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Homology
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: D8LH20_ECTSI (Fe2OG dioxygenase domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LH20_ECTSI) HSP 1 Score: 496 bits (1276), Expect = 1.410e-171 Identity = 251/345 (72.75%), Postives = 280/345 (81.16%), Query Frame = 3
Query: 156 AVMQREGEGEASAAKDDRRDGRCFKRLMSAASTSRSQPTCHLCVMGVAERDDDALREVSLSFGEVSSIARNAKNKGIRVVTYGNTADATAAHAALGADLAPRIGRTATVNFVEYFSP-PKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRVRDPDVACACDFEQSCDREIPVATATFLKK 1187
A + +G G A + G C++RL PT H+C+MGV+ERDDDA+ EVSLSFG+VSSI RNAKN+GIRVVTY ADATAA A L A LAPR+GRT V+F P P+ LRCT ETA VDVPGLTL++GFV E+EE +LL+HFVQ D V WTGPL+RRVQH+GRVFDYHTRHVDFDAPAPPLPECL+ V+R M +RGLKPS PDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKN++LPR SLLVMEG ARYEWSHGIASRKTD V GVL RR+TR+S TFRRVRDP VAC CDF +SCDRE PVATATFLKK
Sbjct: 11 ATIDSQGLGSAVGPTTGGQQG-CYERLRGDGG-----PTRHVCLMGVSERDDDAVGEVSLSFGKVSSIERNAKNRGIRVVTYDAVADATAAQAGLAAGLAPRMGRTVAVHFCSLVPPKPREGLRCTSETAGVDVPGLTLIKGFVTEEEEGSLLKHFVQGDDVRWTGPLKRRVQHFGRVFDYHTRHVDFDAPAPPLPECLTDVVREMGDRGLKPSDPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNLYLPRGSLLVMEGPARYEWSHGIASRKTDMVDGVLTRRATRISFTFRRVRDPAVACGCDFAKSCDRETPVATATFLKK 349
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A813IB55_POLGL (Hypothetical protein n=1 Tax=Polarella glacialis TaxID=89957 RepID=A0A813IB55_POLGL) HSP 1 Score: 189 bits (479), Expect = 7.950e-52 Identity = 131/324 (40.43%), Postives = 173/324 (53.40%), Query Frame = 3
Query: 267 PTCHL----CVMGVAERDD---DALREVSLSFG-EVSSIARNAKNKGIRVVTYGNTADATAAHAALGADLAPRIGRTATVNFVEYFSPPKADL---RCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRV--------------KNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVA-GVLMRRSTRVSLTFRRVRDPDVACACDFEQSCDREIP 1160
PT HL C G + ++ +ALR ++S G EV ++ G V+Y + ADA A A G A + + E+ S + + TA V+VPGL +L FV ++E ALL D+ W ++RRVQHYG FDY + P LP V+RR+ E GL P + +QLT+NEY+PG GI+ HVDTHSAFEDG+A+++LGSG VM+ R P + KNV+LP SLLVM G ARY W HGIA RKTD + G ++ RS RVSLTFRR R C C + CD + P
Sbjct: 23 PTRHLYLANCGRGRGDSEEAVLEALRAATISPGSEVQALYL-----GDAGVSYASFADAETAKRAKGGLEAALTSWV--IRYAEHDSEGTSGVLLPASVASTAHVEVPGLQVLPYFVSDEEAKALLAAV---DANAWDTTIKRRVQHYGHAFDYARLTIAEGGDVPELPSFCGGVVRRIAESGLMPEQVNQLTINEYEPGVGIALHVDTHSAFEDGIAAVTLGSGLVMEFRRPQLIGAACSSAGSPPAEASQKNVWLPPNSLLVMSGEARYAWQHGIAWRKTDCLEEGEVLPRSRRVSLTFRRARGRP--CDCRWPSMCDGQNP 334
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A0G4IWK2_PLABS (Alkylated DNA repair protein alkB homolog 8 n=1 Tax=Plasmodiophora brassicae TaxID=37360 RepID=A0A0G4IWK2_PLABS) HSP 1 Score: 189 bits (480), Expect = 4.100e-50 Identity = 121/305 (39.67%), Postives = 160/305 (52.46%), Query Frame = 3
Query: 255 SRSQPTCHLCVMGVAERDDDA---LREVSLSFGEVSSIARNAKNKGIRVVTYGNTADATAAHAALGADLAPRIGRTATVNFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVK-NVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRVRDPDVACACDFEQSCDREI 1157
++++PT H+ + G R D L +V +G+V + A + V T A A L A + R+ T+ + P + L TA V VPGL L+ F+ E++EA+LL W RRRV H+G FDY T VD + PPLP L + RM GL P R DQ+T+NEY PG GI H+DTHSAF DG+AS++ G+ VM DG K +V LPRRSLLVM G+ARY W H I R+ D + G + R TR S TFR V + +C C FE CDR +
Sbjct: 10 NQAEPTPHVLIRGTGHRLGDTGEFLYDVLGQYGDVVDVQVPAL-RSHAVATMATPAQAQRVVGELSGHPALQ-SRSLTLTYCMPRGDPFSGLDDVSSTARVAVPGLRLVHDFITEEQEASLLAMLTGASG--WVTLSRRRVLHFGVKFDYRTNDVDVNGVVPPLPPELQVLAERMHRDGLTPFRCDQVTVNEYVPGAGIPAHIDTHSAFHDGIASITAGAETVMTFTDDDGEGNKVDVLLPRRSLLVMNGAARYAWRHAIRCRRYDRIDGDVRERHTRTSFTFRAV-NYSRSCTCAFESKCDRHV 309
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A6B2LAX0_9EUKA (Fe2OG dioxygenase domain-containing protein (Fragment) n=1 Tax=Arcella intermedia TaxID=1963864 RepID=A0A6B2LAX0_9EUKA) HSP 1 Score: 182 bits (462), Expect = 6.310e-50 Identity = 104/244 (42.62%), Postives = 142/244 (58.20%), Query Frame = 3
Query: 372 KNKGIRVVTYGNTADATAAHAALGADLAPRIGRTATVNFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRVR 1103
K+K +VT+ A +A L L P I + + F SP + +VPGL ++E F+ E+EE +L+ Q W +R VQHYG + Y T VD D LP + +++RM + G+ PDQLT+N+YKPG GI PHVDTHS FE+ L SLSLG+ +M+ RHP+G ++ V LPRRSL++M+G +RY WSHGIA RKTD + GV + R R+SLTFR R
