|
|
Homology
BLAST of mRNA_H-fluviatilis_contig1029.607.1 vs. uniprot
Match: A0A6H5JG92_9PHAE (BRCT domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JG92_9PHAE) HSP 1 Score: 140 bits (352), Expect = 3.270e-29 Identity = 146/468 (31.20%), Postives = 207/468 (44.23%), Query Frame = 3
Query: 5616 PLSNVGIILTGLSKDYRKKVESLIKAKGGTLITFPSGPGTPDGNYRHWI----------------------SCGN-------------------SRSQSVNARSVIAVARPGNYRAPKYLFAAAAGVDIVHPSCIEQCT---VCLETTNYLLPVGRSALLDRGLIFYPGGYNVHGGYDEISSNTSLGGDYDTWRPTRGRPFHGKSVLIHLGACTPHKPPGLELTLW---AAGAQVATIGPDGLGGFLGSTGD----SNSDLERVVNLLEQGRFECFIGLEEGSCGNSGGGVGSERLAGKPHATTRKQLVRAARGAGVQAGTMEWAAQCILHGRIL--DVCTCPWFPLEVTEDGGGSVRSLANGSRGGNGGNKNNGKGRTTH--TCFFSYLTADQDSRHGGR-YVAGDYVIL----SASAAVRQVGRVESFRRATDGTVKAI-VTLMSISVESREISEEEKDGKSMQKV 6836
PL+ VG+IL GL + R+++E+ I+ G ++ G DG +R W+ CG+ S S++ +IAVA PG+ R P++ FA AAG+ IVHPS +E C+ + +ET YLLP+GRS L +R LI +R +RGRPF + V++ + T + LE L+ GA V + G GG G D S + + LL++GR C IG E + ++ R ++ +AA AG G++EWA QC+ HGR+L TCPWFPL S S+ +G G+G N R T C F Y+ +GGR YVAGDYVI+ +AS G S R T G VKAI T + +S +R IS ++GK KV
Sbjct: 720 PLTGVGVILAGLGQQSRQQMEAKIRNLGAEVVDIL---GKSDG-WRSWLLRESTRAVVNSGATAGPSSARHDCGSGDCNGDPCATANSDASTPESTSRTQPQMRIIAVAAPGSDRTPEFHFAVAAGMPIVHPSYVEACSGMEIEVETGRYLLPLGRSGLGNRPLIM-------------------------PFRSSRGRPFQDQLVILCVDNPTVDQA-ALENWLFILKVGGATVRVLDVGGEGGCAGGNADGVEHSRCTHDAALQLLQEGRVYCVIGSESTAV---------------RYSAARSEIQKAAVEAGTLTGSLEWALQCMAHGRLLLPSAATCPWFPLNA------SGVSVVDGHVQGSG---VNAVIRVTDEPVCLF-YVHC-----YGGRRYVAGDYVIIETDGNASDITYGTGAETSAR--TTGVVKAIDATEIGLSAVARVISFR-REGKKKVKV 1124
BLAST of mRNA_H-fluviatilis_contig1029.607.1 vs. uniprot
Match: D7FH86_ECTSI (BRCT domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FH86_ECTSI) HSP 1 Score: 121 bits (303), Expect = 1.630e-23 Identity = 128/443 (28.89%), Postives = 182/443 (41.08%), Query Frame = 3
Query: 5616 PLSNVGIILTGLSKDYRKKVESLIKAKGGTLITF--------------------PSGPGTPDGNYRHWIS--------CGNSRSQSVNARS---------VIAVARPGNYRAPKYLFAAAAGVDIVHPSCIEQCT---VCLETTNYLLPVGRSALLDRGLIFYPGGYNVHGGYDEISSNTSLGGDYDTWRPTRGRPFHGKSVLIHLGACTPHKPPGLELTLW---AAGAQVATIGPDGLGGFLGSTGD----SNSDLERVVNLLEQGRFECFIGLEEGSCGNSGGGVGSERLAGKPHATTRKQLVRAARGAGVQAGTMEWAAQCILHGRIL--DVCTCPWFPLEVTEDGGGSVRSLANGSRGGNGGNKNNGKGRTTHTCFFSYLTADQDSRHGGR-YVAGDYVILSASAAVRQVGRVESFRRATDGTVKAIVTLMSISVESRE 6794
PL+ VG+IL GL + R+++E+ I+ G ++ SG + RH C + S + S +IAVA PG+ R P++ A AAG+ IVHPS + C+ + +ET YLLP+GRS L +R LI +R RGRPF + V++ + + LE L+ AGA V G GG D S + + LL++GR C IG E + S T R + +AA AG AG++EWA QC+ HGR+L TCPWFPL S S+ +G G+G N + C F +GGR YVAGDYVI+ ++ GR T A T + +V++ E
Sbjct: 543 PLAGVGVILAGLGEQPRQEMEAKIRNLGAEVVDILGESGGWKSWLLGESTRTVANSGSTAEPSSARHTSGSGDCNGDPCATANSDARTPESTKLTKPQMRMIAVAAPGSDRTPEFQLAVAAGMPIVHPSYVAACSGMEIEVETGRYLLPLGRSGLGNRPLIM-------------------------PFRSGRGRPFQDQLVILCVDNPAADQA-ALENWLFMLKVAGATVRVFDVGGEGGCAEGDADGVEHSLCTHDAALQLLQEGRVYCVIGSESTAVRVS---------------TARSAIEKAAVEAGTLAGSLEWALQCMAHGRLLLPSAATCPWFPLSA------SGVSVQDGHVRGSGVNLVF-RVADEPVCLFHVHV------YGGRRYVAGDYVII------KRDGRASDVTYGTGAETSARTTAVGKTVDATE 925
BLAST of mRNA_H-fluviatilis_contig1029.607.1 vs. uniprot
Match: D7FW83_ECTSI (BRCT domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FW83_ECTSI) HSP 1 Score: 118 bits (295), Expect = 2.090e-22 Identity = 100/352 (28.41%), Postives = 142/352 (40.34%), Query Frame = 3
Query: 5574 GVGNSSGLRCSSRRPLSNVGIILTGLSKDYRKKVESLIKAKGGTLITFPSGPGTPDGNYRHWI------SCGNSRSQSVNA---------------RSVIAVARPGNYRAPKYLFAAAAGVDIVHPSCIEQCT---VCLETTNYLLPVGRSALLDRGLIFYPGGYNVHGGYDEISSNTSLGGDYDTWRPTRGRPFHGKSVLIHLGACTPHKPPG--------LELTLWAAGAQVATIGPD----------GLGGFLGSTGDSNSDLERVVNLLEQGRFECFIGLEEGSCGNSGGGVGSERLAGKPHATTRKQLVRAARGAGVQAGTMEWAAQCILHGRIL--DVCTCPWFPL 6497
G G+ GL P S +G++LTGL + R ++E+ + GG ++ G + D + WI S R + A R +I VA P + R K+ A AAG+ IVHPS + C+ + Y+LP+GRSAL DRGL+ P G RGRPF GK+++ C G LT+ A A V G G T LE + L++ G+ C IG + G++ + + AA G AG++EWA QCI+HGR+L + TCPWFPL
Sbjct: 1252 GEGSEQGLEMGG--PFSGLGVVLTGLRGEMRSELEASVTKLGGKVVKVAGGKVSDDDGWLSWILEEVRQSVAGGRDPKIGAEVGGMPNGDKPTPPLRRMITVATPDSDRTHKFQLALAAGMPIVHPSWVGACSSVATVIPPLGYILPLGRSALGDRGLLMPPVG------------------------SARGRPFQGKNIIF----CGDGLDGGKNAVDNWVFSLTVAGATAIVLHEGXXXXXXXXXDRKNAGAASPGTEAGQCTLEGALKLVKDGQVFCVIGPKSADGGSASASTAA--------------VEEAAEVMGTPAGSLEWATQCIIHGRLLLPNAGTCPWFPL 1559
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Taxonomic scope | Eukaryota |
| Seed ortholog score | 119.4 |
| Seed ortholog evalue | 2.2e-23 |
| Seed eggNOG ortholog | 2880.D7FW83 |
