primitive ectoderm

▻ Planarian Anatomy Ontology Class Overview

▻ Embryonic Molecular Fate Mapping

  ▻ Description

  ▻ Figures

  ▻ In Situ Hybridization Data

  ▻ Sequences

  ▻ References

▻ PAGE: Planarian Anatomy Gene Expression




Planarian Anatomy Ontology Class Overview

For more information about the ontology visit PLANA Overview


NAME:

  primitive ectoderm


DEFINITON:

  A single cell layer of extraembryonic, post-mitotic ectodermal cells bounding the embryo. The primitive ectoderm forms during Stage 2 and is thought to degenerate as the definitive epidermis forms during Stages 5-7.


TERM DEFINITION CITATIONS:

  OCLC:464776945, OCLC:82522822, OCLC:20423827, planaref-0000001


TERM CITATIONS:


TERM ID:

  PLANA:0000029


ABOUT THIS TERM:

primitive ectoderm

  ↳is a extraembryonic organ and material entity

  ↳contained in oral hemisphere and aboral hemisphere

  ↳develops from blastomere

  ↳existence overlaps Stage 4, Stage 3, Stage 5 and Stage 2

  ↳existence starts during or after Stage 2


  → primitive ectoderm surface and primitive ectoderm cell part of primitive ectoderm



BROWSE PLANARIAN ONTOLOGY TREE (IN OLS):

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EXPLORE ONTOLOGY GRAPH:


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Embryonic Molecular Fate Mapping


All experimental data displayed here is from Davies et. al., 2017, Smed Embryogenesis Molecular Staging Resource


DESCRIPTION:   

Sphere formation begins during S2 when some of the blastomeres exit the cell cycle and commit to primitive ectoderm fate (Hallez, 1887; Ijima, 1884; Le Moigne, 1963; Metschnikoff, 1883). These cells flatten, elaborate numerous processes, and ultimately generate a single cell layer bounding the sphere. The number of primitive ectoderm cells varied, with a mean of 21.5 +/- 2.9 per S3 embryo (Figure 1 – figure supplement 11 B). This observation is consistent with primitive ectoderm cell number estimations in Polycelis nigra embryos (Le Moigne, 1963). Moreover, the primitive ectoderm cell number remained constant during S4 as the embryo ingested yolk and increased in volume (Figure 1 – figure supplement 11 B-C). Consistent with this finding, cycling cells were not observed in the primitive ectoderm (Figure 3 A-E). Pan-embryonic cell markers, including EF1a-like-1 (SMED30004295), EF1a-like-2 (SMED30012165), and eIF4a-like (SMED30003202) were expressed in primitive ectoderm cells of S2-S3 embryos, (Figure 2A-B, Figure 5 E, Figure 5 – source data 3). gelsolin-like (SMED30014940) was expressed in blastomeres during S2, and primitive ectoderm cells and the temporary embryonic pharynx in S3-S4 embryos (Figure 1 – figure supplement 11 D). gelsolin-like mRNA was detected throughout the primitive ectoderm cell layer, with concentrated perinuclear staining. spondin-1-like (SMED30032088) was frequently detected in blastomeres during S2, and was expressed in primitive ectoderm cells with star-like morphology, as well as parenchymal cells, in S3-S4 embryos (Figure 1 – figure supplement 11 E).  Early embryo enriched (EEE) transcripts were not detected in the primitive ectoderm beyond S4 (Figure 5 – source data 3).


 

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FIGURES:


Figure 1 – figure supplement 11: Molecular markers for the primitive ectoderm

A: Average RPKM values per embryo for primitive ectoderm markers gelsolin-like (SMED30014940, blue) and spondin1-like (SMED30032088, red) during embryogenesis, Y (yolk), S2-S8.  

B-C: The number of primitive ectoderm cells remained constant while embryo volume increased during S3-S4. Primitive ectoderm cell nuclei were scored in SPIM reconstructed S3 and S4 embryos. B) S3: Average number of primitive ectoderm nuclei per embryo: 21.5 +/- 2.9. S4: Average number of primitive ectoderm nuclei per embryo: 22 +/- 1.4. n=5 embryos. Unpaired t-test, two tailed p value = 0.72.  C) Average S3 embryo volume: 7.4 x 107 µm3. Average S4 embryo volume: 1.5 x 108 µm3. Unpaired t-test, two tailed p value = 0.01. Embryo volumes were calculated by generating a masked surface in Imaris. Embryos scored, S3: n= 22. S4: n=5. Error bars: Standard deviation of the mean.

 D-E: gelsolin-like (D) and spondin1-like (E) expression (blue) during embryogenesis, S2-S8. Black arrowheads: temporary embryonic pharynx. Red arrowheads: definitive pharynx. Yellow arrows: primitive ectoderm cells. O: oral hemisphere. A: aboral hemisphere. V: ventral. Scale bars: 100 µm.

 

 

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IN SITU HYBRIDIZATION DATA:


Smed IDAccessionNameAliasExpressed during stage(s)Tissue/PatternImages
SMED30018602ATP dependent RNA helicase DDX5DDX5-likeStage 2, Stage 3, Stage 4embryonic digestive system, primitive ectoderm, embryonic pharynx, blastomere
SMED30003202Eukaryotic initiation factor 4A-like ProteineIF4a-likeStage 2, Stage 3, Stage 4embryonic digestive system, primitive ectoderm, embryonic pharynx, blastomere
SMED30014940Gelsolingelsolin-likeStage 2, Stage 3, Stage 4, Stage 5embryonic digestive system, primitive ectoderm cell, primitive ectoderm, embryonic pharynx
SMED30033466Histone H4Stage 2, Stage 3, Stage 4, Stage 5, Stage 6, Stage 7, Stage 8embryonic digestive system, neoblast, primitive ectoderm, embryonic pharynx, blastomere
SMED30032088Spondin-1spondin1-likeStage 2, Stage 3, Stage 4primitive ectoderm cell, primitive ectoderm, blastomere
SMED30027646Transcription factor BTF3BTF3-likeStage 2, Stage 3, Stage 4embryonic digestive system, primitive ectoderm, embryonic pharynx, blastomere
SMED30025427Translationally controlled tumor proteintct-likeStage 2, Stage 3, Stage 4embryonic digestive system, primitive ectoderm, embryonic pharynx, blastomere
Click to see image symbols and abbreviations
Abbreviation or symbolDefinition
Ooral hemisphere
Aaboral hemisphere
Ddorsal
Vventral
Llateral
black arrowheadembryonic pharynx
red arrowheaddefinitive pharynx
black arrowsprimitive gut
yellow arrowsprimitive ectoderm cells
cyan arrowsbrain
cyan arrowheadsnerve cords
blue arrowheadseye progenitors (trail cells)
purple arrowheadseyes
scale bar100 µm

 

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SEQUENCES:

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

>SMED30035218 ID=SMED30035218|Name=Gelsolin|organism=Schmidtea mediterranea sexual|type=transcript|length=1573bp
TTATAACAGTCGCTTAATAAAATGATTAAAATCCTTAATTTTTAGTGAATTCAAATAACAAATTTTAAAATCTAATTAAT
AATTAAAATCTGTGACTTTGACAATCGATATGATAAAACAAAAAAAATACAACTGGAAAGACTCCAACTTATCTTTATTT
GGATCTGATACGGAAAAATTAGTCAAAAAAACTTCGTCGGAAACAGAAGCAGCATGGAAATTGGTAAAAACTGTAACTAC
ACCGAGTCTTTTTATTTGGAGAATTGAAAAATTTAAAGTTGTCAATTGGCCTAAAGAAGACTATGGGAAATTTTTCAATG
GAGATTCGTATATCATTTTAAAAATAAAAAAGGAAGAAAATAGTCCTGAATTATTTTATGATATTCATTTTTGGATTGGA
AAAAGAAGTACACAAGACGAGTATGGCACAGCTGCGTACAAAACAGTAGAACTAGATACATTTCTTGATGATAAAGCAAT
ACAGCATCGTGAAGTTCACGGTTTTGAATCTGATTTATTTAAGTCCTATTTTCCGGTTATTACAATAATGAAAGGCGGAT
GTGAAAGTGGTTTCAGACAAGTAACTCCAGAAAAATATGAACCAAGACTTTTACATTTTCACTGTGCTGATCAAAAACAT
GTTGAACTTGTAGAAGTGAAATTTTCAAAAAACTCTTTGGATTCAGGCGATGTATTTATTTTAGACAACGGACTAGAGGC
TTTTCAGTGGAATGGAAAACTATCAAATAAAAATGAGAAAGTTAAAGCAGCACAATTTTTACAGCAATTAGAATCAGAAC
GAAACGGTCGGTGCAAAACAGATGTATTAGACGAAGAAGATACTCCTTTGACGCATAAAATTTACAAATTACTACCTGAT
ACAGCTGTTACTAAGAAGGTTCACAAAGACTTGGCAATTTCCAAACGTCTGTATAGATTATCTGATGAGACAGGCAAAAT
AACGTTTTCTCTAATCTCAGAGGGCAAAACTCCAAAATCTATGCTGAAAGACAATGATGTGTTTATGATAGATAATGGGC
GACACATGTTTGTATATATTGGCGCCGGTGCGTCTCCGGATGAAAAGAAAAATGCAATGTCATATGCACATAATTACTTG
AAAGAAACTGACCATCCATTAATTGGAATTACTTGTCTCCAAGCTGGCCAGCATAGCAAAGAATTTGAGCTTCAATTGGA
CTAGAAAATGATTATGAAATTTTAAATTGCATGGCATTTCAATATTTTTAAATATTTGTGTTTTTACTTAATTTTTACAA
AATGCATGAGTTTATGGTAATTCATTTTCTTAGAAGAGTGAAGAAATATTTTTTTGTTTATGTATTTCATAAATTGCTTA
AATATAATTAAACCTAATGTATATATTGCTGTATTATTTGCTGTTACGAATATTATTGGGCTTGATAGAGCTATCAGAAC
TAACTCGCCATGCTCTTGATCATAACAAGAAATCTACGCAATCAATATATTTGTACCAAAAATCATAACCATTACAATTT
TCACCAACACAAATCAATCTAGTTTTTATTTGTTGCCAGAATCAAATTTTGGG
>SMED30012850 ID=SMED30012850|Name=Spondin-1|organism=Schmidtea mediterranea sexual|type=transcript|length=2699bp
GGTGAATGAAAGATTGAAAGTAAACAAATTTATGAGACATTGACATTATTCATTTAACTTACATCACAGGACGACCAATA
TCACATAATACTTCTTCCTGTTTACAAGGTTGAAGTCGTTTATATAAATCGTCAAAGTCTCAGTTAAGATCATTGATATT
ATGAAAATTTACATCTTAATTTGGAATATCCTTTGGATGTTGCTATGTCTTCATTGGATGATCCAGGAAAGTTTTGCCAT
GAATACTAGAACCAATTGTTTTAAAATGCATAAAAAAACCTACCAAAAAGTCATGATGAAAGATGGAGAATTTCGAATAG
TAATTAGAGACATGAAAGGCAAAATGGCAGATAGATTCGAACCTGGTGAAAGCTATAGAATAATTTTGAATAATGCAATG
TATGGAATGGATTTCAGAGATTTTTCAATATTCGCGGCCTACGAGATGGAGGATTCGTTGCAAATGGAAAGTCATAAAAT
GATTCCCGATGAAGGACTTGGTCATTTTATTATAAATAAAAAATTTGGGTTGGTTGATTATAAATGTCCTAACAGAATGC
ATGGAAATGATAATATGTTTCTAACTTATGTAGAGTCGACATGGATAGCTCCGCATAATCCTATAAATTGTATTCGCTTT
GAGGCTCAAGTTGTAAAATTTGATTTTATGGTGTATGAAAGTATCGGACGTTTAGTAAAAGTTATTTGTCCAACAAAAAT
GTATAAAATGATTAGTGAAGAAAATAAAAACATGAAAATATCTAAACCTTTTGATGAGATGACTCCTATGGTTAAAGAAT
GTTGCGCTTGTGGAGTAGCGTCTTATAAAGTAACATTTATGGGGTTATGGTCAAAGAAAACTCATCCCAAAGATTGGCCA
AAACAAAAGAGCATGGTTCATTGGACCAATCTTATAGGGGCCACACATACTGGCGATTACTTTATATATTATAACGGTGG
TCAAGCAAGCCAGGCAGTTCAAAGTATTTGTTCATATGGAGATAGCACGGTTTTGAAACAGCAGTTCGCAGAAGAGACAA
TAAAACCGCATTTGAAGAGTTATTTTAATACTTCAGGCATGTGGAATGAAGACGAAATTGAACAGAGTAGATCGGGATTC
ATATCGGTTAATCGTACTCATCATTTCTTTAGCTTTCTCACAATGATGGGCCCAAGTCCTGATTGGTGTACTGGAGTAGC
AGCTGTAGACATGTGTATGAATGATTGTACATGGAAGGATGATTTCACCATGGATCTATTCCCATTTGATGCTGGAATTA
AAAACGGTTTCACATATTTCCCAGAAAATTCGGACAGGCAAGACATTCCTGATCCAATTAGAACAATCAACACTACATAT
ATGACCCAATTCCCTTTCACAGCAAATGTTCCAGTTGCCCGGGTAATTTATCAAAAGATCAAACCAAAACACAATTGGGA
GTGCACCAAGATGAATGCAAAACAAGTAAAAGAATTTGATGAAATGAATTCAAACAAAAACGGAAATTCTCAATTCGATG
GAAGTAGTTTGACGAAAAAACGCCGACACATTAACAAGAAAAGTCCCCTTGATGATCCGACTTTGGCCAATATGGCTACA
TTTTTGTGTATAACATCTCCATGGAGTGAGTGGACTAAATGTTCAGTTACGTGTGGCATTGGGACAGAGATGAGATCTCG
AGACATGTTGAAAAATGCTAAAACAGAATTATGTCGTCACTTACCTTTGCTTGAAAGTCGGACATGCGAAGGAAGAAAAC
GTTCGTGTGATTTCTCAGCACCATGTAGCCTTCTTTCCTGGTCAAGATGGGGTCCATGCAATGCAACTTGTGAGATGCAC
GGATACCAACAGAGATCTCGAATGTTTGCAAGATTTGAAGAAAAAGAGAAATGTCTCAAAAACAAAGAAAGACGATTTAA
AATTTTTGAAGAAAAACGGTGCAAAAAAGACACAGCCTTGTGTGACCCAGTTATTATATGTAGTGAGGGCCTAATAATGG