Sbjct: 69 KSKPYSMVTFHTVEAAKSAFLELNNKLCPLIDKMLILEF-SLLSPE--------DDTPKEVPGLIMMEQFISEEEEQHILEALNQSQ---WIRLSQRYVQHYGYAYRYETNDVDPDHKIGDLPTFTTDIVKRMMDTGMVEHIPDQLTVNKYKPGSGIPPHVDTHSIFEEALISLSLGAPVIMEFRHPEG-QIIPVLLPRRSLIIMKGESRYLWSHGIAPRKTDLIDGVQVPREERISLTFRITR 299
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A6G0X979_9STRA (Alkylated DNA repair protein alkB homolog 8 n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0X979_9STRA) HSP 1 Score: 186 bits (473), Expect = 3.340e-49 Identity = 111/269 (41.26%), Postives = 156/269 (57.99%), Query Frame = 3
Query: 309 DDALREVSLSFGEVSSIARNAKNKGIRVVTYGNTADATAAHAALGADLAPRIG-RTATVNFVEYFSPPKA---DLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRH-PDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRV 1100
++A+ + FG V + +A +G +VT+ + A A A +AL +G R + F + P + L CT TA + +PGL++++GF+ + EA ++ D++ W ++RRVQHYG F Y TR VD +AP P+P + VL + + RPDQ+T+NEY PGQGI+PHVDT F D +AS+SLGS VMD R D VK+V L R SL +M G ARY W HGIA RK D V G L++R R+SLT R+V
Sbjct: 34 EEAILDTFSQFGAVCGLY-SADERGYILVTFSDAATAARARSALNGTSPDTLGNRKVFIQFSDNAPQPTSLEFSLSCTSATAQLVIPGLSIIDGFLSPEMEAVMIDSI---DALPWQDSIQRRVQHYGFAFRYDTRDVDVNAPLGPMPSFCNTVLTTLGDIRPDIERPDQITINEYMPGQGIAPHVDTPGVFTDYIASVSLGSDIVMDFRLVSDPSIVKHVHLKRGSLCLMVGEARYLWKHGIAYRKHDLVQGRLVKRDRRLSLTLRKV 298
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A485KTN4_9STRA (Alkylated DNA repair protein alkB homolog 8 n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485KTN4_9STRA) HSP 1 Score: 186 bits (472), Expect = 4.390e-49 Identity = 118/287 (41.11%), Postives = 158/287 (55.05%), Query Frame = 3
Query: 267 PTCHLCVMGVAERDDDALREVSL--SFGEVSSIAR--NAKNKGIRVVTYGNTADATAAHAAL-GADLAPRIGRTATVNFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRV-KNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRVRDP 1109
PT +L V + + EV++ +FG ++ + +G ++T+ +TA A A AL GA A R + F + L CT TA + +PGL++LEGFV EEAAL++ D+ W ++RRVQHYG F Y TR VD +AP +P + VL + +RPDQ+T+NEY+PGQGI+PHVDT F + +ASLSLGS VMD R V K V L R SL +M G ARY W HGIA RK D V G R+ R+SLT R+ P
Sbjct: 15 PTRYLYVANCTVGGEHGVGEVAILDTFGSYGAVCDLYSEDERGYVLITFNDTAAAAQARDALNGASPAALGARKLFIQFSDKAPAATTSLSCTSTTAQLVIPGLSILEGFVSPAEEAALIERI---DAQPWEDSIQRRVQHYGFAFRYDTRDVDVNAPLGDMPSFCTEVLNAIARVRPDIARPDQITINEYEPGQGIAPHVDTPGVFTEYIASLSLGSDIVMDFRLASNPSVVKRVHLKRGSLCLMVGEARYLWKHGIAYRKHDLVNGHAQMRTRRLSLTLRKAVMP 298
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: A0A8K1C657_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1C657_PYTOL) HSP 1 Score: 187 bits (475), Expect = 7.300e-49 Identity = 111/270 (41.11%), Postives = 154/270 (57.04%), Query Frame = 3
Query: 390 VVTYGNTADATAAHAALGADLAPRIGRTATVNFVEYFSPPKAD------LRCT-------LETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLR-RRVQHYGRVFDYHTRHVDFDAPAP-PLPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRSTRVSLTFRRVRDPDVACACDFEQSCDRE 1154
++ +GN DA AL I + V +VE+ P K LR T LE +PGL LL F+ ++EAAL+ F +DD W ++ R+VQHYG F+Y TR D P P P+P L ++ + + PDQ+T+NEY PGQGI+ H+DTHSAF + +ASLSLG+ VM+ RHPDG R ++V L RSLL+M G++RYEW+H I R D + GV + R R+S+TFR+++ V C CDF CD +
Sbjct: 106 LIEFGNADDAVKVRDALHEKPCELISQR--VMYVEFAMPRKEKEARDSFLRVTNISRIRSLEDPSTRIPGLVLLPEFITLEQEAALIDEFDRDDRAHWKNTVKARQVQHYGFEFNYETRRCHEDQPLPEPMPSTLQTLIDHIPPSIM--DTPDQITVNEYMPGQGIAAHIDTHSAFTNAIASLSLGNEIVMEFRHPDG-RCESVLLQPRSLLIMTGASRYEWTHAIPPRLFDVIDGVRVDRKRRLSITFRKIQS--VPCTCDFPVQCDAQ 368
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: L8H3U3_ACACA (Alkylated DNA repair protein alkB homolog 8 n=1 Tax=Acanthamoeba castellanii str. Neff TaxID=1257118 RepID=L8H3U3_ACACA) HSP 1 Score: 186 bits (471), Expect = 1.030e-48 Identity = 113/246 (45.93%), Postives = 139/246 (56.50%), Query Frame = 3
Query: 465 GRTATVNFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVLRRM----------EERGLKPSR-----PDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLMRRS-TRVSLTFRRVRDPDVACACDFEQSCDRE 1154
GR + E KA T V+V GL + F+ E EE LL V+D S W RRRVQH+G FDY TR++D P LP+ +S V++RM E G K R DQLT+NEY+ G GI H+DTHSAF DG+ SLSLGS CVM + PD + K+VFLPRRSLLVM G+ARY+W H I R+ D V G L++R RVS TFRRVR C C F + CD +
Sbjct: 134 GRKLRFEYAELKQSEKAQAEDVALTQHVEVEGLYVFYDFIDETEEQRLLAA-VKDKS--WNTLPRRRVQHWGYEFDYKTRNIDITKPLGGLPDFVSEVVKRMNDAAVVEEEDEATGTKVQRRRWPESDQLTVNEYEEGVGIGAHIDTHSAFHDGIISLSLGSSCVMTLSLPDSSQHKSVFLPRRSLLVMTGAARYQWRHAIPFRRYDCVHGQLIKREGKRVSFTFRRVRGHP--CDCRFAEECDSQ 374
