ClCG09G015910 (gene) Watermelon (Charleston Gray) v2.5

Overview
NameClCG09G015910
Typegene
OrganismCitrullus lanatus subsp. vulgaris cv. Charleston Gray (Watermelon (Charleston Gray) v2.5)
DescriptionRetrotransposon protein
LocationCG_Chr09: 30989370 .. 30995835 (+)
RNA-Seq ExpressionClCG09G015910
SyntenyClCG09G015910
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTGTTTCATGATGAATATGGTGGAAGCTGAGCTGGACTTGCCTTTAATCAATGATGTTGTAAAGGAGGGTGGACCTAGAGTTCCAAATCTAAGGAGGATTAGGCAATGTAAATTCGAGTTGGCCGATGAAGAATTCACAAATGTAAAGTTTAGAGTGGCAGTCCAGGGAAAATCAAACAAGATGACACAGCGACAACTCTTAGAAAGTGTCGAGGAGTCTGAGCGAACGTTGACGGAAGTAAGGGAAGATCTTCAGATGTTGCCTGAGATGGATAAGGCGGTGAAAGAGATTATGGACAACATGAATAGACTGTTGCAACAAATGGAGGAGCAGAAGAAAGAATCAGTTAATAATCCAAAGAATGTGAGCCTCATGTTTCGTAACTTCGTAGAACAAAAGGAAATGTTAGAGGAGACATGGAGAGCAATATCTCCACTATCTAAAGGAATTTCTCGATTCTCATCCTCTGAGGAGAGAACCGACCATCCAAACACCCCGAAGAGGAAGGTGAGATGTCGATTGAAGGTGAGAACAGTAGTGGCAGAACACAGAGGACAAAAACTAAAGATGGTTATGCTAATCATACTTTCTGATGAGGAGAAACTTATAGTGACTTCTACTACCTTTACGAGAGCTGCCCTGCAATGGTATTATTGGACCGGAGGCAGACAACCCTTTGAGTGTTGGCGAGACTTGAAGGAGCAGTTCGAGGCTTTGTCGGCCCCCCTACCTCGTCTGGCAGAGGAGATCCATCACTTTGGCAAGTGCACCCCTACTGCTGAAAAGGAATCCCCTATGAAACATCTTTTGGATGCAAAGCTTGAGGCAAGGAAGGCGAAAGGCCTCTGCTTTCGTTGTGCAAGAATTTTACGCGTGACATGTGGCAAACAAGTGGAAAAAGGAGGGGAGAAGTTGGATGGCAAGATCCCTATAAATAGAACCTTGAAGGAAAAGGAGAGACTGATGACTCTAAAAGAAGAATTTTGGAGAGAAAGGGAAGAAAAAAGGCAGAAAGGAGGAATCCTTGCGTCCGTAGGAGTCTGCGACCAAGAGAGAAGGGTTGTGTCCGATCGAGCTGACAGAGAAATATGGAGCCTTGCGTTTTTGAGATTAGAATGCTGCGTCCAAGAAGCTCGGGAAGAGGAAATAGAGGAAAGGAAGAGGAATTATTATTTGGCAAGTACAGGCACCCAAGGCTCAGGGACTTGGAGAAGGCCAAAGGGTAGCCGGTATATAGAAATGAGACCCCAATGCTCAGGGACTCGTAGAAGGCATTGTGGGCGGCTCGAACTCTAG

Coding sequence (CDS)