GCAGCAGCTGTGGCAAGCCTGTTATGAAATATTTCTATGATGCTGCCAAACACAGTTGTGTGCCTTTTGAATACCTCGGT
TGTAAAGGAAGTCTGAATAACTTTCCTTCTAAAATGTCTTGCGAAAAGACTTGCTTAGCAGCTGTCAATGCGCTGCCTCA
GTGGAGAAAAGACAAAATGGCTCACTTACAGTTTCAGTCTCAGTCGAATTCAGATAAACGAAAGAAAATGCCAACAATGG
CTAACAAATGTCGGCTTGAAGTAAAATACGGCGGAATGAATTGCGATGGAACAATGGGACCGGACATTCGATATTATTAT
GATAACAGAAATGGACGCTGTAGACAATTTAAATACACTGGCTGTGATGGGAATAGTAACAACTTCCGGTCTTATCACAG
CTGCATTAAGGCTTGCATGCCAGATCAAATCGACTTTATGAAAACTGCTCCGATCAAAGCTTGTCAAGTATCTGAGTGGT
CACATTGGGGTCCATGTTCTACGACCTGCGGTGTGGGAGAGAGATTCAAATGGCGATCTGTGCTTCGGCCGGCATTGAAT
GGCGGTCCAGCTTGTCCAGAGTTATTTCTATCGGAACCTTGTTTCGCGACAACTTGTTGAAAAATTTATATAAATTTTGT
ATCCATTTTTGATGACATTTATAATAATTTTATGGGTAAATATATTTTAGTTCTTCCTC
>SMED30018602 ID=SMED30018602|Name=ATP dependent RNA helicase DDX5|organism=Schmidtea mediterranea sexual|type=transcript|length=607bp
TATTCAAAAGATAAACGATTGTTAGAAGTTGTTAGCAAAACTCCACGGGACAAAATGATTGTGTTCGCAGAAACGAAAAG
GAAAGCTGATATGATTTGTTCTTTCCTACGTTCAAAACAATTCAGAGTTGGTGCAATGCATGGAGATAAGTCACAGAGCG
ACAGAGAATATATTCTTAATGGGTTTCGAGGTGAAAATTTAAATATTCTCGTGGCAACAGATGTAGCAAGCAGGGGTTTA
GATGTTGATGATATTAAAGTTGTAATCAATTACGACTTCCCTATTCAATTTGAAGATTACATTCATAGAATCGGTAGGAC
AGGCCGACGAGGAAAATCCGGTGTGTCTTATACATTTTTCAATAGAAAGAATTCGAAAAGTGCTCGTCAATTGGTGAAAG
TGATGGAAGAAGCTAATCAATCAGTTTCAGATAGTTTGTATGATCTTGCATATATACCAAGAAGTGAGCGTAGACAAAAT
TTCAATCGTCCGCCAATGCCAGTGCCGCAAGTAAATAATTATCAAGTACCTCCGCCTCAATATAATGGTGGAAATAACAT
GTATCCGCAACCAGATTTATATATGCAAAACGGAGCAGCACATCACA
>SMED30022124 ID=SMED30022124|Name=Gelsolin|organism=Schmidtea mediterranea sexual|type=transcript|length=998bp
TGTACATTAGGATGAATATGGAACAGCAGCGTATAAAACCGTTGAGTTGGACACTTTACTCGACGATAAAGCCATTCAGC
ATAGAGAGGTGCAAGGAAATGAAACTGATCTTTTCAAATCTTATTTCCCAATTATGACAATTATGAAAGGCGGTTGCGAA
AGCGGTTTCCATCATGTTACCCCAGACAAATATGAACCGAGACTTTTACATTTCCGATGCACCGATCACAAGCATGTTGA
ATTGGTGGAGGTGAAACTTTCAAAGCAGGCTTTGGATTCGGAAGATGTTTTAATCTTAGACAATGGCTTAGAGGTTTTCC
AATGGAACGGAAAATTATCCAATAAAAATGAGAAATTTAAAGCCGCACAATTTTTGCAACAGTTGAAATCCGAAAGAAGC
GGACGTGTTAAGACCGATGTTTTGGATGAGGAATTCACTGCTGCCAACCATAGAATATTTAAATTGTTGCCAGATGTTCC
ATTTACAAAGAAAACTCAAAACGATTTAAATATGAGTAAAATGCTTTATCGATTGTCTGATGAAAGTGGAAAAATGACTT
TCTCCTGCATTTCTGAAGGATCAATTCCAAGGTCAATGTTAAAGGATGACGATGTCTACATGATTGACAATGGCAGACAT
TTGTTCGTGTATATTGGAGCACGGGCATCGCAGGAGGAAAAGAAGAACGCGATGTCATATGCCCACAACTACCTGAAGAC
GACTGAGCACCCACTTATCGGAATCACATGCCTCCAATCTGGTCAACATAACAAGGAATATGATCTTCAATTAGAATAGG
ATGTTAAATGATAATTTTGGAATATGTAATAAAAATTAACAAAGCAATTTTTTAAAAACAATAATTTCACAAAATAGGAA
TGAAAATCACAAAAGTATTAAAATTCCATCTATGAATTGAATATCACAATTATAAATTCTTCAACACATAAATCTTGAGC
GAAGCAATAACTTAAAGATTTCAAACATTTACCGCCGC
>SMED30025482 ID=SMED30025482|Name=Histone H4|organism=Schmidtea mediterranea sexual|type=transcript|length=552bp
TGTCATTATCAAAATATTTTCAATATATAATAAATCAGAAATCACTAAACAGTCATTACTAAACTATTCTAACTCAAAAT
GTCTGGTCGAGGAAAAGGAGGAAAAGGCTTAGGTAAAGGTGGAGCTAAAAGACATAGAAAAGTTTTGCGAGACAACATCC
AAGGAATCACGAAACCAGCTATTAGAAGGTTAGCTCGCAGAGGTGGCGTGAAAAGAATTTCTGGTCTTATCTATGAAGAA
ACTAGAGGTGTTTTAAAGGTTTTCCTTGAAAACGTAATCAGAGATGCTGTTACTTACACTGAACATGCTAAGCGTAAGAC
AGTCACAGCTATGGATGTTGTTTATGCACTTAAACGACAAGGTCGTACTTTATACGGTTTTGGAGGGCCACAAATGTTGA
TTGTAGTGAATTGTTCAAATATTGTTATTCTATCTAGTAATTCTCAGCAATTTTATTAACGTTATTTAGAAATTAATTTT
ACAATTGCTAATTTCGAATGTTATATCTGGTGTCAATGTTCAGTTATATTATTTTACAAATGACTTGAAATG
>SMED30032088 ID=SMED30032088|Name=Spondin-1|organism=Schmidtea mediterranea sexual|type=transcript|length=1776bp
TTACCTGAAAATAGATTAAATGTTAAGAGTCTCTTTACGTCAGGCTGGTTAAATGGGGAAGAACAGCTAAATGAAGAGCG
TTCTGGATTCGTTTCTGTTAATAGAACTCATAATTTATTTAGTATGATTTCAATGATGGGACCAAGTCCGGATTGGTGTA
CCGGAGTGTCAGGAATCGATCTTTGTATGGACGGATGCAAATGGAAATCAAATCTAACAATTCCTCTTTATCCTATCGAC
GCTGGAATACAAACTGGAGAGACCTACAAACCAAATAATGTCACAAGACTTGATGAACCCGACACTATTAGAGAAATTAA
TAAAATTTGGATGAAAAGTAATCCTTTTACTCCAGATACTCCAGTAGCAGAAATCACCCTCACCAGAGTAGAGCCACAGA
AAGACACACAATGTGTTAAAACTCCAGTTAAGGGTGTAAATGAATTTCAAAATGCACAAAAAGAGTCTAGATCTAACACG
