Tan0017800 (gene) Snake gourd v1

Overview
NameTan0017800
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionCACTA en-spm transposon protein
LocationLG03: 56486128 .. 56494065 (-)
RNA-Seq ExpressionTan0017800
SyntenyTan0017800
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CTTCCCCTTTCTCTCTCCTTCAACCCACTGATACTGTCGTCGCCTGCTGTCTACACGCCGCTGTCTGCACACCGCAATCGCCCGCCGTCTGCATTTGGAGGTTTCCTCGAGCGTGGTTCAGCAGAAGGAGCTATCATGCACGTCAATGGCGGACGATCTTCTTTCTCAGAGAGATAATGGTGACACATTGCAATCTAGAGAACGAGGCGGCTGAGCATTTTGTCGATGATGACCCTATTGTTGATCCTAGTGCCACCGCAGTGTCCTCTATTGGCGATACGTCAGGTAATTTACACGTAGAGGAGGAAGAGGATATACTAAAGGCAAAGAGTTGGAGAAATATGTGAGCATTCATAGGAAGATTCCGATAGAAATAACCGAAGAGTTGAACAAGCCTGTATGTGACTTTGCTACAAAGTTCAGTAGCTAGATATGGACGATTGTGAGAGAGTTTTTTCCAGTACGTCTATCAAAGTGGAAAGAAGTGACAACCGAATTAAAGGACCATGTTAAGAACAAACTCTTGGTAAGTTTAGGGGCTACCAAATTTTCTATCAAAGTGTTTATGATGCTCAGTTGTACCTAAGTTGACTAATATCCTTTATTTTTTGTGCAAACACATTTCGAGCTAGATTATTCTCAGTTCGTTGTCCACCAGTTTATTGAACGTCAAATGAAGTCAATCATCAAGGAGTATAGGGCAGAATTGGTCGAACATTACAGAAAGTATTCTCCTAAGGAGACGCGTGCACACCCAAATGATCGTGTGGTTGATATAGTTGATTGACACTTGCTATGTAATAGGTGGGAGAGTGATGACTTTAAGAAAATTGCTGAAATAAATAAAAAGAACCGAGCAAAGCTACCTTGGAACCATTGCGCTGGGTCCAAGTCATTCCTACATATACAAGAAGCAAAAGTAGTGTTGTAGAAATGCTTATCTTTTGCCCTTTTTTTTTATTTAGTAAATAATACTAATATATATATATATTAAAAACTTTGATTCATAGAAAAAAAAATGGTAAACAAATAGGACTAATTGAGTTGTTTCAAGAAACCAGATACAAAGAAGGGAAAAGGTGGGTGAATCCGGAAGCCGTTGTTGCTCATAGTAAAATGATAGAATTGCAGGAGACATCCACATCAGAAAGGTCTCAACCACTTGCAGAAGAGGAGATTATTATGATTGTTTTAGGTCTGCGACTGGGCCATGTAAAAGGCATGAGGTGGGGACGGAAGCCAAAAAAAGGGAGATTGACTTCCTCGTCATCATGTGGAGAAATAAGACGTGAACATGAGTTGACAGTGGAATTAGAAAAACTACGTACGAAAAACGAACAACAGAAGGAAGAGATGAATATGACAAAGGAAGAGTTGACGCGTGCCCAAACTTTTATTCAGCGTACGAGAGAAGAGTTCGAGACCCGAACTACAACACAAGATGCGAAGTTGGCTAGCATGGAAGCAATGCTTATGAAATTTATGCATTCACAGGGAGAACCGCCGAAATAGATTGCCAGTTAAATTAATGAAGGAAAGCCTCTTTTGGAAAGCTAGTTTAACCAGTTGTGAATCATGCTTCAAGGAATCAAGCAGATAGGTTGACACTAACTTTTGGAAATTTTTGAACAAAAAAATGTAATCAAATTTGTGCTTAATTACTTATGTAAAGTGATG

Coding sequence (CDS)

ATGATAGAATTGCAGGAGACATCCACATCAGAAAGGTCTCAACCACTTGCAGAAGAGGAGATTATTATGATTGTTTTAGGTCTGCGACTGGGCCATGTAAAAGGCATGAGGTGGGGACGGAAGCCAAAAAAAGGGAGATTGACTTCCTCGTCATCATGTGGAGAAATAAGACGTGAACATGAGTTGACAGTGGAATTAGAAAAACTACGTACGAAAAACGAACAACAGAAGGAAGAGATGAATATGACAAAGGAAGAGTTGACGCGTGCCCAAACTTTTATTCAGCGTACGAGAGAAGAGTTCGAGACCCGAACTACAACACAAGATGCGAAGTTGGCTAGCATGGAAGCAATGCTTATGAAATTTATGCATTCACAGGGAGAACCGCCGAAATAG

