© 2022 - Robin Ohm - Utrecht University - The Netherlands
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| Protein ID | OphauB2|6530 |
| Gene name | |
| Location | Contig_6:276420..279317 |
| Strand | - |
| Gene length (bp) | 2897 |
| Transcript length (bp) | 2598 |
| Coding sequence length (bp) | 2598 |
| Protein length (aa) | 866 |
| PFAM Domain ID | Short name | Long name | E-value | Start | End |
|---|---|---|---|---|---|
| PF01496 | V_ATPase_I | V-type ATPase 116kDa subunit family | 0.0E+00 | 32 | 850 |
| Swissprot ID | Swissprot Description | Start | End | E-value |
|---|---|---|---|---|
| sp|P32563|VPH1_YEAST | V-type proton ATPase subunit a, vacuolar isoform OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=VPH1 PE=1 SV=3 | 1 | 850 | 0.0E+00 |
| sp|Q8W4S4|VHAA3_ARATH | V-type proton ATPase subunit a3 OS=Arabidopsis thaliana GN=VHA-a3 PE=1 SV=1 | 10 | 858 | 0.0E+00 |
| sp|P15920|VPP2_MOUSE | V-type proton ATPase 116 kDa subunit a isoform 2 OS=Mus musculus GN=Atp6v0a2 PE=1 SV=2 | 9 | 847 | 0.0E+00 |
| sp|Q9SJT7|VHAA2_ARATH | V-type proton ATPase subunit a2 OS=Arabidopsis thaliana GN=VHA-a2 PE=1 SV=1 | 10 | 858 | 0.0E+00 |
| sp|Q54E04|VATM_DICDI | Vacuolar proton translocating ATPase 100 kDa subunit OS=Dictyostelium discoideum GN=vatM PE=1 SV=2 | 10 | 859 | 0.0E+00 |
| Swissprot ID | Swissprot Description | Start | End | E-value |
|---|---|---|---|---|
| sp|P32563|VPH1_YEAST | V-type proton ATPase subunit a, vacuolar isoform OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=VPH1 PE=1 SV=3 | 1 | 850 | 0.0E+00 |
| sp|Q8W4S4|VHAA3_ARATH | V-type proton ATPase subunit a3 OS=Arabidopsis thaliana GN=VHA-a3 PE=1 SV=1 | 10 | 858 | 0.0E+00 |
| sp|P15920|VPP2_MOUSE | V-type proton ATPase 116 kDa subunit a isoform 2 OS=Mus musculus GN=Atp6v0a2 PE=1 SV=2 | 9 | 847 | 0.0E+00 |
| sp|Q9SJT7|VHAA2_ARATH | V-type proton ATPase subunit a2 OS=Arabidopsis thaliana GN=VHA-a2 PE=1 SV=1 | 10 | 858 | 0.0E+00 |
| sp|Q54E04|VATM_DICDI | Vacuolar proton translocating ATPase 100 kDa subunit OS=Dictyostelium discoideum GN=vatM PE=1 SV=2 | 10 | 859 | 0.0E+00 |
| sp|Q9Y487|VPP2_HUMAN | V-type proton ATPase 116 kDa subunit a isoform 2 OS=Homo sapiens GN=ATP6V0A2 PE=1 SV=2 | 9 | 853 | 0.0E+00 |