CTCGGTAGAAATGGTGCCGTGGAAAAATATAATGTTCTAGATGATCCTCAGTTAGCTCAAATGGCAAAAGCCTTTTGTGG
ATTTTCCGAATGGACCAGCTGGTCACCATGTTCCGTAAAATGTGGAGAAGGTGAAACGTCTCGTACTAGAAATTTGATAA
AAAACTTGAAAAATGAATTGTGTATTCAATTGCCAAGAAAGGAGCAAAAAAATTGTGCCGGTGCTCGATTGGAATGTGAT
CTCTCAAAGAAATGTAGTCTATTACCTTGGAGCTCATGGAGTCCGTGTTCTGCATCTTGTACAACTGAAGGGAAAATGAT
CAGAATTAGAAAATTTGCGAGGTCAAAAGAAAAGGACGAATGCATGAAAAACGTCAAACCAGAAATTATTCTTCAACAAG
TGAAAACTTGTAAATTGGATAAAACGGACTTCCGATGTGATCCGATATCAATTTGCAGCGCCGGTAAATTGGCACCTTGC
ATCAATGGTAAACCCAAGACGAGATTTTTCTACCACATCAAAACTGGAAAATGCGAACCGTTTAAATACTATGATTGCAA
AAAAGGAAATCTGAACAATTTCCCAACTATAGATTCATGTGAAAATGTTTGCTCTAAAGTTATTCAGGAATTACCAAAAA
TAAGACGATCTAATTTAGCCTTGCTTCAAGCAAGAACATCTTATTCAGCTGAAGAGAGTCTTTCGCAAAAAGCCAAAAAC
ATTCCGGAATTCTGCTTTCATGAAGTGGATTCCAGTAAGACCTGCATGAAATCCAAACCAAAGACAATCTGGTATTATAG
TCATCGAAATCGAAAATGCCAATCACTGGTGGATTATGATTGTAAAGGAACTTTAAATAAGTTTTCGACTTTCGACGATT
GCATGAAAACCTGCCGACCTGATTCACAACTCGAATCATTGAAACTTGATAAAGTAGATTGTCAGGTCTCTGAATGGAGT
TTATGGAGGCCATGTTCAAAGTCATGCGGTTGGGGAACTCAATACAAGAAAAGAGTCATTCAAAAGGATTCATTGAATGG
GGGCTTACCATGTCCGGTGCTATATGAATCTCGAAAATGCTTTTCCAAACCTTGTTAATCTGTCAATATTTATTTAAAAA
TTGTTTTTTGTGAATTATAATTTCTATTTCTTAATCTATTTGAAAATGTAATAAATATTACTTTGCGTATTTGATTTAGT
TTAAAGTTTTCTCATTGGTCAATCCGCCGTTGCTAACCAATGAGATCGGCTACTACATCAATTGCGATAATTGACAGTGG
TGAGCAAACCTTTAAG
>SMED30012543 ID=SMED30012543|Name=Spondin-1|organism=Schmidtea mediterranea sexual|type=transcript|length=2035bp
CTCCAATGAAATGTTTACTTTTATAAATGACAAGCCTATTGTAAACAATGGAATGAAGACGGCTTACAAACAATGTTGCG
CCTGTGGAACTGCAAGTTATCGGGTGACTTTTCATGGGTTATGGAACAAAACAACTCATCCAAAAGAATGGCCAGAAGAA
AAAGGTCAGCTTCATTGGACAGATCCTATTGGAGTCACCCATAATCATAATTACTTTATTTATCATTTGGGAGGACAAGC
TTCATTTGCGGTTGGTAGTGTATGTACAACAGGAAATTCGAGATCTTTGAAAGAGGAATTCACCTTACCTGAAAATAGAT
TAAATGTTAAGAGTCTCTTTACGTCAGGCTGGTTAAATGGGGAAGAACAGCTAAATGAAGAGCGTTCAGGATTCATTTCT
GTTAATAGAACTCATAATTTATTTAGTATGATTTCAATGATGGGACCAAGTCCGGATTGGTGTACCGGAGTGTCAGGAAT
CGATCTTTGTATGGAAGGATGCAAATGGAAATCAAATCTCACTATACCTTTGTTTCCGTTTGATGCTGGAATACAGACTG
GGGAAACCTATAAACCTGAATCTATTACTCGGCTTGATGAACCGGAGCCTATTAAAGAAATCAGTAAAATTTGGATGAAA
AGTAGTCCGTTTACACCGAATGTTCCTGTTGCTGAATTAATTCTGACAAGAATCTCTCCAAAGACCGACGAAAAATGTTC
TAAATCCCCTATGAAAAATGTTGATGAATTTAATAAGTCAAATGAATTAATAAAACAAAATTATCGCGGTAAAAATAAAG
GAATAGCAAAATATAATGTTCTTGATGACCCCCAGCTGGCTCAGATGGCAAAAGCTTTTTGTGGATTTTCTCAATGGGCT
AGCTGGTCTCGGTGTTCAGTGGATTGTGGAGTTGGGGAATCTTCTCGTAAGCGAGAGTTGATCAAGAATTTTAAAAATGA
ATTATGTGTCCAGCTGCCAAGGAAAGAAACCAGATATTGCTATGGTCGACGAAGAAATTGTGATTTTTCTATGAAATGTA
GTCTTCTTCCGTGGACTGAATGGACTAAATGTACTGCTACTTGTAAAGAAGCAGGAAAGATAGCAAGATCGAGAAGATTC
GTGAGGGAGGCGGAACGAGAAGAATGTTTGAGAGAAGTGACACCAACTACTAGACTATATGAGGAAAAGCCATGTAAACT
CGATCAAACTGACAGCCGCTGTGATCCAGTGTCAATTTGCAGTGCTGGAAAATTGCCTCCTTGTACTAGAGGTAAACGTC
AAACAAGATATTTCTATCACGTCAAGACTGGAAAATGTGAACCGTTTTTTTATTTTAATTTTTGCCAGATTGGCCTAAAC
AACTTTCGCACTGAGGTAGACTGTGAGAAAATGTGCGTTAAAGCCATTGGTCAGCTGCCTGGAATTAAAAGATCAAATTT
AGCTCTTTTGCAGTTTCGAACTTCTTATTCAGGAGACCTTTCTCAAAAAGAAACTAAAATACCAGCTCAATGTTTCAACG
AAATAGAATCAGTAAAGACATGTATTCATAAATCTCCAAGAACCGTATGGTACTACAGTCACCGAAACCAGAAATGTCGT
TCTTTGGTGGATTTCGGTTGTCAGGGAAGTTTGAATAAGTTTTCTTCTTTTGAACAATGCATGAAGATTTGTCGACCTAA
TTTACAGAGTCGTTCTTCAACATCTGATAAAGTAGACTGCCAGGTCTCTAATTGGAGTTCCTGGAGGCCTTGCTCTAAAA
GCTGTGGCAAAGGAACACAGATCAGAAAGCGAATAATTTATAAAGATTCTCTTAATGGTGGAGAACCTTGTCCACTTCTT
TACGATTCTAGAGATTGTTACGGTATATCTTGCAATTAGAGATAGCCATAACTATTTTAGTTTATAAAAGCATTCATCCA
GGCCACAGTTGAAAAGCATTTTAATTATTAATAAATTTTAGAATTGTTAATTTTAGTATTTTAGTATATTTTTGCTGTAT
TTAGTGCAAAAAAAAAAGACGGGTATAAAAAGGTG
>SMED30027646 ID=SMED30027646|Name=Transcription factor BTF3|organism=Schmidtea mediterranea sexual|type=transcript|length=541bp
AAATTAATTTGTTTAAATAAATTTCTTTAGAATCACGCAATGGACGGTTTTAAAATTAACACTGAAAAATTAGAAAAACT
TAGTAAGTTGTCGGAAAATGTCCGAACAGGTGGTAAAGGTACAATGAGACGAAAGAAGAAGGTCATTGTCAAGAGTTCAG
CAGCAGATGATAAGAAATTAGAGGCAACCTTCAAATCATTGTCAATGAGCCCGGTTCCAGTTGAAGAAGTAAACATGTTC
AAGGATGATGGAACTGTTATTAATTTCGTTAATCCAAAAGTCAATGTGTCACTTCCATGCAACACTCTCTCAGTTACTGG