ATGTGTTTCATGATGAATATGGTGGAAGCTGAGCTGGACTTGCCTTTAATCAATGATGTTGTAAAGGAGGGTGGACCTAGAGTTCCAAATCTAAGGAGGATTAGGCAATGTAAATTCGAGTTGGCCGATGAAGAATTCACAAATGTAAAGTTTAGAGTGGCAGTCCAGGGAAAATCAAACAAGATGACACAGCGACAACTCTTAGAAAGTGTCGAGGAGTCTGAGCGAACGTTGACGGAAGTAAGGGAAGATCTTCAGATGTTGCCTGAGATGGATAAGGCGGTGAAAGAGATTATGGACAACATGAATAGACTGTTGCAACAAATGGAGGAGCAGAAGAAAGAATCAGTTAATAATCCAAAGAATGTGAGCCTCATGTTTCGTAACTTCGTAGAACAAAAGGAAATGTTAGAGGAGACATGGAGAGCAATATCTCCACTATCTAAAGGAATTTCTCGATTCTCATCCTCTGAGGAGAGAACCGACCATCCAAACACCCCGAAGAGGAAGGTGAGATGTCGATTGAAGGTGAGAACAGTAGTGGCAGAACACAGAGGACAAAAACTAAAGATGGTTATGCTAATCATACTTTCTGATGAGGAGAAACTTATAGTGACTTCTACTACCTTTACGAGAGCTGCCCTGCAATGGTATTATTGGACCGGAGGCAGACAACCCTTTGAGTGTTGGCGAGACTTGAAGGAGCAGTTCGAGGCTTTGTCGGCCCCCCTACCTCGTCTGGCAGAGGAGATCCATCACTTTGGCAAGTGCACCCCTACTGCTGAAAAGGAATCCCCTATGAAACATCTTTTGGATGCAAAGCTTGAGGCAAGGAAGGCGAAAGGCCTCTGCTTTCGTTGTGCAAGAATTTTACGCGTGACATGTGGCAAACAAGTGGAAAAAGGAGGGGAGAAGTTGGATGGCAAGATCCCTATAAATAGAACCTTGAAGGAAAAGGAGAGACTGATGACTCTAAAAGAAGAATTTTGGAGAGAAAGGGAAGAAAAAAGGCAGAAAGGAGGAATCCTTGCGTCCGTAGGAGTCTGCGACCAAGAGAGAAGGGTTGTGTCCGATCGAGCTGACAGAGAAATATGGAGCCTTGCGTTTTTGAGATTAGAATGCTGCGTCCAAGAAGCTCGGGAAGAGGAAATAGAGGAAAGGAAGAGGAATTATTATTTGGCAAGTACAGGCACCCAAGGCTCAGGGACTTGGAGAAGGCCAAAGGGTAGCCGGTATATAGAAATGAGACCCCAATGCTCAGGGACTCGTAGAAGGCATTGTGGGCGGCTCGAACTCTAG

Protein sequence

MCFMMNMVEAELDLPLINDVVKEGGPRVPNLRRIRQCKFELADEEFTNVKFRVAVQGKSNKMTQRQLLESVEESERTLTEVREDLQMLPEMDKAVKEIMDNMNRLLQQMEEQKKESVNNPKNVSLMFRNFVEQKEMLEETWRAISPLSKGISRFSSSEERTDHPNTPKRKVRCRLKVRTVVAEHRGQKLKMVMLIILSDEEKLIVTSTTFTRAALQWYYWTGGRQPFECWRDLKEQFEALSAPLPRLAEEIHHFGKCTPTAEKESPMKHLLDAKLEARKAKGLCFRCARILRVTCGKQVEKGGEKLDGKIPINRTLKEKERLMTLKEEFWREREEKRQKGGILASVGVCDQERRVVSDRADREIWSLAFLRLECCVQEAREEEIEERKRNYYLASTGTQGSGTWRRPKGSRYIEMRPQCSGTRRRHCGRLEL
Homology
[Close]
BLAST of ClCG09G015910 vs. NCBI nr
Match: RVW46246.1 (hypothetical protein CK203_086679 [Vitis vinifera])

HSP 1 Score: 63.5 bits (153), Expect = 5.0e-06
Identity = 33/98 (33.67%), Postives = 55/98 (56.12%), Query Frame = 0 

Query: 197 LSDEEKLIVTSTTFTRAALQWYYWTGGRQPFECWRD-----LKEQFEALSAPLPRLAEE- 256
           L + EKL+ T+ +    AL WY WTG R+ F   +       + +FE +  PL  +++E 
Sbjct: 25  LMEYEKLVTTAMSLDGDALSWYQWTGSRETFRMRQQGTVAAHRREFEIIVTPLKGISDET 84