| sp|O97681|VPP2_BOVIN | V-type proton ATPase 116 kDa subunit a isoform 2 OS=Bos taurus GN=ATP6V0A2 PE=2 SV=1 | 9 | 853 | 0.0E+00 |
| sp|Q9HBG4|VPP4_HUMAN | V-type proton ATPase 116 kDa subunit a isoform 4 OS=Homo sapiens GN=ATP6V0A4 PE=1 SV=2 | 9 | 859 | 0.0E+00 |
| sp|Q920R6|VPP4_MOUSE | V-type proton ATPase 116 kDa subunit a isoform 4 OS=Mus musculus GN=Atp6v0a4 PE=1 SV=1 | 9 | 859 | 0.0E+00 |
| sp|P30628|VPP1_CAEEL | Probable V-type proton ATPase 116 kDa subunit a OS=Caenorhabditis elegans GN=unc-32 PE=2 SV=3 | 9 | 864 | 0.0E+00 |
| sp|Q9I8D0|VPP1_CHICK | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Gallus gallus GN=ATP6V0A1 PE=1 SV=1 | 9 | 855 | 0.0E+00 |
| sp|Q93050|VPP1_HUMAN | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Homo sapiens GN=ATP6V0A1 PE=1 SV=3 | 9 | 855 | 0.0E+00 |
| sp|Q01290|VPH1_NEUCR | V-type proton ATPase subunit a OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=vph-1 PE=3 SV=1 | 1 | 864 | 0.0E+00 |
| sp|O13742|VPH1_SCHPO | V-type proton ATPase subunit a OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=vph1 PE=3 SV=2 | 9 | 855 | 0.0E+00 |
| sp|P37296|STV1_YEAST | V-type proton ATPase subunit a, Golgi isoform OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=STV1 PE=1 SV=2 | 3 | 855 | 0.0E+00 |
| sp|Q8AVM5|VPP1_XENLA | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Xenopus laevis GN=atp6v0a1 PE=2 SV=1 | 9 | 855 | 0.0E+00 |
| sp|Q9Z1G4|VPP1_MOUSE | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Mus musculus GN=Atp6v0a1 PE=1 SV=3 | 9 | 855 | 0.0E+00 |
| sp|P25286|VPP1_RAT | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Rattus norvegicus GN=Atp6v0a1 PE=2 SV=1 | 9 | 855 | 0.0E+00 |
| sp|A1A5G6|VPP1_XENTR | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Xenopus tropicalis GN=atp6v0a1 PE=2 SV=1 | 9 | 850 | 0.0E+00 |
| sp|Q5R422|VPP1_PONAB | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Pongo abelii GN=ATP6V0A1 PE=2 SV=1 | 9 | 855 | 0.0E+00 |
| sp|Q29466|VPP1_BOVIN | V-type proton ATPase 116 kDa subunit a isoform 1 OS=Bos taurus GN=ATP6V0A1 PE=2 SV=1 | 9 | 855 | 0.0E+00 |
