Sgr015958 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr015958
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionUnknown protein
Locationtig00006406: 115959 .. 123165 (-)
RNA-Seq ExpressionSgr015958
SyntenySgr015958
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.
ATGCCCTCGTTCATATCTAGGTTGTCGTCATCACCGGCGGCCAATTCACAGACATCCGCTTCGAGTTTACAGGCTTATAAGGTGATTGATTTTGTTCTTGCTTTGTGCTTGCTCGCTGTATCTCTCTCTGTGATTTGGTTATTTATGGAGTTTGTTTGTTTGTTTGTTTGGTGCGCTATGCAGGAGGATGAGATTAGCGAAGGAAGAAGCGAAGGACCAGGAAAATACGGCCGGCGTCAAGGTAGAGATGGAAATCAAGAATTTGAAGCTTTACATGGAAAATCAAAGCATTATCGAGGAAAACGAGAAGCTGAGGAAGAAAGCGTTTCTTCTTCACAAAGAGAATCAAGTCTTGTTATCTCAACTCCAGAGTTTCTCCAAGCAAAAACAGCAACCTCCGATTTGAGCGTGCGGCCTGAAAATCGTCGGTAACGATCGAGTAGAGGATCTCTCAACCTTGATAACTTTCTTGCCACCAATTTCTTTTTAATTTTCCTATGATTCCTTGGTTTGTAATCTGTTATTTTGACAATAAAATAGGGTTGGTTTATAGGGGAGGGGAATAAGGGTGAATTACGGGATAGATTTTCAGGATATAGTCATGTTATGAAATATCATGAAGTATTGTAATAGAACTCTGTACTCTCAAATTGATTCATCCGATTTCTCCATTGATGAACCTTTCTTTAGGTTATAAAACTCCATTGAAGAAGCTTGGTTGTTTCATCTTGAAGCAAAACAATGATTTGGCTTCTGGACCTAAAACTTGAAAGAAAATGGTGAAATAAGATTTCGGCCAAAGGCAAATCAGTCGAGCATATAATTAATTTAGTGGTTAAAATATTTTTATTTTTATTTGAGTTAATCAATGTAATATTTAAAAAAAAAAAAAAAAATCAGCTAAAAGGGAATATAGCTTTGTTCAAGAAAGCGTTGCTTTGGGGAAAAGCAAATTCTCTCCTTTAAATTCTTGTCCTTTAAAAAAATTTATTCTCCCTATTTTTAATTTAAAGCTATTGTATTTTTTTTTTTTTGGTTAACAATTAAAGCTATTGTTAAGAGTTAAGAAATAATAAAAATTAACATGTTAATTCAAATTGTTCCTCCAAAATTGAGATTAATTTTATCTCTCTTTTTTTTATATTAAACTAGGATATTGTCTTAAAATTCTGCTAACTCAAATCTCAAATATAATTCATCAGTTAAGACATTTGATAAAAATTCGACCTCTACATGGTTGTACTAAAAAAAAAAAATCTATCTTCTCCATTAAGAAGTATCGCATCATAAAAAAATTTACATTAATTTTAATTTAAAAAAAAAGAATAAAAATGAAATGACAAGTTATAAAACAGTCAGCAGGTCATTAGGATCAGATCCATAAAGGGGAGATCAATTAATATTAGAAACAGAATAAAGTTTTGGAATTTAAAAGTTAAAAAAAAAAAATAGAATCTTCATGTACTTAAAAAGACAAGAATAATCAACAAACTAGAAAGTAACGCAAGGGGGAAAAACTTTTAAAATAATATTTTTAAAAAATTGGAAATTGCCCCCATGGAATCAGAACCAGACGACACTTCAACAGAAGGAGGCCAACAACTAACAGGCATCCTTATTTAGTATCACATTAGACGCCAAGAAACGAGTTGAAGACTTGAAATACACGTCCATAAATGGAGAAAAAAAAAAAAAAACATATGGATATTTTATTACTACAAATTCAACACCACATAATTGGCAATAGCCTTACTTTAGAGATCAAGAACAAGAACAATAAACGTTAAGATCAAGAGCACGGAATAGACCTCAAAGACCTGAAGAAGCATAAAGGCCTCAACAACTCTTGGCCAGGGCACCACTAATATCGACTAACCAAAATGAAATCATCATCGTTAAGAACTTCAACATCTTTTTCGCCGACAAAACTCTCGCGCCCAATTTGCTTCACCAAATTCACAAACTCCTCCCTCTTTGCTTTTGGAAGAGGTACATATGGTAGCCTAAACACAGGCCTCACGACCCCGAGTTGAGCAAGAGCCGTGTTCAAGCAGATCGGGTTAGGTTCATAGAACAGCCAGTCCATCAAAGGCATCAGCTTCGCGTTTAGGGAGGGGTTCTTCCCTCCAAACATGAGCTCTCTTATTAAACCAGGCACCAAGTTGCTCGTCACAGATATAACTCCAGTTGCTCCATGATTCCACCTAGCATCGTGGCACTGATCATCGTTTCCACTCCAGACCACAATTCCTTGGTCAGTATATTGTTCGACGCGATCATTTCCGACACATTCCTTCACACCGCTAGATTGGTGCTTTGAGCAACATTTTGAACAACACGGGGAGGAATATCTTGGCCAGTTCGTGATGGTACATTGTATATAATAGTCGGGCCCAGAGAAAGCACACAATTGAAGTGCGAGATCATTCCCTCAATGGATGTTTTTCCATAATAAGGATTTATATGAAGGGCGGCATGCATTCCAACAGCAAATCCCTGTTCAGAAGCATGAATTGCTTCTCTTGTAGAGTTGCTTCCAGTGTTGCCTATTACCTTGATTGATCCACCAAAACAGTTGACAGTGTGACCAATAAGCATTATATGTTCATCCCAGCTCATCAACTGACCTTCACCAGTTGTACCACCGACAATCACACCTTCAGCTCCATTTTCTATCTGCAAATTCACCAAGGCATCATATGCTTCAAGATCAAATCTACCATCGGGAAGATAAGGTGTTTTAATGGCAGTTACAAGTCTAAGAGACTTTATATCATCTGCTGATGTCCTGCAAATAAGAGCTGAAAAAAATGAGCCAAATCTATGATTGTCCAGAAACTTTATTTCTCAACCTCAGACTGTGATGGTGAATGAAGAACGGTCAATTGTTACCTATATGTAACAAGCGAGAGAGAGCATGCAAACAATGTCTTACATCATTTGTTACCTCATATATCTATCAATGGAGGAAAATTGAGCTCTTTGATGAAAAATGATTTTTAAAGAGCATCTACTATTAGGAACTGGAGAAAACAGAAAGCAACAACTAGAATTTCCAAAACATTCTTTATAAATAAATTGAAAAGAAGACGAGAAATAAGTAAAGGCAAACATTACTCAAAGACAAACCCTATCTAATGTAATCAGCCCACATGTAATACAATTAAGAAAACCATTTACAGACATTAACACAGTTCACTAGGGGTTCCCAATTCAACATCTATAAGGGAGTAGCGGTCTGGCGGAGAATGAATTCATGAAATTAAATGGCTCACCTGTTCTTGACTTCTAAACTGCGCATTGGAAGATGTAAATTGGGTATGATGGCAGCCTGTGGAGACCTCCATCTAGCATTCCTCCTGGTACATTGTCTGACAGTAACAAGGGAAGTAACATTGGTTTAAGTACATAATTGGACAAGTAGTGTTCTCATCTTCCAGCCCTCCATTTCCAATTGTACCATTCATTCACAATAAACCAAAACGATATTCTATGACACAATTCAATTATTACATATTAAAGAAATACAATCTAAAAAGCAACTGGAGCGATTCAATATATATATATATATGCATTATCAATCAAAATCAGAAGCACCTGAGATTCACCGGCAGTATCATCGGCGATATAACTTTAATTTATGTCCTATCATTTTCTTTTCATACTAGAAACACAAACAAGCAGACAGATCGTAGATGGAATTAAATGAATTGCTAGTGTGTGTGCGTGTTTGCGAAAATTGCAGGGAGATATGAAATAAAGGTAACATATTTCTTTTCGTACTAAAACGTGGAACTATCTATGCACATGTATTATTATTTGCGCTGGGTGTACAAATTACAGCCAAATAATAGATAACAGGATAACATATTTAAGGACTATGAAACTAAAATGCTATACAGCCATCGATGAAGTAACTCTGGTCGACGTCAGTTGAAAGCTTAAAGACCAGCAGCAATCAATACGGATAAATGATTCATTTATTACCAATAAAATAAGTCAAGCCCACTTCTATGGCGTATGTGAATTCATTTCACGTAAATCCAAATAACATGATGCATTGTTTAATAATTTAACCGATAATGTTTTGTATACCTCTTATAGCTGTCGTTGTATGGGGATGCGGAAACTGGAGAGCATACTCCCGCAAGCACGCGCCGTAGCCTTTGACAGTGGTCATCTGGAACAGCCAACCGAAAGCAAAAATTTCAGTGAAGATGGCGTTTCTTCACGAACCAACCAGCTGCTGGATTCGATACCGGAAAAAGGAAAACCGCCGAGAAAGAGAGGTGGAAGAGCGCTGAAGTCACAGAGTGGTGGCGGCAATGATTGTAGTTGCTGCGGTGGTCATAGTTGCTGTGGTCGAGATAGTTCCAGCAACAGAACGTCGGAGGGAGCAGCCGGAGAAGACCATGTGGTTGACTTTGGCCGGAGAAATGCCTGTTTAGAGCAATGGAAGTGTGAAGGTTTCGAAGGGAGGATCTAATGGAGGTAAGTCGAAATGGTTGGTCGTGGCTATGGCTAGGGTTTGGGCAGCGAAACCACTGGATGAGCTTTTGATTTTGGAAAAGGAAAATTGGGCTCACTCGAGCGGGCCCAATAATGGGAAAATGGAATGGGCCGAAATCACCAAATGAGTGTTTAATTAGGTTTATGGGCTTAAAATCAAGCCCAGTATGCTTTTTCTTTTACATATTTAATATCTTTATCTTACTACATTAAAAAGTTTGACAGTTTTTTTTTTTTAAATAAAAAAGTTTGACAGTTAAGAATTATGTTTTTTACCTATTTTTTATTTATATAATTTCAATTTTCAAACTTACTGCTAATAATAATAATTTATGAATCATGTTGAATTGAAAGTGTTCTAAGAATCTTAATCGAATTTTAAAAATTAAAAAAAAATTATGTTTAAGACATGTTTTGTTTTTCAAACTGTCTAATATTTCAAAATTAATTCTTAAAACAAACAAAAATCTCTATCAAATGAAGTCTTATAATTTAAAATGTCAATTGTTGGCCGTAGAAGAAGGAATTGATGGAGTGTGGCTTGAAGAAACACAGGAGGCAATGGAATCGAACCTAGGACTCATGCGCTCTGTTTGTTTAACTATGATTTATGTGGTTTTTCCCGTGTAATGTGTTTGTTGTCCGTATTTATTTAAAAAAAAAAGTTTAAATACTTATGGCTTTTTATGTTTGTTTTGAGTCCAACGCTGATGGTATACCATTAGTGGTAAATGGGTGATTTTTTTTTCAATCGATGAGATATGAAGTATTAACATGATAATACCTTATCAAATTATATATATATATATATATATATTTTGTTCGTGTGAGATTGCTTGAATGTTTAAATTCAAGCACAGTAAATAGATATATTAAACTCAGTATAGCTCATTCAGTCAATATATTGATAACGACCTTTAGGTCGTAGATTTTATTCTCCACCCTCTATACTTGAATTATAATACTAACCTAAAGAAAAAAATATTTTAACAATTTATAATTGGGTTTTGATTGTTGTTTTTTTTTTATCTGCGAGTACAACCAAAACATCTAATATCAAAACAGTACTAAAAAGCTAATCTAAGCATAGTTCATGGAAAACGTATCTATTCATTCTCAAGGTTCAATGCTCAATCTCTACCTTGCATTCATTGAACTTCAAAAAAAAAAAAGAGTATTAAAAATTTATGTATGTTTATGGGACTAAATAATATATTATTTATAACGATAACAATCTACTGCCAATTTTATAATTTAACATTTTAAAAATATACTTTTTTTACTCTACTACTATAAACTCCTATTTTCATAGGTATGACAATCGAGTTTAAAAATAAATGAAGTTGAAACTTGTTTGCTTCAAATCAAAGTAGTTCAATTATTTATTAATTTATATACTTTAATTAAAAAATATTTGTAATAAAATTAAAGTTGGAAACTCAAAATTTATAATTTTTAAAATAGAAGAACAAATCATTAAAAAATACAAAAATAAAAAATAGGCTTAAATACTATTTTGGTCATTATACTTTGAGTTTTTGTTTATTTTAGTTCATGTACTTTCAAAATGTCAATTTTGGTCCATGTACTTTTAAAAAATAGTCTTTTTGATCCATGTTTGATAAATTCAAATACAAATTCTGTACTCAACAAAAACCTTTTAATACAAAAATATGACAATATTTCTAAAAATTTATAGAGTGTGTTATTGTGCTGAAAATGTGATCGAAAAAATGGGATAAAAAGGAAAATGAAAGGACCAAAACGGTAAATTTCTTGAAAGTACAGAGATAAAAAATGAACATTTTAAAAGTATAGGGATAAAAATAAACAAAAGCTTAAAGTACAAGGACCAAAAATAAATATTTTAAAAATACAAAAACTGAAATGAATAAAATTCAAAGTATAGAGACTAAAATAGTATTTAAATGTAAAAAATATTATGAGAGCCCGTGATTAAAAAAGTATTTGAATATTTAATTTTAAATGTTTCTAAGAAAGCGCGGTAAATTAGGTCAGAAAGAGATTTAGCCTAAATCAACATCACAATACTTTGCCTTAAAAGAAAACTCTATTTCATGATTAAGACCTTTTACGGTCTCCTATTTCTTCAGCATTTATTTTAATCCGCTTTCTATTTGTTTATTTAATTAAAGTAACCGTCAGCGACGAAGTTTTTTTTTTTTTGGAAACTCGGGGACAAAGTTAAAATTACTATAAAACAAATAATTTATAATCCTTTAAATTACTTTTACCGCGAAAAGTGAATTCAATTCAATCAAAATATATTGCTTTTGAAAATAAAAAACAAATAATTAATTCTTTTTAAATCTCTAGAAATAATCGAGACAAGGCACGCTCGCAAACCGTCGGTGATATTTAAGAGTGGTCGCCGACGTGGGGGCGTTTTGGCCGCTGCACAGTTTTCTCCGGCGATATTTTTACATCGTGGTTGGTTTTGTTTCTCTCGATTTTCTTCTCCGTAGGGACCTACCGATCTGCGACCATCTCTGTCTCCTTCTCACTTCTCTGGGCTCCACGCCTTTCTCCATCATTTCGCAGTGTAATCAAGCTAGCCAGCCAGCAAGCACAAGGAAACGCTTTCTCTTCGTCCCATAACTACTGGTTTTTTCACTCGCTTTCACTGTCTGCTTGTACCGAGCAGCTTCAGAAGCTAACGAGGACTAGACGCCGGTGA

