CmUC01G012410 (gene) Watermelon (USVL531) v1

Overview
NameCmUC01G012410
Typegene
OrganismCitrullus mucosospermus (Watermelon (USVL531) v1)
DescriptionUlp1-like peptidase
LocationCmU531Chr01: 24741921 .. 24751597 (-)
RNA-Seq ExpressionCmUC01G012410
SyntenyCmUC01G012410
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.
ATGCGCGACTCGATGGTTGCTTTAGACGAAACATCGGGTACACATGATGTCCGGGACGAGGTATGACCGGCAACAGTAGGGCATCATTGTAAAAATACCATAAAATTTAGTTCTTTTGTTTATGATTTTGTAGACACTATGTATATGTAAGTAGTGTGAGTCCGAATTTTTTTTTATATTCGGATGCTTTTGTAGACGTTATGGGTAAATATGAAAATTTCTTATTTTTTAGATTGTTGGATATTTGTTTATAATATTGGATGATGTTGGATTAGTTTGGATTGTTGGATTACTTTCAGACAATATATTGGAGAATGTTGGATTCGTTTGCATGAATTTTTTTATTATTTTTATTGCTTTTAGATTAGTTTGATAATTTTGCAAGATATTGGATGATGTTGGATTAGTTTGCATGGATAATATACTGAATAATTTATTTTCGTTTAGGGTAAATCTGTGGATGCGCAAACTCATTTGCCTAAGAATGATGATGCCCATGATGGTCCAAGTGGTCAAAATGACCACGAACATAAAGGTTTAATAAAGCAAAGAGTACATTTGGATGGTGACAATCAAGTCAACATAGTTTTGCGCGACTCGATGGTTGCTTTAGACGAAACATTGGGTACACATGATGTCCGAGACGAGGTATGACCGGCAACAGTAGGGCACACATTGTAAAAATACCATAAAATTTAGTTCTTTTGTTTATGAGTTTGTAGACATTATGTATATGTAAGTAGTTTAAGTCCGAATTTTTTGGATGATGTTGGATTAATTAGTTTGGATTGTTGGATGGTTGGATTGTTTGGATTGTTGGATTGATTTTGTTTAATATGGGAGAATGTTGGATTCATTTGCATGAATTGCATGGATTTTTTTTTATTATTTTTGTTGATTTTAGATTAGTTTGATAATTTTGCAAGATATTGGATGATGTTGGATTGTTGGATTAGTTTGCATGGATATTTGCGGCATTATATTTTGATTGTTTAGAAGATTTTATTTTGTATGTAGGTGATTGATATAAGTTCTCAGGATACTGGAAATGTGATAGAAGTTTTTGAGGGTCGAAGGAAAAAGAAATCTTTGATGTTTAATGACGCCTTAGAAAGACACAAGAAACGATGGTAAGAGACAAAAGATTAAACACTACAATCCCATCATCAACATACCAGAAGAAATTGAAGTGAAATTCAATAAGTGGATGATCAACACCGACATGACTACTGCAGTACGAAGGAATAATTATGCTTATTTGGATATAACATGGTTTCATAGTCTCCAGACGGCGTATAAATGGTTGAACGACGAGGTACGAATAGTTTATTTGTTGTAATTAATTTATGAAACTATTTCATTATTTGATATACAATAACGTTGTACAGGTGAAAGACACTATATTTATGTTTATTAAGAAAAAGTTGGAAATCTGCCCAAACCTGTGCCGTCGAGAATTTTCCATAACTGACCTTCTAGTGACGGTATGTTCTAGCTTTTAGTTCTTATTGCTTAATTTAAAAAACAATTTGTTCACACATAATGTCCTATTCCACCAAAGTTTTTTAAGACATGATCGTATTATTGACTGGAGTAAGGAGAAGAGCGTTTTGAAGTATGTCAAGGGCGAACACACGGACCATGATGTACCTTGGAGCGACGTTGATGCCGTGTACATGCCTTGGAACCTTTCTGGAATTCACTAGGTGCTTATATGTGCAAACTTCAAGACCAAAGAGTTGATCGTTTTTGACTCGATGGTTGTCCTTCACTCTAACTCTGATTTGGAACATGAGCTAAGAATGATATGTACAAATTTTCCAAGTCTACTAGCTGTCGATGGAGTTATAGAGTCTAATATCATAGCTCTAGATCAGTGGAGGATCCGACGAGACGCTACCGTGCCTCAACAAGATGAAGGTGGTGATTGTGGTATATTTGCATGCAAATTTTTTGAATATGATATAACTGGTTCCAACATGGATACCATAACACAGGATAGGATGAGTTATTTTCGTAAGTAGTATGCTATTCAAATTTGGGCCAATCATGCACTATTTTAATACATGTAATGAATGATGTTTAATTAAATTCTTAATATTAGTATATGTTTTGAATGGTGTTTATTACCCTAACTGCGTAAGTCCTCCAAAGAGATAAGAAAAAGATAAAGAGATGAAAATATATCCAAATCCTCCAAATCCACACTAAACATGCAAAAGAATCCAAATTCACAAAGACATGAAAATATATCCAAATCCACCATGACCACCCTAAGCATGCAAAATCATGCAACATCCTCCAAATCCACTCTAAACATGCAAAATAATCCAAATTCACCAAATACATGAAAATATATCCAAATCCACCCTAAACATGCAAAATAATCCAAATTTACCAAAGACATGAAAATATATTCAAATCCACCATGACCACCCTAAGCATGAAAAACCATGCAACATCCTCCAAATCCACCCTAAACATGCAAAATAATCCAAATTCACCAAAGACATGAAAATATATCCAAATGTGTCTAAACCATGCAAAATAATCAAAATGTGTCCAAAACCAACCTAAACATCCATCATTGAGCAATATTTTGATTGGTTGGTTACAAGTTGTTTTGTTGTGGCCCCTAAGCCCACATATGGACATTTGTGAACTTGACGAACTTCACCAGCAGAAGGAAATCTTGTCATTCTAGGGCGACCTGCTCTTGCAACTCTTTTTGGAGGCAATGTATCAACATCAACGAACTTTGGTGATTGCTTCCACTCTGAATGGTGCCCAAGCAGATGTATCGGTTCAACATAAGCAGACAATACAACTTCAACATAATATGACCTGAAGCAAAGAGTGATGGGATTAATATTCCGATACCTACATGCAGCAATGGCATGTGAACAAGGGAGTTCATAATAGTCAATCTTGCGATAAGTACAAGTTTTTGCATGAATATTGACAGGGCCTCCCAAGCCCCCATCTATGACCTCAAACTCGTATTGGTTAACTGGTTTAACTTCGTGTTTGCTTGCTTTTTCTTCTGCCTTAGTAAGTATTTTCATTGTGTATTCTGATAGTCTCGATTCACGTGCTTATGCTTCAGTTTGACGTTTATAATACAAGTTTTGCAACCAACCTCTAATGTGGTTTAGAAATGACGTGATGGATAACTATCGTGCATCTTTTAACACTGCATTTATGCACTCAGCGAGATTTGTCGTCATTTGATTGTACCTTCTACTGCATTGATACACCCTAGGCACCGCTCAAGGCCGATATCTTCTAAGTACTTTCGTGGACCTGGATAACATGCAAGTTGATCCCAATGCTAGTTGAAGTTTGACTCATGAAATGCCCTAGCTGCTTTGTCAAAAACCTGCAAGACATCTTTATTCTTGAAGGCGATCAATAAGTTTTCAGTCAAGTGATGGATACAGATATAATGAAATGCTTCTGGGAAGGCCGTTATAATTGTCTTCTTAATGTTAGGGTGTCTGTCTAACACGATAACCAAATCATGAACTTGTCCAATTGCACTTTTTAGATGTTGGAAGAACCACAAGCAAGATTCATCAGTTTCTCCACCACATATCTCAAAAGCTATTAGATATATTTGATTATTTCCATCGACCCTAGTCGCAACCAGAAGCTTACCACTATATTTACCCCTTAAGTGAGTTCCATCCACAATATTTGGGCAATAGGACTAACATGAATGGGAATGAGTTGGACAAAGATTTTCCAGACTTCCAATTTCAGAGGGATGAAGATGTGGTAAAGATGGTTGTATTCTATTTCATCGAGTTGGCGATGATGGGAAGGGAAAAGAGGCAACACATGGACTCAACTATTTTGGGACTTATAGATGACTAAGAGAATTTGTGTAGTTATGACTGGGGGAACATGATTTTTGTCAAAACATTGAGTAGCTTAAAGGGTGCACTTAATGGAAAAGTTGCACTGTACAAGAAGAAGCCTGCGAATAGTAAGTCACCGGAGTCATACAGCTTATATGGACTTCCGTTCACTTTTCAAGTTCGTTAAGTTTGTGTTATTGTAATTGTTGTTGCTATTATGACTCTATTATTCACTTACGATTATTTGTTTTTTAAATTTGTAGGTTTTGGCGTACAAGATAGTTTCTTCACTTAGTGGACGGGTTGCCACTAAAGTTTCTGTTGATGGAATACCCTGCATAATGCGATGGAGTTGCACGTACTCACATGGATTGAAGGTGTCACACCCCACCCCGAACTACCCTCCCGTAACCCGAGACGGAGTGTGAGGACAGCAGTCATCGATTTCCTATCGATTTCCACTGTCAAACTTACCTTACTTCCCAATTTTACCCCTTCCTAGGATGGTGATACCATTAACTCTTGACAAACCTCGACTTTGATAGGCAACGGGAACTGTCATGCTACCTGAAAAATGGAAAACATATGAAAGGGTGAGCTAACAGCTTAGTGAGTAACATTTTTGAAAACATCTTACTTTAATTATAAAACTGGTCATAATTGAAACATTTCCAATCTTGCATAAAATATAATGTTTCAAATCATATTAAAATATGCTCAAATACCATTATTAAATCATGCATGTCTGTTTTAAAATAAATACTAAAAAATCTCATTCATTTCAAAATCATTTTCCCTAGTTGAGGCGGAGCAATGCTCTATGCTTCTCAACGTTGATTTTCCCTAGCTGTGTGGAGTAATCTCAACACATCAGCATCGTATATTCCTTTATGTGCACATAGGTATTATAATCCGGGCCGCCCACAATGCCTTCTCCAAGTCCCTGAGCATTGGGGTCCCATTTCCATATCCAGGTTACCCATTTGCCTTCTACGAGTCCCTCAGCATTGGGTACCTTTTTCTATATCGCGGCTTCCCTTTGGCCTTCTCCAAGTCCCTGAGCTTCGGGTGCCTTTTCAAAGTTTAATAAAATACACAATATGTTTTGGAAACATCATATCATAAACTCATAAGTTAATCGTTTTCAAATAAAATCATATAATATCAAAACAGCATGCTTCCAGTAAACTCAATTTCAAAACTTTAATATGAAACAGCATGCCTTTCAATAAGTTTATTTCCAAATCTTTCATGAAATCGTATGACATCAAACATCATGATTTTCAGTAAAATCATGAAATCATGTATTATCAATCAACATGCGTTTAATTAACTTATATCAAATAACCAGCATACTCAAATGCTTTTCAAATAAAAACGCATGCACTTTTCAGTGAAAACTCATGAATTCATATTTTGAAAAACGTTGGTGTTACTCACTTTATACTTGCTCAAGAATAGTTCCTCTTCCTTCCCTCTATTTTCTCTTTCCCGAGCTTCTTGGACGCAGCGTTCTAACTTTGGAATACAAGGCTTTATATTCCTCTGTCAACTCGGTTGGACGCAACCCTGCCTATGAACGCAAGGTTGACAGGTAACATAGAGAGCAACTTAACTCTTCTTACTTCTCTTTTTGGATGCGTCGACCTCTCTTGGATGCAAGGTCCAACTTGAACGCAGAGTCTACCTTAAGATGCAGTGTTCACCTGGAACGTAGAGTTTGTCTTAAACGCAAGGCTGACCCCTTAGACGCAAGACAACTTCTTTAACACAAGATGGCTAAATTGTCAAGAATATCTTCTCTCTTGGCCGCAGACTTCTACTACGGACGCAAGGATTCCTCCTTTCTGCTTTCTCTCTCCTCTTTCTCTCAAGAATTCTCACTTCATAATCCTCAGTCGCTCCTTTTCCCTTAAGGTCCTATTTATAGTTTTGGAATAGAGGGCTTGTTATCCTACTTCTCCTCTCTTTTTGCCACTTGTTTGCCACATGTCATGCTACATGCTTAAGTAACCATGCATTTATCCAAGCGTCACCTTGCATGAAACACTTAACATGCCTTCTAACACCTCTTACTTATAAGGTGTCAAGTCTATATGAAGCTACCTAGCCTTTATAAGCTTATCTTATGCGTCCAACATATTCCAATATACAAACTATTCATTCAACATAATGCCCCTATGCGTCCATTGAATTTCCTTTAAGGTTTTAGCTTCATTACTTACTTTCCTTACTCTCCGCCATTCTACCTTTGAACTCGTTTCTCCACCGCATATTTGTCACACCCTCTCCCAGATTCCCTTCTAAACTAGGAGTGAGTGCAAACCTGCATACACCCGTTTCCTACTGTAACTATAACATTAATCAACTACAGATCATTTATACTTAACTATATGTCATATAACCTCATAAGATAGCATAACTCATCAAAACAAGTGTTCTTTATATACACTACAAAATCAAATCCCACTACACCCCAAGGAACATGTATGACAAGTAAACATGTACATAAATTGTGTATTTACAACTATCCCAGAGGGCTGATCCAAAGTAGGCCCATACGAGAATCTTCAGTAGGCTAGGCGTCCCGGACACACTCACTACCTGAAACAAGCAAACAAACAAAGAAGAACGCGTGAGCCTAAAGCCTAGTGAGTGACGGAATTTATCCAATTACTATTAAACTACTTGAGTTAACATGGATCATCAATACCTAAGTTAACCCATGCCATAGAACAATAGCAGTACAATTATCCCTTCCTAGCTATGGCGGAGCGAAGCTCAACGCACTCAACCTCGTGTACCAATTCTCATCACTCTCATATTCAAATGCTTCCACACTCCGTCCCTCGGTATTTCAATCCCTCAAGTGCCTTCACGTATTGTCCCTCAGCACTGAGTTTTACTATGTCGGAGTTCCCCATGTGCTTTCACACGTGATCCTTCAGTACTGGTTCCCTACCAATCCACTGCTCAAGTGCCTTCACTCGTGATCCCTCAGCACTTGGCTATCATATATTGGATTTCCATATGCCTTCACACAAGTTCCCTAAGCATTGGAATCCATTTCAACCAGCTACTCAAGTGCCTTCACATGTGGTCCCTCAGCATGGAGTATCATATAACGTATTCCCCATACGCCTCCACTCAAGGTCCCTCAGGCATGGGGCATTTAGATAATACGTATAACATTCTTTAAACTTTACAGTACAACACAAATATTCAATAACTACACCATATAATAGTTTCCACTCACACAATACTAATAAAATATGCTAAGAGTAACCATTATATTAAACAGGAAGTCACTCACTACTTGTCCTGGCCCTGAGCGGATTATATGCCTTTCCGAGCTCTTCTTGGCCTGTAAATACACATTTCTCACGTTAAGTTTTCCTTGAACTTCCTTTCCATGATCATTAAGTATGCATATTTAGACTCTATTCTCGCTCCATTACTGAGACTCTCCTTTTTCCCAAAATATTCATAATTAGCGTTACTCTATGTCCCTAGCGAGATTACCAGCGAAAACACACAGCAGGACACTATACTAGCGAGACCGGAATGAACGAGACTAGCGAGATTACTTGAGGAGCGAGACCTAGCGAGACCCAGCGAGATTTTTGACACGGAAAGCCCCCTTGCGTCCCAGCGATACCCGTCTCGCTACTTACACTTCAATTACTCGGCGACACCCGCTTCCAAGCGACACCCAACCGCAGAGTTTTCCTCTTTTCCTTTTTGTTCTTACTTCTATCTGTTAAAAGTCATATTTCCAGCCAGATTTAGAACTTCTTCCCTTCTACAAACTTGTAGAGAAATAAGTTCTTTATCTTACCTCAAAGTCTCATAATGAAAGTCCTCTTCATTTGAGAGATATTTCCAAACAACCCCGAATTGCTCCTAATCATCTAGCAATTCAGCTCTAATCTCTTCTACCTGGAGTTTAACACACATTTACTCAAATTCGGCTCAAGTATCCTTCATGAAAATTGCTAGAAATCGAGTTAACTTACTAACCTTAAAATTTCGACCCTAGCCACAACTTCCACAGTTTTTTCTTCTCCAAACACTGAACGATATTCAGATTAAGCAACACCGGCCGAACTCTCTGTTCCAGCCTTAGTTCCTCCACAAAAACGATTAGAATTCCACCCCAAACCAGCATAAACATCTTCTTCTACCTCCCTTCGTTGTTTAGCTTCGAAATGGGATCAACTCGAGCTCTGAAATGTGATTAAAAATGATTGAATACTCAGTCCACTCATATATATATACCACCGACTTAATCTCCACTTCATCTCTATATATTTACTAATCGATGCATACCTTTTCTCCAACGCATAGTAGCCTTCAACGCATAGTGGCCTTCAACGCATAGTGACCTTCCTTCCTTCACATCTGCGTCCATGTCGAGCTACCTTCTTCAACGCATAACTACCAGTGGTCTTGTCAAGCCTCAGACATACTCTCAACGCATAGCCCCACCAACGCATGACCAACACTTAGCCACTTTTGCTCCCACACAACTTGGCCAACTTTCTCTACTCAATGCCCGTCTCATAGTCTCTTCTTAACTTGTCATCTCTCAACGTCAGATACGGGGCTTACAATACTACTAGGCGTCAATGTCTCAAACGCACACTACTATGCGTTTGTACCTTACTACATAATACCATGCGTCAGCCTTAGCCGCATACCATCATGCGTCCATCACTTCTTTCCTTATATCCATATCTTAACTACAAAATCCAACTCAAGACCTTCCTTTATGCATTTGCACTCTTTGCGTTTACCTTTACTTTGTTCTGCGTTCATGACCTTCCTCCTATCCTTGAGGATTTCTTGATTATCCCTCTATGCGTTCTTGTGCTGTATTTCAAGGTTATGCTTCCAACCTCTTCCTTATGTGAGCCATTTTCTCAACGATAAATCCTATCATATATCCATCTCCTACCTCCTTTCTTTAGGCTTACTTCTCAACCTTCTAACTTATCCAATTCAAAATCTTCCTTAATGGAAGTTATGCGTTTACCTTAAATTATCATAGCCTCTTTCCTCGATTCTACCTTATGTGTTTTATCCTTCTTTTAGATTTCCTTTCAACGCATCACTACTCAACTTTAATCCTTACTCATATGTCCTACTTAAGCCAATGCTTACATCTTCTTCATAATTACCTCCTATGCGTTTCACTTCTTTCCCTTCAAGCTCTTAGGTTACTTCCTATGCGTCCATCTTTATCATGCATTACCTTAGTCCTGACCATGCGTCCAACATGGTCTCTTACTTCTTTTCTTTATAGGCTCTTCAACGCATTGGTTTTTAAAAGTAGGGTGTGACAGAAGGTGATTCAAACATAGGTTTTTGGATCGCAAATGGTAAGTCGTTCTTCACTACGTTTTATATTATGCTTTAGGGTTTAGGGTTTAGGGTTGTAACTTTGTTTATTGTTGTTTACATCCAAGGTCATATAATGTCATCGATCCGAGTGATGAGGAGCAAACGTACTTGAGCCGTATAAAAATCATCGCATCAGTATTATGGCGTTGAGAAGGTTCGTCGTTTCATGAACTGGTTGCCGCTCGGGATCCACCTATTGAGGATCCACCTGCTAAGGAACCACCTATTGAGGATCCACCTGCTGAGGATCCACCTGCTGAGGATCCACCTACTCGGGATCCCACTCCTTTAAACTTGGACAATGGCAAAGATATGGCTGGTCCATCAGTTGTCCCCATAGATGTATCATCGGCAGGTGAAGATACGATTGGTCTAGCAAATGTTCCACTAAAGAAGCCTAAAGACGAGATATGA

