Bhi07G000753 (gene) Wax gourd (B227) v1

Overview
NameBhi07G000753
Typegene
OrganismBenincasa hispida (Wax gourd (B227) v1)
DescriptionATP synthase subunit d, mitochondrial
Locationchr7: 29880104 .. 29885690 (-)
RNA-Seq ExpressionBhi07G000753
SyntenyBhi07G000753
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GTCATCTACAAGACAAAAACAGTGGAACAATCGACGCCGATATCTGTGTCTTGAGCTCTCAACGAATTACCCTCTCACACTTCTCATTGATCTTCCTCTTCTTCCTCTGCCAAATCGAGAGATAAACAAGAAGAAAAATGAGCGGCACCATCAAGAAAGTGACCAATGTTGCCTTCAAAGCATCCAAGAACATCGATTGGGATGGCATGGCCAAGCTTTTGGTCTCCGATGAGGCTCGCAAGGAGTTCTCATCCCTTCGCCGAGCCTTCGAGGAGGTTAACTCAACCCTTCAAACTAAATTTAGCCAGGAACCAGAGCCCATAGACTGGGAATATTACAGAAAGGGAATTGGATCCCGCTTGGTGGACATGTACAAAGAGGCTTATGACAGCATTGAGATCCCCAAATTCGTAGACACAGTGACTCCACAGTACAAACCTAAATTTGATGCACTGCTGGTAGAATTGAAGGAAGCTGAACAGAAATCCCTAAAGGAGTCTGAGCGGTTGGAGAAGGAGATTGTTGAAGTTCAAGAAATGAAGAAAAAGATCAGCACCATGACTGCTGATGAGTACTTTGTGAAGCATCCTGAGCTGAGGAAGAAATTCGACGATGAAATCCGAAACGACTACTGGGGCTATTGACTGGAAATTAAGGTTGAAGCACCACCAAAGTTTCAGAATTTAATTTCATAACCCTTCAGGGACTTGTTTTGCTGCAGATGTTTGGTCAGTAATAAAACAAACCAGATAGTTCCTCTGCAATTTGGTTGGATTTGCTTTCAGAATCATGGTGACGAAATTGATTAGAGAAACTGAGTTTTTCCTTGAAATGATATTGTGAGAGTTCCAAATAACTCTAAGGTACATTGTCATGGAAAATGCATTTTTTTTAATGAGATTATATTAGCTTTCTTATCATTCAAAGATGGATAAGGAGGTGTTGCAAAGCTAAATTCATGGAGTTCAACTGTTTGGTGGTTACAATTTCATGATTAAGCTAAAGTGAAGTGAAACTAGGAAAACATAGAATTGATCCAAATATACAAAGAGTTGATTTCAAACTGCGGCAATGCTTATGGGGTATTTCAAACGTTATATTACTGAAACGCAATGGACAAACTTTGTAATATCTATATTATCAACTTCAGATTACATTATAAGCAATCAACAGCAAAAATTCGATCCCAGCGATATGTACATTAATAGAACATGTATGTATCTATCTATGTAAAACTTGAAACACTTGGAAGACAAGGGGGCTGGCATAAATGTACAAAAATGTGCACATTAATAGACCATGTATGTATCTATCTATGTAAAACTTGAAACACTTGGAAAACAAAGGGGTGGCTGGCATAAATGTACAAAAATGTGCAACTTGATATTTGTTCGGGCAAAATACATTCAGCATGTATTTATATATATATAGAGAGAGAGAGATATTTAGATCTAAATTGCCAGAAGGGAAGCTCAAATGTCTACCCAGAAAAAATTGAAAAGCTAAGAAAAGTTCGATTGAAACTTGAAAGTAACATCAAGTCTTGAAGAAAATGGCAGTGATGTCGACAGATGAAAATCCATCCAACTGATTTCTGTGAAAATATAGTGAGGAAAAAGAAAACCCAGAACAACCAGAGGGAGTGTGCGGGTTTTACGTGGACAAAATGCTTCGAAACCACGACCTTTATGACGGGATCCAAAAAGAGGAGGGGAGTGAGGAGTTTAACCAGAACCAGCTGCGGCTTTCTTTTGAGACAATTGGTCAGCTGCTGCTACCTCTTCATTTTTGTCCATTGCTTTCCTTGCTAGTTCATAGCCTGCAAAGTTCATGGCACCCAAAGGCGCAATCCAGAAGAACCTAGGAACTGCTCCTTTGAACAAGCCGATGGGGCCTTCGTGGCGAAGAATTGAAACGAAAACGAATGACATTGATACTGATCGACCTTGAGCTGTCATCATTCTTGTCTTCATCACATCGAAAGGTGTTGTAACAACAGCAGCTAGCCCGCCTGACAATGCCCCAACTGCAATTGTTTCCCATGGCTCAAGTTCTCGTGAAAGAAGTTTCTCAGCAGCCTTTTGAACAAACAGTAAAGAACGTGTCAATGACTCACCATTGCAAATACACAGTCGCCTCAATAACTAGTGGTAGATCTAAATGAATGGATAAAATAGCTGTCAGAGTACAACAATTGAGACATTTTGTTTGAAAATTGTGTACATTTTCATTTTTCTTTGATTGGAAACACAAATTCATAGGAAAAAAAGTACTAATAAGTAAATAAATAAATAAAAAGGGATAGGGTTCAAGCGGAAAGGTTCATATAAGAATCCCAAGTTTTGGCAACAGAATGGAACTACCCTTGGAGGAAGGTGATTTTCTTTTCATGGCAACTAAAGAGACCCACCAACAACTCTCTCCAAATACATGTCATTCAACAGTAGAATAATAAAAAGGGGATTGCAGATGTTATACCTATACGGAAGGTTTATACCATGGTCAGAAAGGCGCTCATCTAGTAACTTGTAAACCCCTTACACACCCAAAAAAAAAAAAAATGACAACTATCACGGAAATTCTTTGTAAAAGTTAAAACGGTAAGTACACAGGTTTTCAAGATACTAGGGGTAAAGGTATGCATGACTCGGTAGTCTTTGTTGCTGCATCCCTTTGGTTGGTGGTTATTTTATCACTTTGTGGATTTTCCTCATTCAATGAATCGTGTCAGATCGGGTTACGAACATTTTACCCTTAAGTGGGTTTCTTATCTTATCCCATCCACTGCCAGTACCAAGGGAATATTTATTTCTTGGTCTAGAGGGAGAAACTTCTAAAAGCTTCAACATAATAATCCTAATGAAGGAACAGATGGAGATTATGAGTTTGATATTGTTCCAAGTGTCAATACCAAAAAACATCCTACTAATAAGAACCTTTCCTTTTCCTACCACGTTCATATACACACACAATGGCCGAGGCAGGGTGGAGGATAGGGCTAAGCCAAGGGATCTGCTTTCTCCTTTTTATTTTTCAACTCAATCAAGGTGAAAGAGTAAGGTATTTTCTTCTATGTATAAAATATGCTAAATGATAAAATCTGATAAAGGCCGATCTTATTTATTAAGACAATAAACCCGTTAGTTACGCTTCCACATCAAAGTTAGCTAGAATAATTCATTCTGTCTGTTTTCTTTGCTTTAATGCCTATTGGTGTTCCAAAAGTACCTTTTCGAAGTCCCGGAGAAGAAGATGCATCGTGGGTACTGATGATACAATCCTTTTTTGTGGGGATGGTTAAAGAATGGTTCTCTTCAAAGTGACTAGTGGGTTACGACCTTACTTGAACAGGATATGTTCTATAAGTCGTACATATGTATCCTTGAGTTCTAAAGCAACTAAGGTTATGAAATGGCCTCAAGTTTAAAAGTGAAGTTTGAAAGTGTGTTGCTTGCAGACATAAGAAGAAGAGACTTAACATGAGTCTTTAAGCCAAGTTATTGTCCCATTTCCCAGAAAGATGGATTAGGTGGTGGTAGACCTATATTTTCAAGCCATTTGTTTAAAAATTTCATACGGTTTGATCATGGATCTAAAAATGATGAGTAAATAGACTACAACAAAGGATTGCTACAGAAAATATGTAATGAAAGATTTTGAAAAGAGGTTGAAAGATAGAATACAATTACATACCTTTTTGGATTCAGCATAAAGTCCCATGCCGGCAACATAGAATGGAACTTCCCTACAAAGAGTGGCACCAGTCCCACGGAAAAACCCCTTCAGGCCATCTTGGTTCCAAGTCCCCAGAATGGCCTGTCCTACATTGTCAAAGAGTCCTGCCTGCAACCTCTGCTTCAATACCTCACATGGGATCCGCACTGCAGTTCCCAAAAATGTACTCCAGAACGATGCAAGGGATTGGAC