mRNA sequence

ATGCCCTCGTTCATATCTAGGTTGTCGTCATCACCGGCGGCCAATTCACAGACATCCGCTTCGAGTTTACAGGCTTATAAGGTGATTGATTTTGTTCTTGCTTTGTGCTTGCTCGCTGTATCTCTCTCTGTGATTTGGTTATTTATGGAGTTTGTTTGTTTGTTTGTTTGGTGCGCTATGCAGGAGGATGAGATTAGCGAAGGAAGAAGCGAAGGACCAGGAAAATACGGCCGGCGTCAAGGTAGAGATGGAAATCAAGAATTTGAAGCTTTACATGGAAAATCAAAGCATTATCGAGGAAAACGAGAAGCTGAGGAAGAAAGCGTTTCTTCTTCACAAAGAGAATCAAGTCTTGTTATCTCAACTCCAGAGTTTCTCCAAGCAAAAACAGCAACCTCCGATTTGAGCGTGCGGCCTGAAAATCGTCGCTGTCGTTGTATGGGGATGCGGAAACTGGAGAGCATACTCCCGCAAGCACGCGCCGTAGCCTTTGACAGTGGTCATCTGGAACAGCCAACCGAAAGCAAAAATTTCAGTGAAGATGGCGTTTCTTCACGAACCAACCAGCTGCTGGATTCGATACCGGAAAAAGGAAAACCGCCGAGAAAGAGAGGTGGAAGAGCGCTGAAGTCACAGAGTGGTGGCGGCAATGATTGTAGTTGCTGCGGTGGTCATAGTTGCTGTGGTCGAGATAGTTCCAGCAACAGAACGTCGGAGGGAGCAGCCGGAGAAGACCATGTGGTTGACTTTGGCCGGAGAAATGCCTGTTTAGAGCAATGGAAGTGTGAAGGGACCTACCGATCTGCGACCATCTCTGTCTCCTTCTCACTTCTCTGGGCTCCACGCCTTTCTCCATCATTTCGCAGTGTAATCAAGCTAGCCAGCCAGCAAGCACAAGGAAACGCTTTCTCTTCGTCCCATAACTACTGGTTTTTTCACTCGCTTTCACTGTCTGCTTGTACCGAGCAGCTTCAGAAGCTAACGAGGACTAGACGCCGGTGA

Coding sequence (CDS)

ATGCCCTCGTTCATATCTAGGTTGTCGTCATCACCGGCGGCCAATTCACAGACATCCGCTTCGAGTTTACAGGCTTATAAGGTGATTGATTTTGTTCTTGCTTTGTGCTTGCTCGCTGTATCTCTCTCTGTGATTTGGTTATTTATGGAGTTTGTTTGTTTGTTTGTTTGGTGCGCTATGCAGGAGGATGAGATTAGCGAAGGAAGAAGCGAAGGACCAGGAAAATACGGCCGGCGTCAAGGTAGAGATGGAAATCAAGAATTTGAAGCTTTACATGGAAAATCAAAGCATTATCGAGGAAAACGAGAAGCTGAGGAAGAAAGCGTTTCTTCTTCACAAAGAGAATCAAGTCTTGTTATCTCAACTCCAGAGTTTCTCCAAGCAAAAACAGCAACCTCCGATTTGAGCGTGCGGCCTGAAAATCGTCGCTGTCGTTGTATGGGGATGCGGAAACTGGAGAGCATACTCCCGCAAGCACGCGCCGTAGCCTTTGACAGTGGTCATCTGGAACAGCCAACCGAAAGCAAAAATTTCAGTGAAGATGGCGTTTCTTCACGAACCAACCAGCTGCTGGATTCGATACCGGAAAAAGGAAAACCGCCGAGAAAGAGAGGTGGAAGAGCGCTGAAGTCACAGAGTGGTGGCGGCAATGATTGTAGTTGCTGCGGTGGTCATAGTTGCTGTGGTCGAGATAGTTCCAGCAACAGAACGTCGGAGGGAGCAGCCGGAGAAGACCATGTGGTTGACTTTGGCCGGAGAAATGCCTGTTTAGAGCAATGGAAGTGTGAAGGGACCTACCGATCTGCGACCATCTCTGTCTCCTTCTCACTTCTCTGGGCTCCACGCCTTTCTCCATCATTTCGCAGTGTAATCAAGCTAGCCAGCCAGCAAGCACAAGGAAACGCTTTCTCTTCGTCCCATAACTACTGGTTTTTTCACTCGCTTTCACTGTCTGCTTGTACCGAGCAGCTTCAGAAGCTAACGAGGACTAGACGCCGGTGA