mRNA sequence

ATGCGCGACTCGATGGTTGCTTTAGACGAAACATCGGGTACACATGATGTCCGGGACGAGGGTAAATCTGTGGATGCGCAAACTCATTTGCCTAAGAATGATGATGCCCATGATGGTCCAAGTGGTCAAAATGACCACGAACATAAAGGTTTAATAAAGCAAAGAGTACATTTGGATGGTGACAATCAAGTCAACATAGTTTTGCGCGACTCGATGGTTGCTTTAGACGAAACATTGGGTACACATGATGTCCGAGACGAGGTGATTGATATAAGTTCTCAGGATACTGGAAATGTGATAGAAGTTTTTGAGGGTCGAAGGAAAAAGAAATCTTTGATGTTTAATGACGCCTTAGAAAGACACAAGAAACGATGTCTCCAGACGGCGTATAAATGGTTGAACGACGAGGTGAAAGACACTATATTTATGTTTATTAAGAAAAAGTTGGAAATCTGCCCAAACCTGTGCCGTCGAGAATTTTCCATAACTGACCTTCTAGTGACGGTGCTTATATGTGCAAACTTCAAGACCAAAGAGTTGATCGTTTTTGACTCGATGGTTGTCCTTCACTCTAACTCTGATTTGGAACATGAGCTAAGAATGATATGTACAAATTTTCCAAGTCTACTAGCTGTCGATGGAGTTATAGAGTCTAATATCATAGCTCTAGATCAGTGGAGGATCCGACGAGACGCTACCGTGCCTCAACAAGATGAAGGTGGTGATTGTGGTATATTTGCATGCAAATTTTTTGAATATGATATAACTGGTTCCAACATGGATACCATAACACAGGATAGGATGAGTTATTTTCTATATGTTTTGAATGGTGTTTATTACCCTAACTGCGATCCACCTGCTAAGGAACCACCTATTGAGGATCCACCTGCTGAGGATCCACCTGCTGAGGATCCACCTACTCGGGATCCCACTCCTTTAAACTTGGACAATGGCAAAGATATGGCTGGTCCATCAGTTGTCCCCATAGATGTATCATCGGCAGGTGAAGATACGATTGGTCTAGCAAATGTTCCACTAAAGAAGCCTAAAGACGAGATATGA

Coding sequence (CDS)

