© 2022 - Robin Ohm - Utrecht University - The Netherlands
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| Protein ID | OphauG2|146 |
| Gene name | |
| Location | Contig_102:14603..17609 |
| Strand | - |
| Gene length (bp) | 3006 |
| Transcript length (bp) | 2943 |
| Coding sequence length (bp) | 2943 |
| Protein length (aa) | 981 |
| PFAM Domain ID | Short name | Long name | E-value | Start | End |
|---|---|---|---|---|---|
| PF09427 | DUF2014 | Domain of unknown function (DUF2014) | 3.2E-105 | 558 | 820 |
| PF00010 | HLH | Helix-loop-helix DNA-binding domain | 2.0E-17 | 216 | 290 |
| Swissprot ID | Swissprot Description | Start | End | E-value |
|---|---|---|---|---|
| sp|Q9UUD1|SREBP_SCHPO | Sterol regulatory element-binding protein 1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sre1 PE=1 SV=1 | 216 | 322 | 1.0E-25 |
| sp|O43019|SRE2_SCHPO | Putative transcription factor sre2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sre2 PE=1 SV=1 | 216 | 317 | 4.0E-20 |
| sp|Q59RL7|CPH2_CANAL | Transcription factor CPH2 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=CPH2 PE=1 SV=1 | 213 | 307 | 1.0E-19 |
| sp|Q12398|HMS1_YEAST | Probable transcription factor HMS1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HMS1 PE=1 SV=1 | 217 | 292 | 9.0E-16 |
| sp|Q5AL36|TYE7_CANAL | Carbohydrate metabolism regulator TYE7 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=TYE7 PE=1 SV=1 | 172 | 307 | 3.0E-11 |
| Swissprot ID | Swissprot Description | Start | End | E-value |
|---|---|---|---|---|
| sp|Q9UUD1|SREBP_SCHPO | Sterol regulatory element-binding protein 1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sre1 PE=1 SV=1 | 216 | 322 | 1.0E-25 |
| sp|O43019|SRE2_SCHPO | Putative transcription factor sre2 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sre2 PE=1 SV=1 | 216 | 317 | 4.0E-20 |
| sp|Q59RL7|CPH2_CANAL | Transcription factor CPH2 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=CPH2 PE=1 SV=1 | 213 | 307 | 1.0E-19 |
| sp|Q12398|HMS1_YEAST | Probable transcription factor HMS1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=HMS1 PE=1 SV=1 | 217 | 292 | 9.0E-16 |