AAAATCCGAAATTAAGCAATTGACCGAAATACTTCCAAAAGTTTGGCAACAACTTGGCCCACTTAAAGGAGATCTTTTCA
AGAAAATTGCACAAAACATGGAAAATCAAGCAACTGTCGAAGATATTGATGATGAAGACGATGACGTTCCAACTCTCGTC
ACAGACTTCGATCAACAAAGCAAATTGGAATAACTTTTTAATATCAATAAATTTTTTGGAC
>SMED30029163 ID=SMED30029163|Name=Histone H4|organism=Schmidtea mediterranea sexual|type=transcript|length=537bp
AGGTTACAGTTTTTCAACTAATACCTCAAAGAAATAATGAAAGATGGACAGTAGAGTTTTGTCACCATCAGGAGACCAAG
TGTCATTTAGGATGATAATAGCCCAGTTAAGGAATCTTGCTGATCTAATCAATGCCAAAAATATTACAAAATTTCGATTT
AAAAGAAGCTAAAGGAGAAAAATTACACGGAAAAGTTCAGAGGTACAACATCCAAGGCATCCCTAGGTCTGCAATTAAAC
GATTAGCACAAAAAAGAGGTGTGAAAAGAATTCATGGGCTTATTTACAAAGAAACAATATATGTTATCAAGTTAGTCCTT
GAAAATGTCATCTTATATGATATTAAATACACATTGCAAGCCAAGCAAGAAACTTTTACTGCCAAGGATGTTTTTAATAT
TCTTGAATGTTTGGAGTTTTCTATTTTGTGATAACATCCTTCCCCAAATGAAAGTTATCAGATCATTTTGCAAAGTTTGT
GAGAAGGGATATATATTTACCAACAAGAAAAATGTTTTGAATTTAAGAATAGGACTC
>SMED30003202 ID=SMED30003202|Name=Eukaryotic initiation factor 4A-like Protein|organism=Schmidtea mediterranea sexual|type=transcript|length=1324bp
ATTAATAACAATGGAAAATCCAGGAGAAATAGAAAGTAATTACGACAAAATAGTTGAATCATTTGAAGATTTAAACTTAA
AAGAAGATTTGTTAAGAGGAATCTTTGCTTATGGTTTTGAAAAACCTTCTGCTATTCAGAAGCGTGCTATTTTGCCAGCT
ATTGAAGGTCACGATGTCATTGCCCAAGCACAATCTGGAACCGGAAAAACTGCCACTTTCAGTATTGCTGTTTTGCAGAA
TATTGACACTTCTATCAATTCTACACAAGCTATTATTCTAGCACCTACCAGAGAACTTGCAGTTCAAATCCACAAAGTTA
TAATGACCCTTGGTGACTATATGGGAGCTAAATGTTGCTCATGCATTGGTGGAAGAAATGTCCGTGACGACATTAACAAT
TTGGAAAGTGGAATGCATGTTGTTGTCGGTACTCCAGGACGAGTTAAAGATATGATAAAGAAGGGCCATATTAAATCAGA
TTTCGTGAAAATGTTTGTCCTTGATGAAGCCGATGAAATGTTGAGTCGAGGTTTTCAAAATGACGTTTGTGAATGCGTTC
AATATTTATCTGCCGAAACCCAAAATTTCATTCTTTCTGCAACAATGCCAGATGAAGTTTTAAAAGTCAGTAACGAATTC
ATGAATAATCCAGTGAAAATTCTCGTTAAAAAAGAGGAATTGACTCTGGAAGGTATTCGTCAATTCTACGTTAACGTTAG
CCAAGAAGAATACAAATTTGATACCTTATGTGATTTATATGAATCTCTGACCATCACCCAAGCTGTCATTTTCTGTAACT
TCAAAAACAAAGTTATATTTTTAAATGATAACTTGAAAAGTAAAGGATTTGTTGTTTCATCAGTCCACGGTGACATGGAG
CAACAAGCTAGAGACCAGATTATGAAAGAGTTCCGAAGTGGATCAAGTAGAATTCTCATCACCACAGATTTGCTATGCCG
AGGTATTGACGTCCAACAAGTCTCAATGGTCATTAATTATGATTTGCCTAAAAACAAAGAAAATTATATTCATCGAATTG
GCAGAGGAGGCCGATTCGGAAGGAAAGGAGTTGCACTAAATTTTGTCACAGACAAAGATATTGCTGAAATGCAGGAGCTG
GAAAATTTTTATAACACCAAGATTGAAGAGATGCCCATTAATTTATCTGAATTCTTATAAATGATTTACCGCTATTTTTG
TAAATAAATTTTAATTTACAATTAAATTAGGTTATTCATAACTTCCTTTGTTACGTAATTTTTGCTATCTTATCTATTTT
TGTTAGTAATGTATTTATGCTGCGTCACATTTTTGTTGCAAATT
>SMED30025427 ID=SMED30025427|Name=Translationally controlled tumor protein|organism=Schmidtea mediterranea sexual|type=transcript|length=570bp
AAGTAATACTTTTATCATTTAATTGAAAAAATGCTCATTTACAAGGATATTGTTGCCGGCGATGAGTTGTGCTCTGATAC
ATTCCCAATGACGATTGTCGACGATGTCGTTTACGAATTCAACGGAAGAAATATTACTATTAAAAACGGTATTTCTGACG
CCCTCTTTGGTGGAAATGCTTCAGAGGAAGCTGCTGGCGATGATGACGTTGCTGATTCGGACGAGACAGCAATTGACATT
GTATACAGCAACCGATTAGTCGAAATGAGCTTTGACAAGAAAGGTTACACGAGTTACATCAAAGGTTACATGAAAAGTAT
TTTGGAAAGATTGAATGCCACTAATAAAGAACGAGCTGAAATCTTCAAATCCAAAGTCGGTGCCTATGTTACAAAAATCA
TCAAAAATTTTGATGAATATCGTTTCTACTGTGGAGAGTCAATGAACCCTGACGGAATGATCATTCCATGCAATTACAGA
GAAGACCAAATTACCCCATACTTTGTTCTCTTCAAAGATGGCCTCGAAGAAGAAAAATGCTAGATTTCTGTTAAATAAAT
TTAGTGGAAC
>SMED30014940 ID=SMED30014940|Name=Gelsolin|organism=Schmidtea mediterranea sexual|type=transcript|length=530bp
CAAATAAATTTTCGTTTCGTAATTATTTAAATTTCACATGTTTTTTATTTAACTATAAATTCTGGAAAATAAATTAATTT
TACATTCAATTAATTCAAACAATGAAATTAGATTTTAAAAGTAAATCATTTCTAGAATTTTTTGTTTTTTAAACTTTCTA
AAAAGGAAACAACTACGGAGCAGTCGAAGAAGTTCTTGTCACCGGACACAGAAAGTCTGACAAAACCGGAATGATAAAAC
AAAAAAACTACGATTGGAAAGATTCCAATTTGGCTTTGTTTGGATCAGACACGGAAAAATTAGTAAAAAAAACTTCCGCT
GAAACCGAACCAGCATGGAGAGTTGCTAAGGCAACTACGGTTCCAGGTTTATTTGTTTGGAGAATAGAAAAATTCAAAGT
CATCAGTTTACCAAAGGAAGAATTCGGAAAATTTTACAATGGAGATTCTTACATTATTTTGAAAATCAATAAAGAAGAAG
ACAGTCCGGAGTTGCTATACGATGTGCATTTTTGGATTGGAAAATATTCT
>SMED30000837 ID=SMED30000837|Name=Histone H4|organism=Schmidtea mediterranea sexual|type=transcript|length=1387bp