ATGCGCGACTCGATGGTTGCTTTAGACGAAACATCGGGTACACATGATGTCCGGGACGAGGGTAAATCTGTGGATGCGCAAACTCATTTGCCTAAGAATGATGATGCCCATGATGGTCCAAGTGGTCAAAATGACCACGAACATAAAGGTTTAATAAAGCAAAGAGTACATTTGGATGGTGACAATCAAGTCAACATAGTTTTGCGCGACTCGATGGTTGCTTTAGACGAAACATTGGGTACACATGATGTCCGAGACGAGGTGATTGATATAAGTTCTCAGGATACTGGAAATGTGATAGAAGTTTTTGAGGGTCGAAGGAAAAAGAAATCTTTGATGTTTAATGACGCCTTAGAAAGACACAAGAAACGATGTCTCCAGACGGCGTATAAATGGTTGAACGACGAGGTGAAAGACACTATATTTATGTTTATTAAGAAAAAGTTGGAAATCTGCCCAAACCTGTGCCGTCGAGAATTTTCCATAACTGACCTTCTAGTGACGGTGCTTATATGTGCAAACTTCAAGACCAAAGAGTTGATCGTTTTTGACTCGATGGTTGTCCTTCACTCTAACTCTGATTTGGAACATGAGCTAAGAATGATATGTACAAATTTTCCAAGTCTACTAGCTGTCGATGGAGTTATAGAGTCTAATATCATAGCTCTAGATCAGTGGAGGATCCGACGAGACGCTACCGTGCCTCAACAAGATGAAGGTGGTGATTGTGGTATATTTGCATGCAAATTTTTTGAATATGATATAACTGGTTCCAACATGGATACCATAACACAGGATAGGATGAGTTATTTTCTATATGTTTTGAATGGTGTTTATTACCCTAACTGCGATCCACCTGCTAAGGAACCACCTATTGAGGATCCACCTGCTGAGGATCCACCTGCTGAGGATCCACCTACTCGGGATCCCACTCCTTTAAACTTGGACAATGGCAAAGATATGGCTGGTCCATCAGTTGTCCCCATAGATGTATCATCGGCAGGTGAAGATACGATTGGTCTAGCAAATGTTCCACTAAAGAAGCCTAAAGACGAGATATGA

Protein sequence

MRDSMVALDETSGTHDVRDEGKSVDAQTHLPKNDDAHDGPSGQNDHEHKGLIKQRVHLDGDNQVNIVLRDSMVALDETLGTHDVRDEVIDISSQDTGNVIEVFEGRRKKKSLMFNDALERHKKRCLQTAYKWLNDEVKDTIFMFIKKKLEICPNLCRREFSITDLLVTVLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESNIIALDQWRIRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYFLYVLNGVYYPNCDPPAKEPPIEDPPAEDPPAEDPPTRDPTPLNLDNGKDMAGPSVVPIDVSSAGEDTIGLANVPLKKPKDEI
Homology
[Close]
BLAST of CmUC01G012410 vs. NCBI nr
Match: XP_038885861.1 (sentrin-specific protease [Benincasa hispida])

HSP 1 Score: 151.8 bits (382), Expect = 1.1e-32
Identity = 64/103 (62.14%), Postives = 84/103 (81.55%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESNIIALDQWRI 228
           VL+C +F+ +ELIVFDS++VLH N+DLEHE+R +C NF  LL    V+ES+ + +D+W +
Sbjct: 72  VLVCVDFQVRELIVFDSLIVLHLNADLEHEMRSLCKNFLGLLIASAVMESHNLLIDRWTL 131

Query: 229 RRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           RRDA VPQQD+ GDCG+F CKFFEYD+TGS MDT+TQDRM Y+
Sbjct: 132 RRDAFVPQQDKSGDCGMFTCKFFEYDVTGSKMDTLTQDRMQYY 174

[Close]
BLAST of CmUC01G012410 vs. NCBI nr
Match: XP_038882332.1 (uncharacterized protein LOC120073583 [Benincasa hispida])

HSP 1 Score: 137.9 bits (346), Expect = 1.7e-28
Identity = 60/103 (58.25%), Postives = 80/103 (77.67%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESNIIALDQWRI 228
           VL+CA+F+ +ELI+FDS++ LH N+DLE E+R++C NFP LL V  V+ES+ + +D+W +
Sbjct: 101 VLVCADFQVRELIMFDSLIALHLNADLECEMRLVCKNFPGLLIVGAVMESHNLLIDRWTL 160

Query: 229 RRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           RRDA   QQ E GDCG+F  KFFEYD+TGS M T+TQDR  YF
Sbjct: 161 RRDAFRSQQHESGDCGMFTYKFFEYDVTGSKMGTLTQDRKQYF 203

[Close]
BLAST of CmUC01G012410 vs. NCBI nr
Match: XP_022154364.1 (uncharacterized protein LOC111021646 [Momordica charantia])