| sp|Q8RWZ7|VHAA1_ARATH | V-type proton ATPase subunit a1 OS=Arabidopsis thaliana GN=VHA-a1 PE=2 SV=1 | 10 | 853 | 8.0E-174 |
| sp|Q13488|VPP3_HUMAN | V-type proton ATPase 116 kDa subunit a isoform 3 OS=Homo sapiens GN=TCIRG1 PE=1 SV=3 | 9 | 851 | 1.0E-150 |
| sp|Q9HM61|VATI_THEAC | V-type ATP synthase subunit I OS=Thermoplasma acidophilum (strain ATCC 25905 / DSM 1728 / JCM 9062 / NBRC 15155 / AMRC-C165) GN=atpI PE=3 SV=1 | 238 | 500 | 2.0E-07 |
| sp|O59659|VATI_METMA | V-type ATP synthase subunit I OS=Methanosarcina mazei (strain ATCC BAA-159 / DSM 3647 / Goe1 / Go1 / JCM 11833 / OCM 88) GN=atpI PE=3 SV=2 | 341 | 444 | 9.0E-07 |
| sp|Q9UWW3|VATI_SULSO | V-type ATP synthase subunit I OS=Sulfolobus solfataricus (strain ATCC 35092 / DSM 1617 / JCM 11322 / P2) GN=atpI PE=3 SV=1 | 382 | 487 | 9.0E-07 |
| sp|Q9UXU2|VATI_PYRAB | V-type ATP synthase subunit I OS=Pyrococcus abyssi (strain GE5 / Orsay) GN=atpI PE=3 SV=1 | 182 | 497 | 2.0E-06 |
| sp|Q57675|VATI_METJA | V-type ATP synthase subunit I OS=Methanocaldococcus jannaschii (strain ATCC 43067 / DSM 2661 / JAL-1 / JCM 10045 / NBRC 100440) GN=atpI PE=3 SV=1 | 60 | 455 | 4.0E-06 |
| GO Term | Description | Terminal node |
|---|---|---|
| GO:0033179 | proton-transporting V-type ATPase, V0 domain | Yes |
| GO:1902600 | proton transmembrane transport | Yes |
| GO:0046961 | proton-transporting ATPase activity, rotational mechanism | Yes |
| GO:0008150 | biological_process | No |
| GO:0022857 | transmembrane transporter activity | No |
| GO:0006810 | transport | No |
| GO:0022890 | inorganic cation transmembrane transporter activity | No |
| GO:0098655 | cation transmembrane transport | No |
| GO:0051179 | localization | No |
| GO:0015075 | ion transmembrane transporter activity | No |
| GO:0003674 | molecular_function | No |
| GO:0042625 | ATPase-coupled ion transmembrane transporter activity | No |
| GO:0044769 | ATPase activity, coupled to transmembrane movement of ions, rotational mechanism | No |
| GO:0006812 | cation transport | No |
| GO:0005575 | cellular_component | No |
| GO:0008324 | cation transmembrane transporter activity | No |
| GO:0022853 | active ion transmembrane transporter activity | No |
| GO:0006811 | ion transport | No |
