, J.J., and Reddien, P.W. (2012). Genetic regulators of a pluripotent adult stem cell system in planarians identified by RNAi and clonal analysis. Cell Stem Cell 10, 299-311.

Zhu, S.J., Hallows, S.E., Currie, K.W., Xu, C., and Pearson, B.J. (2015). A mex3 homolog is required for differentiation during planarian stem cell lineage development. Elife 4, e07025.

 

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