Sgr001809 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr001809
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
Descriptiontwo-component response regulator ORR26-like
Locationtig00001138: 76272 .. 82922 (-)
RNA-Seq ExpressionSgr001809
SyntenySgr001809
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.
ATGGAGGAAATGGGTTATTGGGTGACTGATTCTCTCCCTAGCTTTGCCAAAAATCTCCATATCTTGCTGGTGGATCATGACCCGCTCTCTCTCAAGCACTTGGCTTCCTTGCTCGAGCAACAGTCCTACAATGGTACAGTACATCACAGTGTTTTCATTAATCTTTTTCACCACCCTAATTCTACCGTATTAAGGCATAGTATAATGCTTCTTTGTATCTGGGAACATGTTGTAATGTGCATGTGTAATGCAGAAAGAAATTCAATACATTTTAGTGACAGATTTGTTAAGGGGTTTAAAAAAATTGTTATGGATCATTGTTGTGATCGATCTGCAACTACTAAAACAGAAAGAGTAAGGAAATAGAAAGAATTTAACTTGATTTCTTAATCCTTATTATCTTTCACTTCCTCTCTGTGACCAGAATATACTTTATCTTAGCTGCATGGTTTTAATGGAAGTTCAGCATGATGCTTTTACTTTATACTGCCTTTCCATATAAGGATATTTTTCTTAATGACAGAGATATAGGTTTAAGTACAATCTCTTATGCTCAATTTCTTTCTTTTTCTGGGAATCAGCATTGAATACAGAGCATAAAAGTACAAGATCTGGATGATTTCTTAGCTTAAGTTTCTACAAGGTCAATTCTGCGTGCATCTAGTCTACTATCTATTCTTTTCCTTGAAGTATAATTGTTTTGTATCTTTCATTTATGGGGCTAATTACAGTAATATCCATTTAGCTTTACTTTTTTGTTTTTCCTTTTCCATGAAGTTGATGTGCATATCATCCTTATTTAGTATTATCTGATCCATTTATGCAATTCTCTGGAAGAAACAGCTTTGGTTAATTTTATTTGGAGAAAAGCAGATTCAATCAGATGACAAATTTTCTAACTTGGATTTTTTTTTCTCTTTTTGCAATTTTTCAGTTACCACCACTCAACTAGCATCTATTGCACTATCAATGATTCAGCAAAAAGGTGACCGGTTCGACCTTGTCATGGCTAACGCTAGCATGCCCGATATGGACTGTTTTTCGTTTTTGCACGTGCTCCTTAAGAAGAATATTGCTGTCATTTGTAAGCTTAATTTTGCATGGTTATCTCATACAATTTTATGTTACCTTTATTCTCAAGCTACTTCGTTGCCTGGCAGTTATGTCCTCAGGGATGAATTTGAACGTGGCTACAAAAGCATTGGCAGAAGGAGCGTGCTATTTTCTTCAGAAACCTATTTCCAAGGATGATCTCAAATACGTATGGCAACACGCGTATCGAAAGAACAGAAATGCAAACAAGCAAACCCATAAAGCAAATTGTATAGAAAAAGCCAAACCTGGAAAGGAATCTGTAGGTATTGAAATTCCAGACACTGTTGTTTTGTCTCGGTCTGCCGCTGCAGTTAGTTATATTAATAATAGTTGCAGTAATTATCAACCTATGAACTATAAGGAAAAAGAGAAGAATAAGCAAATTGAATCCCATGATAGTCTGGTTGGGTCAAACTTTGGAGGAAAGAGATCGACTGATGACATAGAAGGAATAAACAGAGAGAAGAGAGTCAAATATTACTCAGAGCCTGCCAAGTTTGGAAGAACAAGAAGTGATGAGGATCGTGAAATAAGGAAGGAATATTATATCTCCAGTGATAGCAGGTCACGTGTTGTGTGGAATGCAGAACGACGTCGCAAGTTCACCGACGCCCTCAACAAGCTAGGTGATAAATGTAATATCACTCTCCCAGGAGTTATTATTATTCTGAAGTCATTATTATTGCTTAATGCTTACCAAATTTCTTAGCAATTCAGTTTGCGTTTGAATTCAACGATGCATTTCTAATTACTGCTTATTATGTTTCTCTCTGATCCCAAAGCTCGCCCAAAACTTATACTGAAGATGATGAATGAACCATGTTTGACCCTGCGCCAGGTCGCAAACCACCTGCAGGTATTCTCTTCTATCAAGTTTGCTTGCTATTTGCATACCATAAACTTTTTAGTTTTTTAGTTATAAATCAATGAGGAATTTGATCCTGCCACTGTTTCAGCTAGCAAGATTCGCAATTCTGGTTACTCCTGTTTGTTCATTTTGCTAGAAGCTTCTACTATTTACTTGTCTGCATAAAATTGAATTTGGAGTTTAGATGTTTGAATCCGAACCCAGCTTTTATAAATAATCATATTTCATGCATTATTGTCGCCTATAATTGCTTTCTATGTTAATTTATATCCTTCTATATCTTTTGCAGTCAAATTAGAAGTTCCTTTTCCCTTCTTATTAGCAAATACGTCGTAGAAAAGACGGTCTTTGCTTATTTGAATATGATAATGGTTTGTTTAACCTATCTTATGCATTTCTTATATAATTTTTATAGTATAAAATTTTTTCTAACAATGTATTATCCCATCAGAAATACAAAGCTCAAGTAGAGTGCATTAAAAGGAGGAGAGAAAATAAATTACCTTCTAGGATGGAGGCGGCATCCAAATCCAATTCCTCAGCCAGAACTCAGCTTCCTTCTCTGCTTCGAAAGCAGCATCACGAGATGAGCAGATTTAGAAATGGAGGTTTGACTTCTGTTTTAGGGAGGGATAGATTCCGACTTATCGTGCCTAAAACTCTGCATAATCCTAGACTGCCTGTTAGTGACTTCGTGAATCGTGGTCTCAGAATGCTTAACCACAATTTTCAGCATGTTGGCTTAAACTACGATTCAGTTTCATTTAACGTCAGTAAGGAAGTTGGATTCTGCCCTGATAACATTCAAACATTTCGAAAGGAAGGGAGTACTTTTCGTGCTGACACTAGTGGGAAGTTTGCTTTAGCAGGAGGGGGTGTTGAAACATCTGAGTTGAACTTTCCAAATGTCTCTAAAACAATTCCGGAGGTAGCTTCTTCTCACGTATTTGATGAAACACTGTTCCCAGACAATCTTCTTGATGTAATTCAGCAGCTAGATTTGACTGCTTTTGAAATTGAAAACCAAGAAGCAAGGGAATGTAGTGGCACATCAGAAGAGATTCAGTCGATGTCGATGGAGATCACTTTGCCTGACTTAACTAACTCGGACAATGTTGCTCCAGATTTTATTGATGGGGGACAGGAGCTTCCTGCTGCTTCTGGAAATGAAGGAAGCCAACCATTGGCAGACTATACTGATCTCTTAAAAGTACTAGAAGATGATCCATACAACTTCAGCAGCGACTTAAGTCTGAGCGACGTTGATAAATACTGTGAATGGCTGAGGAACACTGTGCTTGAAAACAGAAGCGGTCCAGACAGCTTTATCGGTGACGATACAGAGAAGGTTCCAATTGGAAACACCCAATAAGTAAGTATATACTGCCATTGAAACAACTGGAAATGTAGGGTATTTGTATGCTTATTGTCATAGATTCTATGCAAAATGTTTGTACTTCTCTGATGTCCTGGCTACCTTGCAATAATATAACACAAAGTGTTTCTGTTTTGGTACTTGTACAGAATCATGTTGCCAATGCACTCTCGCATCCGGAAACGAGGACGAGAATCAGATAGGAAGTTACTGAGCTATAATTACATATGGTGGGGGGAAGGGGGTAATTATATACGGGTGAGATATACGGAGTTAAAGTTCTGTTGGAAGCGAAGAGGCTTCGTTCATCCTTTAAAGTGTACAGGACTCGATAACCGCAGAAAACTAGCGTATAAACGTTACATACATATTTTAGTAAATCATAAGCTTCTTACTTATGTTGTGACTTATGCAGCTCTCCATTTTTGTGATTTATTGCTTTAAATGACTCTAGGTACTCACAATATGAACTGTTCCTTCAGGAATCTATATTGACTATAAGACCCCTACACCAGTGCTTGGCACTGAAAATCCAAGAAAAAACAGTGGCTCTGCAGCAGGAGATGTTAGTTGAGAGTCCGAGTGGTAATTGGATATTGGAGAGGCAGTGAAAAGAATATTGAAATGGTTGACCCAAATGAACAGAAATCTAGCCAACAAAGATCTCAGAAAGGTCCAAGTTGAACCGTCCGAGATTTTGTTGGAGATGCTAACATAGTCTTACCAACAAAAGATTTTGATAGATAAGTATAAGATATTGGTCTATTCTCCAATGTCACTTCAAATAATATGAACAATGCATATGTAATTTAGAGGTTGACACTACGGCATAGGTTGCAACACCATCATTTTTGGAGAGGGAGATTTTTTTTTTCGAGTTTAACAAGGGTGGGAGAATTTGAACTTCTGACTTTTAAGAGAGATTATCAATGTCTTAACTAGTTGAGTTGTGCTCGAGTTGGTAAGCGATCAGAACGCCATTGATTGATGGGATGAGATCATGCTTGTTCACTTTATGCGGCTCCTCTCTTGAAAATAATGCATAGGCCATCCATAGTCAACAACAAGCCGAGAGATCAAATCTCCAAAGAATAATAGTGGTTAATTTGTACAGTCCAACCATTTTTTAAGGAAAAAAAATTACTAATTAAAAATTTCTTTTTTTCAGGGGTTCTTCCTCTTCAAAATTATTTATTTCAATTTGAGGTTGGATTTAAGATATTAAAAAAAAATCATTCTCAAATGAATGTCAACTTGCAAAATGAAACATAAAGGATCCTTTTGGGGTGTAAATAATTGAGGGTGTAATTTATTTTAAAAGTTAAATAAATTATACTTATTTTTTCATATACTTTTTATGTTTATGTTAATTTTCTCTTGGTACTTTTAAAACTTTTGTTTTGCATACTTATATTTTAATTCATTAATCTCAATCGTGTCTATGAATTGATGAAAATTTATAATTATATTTAACATATTTTCAAGTTTTACTTTTTGGTAACCAAAGAGTAAAATAGTTTGCTCTTTCTTTTTTTGCCCTTTTAAAGCCAATACTTTTTTCTTAAAAATCAGTTAAAAATCATTTTGTAAACGATCCCCGCCCCCCCCCCCCCCCTTCTTTGGTCTTTCAAGCCTAAGTTAAAATTAGTTAAATTAAGAAATCCATTAAATTACTTTTTCCAAATATCTAAAGTTCAACTTAATCCTTTGTCATATTTAAGTTTGAATAAAAAGAAACTAACTTAACTCCAACATTTAAAAACAATCTCAAAAGGAAATGGGATAGAGAATACCTTGTTGGATAACAATTTTATTTTCAAAAATTGAACTTGTTAAAGAACTTTGTTAAAACTAAAATCATAATTCGTATTAAACAATAATTCCATGGAGTAATTGCAATGAGAATGGTGAACTATCCAATACTCCCTAAAAATTGAGATAAAAAAGGATAAAATAATGAAATATATCGAACTCAAGCCTAATATATTTAAGATCTTTTAAAGAAACTGAATTTGTCTCATATAAAATTTTGCTCGATACTCGCAACTATAGAGAAAATATTGTCATTGAATAAAGGAGAATTAATTGAAAAATGTACATACTTTATATAAACGCAAGTTGTTGAAAGGCTACCATGTTTAATTCATACAAGGCCAAAAATCCAATTTATTGTTAATAAAATTGAACCAATTCTTGCAACACATCCCACTCAGATTCATTGGGAAGCAATATATCTTGCATACATATATTATCATATAGAATATCATAAAATTAAATAAAAAAAAGATAAAAAATATAATATGTAATGGTGGTAACGGATACCGAATCAAAATATAGATCTCTCACCCATGCAACAATTGAATTGACTTCAATCTCTTCTCTCAAAAAAATTAAAGTTTGTTTCTTCAAAAGCTCCTACCTTTTGATGTGATAGTATCGGTACTCTTTCTCTCACAGTCAACTCAATCTTTCATAGATGATAGAAGAAAAGGTCTCTTGAACTTTAACTTGCATTTCATTGAGAGGGACAAAATTTCTTGCCACAAACAATCAACTTACAAATCTCTTCATGAAAAGCCTAGTAAAAAACTAGACACTATAAGTTTGATTCTAACATCCCTTTCACTTCTAGAGATCTTAGAAAGACACTAAATACAAAACAAAATGAAATACAACACTTTTAATAACTATCTTTTTTTTTTCTTGAAAAATATTATAATTCAAACAAAAAAGTGAGAATTCAAATCTTCGACCTTTAAGAAAAGTTACCAATATTATGATTTGTCATATCAAAACTATACAACATGGGTTTGAATTATTCCTCTCTCTTTCTTTTTCATCTATTTTGAAAGTTTCACAATTATTATGAGAGAGAATTTTTCTTAATTATATATAGATAATTTGTTTCAAAAAGCAGCCAAGTTTCTGGAAGCAGCAAGTTTGTTATAGATTTCCAAAACCAACTTGGCATCAACTTCTTCCCCACAAGAAACCAGAGAGACTTGATGGTGGCCAGGCTTTGGGATCCTGTTCTTCCCACCTCCTCCGAAGGCTCCAATGGCGTACATGTTCCCCACGCTGTTGGCCACTCTCATCATCATCTCCACATATGCGTCGTGAAACCTCGCCAGCATCTTCAATGGCGACGCCATCTTCAGCCGCAGCTTCGGAGCTCTTCTCATCCGCCATAGCCGCCCCAGCCTCAACCTTCTTGATCTCTTGTTTGTTCCCTCTGCAGTCCCACTTCTTAGCCTCTGGTATCTTCTTCTCCTCCAAATCCTCCTCAAGCTTTCTGAAGATGGCGCCATACTGA

mRNA sequence

ATGGAGGAAATGGGTTATTGGGTGACTGATTCTCTCCCTAGCTTTGCCAAAAATCTCCATATCTTGCTGGTGGATCATGACCCGCTCTCTCTCAAGCACTTGGCTTCCTTGCTCGAGCAACAGTCCTACAATGTTACCACCACTCAACTAGCATCTATTGCACTATCAATGATTCAGCAAAAAGTTATGTCCTCAGGGATGAATTTGAACGTGGCTACAAAAGCATTGGCAGAAGGAGCGTGCTATTTTCTTCAGAAACCTATTTCCAAGGATGATCTCAAATACGTATGGCAACACGCGTATCGAAAGAACAGAAATGCAAACAAGCAAACCCATAAAGCAAATTGTATAGAAAAAGCCAAACCTGGAAAGGAATCTGTAGGTATTGAAATTCCAGACACTGTTGTTTTGTCTCGGTCTGCCGCTGCAGTTAGTTATATTAATAATAGTTGCAGTAATTATCAACCTATGAACTATAAGGAAAAAGAGAAGAATAAGCAAATTGAATCCCATGATAGTCTGGTTGGGTCAAACTTTGGAGGAAAGAGATCGACTGATGACATAGAAGGAATAAACAGAGAGAAGAGAGTCAAATATTACTCAGAGCCTGCCAAGTTTGGAAGAACAAGAAGTGATGAGGATCGTGAAATAAGGAAGGAATATTATATCTCCAGTGATAGCAGGTCACGTGTTGTGTGGAATGCAGAACGACGTCGCAAGTTCACCGACGCCCTCAACAAGCTAGGTGATAAATCTCGCCCAAAACTTATACTGAAGATGATGAATGAACCATGTTTGACCCTGCGCCAGGTCGCAAACCACCTGCAGAAATACAAAGCTCAAGTAGAGTGCATTAAAAGGAGGAGAGAAAATAAATTACCTTCTAGGATGGAGGCGGCATCCAAATCCAATTCCTCAGCCAGAACTCAGCTTCCTTCTCTGCTTCGAAAGCAGCATCACGAGATGAGCAGATTTAGAAATGGAGGTTTGACTTCTGTTTTAGGGAGGGATAGATTCCGACTTATCGTGCCTAAAACTCTGCATAATCCTAGACTGCCTGTTAGTGACTTCGTGAATCGTGGTCTCAGAATGCTTAACCACAATTTTCAGCATGTTGGCTTAAACTACGATTCAGTTTCATTTAACGTCAGTAAGGAAGTTGGATTCTGCCCTGATAACATTCAAACATTTCGAAAGGAAGGGAGTACTTTTCGTGCTGACACTAGTGGGAAGTTTGCTTTAGCAGGAGGGGGTGTTGAAACATCTGAGTTGAACTTTCCAAATGTCTCTAAAACAATTCCGGAGGTAGCTTCTTCTCACGTATTTGATGAAACACTGTTCCCAGACAATCTTCTTGATGTAATTCAGCAGCTAGATTTGACTGCTTTTGAAATTGAAAACCAAGAAGCAAGGGAATGTAGTGGCACATCAGAAGAGATTCAGTCGATGTCGATGGAGATCACTTTGCCTGACTTAACTAACTCGGACAATGTTGCTCCAGATTTTATTGATGGGGGACAGGAGCTTCCTGCTGCTTCTGGAAATGAAGGAAGCCAACCATTGGCAGACTATACTGATCTCTTAAAAGTACTAGAAGATGATCCATACAACTTCAGCAGCGACTTAAGTCTGAGCGACGTTGATAAATACTGTGAATGGCTGAGGAACACTGTGCTTGAAAACAGAAGCGGTCCAGACAGCTTTATCGGTGACGATACAGAGAAGCCAAGTTTCTGGAAGCAGCAAGTTTGTTATAGATTTCCAAAACCAACTTGGCATCAACTTCTTCCCCACAAGAAACCAGAGAGACTTGATGGTGGCCAGGCTTTGGGATCCTGTTCTTCCCACCTCCTCCGAAGGCTCCAATGGCGTACATGTTCCCCACGCTGTTGGCCACTCTCATCATCATCTCCACATATGCGTCGTGAAACCTCGCCAGCATCTTCAATGGCGACGCCATCTTCAGCCGCAGCTTCGGAGCTCTTCTCATCCGCCATAGCCGCCCCAGCCTCAACCTTCTTGATCTCTTGTTTGTTCCCTCTGCAGTCCCACTTCTTAGCCTCTGGTATCTTCTTCTCCTCCAAATCCTCCTCAAGCTTTCTGAAGATGGCGCCATACTGA

Coding sequence (CDS)

ATGGAGGAAATGGGTTATTGGGTGACTGATTCTCTCCCTAGCTTTGCCAAAAATCTCCATATCTTGCTGGTGGATCATGACCCGCTCTCTCTCAAGCACTTGGCTTCCTTGCTCGAGCAACAGTCCTACAATGTTACCACCACTCAACTAGCATCTATTGCACTATCAATGATTCAGCAAAAAGTTATGTCCTCAGGGATGAATTTGAACGTGGCTACAAAAGCATTGGCAGAAGGAGCGTGCTATTTTCTTCAGAAACCTATTTCCAAGGATGATCTCAAATACGTATGGCAACACGCGTATCGAAAGAACAGAAATGCAAACAAGCAAACCCATAAAGCAAATTGTATAGAAAAAGCCAAACCTGGAAAGGAATCTGTAGGTATTGAAATTCCAGACACTGTTGTTTTGTCTCGGTCTGCCGCTGCAGTTAGTTATATTAATAATAGTTGCAGTAATTATCAACCTATGAACTATAAGGAAAAAGAGAAGAATAAGCAAATTGAATCCCATGATAGTCTGGTTGGGTCAAACTTTGGAGGAAAGAGATCGACTGATGACATAGAAGGAATAAACAGAGAGAAGAGAGTCAAATATTACTCAGAGCCTGCCAAGTTTGGAAGAACAAGAAGTGATGAGGATCGTGAAATAAGGAAGGAATATTATATCTCCAGTGATAGCAGGTCACGTGTTGTGTGGAATGCAGAACGACGTCGCAAGTTCACCGACGCCCTCAACAAGCTAGGTGATAAATCTCGCCCAAAACTTATACTGAAGATGATGAATGAACCATGTTTGACCCTGCGCCAGGTCGCAAACCACCTGCAGAAATACAAAGCTCAAGTAGAGTGCATTAAAAGGAGGAGAGAAAATAAATTACCTTCTAGGATGGAGGCGGCATCCAAATCCAATTCCTCAGCCAGAACTCAGCTTCCTTCTCTGCTTCGAAAGCAGCATCACGAGATGAGCAGATTTAGAAATGGAGGTTTGACTTCTGTTTTAGGGAGGGATAGATTCCGACTTATCGTGCCTAAAACTCTGCATAATCCTAGACTGCCTGTTAGTGACTTCGTGAATCGTGGTCTCAGAATGCTTAACCACAATTTTCAGCATGTTGGCTTAAACTACGATTCAGTTTCATTTAACGTCAGTAAGGAAGTTGGATTCTGCCCTGATAACATTCAAACATTTCGAAAGGAAGGGAGTACTTTTCGTGCTGACACTAGTGGGAAGTTTGCTTTAGCAGGAGGGGGTGTTGAAACATCTGAGTTGAACTTTCCAAATGTCTCTAAAACAATTCCGGAGGTAGCTTCTTCTCACGTATTTGATGAAACACTGTTCCCAGACAATCTTCTTGATGTAATTCAGCAGCTAGATTTGACTGCTTTTGAAATTGAAAACCAAGAAGCAAGGGAATGTAGTGGCACATCAGAAGAGATTCAGTCGATGTCGATGGAGATCACTTTGCCTGACTTAACTAACTCGGACAATGTTGCTCCAGATTTTATTGATGGGGGACAGGAGCTTCCTGCTGCTTCTGGAAATGAAGGAAGCCAACCATTGGCAGACTATACTGATCTCTTAAAAGTACTAGAAGATGATCCATACAACTTCAGCAGCGACTTAAGTCTGAGCGACGTTGATAAATACTGTGAATGGCTGAGGAACACTGTGCTTGAAAACAGAAGCGGTCCAGACAGCTTTATCGGTGACGATACAGAGAAGCCAAGTTTCTGGAAGCAGCAAGTTTGTTATAGATTTCCAAAACCAACTTGGCATCAACTTCTTCCCCACAAGAAACCAGAGAGACTTGATGGTGGCCAGGCTTTGGGATCCTGTTCTTCCCACCTCCTCCGAAGGCTCCAATGGCGTACATGTTCCCCACGCTGTTGGCCACTCTCATCATCATCTCCACATATGCGTCGTGAAACCTCGCCAGCATCTTCAATGGCGACGCCATCTTCAGCCGCAGCTTCGGAGCTCTTCTCATCCGCCATAGCCGCCCCAGCCTCAACCTTCTTGATCTCTTGTTTGTTCCCTCTGCAGTCCCACTTCTTAGCCTCTGGTATCTTCTTCTCCTCCAAATCCTCCTCAAGCTTTCTGAAGATGGCGCCATACTGA

Protein sequence

MEEMGYWVTDSLPSFAKNLHILLVDHDPLSLKHLASLLEQQSYNVTTTQLASIALSMIQQKVMSSGMNLNVATKALAEGACYFLQKPISKDDLKYVWQHAYRKNRNANKQTHKANCIEKAKPGKESVGIEIPDTVVLSRSAAAVSYINNSCSNYQPMNYKEKEKNKQIESHDSLVGSNFGGKRSTDDIEGINREKRVKYYSEPAKFGRTRSDEDREIRKEYYISSDSRSRVVWNAERRRKFTDALNKLGDKSRPKLILKMMNEPCLTLRQVANHLQKYKAQVECIKRRRENKLPSRMEAASKSNSSARTQLPSLLRKQHHEMSRFRNGGLTSVLGRDRFRLIVPKTLHNPRLPVSDFVNRGLRMLNHNFQHVGLNYDSVSFNVSKEVGFCPDNIQTFRKEGSTFRADTSGKFALAGGGVETSELNFPNVSKTIPEVASSHVFDETLFPDNLLDVIQQLDLTAFEIENQEARECSGTSEEIQSMSMEITLPDLTNSDNVAPDFIDGGQELPAASGNEGSQPLADYTDLLKVLEDDPYNFSSDLSLSDVDKYCEWLRNTVLENRSGPDSFIGDDTEKPSFWKQQVCYRFPKPTWHQLLPHKKPERLDGGQALGSCSSHLLRRLQWRTCSPRCWPLSSSSPHMRRETSPASSMATPSSAAASELFSSAIAAPASTFLISCLFPLQSHFLASGIFFSSKSSSSFLKMAPY
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
XP_038875544.18.1e-24879.69uncharacterized protein LOC120067959 isoform X3 [Benincasa hispida][more]
XP_038875539.13.9e-24275.21uncharacterized protein LOC120067959 isoform X1 [Benincasa hispida] >XP_03887554... [more]
XP_011655478.14.5e-23876.00uncharacterized protein LOC101203501 isoform X3 [Cucumis sativus][more]
XP_038875543.14.5e-23874.55uncharacterized protein LOC120067959 isoform X2 [Benincasa hispida][more]
XP_008467176.11.2e-23575.48PREDICTED: uncharacterized protein LOC103504590 isoform X3 [Cucumis melo][more]
Match NameE-valueIdentityDescription
Q9C9F68.7e-1930.19Putative two-component response regulator-like APRR6 OS=Arabidopsis thaliana OX=... [more]
A2XE315.0e-1425.16Two-component response regulator ORR21 OS=Oryza sativa subsp. indica OX=39946 GN... [more]
Q8H7S75.0e-1425.16Two-component response regulator ORR21 OS=Oryza sativa subsp. japonica OX=39947 ... [more]