| GO:0022804 | active transmembrane transporter activity | No |
| GO:0009987 | cellular process | No |
| GO:0051234 | establishment of localization | No |
| GO:0015399 | primary active transmembrane transporter activity | No |
| GO:0034220 | ion transmembrane transport | No |
| GO:0098796 | membrane protein complex | No |
| GO:0032991 | protein-containing complex | No |
| GO:0140657 | ATP-dependent activity | No |
| GO:0019829 | ATPase-coupled cation transmembrane transporter activity | No |
| GO:0098660 | inorganic ion transmembrane transport | No |
| GO:0015318 | inorganic molecular entity transmembrane transporter activity | No |
| GO:0033177 | proton-transporting two-sector ATPase complex, proton-transporting domain | No |
| GO:0055085 | transmembrane transport | No |
| GO:0005215 | transporter activity | No |
| GO:0098662 | inorganic cation transmembrane transport | No |
| GO:0009678 | pyrophosphate hydrolysis-driven proton transmembrane transporter activity | No |
| GO:0015078 | proton transmembrane transporter activity | No |
| GO:0042626 | ATPase-coupled transmembrane transporter activity | No |
| SignalP signal predicted | Location (based on Ymax) |
D score (significance: > 0.45) |
|---|---|---|
| No | 1 - 11 | 0.45 |
| Domain # | Start | End | Length |
|---|---|---|---|
| 1 | 424 | 446 | 22 |
| 2 | 459 | 481 | 22 |
| 3 | 549 | 571 | 22 |
| 4 | 578 | 600 | 22 |
| 5 | 648 | 670 | 22 |
| 6 | 791 | 813 | 22 |
| Type of sequence | Sequence |
|---|---|
| Locus | Download genbank file of locus
The gene with 5 kb flanks (if sufficient flanking sequence is available). For use in cloning design programs. NOTE: features (genes or exons) that are only partially contained within the sequence are completely excluded. |
| Protein | >OphauB2|6530 MASKQDTPFRSADMSMVQLYVSNEIGREVVTALGELGLCQFRDLNENVSAFQRTFTQEIRRLDNVERQLRYFYSQ MEKSGISLRKLDLDGERLASPSTSEIDELAERSQKLEQRISALIDSYETLKKREGELTEWRWVLREAGGFFDRAH GNVDEIRASGEHDDAPLLSDVEQHNTAPEVERSFSGMNIGFVAGVIARDRVAAFERILWRTLRGNLYMNQSEIPE PVIDPTNNEGVNKNVFVIFAHGKEILAKIRKISESMGADTYNVDENSDLRRDQVHEVNSRLDDVQNVLRNTQVTL EAELNQISQSLSAWMVLISKEKAVFSTLNLFSYDRARRTLIAEAWCPTNDMALIRSTLQDVTNRAGLSVPSIVNE IRTNKTPPTYLKTNKFTEGFQTIVNAYGTATYHEVNPAMPVIVTFPFLFAVMFGDFGHAIIMLSAAVAMIYWEKP