| EggNOG free text desc. | BRCA1 C Terminus (BRCT) domain |
| EggNOG OGs | 2CKM1@1,2S28W@2759 |
| COG Functional cat. | S |
| Best tax level | Eukaryota |
| Best eggNOG OG | NA|NA|NA |
| Hectar predicted targeting category | other localisation |
| Exons | 3 |
| Model size | 8484 |
| Cds size | 6837 |
| Stop | 1 |
| Start | 1 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622929070.618087-UTR-H-fluviatilis_contig1029:11044..11157 | 1622929070.618087-UTR-H-fluviatilis_contig1029:11044..11157 | Heribaudiella fluviatilis SAG_13_90 | UTR | H-fluviatilis_contig1029 11045..11157 + |
| 1691135171.5655684-UTR-H-fluviatilis_contig1029:11044..11157 | 1691135171.5655684-UTR-H-fluviatilis_contig1029:11044..11157 | Heribaudiella fluviatilis SAG_13_90 | UTR | H-fluviatilis_contig1029 11045..11157 + |
| 1622929070.6899137-UTR-H-fluviatilis_contig1029:20476..22010 | 1622929070.6899137-UTR-H-fluviatilis_contig1029:20476..22010 | Heribaudiella fluviatilis SAG_13_90 | UTR | H-fluviatilis_contig1029 20477..22010 + |
| 1691135171.608113-UTR-H-fluviatilis_contig1029:20476..22010 | 1691135171.608113-UTR-H-fluviatilis_contig1029:20476..22010 | Heribaudiella fluviatilis SAG_13_90 | UTR | H-fluviatilis_contig1029 20477..22010 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622929070.6321542-CDS-H-fluviatilis_contig1029:11157..11644 | 1622929070.6321542-CDS-H-fluviatilis_contig1029:11157..11644 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 11158..11644 + |
| 1691135171.5784318-CDS-H-fluviatilis_contig1029:11157..11644 | 1691135171.5784318-CDS-H-fluviatilis_contig1029:11157..11644 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 11158..11644 + |
| 1622929070.6518028-CDS-H-fluviatilis_contig1029:13604..15888 | 1622929070.6518028-CDS-H-fluviatilis_contig1029:13604..15888 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 13605..15888 + |
| 1691135171.5892284-CDS-H-fluviatilis_contig1029:13604..15888 | 1691135171.5892284-CDS-H-fluviatilis_contig1029:13604..15888 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 13605..15888 + |
| 1622929070.6660113-CDS-H-fluviatilis_contig1029:16410..20476 | 1622929070.6660113-CDS-H-fluviatilis_contig1029:16410..20476 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 16411..20476 + |
| 1691135171.6005328-CDS-H-fluviatilis_contig1029:16410..20476 | 1691135171.6005328-CDS-H-fluviatilis_contig1029:16410..20476 | Heribaudiella fluviatilis SAG_13_90 | CDS | H-fluviatilis_contig1029 16411..20476 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_H-fluviatilis_contig1029.607.1 >prot_H-fluviatilis_contig1029.607.1 ID=prot_H-fluviatilis_contig1029.607.1|Name=mRNA_H-fluviatilis_contig1029.607.1|organism=Heribaudiella fluviatilis SAG_13_90|type=polypeptide|length=2279bp
MDDTMLEEEDVHSRQFESGDENDKVQEERHLREQGSTQCETHHLGDDHDH
EVIHSRNVANDGNDDDQVEVLPVSSCEGDSIEDGEVTETEDENRTFRPDG
LVHTEQDAWIADNCDKSCLEKVARRSLDDDEVDLAGNVRRLGRGWWSREG
ATGRESSRDGANANAHEAHRASRGGSEKSASDDRDGEISRGVAEVNGSDT
EVPVEARGGDADDGQMQCAAPTQRDSPEVPSRAGGRREESCSAGSSLNLH
LPFSSLASHDVATNQRRRGCGGEGDGGAQDIIRSQQTILSHGVTHDRAEY
DGGVGSDGSDEEEEHEAVDGAQVDALSQLRLGSPSPDSPSKPKDPPQNEL
RSRAPSPPRRTGQGSGVFLARNARLVTSAAATATTGGAESIGATGYPDDK
PRENLAASASTLEPPTGEGVVLATVAQAALSEGRSLPPPSAASSPPSTTT
TASAPAAVNKDAADAKRAANLTLIYQESGRANALPKEGVSQGADHSASGF
LSSDEPSRGRAGRNREGMAMSSSPPPAPAVGWIDAQIAMAASKPGSSTAG
KHVQQGDLSRNRDEETPTVGAARCWLKPSRTNSNSATRASAPLPAAMATI
ATKGSSLTGTINTLELGGWIRRGRTRMADGGGARSACPNGVEDISDLSTQ
EGSLLSQSILGLGIPADRRALPPEPPTAATSNMGGTGREGQVEESSFEWQ
ETPAAGAQEEEGQEEDVGTLTVLSSLVDTQDVLANGDLSQMERIQHEKQL
EANRRIDRLLKSTLPGETDAVAQEEMFDEGSSLNPSLSNRDPRPCSGGTA
SQTGNGKRFAFTAGREAKDREGGPFDSDSDPAQSSVTVGKQDGLAPRRAT
PGGVGRGGIIRGAIVKGKQMKPSAEVLAKQKGGQGTLDGSGCGESGWGPA
CNTPAAYVGGLGSSKGVRKRKSPSSPAGIPQAQQKSVFSFDSAEDDDDGR
VSAKKKRRGDSEPKSAEKLGGGRGKGKGKVTANSENDLPIRSAGIKRSIN
SDLNAVDASRGGSAPATGEKRDRQGKSSVSDTRPGASQQKAGTCQLSGVA
GIITSAADQGEAPKRKEARVESSGLRDGRCERLASHDPDVSDVDEDADVD
EPGDAGAGAAAAAEADARAMAEMQRFELTSGSGTGRDDDNDDDEDDDDDN
RDERNDNRLHHQVADTAVAPRSGVESRRATNLDTSTCGGAAPDGLSAAST
SVRTPASGAASASDGETSYARPSGTERVVHSAAIATTRYPRRVRAGFGSA
TGVTAVPAVSAEAVLAGSAAAYVISWPCLWEFLKLEGWKCVYSKQKLIDR
LYLRPGQSQCSPYGEDGPFKSEDAVCDYVRRNEKIFASFRQFDEQENTSD
ESVDGSGNEGNCQSGSCAHETNVGVRSVSRVKDGNATRNGSIDKEIADDV
PSDANVSDRGQPDGRRCGGTNGRNVPGQLAANRDNPGVDADTDAGPIVPA
SRSRVSSNTRSRKHASVGDGDAVATAQANSSGRGRARNVTSVLRDTSETD
RLPNICGVGREGTAPSGSPFAGRHGEQLEEWSLARHREPRHKSQKKDPPH
VPKPNDESTRDPPAAGKRRGRPPKPQMTKPVDPALVARPSSVRSGGRNTI
GCIGDALGNGAEPHADNGTEDEDYVQTQEQPELRSALNMMQMEENVGCMV
