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Homology
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: D8LGH6_ECTSI (5'-nucleotidase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LGH6_ECTSI) HSP 1 Score: 662 bits (1708), Expect = 3.880e-228 Identity = 335/371 (90.30%), Postives = 346/371 (93.26%), Query Frame = 1
Query: 493 FRPSGSSLKKKEESVASSNTPGFGGPGAFGNPFPSFGVPPGLAMGQPGGAAPEPSGPGVAEVISVDGSIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVVG 1605
FRP GS LKKKEESVAS+N FGGPGA+GNPFPSF PPGL GQ G P+ +GPG EVISVDGSIVMVLKPNDLAKKKRKFKQDGAN+LQVIATFDHCLTAF+ KDGKT CLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRM+ GK MTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLD IPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLG+ELSD+GL NGLPGVEERI VGFLKLD HV++KLPRYAQAYDVVILGDGDMSYANEILHEVVG
Sbjct: 74 FRPGGSVLKKKEESVASANIQAFGGPGAYGNPFPSFAGPPGLGGGQQDGPTPDLAGPGAPEVISVDGSIVMVLKPNDLAKKKRKFKQDGANKLQVIATFDHCLTAFHAKDGKTPCLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMDEGGKTMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDGIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGAELSDIGLGNGLPGVEERITVGFLKLDGHVLDKLPRYAQAYDVVILGDGDMSYANEILHEVVG 444
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: A0A836CLU8_9STRA (5'-nucleotidase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CLU8_9STRA) HSP 1 Score: 395 bits (1015), Expect = 3.870e-126 Identity = 191/331 (57.70%), Postives = 256/331 (77.34%), Query Frame = 1
Query: 616 LAMGQPG--GAAPEPSGPGVAEVISVDGSIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQEN-AFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEV 1599
+ MG PG G EP GPG E ++VD SIV VLKPN+L +KKRKFK DG +LQV+ +FD LT F KDGK++ L+TT+ LE NQHVMLPEAAKK+R+LRS FKR+ME +GKAM P +R A+E +LR V++ A EGG+HM+S GPA+ESQ+D IPLREGV+D+ ALA+R IP+ + C GYGNVA+EVLRRG+P I GP G +PHL ++ANFF+ D+TM+I+ +YD VPL+HE K+G +L+F R VR + A +ARSN +++G+EL+DL L GL +++RI VGFLK++E ++K PRYAQA+DVV++G+GD+SY NE+L+EV
Sbjct: 1 MGMGIPGAGGGQAEPQGPGKPEFVAVDDSIVFVLKPNELERKKRKFKSDGQGKLQVLTSFDGGLTGFTTKDGKSSSLRTTELLEHNQHVMLPEAAKKIRYLRSTFKRQMETEGKAMAPADRAKAVEQHLRAVFTTAAQEGGMHMSSFGPALESQMDMIPLREGVNDLLGALAYRGIPINVVCTGYGNVAIEVLRRGAPSIAGPNGALSPHLHMIANFFQSDETMSIVDLYDKVPLVHEGNKNGNMILDFHRAVRWDTMALAARSNAVVVGAELADLNLTAGLT-LDDRITVGFLKMEEDFLDKFPRYAQAFDVVVVGNGDLSYVNELLYEV 330
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: A0A6H5K9B7_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K9B7_9PHAE) HSP 1 Score: 243 bits (621), Expect = 2.750e-69 Identity = 150/246 (60.98%), Postives = 163/246 (66.26%), Query Frame = 1
Query: 46 FFSRITNKLKGTDGSPQGGGAQRDQQGYGGGRXXXXXGEISHQYP-----PQGYRPPSRPGMALQPTGPTRGPIQRDLGGYGQRQDYGDSHRQQPHQQQPGGGGTEGVGIWSRFKGRVFQGDANGEADDGRRLCCWSFRRVSLCVRLVVVVVHCFRPSGSSLKKKEESVASSNTPGFGGPGAFGNPFPSFGVPPGLAMGQPGGAAPEPSGPGVAEVISVDGSIVMVLKPNDLAKKKRKFKQDGANR 768
F SRITNKLKGTDG P GG + QGYGG XXXXX QYP PQG++PPSRPGMALQ TGP+RGPIQRD+G GQ PGGGG +G GIWSRFKG+VFQGDANGEA+DG FRP GS LKKKEESVAS+N FGGPGA+GNPFPSF PPGL GQP G P+ +GPG EVISVDGSIVMVLKPNDLAKKKRKFKQ +R
Sbjct: 76 FLSRITNKLKGTDGPPMGG--AQSGQGYGGXXXXXXXXXXXQQYPSQGGTPQGWQPPSRPGMALQATGPSRGPIQRDMGYQGQDGXXXXXXXXXXXXXXPGGGG-DGPGIWSRFKGKVFQGDANGEAEDGPPS---------------------FRPGGSVLKKKEESVASANIQAFGGPGAYGNPFPSFAGPPGLGGGQPDGPTPDLAGPGAPEVISVDGSIVMVLKPNDLAKKKRKFKQAAGHR 297
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: A0A4D9DCT9_9STRA (5'-nucleotidase n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9DCT9_9STRA) HSP 1 Score: 173 bits (439), Expect = 6.160e-42 Identity = 109/320 (34.06%), Postives = 171/320 (53.44%), Query Frame = 1
Query: 673 EVISVDGSIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQH--VMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFS-------ARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVVG 1605
+V SV ++V+V P L +K R F Q G L+V+A F+ L + G+ T++ E H V++ + L +R +EA AMT +ER A E+ +KV+ +VA EG V++ ++ A++ S+PLR ++ LA+R +PLTIFC GYG+V +L +P + GG P+LRLV+NFFR G + P++H + T F G+ + + + SNV LLG L DL +A+G + I +GFL+ ++ +LP + +AYDVVI+GDG M YAN ++ +V+G
