CmUC11G211570 (gene) Watermelon (USVL531) v1

Overview
NameCmUC11G211570
Typegene
OrganismCitrullus mucosospermus (Watermelon (USVL531) v1)
DescriptionATP synthase protein MI25
LocationCmU531Chr11: 7827682 .. 7835139 (-)
RNA-Seq ExpressionCmUC11G211570
SyntenyCmUC11G211570
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCACGCTAGAAAGATGCTATTTGCTGCTATTCTATCTATTTGTGCATTAAGTTCGAAGAAGATCTCAATCTATAATGAAGAAATGAGGCCACCACTTGGGGTGGGGAATGGCTCAGCCCACATGCATCATTTGATGAAAGCACTCCAGTCCAGTCGCCTCCTCGAAGTGGCTTGTCAACCACGCTTTCCCTCCCTCAAAACAATGCTCCTCACCAAAAGCCCTTCCTTGGATTGGGGCAACACAGACCTTTCTCGATGCTTTTTTTGGGGTGACTCACCAACCGACCTAGCAGTGATCGATGACAGAATGCTTAGAATTTCCGAGCAATTGGAAGCCGCTTTCGATGAAGAGGCCGAGAAATTGATATTACGCAATCGTGACTGTCCGCAGAAGCCGGATCAACATCATGACAACGGCATTCTGGAAACTGTTGGGCCAGCCACAATTGGTGTAATGTCTGGGGAAGAAGACCTAGCCCAGCTTTATTTCCGAGCCATCAATAACTGCCAGATTATCAACCCCATGAATCGAACTCTTGCCGATGCTGTAGCTCTTGTCGCAGCTCTTATTCTTACTGAGAAAGGCGAAGCTGTAGGCGATGCGGGAATAGCTTATAACGTTCCTGTTGGTTTTGAACTCAAATTTCCAGATGGAGGGGATAGGGTTTCAGAAAAAGGAACCGAGGTTATGAGAGGAACCTGGCTCGGGAACAGTTTCTTAATAGTAGGGGCTAATCCTTACTTAATAGTAGGGGAAGAGAGTCCAATCTCTGAAATAGAGCTTAGTCTTTATGTGCAAGTCCCATCAAGTTGCCTTATAAAAGAGGGTCGATCCAAAAAGGGCGAAATGAGTCAAACTGATGGTAAGGGAATTGGCCTTATGACTGACTGCAGCAATTGGAAAGAAAACGACTCTTCCTGTTTCAGGGATGGGATCTTATGGCTTAATCTCTGATTGCGCAGGATTCATCTTTGTTTGGTAACGGGTCCCATTGGCGTGCATCCAGTAGGAATTGAACCTACGAATTCGCCAATTATGAGTTGGGCGCTTTAACCATTCAGCCATGGATGCTTAGCGGGGGGGTCGACGACGGAACGAAGAACTCACTTTCTTACAGCTTTTTCGTACACGTTCACTTGCATCACATACATAAGTGCTCTCTGA

Coding sequence (CDS)