ATTAACACTAAATTTTGTTTATATAATGATTAAATATTTCAATAATCAATTAATTGAAAAATGTCTGGTCGTGGTAAAGG
AGGAAAAGGGTTAGGAAAAGGTGGAGCCAAGCGTCATCGTAAGGTTTTACGTGATAACATTCAAGGAATAACTAAGCCGG
CAATTAGAAGATTAGCTCGTAGAGGCGGAGTAAAAAGAATATCTGGTTTAATTTACGAAGAAACTCGTGGTGTTCTCAAA
GTTTTCCTGGAAAATGTTATAAGAGACGCTGTTACTTATACTGAACATGCTAAGCGTAAGACAGTAACTGCAATGGATGT
TGTTTACGCTCTTAAACGCCAAGGAAGAACTTTATACGGATTCGGAGGTTAAATGTGAAACCAATGATATTTTAAGCTAA
CATTTATTTGTTGAGAATGTTTATGGTCCTCCTTAGGGCCACAATTTTTGATTGTTTACTTTATTTTGTTAGCATTACGT
AATTTTACAGTGATTGGTTATCTTGCTGGTTGTCTGAAATATTAAATAATAATATGCTATAATTAAATGATATTAGTATA
GAAAACAAAAATCGGTTTTATTGTTTGATCAACACAATGAATATGTTTATCAATTATCATCATTTCCAGTTTTTCGATTT
CAGTTGATAATAATTATTTGCGAATTTGTGATTATATTTTCTAATGGGTTGCGAGACATAAATGAGCGTGCAGATATCAC
ATGCGAACCTGGTTCATGTAGTGTTTTGAGCTACACACTGCAGATAGACGATCAAATCTATAAAGTGAAAAAAGGGTTCA
AATCAGCTTGCAGCACCAGACTATGTGAAAATTGTGCTCACAAAGGTGATTGGTCAATGAGACTGATTGACGGAAACAAA
TATATGGTACGACAAGTCAATAAATGTTTAACTAATAATATTTTGGCAGTTGAGCAACTTTTCACAAATTTATATACTCC
TGTCTCAGATTTTACATGCTCCTTGCATAAGTGCTCTAAATATAATTATTCTTATAATGGAAATATGATTAGCTTTAGCT
ATATAGGAGTTTGTGACCATTCTTACTGTGACTCATGCCGCTATTCCGACAATTGGAGTCTATTAACCGGATATTTGCAG
CGGACGACCATTTCATGTTATGTTGTCGATAAAATTAGACTTGAAGATTATTTTCTCATTCCAGAGTTTACCGAAACCTT
CTATACACTAATTCGGAAATTAGCAATAACTATAAGCTGCGCTTCATTTTTGTGTTTGGTGATCATTCTTTTGGTTTGTT
TTGCTAAAAAATGAGATCTTACAGAAGCTTTAAGGAACTTAATTTTATTTAACAATATATTTATACTTAGATCTAATGCT
TTGAATGATCCTTTCGCAAGTCCATCC
>SMED30033466 ID=SMED30033466|Name=Histone H4|organism=Schmidtea mediterranea sexual|type=transcript|length=421bp
GATCTCACTATATAAATAAGTATTTGTCCCTATTAATTCATAACAATTATTCAACATGTCTGGTCGAGGTAAAGGAGGAA
AAGGACTAGGAAAAGGTGGAGCAAAGCGTCACAGAAAAGTCCTTCGTGATAACATTCAAGGTATCACAAAGCCAGCAATC
AGAAGATTAGCTCGTCGAGGTGGTGTTAAGAGAATTTCTGGATTGATATATGAAGAAACCCGAGGTGTTCTTAAAGTATT
CTTGGAAAATGTTATTAGAGACGCTGTGACATACACTGAGCACGCTAAGCGCAAGACAGTAACTGCCATGGATGTCGTCT
ATGCTTTGAAACGACAAGGAAGAACTTTGTACGGTTTTGGAGGTTAAATAACACTTTCATATTTGTGAATGTTTTAGCGG
CCCTCTTTAGGGCCACAAATG
>SMED30027701 ID=SMED30027701|Name=ATP dependent RNA helicase DDX5|organism=Schmidtea mediterranea sexual|type=transcript|length=2292bp
ATAATAATAATTGTTGTTATTATTTGATGAAACAATGAAGAATAGTGTCGATGTTTACTAGACATACAAGCCGTTACAAC
AAAGCGGCACATTTACGGGACTAAGCTGACATGTCCATAAATGGTCTATGTTAGCCGTGTGGGCGCATATCTGTGTGCAT
CAACACGGTAATTTCTCACACGAGCCGGTGGAGTGGTCTCGTTCATCGTGTTGCTGATAACCACCGAATGATGGTTTGCT
GTTGCCAAATAGCTCATCAGCCTCAGAGATTTGTGTCGTCGACCGGGGTGGTCGATGGAGCCACAGGTTTTGTCACTGGT
TTCCCACCAAGAAAGCCCGTGACACGACATCGCTTCGTGGTTCTGGTGATCACTCGGCGCGACTTCAATGACACACAGAA
AGACACATAGACAACTGTCCGGTCTCTTATGGGAGTACGTGGATATTGATGATATTGAATATGTCATCAATTATGATTAT
CCGAGCAAGTTAGAGGATTATATACATAGAATTGGCAGAACAGCTAGAAGCGGCAAAAAGGGAATCGCGTATACATTTTT
CAATCCCATGAAAGATAAGCCTAGACAAGCACAAGATCTAATTATGATTCTGGAAGAAGCAAAGCAAGAAGTTCCAACGG
AATTAAGAGACGTTGCTTCAAATCGAATACCTAGCAAACGATTTAAAAGTAAAAGAAATCGATCTCGTAGTAAACAGCGA
TCAAATAGTCCTAAAAGGTCAAGAAGTCGAAGAAGTAGAAGAAGATCAAAGAGTTCCAAAAAATCGAGAAGTCGTAGTCG
TAGACGATCTCGCAGTCCAAAACGTCGATCGAGAAGTAATCGTAGAAGGCGCTCACGTAGTGTAAGAAGAAGATCTCGGA
GTATTCGAAGATCAAGAAGTAGAAGACGTCGATCTAGAAGTAATCCAAGAAGATCAATAAATAGACGTCGAAGAGCAGAA
AGTAGAAGAAGAAGCAGAAGTCGGAATGATAGAAGATTGGCTGTTCCTAGACGACGACGCGTTTCACCTACTCCACCAAG
GTTACGTAGAAGAAAAAGCAGTTCCAGCAGTATATCAGGAAGTCAGTCTAGTGATTCTCGTTCCAATAGTAGCGTCTCAA
TAAAACGGGAAGCACTAGCCGATAAGATTCCAAATATAGCCAATGAAAAAGAAACTCATCAAAATGAACTGGAATCAAAA
CTTCATGACGAATTGAGTTCGGAAAATAGAGAGCCATTGGATATCCAATTGACAGTTAATGAAAATGAATTTGAAATCGA
AATGTCGAAATCAAGATTGAAAAAAGATATTGGGGAAGAGAGAAATAAAGAAAACAAAGTATACGAAAATTGCATGTGGC
AAAATAACTTTGCGGAAGAGGTTTTTGAAGTGCCTCCCGTTGTTGCACACCACGAGGTCGATATGGATATTGATGAATAT
CGAAAGTCATTTGATGCATTGAATCAAACAAGGCAAAAGGAGAAATTATTCGATTCTATTCGGAAAATAATAAAAATCGA
TGACGCTGCAAAACAGCGACCGATAGAAGTTATGACTAATGAAGAAATCGATATTATAACAACTGTTGAGCAGCCACCTG
TTAAAATGACGGCAGAGAAATCTGTCCAATACGAAGAACCGGAATTGGATAATATTGCAATGAAGGAATCAATCAAATCA
GATGTTGAAGTACTTTTGGAAAAATCCACTGAAAAGGATCAAAAAGTCAAAGTTCTGGAGTCTGACGAGGAACCTAAAAC
CTCCAATAAATCTAATTTGGATGAAAAATGTAAAAGTCGAAATAAATCCGATAATCAACATAGTTCAAGAGATGATCGTG
