Sgr014973 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr014973
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionUnknown protein
Locationtig00002486: 733573 .. 740434 (-)
RNA-Seq ExpressionSgr014973
SyntenySgr014973
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGCCGAAGAAGCTGGCTATTGACACTCTCGGACCTTCGCGGTTCGCCAGGACTCGATGCTCCACGCTCTTGAACCTATCGTTCGATATCAGCTGCAGAAGATCGCCAATGTTGACGACGAAGGCCCCGGGAATTTGGGGGAACATCCACCCACTTCTTCTGGTGAAGAACTTAAGGGCTCCGATGTGTCTTGCAGAAGCACCGTCAGAAAATCATTGTCGGCATGTTCGGTCGTGAGCTCCAGCTGCGGACATGCTGGATAATAATGGCACATAACAGCTAGACTCTTGTCGCATTTGATGTCGCTCACGTGGTTCGTGTTCAAGCCAAGAGCCTCCGACAGCACCCCAAATAATATAGACTCCCCAGTTTCTTCATTTCTGTTGAGTACTCAAACAGGATCTCTCTACCACAAACAAGCTATTAGAATGTATCAAGTTTAGTTTGGAGAATTTGTAAGCCCCATTTGTCTGCTGTGAATTACTTTTTGAAAAATTCTCCCGGGTGTGGTATTTTTCTCAGCTTCAGAGTCTTTTCAGTTAAGGGCTTTTGCGGATGTTAGCTTGTGAATTAGAAGAATAAACGTGTTTGTTATTTAATTTAGTCAACTAGTTAATTTTTGGTTCATTAATATTTTAGAATTACTTAACTAGTCTTTTTGAATCATATAGTTAGCTTTTTAGACATTATTATTCCATACAAGTTTCTCTATTATTTGGGATGGATTTCCCACTTGTTTATGGCCATTGACATCATGAAGCAAAACAGCGAGAAACTTCAAAATCTTTAAGAGCAAATCTGGCCTAAATAATAACAGCAATGCCTCCTATCAATGGAATGGTGAAGACTGAAGAATAGAGAGAAAGAATGAGCGGATTTTACCTGCAAACTTCGGCAAGTCTTGTAGGCGGGGAGGATTGGGGGCCATGAAACAGAGGAAGGTGTCCCTCCAATTCGTGGCTGTACAGATCGAAATTGCAATTGTAAACCAAAGACTTGGTGTTGTCGCGCGTATAATATTGTTTCTTCACTTCGGTGTCTAGTTCGTAAAATCCATGGACCCCATTATCATCTCCTCCAGAACACTCGCCGGAATCACATGGTTAACAGCCAGTTGGAAAAAGCCCCACGTCTCCGAGGATCTTTATCGATGTCTTCCAGATCCACCACCGGAACACTGAGTTGGGTATCGTCGGAACCGGGACCATCATTTTTCGATGGCCGTTATAGAATATTCTTGGAATCTCCGCTACGCCGGCCTTAGTTTCGTCGAACGCTTTCAGTTCCGAAGCTCTGTCGAAGCAGCTGTCATCAAGTTTGGAGACCAGCGCGAAGTTGAGTTCGTCGACGACCATTTTGCTTCTCCGGCCGGTGAAGCGATCTCCAGAGTTCCAACTTCGAATTCTGAGGTGAGGACAGGAGATTATCCAAATGGCTGATTTGTCCATTTGGAGTTATGACGTGAATGCTGTACGTAGTGTAGATCCATTGGTTGGACTCGAAAATCAATCTGATAATCGGGCGGGCAAATATAGAGGACGAAAATGAAAACTCATTCAAATATTAAAATAAGAAGCGTTGAATTAGGGGCTGCAATGCAATAATTGATTAAATAACACATAAATTCATCTTCACTATCTCCATTGTCATAAAATTTTGAGTGAAACTAAATACAAAGTAGAATTATGTCCAAGTAAACATAACTGTCTCCATCATTCTCAGTACTGTAAAATTGAGAAGATATTTATTATTTTAAAAAATAATAATAATAACCCACTTTATCTCTAGTTTTAGAGCCATTTGAACTTTTTTTTAGTTCAACAAATGTGGTGATGGAACATTGAATCTTCAATTTAGTAAAGATTATAGATGTCTAATCCCCTTAATTAAAGCTCGGATTAGAAGTTTTTTTTTTATAAGAGATTCAAAGCCATTTGAACCTAATAACATAAAAAATGCATTACCTCTTGGGCAAATTGCACATGCCCGACTAAACTAGAGTGATTCTCGCAAATTACACTCGCAAACTTTTGATCGTCAAGATTAATGGTTAAAATTGGGCAGATGGTAGATTTATCTCCTTTCCCATCGGTTTGCTTTGGATGGGTTTAAAGGCAACCCAATTGTCACTTTGAAACTTACCTTCCATAACCACGAGCTGGCCTTACTCTGCTTGTTTGGTTCTTAGAAGTCTGGAGTTACGCCTTCTTCAGGACCAGGCGTCAAGAGCCACCTCCCTGAAAGGGATCTTGATTTGGACAATTTGACCCTCTCCCTCTCTCTCCCTCTCTCTCCCCTTCTCTTTCTCCTCAGAGCAAACCCATACAATGACAACTCTCTCCCTCTCTCTGTGCAGTCTGGTTCGAAATTCTTCGGAGCATCCATGGCTGATGGCTATCCTGATTCTTGCAGTTGGTCTTGCTTCTCTATTTCCACTTTGCTACAATGGAATGAGGTTAGATACAGCAAGAAAGGCTTACAATGGATTGGCCTATTTTGGTCTTGGGGAAAATCGTCAAGAAAGGCGTCGTGAGGTTGCGTGTATAGTATTGCTTCTTCATTTCTGTGTCTTGTTCGTGAAACCTACGAACAGCATCTTTCATACACTCGCCGGCATCCCTTGGTTAAGCGGTTGAAAGCAACCAAATTCCTCTGAAGCTTCTCGGATTCGTTCGACGATATCTTTGTATTTGAGTGAATCTTTGTCGACGCCTTCGAGATTTATTACAGGAATACGGATTTGGGTTTTGCCGGAAACATTCTCGGAGTTATGATCCTCCGGTTGTCGTTCGAGGAATCTCAGTAACACCGGCATCGAGTAGCTCTTTAAAGCCGGCTTTAGTTAGTATTGTCAAAAGCTTTGAGTTCAGTGGGTCGTCTATGGTAGTTGTCGTCAGCTTTGGATGCGGAGGGAGGAAAAGTCCGTCCACTCCAGAGGCTGCAACCGCCATTCTCTCATGGTACTGTGTACCTTTCCCATGTTTAATTATTTTTAAGCATCTATCAAAGTCAAAAACTTGCATGCAATAGATTGCTGATGTTGACGACCAAGGCCCTTAGAACCGGCAGAACATCCACCCAGTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGTAGCAGCAGGGTCACGAAGCCATCGTCAGTTTTGGCTACGGACATGCCGGATAATAGTGGCACGCAACGGTCAGCCCCTTGCAATCCAAGTTGACGAGATGGGTTGAGTTCAGACCAAGAGCTTTCGAAAGCAATCCAAATATCACTTCCCCAATCTTCGTTATTTGTTTTGAATAATCACCCAGTATGTCTCTGCAAAAACGTTTCTCAATGGACCAGTCAAAAAACAGAGCCAAAGAATCATCGGATTTTACCTGCAAACTTCCGGCAAGTCTTGTGGGCGGGGAGGGTTCGGGGCCATGAAACAGGAGAACGTGTCCCTCCAACTTGTGGCCGGTGCACCGTATAGATCGAAATTGCAATTGTAAAACAAAGGCTTCCTTCTGTCTCGTGTATAATATTGAGTTAGGGTTCGTCGGCAACTGAATCGGAACCATCTTTTTTCAGTGGCCCGTAGAATATTCTTGGAATCTCCGTTATGCCGGCGTCGACTAGGCCTTTAACGCATTCTATCATCCATCTTGGAGACCGACGTGAGGTTGAGTTTGTCGACCACCATTTTGCTTCTCCGGTGAAACGATCTCCAGAGTTTCAACTTCGAATTCTAAGGAGACAATCAAAATGGCTGAGCTTAACGTACGAAAGTTTGGTTTCCTTCCCGCAGTATTCATTTTTTACTAAATATATGTTTTAATCTCCAACGTGCGGCTCATTTTTTAATTTAGTTTCTATTGTTTTAAAATTTTTAATTTGATTACTCATGTTTCAACATTTTTTAATTATACATTTCACGTCGGTGAATGTTAAATTTAGCAGATGATAAACTTACATTACATTATACTTTTGTGAGTTGTTTAAAATTTAAGAGAGATCAAGTTGAAACTTTTTAAATTATAGAGATCAAGTTGAAATTAAACTCAAATTATCAGGCCAAATTTGTAATTTCACCTTGAATTATTGAATTACGTGGGAATCTCAAATTTCTTAATGACTAAAAGAACGTGTGGTTTAAATTCTGCAAGAATAGTTGCGTTCGTTACTAAAACATAAAGATGGGTGAAATCTTGATACAACTAGTATTGAGTAAGCCTTTAATGTTGGCTTTAGTATCTTCAAAAACTTTTGCTGGGGTGTGGGTCTACGGTAGTTGTTATTAGCTTTAGAACCACCTCCTTTGTGTGGTTGTGCTATTAAATTAACTCGTTTTCCAAGTTTTAAATGCTAATAATTTAGCAAGAAAAATATCAATTTGATTCAAACCTAACCCATTTGTCAACTTGAATATAACTCAATCATTAACACATTTCTATATTTTCTAAAAGATTCAAAATTTGAACTCTTGCTTTCATATTTGTGAGTAATATTCTAAAATTAAAAAATACGCACTTGCCATTGATGTTTCATTTAGAACTAGAAATATTTTTTGCTCTTCTAAAAGCATTTCTTTTCAAAATTTGAAAAAGTATAGGTAAGATTCATGTGACAGGATCTACAAGCATTGATCTTGAATAGTACATACATAAATGGTTAACTCCACTCTACCTGTATAGCAAGGAAACTACAATACATAAAAATTAAATCAATTATACTTTCCTTCTTGCTAAAATTAAAAATTTAATAGCCATGTATTTTGTTAAAAAAAAAAAAAGAAAAATCTCACTCCTCTTTTTACACGCTTGTCCAAAATTTAATGGTAGGAAGTATTTTACCATGTCCATTTCTGTCTTCCTCTGCCGTAATTACCAGCCAATGAGAATCATCCAACTTATCACTTTCTATGTCTGAACAATGGGACCCAGCAATAAATGTGCACATCATATAGGTAATTTTCATTGCCCTAATATTTCTATACGAGGTGCTTTCATTTATTTATTTTTAATATGATTTTTTTAAAAAAAAATTATTATTTTTAAAACATATTTTGTCTTCAAACTATTTTGACAAATATATATTGTTGTGATTTGGTTTACCAAAAATACTGTGGATTGAACTAGAGACCCATGCATGCAAACTAACCAAATAACCATTCAATCAAGCAAACTATTTTATATAATTGAAAGACAAATCATGTTTTGAAGAGACAATTTTTAACGGGACAAAAATGAAATTATTGTTTGAAAAGAGAATTTTTCAACAACAATATTCTCATAAATAGTTTTAAAAAATTATTTTTCGTAAGTTTCCTTTAAAATAATAATATTTTAAAATTTACCCATTTTTAAATACTAATTAAAAATTTTCACACATTGAAATTAAGTTATACTTAAAAAAGGCTATAAGTAATTATAAACGAACAATTAAAAAACATAAATATTTGAAAAAAATTAAATACTATTTTTATTTTCTACTGTTTTTGTTTGGAAAGCTGTTTTCAAAGATTATTCTACGGAAATAAAATTTTGGGTTAGTTCCAAAAATAGAAGAATAGGAGCCAAATATTTACACATATAGCAACCCAAAAGAAAAAAAAAAAAAAAACTTTTGGATCCAAATTTCTAATAGGTCACCACCTCCCATTTGAATTGCATGATATTCTGTAGGAAAAAAAACTTTTCGAGAAATATTGAAATATATCTCATCAAACTTATGCAAACAAATCCTACCAAATAAATATAGTAGTTACCTATTTTCGCATGTGGGGACTGATATGTCGTCAGATATCTCGATTTTTAACAAATGATTTGGGCTCTAAAGTATTGAGACTAAGAAATTATGGCCAACAAAACAAGCAAAACAAATGTAAGTAAGTTAAGAATTTGATACAATTTCCAAGAGACAAGTATACTATATTATTAATCAAATTCATCTTGCAATTTAACACCATAGAAGAAATTGTAAACAAGCTTTTGACAATATAATATATATTATTTTAACACATAAATGATAAGATGAGAAGTCCAGCTCACTTTCTCAATCAAACAGATCGAAAACACATTGAATATTCAATCAAACTGTTTTATTTTACACTCATTACAATTTAAACATTTGCTTCAGTGAGCTTGAAACGCTGTAGAGCAGAAGTTTCCATTCCAAGGTCGTCCCAACCGACTGGATGTTGAACCGTAGAGTGGAAGGGATAAATTATTCCAATTATTTATTATGTTGGTAACTTATTAGTAGTAGTATTGTTCACTGCGTCTGCATGTGCGCATCATCAAAGCCTGAAATGTGAGAGAGCAGAAATCCCGTCCAACCCTTTTGCAAGGTAGTAGTTAGAGAAGTCGCTAACTGTGGTTTCCCTGTACTTGGGAGCATTTTCTTCCGACAACAGTTCTTTAATGGGTCCATAAAGTTTGGAGTTTGGTTGATGGGCGGTGGTAAAGAAGCTTGCCACCGATACTCTCGGATCTTCACGATTCGCCAACACCCTGTGCTCCACGCTCAAGAATCTGTCATTTGTTATCAGCTGCAAAACAAACCCAAAACCCAAAACTAATGAGTAACTTTCCCATGATTAATTATTTTTAAGCATTAACACGTACGAATAAGTCAAAAAACTTGCCTGCAATAGATTGCCGATGTTGACAACCAAGGCCCCTGGAACCGGCGGAACATTCACCCACTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGCAGCAGCAGGGTCATGAAGCCATCGTCGGTGTGCTCGGTGCCTCCCATAGTCAGTTCCGGCTGCGGACATGGCGGATAATAGTGGCACGTAACGAGCAGCCCCTCGTTGCAGCCCAAGTTGACGAGATAATTTGA

mRNA sequence

ATGCCGAAGAAGCTGGCTATTGACACTCTCGGACCTTCGCGGTTCGCCAGGACTCGATGCTCCACGCTCTTGAACCTATCGTTCGATATCAGCTGCAGAAGATCGCCAATGTTGACGACGAAGGCCCCGGGAATTTGGGGGAACATCCACCCACTTCTTCTGGTGAAGAACTTAAGGGCTCCGATGTGTCTTGCAGAAGCACCGTCAGAAAATCATTGTCGGCATGTTCGGTCGCGGGGAGGATTGGGGGCCATGAAACAGAGGAAGGTGTCCCTCCAATTCGTGGCTGTACAGATCGAAATTGCAATTGTAAACCAAAGACTTGGTGTTGTCGCGCAATATTCTTGGAATCTCCGCTACGCCGGCCTTAGTTTCGTCGAACGCTTTCAGTTCCGAAGCTCTGTCGAAGCAGCTGTCATCAAGTTTGGAGACCAGCGCGAAGTTGAGTTCGTCGACGACCATTTTGCTTCTCCGGCCGGTGAAGCGATCTCCAGAGTTCCAACTTCGAATTCTGAGAAGTCTGGAGTTACGCCTTCTTCAGGACCAGGCGTCAAGAGCCACCTCCCTGAAAGGGATCTTGATTTGGACAATTTGACCCTCTCCCTCTCTCTCCCTCTCTCTCCCCTTCTCTTTCTCCTCAGAGCAAACCCATACAATGACAACTCTCTCCCTCTCTCTGTGCAGTCTGGTTCGAAATTCTTCGGAGCATCCATGGCTGATGGCTATCCTGATTCTTGCAGTTGGTCTTGCTTCTCTATTTCCACTTTGCTACAATGGAATGAGGAATACGGATTTGGGTTTTGCCGGAAACATTCTCGGAGTTATGATCCTCCGGTTGTCGTTCGAGGAATCTCAGTAACACCGGCATCGAGTAGCTCTTTAAAGCCGGCTTTAGTTAGTATTGTCAAAAGCTTTGAGTTCAGTGGGTCGTCTATGGTAGTTGTCGTCAGCTTTGGATGCGGAGGGAGGAAAAGTCCGTCCACTCCAGAGGCTGCAACCGCCATTCTCTCATGGCCCTTAGAACCGGCAGAACATCCACCCAGTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGTAGCAGCAGGGTCACGAAGCCATCGTCAGTTTTGGCTACGGACATGCCGGATAATAGTGGCACGCAACGAGCCAAAGAATCATCGGATTTTACCTGCAAACTTCCGGCAAGTCTTGTGGGCGGGGAGGGTTCGGGGCCATGAAACAGGAGAACGTGTCCCTCCAACTTGTGGCCGGTGCACCAATATTCTTGGAATCTCCGTTATGCCGGCGTCGACTAGGCCTTTAACGCATTCTATCATCCATCTTGGAGACCGACGTGAGGTTGAGTTTGTCGACCACCATTTTGCTTCTCCGATTGCCGATGTTGACAACCAAGGCCCCTGGAACCGGCGGAACATTCACCCACTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGCAGCAGCAGGGTCATGAAGCCATCGTCGGTGTGCTCGGTGCCTCCCATAGTCAGTTCCGGCTGCGGACATGGCGGATAATAGTGGCACGTAACGAGCAGCCCCTCGTTGCAGCCCAAGTTGACGAGATAATTTGA

Coding sequence (CDS)

ATGCCGAAGAAGCTGGCTATTGACACTCTCGGACCTTCGCGGTTCGCCAGGACTCGATGCTCCACGCTCTTGAACCTATCGTTCGATATCAGCTGCAGAAGATCGCCAATGTTGACGACGAAGGCCCCGGGAATTTGGGGGAACATCCACCCACTTCTTCTGGTGAAGAACTTAAGGGCTCCGATGTGTCTTGCAGAAGCACCGTCAGAAAATCATTGTCGGCATGTTCGGTCGCGGGGAGGATTGGGGGCCATGAAACAGAGGAAGGTGTCCCTCCAATTCGTGGCTGTACAGATCGAAATTGCAATTGTAAACCAAAGACTTGGTGTTGTCGCGCAATATTCTTGGAATCTCCGCTACGCCGGCCTTAGTTTCGTCGAACGCTTTCAGTTCCGAAGCTCTGTCGAAGCAGCTGTCATCAAGTTTGGAGACCAGCGCGAAGTTGAGTTCGTCGACGACCATTTTGCTTCTCCGGCCGGTGAAGCGATCTCCAGAGTTCCAACTTCGAATTCTGAGAAGTCTGGAGTTACGCCTTCTTCAGGACCAGGCGTCAAGAGCCACCTCCCTGAAAGGGATCTTGATTTGGACAATTTGACCCTCTCCCTCTCTCTCCCTCTCTCTCCCCTTCTCTTTCTCCTCAGAGCAAACCCATACAATGACAACTCTCTCCCTCTCTCTGTGCAGTCTGGTTCGAAATTCTTCGGAGCATCCATGGCTGATGGCTATCCTGATTCTTGCAGTTGGTCTTGCTTCTCTATTTCCACTTTGCTACAATGGAATGAGGAATACGGATTTGGGTTTTGCCGGAAACATTCTCGGAGTTATGATCCTCCGGTTGTCGTTCGAGGAATCTCAGTAACACCGGCATCGAGTAGCTCTTTAAAGCCGGCTTTAGTTAGTATTGTCAAAAGCTTTGAGTTCAGTGGGTCGTCTATGGTAGTTGTCGTCAGCTTTGGATGCGGAGGGAGGAAAAGTCCGTCCACTCCAGAGGCTGCAACCGCCATTCTCTCATGGCCCTTAGAACCGGCAGAACATCCACCCAGTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGTAGCAGCAGGGTCACGAAGCCATCGTCAGTTTTGGCTACGGACATGCCGGATAATAGTGGCACGCAACGAGCCAAAGAATCATCGGATTTTACCTGCAAACTTCCGGCAAGTCTTGTGGGCGGGGAGGGTTCGGGGCCATGAAACAGGAGAACGTGTCCCTCCAACTTGTGGCCGGTGCACCAATATTCTTGGAATCTCCGTTATGCCGGCGTCGACTAGGCCTTTAACGCATTCTATCATCCATCTTGGAGACCGACGTGAGGTTGAGTTTGTCGACCACCATTTTGCTTCTCCGATTGCCGATGTTGACAACCAAGGCCCCTGGAACCGGCGGAACATTCACCCACTTGTTCTGATGAAGCACCTGAAGCCCTCCGATATGGTCTTGCAGCAGCAGGGTCATGAAGCCATCGTCGGTGTGCTCGGTGCCTCCCATAGTCAGTTCCGGCTGCGGACATGGCGGATAATAGTGGCACGTAACGAGCAGCCCCTCGTTGCAGCCCAAGTTGACGAGATAATTTGA

Protein sequence

MPKKLAIDTLGPSRFARTRCSTLLNLSFDISCRRSPMLTTKAPGIWGNIHPLLLVKNLRAPMCLAEAPSENHCRHVRSRGGLGAMKQRKVSLQFVAVQIEIAIVNQRLGVVAQYSWNLRYAGLSFVERFQFRSSVEAAVIKFGDQREVEFVDDHFASPAGEAISRVPTSNSEKSGVTPSSGPGVKSHLPERDLDLDNLTLSLSLPLSPLLFLLRANPYNDNSLPLSVQSGSKFFGASMADGYPDSCSWSCFSISTLLQWNEEYGFGFCRKHSRSYDPPVVVRGISVTPASSSSLKPALVSIVKSFEFSGSSMVVVVSFGCGGRKSPSTPEAATAILSWPLEPAEHPPSCSDEAPEALRYGLVAAGSRSHRQFWLRTCRIIVARNEPKNHRILPANFRQVLWAGRVRGHETGERVPPTCGRCTNILGISVMPASTRPLTHSIIHLGDRREVEFVDHHFASPIADVDNQGPWNRRNIHPLVLMKHLKPSDMVLQQQGHEAIVGVLGASHSQFRLRTWRIIVARNEQPLVAAQVDEII
Homology
[Close]
BLAST of Sgr014973 vs. ExPASy TrEMBL
Match: T1LE53 (Uncharacterized protein OS=Triticum urartu OX=4572 PE=4 SV=1)

HSP 1 Score: 57.4 bits (137), Expect = 2.1e-04
Identity = 27/45 (60.00%), Postives = 31/45 (68.89%), Query Frame = 0 

Query: 3  KKLAIDTLGPSRFARTRCSTLLNLSFDISCRRSPMLTTKAPGIWG 48
          KK A +T GP+    TRCSTLLNLS D+SCR+SP  TT AP   G
Sbjct: 35 KKHATETRGPTPLDTTRCSTLLNLSLDMSCRKSPTFTTSAPATGG 79

The following BLAST results are available for this feature:
BLAST of Sgr014973 vs.
Match NameE-valueIdentityDescription
BLAST of Sgr014973 vs.
Match NameE-valueIdentityDescription
BLAST of Sgr014973 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
T1LE532.1e-0460.00Uncharacterized protein OS=Triticum urartu OX=4572 PE=4 SV=1[more]
BLAST of Sgr014973 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 165..181
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 165..188

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Sgr014973.1Sgr014973.1mRNA