CmaCh11G006210.1 (mRNA) Cucurbita maxima (Rimu)

Overview
NameCmaCh11G006210.1
TypemRNA
OrganismCucurbita maxima (Cucurbita maxima (Rimu))
DescriptionRAC-like GTP binding protein 5
LocationCma_Chr11 : 2980322 .. 2991017 (-)
Sequence length842
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AACGGTCTACATGCAGCGGATTCAATCCACCATCAAATGGCGTTAAATAGAACGCCTGAAGTCCGCCCATTTCCCTGACCTTTGCATTTGTCCGATCATTATAAGTAACCGTCCTCAGTCCCTAACCCTTACATACTCCCAGTTGTTAATTCGCGGTTCATCGGAATCATCGCAAAATGGCTCCGATTGCTGTTGGGGATTCGTTGCCGGAAGGGACAGTGGCCTACTTTGATGAAAACGATCAGCTTCAACAAGCGTCCGTACACTCCCTCGTCGCCGGTAAGAAGGTGGTTCTCTTTGGAGTACCCGGTGCCTTCACTCCCACTTGCAGTACGAAGCATGTGCCGGGCTTTATTGAGAAAAGTGGAGATCTTAAGGCAAAGGGTGTCAATGATATTCTACTTATTAGTGTCAATGACCCCTTCGTGATGAAGGCCTGGTCCAAGACTTACCCTGAGAACAAGGATGTCAAGTTCCTTGCTGATGGCTCTGCAGCATATACACATGCTCTCGGTCTCGAGCTCGATCTTTCAGAAAAAGGGCTTGGCATCCGGTCCAAGCGGTTCGCTCTCTTAGTTGATAACCTCAAGGATTATATTCCCACAGTTTTCGACAACTTCAGTGCTAATGTGGCTGTGGATGGGAATATTGTCAACTTGGGATTATGGGACACTGCTGATCTTCGCGACAATGGAGCTTATTTTGCGGATCAAATGAGATCAAACACAATAACATATTCTCAGGGAGAAGAGCTTAGGAAACAAATTGGTGCTGCTGCATATATTGAATGTAGCTCCAAGACTCAACAGAAACATGCATTAATGCTGAGGTGCTTCAGTTAA

Coding sequence (CDS)

ATGGCTCCGATTGCTGTTGGGGATTCGTTGCCGGAAGGGACAGTGGCCTACTTTGATGAAAACGATCAGCTTCAACAAGCGTCCGTACACTCCCTCGTCGCCGGTAAGAAGGTGGTTCTCTTTGGAGTACCCGGTGCCTTCACTCCCACTTGCAGTACGAAGCATGTGCCGGGCTTTATTGAGAAAAGTGGAGATCTTAAGGCAAAGGGTGTCAATGATATTCTACTTATTAGTGTCAATGACCCCTTCGTGATGAAGGCCTGGTCCAAGACTTACCCTGAGAACAAGGATGTCAAGTTCCTTGCTGATGGCTCTGCAGCATATACACATGCTCTCGGTCTCGAGCTCGATCTTTCAGAAAAAGGGCTTGGCATCCGGTCCAAGCGGTTCGCTCTCTTAGTTGATAACCTCAAGGATTATATTCCCACAGTTTTCGACAACTTCAGTGCTAATGTGGCTGTGGATGGGAATATTGTCAACTTGGGATTATGGGACACTGCTGATCTTCGCGACAATGGAGCTTATTTTGCGGATCAAATGAGATCAAACACAATAACATATTCTCAGGGAGAAGAGCTTAGGAAACAAATTGGTGCTGCTGCATATATTGAATGTAGCTCCAAGACTCAACAGAAACATGCATTAATGCTGAGGTGCTTCAGTTAA

Protein sequence

MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFIEKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSEKGLGIRSKRFALLVDNLKDYIPTVFDNFSANVAVDGNIVNLGLWDTADLRDNGAYFADQMRSNTITYSQGEELRKQIGAAAYIECSSKTQQKHALMLRCFS
Homology
[Close]
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match: PRX2B_ARATH (Peroxiredoxin-2B OS=Arabidopsis thaliana GN=PRXIIB PE=1 SV=1)