ATGAGAAATTTAAAAAAAGCAAAAATGAAAGCGATAAATCCAAGCGCACCGAAGACAAAAGCGATTCTAGAGTGGATAAT
AGAAAAGAGAGCAAACGTGACTCGAAAGGTGAACCACGTGTTTCTCGTTGGGAGATTCATTCATCGAATAAAAATGAAGA
AATCAAAGCGATGGGAAAGTGGGAAACTAAATCTGAGCTTAATCAAGATAAATGTGAAGCTGAAAAAACGTTTGATAGTA
AAGAGGAAAAACCTTGTAATATGCTCGAAGAAAAAAAGTTGGAAAAGAAGCATGAGCCGAAAGATGACAAGAAGCGGGAT
CATAAAGATGAAAAGAAACACGAACAGAGAGAAGATAAAAAACGTGATCATAAAGAGGATAAAAAACACGAAACGAAAGA
CGATAAGAAACATGAAGTGAAAGAAGAAAAGAAACATGAAACGAAAGACGAC
>SMED30002168 ID=SMED30002168|Name=Spondin-1|organism=Schmidtea mediterranea sexual|type=transcript|length=2693bp
CAATTGCTTAATAAAATTTTCCTTTCAATAATTACCGTAAAAGTTGATGAAATTAATTTTGAATATTTTATCCACTTTTT
TCATATTGAAATTTGATTTTGCTGAATGTTTCGGATTTTGTGACATTCAATTTCCGAAATCATACGTTGCCTTTTCCACT
AGATTCAATCTCTATACGAATCATGAAAAAGAAAAACTGACCAAAATCACCTCGTACATTCCTGATAAAACCTACGACAT
AACTGTGTCATTGAATGATAAAGCTATGCACGAAAAGTTGACAATAAAAGAAATATACGTCTTAGTCTCAAATGTTCACA
CGGAAATGGAAGAATTGTCGGAACATGACTGGAAAAACGCCGGTGAAGTGGTTTTTAATGTAACTCACGCATCCAAAACA
GAATATTGCCCCCAAAGAGCTTACGTTCAGTATTTATATACCCAACCCCAACATGTCACATTCTATTGGATAGCACCTAA
AATACCGAATTTTTGTATTAGAATAACAGTTATTTTGAAAATGAACGATTTGATTTCAGAAAGCAAATTCGAAGAAAGAT
CCCACTGGATATGTGAACAAAAAAGAAACAAAATGGATCAGATGCAAGCAGATCAATATGCATCTACCTCTTGCGCAATG
AAACAAAAAACTGATCCAGTTAAACAATGTAATATTGGATCAACAGCGGTATATAGAATGACAATTGAAAATAAATGGAA
TTTATTAAATCATTGGAAAGATTGGCCGGGCAAAGACGGGTATTCTCCTAAAATAACTCAATATCTCGGAGCTTCTCATT
CAAATGAGTTTAATATTTATCATCTTGGTGGAATGGCCAATGAAGGAGTTTCTCAGGTATGTGGAAACGGGAGCTACACT
GAATTGCAAAAGCAATTCTACAAAGCTGGGAACGGGATCATGACAGTTATATTGGCCAGGTCACTAGATGCGTCATCAAA
AACCAATAAAAGATCAGCACTGATTGTTGTAAATGCAACTCAACATTTGGTTAGTTTTCTTGCAAGACTTCATCCAAGTC
CCGATTGGTGCACAGGTCTAAGTAGATTTGATCTTTGTAACGGCTCATGCAAATGGCAAGAAAAATTTATCGTCCATTTA
TATCCTTGGGATGCCGGTGTTTACAGTGGAGAGACTTATTTAAATAAAAACGAGAAAACTAGACAGACTCCAATATGTCC
AATCACTAGCAGTTGGCCAAAGGATAACCCTTTCACGGTGATGAACGGAAAAATCAAAAATATCGGAGTGGTAACCTTCC
AATTAATACAAGAATATAACAAAAATGATAACCAGTATTGTAATTCTATTAATTCAATCCTTCAAGACGAAGCATACCAA
AATGAACCGAAATCCAGTGCTCTGAAATCAAATCCAGATAAAACCAGGCATTGCTTATTGTCAGAATGGAGTGAATGGAG
CTCTTGTTCAGAATCTTGTGGTAAAGGTGAAAAAACTCGTTACCGAAAACTGCTGAAAGGAAAATCCGAACAATGCATTG
AATCTTCCCTAACTAATACAGAGAGCTGTAGCAGTAAATGTTCGACAGTAATTTCATTCGAAACATGTTCGTTTCGCTTG
TGGGGCCAATGGAGCCCATGCAATGCTACTTGTTCCCAGAAGGGAATTATTCATAGGGAACGTGTTTTTATCAATGAACA
GGAAAAACACGAATGTATGCAATATTCCGAAATGAAAGCCTCTCTTGAATGTGCATTAGCAAGCGAGAGGTGCAAACCCG
ACGTGATCTGCAAGGAATATGTTTATCCTGGAGATTCGTGTTCTTGGTCTAGCCCATCACAAAGATTTTATTACGATTTT
TCTAGTGGAACTTGTAATGCATTTATTTACAAAGGCTGCTATGGGGGTCTGAATAATTTTCACACCTACGAGGAATGTAT
TTTACTCTGTCGACCAAAATTAAAAGAAACAGATCAAAGACGATTTAATACGCCAGAAACTTATCCCAACCGATGCGGAG
TTTCGATGACATGGGGAATCTTTTGTGATAGTCAATCTTCATCAAACCGTTGGTACTATGACAATATTAATAAAGAATGC
TACCGATTTCGTTTCGGGGGCTGTCGAGGGAATGCCAACAATTTCCGAACTAAAACTGAATGTCAAAATGTTTGCTTGAG
AGAAAAGTCTACTTCAACAACAACGACAACGATCAGTCAGCCAGTAACGGTAAGAAAAGTCTGCATCTATTCCAACTGGT
CGGACTGGAGTTCTTGTGATAACAACTGTCAAAATCAACAAACAAGAATAAGATTTTTAATTGAAAAAAATGACGACTGC
ACCGAAAGTATCAGTGAAACAAGAAAATGTCAATCAGAGAAATGCAATTCGCCAAATAACGGGTTTATTTCACTAAGGAA
TTGCAAGTATTCGAGTTGGTCGGAATGGTCGGCTTGTTCATCAAGATGCGGTCCTGGCGTTAGAGAGAGAAAGCGGAAGA
AACTTTCTCGTAATTGTAAACCGGAATTTCCGCAATTTACTGACCGAGAATCATGTTACAATGCTTGTGCTTATGACTGA
ATCCGGTAAAGAAAAAAAAACTGTCAATGTATTTGTGTCATGACATTTTACCTATTGTGCATTTCATTTTGTGAACTTTG
TTTGGTTTTTGATTTATTTTTTCTTGGTGTTTTTCTCTAGAATATGATTTGTT
>SMED30014692 ID=SMED30014692|Name=Histone H4|organism=Schmidtea mediterranea sexual|type=transcript|length=464bp
AAATCTATATAAATCTTATATGAGATAAATGTCAGGTCGAGGAAAAGGTGGAAAAGGTCTTGGTAAAGGAGGTGCTAAGA
GGCACAGAAAAGTATTGCGTGATAATATTCAAGGAATCACTAAACCTGCAATTAGACGTTTAGCAAGAAGAGGTGGCGTT
AAACGAATATCTGGGCTGATTTATGAAGAAACACGAGGTGTGCTGAAGGTTTTTCTGGAAAATATCATCCGCGATGCTGT
CACATATACGGAACACGCGAAGCGAAAAACCGTGACTGCAATGGATGTTGTTTATGCTTTGAAACGTCAAGGTCGAACTC
TTTATGGGTTCGGTGGATAATCATTTTGTATTTTATTATTTAATGTTGTAATTGCTATAATTGTTGCTAGTATTAATCTT
ATTTTAATAAATTATTTAACTGGATTTTAATTTAAATATGTCGGTTTTGTAAATCCAATTTGTA