| sp|Q5AL36|TYE7_CANAL | Carbohydrate metabolism regulator TYE7 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=TYE7 PE=1 SV=1 | 172 | 307 | 3.0E-11 |
| sp|Q60416|SRBP1_CRIGR | Sterol regulatory element-binding protein 1 OS=Cricetulus griseus GN=SREBF1 PE=2 SV=1 | 216 | 304 | 5.0E-09 |
| sp|O97676|SRBP1_PIG | Sterol regulatory element-binding protein 1 OS=Sus scrofa GN=SREBF1 PE=2 SV=2 | 216 | 304 | 7.0E-09 |
| sp|P36956|SRBP1_HUMAN | Sterol regulatory element-binding protein 1 OS=Homo sapiens GN=SREBF1 PE=1 SV=2 | 216 | 307 | 9.0E-09 |
| sp|Q9UUD1|SREBP_SCHPO | Sterol regulatory element-binding protein 1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=sre1 PE=1 SV=1 | 455 | 813 | 1.0E-08 |
| sp|P56720|SRBP1_RAT | Sterol regulatory element-binding protein 1 OS=Rattus norvegicus GN=Srebf1 PE=1 SV=3 | 216 | 304 | 1.0E-08 |
| sp|Q9WTN3|SRBP1_MOUSE | Sterol regulatory element-binding protein 1 OS=Mus musculus GN=Srebf1 PE=1 SV=4 | 216 | 304 | 2.0E-08 |
| sp|Q6GQ26|SRBP2_XENLA | Sterol regulatory element-binding protein 2 OS=Xenopus laevis GN=srebf2 PE=2 SV=1 | 216 | 304 | 3.0E-08 |
| sp|A3KNA7|SRBP2_DANRE | Sterol regulatory element-binding protein 2 OS=Danio rerio GN=srebf2 PE=2 SV=1 | 216 | 304 | 4.0E-08 |
| sp|Q12772|SRBP2_HUMAN | Sterol regulatory element-binding protein 2 OS=Homo sapiens GN=SREBF2 PE=1 SV=2 | 216 | 304 | 1.0E-07 |
| sp|Q3U1N2|SRBP2_MOUSE | Sterol regulatory element-binding protein 2 OS=Mus musculus GN=Srebf2 PE=1 SV=2 | 216 | 304 | 1.0E-07 |
| sp|Q60429|SRBP2_CRIGR | Sterol regulatory element-binding protein 2 OS=Cricetulus griseus GN=SREBF2 PE=2 SV=1 | 216 | 304 | 1.0E-07 |
| sp|Q3T1I5|SRBP2_RAT | Sterol regulatory element-binding protein 2 OS=Rattus norvegicus GN=Srebf2 PE=2 SV=1 | 216 | 304 | 1.0E-07 |
| sp|P33122|TYE7_YEAST | Serine-rich protein TYE7 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=TYE7 PE=1 SV=1 | 214 | 298 | 3.0E-07 |
| GO Term | Description | Terminal node |
|---|---|---|
| GO:0046983 | protein dimerization activity | Yes |
| GO:0032933 | SREBP signaling pathway | Yes |
| GO:0045944 | positive regulation of transcription by RNA polymerase II | Yes |
| GO:0010604 | positive regulation of macromolecule metabolic process | No |