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: UPI000BA7F59C (alkylated DNA repair protein alkB homolog 8-like isoform X1 n=3 Tax=Limulus polyphemus TaxID=6850 RepID=UPI000BA7F59C) HSP 1 Score: 181 bits (458), Expect = 1.410e-48 Identity = 106/217 (48.85%), Postives = 137/217 (63.13%), Query Frame = 3
Query: 555 PGLTLLEGFVGEDEEAALLQHFVQDD-------SVVWTGPLR-RRVQHYGRVFDYHTRHVDFDAPAP-PLPECLSRVLRRMEE-RGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGV-------LMRRSTRVSLTFRRVRDPDVACACDFEQSCDRE 1154
PGL LLE F+ E+EE L++ V+++ +VV L+ R+V+HYG F+Y T +VD D P P+P + LRR+++ GL P PDQLT+N+Y PGQGI PH+DTHSAFEDG+ SLSLGS VMD ++P G V LPRRS L+M G +RY WSHGI RKTD V LM R TRVSLTFR +R + C C + + CD +
Sbjct: 157 PGLILLEDFLTEEEENLLMELDVKEEKEDDINNTVVCHRSLKHRQVKHYGFEFNYRTNNVDKDHPLKEPIPTICIQHLRRIQDITGLFPKLPDQLTVNKYLPGQGIPPHIDTHSAFEDGIISLSLGSQIVMDFQNPAGEHVP-FLLPRRSALIMTGESRYSWSHGITPRKTDVVPDTDHSGQLTLMHRRTRVSLTFRVIRRGE--CNCGYPKQCDSQ 370
BLAST of mRNA_D-dudresnayi_contig1009.127.1 vs. uniprot
Match: UPI001864F1B0 (alkylated DNA repair protein alkB homolog 8 n=1 Tax=Megalops cyprinoides TaxID=118141 RepID=UPI001864F1B0) HSP 1 Score: 185 bits (470), Expect = 4.940e-48 Identity = 122/288 (42.36%), Postives = 151/288 (52.43%), Query Frame = 3
Query: 393 VTYGNTADATAAHAALGADLAPRIGRTATV--NFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALLQHFVQDDSVVWTGP----------LRRRVQHYGRVFDYHTRHVDFDAPAPP-LPECLSRVLRRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGCVMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAG----------------VLMRRSTRVSLTFRRVRDPDVACACDFEQSCDREIPVAT 1169
VTYG+ DA AH +L G++ T+ +FVE C E + PGL +LE FV +EEA LL S+ W P RRV+HYG F Y +VD D P P LP+ VL R + +PDQLT+N+Y+PGQGI PHVDTHSAFED + SLSLG+ VMD RHPDG V V LP RSLLVM+G +RY W+HGI RK D V L +R+TR S TFR+VR C C + +CD + AT
Sbjct: 88 VTYGSVEDAQRAHTSLNGRQLHCQGQSVTLYLSFVEKVG-------CESEVSTQLPPGLKVLEQFVSPEEEARLL------GSIEWASPNDVVTAQKALKHRRVKHYGYEFRYDNNNVDKDKPLPGGLPQVCDAVLERCLQENHIDVKPDQLTINQYEPGQGIPPHVDTHSAFEDTILSLSLGAKTVMDFRHPDGRSVA-VVLPARSLLVMKGESRYLWTHGITPRKFDMVPACDSATPQMVTSDPGDLTLSKRATRTSFTFRKVRRSP--CDCAYPSACDSQCAPAT 359
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 | 493.8 |
| Seed ortholog evalue | 6.5e-137 |
| Seed eggNOG ortholog | 2880.D8LH20 |
| Preferred name | ALKBH8 |
| KEGG ko | ko:K10770,ko:K14685,ko:K17867,ko:K18670 |
| KEGG TC | 2.A.100.1 |
| KEGG Pathway | ko04216,ko04978,map04216,map04978 |
| GOs | GO:0000049,GO:0001510,GO:0002097,GO:0002098,GO:0003674,GO:0003676,GO:0003723,GO:0003824,GO:0005488,GO:0005506,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0005829,GO:0006139,GO:0006396,GO:0006399,GO:0006400,GO:0006725,GO:0006807,GO:0006950,GO:0006974,GO:0008033,GO:0008150,GO:0008152,GO:0008168,GO:0008173,GO:0008175,GO:0008198,GO:0008270,GO:0009451,GO:0009987,GO:0010467,GO:0016070,GO:0016300,GO:0016491,GO:0016604,GO:0016705,GO:0016706,GO:0016740,GO:0016741,GO:0030488,GO:0031974,GO:0031981,GO:0032259,GO:0033554,GO:0034470,GO:0034641,GO:0034660,GO:0043167,GO:0043169,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043412,GO:0043414,GO:0044237,GO:0044238,GO:0044260,GO:0044422,GO:0044424,GO:0044428,GO:0044444,GO:0044446,GO:0044451,GO:0044464,GO:0046483,GO:0046872,GO:0046914,GO:0050896,GO:0051213,GO:0051716,GO:0055114,GO:0070013,GO:0071704,GO:0090304,GO:0097159,GO:0140098,GO:0140101,GO:1901360,GO:1901363 |
| EggNOG free text desc. | dioxygenase activity |
| EggNOG OGs | COG3145@1,KOG4176@2759 |
| EC | 2.1.1.229,2.7.12.1 |
| COG Functional cat. | L |
| Best tax level | Eukaryota |
| Best eggNOG OG | NA|NA|NA |
| BRITE | ko00000,ko00001,ko01000,ko01001,ko02000,ko03012,ko03016 |
| Hectar predicted targeting category | other localisation |
| Exons | 7 |
| Model size | 1489 |
| Cds size | 1035 |
| Stop | 1 |
| Start | 1 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622927509.7318673-UTR-D-dudresnayi_contig1009:12812..12973 | 1622927509.7318673-UTR-D-dudresnayi_contig1009:12812..12973 | Desmarestia dudresnayi DdudBR16 monoicous | UTR | D-dudresnayi_contig1009 12813..12973 + |
| 1690556784.794033-UTR-D-dudresnayi_contig1009:12812..12973 | 1690556784.794033-UTR-D-dudresnayi_contig1009:12812..12973 | Desmarestia dudresnayi DdudBR16 monoicous | UTR | D-dudresnayi_contig1009 12813..12973 + |