HSP 1 Score: 234.6 bits (597), Expect = 1.1e-60
Identity = 108/144 (75.00%), Postives = 127/144 (88.19%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+++FDENDQLQ ASVHSL AGKKV+LFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVVPDGTISFFDENDQLQTASVHSLAAGKKVILFGVPGAFTPTCSMKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+ +LK+KGV++I+  SVNDPFVMKAW KTYPENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  EKAEELKSKGVDEIICFSVNDPFVMKAWGKTYPENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG+RS+RFALL+D+LK  +  V
Sbjct: 121 KGLGVRSRRFALLLDDLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match: PRX2C_ARATH (Peroxiredoxin-2C OS=Arabidopsis thaliana GN=PRXIIC PE=1 SV=1)

HSP 1 Score: 228.0 bits (580), Expect = 9.9e-59
Identity = 104/144 (72.22%), Postives = 123/144 (85.42%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+GT+++FDENDQLQ  SVHS+ AGKKV+LFGVPGAFTPTCS  HVPGFI
Sbjct: 1   MAPITVGDVVPDGTISFFDENDQLQTVSVHSIAAGKKVILFGVPGAFTPTCSMSHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
            K+ +LK+KG+++I+  SVNDPFVMKAW KTYPENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  GKAEELKSKGIDEIICFSVNDPFVMKAWGKTYPENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLGIRS+RFALL+DNLK  +  V
Sbjct: 121 KGLGIRSRRFALLLDNLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match: PRX2C_ORYSJ (Peroxiredoxin-2C OS=Oryza sativa subsp. japonica GN=PRXIIC PE=1 SV=1)

HSP 1 Score: 227.3 bits (578), Expect = 1.7e-58
Identity = 107/138 (77.54%), Postives = 121/138 (87.68%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAP+AVGD+LP+G + +FD  D+LQQ SVH L AGKKVVLFGVPGAFTPTCS +HVPGFI
Sbjct: 1   MAPVAVGDTLPDGQLGWFDGEDKLQQVSVHGLAAGKKVVLFGVPGAFTPTCSNQHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
            ++  LKAKGV+DILL+SVNDPFVMKAW+K+YPENK VKFLADG   YT ALGLELDLSE
Sbjct: 61  NQAEQLKAKGVDDILLVSVNDPFVMKAWAKSYPENKHVKFLADGLGTYTKALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLGIRS+RFALL DNLK
Sbjct: 121 KGLGIRSRRFALLADNLK 138

[Close]
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match: PRX2D_ARATH (Peroxiredoxin-2D OS=Arabidopsis thaliana GN=PRXIID PE=1 SV=2)

HSP 1 Score: 224.9 bits (572), Expect = 8.4e-58
Identity = 103/144 (71.53%), Postives = 122/144 (84.72%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+GT+++FDENDQLQ  SVHS+ AGKKV+LFGVPGAFTPTCS  HVPGFI
Sbjct: 1   MAPITVGDVVPDGTISFFDENDQLQTVSVHSIAAGKKVILFGVPGAFTPTCSMSHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
            K+ +LK+KG+++I+  SVNDPFVMKAW KTY ENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  GKAEELKSKGIDEIICFSVNDPFVMKAWGKTYQENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLGIRS+RFALL+DNLK  +  V
Sbjct: 121 KGLGIRSRRFALLLDNLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match: PRX2A_ARATH (Peroxiredoxin-2A OS=Arabidopsis thaliana GN=PRXIIA PE=1 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 9.0e-44
Identity = 85/144 (59.03%), Postives = 112/144 (77.78%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+G++++FD++DQLQ  SVHSL AGKKV+LFGVPGAF PTCS  HV GFI
Sbjct: 1   MAPIDVGDFVPDGSISFFDDDDQLQTVSVHSLAAGKKVILFGVPGAFPPTCSMNHVNGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+ +LK+ GV++I+ +S +DPF++ A S    ENK VKF+ DGS  Y   LGLEL++ +
Sbjct: 61  EKAEELKSNGVDEIICLSGDDPFMITACS----ENKHVKFVEDGSGEYIQLLGLELEVKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG+RS+ FALL+DNLK  +  V
Sbjct: 121 KGLGVRSRGFALLLDNLKVIVVNV 140