| GO:0006950 | response to stress | No |
| GO:0008150 | biological_process | No |
| GO:0006984 | ER-nucleus signaling pathway | No |
| GO:0080090 | regulation of primary metabolic process | No |
| GO:0060255 | regulation of macromolecule metabolic process | No |
| GO:1903506 | regulation of nucleic acid-templated transcription | No |
| GO:0009893 | positive regulation of metabolic process | No |
| GO:0010468 | regulation of gene expression | No |
| GO:0050789 | regulation of biological process | No |
| GO:0019219 | regulation of nucleobase-containing compound metabolic process | No |
| GO:0045893 | positive regulation of transcription, DNA-templated | No |
| GO:0006357 | regulation of transcription by RNA polymerase II | No |
| GO:0007165 | signal transduction | No |
| GO:0071501 | cellular response to sterol depletion | No |
| GO:1902680 | positive regulation of RNA biosynthetic process | No |
| GO:0019222 | regulation of metabolic process | No |
| GO:2001141 | regulation of RNA biosynthetic process | No |
| GO:0031325 | positive regulation of cellular metabolic process | No |
| GO:0033554 | cellular response to stress | No |
| GO:0050794 | regulation of cellular process | No |
| GO:0048522 | positive regulation of cellular process | No |
| GO:0005488 | binding | No |
| GO:0005515 | protein binding | No |
| GO:0006991 | response to sterol depletion | No |
| GO:0051252 | regulation of RNA metabolic process | No |
| GO:0009891 | positive regulation of biosynthetic process | No |
| GO:0051716 | cellular response to stimulus | No |
| GO:0010556 | regulation of macromolecule biosynthetic process | No |
| GO:0051254 | positive regulation of RNA metabolic process | No |
| GO:0051171 | regulation of nitrogen compound metabolic process | No |
| GO:0003674 | molecular_function | No |
| GO:1903508 | positive regulation of nucleic acid-templated transcription | No |
| GO:0051173 | positive regulation of nitrogen compound metabolic process | No |
| GO:0031323 | regulation of cellular metabolic process | No |
| GO:0031328 | positive regulation of cellular biosynthetic process | No |
| GO:0045935 | positive regulation of nucleobase-containing compound metabolic process | No |