HSP 1 Score: 93.6 bits (231), Expect = 3.7e-15
Identity = 48/104 (46.15%), Postives = 65/104 (62.50%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGV-IESNIIALDQWR 228
           ++IC +F   ELIV+DS + +     LE EL+ + T  P+L+   GV +    I L  WR
Sbjct: 95  IVICIDFDEGELIVWDSFMNMTPLPQLEQELKPMITIIPTLICRVGVHLYKPNIPLTPWR 154

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           IRR ++ PQQ   GDCGIF   FFEYD+T  + DT+TQ RMS+F
Sbjct: 155 IRRVSSAPQQGMDGDCGIFCINFFEYDVTSCSFDTLTQSRMSFF 198

[Close]
BLAST of CmUC01G012410 vs. NCBI nr
Match: XP_022156568.1 (uncharacterized protein LOC111023442 [Momordica charantia])

HSP 1 Score: 91.3 bits (225), Expect = 1.8e-14
Identity = 44/104 (42.31%), Postives = 68/104 (65.38%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWR 228
           V+IC +F   E++V+DS+  + S + LE +L+++ T  PSLL    VI     + +  WR
Sbjct: 33  VMICIDFVEGEIVVWDSLRAITSYASLEEQLKVMHTVIPSLLHKSQVIAVRPNLPMTPWR 92

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           IRR  + P+Q   GDCGIF  K+FEYD+T ++++T+ Q+ MSYF
Sbjct: 93  IRRVTSTPEQFSSGDCGIFCVKYFEYDVTWTSLETLRQNNMSYF 136

[Close]
BLAST of CmUC01G012410 vs. NCBI nr
Match: XP_022155154.1 (uncharacterized protein LOC111022296 [Momordica charantia])

HSP 1 Score: 87.0 bits (214), Expect = 3.4e-13
Identity = 41/104 (39.42%), Postives = 65/104 (62.50%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWR 228
           V+IC +F   E++V+DS++ +  ++ LE +L ++    P LL     I     + +  WR
Sbjct: 43  VMICIDFVEGEIVVWDSLMAITPDASLEEQLNVMRAVIPPLLHKSQAITVRPNLPMTPWR 102

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           I R  + PQQ   GDCGIF  K+FEYD+TG++++T+ Q+ MSYF
Sbjct: 103 ISRVTSTPQQFGSGDCGIFCVKYFEYDVTGTSLETLRQNNMSYF 146

[Close]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match: A0A6J1DLV0 (uncharacterized protein LOC111021646 OS=Momordica charantia OX=3673 GN=LOC111021646 PE=3 SV=1)

HSP 1 Score: 93.6 bits (231), Expect = 1.8e-15
Identity = 48/104 (46.15%), Postives = 65/104 (62.50%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGV-IESNIIALDQWR 228
           ++IC +F   ELIV+DS + +     LE EL+ + T  P+L+   GV +    I L  WR
Sbjct: 95  IVICIDFDEGELIVWDSFMNMTPLPQLEQELKPMITIIPTLICRVGVHLYKPNIPLTPWR 154

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           IRR ++ PQQ   GDCGIF   FFEYD+T  + DT+TQ RMS+F
Sbjct: 155 IRRVSSAPQQGMDGDCGIFCINFFEYDVTSCSFDTLTQSRMSFF 198

[Close]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match: A0A6J1DQZ3 (uncharacterized protein LOC111023442 OS=Momordica charantia OX=3673 GN=LOC111023442 PE=3 SV=1)

HSP 1 Score: 91.3 bits (225), Expect = 8.9e-15
Identity = 44/104 (42.31%), Postives = 68/104 (65.38%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWR 228
           V+IC +F   E++V+DS+  + S + LE +L+++ T  PSLL    VI     + +  WR
Sbjct: 33  VMICIDFVEGEIVVWDSLRAITSYASLEEQLKVMHTVIPSLLHKSQVIAVRPNLPMTPWR 92

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           IRR  + P+Q   GDCGIF  K+FEYD+T ++++T+ Q+ MSYF
Sbjct: 93  IRRVTSTPEQFSSGDCGIFCVKYFEYDVTWTSLETLRQNNMSYF 136

[Close]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match: A0A6J1DPE8 (uncharacterized protein LOC111022296 OS=Momordica charantia OX=3673 GN=LOC111022296 PE=3 SV=1)

HSP 1 Score: 87.0 bits (214), Expect = 1.7e-13
Identity = 41/104 (39.42%), Postives = 65/104 (62.50%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWR 228
           V+IC +F   E++V+DS++ +  ++ LE +L ++    P LL     I     + +  WR
Sbjct: 43  VMICIDFVEGEIVVWDSLMAITPDASLEEQLNVMRAVIPPLLHKSQAITVRPNLPMTPWR 102