| 1622927509.8345168-UTR-D-dudresnayi_contig1009:29073..29366 | 1622927509.8345168-UTR-D-dudresnayi_contig1009:29073..29366 | Desmarestia dudresnayi DdudBR16 monoicous | UTR | D-dudresnayi_contig1009 29074..29366 + |
| 1690556784.857206-UTR-D-dudresnayi_contig1009:29073..29366 | 1690556784.857206-UTR-D-dudresnayi_contig1009:29073..29366 | Desmarestia dudresnayi DdudBR16 monoicous | UTR | D-dudresnayi_contig1009 29074..29366 + |
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_D-dudresnayi_contig1009.127.1 >prot_D-dudresnayi_contig1009.127.1 ID=prot_D-dudresnayi_contig1009.127.1|Name=mRNA_D-dudresnayi_contig1009.127.1|organism=Desmarestia dudresnayi DdudBR16 monoicous|type=polypeptide|length=345bp
MQREGEGEASAAKDDRRDGRCFKRLMSAASTSRSQPTCHLCVMGVAERDD
DALREVSLSFGEVSSIARNAKNKGIRVVTYGNTADATAAHAALGADLAPR
IGRTATVNFVEYFSPPKADLRCTLETADVDVPGLTLLEGFVGEDEEAALL
QHFVQDDSVVWTGPLRRRVQHYGRVFDYHTRHVDFDAPAPPLPECLSRVL
RRMEERGLKPSRPDQLTLNEYKPGQGISPHVDTHSAFEDGLASLSLGSGC
VMDMRHPDGVRVKNVFLPRRSLLVMEGSARYEWSHGIASRKTDTVAGVLM
RRSTRVSLTFRRVRDPDVACACDFEQSCDREIPVATATFLKKST* back to topmRNA from alignment at D-dudresnayi_contig1009:12813..29366+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_D-dudresnayi_contig1009.127.1 ID=mRNA_D-dudresnayi_contig1009.127.1|Name=mRNA_D-dudresnayi_contig1009.127.1|organism=Desmarestia dudresnayi DdudBR16 monoicous|type=mRNA|length=16554bp|location=Sequence derived from alignment at D-dudresnayi_contig1009:12813..29366+ (Desmarestia dudresnayi DdudBR16 monoicous)
CTGAGATCTGGCTAGGACCTCTTACTCCGACCTGCTGCAGTTGGCCTGCT
GTGTGTTGTTCGTGTTCGTCCTGCCTCTCTCCACTTCTACGAGTAGGAAA
ACTCTCACACACAGTTAATTGGAGGGGAAACCAGGCCTGCCTGCTAGCTA
CAGCAGCGGTAATGCAGCGAGAAGGAGAAGGAGAAGCGTCAGCAGCGAAG
GACGACAGGCGGGATGGACGGTGCTTCAAGCGGTTGATGTCCGCCGCCTC
AACGTCGAGGAGCCAGCCTACGTGCCACCTTTGCGTGATGGGAGTGGCAG
AGCGCGACGACGACGCTCTGCGAGAGGTCTCCCTCTCCTTTGGGGAGGTG
TCGAGCATCGCAAGGAATGCCAAGGTGACGGCTATGGAAGATGGTTCCGT
ACTGAGATGTCTCTACATAAAACACCAACAGAAAATGCAGTTTTTCAGGT
CTCTGTGTGTCTGTCTGGTGGTCTGGTGTCTGTGGTCTGGTGCCTGTCTT
TGGCACTACAGTAGTATCATAGTACTCGTACTTGAATAAAGTGTTGGTTT
TGGTCCCTTAAAATTCCCCGAGGTCCCCGGACTCGGAACGCCTCCTGTAA
ATCTGGGGAAACCCCGCATCAAAGGGGAACAGACAAGGTGCGGGTAAGGC
ACTACGCCAATACGTAGGGATTATTTTGTAAGGACCGGGAAGATTTAATG
CTGCCGTCATGCTGTGTCTACAGGGAGAGTAGAGAGCAGTCAAACTCGGC
CATATACCACCAATAAATTACGAGGTTTGTACGAGTAAGGATTTTGTAAG
GACGCACGAATGACCGATCGCGCCATCACCGAGATGTGCCGAGAGGTGGC
CGGCACTCGGCGCGAGTGAGAGAGATACGAAGAGCGTGCAGCTCAGACAA
ACGACGCCGCAGCGAGCGGCCCAACACCAAAACCATGCTGGTGTGGCAGT
ATATCCCCACTGTAGTATACCAAGTAGCTAGTTAGTTGCGTTTGTTGGAG
CCTGCGATCTGTCACTGAGGTTAGAACAGTCAGTCAGTGCCGGCGCAATC
TGTCTGTGTCCGTCTACCCAAAGCAAGCACCAGACTGCAGCCAGACGCTA
GCACATCATCACCGAGTCATCTCCAAGCGCCCCCAGCAGCAGCAGCAGAT
AGCCGGAGGTCATGATGGTGGACGCAGCAACGGAGGCAGCGATAGTGGTG
GGACAGAGTACAAAGTGCAACTTGACTGACATTCATCGAGCAGCGACGAC
AGCAGCAAGCTACTGCGAGCAGCTCGAGAGTGCCACCGCAGCACCGATTC
ATCGAGGAGATCAAGAGCAAGATCGCAAAGCCAGCAGGAAACACAAACAA
ACACGATATTCGGGGAGTCGAGCGGACCTCCGAGTTTCCTTACACTGGAG
GATGGGCGTGCCCTCGTCGTGTTGTGTTTGCCGGCTTTCGTTGTTGTTGT
TGTTGTTGTTGCTGCTGCTGTTTGTTGTCTATTTTTTTTGCCGGGCTCTG
ATGCGAGCACGCGCAGAACTTCCTGACCGACTAAAGCTGTAAACGAAACC
GTCGCTTCACTCGCTTATGCCTATTAACACTTCAGCATGTACTGCGTTCA
CTGTCACTGTAGGGGCGAGGCACAATAGCGACGATTAGTGGACATAAACA
CACACTACGTACTCACAAAAGAAGTAAGCAAAAAATATGCCAACAAAAAC
GGGAAAAAAACCAAAAAATCACGTCTGTGCTTGGTATCGAACTCACGCAA
CTCGCGTTACTGGTACGATTAATTTGCATGAATTTAATTGCTTTTGAATC
ATCGCTATGTATAGAAGTTGAGCCTGCGGGGGGGGGCTCGAACCCATGAC
CTACCGTATACGACGGTGTATACCAGTGTTTTAATGAGGCGAGAGGCCCA
TGTTGCGCGCAGCGCAATCCGCGCCGAGGGCGCGTTGCGGCCCCCCGGAG
GGCCGCCGGAGGCGAAATTTTTGCATATACATGTAAAATACTCCCGAAAA
TCCCTTCAAAATGTGCGTTTTGCCGTCTCCTTTACCCTCGAGTAGGTTTG
CGTGTTGCGCACAAGACGGAGCAATTCAAGGCTAGAGTTACGATCACGAT
CGGATCCTAGTTCCTGTGTTGTCGTCGAAGCTCGAAGCTGAACAGTTGAA
CCTCCGTTGAAGCAGCATTGAAACATTGAAGTCGGTTGATATTCAAGTGC
TATTATTTTTCCCGTTCAGCGTGCTGCTTCCCGAAATTATGAATACAAAT
ATAACCCCCCCCCCGCTAGCCCCAAACCTCACTGTTTCGATGCTACCATC
AATCTTAAAAACTATACCGTCCCGGCAGCAACCTCTTCTTCGTGTTTGTT
ACTTGCGCCTTCTGAAGGCTGCATCGTGGTCGAAAACTACAGCCGCTTCT
CTGACGATATCGTTGGACGATTCAGCCGTGAGGTCAACGCCTTGCTGCCT
ATGCAACAAAGAGAGCCGCATCAACAGCTCAAGTCGCTCCACTGAAAGCT
TGTTTCGGGGTTGGATTTAATCCTGTTTTGAGCCGAGAACCCGCGCTCAC
ATTCGATAGACGAGTGCGGCTGCACAATGTAGATTTTGACGAGCTTGTAC
AGGTTCGGGAAACGACCACCCCCGTACGAGCTGTTAACCTTGCGCAGATC
TACCCCCGCGGAGGGTTTCCATATATTCGGGCGGCGTTTGTGACTCGGGG
CCGCTAGTTTTTGGCTTCACCTAATTTTGAAGCCTGTTTCGTCGTGTGTG
TGTGTGGTGTGTACGTGTGTATCACACAGTGTGTGTGTCCGTGTCAGGGG
TCGGTTTGGCCTGCTTACGTCTATTCCAGAGGTGACCTGCAAACAATTGA
AATTAATTTTAAAAAGTATTACAGCAGAAATGAGCCCGAAGCCCAAGAAG
GAACAAAGGGGCTCAAAAAAAAATTTCGCCTACGGAAAAATGAAAACATC
ACAACTCACGACACAGAGAAAAAGGGCCTCAATTTTTTTTTGCCTGTGGC
GAAAACATCACAAAACCTAAAAAAAAAAGGCGAAAATCGACAAAAAAACG
CCGCAATTTTTCTCGCCGCGCTACGCGCAGTTTAGGACCAAAAAGTTGCG
CTGGCGCAACAGCGCGACGCTTATTTTTAACACTGGTGTATACCACACCC
TACGTTGTATACCATACCCCCTCTTTTGTCCTCCTGTATAACACCCCGGT
GATTATTTTTATAAAATCCCAAACGATCAACCGATTTATCACCCGGGGAA
TGTTGTATACCACACACCCTGAGGTCATGCCTCGTATTCAATATGCAAAC
ACCAACTATCATCGGGTTTGATACCGTGACGTGATCAACACAACAAGCAC
AGCTCAGCATTAGCACACCAGGGGTGCGATGACAGCATATGGAGGTGAAC
ACAATGCAGGTTGAGCAAGTACAAAGCCCTTCTGCACTAAGTGTGGGCCA
TGACAGTGGGAAAAACTCGCCTGCGACTCCGACGGTTGCTGCGAGTCAAG
GCTCGAAGACGGCTTTTTTACGCGATCGTGCACACACCACCTCTACACCT
GTGCCTCACGGCGGAAAAAAAAAACTGCCGAAAGCATCGAACGAGGGTTC
ACTACTTACAAGTATAAGAAGGGTCATACGTACCCCCGGGGTATTGTGTA
CCTGGTACGCCGTGGACTCAAAATCTTGGCACACGCAGAGGGTGTTCAAC
GGCGTTTGAGTCCCTCCAGTGTAGAACTGGCGCCCGGGGCGCGGGGGGCG
AGAGGAGGAGAGCGTCGGCATCTACCGTTTGCCAGACACACTGTTTTCAT
GTGACGAGTACACAGTCCACAAGACGGGCTTGAGTATAGCTGCGAATGCA
AGCTCTAACACGACGCTGTTCCTCTTCCCAGCCTTGTGATGGCCTCATCA
ACAAGCTCTTCAAGGCCAACATGTCCAGGCTATACGACCATCACATGGCT
TCCCCCGGCCTCAAGCGCGACGACCGCGGATACCCGTAGCCCACTTCACG
GGGGTTGCTATTAATAGCGCAATGAGTTAAAAAAACGCGGGATGCGCTAG
ATGCCGAGAGCATCCGTTCGAGCTGGAAGAAGGCTAGCGATCTACTTCCT
GTTGATGGATCTGGAGACGAGGACTGGGCCACGAAGGCACTCAATTCGGA
CGCCCAAGGGGCGGGGGTTCTTACTGCAAGTGGTTTTGTCGGGGTTTCGT
GTTTGACCAGTTCGAATGCACGTGATAATGAGTCGTCATGGGTATCTTCA
TTAAATAAAATTGGGCGCGATCGCTATTTTACCTCGAAATTAGTTAGTTG
TCCATCTAGTACACCTGACTTATCGGGAAAGATACAGCCGGTTCCAATGA
GGCTGGCCCTGCTGATCTCATAGCTTGTTTGAGGTGTTGGAAATCCATGA
TAATGACAGCATGGACGAGGGCGGGGGCAGCGAAGGCGATTCTGATGTCG
AGGAAGTGGCCCAGGGTGGGGGGCGGCTGCTGGGCACAGATACGTTGATA
TGGACTGATGTGGCTGAGTATGTTGAGGTACGGGTTGGCTTGATAGGCCG
GTATGTGGGTCAACGGCTGCGGTTAAAACAGAATGATCGTACCATCCACC
ATCCATGGAACTTGTGTCTTCTCTATCGTTTGCAGTCTTTTTTTCTTCTC
TGAGGTAGTCTTTGCTTGTTTTGTGCTTGCATTTTTTTCTGCTTGGTCTC
TCTATTTTGTTGCGTCGCTCTTTCCCTGTTCTTTTTTGTTTTCCTCTTTG
TTCGTACGTTCATTGTGCTTTAAGGTAGTTCGGCACCTCTTCGTGGTGTA
CTACTCATTATTAGAAGGGGGTGTTCGGTACCAACCCTGGGTTGAAAGGC
ATTGGATTTACCATCGGGGAGTTACATTGGGAGAAATACAACTATTATAA
GTGCTTTCAGGTTCAACACGCCTATGAAATACTGGCACCGCCTTGGGGGT
GCCATGAAACTCCCTTATCATCACACCCCTTGCCGCCTGCCTGGAGTGTG
GCAGCAAAACGTTTTTGCAACCACTGCTATCACACGCCGTATTGTCACAC
CCCTTACTCTCAAACCCCTCGCCGCGTGCCTGGAGTGTGGCAACAACACC
CCTTTGCAAAGACTGCTACCACACCCCTTATTATCACACCCCCTACGGTA
TACCACACCGGGTGGTAGTTGTTTTATAATCCAATGCGATCAAGCGATTT
ATCACCCGGGTTACGGTGTATAACACACCCCGTACTACATTCTCCTGTAT
ACCACCCCGGTGATAAATTCTATGAAATGCCAAAATATTATCACCGGGGT
GTGGCATACACCGTCGTATACAGTACTGAGGCAGAGGGGTGTTTAATTGG
TTTAGAGGTTCGTATTGCTTTCTTTCATGGTTCGGATTACTGCATAGTAT
ACAAGTAGCAAGATAGCAAAGAGGCACTGGCTGTATTGTTCAGATTATAT
CTATTGCAAGGCGTGGACAAGCAACACTGATATCAACAGGAATTACAATG
GACAGGGATTGCGAGCGAATACTCTGAGACCGTCGGTCGGCCAGGCGGCC
TTTCCAAGGCCGCCGTCGTCGCACGCGCTTGCATATTCACTTGTTAATTA
ACCCTTACAATACCGGATAGCTATACTTCGAAGTATAAAATAAAAAATCG
AAAATCGCAATAGTTTTAAATGCAAGCTCTGTGGCTCAGCAAGCTACACT
CTATGCGTGCAGGCAGGTGCTTCATTTTTAGGCAGGTGATGACGTGTGAG
GTAGATAAACACCTCAGTTTAGTGTGCCAACTCTAAACCAAGGTCGTTTT
GCCTTTCATCAGTGCATTTTGCGAAGCACATTTCATTTTATACTTTTTGA
GTGATACGAATTCTAAAACAAGGTCATTAGACTCATGAAAAAAAAATGGG
GTGTAGTCCTTGACTTTTGCGTGTGTAAGTTCCCTAGGGGTCAGCGAAAA
AGGTTGTATAGGGTGTTCCAACGACACTCGTGCGGCAGTCAGGTCCGGGG
AACACAAAGAGAGCACCAAAACAGACAGCTAGTTGAGATGAAGGAGAAGT
CTTCGTTCCCCACAGACGTCGCCTGGGCGAAGTACCACGAAGAGGGTACG
AACTCGGGCGCTGCTAGGTGTTCGCATGTGTTGTCCCTCGGAAATACCTT
GGGTGAATTTCGTCTCCCTCGTCTTTTTTCCAAGAGATGTGTGCGTCTTG
AGGGTATGGTCGCTTCGATTATTCTTCGTCTTGTGTTTCGGGTAAACACC
GGCATTTTTTCTCGAGGTGTGCCCCCTACACCGAGCCGCATGTACGACGC
ACCTTGGTGGTTGGTTCCGACGTTGTACTGTGGTTGAGGAACGCGTTACC
CGGTTTCAGATTGTGCAAAGCTATAGACATGTATGTACGTGTCGTGGGGC
TGGGGAGCGAATGTTGCGTGGCTTGCCTACTGCGGTATTTTATATTTTAT
GTACTACTGCTACTGACTGTTTTCTGTGTCATGGTTTCAAAACATGTAGC
AGAGCACAGCAACACACCAGCAAAGCAAAGCAAACATAAGCAACCACAAG
CAACCACAAGCAACCACAAGCATAGCAAAGCAAAGCGCAACCAAGCACAA
GCAAAGCATACACAAGCAAACACTAGCAAACACAAGCCACAGAGGGCACC
AGCTCTGGGCATTTCTGATTGGACCAAAGGTGGGACTGTCATCACAACGC
AATAATCGCTGGGTTGATAAACCGTGATGAATCGCACAGAAGTTATTAAA