| GO:0050896 | response to stimulus | No |
| GO:0065007 | biological regulation | No |
| GO:0048518 | positive regulation of biological process | No |
| GO:0009987 | cellular process | No |
| GO:0009889 | regulation of biosynthetic process | No |
| GO:0010557 | positive regulation of macromolecule biosynthetic process | No |
| GO:0006355 | regulation of transcription, DNA-templated | No |
| GO:0031326 | regulation of cellular biosynthetic process | No |
| SignalP signal predicted | Location (based on Ymax) |
D score (significance: > 0.45) |
|---|---|---|
| No | 1 - 44 | 0.45 |
| Transcription Factor Class (based on PFAM domains) |
|---|
| Helix-loop-helix |
| 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 | >OphauG2|146 MSEDDGTSRYGLGEQVFGFMDESAAVADMKPDGSNAPTDNNTQQFYPSSGWDFPVNAQFDSFDVGSAAAAAAAAS QGQAGSVTPSWQVPPSFEQQQGQPPPAASPPFDEFTPSHVSPGTAYVSGPGRPQVSHPQMRTVSGLSHEELRHIA MPPHLQYNSPRSASSPDSANSETKMGMGSSPELMGSMAAKKDSRKRKVTDELEEDDDVDDVDKPVKKTAHNMIEK RYRTNINDKIAALRDSVPSLRIMSKSARGEDTTEDREELHGLTPAHKLNKATVLSKATEYIRHLEKRNSRLMDEN SAMKERIAAFEKLFMAGAMNGSISPMQHPPTPMQYPQESQQQQYTGSPMTTPPDGNQNAAGLIPVPDDMKRIITA SGAVGQPYAVPQQPFRGGNPAVIRQQQIQQQQQQQQMQQNGWVNASPYFGKLMVGSLAGLMILEAVRENEVSSDK PEGRGLFALPMHLLGHASSTLNLHVMGYHVHTSLKLLFFLGAFLWVFVPSLFAQPGEKLEKQEAASLKRAPSLAS SIHVRRNAWLTAIQTVWVPRHNFFLEASALILKTIKLSLRNAIGVHGYQMLTGLTEEWETARVKAWSIALDSQLA GGDADICTSRLMLTLLASGTLPDTPARLMLKALHIRILLWDVGNRNWQLGAVNVIAAKLARNRWNEARQLNRLLV QLRRGSSAAHDNELPAHLVALVEQECDEVLSAPVIQRAHNLAFNVDTAHNVKSHIDGMGMVVDDTAMGSPMDAVA AWWSTKTLHDILKDTLHHDTHHADNTSQRMELAIKVAPIGSVAQIRAIVARAFLLKESRPDHIAAARQALCTDKM ASDFGNPGLVINPSPHIYDWDLAISLNCAVAIESTTGAKTPTRPEVRRRHDLVDMMTKPESMSSMTLLGFTARME LMRHLLSCDVSREEFHLTLAKMSSNLRFWMGKTGATKCGVTPQLRTKLVERCLAATKTLSGPENDTGYGSLSDAE ESEDE* |
| Coding | >OphauG2|146 ATGTCGGAAGACGACGGCACGAGCCGTTACGGCCTCGGGGAGCAAGTCTTTGGATTTATGGATGAATCAGCAGCC GTTGCCGACATGAAGCCAGATGGCTCCAATGCTCCCACTGACAACAACACGCAGCAATTCTATCCGTCGTCTGGC TGGGACTTTCCCGTCAATGCTCAATTCGACTCTTTTGACGTCGGCTCGGCTGCTGCTGCTGCTGCTGCTGCTTCT CAGGGCCAGGCGGGCTCTGTGACGCCTTCATGGCAGGTGCCGCCATCGTTTGAACAGCAGCAAGGACAGCCACCG CCGGCCGCTTCTCCACCATTTGACGAATTTACGCCTTCGCACGTCAGTCCGGGAACGGCATATGTCTCTGGCCCG