[Close]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match: D7TBK8_VITVI (Peroxiredoxin OS=Vitis vinifera GN=Prx PE=2 SV=1)

HSP 1 Score: 252.3 bits (643), Expect = 5.5e-64
Identity = 117/144 (81.25%), Postives = 134/144 (93.06%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+AYFDE DQLQQASVHSL AGKKV++FGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVIPDGTLAYFDEQDQLQQASVHSLAAGKKVIIFGVPGAFTPTCSVKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+G+LK+KG+++ILL+SVNDPFVMKAW+KTYP+NKDVKFLADGSA YTHALGLELDLSE
Sbjct: 61  EKAGELKSKGIDEILLVSVNDPFVMKAWAKTYPDNKDVKFLADGSATYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG RS+RFALLVD+LK  +  V
Sbjct: 121 KGLGTRSRRFALLVDDLKVKVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match: A5ARL2_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_023716 PE=4 SV=1)

HSP 1 Score: 251.1 bits (640), Expect = 1.2e-63
Identity = 117/144 (81.25%), Postives = 133/144 (92.36%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+AYFDE DQLQQASVHSL AGKKV+ FGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVIPDGTLAYFDEQDQLQQASVHSLAAGKKVIXFGVPGAFTPTCSVKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+G+LK+KG+++ILL+SVNDPFVMKAW+KTYP+NKDVKFLADGSA YTHALGLELDLSE
Sbjct: 61  EKAGELKSKGIDEILLVSVNDPFVMKAWAKTYPDNKDVKFLADGSATYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG RS+RFALLVD+LK  +  V
Sbjct: 121 KGLGTRSRRFALLVDDLKVKVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match: A0A0A0M3L3_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G696490 PE=4 SV=1)

HSP 1 Score: 246.9 bits (629), Expect = 2.3e-62
Identity = 116/138 (84.06%), Postives = 131/138 (94.93%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD+LP+GT+AYFD++DQLQQAS+HSL +GKKVVLFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDTLPDGTLAYFDQDDQLQQASMHSLASGKKVVLFGVPGAFTPTCSMKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           E    LKAKG+++ILLISVNDPFVMKAW+KTYPENK VKFLADGSAAYTHALGLELDLSE
Sbjct: 61  ESGDKLKAKGIDEILLISVNDPFVMKAWAKTYPENKHVKFLADGSAAYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLG+RSKRF+LLVD+L+
Sbjct: 121 KGLGVRSKRFSLLVDSLR 138

[Close]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match: D3Y4I0_BRUGY (Type II peroxiredoxin OS=Bruguiera gymnorhiza PE=2 SV=1)

HSP 1 Score: 244.2 bits (622), Expect = 1.5e-61
Identity = 115/138 (83.33%), Postives = 128/138 (92.75%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD LPEGT+AYFDE+D+LQQAS+HSL AGKKVV+ GVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDKLPEGTLAYFDEDDELQQASIHSLAAGKKVVVIGVPGAFTPTCSLKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+ DLK+KG+ +I+ ISVNDPFVMKAWSKTYPENK VKFLADGSA YTHALGLELDL E
Sbjct: 61  EKADDLKSKGIAEIICISVNDPFVMKAWSKTYPENKHVKFLADGSATYTHALGLELDLKE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLGIRS+RFALLVD+L+
Sbjct: 121 KGLGIRSRRFALLVDDLQ 138

[Close]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match: B9ILP9_POPTR (Peroxiredoxin family protein OS=Populus trichocarpa GN=POPTR_0018s09030g PE=4 SV=1)

HSP 1 Score: 243.0 bits (619), Expect = 3.3e-61
Identity = 115/138 (83.33%), Postives = 127/138 (92.03%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD LP+G +AYFDE DQLQ+ SVHSLVAGKKV+LFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVLPDGKLAYFDEQDQLQEVSVHSLVAGKKVILFGVPGAFTPTCSLKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+G+LK+KGV +IL ISVNDPFVMKAW+K+YPENK VKFLADGSA YTHALGLELDL E
Sbjct: 61  EKAGELKSKGVTEILCISVNDPFVMKAWAKSYPENKHVKFLADGSATYTHALGLELDLQE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLG RS+RFALLVD+LK
Sbjct: 121 KGLGTRSRRFALLVDDLK 138