AAAAAATCACACACTAATTCTAAGTAATTATGGGATTTTATTGTTCCAAA
AGTTGGCACATAAAGCGGCTAAGTATTTAAAGGGTTAATACAAAAAGGGT
GAACCTTTTCCCCATACTTAAAAGGCAAAAGCACGCGCGAGCGAGAAGCA
CGCCCGGGCCCTCCCGCGTGTTTGTTTTAAGAGTTATTTCCGGAACAGGT
CACGAGCACCATCAACCGAACACGCGAAACAAAGACGCCGCGCCGCCGCA
ACCGCTCTCGGCCCACGCACAGCATAGCATTATCTAGCACACGGGAAGCG
TCGAATACACAGCGAGCGCCCCTCCGTGCCCGAGCGCGCCGCGAAACGAT
ACGCCTTGTCTGAGGACCGATAGACTCCGCGCGACCGAAGTATCACACAG
TAGTAGTGAGGTTGACGATTTCCCCCTGGCCCTCGAACCAGTTTGGAAAG
TCATGGCTGATGTTTTTGTAATAAAAATTAAAAATCATAAAATCCATGAT
ATGGTGCAAACTTTGTTTTGGGGGTTTCGTGGATGTTCTGCGTCAATAAA
CAACCACCCCGCTACGCACCGTACCGGACAACGGCAGAAACACACAAGGG
GGGCACAGACACCGCGCGCGTGCTACCCGCATGACCATGGAGCTGTCTCC
TTGCACAGCTTGAGGCGAAAAACAAAATAGCAAAGCTTGACAAAAAGGGT
CAAACAAAGCGGCGGCCAGCTGGCAGCTGGCAGCTGGCTGTACCACAATA
GTAGTTGCAATCAAACACGCGGCGGGATTACAAACAAAAGTAACGGGCCT
GTCTGTTCGGTCGGCCGGACTGGTCCGTGCCACTGCCACCATGTGAGATT
CAGATTAAGATATTATATCACATAATATCATGCGATATTTCCAGTATGTT
CAGTACTCGCCCCCCTCCCTACCACCCACACAAACACAATACCCGATTAT
CGTCTTTGTCCTTCTGGTCCTTTTTGGTTTCATAGTTGTTGACTTATTTT
GTTATGAGTTTCTTTCGAATCGGTGAATTATTTTCTTTTTCTTGCGAAAG
GACCCGCTCTCCTTGGGCACTGCTCTTTCTCATATCATATGTGTATATTT
TGATTTATTTTTCTTCGTTCTTCCAAACGTTATTGTGCCGGGTTTTGTGA
CCACGGGCGAAATCTTTTGAGATGAGCTAATGTGAGAAACAACAACAACA
CAACTCTCGCTCTCCTCTAGCCATTGCCACCAGCCAGTATATAGCCCCTC
TACCTGTGTTCCGGACGTCCGCAATATAGTCGCCTCTTTCCCCCCTTCCC
CGCCACCGAGCGCAACGGCCAACTAGCCCAAATACACCGTTGGGGAAATA
GTAACCGAGTGTCCCCAGGGTGCCCAGAAAACGTTACTCGAATATACCCA
CCAGGCTTGCCGGGTACCGAGCGCTGGGCCCCGCTCGGATCACGAGTGCC
TATGCACGGCTGCCCAGGAATTATTTTGTCCCAATAGGCTTTGCAGTCGG
CACGGCCGAACAGGCCCGTCAGTTTAAATCTGCAAAGCCTGTGGGGACAA
AATCATTCCTGGCCAGCCGTGCATGCGCACTAGGGATCCGAGCGGGGCCA
AGCGCTTGGGAACCGGCAATCCTAGTGAATATCTGTGTATGTTCGAGTAT
GTGTCTTGTATGCCTTTGCTTTGTGTTCGCTCATTGTGAGTCCCCCCCCC
CCCAAGACTTCATGAGCTCCTGTATGTGTGCGCGTTAGCCTTCTCCACCG
GCAGTCGTCTTGACCATCGCGACATTATTTGGGATTGGAAAGCGGACCAT
TTTAATGGCGAATTGCTCATTAAAATGATCCCAATGTAAATGTCAATATC
GATATGCCGGTAAACGGCTTCCAACCATATATTTACTGTTACCGGCTATA
GAGCCTATAGGCCGTTAGCGTCTGTAGTACAGCACTGTCGTTGCCGACAG
AGCAGAACAACGACGTACAAGACGATACTTGCTCCAACGAGCTTTGACTT
ACTGCCAATTTTACGGAGATGTAAAGCCGAACAGCGTATTTTTTGGGCCT
CCGGCGGCGCCTCCAGCGTGGCTCCTCACTAGCCAGAACGCCTTTTTGCC
TTTTGATTCGTGCCGCCATTTAAATGGTAGATGGTGCATCTATCATACCA
GGTACCATTTATATGATTACACGCACCATTTCCGTTCCCTAGTTATTATG
TTGCCCATTATTTTTTATTTTCGAGATTATGCTGCCTTCTTCATAGCAGT
CGCGTTGACCATTTGTGTGTTATGTTATGTTTGAGGTTCTGCTTTTCATC
CCCTGTCATGTTCGAGGCTGGAGCCTGTTTGACATATTTCGTGAGTTTTG
TGTTTGACTGTTTTTCCCGCTTTTCGCTCATTGTTTGAGCTGTTTTTTTA
TTTCGCTCGTGGTGAGTTTGTGCGCTATATTTTCTTGAGTTTTGTGTTTG
GCTGTTTTTCCCGCTTTTCGCTCATTGTGAGCTCCCTTTTTGTTTCGCTT
CTGGCGAGTTTGCGCGTTACATTTTCGTGAGTTTTGTGTTAGCTGTTTTC
CTGCTTTTCGCTTTTTGTGAGCTCCTTTTTTGTTTCGCTCATAGTGAGTT
TGCGCGTTACCTGTAAGTTTTCGCGTCCTTTATCCTTCTTCTTTGGCATT
CATTCGCGTTCACCATGCGTTATGCAGTTGAGCTATTAATAGTTTTCGTG
CTGGTTGGTCTGTTTTCCTTTGTGATGTGATCCTGATTGCTATGCAACGT
TCCTCTGTGATGGCACAAAACTCATTGGCGACGCCGGCGCATGTATTATT
ATTATCGTGTAGGCGACAGCTTCCGGCTAGCGGCCGCCTCCCCCGACGAA
ACGCCCGCCCGCCGCTTTGCCTTGTCCCAGAACAAAGGTATTCGAGTGGT
GACGTACGGCAACACGGCGGACGCGACGGCTGCCCATGCGGCCTTAGGAG
CAGACCTTGCCCCGCGAATAGGACGTACCGCGACCGTTAACTTCGTCGAG
TATTTTTCGCCGCCTAAGGTAACAAGGCGGGCGTGTTTCAACACCATCAT
GTATGATAGTTTTTTGTCCCCAGTCAGAGCCAGAGCAAGGTGCCTGGTAC
TCGTACTACTGTACTGCTGTATCCAGCCACGCAGCATCGTTTGCTCTTGG
CCTCTGCTTACTGTGATACTCACGGTTGGGCCGTTCAGCGGGCGCAACTA
TCTACCGTGTACAACAAGTACATACCGCCACGAACTTTTTTTTTTTTGTC
CTCATACGGATGGGATAAAAGTGAGCTTAATCCTCACACGTTTCCACGGT
ATTATTAATAAGATTTTTTGAAGATTGTGTTTTTTTTTTGCCCTCTTTTT
TTTTTCTTTAGTTTTTTTTCTCTCTGTGAATGCACAGCAAACGCCGCGCC
ACACGTAAGTTACATAGGTGAGGAGGGGGAGGCAGAGGGCGTGAGGGTGG
CGGAGGGGGGGGGGGGTGGCGTACTATTTGTTGCTTGCTTTGGTCATTTG
ACCATTGATTACGCATCCCTTGCGAGACGGAGTACCGTTCCTACTCCTAG
TAGAGACACTTCCAACATTTGGGCGCTCTTTTCGTTTTTGCCATATATCT
TACGTAAAACTATGTTTTGCTTATCTGATCCCGTTCCTGGGGGACGGGGG
AGAAATGGAAGGGTTTCGCACACTGAACTGATTGTATCATCGTAAACATA
TCGTTTGGGGGGTATGATAGTCATATAGCAACAACAACAACAACAACAAC
ACGCACAACCTTTCCTCCTGTGTGTTGGCACGTTTTAACAAACCTCTGTC
CTCTTCTGTTTTGAACCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
CCCCCCCCCCCCGCCCCGCCCCGCCCCCACGCGGCGGCGGGCNNNNNNNN
NNAAACACACCCACACCCACAACCTACCCTCTGTTGTCGGGCGGGTTTTT
AAAAACTTCCGCCCCCTCCCTTTTTTACCCCCCCCCCCCCCCCCCCCCCC
CAACCTCAGGCGGACTTACGGTGCACGTTGGAGACGGCCGATGTTGACGT
TCCGGGCCTAACCCTGCTGGAGGGTTTCGTAGGGGAGGATGAGGAGGCGG