ATGCACGCTAGAAAGATGCTATTTGCTGCTATTCTATCTATTTGTGCATTAAGTTCGAAGAAGATCTCAATCTATAATGAAGAAATGAGGCCACCACTTGGGGTGGGGAATGGCTCAGCCCACATGCATCATTTGATGAAAGCACTCCAGTCCAGTCGCCTCCTCGAAGTGGCTTGTCAACCACGCTTTCCCTCCCTCAAAACAATGCTCCTCACCAAAAGCCCTTCCTTGGATTGGGGCAACACAGACCTTTCTCGATGCTTTTTTTGGGGTGACTCACCAACCGACCTAGCAGTGATCGATGACAGAATGCTTAGAATTTCCGAGCAATTGGAAGCCGCTTTCGATGAAGAGGCCGAGAAATTGATATTACGCAATCGTGACTGTCCGCAGAAGCCGGATCAACATCATGACAACGGCATTCTGGAAACTGTTGGGCCAGCCACAATTGGTGTAATGTCTGGGGAAGAAGACCTAGCCCAGCTTTATTTCCGAGCCATCAATAACTGCCAGATTATCAACCCCATGAATCGAACTCTTGCCGATGCTGTAGCTCTTGTCGCAGCTCTTATTCTTACTGAGAAAGGCGAAGCTGTAGGCGATGCGGGAATAGCTTATAACGTTCCTGTTGGTTTTGAACTCAAATTTCCAGATGGAGGGGATAGGGTTTCAGAAAAAGGAACCGAGGTTATGAGAGGAACCTGGCTCGGGAACAGTTTCTTAATAGTAGGGGCTAATCCTTACTTAATAGTAGGGGAAGAGAGTCCAATCTCTGAAATAGAGCTTAGTCTTTATGTGCAAGTCCCATCAAGTTGCCTTATAAAAGAGGGTCGATCCAAAAAGGGCGAAATGAGTCAAACTGATGGTAAGGGAATTGGCCTTATGACTGACTGCAGCAATTGGAAAGAAAACGACTCTTCCTGTTTCAGGGATGGGATCTTATGGCTTAATCTCTGA

Protein sequence

MHARKMLFAAILSICALSSKKISIYNEEMRPPLGVGNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLSRCFFWGDSPTDLAVIDDRMLRISEQLEAAFDEEAEKLILRNRDCPQKPDQHHDNGILETVGPATIGVMSGEEDLAQLYFRAINNCQIINPMNRTLADAVALVAALILTEKGEAVGDAGIAYNVPVGFELKFPDGGDRVSEKGTEVMRGTWLGNSFLIVGANPYLIVGEESPISEIELSLYVQVPSSCLIKEGRSKKGEMSQTDGKGIGLMTDCSNWKENDSSCFRDGILWLNL
Homology
[Close]
BLAST of CmUC11G211570 vs. NCBI nr
Match: KAB8477452.1 (hypothetical protein FH972_025318 [Carpinus fangiana])

HSP 1 Score: 95.9 bits (237), Expect = 6.7e-16
Identity = 45/50 (90.00%), Postives = 47/50 (94.00%), Query Frame = 0 

Query: 36  GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
           GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKT+LLTK PSL WGNT +S
Sbjct: 302 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTILLTKCPSLGWGNTAMS 351

[Close]
BLAST of CmUC11G211570 vs. NCBI nr
Match: KAF3949550.1 (hypothetical protein CMV_024588 [Castanea mollissima])

HSP 1 Score: 95.1 bits (235), Expect = 1.1e-15
Identity = 45/50 (90.00%), Postives = 47/50 (94.00%), Query Frame = 0 

Query: 36  GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
           GN SAHMHHLMKALQSSRLLEVACQPRFPSLKT+LLTK PSLDWGNT +S
Sbjct: 200 GNVSAHMHHLMKALQSSRLLEVACQPRFPSLKTILLTKCPSLDWGNTAMS 249

[Close]
BLAST of CmUC11G211570 vs. NCBI nr
Match: EEF22868.1 (conserved hypothetical protein, partial [Ricinus communis])

HSP 1 Score: 92.8 bits (229), Expect = 5.7e-15
Identity = 44/50 (88.00%), Postives = 45/50 (90.00%), Query Frame = 0 

Query: 36 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
          GNGSAHMHHLMKALQSSRLLEVACQPRFPSLK MLLTK PS  WGNT +S
Sbjct: 11 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKIMLLTKCPSWGWGNTAMS 60

[Close]
BLAST of CmUC11G211570 vs. NCBI nr
Match: GFS28497.1 (hypothetical protein Acr_00g0002140 [Actinidia rufa] >GFS28867.1 hypothetical protein Acr_00g0004360 [Actinidia rufa] >GFS40454.1 hypothetical protein Acr_00g0068660 [Actinidia rufa])

HSP 1 Score: 92.4 bits (228), Expect = 7.4e-15
Identity = 44/53 (83.02%), Postives = 45/53 (84.91%), Query Frame = 0 