Sbjct: 277 DVFSVGDNMVLVRDPRGLREKIRSFAQAGYPSLEVLAAFEGGLKPYRAPGGQR-----TESAEGLVHEAVLMAHTRATLDGLAGTLRRELEA---AMTEEERHAKQEEFTQKVHEIVAREGQVYLPALPRAVQDFASSVPLRTNLEQTLKMLAFRGVPLTIFCPGYGDVVAHILASSAPGLAAHGGFLPPNLRLVSNFFRAGPDGVAHGF--SGPVVHALNMNMTTARHFRSGMMRGASVGMGGGELRSPSNVFLLGGSLGDLKMASGGGMERQVISLGFLETGRDLVAQLPLFLEAYDVVIMGDGGMQYANHLIEQVLG 586
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: W7TT02_9STRA (5'-nucleotidase n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TT02_9STRA) HSP 1 Score: 169 bits (428), Expect = 2.220e-41 Identity = 106/320 (33.12%), Postives = 170/320 (53.12%), Query Frame = 1
Query: 673 EVISVDGSIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQH--VMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFS-------ARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVVG 1605
+V +V ++++V P L +K R F Q G+ L+V+A F+ L + G+ T++ E H V++ + L +R +EA A T +ER A E+ +KV+ +VA EG V++ ++ A+ S+PLR ++ LA+R +PLTIFC GYG+V +L +P + GG P+LRLV+NFFR G + P++H + T F G+ + + + SNV LLG L DL +A+G + I +GFL+ ++ +LP + +AYDVVI+GDG M YAN ++ +V+G
Sbjct: 159 DVFTVGDNMLLVRDPRGLREKIRSFAQAGSQSLEVLAAFEGGLKPYRAPGGQR-----TESAEGLVHEAVLMAHTRATLDGLAGTLRRELEA---ATTEEERHAKQEEFTQKVHEIVAREGQVYLPALPRAVHDFASSVPLRTNLEQTLKMLAFRGVPLTIFCPGYGDVVAHILASSAPGLAAHGGFLPPNLRLVSNFFRAGPDGVAHGF--SGPVVHALNMNMTTARHFRSGMMRGASVGMGGGELRSPSNVFLLGGSLGDLKMASGGGMERQVISLGFLETGRDLVAQLPLFLEAYDVVIMGDGGMQYANHLIGQVLG 468
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: A0A8J9Z858_BRALA (NT5C3A protein n=2 Tax=Branchiostoma TaxID=7737 RepID=A0A8J9Z858_BRALA) HSP 1 Score: 103 bits (256), Expect = 4.550e-20 Identity = 77/284 (27.11%), Postives = 148/284 (52.11%), Query Frame = 1
Query: 751 QDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVV 1602
QDG ++LQ+I FD L+ F +GK C + LE + ++PE+ K++ D +E + K MT +E++ + + K V+ +E G+ + + A++ + LREG D AL ++P+ IF AG G++ E++++ S ++R+V+N+ + ++G L+H K+ L R R N++L+G + DL +A+G+P +++ + +GFL ++++ E+L +Y +AYD+V++ D M N IL +++
Sbjct: 71 QDGKSKLQIITDFDMTLSRF-SINGKR-CATCHNVLEDS--TLVPESKKQILDELRDTYYPIEINAK-MTIEEKIPFMMEWYTKGTGVL-VECGLKQSDLSLAVKES--NAQLREGCDWQFHALHEHSVPMLIFSAGIGDILEEIIKQHSQMYA--------NMRVVSNYMDFNHDGMLVGFKGD--LVHTYNKNEGAL----RNSDYFTTLKERRNIILMGDSMGDLRMADGVPNMQQILKIGFL--NDNIEERLEKYKEAYDIVLVSDSTMDVPNAILKKIL 330
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: S4RFV0_PETMA (5'-nucleotidase n=2 Tax=Petromyzon marinus TaxID=7757 RepID=S4RFV0_PETMA) HSP 1 Score: 101 bits (251), Expect = 8.920e-20 Identity = 77/284 (27.11%), Postives = 146/284 (51.41%), Query Frame = 1
Query: 751 QDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVV 1602
+ GA++LQ++ FD LT F T C + +E + V E +++ L+ + +E D K ++ +E++ + + K ++++ +G +H + + A+ + LREG L R +P+ IF AG G+V EV+R+ VF P++ +V+N+ DD + G + I+ ++ ++ + +R SNVLLLG L DL +A+G+P ++ + +GFL ++ V E+L +Y + YD+V++ D + AN IL +++
Sbjct: 26 EGGASKLQIVTDFDMTLTRF--SYNGTRCPTCYNIIESCKSVT-EEGIRQLHALKDKYYA-IEIDPK-LSNEEKLPYMVEWWTKAHNLLVQQG-LHKDELEHAVRDS--DVMLREGYVWFFNRLNERHVPVFIFSAGVGDVLEEVIRQAD--------VFHPNVHVVSNYMDFDDGGVLRGFKGELIHIYNKREGALRNADYFKQLRNY------SNVLLLGDSLGDLHMADGVPRLDNMLKIGFL--NDKVEERLEKYMEMYDIVLVRDETLELANAILQKIL 285
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: F2URV5_SALR5 (5'-nucleotidase n=1 Tax=Salpingoeca rosetta (strain ATCC 50818 / BSB-021) TaxID=946362 RepID=F2URV5_SALR5) HSP 1 Score: 100 bits (249), Expect = 1.770e-19 Identity = 94/308 (30.52%), Postives = 148/308 (48.05%), Query Frame = 1
Query: 688 DGSIVMVLKPNDLA--KKKRKFKQDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVVG 1605
+G V V+ N A +K K K+DGA LQVIA FD+ LT F DGK + +T A + +M + A + R ++F+ + + +++ A+ + K + ++ ++ + + S D + LR+GV + +L + +P+ IF AG ++ LR + G G+ +V+N DD + G LIH K+ L R + R+NVLLLG D+G+A GL + VGFL E E+L Y Q YDVV+LGDGDM+Y +L ++VG