CGTTATTGCAACATTTCGTGCAAGATGATAGCGTGGTATGGACGGGGCCT
CTTCGGCGGCGCGTCCAGCACTACGGGTGAGTCCTTCTGTGTTTGCAACC
GACGACGAGCCTTACCATCTGCCATGAGGGTTGGATTTAGCATCGTGGGT
TCGTGGGCGACCGACCCGGTGGATACAATAATGCCGAGTTTTGCATACAA
TTTGTGTTGGTTGGTACTTTTTTTTTTTATCAACTTGTTGTCCCTGCAAG
TGATATAATACCGGGCTGGGCAGAGAGCGAGAGAGGGAGAGGGGGGGGAG
GGGAGACTTAGATCTTGATGGATAGAGTTAGACCGTGAGGGAGCAATCAT
AGCGATGTTAGGGGGTCGGAGTGGGGATGTCGTGGTGGAGCTGCTAGCCA
AAGAAGCAAAAACTTGTACTTCGTATTTTCTTAATTTTTGCCGTCCGTTG
AGGTTGCTTGTGTTAGCTTGTGGCACCGGGTCGGTTAGGCGTGGTCGCGG
TAATTTGGTATCGTGGAGTAGGTTCGGTCGTGAGCGGTGGGGCCGGTCTG
GTATGATAGATGTACGATATGCCGTACTCGGCTTGTCGCTTGAGTTGCGT
CCGTGGTTTGCTTGTGTGAGCTTGCTGCGTTGCGATCGCGTTGTGTACAC
CCCTGCTCTCGCGATCAAGCAACCCTGAAGGTTAAGCTGACAGACGCGAA
AACGAGGCGTGGCCTGCCCCGAACGAGCCATATTTATGGTAAAGACACAA
GTAGATTCTGCTACGACTGTACTGTATGCTATGAAAGCATTGTGTTTCTG
ACCAATCGAGTGGTTAGTTGACATATGCCCGCCCCCCTCATGTAAGATAT
TGCCAAAAACATAAAGAGCGCTCAATTGTTGGAGTTGTCTCTATCAGGAG
TAAGAACGGTGCTCCGTCTCGAAAGGGATGCGTGGTCAATGGTCAAATGA
CTAAGGCAAGCAAAATATGGGTCCTCCCCTCCCCCTCCTATGGTCTATGG
TCATACGACTACGACCATACATGAAATGACCCCCCCCCCCCGCTCTCCGT
TCCCCCATCCCCTCCGTTTTCGTTGTTTGCCGTTCGTTTCCTCGTAAGGC
GTGTGTTCGACTACCACACCAGGCATGTGGACTTCGACGCGCCGGCGCCA
CCGCTACCCGAGTGCCTGTCTCGCGTGTTGAGAAGGATGGAAGAGCGAGG
CTTGAAGCCGTCGCGTCCTGACCAGCTCACGCTCAACGAGTACAAGCCGT
GAGTATTGGGCGGTCGTATTTTTTTTTATTATTTTTTATTATCCAACACA
TTAGCTCATCGTCAACGATCTAGCCCGTGGTAACAAAGGTGTTGGGCCCT
ATGCACGAGGATCCGAAAAACGCAGAAAAGTGAAAAAGGAGGGCGTACGT
GTGGGGGCCTGTGACAAAAAGAGAAGGCCAAAAAGATGGAAAAGAAAAAG
GGAGAGCTGAAAAAATAAAAAGACCGAACCTTGCAAAAATCTGAACCGTG
AAAATCATGTCGAGCTAAAGCTTTAGCCTGCCCATCCGCCGGAAGATAGC
GATGGTTGAAAAACAAGTAAATCAAAGCACTACTACTCTCGTAGCGTACT
GTTGTTTACAGGGCTGGATCTAGAGTGGTGGGCTCGGCACACATCTAGAT
CGGGGTAAAACCTACCTGGCCTTTTTCCGCGCCAAATACACCAGTCGGCC
ATTTTTTTGCTTTTATACTGATACTTGGAAGTATACTGATTGAACGTGAG
CCGTGGAGACCCAAGAAGTCATCCATGAGAGGTGGAGCTGGAGAAAGAAT
AGGGCGAAGACAATAAATGGGATGGGAAGATAAATAAATTTTTTTTTACA
GTGATGCCTGTGAAGTCCGGCGTTTTCGTGCTTGCGTATTCGCGCATGTA
CGACAGTTGGGCCATCAAGCGCAATCATGCAAGACGAGTCTTTGGTGGCG
GAAATGGCACGGAGAAAATTGCTCGTAGGGATTGGAAATGGTACAATTTT
TAATGGCGCATGCTCATGTAAATGATCCCAATGTAAATATCAATACGGCG
TTGCCAGTAAATGGCTCCCAACCATTTAATTGCTGTTACCGGCTATATAA
GCCGTTGACGTTTATAGTTTACTACAGTACCATCGTCGATGTAGACAGAG
CAAAACCACGACGTACAAGACGATGCTTGCCCCAGTAAAATTTGGTGTAG
TACCAATTTTATGGGGATCTGACGCAAATGGTGTATTTTTTATTTTTTCG
ACCTCCGGCGACGCATCCAGCGGGGCCCCTCGCCAGCGGGGAGACCTTTT
GGCTCTCGCCGCCATTTAACCCGCACCATCTACCATTTTAATGATTAGAC
CCACCATTCCCATTCCTTAGACAAAATGTGTATCTACGTGCCCCGAGAAA
AACGCCTGCAGTTCAATTTCAACTACGCAACTGACGCATGTCCTTCCTCT
TTTCATGTCCTCTGCCGGCGTTTGCTTACCGTCCCTGCGCAGAGGCCAAG
GGATATCGCCACACGTAGACACGCACTCTGCGTTCGAGGATGGACTGGCG
TCCCTCTCTCTTGGAAGTGGTGAGACGCATCATTTACTCCCCTACGACAA
CAGTAGCAGGGGTGGTAGGTAGGCTAGTGGTCTAATTAGTGCTCCTGTTG
GCGGAAGAGTTCGGGTGTTGGAATCCTGGTGAAAACAAAATGACGCTTTT
TTCTGCACCATCTTCCGTCACGGAAAGCGCGAGAGCGTCGAGTAAGCACA
ATTCGATGATCATTGACGAGCTATGATGGGAGTCCCGAAACCTGTGCGCG
ATAAAAATCAAGGCATGTATGTACCGCACCGGGGGGGCGAAGAGAAGACG
CCTGTGACCACGACTCGCTCAGAAGAGTGTGCTGAGCGATGAGTAGAAGA
GCTCCTGTGGGCTGGACTGGGAAGTTACAAGTGATAGATAAAAAAATAAA
AATAAAATGTCGTGATCTTTACGGGTAAAAAAACAGGAAAGAAAAAATGA
AACCACGCGCCTGGTTCGTGTCTGACCCCCCCCCCCCTCCGCCGGCGTTC
TCAGCACAACGAGCTCCGCTGCACTGCATCATCGACGGTGCAGTGCTCCT
CGTCCCACGGACCGTTTCGATGTGTGTGTGTGTGTGTTACGTGTTTTTTT
TCTTGTTCAAAGTTATATACAGCATCCCTTCCTCATCCTGCCTCTTCTGT
GTGTATATATATATGGTGGTGGTCCGCATGCTGGGCTCCCGCTTCTCACC
CCCACCGGTGTTGTGTCTAAACTATGCGCCCCCCCCCTCTTCTTCCTCTA
CCTTGTCGATGAAAACCCGACGTGCTCCGTCCTGGCATTGTGGGGATGCG
AGGGTCTATGGCCATACGACTACGGCCATGTATGAAATAAGTACCCCCCC
ACCCCAGAAGACGTAACAAAAACATAAAGAGCGCCTGCCTAAATATGTTA
AGAGGTGTCTCTATTAGGAGTGGGAACGGTGCTCCGTCTCGACAGGGATG
CGTTATCAATGGTCACATAACTAAGGCAAGCAACAAATGAGTACCCCGCC
CTTCCCCAACCCGGTGCTCTATCTCGAAATGGATGCGTGGCCAATGATCA
AATGACTAAAACAGTCAACAAATGAGTAACCAGCCCCCGCCCAATCCGGT
GCTCCGTCTCGAAAGGAATGCGTGGTCGATCGTCAAATGACTAAGGCAAG
CAACAAATGAGTACCCCCTCGCTCTTCCCCTTGCCTACCTGGTGCGATAC
GTGAACGTCAGGGTGCGTGATGGACATGCGACATCCGGACGGAGTGCGTG
TGAAGAATGTGTTTTTGCCTCGACGGTCGCTGCTGGTTATGGAGGGCTCA
GCGCGGTATGAGTGGTCGCATGGCATCGCCAGCCGCAAGACGGATACGGT
GAGTTAAGTATCTTGTTGCTGTTGATAGTATCATATTGATCTTTGTTTGT
TTGTCTCGCATGTGTTGGCGAGAAGAGTATATATCGGGTTGAGCGATTGC
GCACGAAATGCGCTGCATGGGACAGCGGTATTTACGCGGGAGGACGGGCG
GGAGGTTGTTGTTGTTTTTGTTGTCTTGACATTAAAAATCGCCTTTCTAC