[Close]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match: AT1G65980.1 (AT1G65980.1 thioredoxin-dependent peroxidase 1)

HSP 1 Score: 234.6 bits (597), Expect = 6.0e-62
Identity = 108/144 (75.00%), Postives = 127/144 (88.19%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+++FDENDQLQ ASVHSL AGKKV+LFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVVPDGTISFFDENDQLQTASVHSLAAGKKVILFGVPGAFTPTCSMKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+ +LK+KGV++I+  SVNDPFVMKAW KTYPENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  EKAEELKSKGVDEIICFSVNDPFVMKAWGKTYPENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG+RS+RFALL+D+LK  +  V
Sbjct: 121 KGLGVRSRRFALLLDDLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match: AT1G65970.1 (AT1G65970.1 thioredoxin-dependent peroxidase 2)

HSP 1 Score: 228.0 bits (580), Expect = 5.6e-60
Identity = 104/144 (72.22%), Postives = 123/144 (85.42%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+GT+++FDENDQLQ  SVHS+ AGKKV+LFGVPGAFTPTCS  HVPGFI
Sbjct: 1   MAPITVGDVVPDGTISFFDENDQLQTVSVHSIAAGKKVILFGVPGAFTPTCSMSHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
            K+ +LK+KG+++I+  SVNDPFVMKAW KTYPENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  GKAEELKSKGIDEIICFSVNDPFVMKAWGKTYPENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLGIRS+RFALL+DNLK  +  V
Sbjct: 121 KGLGIRSRRFALLLDNLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match: AT1G60740.1 (AT1G60740.1 Thioredoxin superfamily protein)

HSP 1 Score: 224.9 bits (572), Expect = 4.7e-59
Identity = 103/144 (71.53%), Postives = 122/144 (84.72%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+GT+++FDENDQLQ  SVHS+ AGKKV+LFGVPGAFTPTCS  HVPGFI
Sbjct: 1   MAPITVGDVVPDGTISFFDENDQLQTVSVHSIAAGKKVILFGVPGAFTPTCSMSHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
            K+ +LK+KG+++I+  SVNDPFVMKAW KTY ENK VKF+ADGS  YTH LGLELDL +
Sbjct: 61  GKAEELKSKGIDEIICFSVNDPFVMKAWGKTYQENKHVKFVADGSGEYTHLLGLELDLKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLGIRS+RFALL+DNLK  +  V
Sbjct: 121 KGLGIRSRRFALLLDNLKVTVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match: AT1G65990.1 (AT1G65990.1 type 2 peroxiredoxin-related / thiol specific antioxidant / mal allergen family protein)

HSP 1 Score: 178.3 bits (451), Expect = 5.1e-45
Identity = 85/144 (59.03%), Postives = 112/144 (77.78%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPI VGD +P+G++++FD++DQLQ  SVHSL AGKKV+LFGVPGAF PTCS  HV GFI
Sbjct: 1   MAPIDVGDFVPDGSISFFDDDDQLQTVSVHSLAAGKKVILFGVPGAFPPTCSMNHVNGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+ +LK+ GV++I+ +S +DPF++ A S    ENK VKF+ DGS  Y   LGLEL++ +
Sbjct: 61  EKAEELKSNGVDEIICLSGDDPFMITACS----ENKHVKFVEDGSGEYIQLLGLELEVKD 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG+RS+ FALL+DNLK  +  V
Sbjct: 121 KGLGVRSRGFALLLDNLKVIVVNV 140

[Close]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match: AT3G52960.1 (AT3G52960.1 Thioredoxin superfamily protein)

HSP 1 Score: 155.6 bits (392), Expect = 3.5e-38
Identity = 74/138 (53.62%), Postives = 102/138 (73.91%), Query Frame = 1 