Coding sequence (CDS)

ATGAGCGGCACCATCAAGAAAGTGACCAATGTTGCCTTCAAAGCATCCAAGAACATCGATTGGGATGGCATGGCCAAGCTTTTGGTCTCCGATGAGGCTCGCAAGGAGTTCTCATCCCTTCGCCGAGCCTTCGAGGAGGTTAACTCAACCCTTCAAACTAAATTTAGCCAGGAACCAGAGCCCATAGACTGGGAATATTACAGAAAGGGAATTGGATCCCGCTTGGTGGACATGTACAAAGAGGCTTATGACAGCATTGAGATCCCCAAATTCGTAGACACAGTGACTCCACAGTACAAACCTAAATTTGATGCACTGCTGGTAGAATTGAAGGAAGCTGAACAGAAATCCCTAAAGGAGTCTGAGCGGTTGGAGAAGGAGATTGTTGAAGTTCAAGAAATGAAGAAAAAGATCAGCACCATGACTGCTGATGAGTACTTTGTGAAGCATCCTGAGCTGAGGAAGAAATTCGACGATGAAATCCGAAACGACTACTGGGGCTATTGA

Protein sequence

MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPEPIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKESERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY
Homology
[Close]
BLAST of Bhi07G000753 vs. TAIR 10
Match: AT3G52300.1 (ATP synthase D chain, mitochondrial )

HSP 1 Score: 280.8 bits (717), Expect = 7.2e-76
Identity = 138/168 (82.14%), Postives = 156/168 (92.86%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSG  KK+ +VAFKAS+ IDWDGMAK+LV+DEAR+EFS+LRRAF+EVN+ LQTKFSQEPE
Sbjct: 1   MSGAGKKIADVAFKASRTIDWDGMAKVLVTDEARREFSNLRRAFDEVNTQLQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDW+YYRKGIG+ +VD YKEAYDSIEIPK+VD VTP+YKPKFDALLVELKEAEQKSLKE
Sbjct: 61  PIDWDYYRKGIGAGIVDKYKEAYDSIEIPKYVDKVTPEYKPKFDALLVELKEAEQKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEI +VQE+ KK+STMTADEYF KHPEL+KKFDDEIRND WGY
Sbjct: 121 SERLEKEIADVQEISKKLSTMTADEYFEKHPELKKKFDDEIRNDNWGY 168

[Close]
BLAST of Bhi07G000753 vs. TAIR 10
Match: AT3G52300.2 (ATP synthase D chain, mitochondrial )

HSP 1 Score: 181.8 bits (460), Expect = 4.6e-46
Identity = 84/108 (77.78%), Postives = 100/108 (92.59%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSG  KK+ +VAFKAS+ IDWDGMAK+LV+DEAR+EFS+LRRAF+EVN+ LQTKFSQEPE
Sbjct: 1   MSGAGKKIADVAFKASRTIDWDGMAKVLVTDEARREFSNLRRAFDEVNTQLQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLV 109
           PIDW+YYRKGIG+ +VD YKEAYDSIEIPK+VD VTP+YKPKFDAL++
Sbjct: 61  PIDWDYYRKGIGAGIVDKYKEAYDSIEIPKYVDKVTPEYKPKFDALVI 108

[Close]
BLAST of Bhi07G000753 vs. ExPASy Swiss-Prot
Match: Q9FT52 (ATP synthase subunit d, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At3g52300 PE=1 SV=3)