GGCAGGCCCCAAGTATCTCATCCCCAAATGCGGACAGTCTCTGGTCTCTCTCACGAGGAGCTTCGGCATATCGCC ATGCCACCTCACTTGCAGTATAACTCTCCCAGAAGTGCCTCTAGCCCAGACTCGGCAAACAGCGAGACCAAGATG GGCATGGGATCCTCTCCCGAACTAATGGGATCTATGGCTGCCAAGAAGGACAGCCGCAAACGCAAGGTTACCGAT GAGCTGGAGGAGGACGACGATGTAGATGACGTGGACAAGCCGGTCAAGAAGACAGCTCACAACATGATTGAGAAG AGGTATCGCACGAACATCAACGACAAAATTGCGGCGCTGCGAGACAGCGTTCCTAGTCTGCGCATCATGTCCAAG AGCGCACGGGGCGAAGACACCACGGAAGATCGCGAGGAGCTTCATGGACTAACCCCGGCCCACAAGTTGAATAAA GCAACGGTGTTGAGCAAAGCGACCGAGTACATTCGCCATCTGGAAAAGCGCAACAGTCGATTAATGGACGAAAAC AGCGCCATGAAGGAACGAATTGCGGCCTTTGAGAAGCTCTTTATGGCTGGGGCCATGAATGGCTCGATTAGTCCG ATGCAACACCCACCGACGCCCATGCAGTACCCCCAAGAAAGCCAGCAGCAGCAGTACACGGGCTCGCCCATGACA ACACCGCCAGACGGAAACCAAAACGCAGCGGGATTGATTCCTGTTCCCGATGACATGAAGCGCATCATTACGGCA TCGGGAGCGGTTGGTCAGCCGTATGCCGTGCCTCAGCAGCCGTTTCGAGGAGGCAATCCGGCTGTGATTCGCCAG CAGCAGATTCAGCAACAGCAGCAGCAGCAACAGATGCAGCAGAATGGCTGGGTCAATGCCAGTCCGTATTTTGGC AAGCTCATGGTGGGCTCTCTGGCGGGCCTCATGATTCTTGAGGCTGTTCGCGAGAATGAAGTGAGCTCGGACAAG CCAGAAGGCCGCGGTCTCTTTGCCCTGCCCATGCACCTCTTGGGCCACGCATCATCGACGCTCAATCTCCACGTC ATGGGCTACCACGTGCACACGTCTCTCAAGCTTTTGTTTTTCCTGGGGGCCTTTCTCTGGGTCTTTGTCCCGTCG CTCTTTGCGCAGCCTGGGGAGAAGCTGGAGAAGCAGGAAGCGGCCAGCTTGAAACGCGCGCCGTCGTTGGCGTCG TCGATCCACGTGCGGCGCAACGCATGGCTGACGGCCATCCAGACGGTCTGGGTGCCTCGGCACAACTTTTTCCTC GAGGCATCTGCGCTGATACTCAAGACGATCAAGCTCAGCCTGCGGAATGCCATTGGCGTGCACGGCTACCAGATG CTGACGGGGCTGACGGAGGAGTGGGAGACGGCCCGAGTCAAGGCGTGGTCCATTGCCCTTGACTCGCAGCTGGCG GGCGGCGATGCCGACATTTGCACCAGCCGCCTGATGCTCACGCTGCTTGCCTCGGGCACTCTGCCCGACACGCCG GCGCGCCTGATGCTCAAGGCGCTGCACATTCGCATTCTGCTCTGGGACGTGGGCAACCGCAACTGGCAGCTGGGC GCCGTCAATGTCATTGCCGCCAAGCTGGCGCGCAACCGGTGGAACGAGGCGCGCCAGCTCAATCGCCTGCTGGTT CAGCTGCGCCGCGGCTCGTCGGCTGCCCACGACAACGAATTGCCTGCCCACCTGGTGGCCCTGGTGGAGCAAGAG TGCGACGAGGTGCTGAGTGCCCCCGTCATCCAGCGAGCCCACAACCTGGCCTTTAATGTCGACACGGCCCACAAT GTCAAGTCGCACATCGACGGCATGGGCATGGTTGTCGACGACACCGCCATGGGCTCGCCAATGGATGCCGTGGCT GCCTGGTGGTCCACAAAGACGCTCCATGACATCCTCAAGGATACACTGCACCACGACACCCACCACGCGGACAAC ACGTCGCAGCGCATGGAGCTGGCCATCAAGGTGGCCCCCATTGGCTCCGTGGCCCAGATTCGCGCCATTGTTGCC CGCGCCTTCTTGCTCAAGGAGTCGCGCCCAGACCACATTGCCGCCGCCCGCCAAGCCTTGTGCACCGACAAGATG