Sbjct: 9 NGREVKVVIGNQAAFDEKVAKLKKDGAKNLQVIADFDYTLTRFRLDDGKRSA--STHAAIEMSKLMSEQFATETR---ANFEHYYPIEVSDIPHEDKEKAMIEWWTKSHELM-IKHDLRREYLEDMAGS--DRLVLRDGVKEFLQSLKDKGVPIHIFSAGLYDIIHVYLR-----LHGLEGM----AHVVSNMMTFDDEGKLTGFKGE--LIHTLNKNSKAL----RDSPEWQQVQERTNVLLLGDNAGDIGMAKGLDR-HTVLSVGFLNDRE---ERLELYKQRYDVVLLGDGDMTYVRNLLADIVG 289
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: A0A7C4R4B1_9BACT (5'-nucleotidase n=1 Tax=candidate division CPR3 bacterium TaxID=2268181 RepID=A0A7C4R4B1_9BACT) HSP 1 Score: 100 bits (249), Expect = 1.800e-19 Identity = 87/315 (27.62%), Postives = 145/315 (46.03%), Query Frame = 1
Query: 694 SIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLT-AFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDE---------RVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCA-GYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVVG 1605
S V++ P L +K +FK+ G N + V+A FD LT AF GK+G + + L +H + P+ A + L ++ PDE R +++ K ++++ +E G+ + + S I R+GV D L IPL I + G GN +P I G+ + ++ ++ N F D+ + + + P IH KS + E+ + R NV+LLG + D G+ G +E I +GFL +E + E +Y + +D+VI GDGDM Y NE++ ++G
Sbjct: 11 SEVLISNPELLEQKIARFKEGGLNSIHVLADFDKTLTKAFMGKEGFRSVISL---LRDGKH-LTPDYADRAHALFDEYH-----------PDEIDLSKPFEYRKQRMQEWWNKHFALL-IECGLEKKDLEDIVSS--GKIQFRDGVRDFLRDLNQNGIPLLIISSNGVGNT--------TPMILEKEGMMSENIHIITNIFEWDENGKAVSVQE--PTIHVLNKSEVAVKEY----PVFDQIKDRKNVVLLGDGVDDNGMVEGFD-FDEIIRIGFL--NEKIDENRQKYLENFDIVITGDGDMGYVNELMGRILG 290
BLAST of mRNA_P-fluviatile_contig11.1003.1 vs. uniprot
Match: UPI00140375BE (cytosolic 5'-nucleotidase 3A isoform X2 n=1 Tax=Petromyzon marinus TaxID=7757 RepID=UPI00140375BE) HSP 1 Score: 101 bits (251), Expect = 1.930e-19 Identity = 77/284 (27.11%), Postives = 146/284 (51.41%), Query Frame = 1
Query: 751 QDGANRLQVIATFDHCLTAFYGKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTPDERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMTAALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFFRPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLLGSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDGDMSYANEILHEVV 1602
+ GA++LQ++ FD LT F T C + +E + V E +++ L+ + +E D K ++ +E++ + + K ++++ +G +H + + A+ + LREG L R +P+ IF AG G+V EV+R+ VF P++ +V+N+ DD + G + I+ ++ ++ + +R SNVLLLG L DL +A+G+P ++ + +GFL ++ V E+L +Y + YD+V++ D + AN IL +++
Sbjct: 68 EGGASKLQIVTDFDMTLTRF--SYNGTRCPTCYNIIESCKSVT-EEGIRQLHALKDKYYA-IEIDPK-LSNEEKLPYMVEWWTKAHNLLVQQG-LHKDELEHAVRDS--DVMLREGYVWFFNRLNERHVPVFIFSAGVGDVLEEVIRQAD--------VFHPNVHVVSNYMDFDDGGVLRGFKGELIHIYNKREGALRNADYFKQLRNY------SNVLLLGDSLGDLHMADGVPRLDNMLKIGFL--NDKVEERLEKYMEMYDIVLVRDETLELANAILQKIL 327
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 | 666.0 |
| Seed ortholog evalue | 1.3e-188 |
| Seed eggNOG ortholog | 2880.D8LGH6 |
| Preferred name | NT5C3B |
| KEGG rclass | RC00017 |
| KEGG ko | ko:K01081 |
| KEGG Reaction | R00183,R00511,R00963,R01126,R01227,R01569,R01664,R01968,R02088,R02102,R02323,R02719,R03346 |
| KEGG Pathway | ko00230,ko00240,ko00760,ko01100,ko01110,map00230,map00240,map00760,map01100,map01110 |
| GOs | GO:0000215,GO:0000287,GO:0000288,GO:0000291,GO:0000956,GO:0002252,GO:0002376,GO:0003674,GO:0003824,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005783,GO:0005829,GO:0006139,GO:0006152,GO:0006213,GO:0006401,GO:0006402,GO:0006725,GO:0006753,GO:0006793,GO:0006796,GO:0006807,GO:0006950,GO:0006952,GO:0008150,GO:0008152,GO:0008252,GO:0008253,GO:0009056,GO:0009057,GO:0009058,GO:0009116,GO:0009119,GO:0009123,GO:0009125,GO:0009158,GO:0009161,GO:0009164,GO:0009605,GO:0009607,GO:0009615,GO:0009892,GO:0009987,GO:0010468,GO:0010605,GO:0010629,GO:0012505,GO:0016070,GO:0016071,GO:0016311,GO:0016740,GO:0016772,GO:0016773,GO:0016787,GO:0016788,GO:0016791,GO:0017144,GO:0018130,GO:0019222,GO:0019438,GO:0019439,GO:0019637,GO:0034404,GO:0034641,GO:0034654,GO:0034655,GO:0034656,GO:0042278,GO:0042454,GO:0042578,GO:0043167,GO:0043169,GO:0043170,GO:0043207,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043928,