LKKVSFELFAMVFYGRYIALVMALFSIFTGLMYNDAFSKSMTIFSSAWTYKRPENWHEGMSIDAELNNRGYRYPF GIDWAWHGTDNDLLFSNSLKMKMSIILGWAHMTYSLCFSYVNARYFKKPIDIWGNFLPGMVFFQSIFGYLVICII YKWSVEWIDMETHTMIASPPGLLNMLIYMFLQPGKLDMRLYWGQEVVQVALLLLAVVQVPVLLFLKPFYLRWENN RARAKGYRGIGEASRVSALDGDDEDEGGAPGNGHGNSFEEDGEGVAMISQNIGEEHEEFEFGEVMIHQVIHTIEF CLNCVSHTASYLRLWALSLAHQQLSVVLWDMTLGPALKKSGVLGVVMIVACFFLWFFLTIAILVCMEGTSAMLHS LRLAWVESFSKFAEFAGWPFAPFSFSILLEESEELKDYLC* |
| Coding | >OphauB2|6530 ATGGCTTCCAAACAGGACACGCCATTCCGCTCGGCGGATATGAGCATGGTGCAGCTGTATGTCTCCAATGAGATT GGCCGCGAAGTTGTCACTGCTCTAGGAGAGCTGGGGCTTTGCCAATTCAGAGACCTCAATGAAAATGTCAGTGCT TTTCAAAGGACATTTACTCAAGAGATTCGCCGCCTCGATAATGTGGAAAGACAGCTTCGATACTTTTATTCTCAA ATGGAGAAATCAGGCATCTCGTTGAGGAAGCTTGATCTTGATGGCGAACGACTTGCATCCCCGTCAACTTCGGAA ATTGATGAGCTAGCCGAACGAAGCCAGAAGCTCGAACAACGAATCTCGGCGCTGATTGATAGCTATGAAACGTTG AAGAAGCGCGAGGGCGAACTGACTGAGTGGCGCTGGGTTCTTCGCGAGGCGGGCGGCTTCTTTGATCGCGCACAC GGCAACGTTGATGAGATTCGGGCTTCTGGGGAACATGACGATGCCCCCCTACTTTCCGACGTTGAGCAACATAAC ACGGCGCCCGAGGTGGAGAGGAGCTTTTCTGGCATGAATATCGGATTCGTCGCTGGAGTCATTGCCCGGGACCGC GTCGCAGCCTTTGAGCGTATTCTATGGCGAACTCTGCGCGGCAATTTGTACATGAATCAGTCTGAGATTCCCGAG CCTGTGATTGATCCCACTAACAATGAAGGGGTCAACAAGAATGTTTTTGTCATCTTTGCTCACGGAAAGGAAATC CTTGCCAAGATTCGCAAAATATCAGAGTCTATGGGTGCCGACACGTACAATGTCGACGAGAATAGCGACTTGAGG CGCGACCAGGTGCACGAGGTCAACAGCCGACTGGATGATGTGCAAAATGTTCTCCGAAACACTCAGGTGACACTC GAGGCCGAGCTGAATCAAATTTCGCAGTCCCTGTCGGCCTGGATGGTTCTCATCTCCAAGGAAAAGGCCGTCTTC AGCACGCTCAACCTCTTCTCGTACGACCGCGCGCGACGGACCCTCATTGCAGAGGCATGGTGTCCTACCAATGAC ATGGCTCTTATCCGCTCGACTCTGCAGGACGTTACCAACCGAGCCGGTCTCTCTGTTCCCTCGATTGTCAACGAG ATTCGCACCAACAAGACTCCGCCCACCTATCTCAAGACCAACAAGTTTACCGAAGGATTCCAGACTATTGTGAAT GCTTATGGTACTGCTACGTACCATGAAGTGAACCCGGCCATGCCCGTCATTGTTACCTTTCCTTTTCTCTTTGCC GTCATGTTTGGCGATTTCGGTCACGCCATCATCATGCTTTCTGCGGCAGTGGCCATGATATACTGGGAAAAGCCA CTCAAAAAGGTGTCGTTTGAGCTCTTCGCCATGGTCTTTTATGGACGATATATTGCCTTGGTCATGGCTCTCTTT TCCATCTTTACCGGTCTCATGTACAATGACGCCTTTTCCAAGTCAATGACCATTTTTTCCAGCGCATGGACCTAC AAGCGGCCCGAAAATTGGCATGAAGGCATGTCTATTGACGCCGAACTCAATAACAGAGGCTACCGTTATCCCTTT GGTATAGACTGGGCATGGCACGGCACGGACAATGACTTGCTTTTTAGCAACAGTCTCAAGATGAAGATGAGCATC