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           I R  + PQQ   GDCGIF  K+FEYD+TG++++T+ Q+ MSYF
Sbjct: 103 ISRVTSTPQQFGSGDCGIFCVKYFEYDVTGTSLETLRQNNMSYF 146

[Close]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match: A0A6J1CJT2 (uncharacterized protein LOC111012067 OS=Momordica charantia OX=3673 GN=LOC111012067 PE=3 SV=1)

HSP 1 Score: 84.7 bits (208), Expect = 8.3e-13
Identity = 42/104 (40.38%), Postives = 66/104 (63.46%), Query Frame = 0 

Query: 169 VLICANFKTKELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWR 228
           V+IC +F   E++V+DS+  +  ++ LE +L ++ T  PSLL    VI  +  + +  WR
Sbjct: 33  VMICIDFVEGEIVVWDSLRAITLDASLEEQLEVMRTVIPSLLHKSQVIAVHPNLPMIPWR 92

Query: 229 IRRDATVPQQDEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
           IRR  + PQQ    DC IF  K+FEYD+TG++++T+ Q+ M YF
Sbjct: 93  IRRVTSAPQQFGSRDCDIFCVKYFEYDVTGTSLETLRQNNMPYF 136

[Close]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match: A0A6J1D492 (uncharacterized protein LOC111016890 OS=Momordica charantia OX=3673 GN=LOC111016890 PE=3 SV=1)

HSP 1 Score: 82.8 bits (203), Expect = 3.1e-12
Identity = 42/94 (44.68%), Postives = 58/94 (61.70%), Query Frame = 0 

Query: 179 ELIVFDSMVVLHSNSDLEHELRMICTNFPSLLAVDGVIESN-IIALDQWRIRRDATVPQQ 238
           ++ V+DS+       +LE EL+ +CT  P+LL   G+      + +  WR+RR   VPQQ
Sbjct: 63  DITVWDSLQTATPLDELEKELKPMCTILPTLLHHGGIFSVRPDLPVVPWRVRR-VRVPQQ 122

Query: 239 DEGGDCGIFACKFFEYDITGSNMDTITQDRMSYF 272
               DCGIF  ++FEYD TGSNMDT+TQD + YF
Sbjct: 123 SSVTDCGIFYVRYFEYDATGSNMDTLTQDNIVYF 155

The following BLAST results are available for this feature:
BLAST of CmUC01G012410 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038885861.11.1e-3262.14sentrin-specific protease [Benincasa hispida][more]
XP_038882332.11.7e-2858.25uncharacterized protein LOC120073583 [Benincasa hispida][more]
XP_022154364.13.7e-1546.15uncharacterized protein LOC111021646 [Momordica charantia][more]
XP_022156568.11.8e-1442.31uncharacterized protein LOC111023442 [Momordica charantia][more]
XP_022155154.13.4e-1339.42uncharacterized protein LOC111022296 [Momordica charantia][more]
BLAST of CmUC01G012410 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DLV01.8e-1546.15uncharacterized protein LOC111021646 OS=Momordica charantia OX=3673 GN=LOC111021... [more]
A0A6J1DQZ38.9e-1542.31uncharacterized protein LOC111023442 OS=Momordica charantia OX=3673 GN=LOC111023... [more]
A0A6J1DPE81.7e-1339.42uncharacterized protein LOC111022296 OS=Momordica charantia OX=3673 GN=LOC111022... [more]
A0A6J1CJT28.3e-1340.38uncharacterized protein LOC111012067 OS=Momordica charantia OX=3673 GN=LOC111012... [more]
A0A6J1D4923.1e-1244.68uncharacterized protein LOC111016890 OS=Momordica charantia OX=3673 GN=LOC111016... [more]
BLAST of CmUC01G012410 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Watermelon (USVL531) v1
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003653Ulp1 protease family, C-terminal catalytic domainPFAMPF02902Peptidase_C48coord: 169..269
e-value: 1.3E-11
score: 44.7
IPR003653Ulp1 protease family, C-terminal catalytic domainPROSITEPS50600ULP_PROTEASEcoord: 64..254
score: 8.830945
NoneNo IPR availableGENE3D3.40.395.10Adenoviral Proteinase; Chain Acoord: 168..275
e-value: 3.3E-12
score: 48.3
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 12..47
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 285..334
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..47
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 291..305
IPR038765Papain-like cysteine peptidase superfamilySUPERFAMILY54001Cysteine proteinasescoord: 113..271

Relationships

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

Feature NameUnique NameType
CmUC01G012410.1CmUC01G012410.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006508 proteolysis
molecular_function GO:0008234 cysteine-type peptidase activity