SSERDLTDGLGNTSDDQTTRIDARAGAAGSEYTAANRRTEDKAKCGHSTT
AAVARRVAGATSAFPLGGSPQPRRGQTVAPRPVKRGRQATVTTTAFDPRV
SPSLPMSDDRRGGDNGGPTPSRRHGTPSRLDRTRPTSPRSLVLNRGSADR
GSSSGDGDDQHGRQLESPSSGVGNSSGLRCSSRRPLSNVGIILTGLSKDY
RKKVESLIKAKGGTLITFPSGPGTPDGNYRHWISCGNSRSQSVNARSVIA
VARPGNYRAPKYLFAAAAGVDIVHPSCIEQCTVCLETTNYLLPVGRSALL
DRGLIFYPGGYNVHGGYDEISSNTSLGGDYDTWRPTRGRPFHGKSVLIHL
GACTPHKPPGLELTLWAAGAQVATIGPDGLGGFLGSTGDSNSDLERVVNL
LEQGRFECFIGLEEGSCGNSGGGVGSERLAGKPHATTRKQLVRAARGAGV
QAGTMEWAAQCILHGRILDVCTCPWFPLEVTEDGGGSVRSLANGSRGGNG
GNKNNGKGRTTHTCFFSYLTADQDSRHGGRYVAGDYVILSASAAVRQVGR
VESFRRATDGTVKAIVTLMSISVESREISEEEKDGKSMQKVVKTSRLGAR
VIVVAPDKNYPCTYAFRDPNVFVQKSRG* back to topmRNA from alignment at H-fluviatilis_contig1029:11045..22010+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_H-fluviatilis_contig1029.607.1 ID=mRNA_H-fluviatilis_contig1029.607.1|Name=mRNA_H-fluviatilis_contig1029.607.1|organism=Heribaudiella fluviatilis SAG_13_90|type=mRNA|length=10966bp|location=Sequence derived from alignment at H-fluviatilis_contig1029:11045..22010+ (Heribaudiella fluviatilis SAG_13_90)
CCCTGTGCCTGTACAGGCGGCCAATGGTTTCTCTGTGTGTCCTGTGTTCG
GTATTCTAGCCTGCATGACTGCGGTGAAACCTCTTTTCAATCCCTCCACG
TTGCCCCACAAGGATGGACGATACGATGTTGGAAGAAGAGGACGTTCACA
GTCGCCAGTTTGAGAGTGGTGACGAGAATGACAAAGTGCAAGAAGAACGA
CACCTGCGTGAGCAGGGCAGCACCCAGTGCGAAACACACCATCTCGGTGA
TGATCATGATCACGAGGTTATTCACAGCAGAAATGTTGCAAACGATGGCA
ATGACGATGATCAAGTGGAAGTGCTGCCGGTATCGTCTTGCGAAGGTGAC
AGCATAGAAGACGGTGAAGTCACAGAGACGGAGGATGAGAACAGAACCTT
TCGTCCCGACGGGCTTGTACACACAGAGCAAGACGCATGGATCGCCGACA
ACTGCGATAAGTCGTGCTTGGAGAAGGTCGCTCGGAGAAGTTTGGACGAT
GACGAGGTTGACCTGGCGGGCAACGTGCGAAGACTCGGGCGAGGCTGGTG
GTCGAGAGAGGGCGCCACGGGCAGAGAGAGCAGCCGCGACGGGGCGAACG
GTGAGTAGGTATAGAGCAATGTTTCGTGCAAGGCCGGGCGCTTCTGCTAT
GTGGTTAGTCTGTCCTGGTGTTTGCAACGGACCTGGTGTGTATGTTTTCA
GTTGCCCAGGATGTTGCCCGTTTTGCTGTAAGTTATGTAATACGTACGAG
CAATGAAGAAACCTTGTGTCATAACGTTACGCTGTGCACGTTTCTGTGAG
AACACAGTACACTGACTGACCGCAAATTTTATCGTACTGACAGTACAGTG
ACATCCCAAACCGAGGCAGGTGGTGTACAGCGTACGACCTAGTTTACCCG
TGTGCTGCGACCCAAGTCGGTACACGATCCCAGACCACCCCTGTGTGATC
CACCTGCTCTCCGTGGAGGAGTGACGGTGTTTCCCATTCAACAAGTTAAC
AGTGTACTTCAATATACGGGTTCGTACTCGCACGTGTTGCTCCAGAGTAC
CAAGTCGTTATACAAATGTGCGAGAAAAAATATGACACCACGCAGCTGGA
GGTCTCTTCATGCCCGCAGAATTGCTCGAGCAAACGCCTGCACGCCCGAA
CAGTTTCATATCTAGTCTTCCCGTTCTTTCACTTTGGTACATTACAGCAT
CAAGTATGTCTCCTAACCTTAATCCTGATCCTAATGCTTGACAGGGCCGA
CGCGGTTCACTGACTTCAAACGGCTTGTCGTTCTCCTCCTTCTCAAGTTC
ATTTTATTCCCATAAAATAGGATTGTTTACACTTCGCAGGGTAGTCCTCG
GGCAAATTTCCGCCGCACTGTTACCCCAGCAAAATCACGGTACGTGGGAA
TGCGTGAAATAATCGATTTCCCAGTACCGTACCGTACCCGGGAAAGGCAA
CACACAAATTTCCAGTACGGCGGTTGCGCAGAGAAGAATCCCTAGTACCG
TGCCGATCACAGCACTTGCAAAACTGAAATTCTCACCACCGTGCGGTACC
GTGCACTCCTTTCACGTGGTTTCTTGTACTGTGCTTCGTGCACTCCTGAA
CCATGAACCCTGTATTGCGGTCAAGGAATCATAGAGGAATCAATAAATAT
ATATACATACACGCACAGCAGGAGCTATGTTTGGTATTTGAATATTTTCT
GAGTATTTCGTTGAGACGGTGAAACAGACCCCAACCCTTGGCCGTTCAGG
CGAGCGGAAGATGTGGAAAACCAAATTGCGTAAACGCATCGTCATATTCC
ATAGATCGGTTGCTTGCGGCACGCACAGCGGCCAGAGCTCGGTATGCACG
CGACGAACGGCTAGCACGGGCATGAGAAGTTAGAACCAGGAACATTCTGT
TTTGCCATTTTGTACTCAAAACTGTGTATGTGTAGTCTGGGTTGCCCTCC
GGTAGAACAGCTGTGGACATTCCTCTATTGACGCATCGCTGTCGTCCTTC
CTTCGAAACATGACATTCGAAGTCTGGTGTTTGATGTATCGTCACCATCA
AACACAGCATGACATGTAAACAATCAGTAGCGCGGTGGCTAATTCCCGTA
CTGTACTTGGTACGGGCCAGAGTTCCCATTCCCGTACATTCGTTGGTGCG
GGCCAGATCGATATCTCCATTCCCGTACTGTGCTTGGTACTGGTCAGAAT
GATTTTCCGTTCCCCAAACCGGTGCTATTTCTGTCGTATGCCAAAACGGT
ACCGGGGCTACTCCTGATATTTTCCATCAGCGAAGTATAGTCAGAATTGC
AAGTTTTAGTCTTCTTTTGTGCGTCATGTGTGAATGTCCTGGTTGGTTTT
GGGGCGCGGAAGATTTTTTCTGATGATGCTTCGCACGGAGAGCTCGTTTC
ACTCGACAGCCTTGTTTGAAAAAGGGTTGAATGAAAGCCATGTCGTGCCA
TACTCCCGAAACAACGGTATGCACTGCATCGTTAGACTGAAAGGAAGCGC
ACATGCTCGCTCGTGGCTCCTGCCTCTCTGTTGTCTGTTGTTGCCCGCTT
CTTCCTGTAGCCAACGCGCACGAAGCTCACCGTGCTTCCAGGGGTGGTAG
CGAGAAGAGTGCAAGTGATGATAGAGACGGGGAGATCAGTCGTGGCGTGG
CAGAAGTCAACGGCAGCGATACCGAGGTCCCGGTTGAGGCCCGGGGCGGC
GATGCTGATGATGGTCAAATGCAATGTGCAGCCCCAACTCAAAGGGACAG
CCCAGAGGTGCCTTCTCGGGCTGGCGGTCGAAGAGAAGAGTCGTGCAGTG
CGGGATCCTCTCTGAACCTCCATCTGCCGTTTTCCTCACTAGCGTCTCAT
GACGTAGCCACAAATCAGCGTCGGAGGGGATGCGGCGGCGAGGGCGACGG
CGGTGCTCAGGATATCATTCGGTCGCAGCAAACCATTTTGTCACACGGAG
TGACCCATGACCGTGCAGAGTACGATGGAGGCGTTGGTAGCGATGGAAGT
GACGAGGAGGAGGAGCATGAGGCCGTGGACGGCGCCCAAGTAGACGCGCT
TTCTCAACTACGTTTGGGGTCGCCATCTCCCGACTCGCCGTCTAAGCCCA
AGGACCCACCTCAAAACGAATTGAGATCAAGAGCCCCATCTCCACCGCGG
CGCACTGGCCAAGGTAGCGGGGTGTTTCTCGCACGAAACGCAAGGCTTGT
CACTTCGGCTGCGGCGACAGCCACTACGGGCGGTGCAGAGAGCATTGGAG
CAACCGGGTATCCGGATGACAAACCCAGAGAAAACTTGGCGGCGTCGGCT