ATTTTGGGTTGGGCTCACATGACTTACTCTCTTTGCTTTTCCTATGTCAATGCTCGATACTTCAAGAAGCCCATT GATATATGGGGCAATTTCTTGCCGGGGATGGTTTTCTTCCAGTCTATATTCGGCTACTTGGTCATTTGCATCATT TACAAATGGTCTGTCGAATGGATCGACATGGAGACGCACACCATGATTGCCTCACCGCCAGGCCTTCTCAACATG CTCATCTATATGTTTCTTCAGCCGGGCAAGTTGGACATGCGTTTGTACTGGGGCCAGGAAGTCGTGCAAGTGGCG CTTCTCCTTTTGGCTGTCGTTCAGGTTCCCGTTTTACTCTTCCTCAAGCCCTTTTATCTTCGATGGGAGAACAAT AGAGCCCGCGCCAAGGGATATCGTGGAATAGGAGAAGCATCCCGAGTTAGCGCCTTGGATGGCGACGACGAAGAT GAAGGCGGTGCACCAGGCAATGGACACGGCAATAGCTTTGAGGAAGATGGCGAAGGCGTGGCTATGATCTCGCAA AACATTGGCGAAGAACACGAAGAGTTTGAATTTGGCGAAGTCATGATTCACCAAGTCATTCATACGATTGAATTT TGTCTCAATTGCGTGTCGCACACGGCGTCATATCTTCGTCTCTGGGCTCTTTCGCTTGCTCACCAGCAGCTCAGC GTGGTGCTTTGGGACATGACTCTTGGACCTGCGCTCAAGAAATCGGGTGTGCTGGGCGTCGTCATGATTGTCGCC TGCTTCTTTCTTTGGTTCTTTTTGACCATTGCCATTTTGGTGTGCATGGAAGGCACCAGCGCCATGTTGCACTCA CTCAGGTTGGCATGGGTCGAGTCCTTTTCCAAGTTTGCAGAATTTGCAGGTTGGCCGTTTGCGCCCTTTTCATTC AGCATCTTGTTGGAAGAGTCGGAGGAGCTAAAGGACTACTTGTGCTGA |
| Transcript | >OphauB2|6530 ATGGCTTCCAAACAGGACACGCCATTCCGCTCGGCGGATATGAGCATGGTGCAGCTGTATGTCTCCAATGAGATT GGCCGCGAAGTTGTCACTGCTCTAGGAGAGCTGGGGCTTTGCCAATTCAGAGACCTCAATGAAAATGTCAGTGCT TTTCAAAGGACATTTACTCAAGAGATTCGCCGCCTCGATAATGTGGAAAGACAGCTTCGATACTTTTATTCTCAA ATGGAGAAATCAGGCATCTCGTTGAGGAAGCTTGATCTTGATGGCGAACGACTTGCATCCCCGTCAACTTCGGAA ATTGATGAGCTAGCCGAACGAAGCCAGAAGCTCGAACAACGAATCTCGGCGCTGATTGATAGCTATGAAACGTTG AAGAAGCGCGAGGGCGAACTGACTGAGTGGCGCTGGGTTCTTCGCGAGGCGGGCGGCTTCTTTGATCGCGCACAC GGCAACGTTGATGAGATTCGGGCTTCTGGGGAACATGACGATGCCCCCCTACTTTCCGACGTTGAGCAACATAAC ACGGCGCCCGAGGTGGAGAGGAGCTTTTCTGGCATGAATATCGGATTCGTCGCTGGAGTCATTGCCCGGGACCGC GTCGCAGCCTTTGAGCGTATTCTATGGCGAACTCTGCGCGGCAATTTGTACATGAATCAGTCTGAGATTCCCGAG CCTGTGATTGATCCCACTAACAATGAAGGGGTCAACAAGAATGTTTTTGTCATCTTTGCTCACGGAAAGGAAATC CTTGCCAAGATTCGCAAAATATCAGAGTCTATGGGTGCCGACACGTACAATGTCGACGAGAATAGCGACTTGAGG CGCGACCAGGTGCACGAGGTCAACAGCCGACTGGATGATGTGCAAAATGTTCTCCGAAACACTCAGGTGACACTC GAGGCCGAGCTGAATCAAATTTCGCAGTCCCTGTCGGCCTGGATGGTTCTCATCTCCAAGGAAAAGGCCGTCTTC AGCACGCTCAACCTCTTCTCGTACGACCGCGCGCGACGGACCCTCATTGCAGAGGCATGGTGTCCTACCAATGAC ATGGCTCTTATCCGCTCGACTCTGCAGGACGTTACCAACCGAGCCGGTCTCTCTGTTCCCTCGATTGTCAACGAG ATTCGCACCAACAAGACTCCGCCCACCTATCTCAAGACCAACAAGTTTACCGAAGGATTCCAGACTATTGTGAAT