Sgr001806 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr001806
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionCTP_transf_like domain-containing protein
Locationtig00001138: 30522 .. 36860 (-)
RNA-Seq ExpressionSgr001806
SyntenySgr001806
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.
ATGGCGGATACGTGCGTCAGAGCTGCCGTCGATGCCATTCACTTGAATCCGACTCAGGCCGTTGTCTACCTTTCCGGCGGTGCTTCTCAGGTCTCCCAAAACTTCTATTTGACACATTTCTGCATTGATTTCCGTTCATCAGCCACTTCTTCTTACCTGCATTCGGATTTTTATATGTGAACAATTAGGTCATAGGTTGGTTACTCTCAGTTCCTGGAGCTTCCGGCACAGTCCTCGAAGCCGTGGTACCTTACTCCAGGCATTCCATGATCCAGTTACTCGGCAAGGTTACACTTTCCTTAAAGAATTCTTTGTTGACGCTTAAAGTTTCTTATTTTTGTGGTAAATGAACAATTTCGTTGATCGAAACTTCATCTCAGGTGAACGGAAAGAATTGATAGCTGAAATCAGCTACAGCGATAGTCTTATATAGCAGTTAATGGCAATTAAACTAATTCTAGCTCTAGCTGCAGACAAACTGTATGAAACCGACTGCAAAAGAAGATTGCAATCATGCATTTTTACTCTTCTTGAAATTTTAGGGTGACTCCTACCTCAACACCTTTCTGGATATTTAACTGCGCCAAAGTCCAGGACAGCGATGGAATTTGATTTTTATGGATGAAGTGTCCAATATAAGTGTGGTTAGGGGTGGAGAGAAGAAGGAAGGAGGGGGCAAGCCCCCATCAGGGAAACTAGGATGATACTGTATTCGAACATGTTTTCAACAGAAAAAGAAAAAGAAGAAAAAAAGAAGATCGAGAAGCTCTCTACTAAAGTCTAAAACATCCTTGCAAATTGCAAATACATGAAGGGAGTAACGGTTCCACTATGACCTAAAACCTCTTTCCAAACTGTAGATCACATGCGTATCTACAAAATGAACCAAACTTCCTTGCCTACAGTCTTTCTAAGTTGAAACAATCACCTAGGAACAGCTTAAGACTTTGACAACTTGTACTGTTAAGCACATTTCAAGCTATTCAAGTACTTGTCTAGGATACCTATAGCTGTCAAAATGTGAATGGAAGAATCCCACTTAACAGTGTCAAATATATAGCTGATATCATTGCTGATACTTTTATTTCTTTGCTGCAGGTCCCGTCTCAATTTTGCAGCCTTAAAACTGCGGAAGAAATGGCTTTACTGGCTTATAATCGTGCTCTGAAACTATCTAGGCCAGGTTTATTACTGTCGTTGTAAAATTTATCTCTACAACTTTTCGGTACAATAAAACTAATTAAACAAAACCTTTTCTTATGGAAAATATGGAATTTCATTTCACCATGATGAAAAATTGGTCCAATTTCATGTGGAATGATTTCAAAGGCTATTTATTTCATATGCACTTAATAAAGTGTGTTTACTTTTTTAACTTGGTATATCAAAATTTCAACACAATTATCTGTACACTATTCAGGAATCAATTTGGGCATGGGACATAATTGCTACTTAATTGCTCGATACTTGCTTGAATGACATGATATGGAATTTCACCTGTTTACTTGTTCCTGCTATGATTTAAAAGAACTATCTTTTCAATTCAAAATCTTGTTGTTAACTTTTAAACTAGTTGTAATATATCTTTCATTGCATTTTCATTTCCTTTTCTGTCAATTCTGTGTAAGTCGATCCACGTTAGATGGACATTTCTTTAAAAACTTTTCTTCCTTCACTATGACTTCCAATTTTTTCTAATGTGAGACATTTTCCATTAATAAAAGGGAAGCTTACATAACAAGATCAGGGTGATAAGACATCCCCTTGCCAACGAAAGAGGTTTATTAGGTACGCTCCTGTTCTACATTGATCAAGAAGGTGGTGTAATTACCGGAGTGCTTATAAAGCACTCTAAGTAGAGGTTGTGCACCATGCAAGATCAATAGAATTGCAGAAAAAAAAAAAAAAAAAACGAAAGAAGAAGAAGAAGAGAAAACGTTGTAGTTGTTACTGAAAATCCTATTCTTCCTTTCTATCCAAATAGCCCCGAAAGAGATCTTGAATCATTTTTCAAAGCACTCTACCTTTACCGAAAAATCACTATCTTGAGAGATACTCAGGAAGTTGACCACTAATGTCTCTAAAACGTTTTCTATCCTTGTACTTTGTTTCAATATTCACTTCTGTCAAAAGATGGAGACAAAAAGGAGGTTGGGCTTTGTAGGAAGCAGGCAACCCCAATCTTTGTGATGGAAGTTGAGTACAGTACAAAAGAATTTTAGGACACTCCAACTTGCAACTAGGACAAAAGTTAAGGACCTGATTTTTGAAATTGAAAATTAGAGCACGTGTTAAAGGAGTGAAAGTTTCAGTGAGTTAAAACCAAAAATATTCGTTGAATTGAATTCTTTTATTATGTTTTAGGACCAGTATGTATTGCAGCAACAAACAAAAGTTTGAAGTCTGGATTTTCATCATTGAAATTTTAGGGTCTAATGTGTTAAATGAGTGACAGTAAAAGGGTTTAATACGTGTTTTATCCAAAAATATTTGTCTAACAGAATTCTTTTGTTGTGTTCCAATGAAAACTCGCTTTATTTGATGCGCTGATTACAGGTTCTCCTGTTCTTGGTGTCGGTTTTACTGGTTCTTTGGCTACCACTCATCCAAAATTTGGTGATCACAGGTGAGTTTTCAAAGTTTATATTGAATTGGATGCTTTCATGCCATAAGCTTTTAGGAATACCATTAGGATAGAAGTTAGAAATATTATTAGATTATTAAGGGTATAATAGTCATTAGTTAAGGAGTTCCTTAATACGAGTTGGTTATAAATAATGTGAGTGAGAGGAGATGAAGGTAGGCAATAGTTTGGTTGTTTAGACTTGAGTATACCCAAGGGAGGGGCTCCAATTTCCTTGAATTACTTGGATATTTTACTGCATTTTCTGCCATGCAGAGAATTGAAATAGAAATAGTATTGAATGGAAGAAAATGCAGTAGAATATCCAAGTAATTCAAGTAACTTGGAGCCCTCTCTCTTGAGTCTATTCAATTCTAAACAACCAAACTATTGCCTACCTTCAACCCCTCCCACTCACTCTATTTATAACCAACTCATACTAACAAACTCCTTAACTAATGACTATTATACCCTTACTAACCCTAACATAAGCTTTAACACCTGTTTTTCTAAATCAGTTTAGCATTGGCTTTCGTAAGATGTCAGCAATGCAATTATATTTTGAGTTTTTTTTTAACTGGTCTAGCACAATAGCTAATTATAGCGTAGATAGGTAATTGGCTTTTGACAGTGTCACTAGTTTGAGTAGGCATAGATGGTAATGAAGCACAATTCCATTCTTATGTAGCTCGATGCCTAATAGCATACCTGCTCCTAATTCCATTTTTCTCTTATTCCCATATATATATATATATATATTTTATTAAAACCATGTCACGTTAAAGTTTTTACTCACTAGCCCTCTTCTCTCTCTTTTATTATGTCTAGGATGCATATGTCAACAAGAACATCTAACCGACATTGGGTTTCCACAGTCACACTATCAAAGGTAATTTTCTGTGTAAAAAAAAGAAAGCAATTCATCTAACCTTGGGTTTTAGGTCAATCATCTGATCCTTTGTTAGTTGTTACTTGATTATTTTAGGGTTTACGTACTCGGGAGCAAGAGGAGATACTCTCAAGTCATCTTTTGCTTAAGGTATGTTCAAAGATTCAATTGGTATCATTAACTCCAGGCATCTTAAAAGCTTACATATTCTTCTATTATTGTAGTTGAATTGAAGTATATTCTTCATACGAACATTTAGCTGAAAATTGATAACCGATAGTAAAGACGATGTAAAACTGAGTTGGGAGATATAGCTAGAAAATTAGATAGTGAAGTGGTAGTATAGGAAATAATGAGAGAGAATTGAAGATTCAAAAGGGAAGGAGGTAGGAGGAGATAAACCTTATATATAAGTTGATAATTAATATCACTCAGCGTTTTGTCAGGCAGTAGGGTCTGTAATTGATGGCCAAACTAATCATAGCAGGAATCCTAATTAACCCTATAAATTTAAAAATATCCTAGAGAATAGGATTCTTTGAAGTAACTCGAATTTCAAAATTATTGTAAATTCCTGACTGATGCTATGCTGCATCAGATATACTTCATCTATTGCTCATAAAGGTCTCTTAGATGGCATATTTATGTCAACGTGGAAAGTCTAATTTTTATGCTGCTTAATTTTCTGAAATTTGACGTTTAGTTTGTTTTCTTGCTAATATCATTAACATCTTAGACAGCCTTTCTATTTTCTGGTATCAGGCAATTGCGAACGCTTGTAAAGTTCCTGGAACCTTTGTTTCAGATTTGACTCAATCTGATTTATTAGATGAATGTGAAAAGCTATTCACTGAGGATGAAGAATTAGAGCAACTTATAAGGGGGGAAGTTTGCTTTAAGGTTTATCCATTTTTAAGTGGTATAATTTCTATTGATTTGAATTGGTGTTATATATGGTAGCAACTAAAATTTTCAAGTGCTCATATCAATTATTTTATTTGCAGAGGCATATACATTAGATGCAGACAGAAAAATAATACTATCCGGTTCTTTTAATCCATTACATGATGGTCACCTCAAGCTTTTAGAGGTTGCAACCAGGTATATAGAGTTGTTTAATATTTTTCAATTTACGATAATTCTCTATATCTAGACTCGCTCTTGACCAATATCTAACATCTGTGGGAAGCTCCATCAAACACCTGAAATATACCAGAAATTGAAGTAAAGAATTAAGAGAATATGGACGGCATAATGAGGCTGATAGTCTTTCTAAAGCATTATCTCTCTTCCATATCTAATCCTAATAATTTCCTCTCCTTAGTCCTTCCATATCTAAACTTTCTTATTTTTATGCAGCATTTGTGGTGATGGGTATCCTTGTTTTGAAATATCAGCCGTGAATGCTGATAAACCACCCCTATCAGTATCACAAATCAAAGATCGTGTTGAGCAATTTAAAAAAGTTGGTGAGTCTTGTTTCTAGAATGTTTCCTATTCTATGTGGTATATTTTGTGTAGCTTGTACTAAACCCGTTTCTTTTTTTTTTTGCAAAAGCCGGAGGACATTGTTTAAAGTGAATATTTATCTTTCAATTTTAATCTGCATGGCAGGAAAGTCAGTAATCATATCTAATCAGCCTTACTTTTACAAGAAAGCTGACCTTTTTCCTGGTAGTGCTTTTGTAATTGGTGCTGACACTGCAGCAAGGTTGATAGATGTAAGTTTTGACTACTGGAACCATATCTATATTTGTTCTCATTGAACCGTTTTCTGGTTTAACATCTCTATATTTGTTCTCATTGAACTGTTATCTGGTTTAACATATTAGGAGAGATTAACTTTAACTTCCTTTCCTCCAAATGTGACCTTCTGTTTGGTGTGCTCTTTTTTTTCTCTCTTTTTCTTATTCTTTGGTGTTCTCTTTTTTCTTCTCCCTTTTTTAGGCAATAAAGAAGGTCTTAAGAAACCCAACATAAATATTACATAATAAATGTGATGGCACAGGGCACAGGTCACAAAGCACCATGTGTAAATGCCGCCATCATTGATCTGCTATATTGATCGCAGAAATTATTCAGGGCGTTGACAATAGAATATGTGATTTTCTAGGCCGGATTTGATAACAATTTTTTTTTTAGTTTTCTGGTTTTAAAGATTAAGCTTATGAAAACAATTTAAACCTATATTTCTTTGTTTAGTTTTTTACTTTTCAAAAATACTTTTGAAATCTTAGTCAAATTGCGAGAATATGTTTTCTAGTTTTCAAAATTTTGCTAGGATTTCAAAAACATTTTTTTAAGATTAGAAAACAAAGAAAAATGTTAAAAAATAAGCATGATTTTAATAACAGAAAACCAAAACCAAAACATTATCAAACGGTCCTCTAGATTTCACTTTCGTAGTCTGTTCCTCTGCTTAATAGTGAGTGTAGATTGCAGCAACAAATCTGATGGAATGAAACATTGTGTTACATAATCTTCCATTGATTTGCAGCCCAAATACTACGATGGGGATTACAAGAAGATGTTAGAAATTTTGCTCCGATGTAAAAACACAGGGTGCACTTTCCTTGTCGGTGGTCGAAATATAAACGGTGTTTTCAAAGTACGTAAGCTTAAGCATTATATAGATCGTCTTTACTTGTTTGAATGGAGAATTAATCCAGATGCTTTTTTAAAACCCCCATTAATTTGTGGTGTCACTCAGGTTCTTGAAGATTTTGACATTCCAGAAGAGCTAAGAGACATGTTCATCCCAATACCTCCAGACAAATTTCGTATGGACATTTCCTCCACCGAAATAAGAAAACAACTTGGAATTTAA