B8AEH11.4e-1325.67Two-component response regulator ORR23 OS=Oryza sativa subsp. indica OX=39946 GN... [more]
Q6K8X61.4e-1325.67Two-component response regulator ORR23 OS=Oryza sativa subsp. japonica OX=39947 ... [more]
Match NameE-valueIdentityDescription
A0A1S3CSW85.9e-23675.48uncharacterized protein LOC103504590 isoform X3 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A1S3CSX72.8e-23071.22uncharacterized protein LOC103504590 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A5D3BMQ31.9e-22670.56Two-component response regulator ARR11 isoform X3 OS=Cucumis melo var. makuwa OX... [more]
A0A1S3CSW92.5e-22670.56uncharacterized protein LOC103504590 isoform X2 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A0A0KPK04.5e-21272.81Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G576720 PE=4 SV=1[more]
Match NameE-valueIdentityDescription
AT1G68210.16.2e-2030.19pseudo-response regulator 6 [more]
AT4G16110.11.5e-1326.58response regulator 2 [more]
AT2G25180.11.9e-1325.08response regulator 12 [more]
AT2G01760.14.3e-1326.84response regulator 14 [more]
AT3G16857.12.1e-1226.00response regulator 1 [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 268..288
NoneNo IPR availableGENE3D1.10.10.60coord: 225..285
e-value: 1.3E-15
score: 59.0
NoneNo IPR availablePANTHERPTHR43874:SF87TWO-COMPONENT RESPONSE REGULATOR ARR11-LIKEcoord: 15..61
coord: 62..572
NoneNo IPR availablePANTHERPTHR43874TWO-COMPONENT RESPONSE REGULATORcoord: 62..572
NoneNo IPR availablePANTHERPTHR43874TWO-COMPONENT RESPONSE REGULATORcoord: 15..61
IPR006447Myb domain, plantsTIGRFAMTIGR01557TIGR01557coord: 229..280
e-value: 3.5E-13
score: 47.6
IPR009057Homeobox-like domain superfamilySUPERFAMILY46689Homeodomain-likecoord: 227..281
IPR011006CheY-like superfamilySUPERFAMILY52172CheY-likecoord: 17..109

Relationships

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

Feature NameUnique NameType
Sgr001809.1Sgr001809.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0000160 phosphorelay signal transduction system
biological_process GO:0016310 phosphorylation
molecular_function GO:0003677 DNA binding
molecular_function GO:0016301 kinase activity