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044260,GO:0044265,GO:0044270,GO:0044271,GO:0044281,GO:0044282,GO:0044283,GO:0044424,GO:0044444,GO:0044464,GO:0046085,GO:0046128,GO:0046130,GO:0046135,GO:0046434,GO:0046483,GO:0046700,GO:0046872,GO:0048519,GO:0050789,GO:0050896,GO:0051607,GO:0051704,GO:0051707,GO:0055086,GO:0060255,GO:0065007,GO:0071704,GO:0072521,GO:0072523,GO:0072527,GO:0072529,GO:0090304,GO:0098542,GO:0140098,GO:0140101,GO:1901068,GO:1901069,GO:1901135,GO:1901136,GO:1901292,GO:1901360,GO:1901361,GO:1901362,GO:1901564,GO:1901565,GO:1901575,GO:1901576,GO:1901657,GO:1901658 |
| EggNOG free text desc. | Belongs to the pyrimidine 5'-nucleotidase family |
| EggNOG OGs | KOG3128@1,KOG3128@2759 |
| EC | 3.1.3.5 |
| COG Functional cat. | O |
| Best tax level | Eukaryota |
| Best eggNOG OG | NA|NA|NA |
| BRITE | ko00000,ko00001,ko01000 |
| Hectar predicted targeting category | other localisation |
| Ec32 ortholog description | HAD-like domain |
| Ec32 ortholog | Ec-16_004060.1 |
| Exons | 13 |
| Model size | 2994 |
| Cds size | 1395 |
| Stop | 1 |
| Start | 1 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815435.7319229-UTR-P-fluviatile_contig11:313530..314916 | 1622815435.7319229-UTR-P-fluviatile_contig11:313530..314916 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 313531..314916 - |
| 1693561858.6695507-UTR-P-fluviatile_contig11:313530..314916 | 1693561858.6695507-UTR-P-fluviatile_contig11:313530..314916 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 313531..314916 - |
| 1622815435.951071-UTR-P-fluviatile_contig11:321639..321666 | 1622815435.951071-UTR-P-fluviatile_contig11:321639..321666 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 321640..321666 - |
| 1693561858.808821-UTR-P-fluviatile_contig11:321639..321666 | 1693561858.808821-UTR-P-fluviatile_contig11:321639..321666 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 321640..321666 - |
| 1622815435.9634383-UTR-P-fluviatile_contig11:322186..322249 | 1622815435.9634383-UTR-P-fluviatile_contig11:322186..322249 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 322187..322249 - |
| 1693561858.8182104-UTR-P-fluviatile_contig11:322186..322249 | 1693561858.8182104-UTR-P-fluviatile_contig11:322186..322249 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 322187..322249 - |
| 1622815435.9765391-UTR-P-fluviatile_contig11:323360..323483 | 1622815435.9765391-UTR-P-fluviatile_contig11:323360..323483 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 323361..323483 - |
| 1693561858.8278592-UTR-P-fluviatile_contig11:323360..323483 | 1693561858.8278592-UTR-P-fluviatile_contig11:323360..323483 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig11 323361..323483 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815435.7425497-CDS-P-fluviatile_contig11:314916..315077 | 1622815435.7425497-CDS-P-fluviatile_contig11:314916..315077 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 314917..315077 - |
| 1693561858.6830068-CDS-P-fluviatile_contig11:314916..315077 | 1693561858.6830068-CDS-P-fluviatile_contig11:314916..315077 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 314917..315077 - |
| 1622815435.7541041-CDS-P-fluviatile_contig11:315418..315599 | 1622815435.7541041-CDS-P-fluviatile_contig11:315418..315599 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 315419..315599 - |
| 1693561858.6927547-CDS-P-fluviatile_contig11:315418..315599 | 1693561858.6927547-CDS-P-fluviatile_contig11:315418..315599 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 315419..315599 - |
| 1622815435.7686927-CDS-P-fluviatile_contig11:316666..316841 | 1622815435.7686927-CDS-P-fluviatile_contig11:316666..316841 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 316667..316841 - |
| 1693561858.7030125-CDS-P-fluviatile_contig11:316666..316841 | 1693561858.7030125-CDS-P-fluviatile_contig11:316666..316841 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 316667..316841 - |