GCCAGCGACTTTGGCAACCCTGGGCTCGTCATCAACCCCTCTCCCCACATCTATGACTGGGACCTGGCCATAAGC CTCAACTGTGCCGTGGCTATTGAAAGCACCACTGGCGCCAAGACGCCCACCCGCCCCGAGGTGCGACGACGCCAC GACCTGGTGGACATGATGACCAAGCCAGAGTCCATGTCGTCCATGACTCTGCTGGGCTTCACCGCCCGCATGGAG CTGATGAGGCACCTGCTCAGCTGCGACGTGTCGAGAGAGGAGTTTCACCTGACCCTGGCCAAGATGTCTAGCAAC CTGCGCTTTTGGATGGGCAAGACGGGCGCAACAAAATGTGGCGTCACGCCACAACTTCGCACCAAGCTTGTTGAG CGCTGTCTTGCTGCCACAAAGACGCTCTCGGGGCCCGAAAACGACACGGGCTACGGCAGCTTAAGCGATGCCGAA GAATCAGAAGACGAGTGA |
| Transcript | >OphauG2|146 ATGTCGGAAGACGACGGCACGAGCCGTTACGGCCTCGGGGAGCAAGTCTTTGGATTTATGGATGAATCAGCAGCC GTTGCCGACATGAAGCCAGATGGCTCCAATGCTCCCACTGACAACAACACGCAGCAATTCTATCCGTCGTCTGGC TGGGACTTTCCCGTCAATGCTCAATTCGACTCTTTTGACGTCGGCTCGGCTGCTGCTGCTGCTGCTGCTGCTTCT CAGGGCCAGGCGGGCTCTGTGACGCCTTCATGGCAGGTGCCGCCATCGTTTGAACAGCAGCAAGGACAGCCACCG CCGGCCGCTTCTCCACCATTTGACGAATTTACGCCTTCGCACGTCAGTCCGGGAACGGCATATGTCTCTGGCCCG GGCAGGCCCCAAGTATCTCATCCCCAAATGCGGACAGTCTCTGGTCTCTCTCACGAGGAGCTTCGGCATATCGCC ATGCCACCTCACTTGCAGTATAACTCTCCCAGAAGTGCCTCTAGCCCAGACTCGGCAAACAGCGAGACCAAGATG GGCATGGGATCCTCTCCCGAACTAATGGGATCTATGGCTGCCAAGAAGGACAGCCGCAAACGCAAGGTTACCGAT GAGCTGGAGGAGGACGACGATGTAGATGACGTGGACAAGCCGGTCAAGAAGACAGCTCACAACATGATTGAGAAG AGGTATCGCACGAACATCAACGACAAAATTGCGGCGCTGCGAGACAGCGTTCCTAGTCTGCGCATCATGTCCAAG AGCGCACGGGGCGAAGACACCACGGAAGATCGCGAGGAGCTTCATGGACTAACCCCGGCCCACAAGTTGAATAAA GCAACGGTGTTGAGCAAAGCGACCGAGTACATTCGCCATCTGGAAAAGCGCAACAGTCGATTAATGGACGAAAAC AGCGCCATGAAGGAACGAATTGCGGCCTTTGAGAAGCTCTTTATGGCTGGGGCCATGAATGGCTCGATTAGTCCG ATGCAACACCCACCGACGCCCATGCAGTACCCCCAAGAAAGCCAGCAGCAGCAGTACACGGGCTCGCCCATGACA ACACCGCCAGACGGAAACCAAAACGCAGCGGGATTGATTCCTGTTCCCGATGACATGAAGCGCATCATTACGGCA TCGGGAGCGGTTGGTCAGCCGTATGCCGTGCCTCAGCAGCCGTTTCGAGGAGGCAATCCGGCTGTGATTCGCCAG CAGCAGATTCAGCAACAGCAGCAGCAGCAACAGATGCAGCAGAATGGCTGGGTCAATGCCAGTCCGTATTTTGGC AAGCTCATGGTGGGCTCTCTGGCGGGCCTCATGATTCTTGAGGCTGTTCGCGAGAATGAAGTGAGCTCGGACAAG CCAGAAGGCCGCGGTCTCTTTGCCCTGCCCATGCACCTCTTGGGCCACGCATCATCGACGCTCAATCTCCACGTC ATGGGCTACCACGTGCACACGTCTCTCAAGCTTTTGTTTTTCCTGGGGGCCTTTCTCTGGGTCTTTGTCCCGTCG CTCTTTGCGCAGCCTGGGGAGAAGCTGGAGAAGCAGGAAGCGGCCAGCTTGAAACGCGCGCCGTCGTTGGCGTCG TCGATCCACGTGCGGCGCAACGCATGGCTGACGGCCATCCAGACGGTCTGGGTGCCTCGGCACAACTTTTTCCTC