TCGACACTAGAACCCCCGACGGGCGAGGGAGTTGTGTTGGCAACGGTTGC
TCAAGCAGCTCTATCTGAGGGTCGCTCATTGCCTCCGCCCAGTGCAGCAT
CGTCTCCGCCATCCACCACCACTACCGCTTCGGCGCCAGCGGCAGTTAAC
AAGGATGCTGCTGATGCTAAACGCGCGGCTAATTTAACGTTGATATACCA
GGAATCGGGCAGAGCGAACGCTCTGCCAAAGGAGGGCGTGTCGCAAGGCG
CAGATCACTCAGCATCAGGTTTCCTGAGCTCTGATGAGCCGTCCAGGGGC
CGAGCGGGTAGGAATAGAGAAGGGATGGCCATGTCATCTTCACCGCCGCC
GGCTCCCGCTGTCGGATGGATCGATGCTCAAATCGCTATGGCCGCTTCAA
AACCGGGGTCGTCGACAGCAGGCAAGCATGTGCAGCAAGGCGATTTGTCC
AGGAATAGAGATGAGGAGACGCCGACCGTCGGCGCAGCTCGTTGCTGGCT
CAAACCAAGTCGGACCAACAGCAATTCGGCTACCCGCGCCAGCGCCCCGT
TGCCTGCGGCGATGGCGACGATCGCCACGAAGGGCTCTTCGCTGACGGGG
ACTATAAATACCCTAGAACTTGGAGGGTGGATTAGGCGGGGAAGGACGAG
AATGGCAGATGGAGGCGGCGCGCGTTCAGCATGCCCAAACGGGGTGGAGG
ATATATCTGACTTGAGTACGCAGGAGGGTTCGCTGCTGTCGCAAAGCATA
CTTGGGCTTGGCATCCCGGCGGACCGCCGAGCTTTGCCTCCCGAGCCGCC
CACGGCGGCAACGAGCAATATGGGGGGAACAGGAAGAGAAGGCCAGGTCG
AAGAATCTTCCTTTGAATGGCAAGAAACACCGGCGGCTGGAGCACAAGAA
GAGGAGGGGCAAGAGGAAGACGTGGGAACCCTTACAGTGCTCAGCTCGTT
GGTGGACACGCAGGATGTGCTTGCCAACGGGGATTTGTCTCAGATGGAGA
GGATTCAGCACGAGAAACAACTAGAGGCGAATCGTAGAATAGATCGTCTT
TTGAAGAGCACGCTGCCGGGAGAGACGGATGCCGTCGCCCAAGAGGAAAT
GTTCGATGAAGGGAGTAGCCTGAATCCGTCTCTGTCGAACCGGGACCCCC
GGCCATGCAGTGGTGGTACCGCTTCCCAAACGGGCAATGGAAAGCGATTT
GCTTTTACCGCGGGAAGAGAGGCCAAAGACAGGGAGGGAGGGCCATTCGA
CAGTGATAGCGATCCTGCGCAATCCAGTGTAACGGTCGGTAAGCAGGACG
GACTTGCGCCCCGGCGAGCCACGCCGGGTGGAGTCGGCCGCGGCGGCATC
ATCCGTGGAGCAATAGTAAAAGGCAAACAAATGAAACCAAGCGCCGAAGT
CTTGGCGAAGCAAAAAGGGGGACAAGGAACGCTTGATGGCAGTGGATGCG
GGGAGAGCGGATGGGGACCCGCATGTAACACGCCCGCGGCGTATGTTGGA
GGACTGGGCTCGAGTAAGGGTGTGCGAAAGCGTAAATCACCAAGGCACGA
GAACACCAGGCGTGCAGTATTTTTGTCGTCGACTGTTTCCGTCAGGTCGA
AGAAAACCGAAATTTGAAGTTGTACCGGTACATACCAAGACAAGGGTAAT
TCGAGGTCGGAGTCTTGTTACCAAACGCAACGACTCTTGCTGTCCCGGAT
ATCTTGCCCTTTCTGTTTGTATTAACAATATAATTTATCGTTTGCTTGCA
CCGAACATATATGTCACAAATCAGAGCCCTTCCGAGACACCATGCTACAC
TCGCGTGTTTCTCGCTTTTTTGTGATGTGAGACTGCCACAGTATGGTTTA
TGTGGCTGCTAGCTGGCGCGGCACATGTGGACTCAACGCAACTGCTTTCC
CTTTTGAATATTTGTGCCCTTCTCCTGTCTGCGCTAGTTGAATCGGAGAA
GGCGAAATTGCTCCACGTACGATGTTATGTGCCATGTTTCCCGTCAAGCT
CACTTCCGAACCTGCTACTCTTCGCTTTGCGTCTGCATCTGCTCCCTCCC
CTCGATACCTCGCTAGTTCTCCTGCTGGCATCCCGCAAGCACAACAAAAG
AGCGTCTTCTCGTTTGACAGCGCCGAGGATGACGACGATGGACGCGTTTC
TGCGAAGAAAAAGCGGCGTGGAGATTCTGAGCCCAAGAGCGCCGAGAAGC
TGGGCGGCGGGCGCGGGAAGGGTAAGGGAAAGGTGACCGCGAATAGTGAA
AATGATCTCCCTATCCGCAGTGCCGGCATCAAACGAAGCATCAACAGCGA
TCTCAATGCTGTTGATGCTTCCCGCGGCGGCTCTGCCCCTGCCACCGGCG
AAAAACGCGACCGCCAAGGCAAATCCAGCGTGAGCGACACCCGACCAGGT
GCCTCACAACAGAAGGCGGGAACATGCCAGCTGAGCGGTGTTGCTGGTAT
AATTACAAGTGCTGCCGACCAGGGGGAAGCTCCGAAGAGAAAGGAGGCGA
GGGTGGAAAGTTCTGGACTCAGGGATGGGCGATGTGAACGTTTAGCAAGT
CACGATCCCGATGTTTCAGATGTGGACGAGGACGCTGACGTGGACGAACC
GGGTGACGCTGGCGCCGGTGCTGCCGCTGCCGCTGAGGCTGATGCTAGAG
CGATGGCAGAAATGCAACGATTTGAGCTCACATCTGGATCTGGCACTGGC
CGCGACGACGACAATGATGATGATGAAGACGATGACGATGATAATCGTGA
TGAGAGAAACGATAATCGCCTCCATCATCAAGTGGCGGATACCGCTGTCG
CGCCTCGTAGTGGCGTTGAGAGCAGGAGAGCGACAAACTTGGACACGAGT
ACATGTGGTGGTGCCGCGCCCGATGGACTTTCCGCAGCCAGTACCTCCGT
ACGTACTCCCGCGAGTGGTGCAGCAAGTGCTTCCGATGGTGAGACTTCCT
ATGCGAGGCCCTCAGGTACCGAAAGGGTCGTTCATTCTGCTGCGATCGCG
ACGACTCGATACCCCCGCCGCGTCCGTGCGGGTTTCGGCAGTGCCACTGG
TGTGACGGCAGTACCGGCGGTATCGGCAGAGGCGGTGCTTGCGGGTAGCG
CCGCTGCGTACGTAATCTCGTGGCCTTGCTTATGGGAATTTCTCAAGTTG
GAGGGTTGGAAGTGTGTCTATTCAAAGCAAAAATTGATTGATCGCCTGTA
CCTCAGGCCGGGTCAGTCACAATGTTCTCCCTACGGCGAGGACGGTCCCT
TTAAGTCTGAGGATGCGGTATGCGATTACGTGCGCCGAAACGAAAAAATC
TTCGCAAGCTTTCGTCAGTTCGACGAACAAGAGAACACCAGTGACGAAAG
CGTGGACGGTAGTGGGAATGAGGGCAATTGCCAGAGTGGCAGCTGCGCAC
ATGAAACGAATGTGGGCGTCAGGAGTGTTTCAAGAGTGAAGGATGGGAAT
GCAACGCGCAACGGCAGTATCGACAAAGAGATAGCTGATGACGTTCCTTC
GGATGCCAACGTGAGCGATAGGGGACAACCCGATGGCAGAAGGTGTGGCG
GCACGAATGGAAGAAACGTGCCGGGTCAACTCGCTGCAAATCGAGATAAT
CCCGGTGTCGACGCAGACACGGACGCCGGGCCGATCGTTCCCGCGTCCAG
AAGTAGAGTCAGCAGTAATACAAGAAGTAGGAAACATGCTTCTGTGGGTG
ACGGCGACGCTGTGGCAACCGCTCAGGCGAACAGCAGTGGTAGGGGACGA
GCCCGCAACGTAACCAGCGTTCTACGTGATACCAGCGAGACAGACCGCCT
CCCGAACATTTGCGGAGTGGGCCGAGAAGGGACAGCCCCTTCCGGAAGCC
CATTTGCTGGCAGACATGGAGAACAGCTGGAGGAGTGGAGCCTTGCACGT
CATAGGGAGCCCAGACACAAGTCCCAGAAAAAGGATCCGCCGCACGTTCC
GAAGCCAAACGATGAATCGACGCGTGATCCACCTGCGGCGGGCAAACGCC
GCGGGCGTCCGCCGAAGCCACAGATGACCAAGCCTGTGGATCCGGCGTTA
GTGGCGCGTCCATCGTCAGTAAGATCGGGTGGTAGGAACACTATCGGATG
CATTGGTGACGCGTTGGGAAATGGGGCGGAACCTCATGCCGATAATGGGA
CGGAAGATGAGGACTATGTGCAAACGCAGGAACAGCCCGAGCTGCGGTCA
GCGCTAAACATGATGCAGATGGAGGAGAACGTAGGATGCATGGTCTCAAG
CGAGCGGGATTTGACTGATGGTCTCGGAAACACCTCCGACGATCAAACCA
CGAGGATAGACGCGCGTGCAGGAGCTGCGGGTTCTGAGTACACAGCCGCA