Query: 36 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLSRCF 89
          GNGSAHMHHLMKALQ SRLLEV CQ RFPSLKTMLLTK PSL WGNT +S  F
Sbjct: 26 GNGSAHMHHLMKALQPSRLLEVVCQSRFPSLKTMLLTKCPSLGWGNTAMSSSF 78

[Close]
BLAST of CmUC11G211570 vs. NCBI nr
Match: EEF22255.1 (conserved hypothetical protein [Ricinus communis])

HSP 1 Score: 79.7 bits (195), Expect = 5.0e-11
Identity = 38/44 (86.36%), Postives = 39/44 (88.64%), Query Frame = 0 

Query: 42 MHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
          MHHLMKALQSSRLLEVACQPRFPSLK MLLTK PS  WGNT +S
Sbjct: 1  MHHLMKALQSSRLLEVACQPRFPSLKIMLLTKCPSWGWGNTAMS 44

[Close]
BLAST of CmUC11G211570 vs. ExPASy Swiss-Prot
Match: P09003 (ATP synthase protein MI25 OS=Nicotiana tabacum OX=4097 PE=2 SV=1)

HSP 1 Score: 52.8 bits (125), Expect = 8.5e-06
Identity = 27/29 (93.10%), Postives = 27/29 (93.10%), Query Frame = 0 

Query: 1  MHARKMLFAAILSICALSSKKISIYNEEM 30
          M ARKMLFAAILSICA SSKKISIYNEEM
Sbjct: 8  MQARKMLFAAILSICASSSKKISIYNEEM 36

[Close]
BLAST of CmUC11G211570 vs. ExPASy Swiss-Prot
Match: Q04613 (ATP synthase protein MI25 OS=Arabidopsis thaliana OX=3702 GN=AtMg00640 PE=1 SV=2)

HSP 1 Score: 50.8 bits (120), Expect = 3.2e-05
Identity = 26/29 (89.66%), Postives = 26/29 (89.66%), Query Frame = 0 

Query: 1  MHARKMLFAAILSICALSSKKISIYNEEM 30
          M  RKMLFAAILSICALSSKKI IYNEEM
Sbjct: 8  MDGRKMLFAAILSICALSSKKILIYNEEM 36

[Close]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match: A0A5N6L392 (Uncharacterized protein OS=Carpinus fangiana OX=176857 GN=FH972_025318 PE=3 SV=1)

HSP 1 Score: 95.9 bits (237), Expect = 3.2e-16
Identity = 45/50 (90.00%), Postives = 47/50 (94.00%), Query Frame = 0 

Query: 36  GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
           GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKT+LLTK PSL WGNT +S
Sbjct: 302 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTILLTKCPSLGWGNTAMS 351

[Close]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match: B9TMP5 (Uncharacterized protein (Fragment) OS=Ricinus communis OX=3988 GN=RCOM_2090060 PE=4 SV=1)

HSP 1 Score: 92.8 bits (229), Expect = 2.7e-15
Identity = 44/50 (88.00%), Postives = 45/50 (90.00%), Query Frame = 0 

Query: 36 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
          GNGSAHMHHLMKALQSSRLLEVACQPRFPSLK MLLTK PS  WGNT +S
Sbjct: 11 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKIMLLTKCPSWGWGNTAMS 60

[Close]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match: A0A7J0D6T1 (Uncharacterized protein OS=Actinidia rufa OX=165716 GN=Acr_00g0002140 PE=4 SV=1)

HSP 1 Score: 92.4 bits (228), Expect = 3.6e-15
Identity = 44/53 (83.02%), Postives = 45/53 (84.91%), Query Frame = 0 

Query: 36 GNGSAHMHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLSRCF 89
          GNGSAHMHHLMKALQ SRLLEV CQ RFPSLKTMLLTK PSL WGNT +S  F
Sbjct: 26 GNGSAHMHHLMKALQPSRLLEVVCQSRFPSLKTMLLTKCPSLGWGNTAMSSSF 78

[Close]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match: B9TPF8 (Uncharacterized protein OS=Ricinus communis OX=3988 GN=RCOM_1969510 PE=4 SV=1)