Query: 2   APIAVGDSLPEGTVAYFDEND-QLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 61
           A I+VGD LP+ T++Y D +   ++  +V SL AGKK +LF VPGAFTPTCS KHVPGF+
Sbjct: 71  ASISVGDKLPDSTLSYLDPSTGDVKTVTVSSLTAGKKTILFAVPGAFTPTCSQKHVPGFV 130

Query: 62  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 121
            K+G+L++KG++ I  ISVND FVM+AW K    N +V  L+DG+  +T  LG+ELDL +
Sbjct: 131 SKAGELRSKGIDVIACISVNDAFVMEAWRKDLGINDEVMLLSDGNGEFTGKLGVELDLRD 190

Query: 122 K--GLGIRSKRFALLVDN 137
           K  GLG+RS+R+A+L D+
Sbjct: 191 KPVGLGVRSRRYAILADD 208

[Close]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match: gi|526118089|ref|NP_001268191.1| (type II peroxiredoxin C [Vitis vinifera])

HSP 1 Score: 252.3 bits (643), Expect = 7.9e-64
Identity = 117/144 (81.25%), Postives = 134/144 (93.06%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+AYFDE DQLQQASVHSL AGKKV++FGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVIPDGTLAYFDEQDQLQQASVHSLAAGKKVIIFGVPGAFTPTCSVKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+G+LK+KG+++ILL+SVNDPFVMKAW+KTYP+NKDVKFLADGSA YTHALGLELDLSE
Sbjct: 61  EKAGELKSKGIDEILLVSVNDPFVMKAWAKTYPDNKDVKFLADGSATYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG RS+RFALLVD+LK  +  V
Sbjct: 121 KGLGTRSRRFALLVDDLKVKVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match: gi|147781540|emb|CAN73709.1| (hypothetical protein VITISV_023716 [Vitis vinifera])

HSP 1 Score: 251.1 bits (640), Expect = 1.8e-63
Identity = 117/144 (81.25%), Postives = 133/144 (92.36%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD +P+GT+AYFDE DQLQQASVHSL AGKKV+ FGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDVIPDGTLAYFDEQDQLQQASVHSLAAGKKVIXFGVPGAFTPTCSVKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EK+G+LK+KG+++ILL+SVNDPFVMKAW+KTYP+NKDVKFLADGSA YTHALGLELDLSE
Sbjct: 61  EKAGELKSKGIDEILLVSVNDPFVMKAWAKTYPDNKDVKFLADGSATYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLKDYIPTV 145
           KGLG RS+RFALLVD+LK  +  V
Sbjct: 121 KGLGTRSRRFALLVDDLKVKVANV 144

[Close]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match: gi|659125546|ref|XP_008462740.1| (PREDICTED: peroxiredoxin-2B-like [Cucumis melo])

HSP 1 Score: 249.6 bits (636), Expect = 5.1e-63
Identity = 120/138 (86.96%), Postives = 129/138 (93.48%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD+LP+G VAYFDE DQLQQ+S+HSL AGKKVVLFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDTLPDGMVAYFDEEDQLQQSSIHSLAAGKKVVLFGVPGAFTPTCSLKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           E    LKAKG++DILLISVNDPFVMKAW+KTYPENK VKFLADGSAAYTHALGLELDLSE
Sbjct: 61  ENGDVLKAKGIDDILLISVNDPFVMKAWAKTYPENKHVKFLADGSAAYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLGIRSKRF+LLVD+LK
Sbjct: 121 KGLGIRSKRFSLLVDDLK 138

[Close]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match: gi|449449525|ref|XP_004142515.1| (PREDICTED: peroxiredoxin-2B-like [Cucumis sativus])

HSP 1 Score: 246.9 bits (629), Expect = 3.3e-62
Identity = 116/138 (84.06%), Postives = 131/138 (94.93%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGD+LP+GT+AYFD++DQLQQAS+HSL +GKKVVLFGVPGAFTPTCS KHVPGFI
Sbjct: 1   MAPIAVGDTLPDGTLAYFDQDDQLQQASMHSLASGKKVVLFGVPGAFTPTCSMKHVPGFI 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           E    LKAKG+++ILLISVNDPFVMKAW+KTYPENK VKFLADGSAAYTHALGLELDLSE
Sbjct: 61  ESGDKLKAKGIDEILLISVNDPFVMKAWAKTYPENKHVKFLADGSAAYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLG+RSKRF+LLVD+L+
Sbjct: 121 KGLGVRSKRFSLLVDSLR 138