Protein sequence

MPSFISRLSSSPAANSQTSASSLQAYKVIDFVLALCLLAVSLSVIWLFMEFVCLFVWCAMQEDEISEGRSEGPGKYGRRQGRDGNQEFEALHGKSKHYRGKREAEEESVSSSQRESSLVISTPEFLQAKTATSDLSVRPENRRCRCMGMRKLESILPQARAVAFDSGHLEQPTESKNFSEDGVSSRTNQLLDSIPEKGKPPRKRGGRALKSQSGGGNDCSCCGGHSCCGRDSSSNRTSEGAAGEDHVVDFGRRNACLEQWKCEGTYRSATISVSFSLLWAPRLSPSFRSVIKLASQQAQGNAFSSSHNYWFFHSLSLSACTEQLQKLTRTRRR
Homology
[Close]
BLAST of Sgr015958 vs. NCBI nr
Match: KAG7028655.1 (hypothetical protein SDJN02_09836, partial [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 77.4 bits (189), Expect = 2.6e-10
Identity = 44/68 (64.71%), Postives = 50/68 (73.53%), Query Frame = 0 

Query: 260 WKCEGTYRSATISVSFSL-LWAPRLSPSFRSVIKLASQQAQGNAFSSSHNYWFFHSLSLS 319
           W    TYRSATISVSFSL L +   S +++     ASQ A+ NAFSSSHNYWF HSLSLS
Sbjct: 59  WARHRTYRSATISVSFSLPLGSTAFSINWQ--CNKASQPAEANAFSSSHNYWFLHSLSLS 118

Query: 320 ACTEQLQK 327
           ACTEQLQ+
Sbjct: 119 ACTEQLQQ 124

[Close]
BLAST of Sgr015958 vs. NCBI nr
Match: KAG6597190.1 (hypothetical protein SDJN03_10370, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 74.3 bits (181), Expect = 2.2e-09
Identity = 43/65 (66.15%), Postives = 49/65 (75.38%), Query Frame = 0 

Query: 263 EGTYRSATISVSFSL-LWAPRLSPSFRSVIKLASQQAQGNAFSSSHNYWFFHSLSLSACT 322
           E TYRSATISVSFSL L +   S +++     ASQ A+ NAFSSSHNYWF HSLS SACT
Sbjct: 49  EKTYRSATISVSFSLPLGSTAFSINWQ--CNKASQPAEANAFSSSHNYWFLHSLSRSACT 108

Query: 323 EQLQK 327
           EQLQ+
Sbjct: 109 EQLQQ 111

[Close]
BLAST of Sgr015958 vs. ExPASy TrEMBL
Match: A0A0A0L7L5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G125540 PE=4 SV=1)

HSP 1 Score: 102.8 bits (255), Expect = 2.8e-18
Identity = 59/110 (53.64%), Postives = 76/110 (69.09%), Query Frame = 0 

Query: 148 GMRKLESILPQARAVAFDSGHLEQPTESKNFSEDGVSSRTNQLLDSIPEK--GKPPRKRG 207
           G RKL+S+ PQARA+A ++GHLEQ TE+K F+++  SSRT QL DSIP++   K PRK  
Sbjct: 11  GTRKLKSMFPQARAIALNTGHLEQLTENKTFTDNQASSRTKQLPDSIPDEKAKKTPRKMR 70

Query: 208 GRALKSQSGGGNDCSCCGGHSCCGRDSSSNRTSEGAAGEDHVVDFGRRNA 256
           G ALKS++  G+ C C G H   GR SS +   +GA GE HV+DF  RNA
Sbjct: 71  GSALKSENDDGDSCDCSGSHD-SGRSSSGDGAWKGAGGEVHVIDFEWRNA 119

The following BLAST results are available for this feature:
BLAST of Sgr015958 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG7028655.12.6e-1064.71hypothetical protein SDJN02_09836, partial [Cucurbita argyrosperma subsp. argyro... [more]
KAG6597190.12.2e-0966.15hypothetical protein SDJN03_10370, partial [Cucurbita argyrosperma subsp. sorori... [more]
BLAST of Sgr015958 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sgr015958 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0L7L52.8e-1853.64Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G125540 PE=4 SV=1[more]
BLAST of Sgr015958 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: 166..218
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 170..192
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 90..110
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 90..116

Relationships

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

Feature NameUnique NameType
Sgr015958.1Sgr015958.1mRNA