AATCGACGCACGGAGGACAAGGCCAAATGCGGCCACAGTACTACTGCGGC
AGTGGCTCGTCGTGTTGCTGGGGCTACGTCCGCATTTCCACTAGGTGGCT
CGCCGCAGCCGCGAAGGGGACAGACCGTTGCTCCGCGGCCTGTAAAACGG
GGCCGCCAAGCAACCGTCACAACTACAGCGTTTGATCCTAGGGTGTCGCC
TTCCCTGCCTATGAGCGATGATCGGAGAGGCGGCGACAACGGCGGCCCGA
CGCCTTCTAGACGCCACGGAACTCCCTCAAGGCTTGACAGGACCCGCCCG
ACGTCCCCTCGAAGCTTGGTGCTCAACCGTGGCAGTGCCGATCGCGGTAG
TTCTAGTGGAGACGGTGATGACCAACATGGTCGTCAGCTAGAGTCTCCGT
CATCAGGAGTAGGCAACTCGTCCGGCCTCCGCTGCTCATCCCGACGACCG
TTGTCAAACGTAGGTATAATACTTACCGGTCTGAGCAAGGATTATCGGAA
AAAAGTGGAGAGTCTGATCAAGGCGAAGGGAGGCACCCTCATTACGTTCC
CCTCCGGCCCTGGCACGCCCGACGGAAATTACAGGCATTGGATTTCTTGC
GGAAACTCGAGGTCGCAGAGCGTCAACGCTCGATCAGTGATCGCCGTGGC
CAGGCCGGGGAACTACCGTGCACCCAAATATCTGTTCGCCGCCGCTGCTG
GTGTGGATATTGTGCATCCCTCGTGCATTGAGCAATGTACAGTATGCTTG
GAGACGACGAACTACCTGCTGCCGGTTGGTCGCTCGGCTCTCTTGGATCG
CGGACTCATTTTTTATCCCGGAGGGTACAACGTGCATGGCGGATATGACG
AGATTAGTAGCAACACTTCGCTCGGCGGGGACTACGACACATGGCGGCCG
ACCAGAGGGAGACCTTTTCACGGAAAGAGTGTCCTTATACACCTTGGCGC
GTGTACGCCGCACAAGCCACCAGGCTTGGAGCTCACTCTGTGGGCAGCAG
GTGCTCAGGTGGCTACGATTGGGCCGGATGGCTTGGGTGGTTTTCTGGGA
AGCACTGGAGACAGCAACAGCGACCTTGAGAGGGTTGTAAATCTTTTGGA
GCAAGGAAGGTTTGAGTGCTTCATAGGTCTAGAAGAGGGCTCCTGCGGCA
ATAGCGGCGGCGGCGTTGGTAGTGAGAGGTTGGCCGGAAAACCACACGCA
ACCACGAGGAAACAGCTCGTCAGGGCAGCTCGTGGAGCAGGCGTTCAGGC
CGGCACCATGGAGTGGGCAGCACAATGCATATTGCACGGACGCATACTCG
ATGTGTGCACGTGCCCGTGGTTCCCACTGGAAGTAACCGAGGACGGCGGA
GGCAGCGTCCGCTCGTTGGCCAATGGATCCCGTGGTGGAAACGGGGGCAA
CAAAAATAATGGTAAAGGGAGAACAACTCATACCTGCTTCTTCTCGTACC
TTACGGCCGACCAGGATTCGCGCCATGGCGGGCGGTACGTGGCGGGCGAC
TACGTGATTCTCAGCGCCAGCGCCGCGGTTCGCCAGGTGGGGCGCGTGGA
GTCCTTCCGGCGCGCAACGGATGGCACCGTCAAGGCTATCGTAACGTTGA
TGTCGATATCCGTTGAAAGCAGGGAGATCTCCGAGGAGGAAAAAGATGGA
AAGAGCATGCAGAAGGTCGTGAAGACGAGCAGGCTTGGTGCGAGAGTTAT
TGTTGTAGCTCCTGACAAGAATTATCCGTGCACGTACGCCTTCCGTGATC
CCAACGTCTTTGTTCAGAAAAGTAGAGGATGATGCCGTTTAAAGCTGAAG
CGCCGTTTCGTGTTGAGACGGCAGGGAAGCTGTTGACAGGCGACGATATG
GTGCCATTGCCTCCTGTATGTGTGTGGTCAGTGGTAAAATTTCTGTTCTT
GTTTTGAGCAAGCATTGAGGGTAAGGTGAGGTTAAGATATTTCATATGAT
CAAGAAAAGGTGTTACAACCCTACCCGGCGTGATGGAAAGGGGCCGGACA
CGAACCTTGAGTGTAAGTATTGTGGAGTTGATTGGGGTGCAACGTTCGGC
GATCTGTGCGTTGTGTGTTTATGTGTATGTATTGACGAAAGACGCTCGTT
TTTGCACTAATAGCGTCGTGGTGATCGAGTGCATTTTTTTGTGTGATCTT
GGGTCTGGAAGTACCTGGTATGCTGCTACACATCGTGGTGTCACTGCGAT
GGAGCAGTGATTATTGATGACACACCGCCCCATCCGATTGCACGCGCCGA
GTCACCGTTGCCAACCTCTCCGTACAGTTGGTAGTTTGTGTTTTTTCTCA
CGCTTATTGCTCAGTGTAGCGCATTTTTTCTTTACGCAGAGATAAAAACC
TCGGGAATTGTTGATTTCATGGTCGCATTTCGTCCCCAGCCAACAGCAGG
CCTTCACACAACACATATCGGTTGGACGTTAATACGCGGGTCATGTTCTC
GCGCTTCTTCGTTAGATTTAAGTAAGTAGTACTGAGTGAAGGGGCCTTAA
TTGAATGTACACGGGACAACAACAGCGGCCAGTGTTCGATGGCATGTCAC
AAGCATGATAGCGATAACAAGCAGCCGTAGTAGTAGCGCAAGTTCGGCGG
GTTGGCTGACTTCTCCGGGCGCTGGTAATAGCCAGTATATGTTTTGAGTT
TGGTTGTGTGTTTGTCTCCTCGTGCGATGTTGTCACGTGAGTGTTCCTTT
CGTCAAGGGGGGGGGGGGCTGTTCACAGTTCACGCGCAGGGGTCGTGATA
TATTGGAGCAAATCGGGTTTGATTAATCATTACTTCTTGTTCGGGCTAAT
AGAAGAAGAATGCTTCCCAAGGCCGTGACGCGGCTGTAACGTCGAACTGA
TTCCCTGCTTATTTTTCGATAGCTTGAATAACGGTTGTCAACTTATGATT
CTGTTACTCTGAAAACAGTTTTCGTTCCTGCACAACGATCACGCTCGCTC
TATAGAAACCCAGGTGTCAGGGCGCAATCTCACGGGCACGTCACAATCCC
ACACTACCCTCCGCGCCCCCTCGTCTTCCTTGGGCACGACATGCCCTAAG
TTTGAGTAGAAGCGGAAACCGGTTTTGCTTTGATCGTCCCTACAAGTCGG
AGAGTGGTGAGGCCGGAGGATGTGGTCGATGAGCTCCCGCGCTTCCTGTA
GGCACGTCTCGTTGGTCACCTGCACACACGGGACACCGGCGAAGAAGAGG
TTTCCCACGCGCGATAGTCAGTGCGGGATACCTACGCGACAGAAACTTTG
CCAGGGCGTTGTGTAATTCTGATCAAGCAGGCTTCGACTGAATAGCGTCA
GCTTGTTACACAAAAG back to topCoding sequence (CDS) from alignment at H-fluviatilis_contig1029:11045..22010+ >mRNA_H-fluviatilis_contig1029.607.1 ID=mRNA_H-fluviatilis_contig1029.607.1|Name=mRNA_H-fluviatilis_contig1029.607.1|organism=Heribaudiella fluviatilis SAG_13_90|type=CDS|length=13674bp|location=Sequence derived from alignment at H-fluviatilis_contig1029:11045..22010+ (Heribaudiella fluviatilis SAG_13_90)
ATGGACGATACGATGTTGGAAGAAGAGGACGTTCACAGTCGCCAGTTTGA
GAGTGGTGACGAGAATGACAAAGTGCAAGAAGAACGACACCTGCGTGAGC
AGGGCAGCACCCAGTGCGAAACACACCATCTCGGTGATGATCATGATCAC
GAGGTTATTCACAGCAGAAATGTTGCAAACGATGGCAATGACGATGATCA
AGTGGAAGTGCTGCCGGTATCGTCTTGCGAAGGTGACAGCATAGAAGACG
GTGAAGTCACAGAGACGGAGGATGAGAACAGAACCTTTCGTCCCGACGGG
CTTGTACACACAGAGCAAGACGCATGGATCGCCGACAACTGCGATAAGTC
GTGCTTGGAGAAGGTCGCTCGGAGAAGTTTGGACGATGACGAGGTTGACC
TGGCGGGCAACGTGCGAAGACTCGGGCGAGGCTGGTGGTCGAGAGAGGGC
GCCACGGGCAGAGAGAGCAGCCGCGACGGGGCGAACGATGGACGATACGA
TGTTGGAAGAAGAGGACGTTCACAGTCGCCAGTTTGAGAGTGGTGACGAG
AATGACAAAGTGCAAGAAGAACGACACCTGCGTGAGCAGGGCAGCACCCA
GTGCGAAACACACCATCTCGGTGATGATCATGATCACGAGGTTATTCACA