Protein sequence

MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRLTSSSSCGEIRREHELTVELEKLRTKNEQQKEEMNMTKEELTRAQTFIQRTREEFETRTTTQDAKLASMEAMLMKFMHSQGEPPK
Homology
[Close]
BLAST of Tan0017800 vs. NCBI nr
Match: KAA0035069.1 (CACTA en-spm transposon protein [Cucumis melo var. makuwa] >TYK03610.1 CACTA en-spm transposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 60.1 bits (144), Expect = 1.7e-05
Identity = 30/52 (57.69%), Postives = 38/52 (73.08%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRLTSSSS 53
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  ++TS+SS
Sbjct: 277 MLELQSQPTLEGSQPLSEDEICDQVLGRRLGYSKGLNWGPKPKAHKMTSASS 328

[Close]
BLAST of Tan0017800 vs. NCBI nr
Match: KAA0048279.1 (CACTA en-spm transposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 60.1 bits (144), Expect = 1.7e-05
Identity = 44/106 (41.51%), Postives = 58/106 (54.72%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRLTSSSSCG------ 60
           M+E+Q   T E SQPL+E+EI   VLG RLG++KG+ WG KPK  R  S+SS        
Sbjct: 119 MLEIQSQPTPEGSQPLSEDEICDQVLGRRLGYLKGLGWGPKPKARRTASASSLSTSCSQS 178

Query: 61  ---EIRREHELTVELEKLRTKNE------QQKEEMNMTKEELTRAQ 92
              EI  + +L   LE++  ++        Q E M    EELTRAQ
Sbjct: 179 TEKEIELQAKLHEALERIEVQDRNHQALASQVESMKKMIEELTRAQ 224

[Close]
BLAST of Tan0017800 vs. NCBI nr
Match: KAA0032871.1 (CACTA en-spm transposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 59.7 bits (143), Expect = 2.2e-05
Identity = 48/106 (45.28%), Postives = 61/106 (57.55%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  R     +SS+SC + 
Sbjct: 254 MLELQSQPTPEGSQPLSEDEICDQVLGRRLGYSKGLGWGPKPKARRTASASSSSTSCSQS 313

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
             +E EL  +L       +++ KN Q    Q E M    EELTRAQ
Sbjct: 314 TEKEIELQTKLHEVLERIEVQDKNHQALASQVEIMKKMIEELTRAQ 359

[Close]
BLAST of Tan0017800 vs. NCBI nr
Match: KAA0043188.1 (CACTA en-spm transposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 59.7 bits (143), Expect = 2.2e-05
Identity = 47/106 (44.34%), Postives = 62/106 (58.49%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG R G+ KG+ WG KPK  R+    +SS+SC + 
Sbjct: 214 MLELQSQPTPEGSQPLSEDEICDQVLGRRPGYSKGLGWGPKPKARRMASASSSSTSCSQS 273

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
           I +E EL  +L       +++ +N Q    Q E M    EELTRAQ
Sbjct: 274 IEKEIELQAKLHEALEQIEVQDRNHQALASQVEAMRKMIEELTRAQ 319

[Close]
BLAST of Tan0017800 vs. NCBI nr
Match: TYK09403.1 (zinc finger protein ZPR1-like protein [Cucumis melo var. makuwa])

HSP 1 Score: 59.7 bits (143), Expect = 2.2e-05
Identity = 48/106 (45.28%), Postives = 61/106 (57.55%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  R     +SS+SC + 
Sbjct: 1   MLELQSQPTPEGSQPLSEDEICDQVLGRRLGYSKGLGWGPKPKARRTASASSSSTSCSQS 60

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
             +E EL  +L       +++ KN Q    Q E M    EELTRAQ
Sbjct: 61  TEKEIELQTKLHEVLERIEVQDKNHQALASQVEIMKKMIEELTRAQ 106

[Close]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match: A0A5D3BWX1 (CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1369G00310 PE=4 SV=1)

HSP 1 Score: 60.1 bits (144), Expect = 8.1e-06
Identity = 30/52 (57.69%), Postives = 38/52 (73.08%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRLTSSSS 53
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  ++TS+SS
Sbjct: 277 MLELQSQPTLEGSQPLSEDEICDQVLGRRLGYSKGLNWGPKPKAHKMTSASS 328