mRNA sequence

ATGGCGGATACGTGCGTCAGAGCTGCCGTCGATGCCATTCACTTGAATCCGACTCAGGCCGTTGTCTACCTTTCCGGCGGTGCTTCTCAGGTCATAGGTTGGTTACTCTCAGTTCCTGGAGCTTCCGGCACAGTCCTCGAAGCCGTGGTACCTTACTCCAGGCATTCCATGATCCAGTTACTCGGCAAGGTCCCGTCTCAATTTTGCAGCCTTAAAACTGCGGAAGAAATGGCTTTACTGGCTTATAATCGTGCTCTGAAACTATCTAGGCCAGGTTCTCCTGTTCTTGGTGTCGGTTTTACTGGTTCTTTGGCTACCACTCATCCAAAATTTGGTGATCACAGGATGCATATGTCAACAAGAACATCTAACCGACATTGGGTTTCCACAGTCACACTATCAAAGGGTTTACGTACTCGGGAGCAAGAGGAGATACTCTCAAGTCATCTTTTGCTTAAGGCAATTGCGAACGCTTGTAAAGTTCCTGGAACCTTTGTTTCAGATTTGACTCAATCTGATTTATTAGATGAATGTGAAAAGCTATTCACTGAGGATGAAGAATTAGAGCAACTTATAAGGGGGGAAGTTTGCTTTAAGGTTTATCCATTTTTAAGTGAGGCATATACATTAGATGCAGACAGAAAAATAATACTATCCGGTTCTTTTAATCCATTACATGATGGTCACCTCAAGCTTTTAGAGGTTGCAACCAGCATTTGTGGTGATGGGTATCCTTGTTTTGAAATATCAGCCGTGAATGCTGATAAACCACCCCTATCAGTATCACAAATCAAAGATCGTGTTGAGCAATTTAAAAAAGTTGGAAAGTCAGTAATCATATCTAATCAGCCTTACTTTTACAAGAAAGCTGACCTTTTTCCTGGTAGTGCTTTTGTAATTGGTGCTGACACTGCAGCAAGGTTGATAGATCCCAAATACTACGATGGGGATTACAAGAAGATGTTAGAAATTTTGCTCCGATGTAAAAACACAGGGTGCACTTTCCTTGTCGGTGGTCGAAATATAAACGGTGTTTTCAAAGTTCTTGAAGATTTTGACATTCCAGAAGAGCTAAGAGACATGTTCATCCCAATACCTCCAGACAAATTTCGTATGGACATTTCCTCCACCGAAATAAGAAAACAACTTGGAATTTAA

Coding sequence (CDS)

ATGGCGGATACGTGCGTCAGAGCTGCCGTCGATGCCATTCACTTGAATCCGACTCAGGCCGTTGTCTACCTTTCCGGCGGTGCTTCTCAGGTCATAGGTTGGTTACTCTCAGTTCCTGGAGCTTCCGGCACAGTCCTCGAAGCCGTGGTACCTTACTCCAGGCATTCCATGATCCAGTTACTCGGCAAGGTCCCGTCTCAATTTTGCAGCCTTAAAACTGCGGAAGAAATGGCTTTACTGGCTTATAATCGTGCTCTGAAACTATCTAGGCCAGGTTCTCCTGTTCTTGGTGTCGGTTTTACTGGTTCTTTGGCTACCACTCATCCAAAATTTGGTGATCACAGGATGCATATGTCAACAAGAACATCTAACCGACATTGGGTTTCCACAGTCACACTATCAAAGGGTTTACGTACTCGGGAGCAAGAGGAGATACTCTCAAGTCATCTTTTGCTTAAGGCAATTGCGAACGCTTGTAAAGTTCCTGGAACCTTTGTTTCAGATTTGACTCAATCTGATTTATTAGATGAATGTGAAAAGCTATTCACTGAGGATGAAGAATTAGAGCAACTTATAAGGGGGGAAGTTTGCTTTAAGGTTTATCCATTTTTAAGTGAGGCATATACATTAGATGCAGACAGAAAAATAATACTATCCGGTTCTTTTAATCCATTACATGATGGTCACCTCAAGCTTTTAGAGGTTGCAACCAGCATTTGTGGTGATGGGTATCCTTGTTTTGAAATATCAGCCGTGAATGCTGATAAACCACCCCTATCAGTATCACAAATCAAAGATCGTGTTGAGCAATTTAAAAAAGTTGGAAAGTCAGTAATCATATCTAATCAGCCTTACTTTTACAAGAAAGCTGACCTTTTTCCTGGTAGTGCTTTTGTAATTGGTGCTGACACTGCAGCAAGGTTGATAGATCCCAAATACTACGATGGGGATTACAAGAAGATGTTAGAAATTTTGCTCCGATGTAAAAACACAGGGTGCACTTTCCTTGTCGGTGGTCGAAATATAAACGGTGTTTTCAAAGTTCTTGAAGATTTTGACATTCCAGAAGAGCTAAGAGACATGTTCATCCCAATACCTCCAGACAAATTTCGTATGGACATTTCCTCCACCGAAATAAGAAAACAACTTGGAATTTAA