GCTTATGGTACTGCTACGTACCATGAAGTGAACCCGGCCATGCCCGTCATTGTTACCTTTCCTTTTCTCTTTGCC GTCATGTTTGGCGATTTCGGTCACGCCATCATCATGCTTTCTGCGGCAGTGGCCATGATATACTGGGAAAAGCCA CTCAAAAAGGTGTCGTTTGAGCTCTTCGCCATGGTCTTTTATGGACGATATATTGCCTTGGTCATGGCTCTCTTT TCCATCTTTACCGGTCTCATGTACAATGACGCCTTTTCCAAGTCAATGACCATTTTTTCCAGCGCATGGACCTAC AAGCGGCCCGAAAATTGGCATGAAGGCATGTCTATTGACGCCGAACTCAATAACAGAGGCTACCGTTATCCCTTT GGTATAGACTGGGCATGGCACGGCACGGACAATGACTTGCTTTTTAGCAACAGTCTCAAGATGAAGATGAGCATC ATTTTGGGTTGGGCTCACATGACTTACTCTCTTTGCTTTTCCTATGTCAATGCTCGATACTTCAAGAAGCCCATT GATATATGGGGCAATTTCTTGCCGGGGATGGTTTTCTTCCAGTCTATATTCGGCTACTTGGTCATTTGCATCATT TACAAATGGTCTGTCGAATGGATCGACATGGAGACGCACACCATGATTGCCTCACCGCCAGGCCTTCTCAACATG CTCATCTATATGTTTCTTCAGCCGGGCAAGTTGGACATGCGTTTGTACTGGGGCCAGGAAGTCGTGCAAGTGGCG CTTCTCCTTTTGGCTGTCGTTCAGGTTCCCGTTTTACTCTTCCTCAAGCCCTTTTATCTTCGATGGGAGAACAAT AGAGCCCGCGCCAAGGGATATCGTGGAATAGGAGAAGCATCCCGAGTTAGCGCCTTGGATGGCGACGACGAAGAT GAAGGCGGTGCACCAGGCAATGGACACGGCAATAGCTTTGAGGAAGATGGCGAAGGCGTGGCTATGATCTCGCAA AACATTGGCGAAGAACACGAAGAGTTTGAATTTGGCGAAGTCATGATTCACCAAGTCATTCATACGATTGAATTT TGTCTCAATTGCGTGTCGCACACGGCGTCATATCTTCGTCTCTGGGCTCTTTCGCTTGCTCACCAGCAGCTCAGC GTGGTGCTTTGGGACATGACTCTTGGACCTGCGCTCAAGAAATCGGGTGTGCTGGGCGTCGTCATGATTGTCGCC TGCTTCTTTCTTTGGTTCTTTTTGACCATTGCCATTTTGGTGTGCATGGAAGGCACCAGCGCCATGTTGCACTCA CTCAGGTTGGCATGGGTCGAGTCCTTTTCCAAGTTTGCAGAATTTGCAGGTTGGCCGTTTGCGCCCTTTTCATTC AGCATCTTGTTGGAAGAGTCGGAGGAGCTAAAGGACTACTTGTGCTGA |
| Gene | >OphauB2|6530 ATGGCTTCCAAACAGGACACGCCATTCCGCTCGGCGGATATGAGCATGGTGCAGCTGTATGTCTCCAATGAGATT GGCCGCGAAGTTGTCACTGCTCTAGGAGAGCTGGGGCTTTGCCAATTCAGAGACGTATGACCACCAGCCAAACCA TTTCATCCATTTTGCGCATGTTGCAGCTAACTCTCTACTGTGGACAGCTCAATGAAAATGTCAGTGCTTTTCAAA GGACATTTACTCAAGAGATTCGCCGCCTCGATAATGTGGAAAGACAGCTTCGTTAGTTCCTCCTCTCCCCCTTGA TCGACTCCATTGGCCGGTCACTTGCCTCTGCTGACAATCTCGCTCCAGGATACTTTTATTCTCAAATGGAGAAAT CAGGCATCTCGTTGAGGAAGCTTGATCTTGATGGCGAACGACTTGCATCCCCGTCAACTTCGGAAATTGATGAGC TAGCCGAACGAAGCCAGAAGCTCGAACAACGAATCTCGGCGCTGATTGATAGCTATGAAACGTTGAAGAAGCGCG AGGGCGAACTGACTGAGTGGCGCTGGGTTCTTCGCGAGGCGGGCGGCTTCTTTGATCGCGCACACGGCAACGTTG ATGAGATTCGGGCTTCTGGGGAACATGACGATGCCCCCCTACTTTCCGACGTTGAGCAACATAACACGGCGCCCG AGGTGGAGAGGAGCTTTTCTGGCATGAATATCGGATTCGTCGCTGGAGTCATTGCCCGGGACCGCGTCGCAGCCT