CCCACGAGCCTACGTAGAGTCCGCATCGATTCTTCTACCCTGGAGACATT
CGAAATTACGGTGTCACAAGTTACAAAGAGCACCAAATCGCAAACCCAAC
AAAACTAAAGGAGTCATACTACGAGAAAATAAATGAATTGAAGTGTAACT
AAAAAAAGTAATAAAAACAGAAACGCAAGAAAGACTAGGAGGAATAAAAC
AGACGGAAGGACACAAGAAGAAAGGAACCAAAACGGAGAAGACAAAAAAT
AGTTCATCACAAAAAAACGAGAAAACGAGGACTCTGGAGCGTGTGTTGTA
TTACAGGATCCTTAGGATGGTTTTTACTTGGTGTTATTATAGTGTGGTCG
TTAGGGATAAGGTTAGGGTTAGTTCTCGAATTGTTCCAAACTGCTGAACA
GCCCACGTTGGTATACTATTATTAGCATATTAAAACAAACTTTCTAAAGA
TTCTGCCTAATGAGCAATTGTACGACGGCCTCGTTGTAGACGTGGCCCAG
TTCGTTGGATTCGGGGGATGACGTGGACGGACGCGAATCACACAACGCCT
GCCTGCCAACAGCGCGGTTCTAGCGTTCGAGTGTTTTCCGATGACAGCAC
GGACAAAGCACACCCGGCACCTCTATGAGTATGTAAATTGCCCCCCCCAC
CCCACCCCTTCTATTTGGAGTAGGAACGGTGCTCTGTCTCGAAAGGGATG
CGTTGTCAATGGTCACATGACTAAGGCAAGCAATAAATAAGTATACCCCC
CCCCCCCTCCTCAACCGGTCGCCTCGTTTGTTTTTTTCGCCCTCCAGCTG
GTGTACTTGAGTAGCAGGGAACGATTTTAACAATATATCCATGAACAGTC
GACGAGCTATGGAAGTGCCGAACCTTGTGCGCGACAAAAACCGAGGCATA
TACCAAGGGGGGGTTGGGAGGATAGACCCTTGTGAGCACGGCTTGCTCAG
GCAGGCGCGCGGAGCGATGAGTAGGAGAACTCCTGTGAGCTGCGGACTGG
GAACTAAAAGTGAAGGATGTAAAAAAACGAGAAGAAAAACTGCCATTGAC
TATAGTGCGCCTGCGTTCGCGACATGCGTCTTGGAGATCAATCGATCGAT
CGATCGCCAACCCCTTGCCGTACTCGTGACCTCCTTGACGCGCATATCAA
CAACCTAGGTTGCCGGAGTGCTAATGAGACGATCGACGAGGGTTTCGTTG
ACTTTCAGGCGTGTTCGAGATCCCGACGTAGCGTGCGCGTGCGACTTCGA
GCAAAGTTGCGATCGAGAAATTCCGGTGGCGACCGCCACGTTCCTAAAAA
AGTCGACATGAGGCCGGTACTGGCTGTCGTCGGGTATAATGACAACGGAC
GGTAGACGTCTGCAAGTTTTGAGTAAACGATATGATATCAGGCCAGGAAA
CGGTACAGCAGTAGTAGCAGGCCGCCGCTGATGGCATGTGTAAAATTTTT
AATCCGTGACATTTAGTTTGTTGCGTTATTGTTGTATGGTTCATAGAATG
CGATTGGTTGCTATTGCTCAAATGATGAGAGCGAGTCGCCAAGGCCAATA
GACATATCTATAGATAGCTGATGATCGAGTGTGGAGTGTGAGAAGCAGGG
CTGC back to topCoding sequence (CDS) from alignment at D-dudresnayi_contig1009:12813..29366+ >mRNA_D-dudresnayi_contig1009.127.1 ID=mRNA_D-dudresnayi_contig1009.127.1|Name=mRNA_D-dudresnayi_contig1009.127.1|organism=Desmarestia dudresnayi DdudBR16 monoicous|type=CDS|length=2070bp|location=Sequence derived from alignment at D-dudresnayi_contig1009:12813..29366+ (Desmarestia dudresnayi DdudBR16 monoicous)
ATGCAGCGAGAAGGAGAAGGAGAAGCGTCAGCAGCGAAGGACGACAGGCG
GGATGGACGGTGCTTCAAGCGGTTGATGTCCGCCGCCTCAACGTCGAGGA
GCCAGCCTACGTGCCACCTTTGCGTGATGGGAGTGGCAGAGCGCGACGAC
GACGCTCTGCGAGAGGTCTCCCTCTCCTTTGGGGAGGTGTCGAGCATCGC
AAGGAATGCCAAGATGCAGCGAGAAGGAGAAGGAGAAGCGTCAGCAGCGA
AGGACGACAGGCGGGATGGACGGTGCTTCAAGCGGTTGATGTCCGCCGCC
TCAACGTCGAGGAGCCAGCCTACGTGCCACCTTTGCGTGATGGGAGTGGC
AGAGCGCGACGACGACGCTCTGCGAGAGGTCTCCCTCTCCTTTGGGGAGG
TGTCGAGCATCGCAAGGAATGCCAAGAACAAAGGTATTCGAGTGGTGACG
TACGGCAACACGGCGGACGCGACGGCTGCCCATGCGGCCTTAGGAGCAGA
CCTTGCCCCGCGAATAGGACGTACCGCGACCGTTAACTTCGTCGAGTATT
TTTCGCCGCCTAAGAACAAAGGTATTCGAGTGGTGACGTACGGCAACACG
GCGGACGCGACGGCTGCCCATGCGGCCTTAGGAGCAGACCTTGCCCCGCG
AATAGGACGTACCGCGACCGTTAACTTCGTCGAGTATTTTTCGCCGCCTA
AGGCGGACTTACGGTGCACGTTGGAGACGGCCGATGTTGACGTTCCGGGC
CTAACCCTGCTGGAGGGTTTCGTAGGGGAGGATGAGGAGGCGGCGTTATT
GCAACATTTCGTGCAAGATGATAGCGTGGTATGGACGGGGCCTCTTCGGC
GGCGCGTCCAGCACTACGGGCGGACTTACGGTGCACGTTGGAGACGGCCG
ATGTTGACGTTCCGGGCCTAACCCTGCTGGAGGGTTTCGTAGGGGAGGAT
GAGGAGGCGGCGTTATTGCAACATTTCGTGCAAGATGATAGCGTGGTATG
GACGGGGCCTCTTCGGCGGCGCGTCCAGCACTACGGGCGTGTGTTCGACT
ACCACACCAGGCATGTGGACTTCGACGCGCCGGCGCCACCGCTACCCGAG
TGCCTGTCTCGCGTGTTGAGAAGGATGGAAGAGCGAGGCTTGAAGCCGTC
GCGTCCTGACCAGCTCACGCTCAACGAGTACAAGCCGCGTGTGTTCGACT
ACCACACCAGGCATGTGGACTTCGACGCGCCGGCGCCACCGCTACCCGAG
TGCCTGTCTCGCGTGTTGAGAAGGATGGAAGAGCGAGGCTTGAAGCCGTC
GCGTCCTGACCAGCTCACGCTCAACGAGTACAAGCCAGGCCAAGGGATAT
CGCCACACGTAGACACGCACTCTGCGTTCGAGGATGGACTGGCGTCCCTC
TCTCTTGGAAGTGAGGCCAAGGGATATCGCCACACGTAGACACGCACTCT
GCGTTCGAGGATGGACTGGCGTCCCTCTCTCTTGGAAGTGGGTGCGTGAT
GGACATGCGACATCCGGACGGAGTGCGTGTGAAGAATGTGTTTTTGCCTC
GACGGTCGCTGCTGGTTATGGAGGGCTCAGCGCGGTATGAGTGGTCGCAT
GGCATCGCCAGCCGCAAGACGGATACGGGTGCGTGATGGACATGCGACAT
CCGGACGGAGTGCGTGTGAAGAATGTGTTTTTGCCTCGACGGTCGCTGCT
GGTTATGGAGGGCTCAGCGCGGTATGAGTGGTCGCATGGCATCGCCAGCC
GCAAGACGGATACGGTTGCCGGAGTGCTAATGAGACGATCGACGAGGGTT
TCGTTGACTTTCAGGCGTGTTCGAGATCCCGACGTAGCGTGCGCGTGCGA
CTTCGAGCAAAGTTGCGATCGAGAAATTCCGGTGGCGACCGCCACGTTCC
TAAAAAAGTCGACATGAGTTGCCGGAGTGCTAATGAGACGATCGACGAGG
GTTTCGTTGACTTTCAGGCGTGTTCGAGATCCCGACGTAGCGTGCGCGTG
CGACTTCGAGCAAAGTTGCGATCGAGAAATTCCGGTGGCGACCGCCACGT
TCCTAAAAAAGTCGACATGA back to top
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