Protein sequence

MADTCVRAAVDAIHLNPTQAVVYLSGGASQVIGWLLSVPGASGTVLEAVVPYSRHSMIQLLGKVPSQFCSLKTAEEMALLAYNRALKLSRPGSPVLGVGFTGSLATTHPKFGDHRMHMSTRTSNRHWVSTVTLSKGLRTREQEEILSSHLLLKAIANACKVPGTFVSDLTQSDLLDECEKLFTEDEELEQLIRGEVCFKVYPFLSEAYTLDADRKIILSGSFNPLHDGHLKLLEVATSICGDGYPCFEISAVNADKPPLSVSQIKDRVEQFKKVGKSVIISNQPYFYKKADLFPGSAFVIGADTAARLIDPKYYDGDYKKMLEILLRCKNTGCTFLVGGRNINGVFKVLEDFDIPEELRDMFIPIPPDKFRMDISSTEIRKQLGI
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
XP_022152326.15.7e-20392.21uncharacterized protein LOC111020072 [Momordica charantia][more]
XP_038906633.15.5e-19889.09uncharacterized protein LOC120092580 isoform X1 [Benincasa hispida][more]
XP_008467184.14.7e-19789.35PREDICTED: uncharacterized protein LOC103504595 [Cucumis melo] >TYK00264.1 CTP_t... [more]
XP_023550267.17.9e-19790.13uncharacterized protein LOC111808493 isoform X1 [Cucurbita pepo subsp. pepo] >XP... [more]
KAG7016735.17.9e-19789.87hypothetical protein SDJN02_21845 [Cucurbita argyrosperma subsp. argyrosperma][more]
Match NameE-valueIdentityDescription
Q7NE644.6e-0627.27Probable nicotinate-nucleotide adenylyltransferase OS=Gloeobacter violaceus (str... [more]
Match NameE-valueIdentityDescription
A0A6J1DHD52.7e-20392.21uncharacterized protein LOC111020072 OS=Momordica charantia OX=3673 GN=LOC111020... [more]
A0A5D3BLW52.3e-19789.35CTP_transf_2 domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN... [more]
A0A1S3CSY72.3e-19789.35uncharacterized protein LOC103504595 OS=Cucumis melo OX=3656 GN=LOC103504595 PE=... [more]
A0A6J1FHZ11.9e-19689.87uncharacterized protein LOC111445506 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1JW613.3e-19689.35uncharacterized protein LOC111489421 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
Match NameE-valueIdentityDescription
AT2G01220.27.2e-15669.79Nucleotidylyl transferase superfamily protein [more]
AT2G01220.12.3e-15469.79Nucleotidylyl transferase superfamily protein [more]
AT3G27610.11.3e-14464.68Nucleotidylyl transferase superfamily protein [more]
AT3G27610.22.4e-14364.51Nucleotidylyl transferase superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR036653CinA-like, C-terminalGENE3D3.90.950.20coord: 21..159
e-value: 7.8E-6
score: 27.4
IPR004821Cytidyltransferase-like domainPFAMPF01467CTP_transf_likecoord: 218..381
e-value: 2.6E-9
score: 37.4
IPR014729Rossmann-like alpha/beta/alpha sandwich foldGENE3D3.40.50.620HUPscoord: 211..384
e-value: 2.4E-17
score: 65.1
NoneNo IPR availablePANTHERPTHR31285NICOTINAMIDE MONONUCLEOTIDE ADENYLYLTRANSFERASEcoord: 6..383
NoneNo IPR availableSUPERFAMILY52374Nucleotidylyl transferasecoord: 214..383

Relationships

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

Feature NameUnique NameType
Sgr001806.1Sgr001806.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0034356 NAD biosynthesis via nicotinamide riboside salvage pathway
biological_process GO:0009058 biosynthetic process
cellular_component GO:0005737 cytoplasm
cellular_component GO:0005634 nucleus
molecular_function GO:0016887 ATP hydrolysis activity
molecular_function GO:0000309 nicotinamide-nucleotide adenylyltransferase activity
molecular_function GO:0003824 catalytic activity