GCAGAAATGTTGCAAACGATGGCAATGACGATGATCAAGTGGAAGTGCTG
CCGGTATCGTCTTGCGAAGGTGACAGCATAGAAGACGGTGAAGTCACAGA
GACGGAGGATGAGAACAGAACCTTTCGTCCCGACGGGCTTGTACACACAG
AGCAAGACGCATGGATCGCCGACAACTGCGATAAGTCGTGCTTGGAGAAG
GTCGCTCGGAGAAGTTTGGACGATGACGAGGTTGACCTGGCGGGCAACGT
GCGAAGACTCGGGCGAGGCTGGTGGTCGAGAGAGGGCGCCACGGGCAGAG
AGAGCAGCCGCGACGGGGCGAACGCCAACGCGCACGAAGCTCACCGTGCT
TCCAGGGGTGGTAGCGAGAAGAGTGCAAGTGATGATAGAGACGGGGAGAT
CAGTCGTGGCGTGGCAGAAGTCAACGGCAGCGATACCGAGGTCCCGGTTG
AGGCCCGGGGCGGCGATGCTGATGATGGTCAAATGCAATGTGCAGCCCCA
ACTCAAAGGGACAGCCCAGAGGTGCCTTCTCGGGCTGGCGGTCGAAGAGA
AGAGTCGTGCAGTGCGGGATCCTCTCTGAACCTCCATCTGCCGTTTTCCT
CACTAGCGTCTCATGACGTAGCCACAAATCAGCGTCGGAGGGGATGCGGC
GGCGAGGGCGACGGCGGTGCTCAGGATATCATTCGGTCGCAGCAAACCAT
TTTGTCACACGGAGTGACCCATGACCGTGCAGAGTACGATGGAGGCGTTG
GTAGCGATGGAAGTGACGAGGAGGAGGAGCATGAGGCCGTGGACGGCGCC
CAAGTAGACGCGCTTTCTCAACTACGTTTGGGGTCGCCATCTCCCGACTC
GCCGTCTAAGCCCAAGGACCCACCTCAAAACGAATTGAGATCAAGAGCCC
CATCTCCACCGCGGCGCACTGGCCAAGGTAGCGGGGTGTTTCTCGCACGA
AACGCAAGGCTTGTCACTTCGGCTGCGGCGACAGCCACTACGGGCGGTGC
AGAGAGCATTGGAGCAACCGGGTATCCGGATGACAAACCCAGAGAAAACT
TGGCGGCGTCGGCTTCGACACTAGAACCCCCGACGGGCGAGGGAGTTGTG
TTGGCAACGGTTGCTCAAGCAGCTCTATCTGAGGGTCGCTCATTGCCTCC
GCCCAGTGCAGCATCGTCTCCGCCATCCACCACCACTACCGCTTCGGCGC
CAGCGGCAGTTAACAAGGATGCTGCTGATGCTAAACGCGCGGCTAATTTA
ACGTTGATATACCAGGAATCGGGCAGAGCGAACGCTCTGCCAAAGGAGGG
CGTGTCGCAAGGCGCAGATCACTCAGCATCAGGTTTCCTGAGCTCTGATG
AGCCGTCCAGGGGCCGAGCGGGTAGGAATAGAGAAGGGATGGCCATGTCA
TCTTCACCGCCGCCGGCTCCCGCTGTCGGATGGATCGATGCTCAAATCGC
TATGGCCGCTTCAAAACCGGGGTCGTCGACAGCAGGCAAGCATGTGCAGC
AAGGCGATTTGTCCAGGAATAGAGATGAGGAGACGCCGACCGTCGGCGCA
GCTCGTTGCTGGCTCAAACCAAGTCGGACCAACAGCAATTCGGCTACCCG
CGCCAGCGCCCCGTTGCCTGCGGCGATGGCGACGATCGCCACGAAGGGCT
CTTCGCTGACGGGGACTATAAATACCCTAGAACTTGGAGGGTGGATTAGG
CGGGGAAGGACGAGAATGGCAGATGGAGGCGGCGCGCGTTCAGCATGCCC
AAACGGGGTGGAGGATATATCTGACTTGAGTACGCAGGAGGGTTCGCTGC
TGTCGCAAAGCATACTTGGGCTTGGCATCCCGGCGGACCGCCGAGCTTTG
CCTCCCGAGCCGCCCACGGCGGCAACGAGCAATATGGGGGGAACAGGAAG
AGAAGGCCAGGTCGAAGAATCTTCCTTTGAATGGCAAGAAACACCGGCGG
CTGGAGCACAAGAAGAGGAGGGGCAAGAGGAAGACGTGGGAACCCTTACA
GTGCTCAGCTCGTTGGTGGACACGCAGGATGTGCTTGCCAACGGGGATTT
GTCTCAGATGGAGAGGATTCAGCACGAGAAACAACTAGAGGCGAATCGTA
GAATAGATCGTCTTTTGAAGAGCACGCTGCCGGGAGAGACGGATGCCGTC
GCCCAAGAGGAAATGTTCGATGAAGGGAGTAGCCTGAATCCGTCTCTGTC
GAACCGGGACCCCCGGCCATGCAGTGGTGGTACCGCTTCCCAAACGGGCA
ATGGAAAGCGATTTGCTTTTACCGCGGGAAGAGAGGCCAAAGACAGGGAG
GGAGGGCCATTCGACAGTGATAGCGATCCTGCGCAATCCAGTGTAACGGT
CGGTAAGCAGGACGGACTTGCGCCCCGGCGAGCCACGCCGGGTGGAGTCG
GCCGCGGCGGCATCATCCGTGGAGCAATAGTAAAAGGCAAACAAATGAAA
CCAAGCGCCGAAGTCTTGGCGAAGCAAAAAGGGGGACAAGGAACGCTTGA
TGGCAGTGGATGCGGGGAGAGCGGATGGGGACCCGCATGTAACACGCCCG
CGGCGTATGTTGGAGGACTGGGCTCGAGTAAGGGTGTGCGAAAGCGTAAA
TCACCAAGCCAACGCGCACGAAGCTCACCGTGCTTCCAGGGGTGGTAGCG
AGAAGAGTGCAAGTGATGATAGAGACGGGGAGATCAGTCGTGGCGTGGCA
GAAGTCAACGGCAGCGATACCGAGGTCCCGGTTGAGGCCCGGGGCGGCGA
TGCTGATGATGGTCAAATGCAATGTGCAGCCCCAACTCAAAGGGACAGCC
CAGAGGTGCCTTCTCGGGCTGGCGGTCGAAGAGAAGAGTCGTGCAGTGCG
GGATCCTCTCTGAACCTCCATCTGCCGTTTTCCTCACTAGCGTCTCATGA
CGTAGCCACAAATCAGCGTCGGAGGGGATGCGGCGGCGAGGGCGACGGCG
GTGCTCAGGATATCATTCGGTCGCAGCAAACCATTTTGTCACACGGAGTG
ACCCATGACCGTGCAGAGTACGATGGAGGCGTTGGTAGCGATGGAAGTGA
CGAGGAGGAGGAGCATGAGGCCGTGGACGGCGCCCAAGTAGACGCGCTTT
CTCAACTACGTTTGGGGTCGCCATCTCCCGACTCGCCGTCTAAGCCCAAG
GACCCACCTCAAAACGAATTGAGATCAAGAGCCCCATCTCCACCGCGGCG
CACTGGCCAAGGTAGCGGGGTGTTTCTCGCACGAAACGCAAGGCTTGTCA
CTTCGGCTGCGGCGACAGCCACTACGGGCGGTGCAGAGAGCATTGGAGCA
ACCGGGTATCCGGATGACAAACCCAGAGAAAACTTGGCGGCGTCGGCTTC
GACACTAGAACCCCCGACGGGCGAGGGAGTTGTGTTGGCAACGGTTGCTC
AAGCAGCTCTATCTGAGGGTCGCTCATTGCCTCCGCCCAGTGCAGCATCG
TCTCCGCCATCCACCACCACTACCGCTTCGGCGCCAGCGGCAGTTAACAA
GGATGCTGCTGATGCTAAACGCGCGGCTAATTTAACGTTGATATACCAGG
AATCGGGCAGAGCGAACGCTCTGCCAAAGGAGGGCGTGTCGCAAGGCGCA
GATCACTCAGCATCAGGTTTCCTGAGCTCTGATGAGCCGTCCAGGGGCCG
AGCGGGTAGGAATAGAGAAGGGATGGCCATGTCATCTTCACCGCCGCCGG
CTCCCGCTGTCGGATGGATCGATGCTCAAATCGCTATGGCCGCTTCAAAA
CCGGGGTCGTCGACAGCAGGCAAGCATGTGCAGCAAGGCGATTTGTCCAG
GAATAGAGATGAGGAGACGCCGACCGTCGGCGCAGCTCGTTGCTGGCTCA
AACCAAGTCGGACCAACAGCAATTCGGCTACCCGCGCCAGCGCCCCGTTG
CCTGCGGCGATGGCGACGATCGCCACGAAGGGCTCTTCGCTGACGGGGAC
TATAAATACCCTAGAACTTGGAGGGTGGATTAGGCGGGGAAGGACGAGAA
TGGCAGATGGAGGCGGCGCGCGTTCAGCATGCCCAAACGGGGTGGAGGAT
ATATCTGACTTGAGTACGCAGGAGGGTTCGCTGCTGTCGCAAAGCATACT
TGGGCTTGGCATCCCGGCGGACCGCCGAGCTTTGCCTCCCGAGCCGCCCA
CGGCGGCAACGAGCAATATGGGGGGAACAGGAAGAGAAGGCCAGGTCGAA
GAATCTTCCTTTGAATGGCAAGAAACACCGGCGGCTGGAGCACAAGAAGA
GGAGGGGCAAGAGGAAGACGTGGGAACCCTTACAGTGCTCAGCTCGTTGG
TGGACACGCAGGATGTGCTTGCCAACGGGGATTTGTCTCAGATGGAGAGG