[Close]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match: A0A5A7U4B0 (CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold63G002050 PE=4 SV=1)

HSP 1 Score: 60.1 bits (144), Expect = 8.1e-06
Identity = 44/106 (41.51%), Postives = 58/106 (54.72%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRLTSSSSCG------ 60
           M+E+Q   T E SQPL+E+EI   VLG RLG++KG+ WG KPK  R  S+SS        
Sbjct: 119 MLEIQSQPTPEGSQPLSEDEICDQVLGRRLGYLKGLGWGPKPKARRTASASSLSTSCSQS 178

Query: 61  ---EIRREHELTVELEKLRTKNE------QQKEEMNMTKEELTRAQ 92
              EI  + +L   LE++  ++        Q E M    EELTRAQ
Sbjct: 179 TEKEIELQAKLHEALERIEVQDRNHQALASQVESMKKMIEELTRAQ 224

[Close]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match: A0A5D3CC25 (Zinc finger protein ZPR1-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold504G00340 PE=4 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 1.1e-05
Identity = 48/106 (45.28%), Postives = 61/106 (57.55%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  R     +SS+SC + 
Sbjct: 1   MLELQSQPTPEGSQPLSEDEICDQVLGRRLGYSKGLGWGPKPKARRTASASSSSTSCSQS 60

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
             +E EL  +L       +++ KN Q    Q E M    EELTRAQ
Sbjct: 61  TEKEIELQTKLHEVLERIEVQDKNHQALASQVEIMKKMIEELTRAQ 106

[Close]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match: A0A5A7STL8 (CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold81G00360 PE=4 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 1.1e-05
Identity = 48/106 (45.28%), Postives = 61/106 (57.55%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG RLG+ KG+ WG KPK  R     +SS+SC + 
Sbjct: 254 MLELQSQPTPEGSQPLSEDEICDQVLGRRLGYSKGLGWGPKPKARRTASASSSSTSCSQS 313

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
             +E EL  +L       +++ KN Q    Q E M    EELTRAQ
Sbjct: 314 TEKEIELQTKLHEVLERIEVQDKNHQALASQVEIMKKMIEELTRAQ 359

[Close]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match: A0A5A7TK56 (CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold110G00570 PE=4 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 1.1e-05
Identity = 47/106 (44.34%), Postives = 62/106 (58.49%), Query Frame = 0 

Query: 1   MIELQETSTSERSQPLAEEEIIMIVLGLRLGHVKGMRWGRKPKKGRL----TSSSSCGE- 60
           M+ELQ   T E SQPL+E+EI   VLG R G+ KG+ WG KPK  R+    +SS+SC + 
Sbjct: 214 MLELQSQPTPEGSQPLSEDEICDQVLGRRPGYSKGLGWGPKPKARRMASASSSSTSCSQS 273

Query: 61  IRREHELTVELE------KLRTKNEQ----QKEEMNMTKEELTRAQ 92
           I +E EL  +L       +++ +N Q    Q E M    EELTRAQ
Sbjct: 274 IEKEIELQAKLHEALEQIEVQDRNHQALASQVEAMRKMIEELTRAQ 319

The following BLAST results are available for this feature:
BLAST of Tan0017800 vs.
Match NameE-valueIdentityDescription
BLAST of Tan0017800 vs. NCBI nr
Match NameE-valueIdentityDescription
KAA0035069.11.7e-0557.69CACTA en-spm transposon protein [Cucumis melo var. makuwa] >TYK03610.1 CACTA en-... [more]
KAA0048279.11.7e-0541.51CACTA en-spm transposon protein [Cucumis melo var. makuwa][more]
KAA0032871.12.2e-0545.28CACTA en-spm transposon protein [Cucumis melo var. makuwa][more]
KAA0043188.12.2e-0544.34CACTA en-spm transposon protein [Cucumis melo var. makuwa][more]
TYK09403.12.2e-0545.28zinc finger protein ZPR1-like protein [Cucumis melo var. makuwa][more]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5D3BWX18.1e-0657.69CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_... [more]
A0A5A7U4B08.1e-0641.51CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_... [more]
A0A5D3CC251.1e-0545.28Zinc finger protein ZPR1-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=... [more]
A0A5A7STL81.1e-0545.28CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_... [more]
A0A5A7TK561.1e-0544.34CACTA en-spm transposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_... [more]
BLAST of Tan0017800 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 59..90

Relationships

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

Feature NameUnique NameType
Tan0017800.1Tan0017800.1mRNA
Tan0017800.2Tan0017800.2mRNA
Tan0017800.3Tan0017800.3mRNA