| 1622815435.8480077-CDS-P-fluviatile_contig11:317202..317322 | 1622815435.8480077-CDS-P-fluviatile_contig11:317202..317322 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 317203..317322 - |
| 1693561858.7144613-CDS-P-fluviatile_contig11:317202..317322 | 1693561858.7144613-CDS-P-fluviatile_contig11:317202..317322 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 317203..317322 - |
| 1622815435.8599408-CDS-P-fluviatile_contig11:317866..317973 | 1622815435.8599408-CDS-P-fluviatile_contig11:317866..317973 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 317867..317973 - |
| 1693561858.726985-CDS-P-fluviatile_contig11:317866..317973 | 1693561858.726985-CDS-P-fluviatile_contig11:317866..317973 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 317867..317973 - |
| 1622815435.873319-CDS-P-fluviatile_contig11:318463..318574 | 1622815435.873319-CDS-P-fluviatile_contig11:318463..318574 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 318464..318574 - |
| 1693561858.7372963-CDS-P-fluviatile_contig11:318463..318574 | 1693561858.7372963-CDS-P-fluviatile_contig11:318463..318574 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 318464..318574 - |
| 1622815435.8893528-CDS-P-fluviatile_contig11:318958..319087 | 1622815435.8893528-CDS-P-fluviatile_contig11:318958..319087 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 318959..319087 - |
| 1693561858.7513568-CDS-P-fluviatile_contig11:318958..319087 | 1693561858.7513568-CDS-P-fluviatile_contig11:318958..319087 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 318959..319087 - |
| 1622815435.9016192-CDS-P-fluviatile_contig11:319781..319914 | 1622815435.9016192-CDS-P-fluviatile_contig11:319781..319914 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 319782..319914 - |
| 1693561858.7598407-CDS-P-fluviatile_contig11:319781..319914 | 1693561858.7598407-CDS-P-fluviatile_contig11:319781..319914 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 319782..319914 - |
| 1622815435.9134552-CDS-P-fluviatile_contig11:320533..320606 | 1622815435.9134552-CDS-P-fluviatile_contig11:320533..320606 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 320534..320606 - |
| 1693561858.7682116-CDS-P-fluviatile_contig11:320533..320606 | 1693561858.7682116-CDS-P-fluviatile_contig11:320533..320606 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 320534..320606 - |
| 1622815435.926459-CDS-P-fluviatile_contig11:320670..320803 | 1622815435.926459-CDS-P-fluviatile_contig11:320670..320803 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 320671..320803 - |
| 1693561858.7849255-CDS-P-fluviatile_contig11:320670..320803 | 1693561858.7849255-CDS-P-fluviatile_contig11:320670..320803 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 320671..320803 - |
| 1622815435.9389033-CDS-P-fluviatile_contig11:321567..321639 | 1622815435.9389033-CDS-P-fluviatile_contig11:321567..321639 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 321568..321639 - |
| 1693561858.7995548-CDS-P-fluviatile_contig11:321567..321639 | 1693561858.7995548-CDS-P-fluviatile_contig11:321567..321639 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig11 321568..321639 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-fluviatile_contig11.1003.1 >prot_P-fluviatile_contig11.1003.1 ID=prot_P-fluviatile_contig11.1003.1|Name=mRNA_P-fluviatile_contig11.1003.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=465bp
MALQPTGPTRGPIQRDLGGYGQRQDYGDSHRQQPHQQQPGGGGTEGVGIW
SRFKGRVFQGDANGEADDGRRLCCWSFRRVSLCVRLVVVVVHCFRPSGSS
LKKKEESVASSNTPGFGGPGAFGNPFPSFGVPPGLAMGQPGGAAPEPSGP
GVAEVISVDGSIVMVLKPNDLAKKKRKFKQDGANRLQVIATFDHCLTAFY
GKDGKTACLKTTDALEQNQHVMLPEAAKKVRFLRSDFKRRMEADGKAMTP
DERVAALEDNLRKVYSVVAMEGGVHMNSIGPAIESQLDSIPLREGVDDMT
AALAWRAIPLTIFCAGYGNVAMEVLRRGSPKITGPGGVFTPHLRLVANFF
RPDDTMTIIGMYDTVPLIHEAKKSGATLLEFLRGVRQENAFSARSNVLLL