HSP 1 Score: 280.8 bits (717), Expect = 1.0e-74
Identity = 138/168 (82.14%), Postives = 156/168 (92.86%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSG  KK+ +VAFKAS+ IDWDGMAK+LV+DEAR+EFS+LRRAF+EVN+ LQTKFSQEPE
Sbjct: 1   MSGAGKKIADVAFKASRTIDWDGMAKVLVTDEARREFSNLRRAFDEVNTQLQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDW+YYRKGIG+ +VD YKEAYDSIEIPK+VD VTP+YKPKFDALLVELKEAEQKSLKE
Sbjct: 61  PIDWDYYRKGIGAGIVDKYKEAYDSIEIPKYVDKVTPEYKPKFDALLVELKEAEQKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEI +VQE+ KK+STMTADEYF KHPEL+KKFDDEIRND WGY
Sbjct: 121 SERLEKEIADVQEISKKLSTMTADEYFEKHPELKKKFDDEIRNDNWGY 168

[Close]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match: A0A6J1HUL8 (ATP synthase subunit d, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111466347 PE=3 SV=1)

HSP 1 Score: 318.9 bits (816), Expect = 1.2e-83
Identity = 161/168 (95.83%), Postives = 166/168 (98.81%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSGT+KKVT+VAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNS+LQTKFSQEPE
Sbjct: 1   MSGTVKKVTDVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSSLQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDWEYYRKGIGSRLVDMYKEAYDSIE+PKFVDTVTPQYKPKFDALLVELKEAE KSLKE
Sbjct: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEVPKFVDTVTPQYKPKFDALLVELKEAEVKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEIVEVQE+KKKISTMTADEYF KHPELRKKFDDEIRNDYWGY
Sbjct: 121 SERLEKEIVEVQELKKKISTMTADEYFEKHPELRKKFDDEIRNDYWGY 168

[Close]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match: A0A6J1G072 (ATP synthase subunit d, mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111449482 PE=3 SV=1)

HSP 1 Score: 317.4 bits (812), Expect = 3.6e-83
Identity = 160/168 (95.24%), Postives = 165/168 (98.21%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSGT+KKVT+VAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNS LQTKFSQEPE
Sbjct: 1   MSGTVKKVTDVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSALQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDWEYYRKGIGSRLVDMYKEAYDSIE+PKFVDTVTPQYKPKFD+LLVELKEAE KSLKE
Sbjct: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEVPKFVDTVTPQYKPKFDSLLVELKEAEVKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEIVEVQE+KKKISTMTADEYF KHPELRKKFDDEIRNDYWGY
Sbjct: 121 SERLEKEIVEVQELKKKISTMTADEYFEKHPELRKKFDDEIRNDYWGY 168

[Close]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match: A0A6J1CDD8 (ATP synthase subunit d, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111010189 PE=3 SV=1)

HSP 1 Score: 316.2 bits (809), Expect = 8.1e-83
Identity = 158/168 (94.05%), Postives = 165/168 (98.21%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSGT+KKV +VAFKASKNIDWDGMAKLLVSDEARKEF++LRRAF+EVNSTLQTKFSQEPE
Sbjct: 1   MSGTVKKVADVAFKASKNIDWDGMAKLLVSDEARKEFATLRRAFDEVNSTLQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDWEYYRKGIGSRLVDMYKEAYDSIE+PKFVDTVTPQYKPKFDALLVELKEAE KSLKE
Sbjct: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEVPKFVDTVTPQYKPKFDALLVELKEAEAKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKE+VEVQEMKKKISTMTADEYF KHPELRKKFDDEIRNDYWGY
Sbjct: 121 SERLEKEVVEVQEMKKKISTMTADEYFEKHPELRKKFDDEIRNDYWGY 168

[Close]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match: A0A0A0KRL4 (ATP synthase subunit d, mitochondrial OS=Cucumis sativus OX=3659 GN=Csa_5G623540 PE=3 SV=1)

HSP 1 Score: 315.8 bits (808), Expect = 1.1e-82
Identity = 161/168 (95.83%), Postives = 162/168 (96.43%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSGTIKKVT+VAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNS LQTKFSQEPE
Sbjct: 1   MSGTIKKVTDVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSALQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDWEYYRKGIGSRLVDMYKEAYD IEIPKFVDTVTPQYKPKFDALLVELKEAE KSLKE
Sbjct: 61  PIDWEYYRKGIGSRLVDMYKEAYDGIEIPKFVDTVTPQYKPKFDALLVELKEAEAKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEI EVQEMKKKI TMTADEYF KHPELRKKFDDEIRNDYWGY
Sbjct: 121 SERLEKEIAEVQEMKKKICTMTADEYFEKHPELRKKFDDEIRNDYWGY 168