ATTCAGCACGAGAAACAACTAGAGGCGAATCGTAGAATAGATCGTCTTTT
GAAGAGCACGCTGCCGGGAGAGACGGATGCCGTCGCCCAAGAGGAAATGT
TCGATGAAGGGAGTAGCCTGAATCCGTCTCTGTCGAACCGGGACCCCCGG
CCATGCAGTGGTGGTACCGCTTCCCAAACGGGCAATGGAAAGCGATTTGC
TTTTACCGCGGGAAGAGAGGCCAAAGACAGGGAGGGAGGGCCATTCGACA
GTGATAGCGATCCTGCGCAATCCAGTGTAACGGTCGGTAAGCAGGACGGA
CTTGCGCCCCGGCGAGCCACGCCGGGTGGAGTCGGCCGCGGCGGCATCAT
CCGTGGAGCAATAGTAAAAGGCAAACAAATGAAACCAAGCGCCGAAGTCT
TGGCGAAGCAAAAAGGGGGACAAGGAACGCTTGATGGCAGTGGATGCGGG
GAGAGCGGATGGGGACCCGCATGTAACACGCCCGCGGCGTATGTTGGAGG
ACTGGGCTCGAGTAAGGGTGTGCGAAAGCGTAAATCACCAAGTTCTCCTG
CTGGCATCCCGCAAGCACAACAAAAGAGCGTCTTCTCGTTTGACAGCGCC
GAGGATGACGACGATGGACGCGTTTCTGCGAAGAAAAAGCGGCGTGGAGA
TTCTGAGCCCAAGAGCGCCGAGAAGCTGGGCGGCGGGCGCGGGAAGGGTA
AGGGAAAGGTGACCGCGAATAGTGAAAATGATCTCCCTATCCGCAGTGCC
GGCATCAAACGAAGCATCAACAGCGATCTCAATGCTGTTGATGCTTCCCG
CGGCGGCTCTGCCCCTGCCACCGGCGAAAAACGCGACCGCCAAGGCAAAT
CCAGCGTGAGCGACACCCGACCAGGTGCCTCACAACAGAAGGCGGGAACA
TGCCAGCTGAGCGGTGTTGCTGGTATAATTACAAGTGCTGCCGACCAGGG
GGAAGCTCCGAAGAGAAAGGAGGCGAGGGTGGAAAGTTCTGGACTCAGGG
ATGGGCGATGTGAACGTTTAGCAAGTCACGATCCCGATGTTTCAGATGTG
GACGAGGACGCTGACGTGGACGAACCGGGTGACGCTGGCGCCGGTGCTGC
CGCTGCCGCTGAGGCTGATGCTAGAGCGATGGCAGAAATGCAACGATTTG
AGCTCACATCTGGATCTGGCACTGGCCGCGACGACGACAATGATGATGAT
GAAGACGATGACGATGATAATCGTGATGAGAGAAACGATAATCGCCTCCA
TCATCAAGTGGCGGATACCGCTGTCGCGCCTCGTAGTGGCGTTGAGAGCA
GGAGAGCGACAAACTTGGACACGAGTACATGTGGTGGTGCCGCGCCCGAT
GGACTTTCCGCAGCCAGTACCTCCGTACGTACTCCCGCGAGTGGTGCAGC
AAGTGCTTCCGATGGTGAGACTTCCTATGCGAGGCCCTCAGGTACCGAAA
GGGTCGTTCATTCTGCTGCGATCGCGACGACTCGATACCCCCGCCGCGTC
CGTGCGGGTTTCGGCAGTGCCACTGGTGTGACGGCAGTACCGGCGGTATC
GGCAGAGGCGGTGCTTGCGGGTAGCGCCGCTGCGTACGTAATCTCGTGGC
CTTGCTTATGGGAATTTCTCAAGTTGGAGGGTTGGAAGTGTGTCTATTCA
AAGCAAAAATTGATTGATCGCCTGTACCTCAGGCCGGGTCAGTCACAATG
TTCTCCCTACGGCGAGGACGGTCCCTTTAAGTCTGAGGATGCGGTATGCG
ATTACGTGCGCCGAAACGAAAAAATCTTCGCAAGCTTTCGTCAGTTCGAC
GAACAAGAGAACACCAGTGACGAAAGCGTGGACGGTAGTGGGAATGAGGG
CAATTGCCAGAGTGGCAGCTGCGCACATGAAACGAATGTGGGCGTCAGGA
GTGTTTCAAGAGTGAAGGATGGGAATGCAACGCGCAACGGCAGTATCGAC
AAAGAGATAGCTGATGACGTTCCTTCGGATGCCAACGTGAGCGATAGGGG
ACAACCCGATGGCAGAAGGTGTGGCGGCACGAATGGAAGAAACGTGCCGG
GTCAACTCGCTGCAAATCGAGATAATCCCGGTGTCGACGCAGACACGGAC
GCCGGGCCGATCGTTCCCGCGTCCAGAAGTAGAGTCAGCAGTAATACAAG
AAGTAGGAAACATGCTTCTGTGGGTGACGGCGACGCTGTGGCAACCGCTC
AGGCGAACAGCAGTGGTAGGGGACGAGCCCGCAACGTAACCAGCGTTCTA
CGTGATACCAGCGAGACAGACCGCCTCCCGAACATTTGCGGAGTGGGCCG
AGAAGGGACAGCCCCTTCCGGAAGCCCATTTGCTGGCAGACATGGAGAAC
AGCTGGAGGAGTGGAGCCTTGCACGTCATAGGGAGCCCAGACACAAGTCC
CAGAAAAAGGATCCGCCGCACGTTCCGAAGCCAAACGATGAATCGACGCG
TGATCCACCTGCGGCGGGCAAACGCCGCGGGCGTCCGCCGAAGCCACAGA
TGACCAAGCCTGTGGATCCGGCGTTAGTGGCGCGTCCATCGTCAGTAAGA
TCGGGTGGTAGGAACACTATCGGATGCATTGGTGACGCGTTGGGAAATGG
GGCGGAACCTCATGCCGATAATGGGACGGAAGATGAGGACTATGTGCAAA
CGCAGGAACAGCCCGAGCTGCGGTCAGCGCTAAACATGATGCAGATGGAG
GAGAACGTAGGATGCATGGTCTCAAGCGAGCGGGATTTGACTGATGGTCT
CGGAAACACCTCCGACGATCAAACCACGAGGATAGACGCGCGTGCAGGAG
CTGCGGGTTCTGAGTACACAGCCGCAAATCGACGCACGGAGGACAAGGCC
AAATGCGGCCACAGTACTACTGCGGCAGTGGCTCGTCGTGTTGCTGGGGC
TACGTCCGCATTTCCACTAGGTGGCTCGCCGCAGCCGCGAAGGGGACAGA
CCGTTGCTCCGCGGCCTGTAAAACGGGGCCGCCAAGCAACCGTCACAACT
ACAGCGTTTGATCCTAGGGTGTCGCCTTCCCTGCCTATGAGCGATGATCG
GAGAGGCGGCGACAACGGCGGCCCGACGCCTTCTAGACGCCACGGAACTC
CCTCAAGGCTTGACAGGACCCGCCCGACGTCCCCTCGAAGCTTGGTGCTC
AACCGTGGCAGTGCCGATCGCGGTAGTTCTAGTGGAGACGGTGATGACCA
ACATGGTCGTCAGCTAGAGTCTCCGTCATCAGGAGTAGGCAACTCGTCCG
GCCTCCGCTGCTCATCCCGACGACCGTTGTCAAACGTAGGTATAATACTT
ACCGGTCTGAGCAAGGATTATCGGAAAAAAGTGGAGAGTCTGATCAAGGC
GAAGGGAGGCACCCTCATTACGTTCCCCTCCGGCCCTGGCACGCCCGACG
GAAATTACAGGCATTGGATTTCTTGCGGAAACTCGAGGTCGCAGAGCGTC
AACGCTCGATCAGTGATCGCCGTGGCCAGGCCGGGGAACTACCGTGCACC
CAAATATCTGTTCGCCGCCGCTGCTGGTGTGGATATTGTGCATCCCTCGT
GCATTGAGCAATGTACAGTATGCTTGGAGACGACGAACTACCTGCTGCCG
GTTGGTCGCTCGGCTCTCTTGGATCGCGGACTCATTTTTTATCCCGGAGG
GTACAACGTGCATGGCGGATATGACGAGATTAGTAGCAACACTTCGCTCG
GCGGGGACTACGACACATGGCGGCCGACCAGAGGGAGACCTTTTCACGGA
AAGAGTGTCCTTATACACCTTGGCGCGTGTACGCCGCACAAGCCACCAGG
CTTGGAGCTCACTCTGTGGGCAGCAGGTGCTCAGGTGGCTACGATTGGGC
CGGATGGCTTGGGTGGTTTTCTGGGAAGCACTGGAGACAGCAACAGCGAC
CTTGAGAGGGTTGTAAATCTTTTGGAGCAAGGAAGGTTTGAGTGCTTCAT
AGGTCTAGAAGAGGGCTCCTGCGGCAATAGCGGCGGCGGCGTTGGTAGTG
AGAGGTTGGCCGGAAAACCACACGCAACCACGAGGAAACAGCTCGTCAGG
GCAGCTCGTGGAGCAGGCGTTCAGGCCGGCACCATGGAGTGGGCAGCACA
ATGCATATTGCACGGACGCATACTCGATGTGTGCACGTGCCCGTGGTTCC
CACTGGAAGTAACCGAGGACGGCGGAGGCAGCGTCCGCTCGTTGGCCAAT
GGATCCCGTGGTGGAAACGGGGGCAACAAAAATAATGGTAAAGGGAGAAC
AACTCATACCTGCTTCTTCTCGTACCTTACGGCCGACCAGGATTCGCGCC
ATGGCGGGCGGTACGTGGCGGGCGACTACGTGATTCTCAGCGCCAGCGCC