GSELSDLGLANGLPGVEERICVGFLKLDEHVMEKLPRYAQAYDVVILGDG
DMSYANEILHEVVG* back to topmRNA from alignment at P-fluviatile_contig11:313531..323483- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-fluviatile_contig11.1003.1 ID=mRNA_P-fluviatile_contig11.1003.1|Name=mRNA_P-fluviatile_contig11.1003.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=9953bp|location=Sequence derived from alignment at P-fluviatile_contig11:313531..323483- (Porterinema fluviatile SAG_2381)
CAGCCACCGCCGCAGCAACAGCCGCAAGGGGGTGACAGCGGGAGCTTTTT
TTCCCGCATAACCAACAAGCTGAAGGGGACTGACGGTTCGCCGCAGGGCG
GGGGGGCGCAGCGGGATCAACAGGTCGGTACCCTAGTCAATGTGAAGTGA
GAAGCGGAGAGAGTGGACAGTGATGTGTATCTTCAACAACATACAACGTT
TAATGCGTCCTGTCGAAATGGAGCATCTGTTCACTCCTACGAACTCCGCC
GGCAGGGACACCGCCAGCACGAGGGCGGACACCCTGTTGTTCACGAAGGA
ATTTGGTCTTGCCTTCGCCTCATCCACTCCGTTGCTGACCACTTCTTGTT
CCCGGGCGGCACCCGCACGCAACCGTTTCGCGTTGCTGTTCTGCTACCTC
TCCTCGTCGAGAGCGTACGTTTGCATGCTTTTCAACCACGTGTGGATCCG
GCCCCGTTGTATTGTGCCAAGAAGGCTTGTCTGTTGCGCCTTCGCAACCC
TTCTCTCGACCGGTACGACTGGCACACAGTAGCATGCGTGATCACCCTTG
TCATCGGTAAACGGAGTCCCCGACCTGAGTTAAAGAATAAAAAAGTGCGA
GAATCGTGGCTTCTTTTTTCCTCGTGTAGTTGTCCCTATCGGTTCCAAAA
CTTCTGGTATTGCGGGCAACCTGGGTTGCTTCTCGCTATGTGCTTTGTTT
TACGCGCCTTCTCCCGGCGACCTTGAAAGTCACCCCGCGCGTTGTGCCTC
ACATTCTCCGCCCCTCCCCCCTCAGAATCGATCAGTTCATTGTTGGTGGA
ATATTGCTTGTTCCATTCCATAATTCCGAGCAAATGTTTTATGCTCCGGG
GGAGCATTGCGGCTGTAGAAGCTGAAATCAAGCCGTTATGCTATTCAGCA
CCTGCTGACTAGCCTAGGATCCTTTTCAGCTCCCACACGGCTGCGGTCGT
CGTCGTGCACAGGCGGTTGTGATAGAGCTCACGCCCTTGGTGCCTGGCCC
GCGGCGACGTTGAATTCGATCTCCCCTGACGCGCTTTAGTGTTTCCCACC
TTCCACTGTCCGGTGTACCCCCCACCCCAAGTGCTTGGCTTTTTTTGTTG
ATGACTTTCTCGTGGCCTCTGACGGCCGCCTTTATCCAATCTCTCCACGC
TCCCGCGTACTCCGAGGATTTTTATGTCGCCCACGCGCTTGACGATTAGA
TTCCTGATGATTGTGTGCGCCTGCTGTGCTGCAGGGGTACGGCGGCGGGC
GATACGGCGGCGGAGGCGGCGAAATCTCACATCAGTACCCCCCCCAGGTA
AAAAATAGCGGTGCGAAAGCGCGAATATTGGCAGAGCCGGCTCGGAGTGC
GGGTGAAGGAATCGGGGACAGCGCGTTCAAGCGCGCACGCAGGAGGCGAT
CGAGGCTGGTGCACGTTGCTGTCGCCCAAGAGTGACCACCACGTCGACGT
CCTTCGGTACCCCATGCGTATCCCAGTTGAATTCGCTGGGGTCCATTCTC
GAGCCATTTCTGCGGCGGATGCATCGTCGTTGCTGCGTCTGTTTTTCCTG
CTGTGCTGCGTATGCGTTCGCTCAAAAGCTACCCAGCGACCCCGACCACT
CAGCACAGGGCAAACAGCAGGAGGTGTCACCAACACACCCCGGCTACTCG
CATCTCTTCCATGCTCGAGTTTCTTCTTCGCCCTCAGATTCTTCGTGGAC
TTCCATCGTCTCTATCCTGTGTTCTACATCGACTCCCATCCTATCTTACG
TGTTTCTCCGGTTTTGTTCCGGTGATTGTTGCGGACCCATCATCATATCG
TGCCTCTTGCCTCCAAGGGGTATCGACCACCTTCCCGGCCGGGGATGGCT
CTCCAGCCGACCGGCCCGACCAGGGGGCCTATCCAGCGGGATCTGGGGGG
GTACGGCCAAAGGCAGGTATGGTGGGCATCTGTCTGTCTGCGCGAAAGCA
CGGCGCGGTTTGAACGTTGTTCTTGGCCGTGGCGTGTTGTGTGTACACCC
CCCTTTTGATTGCGTTTTCTCCGTGTGTTTCCTTCTTCTTTTAGTATTGA
TCGCCCGTTATTTAGCTTCAGCGTTCGTGTGACTGCGAGTCCTGGATGCT
TGGAGGAGAGGTTTTGCGTGATGAGATGTAAGTAGCACCGCTTGTCACCC
CACTACAAGCAGCAACGGCTCCAGGCTCGCTTGTTTGTTCTCGTCCGTGG
TCTTTCGTACTCGCGAAGTATCGTCAGAGCGGCAGCTAGGGCACGGTTGT
GGTAGCGTGATTTGGTTTCTGCCCACGCTGGCTAAGCGACCAGTGTAAGG
ATGGGATCGGTTTGTATGTGGGTCCACCGCAAAAATTGTTTGTGGTAGGT
GGCAGCGAAAGGAAGGCGCTTGGCGAGGATGTTGAAGGAAAGAAAGCGTC
GTGCTCTGAAAAAGGGAGCGGTGGAGGCGTGCCTCGACCTCCGACCTCTC
CCCGATAAAGACATAACTTCTGGTCGGACATCGAAACATCTCCACCTCCA
CGGTATCGCCCGTCACCATCACAAAATTGTTGTCCTGATTTACCTCACCA
TTCAACACGCGTACCGCCAAAAAGATGGCGACTTTGGGCTTTTTGCGACA
CTCACGACTCGTATGCGCCGGTGGGCTTCTTGCGCGTGTCTTGTTTGATC
GAAATGCCGGGGATTCATTCCCGTGATAAGGACTACGGCGACAGCCACCG
GCAGCAACCACACCAGCAGCAGCCCGGCGGTGGGGGGACAGAGGGAGTCG
GCATCTGGTCCAGGTTCAAGGGGAGGGTCTTCCAAGGCGACGCTAACGGG
GAGGCCGACGACGGTCCGCCGAGGTGTGGGGAGTGAGAGAGACACAGAGA
GCGGTTAGGACGTGATGGTGGTGTAAGGTCGTCGGCTTTGTTGTTGGTCG
TTTCGTCGCGTCTCACTTTGTGTCCGCTTGGTGGTTGTGGTGGTGCACTG
GTGGTGCTGGTATCGCCGTCGGTGTCGGAATTTTATTGCTCTTTTCCTCC
TCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTC
CTCCTCCTCCTTGTCTTGTTGCTACTGCGATGCTGCTGCTGCTTCCGGGT
GTCCCGGCCTCTCCTCCGAGACTTTCTTTTTTCCGCCGCGAATAATCTTA
ACCACCACTACTTCAAACCAGCAGGCGATAGGAAAGTGCCACCTGGAGCA
CCGCTTTCCCTTTTGTCGCACACGTCCATCGGCAGTTCCCCCTGAGCCTT
TGCCCCATGTCTTTTCTTGCCTTCAAAACGCATCCTACGCTGTCGCTTTC