GAGGCATCTGCGCTGATACTCAAGACGATCAAGCTCAGCCTGCGGAATGCCATTGGCGTGCACGGCTACCAGATG CTGACGGGGCTGACGGAGGAGTGGGAGACGGCCCGAGTCAAGGCGTGGTCCATTGCCCTTGACTCGCAGCTGGCG GGCGGCGATGCCGACATTTGCACCAGCCGCCTGATGCTCACGCTGCTTGCCTCGGGCACTCTGCCCGACACGCCG GCGCGCCTGATGCTCAAGGCGCTGCACATTCGCATTCTGCTCTGGGACGTGGGCAACCGCAACTGGCAGCTGGGC GCCGTCAATGTCATTGCCGCCAAGCTGGCGCGCAACCGGTGGAACGAGGCGCGCCAGCTCAATCGCCTGCTGGTT CAGCTGCGCCGCGGCTCGTCGGCTGCCCACGACAACGAATTGCCTGCCCACCTGGTGGCCCTGGTGGAGCAAGAG TGCGACGAGGTGCTGAGTGCCCCCGTCATCCAGCGAGCCCACAACCTGGCCTTTAATGTCGACACGGCCCACAAT GTCAAGTCGCACATCGACGGCATGGGCATGGTTGTCGACGACACCGCCATGGGCTCGCCAATGGATGCCGTGGCT GCCTGGTGGTCCACAAAGACGCTCCATGACATCCTCAAGGATACACTGCACCACGACACCCACCACGCGGACAAC ACGTCGCAGCGCATGGAGCTGGCCATCAAGGTGGCCCCCATTGGCTCCGTGGCCCAGATTCGCGCCATTGTTGCC CGCGCCTTCTTGCTCAAGGAGTCGCGCCCAGACCACATTGCCGCCGCCCGCCAAGCCTTGTGCACCGACAAGATG GCCAGCGACTTTGGCAACCCTGGGCTCGTCATCAACCCCTCTCCCCACATCTATGACTGGGACCTGGCCATAAGC CTCAACTGTGCCGTGGCTATTGAAAGCACCACTGGCGCCAAGACGCCCACCCGCCCCGAGGTGCGACGACGCCAC GACCTGGTGGACATGATGACCAAGCCAGAGTCCATGTCGTCCATGACTCTGCTGGGCTTCACCGCCCGCATGGAG CTGATGAGGCACCTGCTCAGCTGCGACGTGTCGAGAGAGGAGTTTCACCTGACCCTGGCCAAGATGTCTAGCAAC CTGCGCTTTTGGATGGGCAAGACGGGCGCAACAAAATGTGGCGTCACGCCACAACTTCGCACCAAGCTTGTTGAG CGCTGTCTTGCTGCCACAAAGACGCTCTCGGGGCCCGAAAACGACACGGGCTACGGCAGCTTAAGCGATGCCGAA GAATCAGAAGACGAGTGA |
| Gene | >OphauG2|146 ATGTCGGAAGACGACGGCACGAGCCGTTACGGCCTCGGGGAGCAAGTCTTTGGATTTATGGATGAATCAGCAGCC GTTGCCGACATGAAGCCAGATGGCTCCAATGCTCCCACTGACAACAACACGCAGCAATTCTATCCGTCGTCTGGC TGGGACTTTCCCGTCAATGCTCAATTCGACTCTTTTGACGTCGGCTCGGCTGCTGCTGCTGCTGCTGCTGCTTCT CAGGGCCAGGCGGGCTCTGTGACGCCTTCATGGCAGGTGCCGCCATCGTTTGAACAGCAGCAAGGACAGCCACCG CCGGCCGCTTCTCCACCATTTGACGAATTTACGCCTTCGCACGTCAGTCCGGGAACGGCATATGTCTCTGGCCCG GGCAGGCCCCAAGTATCTCATCCCCAAATGCGGACAGTCTCTGGTCTCTCTCACGAGGAGCTTCGGCATATCGCC ATGCCACCTCACTTGCAGTATAACTCTCCCAGAAGTGCCTCTAGCCCAGACTCGGCAAACAGCGAGACCAAGATG GGCATGGGATCCTCTCCCGAACTAATGGGATCTATGGCTGCCAAGAAGGACAGCCGCAAACGCAAGGTTACCGAT GAGCTGGAGGAGGACGACGATGTAGATGACGTGGACAAGCCGGTCAAGAAGACAGCTCACAACATGATTGAGAAG AGGTATCGCACGAACATCAACGACAAAATTGCGGCGCTGCGAGACAGCGTTCCTAGTCTGCGCATCATGTCCAAG AGCGCACGGGGCGAAGACACCACGGAAGATCGCGAGGAGCTTCATGGACTAACCCCGGCCCACAAGTTGAATAAA