MC09g0028 (gene) Bitter gourd (Dali-11) v1

Overview
NameMC09g0028
Typegene
OrganismMomordica charantia cv. Dali-11 (Bitter gourd (Dali-11) v1)
DescriptionProline-rich protein HaeIII subfamily 1-like
LocationMC09: 302380 .. 312871 (-)
RNA-Seq ExpressionMC09g0028
SyntenyMC09g0028
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CCGACTCAAAGGTTCCCAGACTCATCACTTCCTCCACCAACGAAAGGATTATGGCCATTTTTTGTAATGCATCCCAAAGATGCTAGAAAAATTATTGTCGCCAACAAAGATTTAGAATACTCCATTCAAGAAAAAGAATCGATGGTTAACAAGGAAATGTACTTAGAACGAGTACCAATTATGCATCAAACTAGGTTGAGTGAAAGGATATCAGACTCTTCACCTTCTCCACCGCATGCTCTATCTACCATTTCAAAGAAGAAATTGTGGCCCTATTTTGTAATACATCCAAAGGGCAACATAATTCCTCCTTCTGGGCCGAGTCAAAGGTTCTCTGACTCATCACCACCTCCATCGACGAAGGGATTATGGCCCTTTTTGGTAACACATCCAAAAGGTAACATAATTCCTCCTTCGGGGCCGAGTCAAAGGTTCTCGGACTCATCACATCCTCCACCGACGAAGGGATTTTGGCCCTTTTTTGTAATGCATCCAAAAGGTAACCTAATTCCTCCTTCTGGGCCGAGTCAAAGGTTCTCAGACTCATCACCTCCTCCACCGACTAAAGGATTATGGCCATTTTTTGTAATGCATCCAAAAGGTAACCTAATTCCTCATTCTAGGACGAGTCAAAAGTTTTCTGACTCATCACCTCCTCCATCGACG

Coding sequence (CDS)

CCGACTCAAAGGTTCCCAGACTCATCACTTCCTCCACCAACGAAAGGATTATGGCCATTTTTTGTAATGCATCCCAAAGATGCTAGAAAAATTATTGTCGCCAACAAAGATTTAGAATACTCCATTCAAGAAAAAGAATCGATGGTTAACAAGGAAATGTACTTAGAACGAGTACCAATTATGCATCAAACTAGGTTGAGTGAAAGGATATCAGACTCTTCACCTTCTCCACCGCATGCTCTATCTACCATTTCAAAGAAGAAATTGTGGCCCTATTTTGTAATACATCCAAAGGGCAACATAATTCCTCCTTCTGGGCCGAGTCAAAGGTTCTCTGACTCATCACCACCTCCATCGACGAAGGGATTATGGCCCTTTTTGGTAACACATCCAAAAGGTAACATAATTCCTCCTTCGGGGCCGAGTCAAAGGTTCTCGGACTCATCACATCCTCCACCGACGAAGGGATTTTGGCCCTTTTTTGTAATGCATCCAAAAGGTAACCTAATTCCTCCTTCTGGGCCGAGTCAAAGGTTCTCAGACTCATCACCTCCTCCACCGACTAAAGGATTATGGCCATTTTTTGTAATGCATCCAAAAGGTAACCTAATTCCTCATTCTAGGACGAGTCAAAAGTTTTCTGACTCATCACCTCCTCCATCGACG

Protein sequence

PTQRFPDSSLPPPTKGLWPFFVMHPKDARKIIVANKDLEYSIQEKESMVNKEMYLERVPIMHQTRLSERISDSSPSPPHALSTISKKKLWPYFVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFLVTHPKGNIIPPSGPSQRFSDSSHPPPTKGFWPFFVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPFFVMHPKGNLIPHSRTSQKFSDSSPPPST
Homology
[Close]
BLAST of MC09g0028 vs. NCBI nr
Match: KAG6603169.1 (hypothetical protein SDJN03_03778, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 112 bits (279), Expect = 2.97e-25
Identity = 89/201 (44.28%), Postives = 100/201 (49.75%), Query Frame = 0 

Query: 42  IQEKESMVNKEMYLERVPIMHQTRLSERISDSSPSPPHALSTISKKKLWPYFVIHPKGNI 101
           I  K+S +N  M  + VPI   +  S+R SD  P PP A S I  K+    F + PKG  
Sbjct: 113 ILSKQSKINFGMLPKGVPIP-PSGPSQRTSDYPPPPPRASSVILNKQSKINFGMLPKGVP 172