ATGGGTGCACGAATCTTGACCATTCAGCCAAAACGCAGCGGAGCTCGCCG
AATGTTTGCTTTTTCGGCTGCCCCAATCGCAAGAATCACAGCTAGTCCAG
TTCACACTCCGCGCCTAAACGGGTTCTTAGCGGCGGCTCCGCACGGTGCG
TGGGCTACTTAACGCTTGATTTGGCTTGGCTTGGCTGGACTTGACTTGAC
CTGACCTGACCTGACCTAAAGCCTTGCTTGAATTGACATGAAATGACTTG
ACTTGAATTGAATCGGCAGCTTCCGGCCCAGCGGGTCGTCGCTCAAGAAG
AAAGAGGAGTCGGTGGCGAGCTCCAACACGCCGGGCTTCGGGGGACCCGG
CGCCTTTGGCAATCCCTTTCCGAGTTTTGGAGTGCCGCCAGGGTTGGCCA
TGGTGAGATAGACGGACGGATAGGCAGCAAACAACAAGTGGAGAGGGTGG
GATCGACATTGTGAAGCGGGGGTAGGGAGATAAGGGAGAGCAGCCCGCTC
GCCTTGAATTTGTGCGTGGGTAGGGAAAGAGTTGGTGCGTGGAGCGTTCG
GCTTCTTTTGCTTTATTTTCTCGTTCGTACCATCGCGCTGCATTAAAGAA
TAGATAAATGGTGAAAATTACCAGGGACGGAGAAGGAACAAGACTGGAGG
TCTGCCTACCTTGCTGCTTGGTTTCACAGGGGCGTGTATGCACGCGGTCG
GCTCGAGCGACTTTGTCACAGGAGTGGCAGAAATAAGCGGTCGATAGATA
GATAGATGGATAGATTAATCGGAGCGTGCGTGAGGGTGGGTGGGTGGGAG
GGCGGATGGAGGCAGCGCGGGAGAGAGTATCCCTCGTGCTGGTTACGTCC
CACCGGTCTTTGTTTCGCGAACGAGCCCCCTAGTGTTTGCGCAAAGAATG
TGGCATGCAAATTAAGGCGTCATGCCCAAATTCTAACACAGCAAAGGTTT
CGACCTGCCTCGAGGAGGGCGGTGGTTGTGAGAAACAGCGGTGCTTCATT
GCAGTGAACTCTTCACCAATCCACCTTGCAACCGACTCAATTTTCTTGCC
GCCATGTTTGTGCGTGCATGCGCGCGGTGCTTCGTGTATTTTTTAGGGGC
AACCGGGCGGCGCCGCCCCAGAGCCGTCGGGGCCCGGCGTGGCGGAGGTG
ATTTCCGTGGACGGGAGCATCGTCATGGTTCTCAAGCCCAACGACCTCGC
CAAGAAGAAGCGGAAGTTCAAGCAGGTGAGGGGTGACAACGGGCTTTTGA
AAATGCCTTCAGCTTTTTGAACGCCGAAAATTTCGTATTTCGTGCAAGTA
TACGCCACGCGCAAAGCAGCGTGGCCAAGTAGACTGTGTGTTCTTTCCTT
ACCCGCCGCAGAATGGTTTGTTCCGACTCAAATGATCCTTGCTGTGGTTT
GAATAGATAACGCATATAAGTGTTCATCGTTACATTCACGCGAGCCTAGT
TTCGTCGGGCTTGGAGTGAAGTGACGCTGGCGATGTCGATGCTCGATCTT
TACATTTCATCTCTCCCTTCCCCCGCAAGCGCAACCCGATTGGATCATTT
GGGACGGGGTTAAGTGGACGCGGTGTAAACAGGCGAAACTCGACATGTGC
CTCGCGCAGGATGGTGCGAACAGGCTTCAGGTGATTGCGACGTTCGATCA
TTGCCTCACGGCGTTCTACGGCAAGGACGGCAAGACGGCATGCCTCAAGA
CCACGGACGCCTTGGAACAGGTGCGAGGAGGAGAGAGGTCTTCGTTATCT
TGCGTCTGCGGTTGTGGAATGAATTGGTTGCGATGATGACGATGGTATCG
CGTTTTGTTTCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTATTTTTGTTGTTCATGTTGTTGTTGTTGTT
GTTGTTGTTGTTGTTGTTGCTGTTCTTGTTGTTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTGTTGTTGCGGTCG
TCGTCGCCTGCGTTGGCCGTTGTTGTTTAGCCATCCTACACCGCTTGAAA
AGACCCGCGCCGCCGTTATCAATGTACCACGTCCCAACATCCTTTTTTTT
TTCCTGGGTCGTGGCGTCGTGGTGTTTGTACTTTTGCTTCTTGTGGTCCA
TGCGGCCCAGAACCAACACGTGATGCTGCCAGAGGCTGCGAAGAAGGTCC
GGTTCTTGCGCAGCGACTTCAAGAGGAGGATGGAGGCAGACGGGAAAGCG
ATGACGCCGGACGAGAGGTGCACGCGTGTGCTCGCTGTAAAGTGTTGAAT
TCTCCACAAGTTGAAGACGGGGGCGTGTTTTGTGTTTCGAGTTATTGAGG
GGCTGCTGATAAAGAGGGCGAAAGCGGATGGGGAGGAGCGAGTGGACACA
AGTGACACAGGATTTTGCCGTCATTTTTTGCGAGATGATTCCATCGTAGC
GGCAGCTCAAGTTCGGACGCAAGTGCGGCTTGACTGTGCGTGAGAACGTT
CCGCGAGACCCCCATCGAAACCCCGTGTCTGCGAGCGGGCGTGCTGGCGC
AACATGCGTACAACGATTGTCGAGAAATGCATTGCACACACCGCACGTGC
CGAAATAGATAAGCCTTTGTGGCCCCATTGCCGGGGTTGCCTACCACGGC
CTCATATCTCGGTCGTGACCTGCACTTATTCCCTCCATTCTGCCTCGGCG
ACGTCTCGGTCGTGTGCGATTTTCGGCCTCACTCCTACTCTCCTGTCAAA
CCTCCATCACTTCGGTGTTGGGGGCGGGGGACGCATAACGCGACAAACAA
CTTGTTTGCAGAGTGGCGGCGCTGGAAGACAATCTCCGCAAGGTGTACAG
CGTCGTGGCCATGGAGGGGGGCGTTCACATGAACTCCATAGGACCTGCAA
TTGAATCCCAGCTCGACAGTATCCCGCTCAGGTTTGCACTACTGTTTGCT
TCCTTGGAGGCTTGGGGCCAAAATTCCGTTCGCTCATGTGGCGTAGAAAG
CACTTGGCTACTGCTGAACTGAGCTCTGGGTTTGACGCCGATCCCCTTGC
GACCGTGATGACAATCCGTGACGTCCTCAAATTCGCATTCCACCAGCCTG
TGGTCGTTTCCGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCT
GTTGCCAAGGTTGTGGCCATCGTTGCGTAATCGTCGTAGTTGTTCTCTCG
CAGCCCCAGGTGGCCGTTGCTTCCCCTCTTCTATTCATTTCTTCACGTCC
CTGTTTTGGCACGTCTCGCCGTCAACGTCGACTGCCCATCAGGGAGGGCG
TGGACGACATGACCGCCGCGCTGGCGTGGAGGGCGATCCCTCTGACCATC
TTTTGCGCCGGCTACGGGAACGTGGCTATGGAGGTCTTGAGGAGAGGTTC
TCCCAAGATCACGGGGCCGGGAGGGGTCTTCACGCCTCATTTGCGATTGG
TGGCAAACTTCTTCAGGGTGAGCGCGCGGGGGGGGGCGGGGGGGGCGTAC
TCATATTTTGCATACCTCAGTCGTTAGACCATTGACCACGCGTCCTCGAG
AGGACGGAGCATTGTTCCCGCAGGATCGATCACCGATTGCCAATCGTTCC
TTCCTACTTTGCCAAAGGTGGCTCAAAAATGTTTTCCCTAACCTGTCTAC
TTTATATCTGTCCTTCCTGGGCCACATCTTACACCCGAGTACCGCTACCG
TCTTCTCCTCTTTGTTCCATGCCTCAAACTTCTCCCTATACCGACGGTCT
ACTTTTTCCAGCTCAACCATGTACCCTTCTCTCTCCTGATCGTATAATGG