[Close]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match: gi|1009160361|ref|XP_015898308.1| (PREDICTED: peroxiredoxin-2B [Ziziphus jujuba])

HSP 1 Score: 245.4 bits (625), Expect = 9.6e-62
Identity = 113/138 (81.88%), Postives = 130/138 (94.20%), Query Frame = 1 

Query: 1   MAPIAVGDSLPEGTVAYFDENDQLQQASVHSLVAGKKVVLFGVPGAFTPTCSTKHVPGFI 60
           MAPIAVGDSLP+GTV+YFD+NDQLQ  SVHSL AGKKV+LFGVPGAFTPTCS KHVPGF+
Sbjct: 1   MAPIAVGDSLPDGTVSYFDDNDQLQSVSVHSLTAGKKVILFGVPGAFTPTCSLKHVPGFV 60

Query: 61  EKSGDLKAKGVNDILLISVNDPFVMKAWSKTYPENKDVKFLADGSAAYTHALGLELDLSE 120
           EKS +LK+KG+++ILL+SVNDPFVMKAW+KTYPEN+ VKFLADG+  YTHALGLELDLSE
Sbjct: 61  EKSEELKSKGIDEILLLSVNDPFVMKAWAKTYPENQHVKFLADGAGKYTHALGLELDLSE 120

Query: 121 KGLGIRSKRFALLVDNLK 139
           KGLG+RS+RFALLVD+LK
Sbjct: 121 KGLGVRSRRFALLVDDLK 138

The following BLAST results are available for this feature:
BLAST of CmaCh11G006210.1 vs. Swiss-Prot
Match NameE-valueIdentityDescription
PRX2B_ARATH1.1e-6075.00Peroxiredoxin-2B OS=Arabidopsis thaliana GN=PRXIIB PE=1 SV=1[more]
PRX2C_ARATH9.9e-5972.22Peroxiredoxin-2C OS=Arabidopsis thaliana GN=PRXIIC PE=1 SV=1[more]
PRX2C_ORYSJ1.7e-5877.54Peroxiredoxin-2C OS=Oryza sativa subsp. japonica GN=PRXIIC PE=1 SV=1[more]
PRX2D_ARATH8.4e-5871.53Peroxiredoxin-2D OS=Arabidopsis thaliana GN=PRXIID PE=1 SV=2[more]
PRX2A_ARATH9.0e-4459.03Peroxiredoxin-2A OS=Arabidopsis thaliana GN=PRXIIA PE=1 SV=1[more]
BLAST of CmaCh11G006210.1 vs. TrEMBL
Match NameE-valueIdentityDescription
D7TBK8_VITVI5.5e-6481.25Peroxiredoxin OS=Vitis vinifera GN=Prx PE=2 SV=1[more]
A5ARL2_VITVI1.2e-6381.25Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_023716 PE=4 SV=1[more]
A0A0A0M3L3_CUCSA2.3e-6284.06Uncharacterized protein OS=Cucumis sativus GN=Csa_1G696490 PE=4 SV=1[more]
D3Y4I0_BRUGY1.5e-6183.33Type II peroxiredoxin OS=Bruguiera gymnorhiza PE=2 SV=1[more]
B9ILP9_POPTR3.3e-6183.33Peroxiredoxin family protein OS=Populus trichocarpa GN=POPTR_0018s09030g PE=4 SV... [more]
BLAST of CmaCh11G006210.1 vs. TAIR10
Match NameE-valueIdentityDescription
AT1G65980.16.0e-6275.00 thioredoxin-dependent peroxidase 1[more]
AT1G65970.15.6e-6072.22 thioredoxin-dependent peroxidase 2[more]
AT1G60740.14.7e-5971.53 Thioredoxin superfamily protein[more]
AT1G65990.15.1e-4559.03 type 2 peroxiredoxin-related / thiol specific antioxidant / mal alle... [more]
AT3G52960.13.5e-3853.62 Thioredoxin superfamily protein[more]
BLAST of CmaCh11G006210.1 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|526118089|ref|NP_001268191.1|7.9e-6481.25type II peroxiredoxin C [Vitis vinifera][more]
gi|147781540|emb|CAN73709.1|1.8e-6381.25hypothetical protein VITISV_023716 [Vitis vinifera][more]
gi|659125546|ref|XP_008462740.1|5.1e-6386.96PREDICTED: peroxiredoxin-2B-like [Cucumis melo][more]
gi|449449525|ref|XP_004142515.1|3.3e-6284.06PREDICTED: peroxiredoxin-2B-like [Cucumis sativus][more]
gi|1009160361|ref|XP_015898308.1|9.6e-6281.88PREDICTED: peroxiredoxin-2B [Ziziphus jujuba][more]
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: INTERPRO
TermDefinition
IPR012336Thioredoxin-like_fold
IPR013740Redoxin
IPR013766Thioredoxin_domain
IPR027417P-loop_NTPase
Vocabulary: Molecular Function
TermDefinition
GO:0016491oxidoreductase activity
Vocabulary: Biological Process
TermDefinition
GO:0045454cell redox homeostasis
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0045454 cell redox homeostasis
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0006979 response to oxidative stress
cellular_component GO:0005575 cellular_component
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0004601 peroxidase activity
molecular_function GO:0051920 peroxiredoxin activity
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
CmaCh11G006210CmaCh11G006210gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
CmaCh11G006210.1CmaCh11G006210.1-proteinpolypeptide