TTGAGCGTATTCTATGGCGAACTCTGCGCGGCAATTTGTACATGAATCAGTCTGAGATTCCCGAGCCTGTGATTG ATCCCACTAACAATGAAGGGGTCAACAAGAATGTTTTTGTCATCTTTGCTCACGGAAAGGAAATCCTTGCCAAGA TTCGCAAAATATCAGAGTCTATGGGTGCCGACACGTACAATGTCGACGAGAATAGCGACTTGAGGCGCGACCAGG TGCACGAGGTCAACAGCCGACTGGATGATGTGCAAAATGTTCTCCGAAACACTCAGGTGACACTCGAGGCCGAGC TGAATCAAATTTCGCAGTCCCTGTCGGCCTGGATGGTTCTCATCTCCAAGGAAAAGGCCGTCTTCAGCACGCTCA ACCTCTTCTCGTACGACCGCGCGCGACGGACCCTCATTGCAGAGGCATGGTGTCCTACCAATGACATGGCTCTTA TCCGCTCGACTCTGCAGGACGTTACCAACCGAGCCGGTCTCTCTGTTCCCTCGATTGTCAACGAGATTCGCACCA ACAAGACTCCGCCCACCTATCTCAAGACCAACAAGTTTACCGAAGGATTCCAGACTATTGTGAATGCTTATGGTA CTGCTACGTACCATGAAGTGAACCCGGCCATGCCCGTCATTGTTACCTTTCCTTTTCTCTTTGCCGTCATGTTTG GCGATTTCGGTCACGCCATCATCATGCTTTCTGCGGCAGTGGCCATGATATACTGGGAAAAGCCACTCAAAAAGG TGTCGTTTGAGCTCTTCGCCATGGTCTTTTATGGACGATATATTGCCTTGGTCATGGCTCTCTTTTCCATCTTTA CCGGTCTCATGTACAATGACGCCTTTTCCAAGTCAATGACCATTTTTTCCAGCGCATGGACCTACAAGCGGCCCG AAAATTGGCATGAAGGCATGTCTATTGACGCCGAACTCAATAACAGAGGCTACCGTTATCCCTTTGGTATAGACT GGGCATGGCACGGCACGGACAATGACTTGCTTTTTAGCAACAGTCTCAAGATGAAGATGAGCATCATTTTGGGTT GGGCTCACATGACTTACTCTCTTTGCTTTTCCTATGTCAATGCTCGATACTTCAAGAAGCCCATTGATATATGGG GCAATTTCTTGCCGGGGATGGTTTTCTTCCAGTCTATATTCGGCTACTTGGTCATTTGCATCATTTACAAATGGT CTGTCGAATGGATCGACATGGAGACGCACACCATGATTGCCTCACCGCCAGGCCTTCTCAACATGCTCATCTATA TGTTTCTTCAGCCGGGCAAGTTGGACATGCGTTTGTACTGGGGCCAGGAAGTCGTGCAAGTGGCGCTTCTCCTTT TGGCTGTCGTTCAGGTTCCCGTTTTACTCTTCCTCAAGCCCTTTTATCTTCGATGGGAGAACAATAGAGCCCGCG CCAAGGGATATCGTGGAATAGGAGAAGCATCCCGAGTTAGCGCCTTGGATGGCGACGACGAAGATGAAGGCGGTG CACCAGGCAATGGACACGGCAATAGCTTTGAGGAAGATGGCGAAGGCGTGGCTATGATCTCGCAAAACATTGGCG AAGAACACGAAGAGTTTGAATTTGGCGAAGTCATGATTCACCAAGTCATTCATACGATTGGTGAGTTGGGCACGA CGCGCCAGTCACGACGGCATGGATATGAAGAGGAGCAGATTGCTGACCAAGGAGTAGAATTTTGTCTCAATTGCG TGTCGCACACGGCGTCATATCTTCGTCTCTGGGCTCTTTCGCTTGCTCACCAGCAGCTCAGCGTGGTGCTTTGGG ACATGACTCTTGGACCTGCGCTCAAGAAATCGGGTGTGCTGGGCGTCGTCATGATTGTCGCCTGCTTCTTTCTTT GGTTCTTTTTGAGTAAGTCTACACATGCATGCAGTGGCCAGAGCTGGTCTCTGGTGGGGGGCAGGGAAGAGTTGT TTTTGTGACTGACGAACATGATAGCCATTGCCATTTTGGTGTGCATGGAAGGCACCAGCGCCATGTTGCACTCAC TCAGGTTGGCATGGGTCGAGTCCTTTTCCAAGTTTGCAGAATTTGCAGGTTGGCCGTTTGCGCCCTTTTCATTCA GCATCTTGTTGGAAGAGTCGGAGGAGCTAAAGGACTACTTGTGCTGA |