Query: 257 -IHHFGKCTPTAEKESPMKHLLDAKLEARKAKGLCFRC 288
            +    + T    +E P+K L++++L+ARK K LCF+C
Sbjct: 85  RVMVVSEKTMNQRQEIPIKRLMESELQARKEKRLCFKC 122

[Close]
BLAST of ClCG09G015910 vs. NCBI nr
Match: WP_217833383.1 (hypothetical protein, partial [Synechococcus sp. PCC 7002])

HSP 1 Score: 62.4 bits (150), Expect = 1.1e-05
Identity = 32/41 (78.05%), Postives = 36/41 (87.80%), Query Frame = 0 

Query: 297 KQVEKGGEKLDGKIPINRTLKEKERLMTLKEEFWREREEKR 338
           KQV K GEKLD K+PINRTL+EKERLMTLKEEFWRE+  K+
Sbjct: 1   KQVAK-GEKLDAKLPINRTLREKERLMTLKEEFWREKGRKK 40

[Close]
BLAST of ClCG09G015910 vs. NCBI nr
Match: KAA0033896.1 (retrotransposon protein [Cucumis melo var. makuwa])

HSP 1 Score: 58.2 bits (139), Expect = 2.1e-04
Identity = 41/119 (34.45%), Postives = 55/119 (46.22%), Query Frame = 0 

Query: 197 LSDEEKLIVTSTTFTRAALQWYYWTGGRQPFECWRDLK----EQFEAL-SAPLPRLAEEI 256
           L+DEEK+ V   +F   AL W+ W+  R+    W DLK    E F+A   APLP ++E +
Sbjct: 101 LADEEKVKVAVVSFGSDALNWFRWSNNRKKMMSWEDLKRRMFEHFKAPDEAPLPEMSESV 160

Query: 257 -------------------HH---FGKCTPTAE-KESPMKHLLDAKLEARKAKGLCFRC 288
                              HH      C   A+  ES +K L D++  AR  KGLCF C
Sbjct: 161 LIDAFITGLETNLQAEVISHHPVTLEDCMREAQMAESQVKCLSDSEFRARLDKGLCFHC 219

[Close]
BLAST of ClCG09G015910 vs. ExPASy TrEMBL
Match: A0A438EEK2 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_086679 PE=4 SV=1)

HSP 1 Score: 63.5 bits (153), Expect = 2.4e-06
Identity = 33/98 (33.67%), Postives = 55/98 (56.12%), Query Frame = 0 

Query: 197 LSDEEKLIVTSTTFTRAALQWYYWTGGRQPFECWRD-----LKEQFEALSAPLPRLAEE- 256
           L + EKL+ T+ +    AL WY WTG R+ F   +       + +FE +  PL  +++E 
Sbjct: 25  LMEYEKLVTTAMSLDGDALSWYQWTGSRETFRMRQQGTVAAHRREFEIIVTPLKGISDET 84

Query: 257 -IHHFGKCTPTAEKESPMKHLLDAKLEARKAKGLCFRC 288
            +    + T    +E P+K L++++L+ARK K LCF+C
Sbjct: 85  RVMVVSEKTMNQRQEIPIKRLMESELQARKEKRLCFKC 122

The following BLAST results are available for this feature:
BLAST of ClCG09G015910 vs. NCBI nr
Match NameE-valueIdentityDescription
RVW46246.15.0e-0633.67hypothetical protein CK203_086679 [Vitis vinifera][more]
WP_217833383.11.1e-0578.05hypothetical protein, partial [Synechococcus sp. PCC 7002][more]
KAA0033896.12.1e-0434.45retrotransposon protein [Cucumis melo var. makuwa][more]
BLAST of ClCG09G015910 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of ClCG09G015910 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A438EEK22.4e-0633.67Uncharacterized protein OS=Vitis vinifera OX=29760 GN=CK203_086679 PE=4 SV=1[more]
BLAST of ClCG09G015910 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Watermelon (Charleston Gray) v2.5
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 92..119
NoneNo IPR availableCOILSCoilCoilcoord: 64..84

Relationships

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

Feature NameUnique NameType
ClCG09G015910.2ClCG09G015910.2mRNA