GCAACGGTCAGTAGCGGCTTGTTACGGGAGGTATGTCATGGGTTTGGTTGTTGCTGACAACAGGGGTAGGTGTTG AGCAAAGCGACCGAGTACATTCGCCATCTGGAAAAGCGCAACAGTCGATTAATGGACGAAAACAGCGCCATGAAG GAACGAATTGCGGCCTTTGAGAAGCTCTTTATGGCTGGGGCCATGAATGGCTCGATTAGTCCGATGCAACACCCA CCGACGCCCATGCAGTACCCCCAAGAAAGCCAGCAGCAGCAGTACACGGGCTCGCCCATGACAACACCGCCAGAC GGAAACCAAAACGCAGCGGGATTGATTCCTGTTCCCGATGACATGAAGCGCATCATTACGGCATCGGGAGCGGTT GGTCAGCCGTATGCCGTGCCTCAGCAGCCGTTTCGAGGAGGCAATCCGGCTGTGATTCGCCAGCAGCAGATTCAG CAACAGCAGCAGCAGCAACAGATGCAGCAGAATGGCTGGGTCAATGCCAGTCCGTATTTTGGCAAGCTCATGGTG GGCTCTCTGGCGGGCCTCATGATTCTTGAGGCTGTTCGCGAGAATGAAGTGAGCTCGGACAAGCCAGAAGGCCGC GGTCTCTTTGCCCTGCCCATGCACCTCTTGGGCCACGCATCATCGACGCTCAATCTCCACGTCATGGGCTACCAC GTGCACACGTCTCTCAAGCTTTTGTTTTTCCTGGGGGCCTTTCTCTGGGTCTTTGTCCCGTCGCTCTTTGCGCAG CCTGGGGAGAAGCTGGAGAAGCAGGAAGCGGCCAGCTTGAAACGCGCGCCGTCGTTGGCGTCGTCGATCCACGTG CGGCGCAACGCATGGCTGACGGCCATCCAGACGGTCTGGGTGCCTCGGCACAACTTTTTCCTCGAGGCATCTGCG CTGATACTCAAGACGATCAAGCTCAGCCTGCGGAATGCCATTGGCGTGCACGGCTACCAGATGCTGACGGGGCTG ACGGAGGAGTGGGAGACGGCCCGAGTCAAGGCGTGGTCCATTGCCCTTGACTCGCAGCTGGCGGGCGGCGATGCC GACATTTGCACCAGCCGCCTGATGCTCACGCTGCTTGCCTCGGGCACTCTGCCCGACACGCCGGCGCGCCTGATG CTCAAGGCGCTGCACATTCGCATTCTGCTCTGGGACGTGGGCAACCGCAACTGGCAGCTGGGCGCCGTCAATGTC ATTGCCGCCAAGCTGGCGCGCAACCGGTGGAACGAGGCGCGCCAGCTCAATCGCCTGCTGGTTCAGCTGCGCCGC GGCTCGTCGGCTGCCCACGACAACGAATTGCCTGCCCACCTGGTGGCCCTGGTGGAGCAAGAGTGCGACGAGGTG CTGAGTGCCCCCGTCATCCAGCGAGCCCACAACCTGGCCTTTAATGTCGACACGGCCCACAATGTCAAGTCGCAC ATCGACGGCATGGGCATGGTTGTCGACGACACCGCCATGGGCTCGCCAATGGATGCCGTGGCTGCCTGGTGGTCC ACAAAGACGCTCCATGACATCCTCAAGGATACACTGCACCACGACACCCACCACGCGGACAACACGTCGCAGCGC ATGGAGCTGGCCATCAAGGTGGCCCCCATTGGCTCCGTGGCCCAGATTCGCGCCATTGTTGCCCGCGCCTTCTTG CTCAAGGAGTCGCGCCCAGACCACATTGCCGCCGCCCGCCAAGCCTTGTGCACCGACAAGATGGCCAGCGACTTT GGCAACCCTGGGCTCGTCATCAACCCCTCTCCCCACATCTATGACTGGGACCTGGCCATAAGCCTCAACTGTGCC GTGGCTATTGAAAGCACCACTGGCGCCAAGACGCCCACCCGCCCCGAGGTGCGACGACGCCACGACCTGGTGGAC ATGATGACCAAGCCAGAGTCCATGTCGTCCATGACTCTGCTGGGCTTCACCGCCCGCATGGAGCTGATGAGGCAC CTGCTCAGCTGCGACGTGTCGAGAGAGGAGTTTCACCTGACCCTGGCCAAGATGTCTAGCAACCTGCGCTTTTGG ATGGGCAAGACGGGCGCAACAAAATGTGGCGTCACGCCACAACTTCGCACCAAGCTTGTTGAGCGCTGTCTTGCT GCCACAAAGACGCTCTCGGGGCCCGAAAACGACACGGGCTACGGCAGCTTAAGCGATGCCGAAGAATCAGAAGAC GAGTGA |