Query: 102 IPPSGPSQRFSDSSPPPSTKGLWPFLVTH--------PKGNIIPPSGPSQRFSDSSHPPP 161
           IPPSGPSQR S+  PPP        L T         PKG  IPPSGPSQR SD   PPP
Sbjct: 173 IPPSGPSQRTSNYPPPPPLHASSVILNTQSKINFGMLPKGVPIPPSGPSQRTSDYPPPPP 232

Query: 162 TKGFWPF-------FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF-------FVMHP 220
               +         F M PKG  IPPSGPSQR SD  PPPP              F M P
Sbjct: 233 HASSFILNTQSKINFGMLPKGVPIPPSGPSQRTSDYPPPPPHASSVILNTQSKINFGMLP 292

[Close]
BLAST of MC09g0028 vs. NCBI nr
Match: XP_010653709.1 (PREDICTED: proline-rich protein HaeIII subfamily 1-like [Vitis vinifera])

HSP 1 Score: 103 bits (258), Expect = 1.87e-23
Identity = 70/136 (51.47%), Postives = 82/136 (60.29%), Query Frame = 0 

Query: 93  FVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFLVTH--PKGNIIPPSGPSQRFSDSSH 152
           FV+ PKG+ IPPSGPS R S++ PPP +    P L     PKG  IPPSGPSQR SD   
Sbjct: 33  FVMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGVPIPPSGPSQRTSDP-- 92

Query: 153 PPPTKGFWPF----FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF--FVMHPKGNLI 212
           PPP + F       F M PKG+ IPPSGPS R S++ PPP +    P   F M PKG+ I
Sbjct: 93  PPPPQPFARASVFRFGMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGDPI 152

Query: 213 PHSRTSQKFSDSSPPP 220
           P S  SQ+ SD  PPP
Sbjct: 153 PPSGPSQRTSDPPPPP 166

[Close]
BLAST of MC09g0028 vs. NCBI nr
Match: RVW39818.1 (hypothetical protein CK203_074658 [Vitis vinifera])

HSP 1 Score: 103 bits (258), Expect = 2.10e-23
Identity = 70/136 (51.47%), Postives = 82/136 (60.29%), Query Frame = 0 

Query: 93  FVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFLVTH--PKGNIIPPSGPSQRFSDSSH 152
           FV+ PKG+ IPPSGPS R S++ PPP +    P L     PKG  IPPSGPSQR SD   
Sbjct: 38  FVMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGVPIPPSGPSQRTSDP-- 97

Query: 153 PPPTKGFWPF----FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF--FVMHPKGNLI 212
           PPP + F       F M PKG+ IPPSGPS R S++ PPP +    P   F M PKG+ I
Sbjct: 98  PPPPQPFARASVFRFGMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGDPI 157

Query: 213 PHSRTSQKFSDSSPPP 220
           P S  SQ+ SD  PPP
Sbjct: 158 PPSGPSQRTSDPPPPP 171

[Close]
BLAST of MC09g0028 vs. NCBI nr
Match: RVW98703.1 (hypothetical protein CK203_024006 [Vitis vinifera])

HSP 1 Score: 97.4 bits (241), Expect = 2.92e-21
Identity = 66/135 (48.89%), Postives = 81/135 (60.00%), Query Frame = 0 

Query: 93  FVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFL---VTHPKGNIIPPSGPSQRFSDSS 152
           FV+ PKG+ IPPSGPS R S++ PPP +    P L   +    G+ IPPSGPS R S++ 
Sbjct: 38  FVMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGGDPIPPSGPSHRGSETP 97

Query: 153 HPPPTKGFWPF--FVMHPKGNLIPPSGPSQRFSDSSPPP-PTKGLWPF-FVMHPKGNLIP 212
            PP +    P   F M PKG+ IPPSGPSQR SD  PPP P      F F M PKG+ IP
Sbjct: 98  PPPHSFARGPTLRFGMLPKGDPIPPSGPSQRTSDPPPPPQPFARASVFRFGMLPKGDPIP 157

Query: 213 HSRTSQKFSDSSPPP 220
            S  S + S++ PPP
Sbjct: 158 PSGPSHRGSETPPPP 172

[Close]
BLAST of MC09g0028 vs. NCBI nr
Match: XP_022967687.1 (actin cytoskeleton-regulatory complex protein PAN1-like [Cucurbita maxima])