HSP 1 Score: 79.7 bits (195), Expect = 2.4e-11
Identity = 38/44 (86.36%), Postives = 39/44 (88.64%), Query Frame = 0 

Query: 42 MHHLMKALQSSRLLEVACQPRFPSLKTMLLTKSPSLDWGNTDLS 86
          MHHLMKALQSSRLLEVACQPRFPSLK MLLTK PS  WGNT +S
Sbjct: 1  MHHLMKALQSSRLLEVACQPRFPSLKIMLLTKCPSWGWGNTAMS 44

[Close]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match: A0A6J5THI9 (ATP synthase protein MI25 OS=Prunus armeniaca OX=36596 GN=CURHAP_LOCUS32341 PE=3 SV=1)

HSP 1 Score: 55.5 bits (132), Expect = 4.8e-04
Identity = 28/29 (96.55%), Postives = 28/29 (96.55%), Query Frame = 0 

Query: 1  MHARKMLFAAILSICALSSKKISIYNEEM 30
          MHARKMLFAAI SICALSSKKISIYNEEM
Sbjct: 8  MHARKMLFAAIPSICALSSKKISIYNEEM 36

[Close]
BLAST of CmUC11G211570 vs. TAIR 10
Match: ATMG00640.1 (hydrogen ion transporting ATP synthases, rotational mechanism;zinc ion binding )

HSP 1 Score: 53.1 bits (126), Expect = 4.6e-07
Identity = 27/29 (93.10%), Postives = 27/29 (93.10%), Query Frame = 0 

Query: 1  MHARKMLFAAILSICALSSKKISIYNEEM 30
          M  RKMLFAAILSICALSSKKISIYNEEM
Sbjct: 8  MDGRKMLFAAILSICALSSKKISIYNEEM 36

The following BLAST results are available for this feature:
BLAST of CmUC11G211570 vs. NCBI nr
Match NameE-valueIdentityDescription
KAB8477452.16.7e-1690.00hypothetical protein FH972_025318 [Carpinus fangiana][more]
KAF3949550.11.1e-1590.00hypothetical protein CMV_024588 [Castanea mollissima][more]
EEF22868.15.7e-1588.00conserved hypothetical protein, partial [Ricinus communis][more]
GFS28497.17.4e-1583.02hypothetical protein Acr_00g0002140 [Actinidia rufa] >GFS28867.1 hypothetical pr... [more]
EEF22255.15.0e-1186.36conserved hypothetical protein [Ricinus communis][more]
BLAST of CmUC11G211570 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P090038.5e-0693.10ATP synthase protein MI25 OS=Nicotiana tabacum OX=4097 PE=2 SV=1[more]
Q046133.2e-0589.66ATP synthase protein MI25 OS=Arabidopsis thaliana OX=3702 GN=AtMg00640 PE=1 SV=2[more]
BLAST of CmUC11G211570 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5N6L3923.2e-1690.00Uncharacterized protein OS=Carpinus fangiana OX=176857 GN=FH972_025318 PE=3 SV=1[more]
B9TMP52.7e-1588.00Uncharacterized protein (Fragment) OS=Ricinus communis OX=3988 GN=RCOM_2090060 P... [more]
A0A7J0D6T13.6e-1583.02Uncharacterized protein OS=Actinidia rufa OX=165716 GN=Acr_00g0002140 PE=4 SV=1[more]
B9TPF82.4e-1186.36Uncharacterized protein OS=Ricinus communis OX=3988 GN=RCOM_1969510 PE=4 SV=1[more]
A0A6J5THI94.8e-0496.55ATP synthase protein MI25 OS=Prunus armeniaca OX=36596 GN=CURHAP_LOCUS32341 PE=3... [more]
BLAST of CmUC11G211570 vs. TAIR 10
Match NameE-valueIdentityDescription
ATMG00640.14.6e-0793.10hydrogen ion transporting ATP synthases, rotational mechanism;zinc ion binding [more]
Relationships

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

Feature NameUnique NameType
CmUC11G211570.1CmUC11G211570.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005886 plasma membrane