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

Feature NameUnique NameType
CmaCh11G006210.1.CDS.7CmaCh11G006210.1.CDS.7CDS
CmaCh11G006210.1.CDS.6CmaCh11G006210.1.CDS.6CDS
CmaCh11G006210.1.CDS.5CmaCh11G006210.1.CDS.5CDS
CmaCh11G006210.1.CDS.4CmaCh11G006210.1.CDS.4CDS
CmaCh11G006210.1.CDS.3CmaCh11G006210.1.CDS.3CDS
CmaCh11G006210.1.CDS.2CmaCh11G006210.1.CDS.2CDS
CmaCh11G006210.1.CDS.1CmaCh11G006210.1.CDS.1CDS


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

Feature NameUnique NameType
CmaCh11G006210.1.five_prime_UTR.1CmaCh11G006210.1.five_prime_UTR.1five_prime_UTR


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

Feature NameUnique NameType
CmaCh11G006210.1.exon.7CmaCh11G006210.1.exon.7exon
CmaCh11G006210.1.exon.6CmaCh11G006210.1.exon.6exon
CmaCh11G006210.1.exon.5CmaCh11G006210.1.exon.5exon
CmaCh11G006210.1.exon.4CmaCh11G006210.1.exon.4exon
CmaCh11G006210.1.exon.3CmaCh11G006210.1.exon.3exon
CmaCh11G006210.1.exon.2CmaCh11G006210.1.exon.2exon
CmaCh11G006210.1.exon.1CmaCh11G006210.1.exon.1exon


InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR012336Thioredoxin-like foldGENE3DG3DSA:3.40.30.10coord: 1..138
score: 2.2
IPR012336Thioredoxin-like foldunknownSSF52833Thioredoxin-likecoord: 1..148
score: 5.52
IPR013740RedoxinPFAMPF08534Redoxincoord: 6..136
score: 2.1
IPR013766Thioredoxin domainPROFILEPS51352THIOREDOXIN_2coord: 4..182
score: 9
IPR027417P-loop containing nucleoside triphosphate hydrolaseGENE3DG3DSA:3.40.50.300coord: 169..211
score: 2.8E-6coord: 139..168
score: 1.
IPR027417P-loop containing nucleoside triphosphate hydrolaseunknownSSF52540P-loop containing nucleoside triphosphate hydrolasescoord: 138..212
score: 1.5
NoneNo IPR availablePANTHERPTHR10430PEROXIREDOXINcoord: 1..138
score: 3.4
NoneNo IPR availableSMARTSM00174rho_sub_3coord: 138..217
score: 1.