GCGGTTCGCCAGGTGGGGCGCGTGGAGTCCTTCCGGCGCGCAACGGATGG
CACCGTCAAGGCTATCGTAACGTTGATGTCGATATCCGTTGAAAGCAGGG
AGATCTCCGAGGAGGAAAAAGATGGAAAGAGCATGCAGAAGGTCGTGAAG
ACGAGCAGGCTTGGTGCGAGAGTTATTGTTGTAGCTCCTGACAAGAATTA
TCCGTGCACGTACGCCTTCCGTGATCCCAACGTCTTTGTTCAGAAAAGTA
GAGGATGATTCTCCTGCTGGCATCCCGCAAGCACAACAAAAGAGCGTCTT
CTCGTTTGACAGCGCCGAGGATGACGACGATGGACGCGTTTCTGCGAAGA
AAAAGCGGCGTGGAGATTCTGAGCCCAAGAGCGCCGAGAAGCTGGGCGGC
GGGCGCGGGAAGGGTAAGGGAAAGGTGACCGCGAATAGTGAAAATGATCT
CCCTATCCGCAGTGCCGGCATCAAACGAAGCATCAACAGCGATCTCAATG
CTGTTGATGCTTCCCGCGGCGGCTCTGCCCCTGCCACCGGCGAAAAACGC
GACCGCCAAGGCAAATCCAGCGTGAGCGACACCCGACCAGGTGCCTCACA
ACAGAAGGCGGGAACATGCCAGCTGAGCGGTGTTGCTGGTATAATTACAA
GTGCTGCCGACCAGGGGGAAGCTCCGAAGAGAAAGGAGGCGAGGGTGGAA
AGTTCTGGACTCAGGGATGGGCGATGTGAACGTTTAGCAAGTCACGATCC
CGATGTTTCAGATGTGGACGAGGACGCTGACGTGGACGAACCGGGTGACG
CTGGCGCCGGTGCTGCCGCTGCCGCTGAGGCTGATGCTAGAGCGATGGCA
GAAATGCAACGATTTGAGCTCACATCTGGATCTGGCACTGGCCGCGACGA
CGACAATGATGATGATGAAGACGATGACGATGATAATCGTGATGAGAGAA
ACGATAATCGCCTCCATCATCAAGTGGCGGATACCGCTGTCGCGCCTCGT
AGTGGCGTTGAGAGCAGGAGAGCGACAAACTTGGACACGAGTACATGTGG
TGGTGCCGCGCCCGATGGACTTTCCGCAGCCAGTACCTCCGTACGTACTC
CCGCGAGTGGTGCAGCAAGTGCTTCCGATGGTGAGACTTCCTATGCGAGG
CCCTCAGGTACCGAAAGGGTCGTTCATTCTGCTGCGATCGCGACGACTCG
ATACCCCCGCCGCGTCCGTGCGGGTTTCGGCAGTGCCACTGGTGTGACGG
CAGTACCGGCGGTATCGGCAGAGGCGGTGCTTGCGGGTAGCGCCGCTGCG
TACGTAATCTCGTGGCCTTGCTTATGGGAATTTCTCAAGTTGGAGGGTTG
GAAGTGTGTCTATTCAAAGCAAAAATTGATTGATCGCCTGTACCTCAGGC
CGGGTCAGTCACAATGTTCTCCCTACGGCGAGGACGGTCCCTTTAAGTCT
GAGGATGCGGTATGCGATTACGTGCGCCGAAACGAAAAAATCTTCGCAAG
CTTTCGTCAGTTCGACGAACAAGAGAACACCAGTGACGAAAGCGTGGACG
GTAGTGGGAATGAGGGCAATTGCCAGAGTGGCAGCTGCGCACATGAAACG
AATGTGGGCGTCAGGAGTGTTTCAAGAGTGAAGGATGGGAATGCAACGCG
CAACGGCAGTATCGACAAAGAGATAGCTGATGACGTTCCTTCGGATGCCA
ACGTGAGCGATAGGGGACAACCCGATGGCAGAAGGTGTGGCGGCACGAAT
GGAAGAAACGTGCCGGGTCAACTCGCTGCAAATCGAGATAATCCCGGTGT
CGACGCAGACACGGACGCCGGGCCGATCGTTCCCGCGTCCAGAAGTAGAG
TCAGCAGTAATACAAGAAGTAGGAAACATGCTTCTGTGGGTGACGGCGAC
GCTGTGGCAACCGCTCAGGCGAACAGCAGTGGTAGGGGACGAGCCCGCAA
CGTAACCAGCGTTCTACGTGATACCAGCGAGACAGACCGCCTCCCGAACA
TTTGCGGAGTGGGCCGAGAAGGGACAGCCCCTTCCGGAAGCCCATTTGCT
GGCAGACATGGAGAACAGCTGGAGGAGTGGAGCCTTGCACGTCATAGGGA
GCCCAGACACAAGTCCCAGAAAAAGGATCCGCCGCACGTTCCGAAGCCAA
ACGATGAATCGACGCGTGATCCACCTGCGGCGGGCAAACGCCGCGGGCGT
CCGCCGAAGCCACAGATGACCAAGCCTGTGGATCCGGCGTTAGTGGCGCG
TCCATCGTCAGTAAGATCGGGTGGTAGGAACACTATCGGATGCATTGGTG
ACGCGTTGGGAAATGGGGCGGAACCTCATGCCGATAATGGGACGGAAGAT
GAGGACTATGTGCAAACGCAGGAACAGCCCGAGCTGCGGTCAGCGCTAAA
CATGATGCAGATGGAGGAGAACGTAGGATGCATGGTCTCAAGCGAGCGGG
ATTTGACTGATGGTCTCGGAAACACCTCCGACGATCAAACCACGAGGATA
GACGCGCGTGCAGGAGCTGCGGGTTCTGAGTACACAGCCGCAAATCGACG
CACGGAGGACAAGGCCAAATGCGGCCACAGTACTACTGCGGCAGTGGCTC
GTCGTGTTGCTGGGGCTACGTCCGCATTTCCACTAGGTGGCTCGCCGCAG
CCGCGAAGGGGACAGACCGTTGCTCCGCGGCCTGTAAAACGGGGCCGCCA
AGCAACCGTCACAACTACAGCGTTTGATCCTAGGGTGTCGCCTTCCCTGC
CTATGAGCGATGATCGGAGAGGCGGCGACAACGGCGGCCCGACGCCTTCT
AGACGCCACGGAACTCCCTCAAGGCTTGACAGGACCCGCCCGACGTCCCC
TCGAAGCTTGGTGCTCAACCGTGGCAGTGCCGATCGCGGTAGTTCTAGTG
GAGACGGTGATGACCAACATGGTCGTCAGCTAGAGTCTCCGTCATCAGGA
GTAGGCAACTCGTCCGGCCTCCGCTGCTCATCCCGACGACCGTTGTCAAA
CGTAGGTATAATACTTACCGGTCTGAGCAAGGATTATCGGAAAAAAGTGG
AGAGTCTGATCAAGGCGAAGGGAGGCACCCTCATTACGTTCCCCTCCGGC
CCTGGCACGCCCGACGGAAATTACAGGCATTGGATTTCTTGCGGAAACTC
GAGGTCGCAGAGCGTCAACGCTCGATCAGTGATCGCCGTGGCCAGGCCGG
GGAACTACCGTGCACCCAAATATCTGTTCGCCGCCGCTGCTGGTGTGGAT
ATTGTGCATCCCTCGTGCATTGAGCAATGTACAGTATGCTTGGAGACGAC
GAACTACCTGCTGCCGGTTGGTCGCTCGGCTCTCTTGGATCGCGGACTCA
TTTTTTATCCCGGAGGGTACAACGTGCATGGCGGATATGACGAGATTAGT
AGCAACACTTCGCTCGGCGGGGACTACGACACATGGCGGCCGACCAGAGG
GAGACCTTTTCACGGAAAGAGTGTCCTTATACACCTTGGCGCGTGTACGC
CGCACAAGCCACCAGGCTTGGAGCTCACTCTGTGGGCAGCAGGTGCTCAG
GTGGCTACGATTGGGCCGGATGGCTTGGGTGGTTTTCTGGGAAGCACTGG
AGACAGCAACAGCGACCTTGAGAGGGTTGTAAATCTTTTGGAGCAAGGAA
GGTTTGAGTGCTTCATAGGTCTAGAAGAGGGCTCCTGCGGCAATAGCGGC
GGCGGCGTTGGTAGTGAGAGGTTGGCCGGAAAACCACACGCAACCACGAG
GAAACAGCTCGTCAGGGCAGCTCGTGGAGCAGGCGTTCAGGCCGGCACCA
TGGAGTGGGCAGCACAATGCATATTGCACGGACGCATACTCGATGTGTGC
ACGTGCCCGTGGTTCCCACTGGAAGTAACCGAGGACGGCGGAGGCAGCGT
CCGCTCGTTGGCCAATGGATCCCGTGGTGGAAACGGGGGCAACAAAAATA
ATGGTAAAGGGAGAACAACTCATACCTGCTTCTTCTCGTACCTTACGGCC
GACCAGGATTCGCGCCATGGCGGGCGGTACGTGGCGGGCGACTACGTGAT
TCTCAGCGCCAGCGCCGCGGTTCGCCAGGTGGGGCGCGTGGAGTCCTTCC
GGCGCGCAACGGATGGCACCGTCAAGGCTATCGTAACGTTGATGTCGATA
TCCGTTGAAAGCAGGGAGATCTCCGAGGAGGAAAAAGATGGAAAGAGCAT
GCAGAAGGTCGTGAAGACGAGCAGGCTTGGTGCGAGAGTTATTGTTGTAG
CTCCTGACAAGAATTATCCGTGCACGTACGCCTTCCGTGATCCCAACGTC
TTTGTTCAGAAAAGTAGAGGATGA back to top
|