HSP 1 Score: 102 bits (253), Expect = 5.44e-21
Identity = 85/189 (44.97%), Postives = 97/189 (51.32%), Query Frame = 0 

Query: 42  IQEKESMVNKEMYLERVPIMHQTRLSERISDSSPSPPHALSTISKKKLWPYFVIHPKGNI 101
           I  K+S +N  M  + VPI   +  S+R S   P PP A S I  K+   Y  + P+G  
Sbjct: 314 ILNKQSKINFGMLPKGVPIP-PSGPSQRTSXYPPPPPRASSVILNKQSKIYLGMLPRGVP 373

Query: 102 IPPSGPSQRFSD-SSPPPSTKGLWPFLVTH------PKGNIIPPSGPSQRFSDSSHPPPT 161
           IPP G SQR SD   PPP    +     +       PKG  IPPSGPS R SD   PPP 
Sbjct: 374 IPPPGLSQRTSDYPHPPPHASSVILNKQSKINFGMLPKGVPIPPSGPSHRTSDYP-PPPP 433

Query: 162 KGFWPF--FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF--FVMHPKGNLIPHSRTS 219
              WP   F M PK   IPPSGPSQR SD  PPPP   LWP   F M PKG  IP    S
Sbjct: 434 HVLWPKINFGMLPKDVPIPPSGPSQRTSDYPPPPPHV-LWPKINFGMLPKGVPIPPHGPS 493

[Close]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match: A0A438DWZ1 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_074658 PE=4 SV=1)

HSP 1 Score: 103 bits (258), Expect = 1.02e-23
Identity = 70/136 (51.47%), Postives = 82/136 (60.29%), Query Frame = 0 

Query: 93  FVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFLVTH--PKGNIIPPSGPSQRFSDSSH 152
           FV+ PKG+ IPPSGPS R S++ PPP +    P L     PKG  IPPSGPSQR SD   
Sbjct: 38  FVMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGVPIPPSGPSQRTSDP-- 97

Query: 153 PPPTKGFWPF----FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF--FVMHPKGNLI 212
           PPP + F       F M PKG+ IPPSGPS R S++ PPP +    P   F M PKG+ I
Sbjct: 98  PPPPQPFARASVFRFGMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGDPI 157

Query: 213 PHSRTSQKFSDSSPPP 220
           P S  SQ+ SD  PPP
Sbjct: 158 PPSGPSQRTSDPPPPP 171

[Close]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match: A0A438IPQ7 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_024006 PE=4 SV=1)

HSP 1 Score: 97.4 bits (241), Expect = 1.41e-21
Identity = 66/135 (48.89%), Postives = 81/135 (60.00%), Query Frame = 0 

Query: 93  FVIHPKGNIIPPSGPSQRFSDSSPPPSTKGLWPFL---VTHPKGNIIPPSGPSQRFSDSS 152
           FV+ PKG+ IPPSGPS R S++ PPP +    P L   +    G+ IPPSGPS R S++ 
Sbjct: 38  FVMLPKGDPIPPSGPSHRGSETPPPPHSFARGPTLRFGMLPKGGDPIPPSGPSHRGSETP 97

Query: 153 HPPPTKGFWPF--FVMHPKGNLIPPSGPSQRFSDSSPPP-PTKGLWPF-FVMHPKGNLIP 212
            PP +    P   F M PKG+ IPPSGPSQR SD  PPP P      F F M PKG+ IP
Sbjct: 98  PPPHSFARGPTLRFGMLPKGDPIPPSGPSQRTSDPPPPPQPFARASVFRFGMLPKGDPIP 157

Query: 213 HSRTSQKFSDSSPPP 220
            S  S + S++ PPP
Sbjct: 158 PSGPSHRGSETPPPP 172

[Close]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match: A0A6J1HRH7 (actin cytoskeleton-regulatory complex protein PAN1-like OS=Cucurbita maxima OX=3661 GN=LOC111467141 PE=4 SV=1)

HSP 1 Score: 102 bits (253), Expect = 2.63e-21
Identity = 85/189 (44.97%), Postives = 97/189 (51.32%), Query Frame = 0 