[Close]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match: A0A5D3CDC0 (ATP synthase subunit d, mitochondrial OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold475G002870 PE=3 SV=1)

HSP 1 Score: 315.1 bits (806), Expect = 1.8e-82
Identity = 159/168 (94.64%), Postives = 164/168 (97.62%), Query Frame = 0 

Query: 1   MSGTIKKVTNVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSTLQTKFSQEPE 60
           MSGT+KKVT+VAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNS LQTKFSQEPE
Sbjct: 1   MSGTVKKVTDVAFKASKNIDWDGMAKLLVSDEARKEFSSLRRAFEEVNSALQTKFSQEPE 60

Query: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEQKSLKE 120
           PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAE+KSLKE
Sbjct: 61  PIDWEYYRKGIGSRLVDMYKEAYDSIEIPKFVDTVTPQYKPKFDALLVELKEAEEKSLKE 120

Query: 121 SERLEKEIVEVQEMKKKISTMTADEYFVKHPELRKKFDDEIRNDYWGY 169
           SERLEKEI EV+EMK+KI TMTADEYF KHPELRKKFDDEIRNDYWGY
Sbjct: 121 SERLEKEIAEVREMKQKICTMTADEYFEKHPELRKKFDDEIRNDYWGY 168

The following BLAST results are available for this feature:
BLAST of Bhi07G000753 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G52300.17.2e-7682.14ATP synthase D chain, mitochondrial [more]
AT3G52300.24.6e-4677.78ATP synthase D chain, mitochondrial [more]
BLAST of Bhi07G000753 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FT521.0e-7482.14ATP synthase subunit d, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At3g523... [more]
BLAST of Bhi07G000753 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1HUL81.2e-8395.83ATP synthase subunit d, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC11146634... [more]
A0A6J1G0723.6e-8395.24ATP synthase subunit d, mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111449... [more]
A0A6J1CDD88.1e-8394.05ATP synthase subunit d, mitochondrial OS=Momordica charantia OX=3673 GN=LOC11101... [more]
A0A0A0KRL41.1e-8295.83ATP synthase subunit d, mitochondrial OS=Cucumis sativus OX=3659 GN=Csa_5G623540... [more]
A0A5D3CDC01.8e-8294.64ATP synthase subunit d, mitochondrial OS=Cucumis melo var. makuwa OX=1194695 GN=... [more]
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 107..141
NoneNo IPR availablePANTHERPTHR12700:SF18ATP SYNTHASE SUBUNIT D, MITOCHONDRIALcoord: 1..168
IPR008689ATP synthase, F0 complex, subunit D, mitochondrialPIRSFPIRSF005514Mitoh_ATP-synt_Dcoord: 9..168
e-value: 1.0E-39
score: 133.9
IPR008689ATP synthase, F0 complex, subunit D, mitochondrialPFAMPF05873Mt_ATP-synt_Dcoord: 15..166
e-value: 1.8E-18
score: 66.9
IPR008689ATP synthase, F0 complex, subunit D, mitochondrialPANTHERPTHR12700ATP SYNTHASE SUBUNIT D, MITOCHONDRIALcoord: 1..168
IPR036228ATP synthase, F0 complex, subunit D superfamily, mitochondrialGENE3D6.10.280.70coord: 14..133
e-value: 1.6E-35
score: 123.7
IPR036228ATP synthase, F0 complex, subunit D superfamily, mitochondrialSUPERFAMILY161065ATP synthase D chain-likecoord: 15..131

Relationships

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

Feature NameUnique NameType
Bhi07M000753Bhi07M000753mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0015986 ATP synthesis coupled proton transport
cellular_component GO:0000274 mitochondrial proton-transporting ATP synthase, stator stalk
cellular_component GO:0000276 mitochondrial proton-transporting ATP synthase complex, coupling factor F(o)
molecular_function GO:0016787 hydrolase activity
molecular_function GO:0015078 proton transmembrane transporter activity