 

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ADDITIONAL REFERENCES:


Hallez, P. (1887). Embryogénie des Dendrocoeles d’eau douce, Vol 16.

Ijima, I. (1884). Untersuchungeniiber den Bau und die Entwicklungsgeschichte der stisswasser-Dendrocoelen(Tricladen). Vol Bd. 40.

Le Moigne, A. (1963). Etude du developpement embryonnaire de Polycelis nigra (Turbellarie - Triclade). Bulletin de la Societe Zoologique de France 88, 403-422.

Metschnikoff, E. (1883). Die embryologie von Planaria polychroa. Zeitschrift fur wissenschaftliche Zoologie 38, 331-354.

 

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PAGE: Planarian Anatomy Gene Expression

These transcripts were reported as being expressed in primitive ectoderm. Click this link to learn more about PAGE.


PAGE Curations: 23


PLANA TermReference TranscriptDescriptionGene ModelsPublished TranscriptTranscriptomePublicationSpecimenLifecycleEvidence
primitive ectodermSMED30014981Gelsolin-like proteinSMESG000015924.1 gelsolin-likesmed_ncbi_20200123PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30014981Gelsolin-like proteinSMESG000015924.1 gelsolin-likesmed_ncbi_20200123PMID:28072387
Davies et al., 2017
whole organism Stage 5 colorimetric in situ hybridization evidence
primitive ectodermSMED30014981Gelsolin-like proteinSMESG000015924.1 gelsolin-likesmed_ncbi_20200123PMID:28072387
Davies et al., 2017
whole organism Stage 4 colorimetric in situ hybridization evidence
primitive ectodermSMED30014981Gelsolin-like proteinSMESG000015924.1 gelsolin-likesmed_ncbi_20200123PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30014940GelsolinSMESG000035418.1 SMED30014940smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 5 colorimetric in situ hybridization evidence
primitive ectodermSMED30014940GelsolinSMESG000035418.1 SMED30014940smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30014940GelsolinSMESG000035418.1 SMED30014940smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 4 colorimetric in situ hybridization evidence
primitive ectodermSMED30014940GelsolinSMESG000035418.1 SMED30014940smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30018602ATP dependent RNA helicase DDX5SMESG000033916.1 SMESG000033908.1 SMESG000033907.1 SMED30018602smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30018602ATP dependent RNA helicase DDX5SMESG000033916.1 SMESG000033908.1 SMESG000033907.1 SMED30018602smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30004295Elongation factor 1-alpha 1 SMED30004295smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 fluorescence in situ hybridization evidence
primitive ectodermSMED30004295Elongation factor 1-alpha 1 SMED30004295smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30004295Elongation factor 1-alpha 1 SMED30004295smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30003202Eukaryotic initiation factor 4A-like Protein SMED30003202smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30003202Eukaryotic initiation factor 4A-like Protein SMED30003202smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30003202Eukaryotic initiation factor 4A-like Protein SMED30003202smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 fluorescence in situ hybridization evidence
primitive ectodermSMED30032088Spondin-1 SMED30032088smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30032088Spondin-1 SMED30032088smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 4 colorimetric in situ hybridization evidence
primitive ectodermSMED30032088Spondin-1 SMED30032088smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30027646Transcription factor BTF3SMESG000008919.1 SMED30027646smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30027646Transcription factor BTF3SMESG000008919.1 SMED30027646smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
primitive ectodermSMED30025427Translationally controlled tumor proteinSMESG000013566.1 SMED30025427smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 3 colorimetric in situ hybridization evidence
primitive ectodermSMED30025427Translationally controlled tumor proteinSMESG000013566.1 SMED30025427smed_20140614PMID:28072387
Davies et al., 2017
whole organism Stage 2 colorimetric in situ hybridization evidence
Note: Hover over icons to view figure legend

 

 

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