Query: 42  IQEKESMVNKEMYLERVPIMHQTRLSERISDSSPSPPHALSTISKKKLWPYFVIHPKGNI 101
           I  K+S +N  M  + VPI   +  S+R S   P PP A S I  K+   Y  + P+G  
Sbjct: 314 ILNKQSKINFGMLPKGVPIP-PSGPSQRTSXYPPPPPRASSVILNKQSKIYLGMLPRGVP 373

Query: 102 IPPSGPSQRFSD-SSPPPSTKGLWPFLVTH------PKGNIIPPSGPSQRFSDSSHPPPT 161
           IPP G SQR SD   PPP    +     +       PKG  IPPSGPS R SD   PPP 
Sbjct: 374 IPPPGLSQRTSDYPHPPPHASSVILNKQSKINFGMLPKGVPIPPSGPSHRTSDYP-PPPP 433

Query: 162 KGFWPF--FVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPF--FVMHPKGNLIPHSRTS 219
              WP   F M PK   IPPSGPSQR SD  PPPP   LWP   F M PKG  IP    S
Sbjct: 434 HVLWPKINFGMLPKDVPIPPSGPSQRTSDYPPPPPHV-LWPKINFGMLPKGVPIPPHGPS 493

[Close]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match: A0A1S2Y3N8 (proline-rich protein 2-like OS=Cicer arietinum OX=3827 GN=LOC101510047 PE=4 SV=1)

HSP 1 Score: 95.9 bits (237), Expect = 5.45e-20
Identity = 74/156 (47.44%), Postives = 89/156 (57.05%), Query Frame = 0 

Query: 64  TRLSERISDSSPSPPHALSTISKKKLWPYFVIHPKGNIIPPSGPSQRFSDSSPPPSTKGL 123
           +R S+  S SSP PPH             F +  KG+++P SGPS RFSDS PPP    L
Sbjct: 152 SRPSKGSSYSSPPPPHTNLN---------FGVLLKGHVLP-SGPSTRFSDSPPPPPHTNL 211

Query: 124 WPFLVTHPKGNIIPPSGPSQRFSDSSHPPPTKGFWPFFVMHPKGNLIPPSGPSQRFSDSS 183
              ++  PKG  +PPSGPS RFSDS  PPP       F +  KG+++P SGPS RFSDS 
Sbjct: 212 HFGML--PKG-YVPPSGPSTRFSDS--PPPHTNL--NFGVLLKGHVLP-SGPSTRFSDSP 271

Query: 184 PPPPTKGLWPFFVMHPKGNLIPHSRTSQKFSDSSPP 219
           PPPP   L   F M PKG  +P S  S + SDS PP
Sbjct: 272 PPPPHTNL--HFSMLPKG-YVPPSGPSTRLSDSPPP 286

[Close]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match: A0A5D3BP86 (Proline-rich protein HaeIII subfamily 1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold109G00050 PE=4 SV=1)

HSP 1 Score: 92.4 bits (228), Expect = 1.32e-19
Identity = 62/118 (52.54%), Postives = 72/118 (61.02%), Query Frame = 0 

Query: 83  TISKKKLWPYFVIHPKGNI------IPPSGPSQRFSDSSPPPST----KGLWPFLVTHPK 142
           +++K K  P F  H +  I      IPPSGPSQR SDS P PS     +    F +  PK
Sbjct: 61  SLTKSKGKPEFDTHFRFGIFSKDVRIPPSGPSQRSSDSPPSPSMILPKESRINFGIL-PK 120

Query: 143 GNIIPPSGPSQRFSDSSHPPPT---KGFWPFFVMHPKGNLIPPSGPSQRFSDSSPPPP 187
           G+ IPPSGPSQRFSDS  PP T   KG    F M PKG+ IPPSGPS+R SD+ PPPP
Sbjct: 121 GSRIPPSGPSQRFSDSPLPPSTFLHKGSNMIFGMLPKGHHIPPSGPSKRTSDNPPPPP 177

[Close]
BLAST of MC09g0028 vs. TAIR 10
Match: AT1G62440.1 (leucine-rich repeat/extensin 2 )

HSP 1 Score: 43.9 bits (102), Expect = 2.0e-04
Identity = 41/138 (29.71%), Postives = 56/138 (40.58%), Query Frame = 0 

Query: 91  PYFVIHPKGNIIPPSGPSQR----FSDSSPPPSTKGLWPFLVTHPKGNIIPPSGPSQRFS 150
           P F + P   ++PP  PS +    F  + PPPS+K    F  T P     PPS       
Sbjct: 428 PSFKMSPTVRVLPPPPPSSKMSPTFRATPPPPSSKMSPSFRATPP-----PPSSKMSPSF 487

Query: 151 DSSHPPPTKGFWPFFVMHPKGNLIPPSGPSQRFSDSSPPPPTKGLWPFFVMHPKGNLI-- 210
            ++ PPP+        M P     PP  P   + + SPPPP+  + P    +P    +  
Sbjct: 488 RATPPPPSS------KMSPSVKAYPPPPPPPEY-EPSPPPPSSEMSPSVRAYPPPPPLSP 547

Query: 211 -PHSRTSQKFSDSSPPPS 222
            P S        S PPPS
Sbjct: 548 PPPSPPPPYIYSSPPPPS 553

[Close]
BLAST of MC09g0028 vs. TAIR 10
Match: AT1G68690.1 (Protein kinase superfamily protein )

HSP 1 Score: 42.7 bits (99), Expect = 4.4e-04
Identity = 41/119 (34.45%), Postives = 50/119 (42.02%), Query Frame = 0 

Query: 73  SSPSPPHALSTISKKKLWPYFVIHPKGNI----IPPSGPSQRFSDSSPPPSTKGLWPFLV 132
           SSP PP ++         P  V  P  ++     PP  PS R + S PPPS         
Sbjct: 121 SSPPPPASVPPPRPSPSPPILVRSPPPSVRPIQSPPPPPSDRPTQSPPPPS--------- 180

Query: 133 THPKGNIIPPSGPSQRFSDSSHPPPTKGFWPFFVMHPKGNLIPPSGPSQRFSDSSPPPP 188
                   PPS PS+R + S   PP++   P     P     PPS PS R S S PPPP
Sbjct: 181 --------PPSPPSERPTQSPPSPPSER--PTQSPPPPS---PPSPPSDRPSQSPPPPP 217

The following BLAST results are available for this feature:
BLAST of MC09g0028 vs.
Match NameE-valueIdentityDescription
BLAST of MC09g0028 vs. NCBI nr
Match NameE-valueIdentityDescription
KAG6603169.12.97e-2544.28hypothetical protein SDJN03_03778, partial [Cucurbita argyrosperma subsp. sorori... [more]
XP_010653709.11.87e-2351.47PREDICTED: proline-rich protein HaeIII subfamily 1-like [Vitis vinifera][more]
RVW39818.12.10e-2351.47hypothetical protein CK203_074658 [Vitis vinifera][more]
RVW98703.12.92e-2148.89hypothetical protein CK203_024006 [Vitis vinifera][more]
XP_022967687.15.44e-2144.97actin cytoskeleton-regulatory complex protein PAN1-like [Cucurbita maxima][more]
BLAST of MC09g0028 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A438DWZ11.02e-2351.47Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_074658 PE=4 SV=1[more]
A0A438IPQ71.41e-2148.89Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_024006 PE=4 SV=1[more]
A0A6J1HRH72.63e-2144.97actin cytoskeleton-regulatory complex protein PAN1-like OS=Cucurbita maxima OX=3... [more]
A0A1S2Y3N85.45e-2047.44proline-rich protein 2-like OS=Cicer arietinum OX=3827 GN=LOC101510047 PE=4 SV=1[more]
A0A5D3BP861.32e-1952.54Proline-rich protein HaeIII subfamily 1-like OS=Cucumis melo var. makuwa OX=1194... [more]
BLAST of MC09g0028 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G62440.12.0e-0429.71leucine-rich repeat/extensin 2 [more]
AT1G68690.14.4e-0434.45Protein kinase superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 178..192
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 204..222
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 169..222
NoneNo IPR availablePANTHERPTHR33599:SF13FORMIN-LIKE PROTEIN 20coord: 161..220
coord: 92..154
coord: 129..188
IPR039639Protein IDA-likePANTHERPTHR33599PROTEIN IDA-LIKE 5coord: 92..154
IPR039639Protein IDA-likePANTHERPTHR33599PROTEIN IDA-LIKE 5coord: 161..220
coord: 129..188

Relationships

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

Feature NameUnique NameType
MC09g0028.1MC09g0028.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0010227 floral organ abscission