GCATTCCGCAACCACATGTACCCGGTCTTCGCATTCGGCGCCGCAGTCAC
ATTTGAACTTGTCTTCGTCGTCGTCTACCTTCCTAAACCTCCTTCTACGT
TCCCGAAGGTCAATGTCGCTCGTTCTAAATTTGACCTTCATCTTTGTCCC
TTCATCCAATGGTCCGTTCAGGTACTCCTTGAACCCTATTCCTTCGTTCA
GCCTTCCGTACACTTCTAGGACCTCCTTTTCCTTGGTCTCTTTCCGCAAG
CTCTGGTCTTCTCTATTTTCAAAGGCTTCTGAGATACTCTTCTTGTACCC
TTCTAAGCTTTCCGCTCCCGTCGTCTCCCGTTCCGCGTACTCTAGTGGCG
GGATGATAACACTTTTCAGAATGGTCATTTTGACGCGTGTATCAAGGTTG
CGGTCTGCTAGGATTGGTGCAACTTCCCTGCCCTTACTTTGCCCCTGTCC
GCTATTTTGTGCATGTGTGCATCCCATTTGCAGTCTTTGCCATCTCTACT
CCAAGCGCGGGGGGGGGCGGGGGGGGGCGCATTTGTGTGACCATCTTGAG
TGGCACACATCCACACATGGTGAAGTTCGCGTTTTGCCCCAACGGCCCTT
TCCGCCATTTTCTATCATTCCTGTTGTCCAAATCTTCTCTGTTTCTCTCC
CCCCTTCTCCCTTCGCCCTTTCGCTGAGCCCCGGCCTCTCCTACGCTTTG
TCCTGGGCAATTTGTAAACGTTTTTTCCCCACAGCCCGACGACACCATGA
CGATCATCGGCATGTACGACACGGTGCCCCTCATCCACGAGGCCAAGAAG
TCCGGAGCGACCTTGCTGGAGTTCCTCCGAGGCGTTCGGCAGGAGAACGC
CTTCTCGGCCCGGTCCAATGTGCTCCTGCTGGGATCGGAGCTCTCAGACC
TTGGGCTCGCCAACGGTGATTTGTGTTTTCGCTTTTTTTGCTTCTTTGTG
TCGTTGGATATGGCTATCCACCCAAGAGGACGGCGATTGGTGCGTAGGCC
AGCAGCGTTTGAGGTAGCGGTCCGGTCAAATTTGGAAGTGGAAGCGGATT
GACACCGTCTAGCTGTGCACATCCTCCTTGTGTCCACCCCCTGTGGGAGA
AGTTGTGCTTGACGTCCATACGTTGACAACCCGGCGCGAACGCGTGCCAA
TACGAACGCTCAGCATACATCCCCCCTTCCAATCCAACACACTCTCTTCC
TTTTTTGTGGTGTTTCCTTGTTCGTGGTGTGCCTTGTGTCTTTTTTTTTC
GTGAAGGCTTGCCGGGCGTGGAGGAGCGAATCTGCGTAGGCTTCCTCAAG
CTGGACGAGCACGTGATGGAGAAGCTGCCGCGCTACGCCCAGGCTTACGA
CGTGGTTATCCTCGGGGACGGAGACATGTCGTATGCGAACGAAATTCTGC
ACGAGGTCGTGGGCTGATTGATGGAAGGCACCGCCGGTGCGGCCGCCATG
GCCGCCGCCGCCGATCCTCGGCGACGTAGATGCAGTATTTAGTATGCGAA
TGATATTCTGCACGAGGTCGTAGGTTGATCGAGGATACGCTCCGCCGCCG
TCGCCCGCTGTTGTTGTCTTGGCAGCAGCAGTGGGCGGATGCGGGTCCGG
ATATTTGCGGTTTGGGCTCTCTGTGTTGCTATTTTGTTGTCGTTGTTGCT
GTCGATTTGCCGCAAAGAGCGGGGCTCAAATTGGCTGGGGGCGAAAAGTC
TGTGTGCGCAGAAGGCAGGCCAGCGAGATAGCCAACGGGCGGGGGAGCGG
ATGCCTTTGAGAGATTTTTCGGGCTCGTGAAATTGTCCGCGTGTGATCTC
GAGCGCCCGCGATCGTGTGCGCCCCTGGGTATCCATTCCTGTGTTCAATT
GGACCCGCGATTTCGAGGTCGGAAGGAAGGTATCTCACGACAACAATCGC
AAGTTCTTCATTTTACGAGCGAGGACGTCGGCGCGCGAGCTGCTTATCTC
GCCTTTCTCTTCTCGGTGAGTCGAGCGCTGCTCTTGAGGAGCCGATCGTG
TCGCTGGCAGCTGAGCGACGCTATGTCACTCGAGGCAAGGGCCATGTTTT
CGAGTAGCAAACTTGGCTTCGAGTGAATGGGGTGTGGTGTTCGACGAAGG
AGCTTGTTTCGCATGTAAAGGCAAAAGACAGGGAATCCGGATAGTTGCCC
CGTGCCTACTGGCTCCCGAGACACGTGAGAGCATCTGGGGTGTGTGCGGT
GAATTTTTGTGGTGGGCGCTGTAGACTACCAGTCCTCCTATTCGAACGAA
GGGGGCGTGTATGCCTGCGAAGGAGGGCTGGGTGGGAGCATGCCCGCGTT
AACCAATACCGTGCGAGCATTATGAGAGTCGCGCACGGTTGGGCTTGTTC
CCGCATGCCCTAAGTAGGAAGATTTTTTTTGTCTTCTGTGGCGAAGGTTG
TTTGAATTGGACATGGATTTGGTGTTGCCGAAGACGTACGCAGCAGAATG
GGATTTGGCGTGATATTTATAGAGACGAGCTTTGGATCTTATTTTGTGGA
GGGCGGGTGTTACTTGTGAGCACGAGCAACTTCGTACCGGCCCTTTGAAG
AACAGGAGGTTTGCAGTACCTGGATGGAGTAGTCTTGGATCCACTGTGCG
ATTTTAGGATAATAGTGTAGCAGGGTAGAGCTAGCTGCTGTTTTGACGAA
AGGGGCGTTCGATCGACGCTACTGTATTGTGTCAATCTCCACCCGGCCGT
CTCGTCGTCAGAAACTGCCCCTCCCATTTCTCCATCAACACCCATCCAGA
CGCCGGCCCACCGTTGTCGCCAATTTAGGTGGTGCCCGCCAATCATTTTT
GGT back to topCoding sequence (CDS) from alignment at P-fluviatile_contig11:313531..323483- >mRNA_P-fluviatile_contig11.1003.1 ID=mRNA_P-fluviatile_contig11.1003.1|Name=mRNA_P-fluviatile_contig11.1003.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=2790bp|location=Sequence derived from alignment at P-fluviatile_contig11:313531..323483- (Porterinema fluviatile SAG_2381)
ATGGCTCTCCAGCCGACCGGCCCGACCAGGGGGCCTATCCAGCGGGATCT
GGGGGGGTACGGCCAAAGGCAGATGGCTCTCCAGCCGACCGGCCCGACCA
GGGGGCCTATCCAGCGGGATCTGGGGGGGTACGGCCAAAGGCAGGACTAC
GGCGACAGCCACCGGCAGCAACCACACCAGCAGCAGCCCGGCGGTGGGGG
GACAGAGGGAGTCGGCATCTGGTCCAGGTTCAAGGGGAGGGTCTTCCAAG
GCGACGCTAACGGGGAGGCCGACGACGGACTACGGCGACAGCCACCGGCA
GCAACCACACCAGCAGCAGCCCGGCGGTGGGGGGACAGAGGGAGTCGGCA
TCTGGTCCAGGTTCAAGGGGAGGGTCTTCCAAGGCGACGCTAACGGGGAG
GCCGACGACGGTCGTCGGCTTTGTTGTTGGTCGTTTCGTCGCGTCTCACT
TTGTGTCCGCTTGGTGGTTGTGGTGGTGCACTGGTCGTCGGCTTTGTTGT
TGGTCGTTTCGTCGCGTCTCACTTTGTGTCCGCTTGGTGGTTGTGGTGGT
GCACTGCTTCCGGCCCAGCGGGTCGTCGCTCAAGAAGAAAGAGGAGTCGG
TGGCGAGCTCCAACACGCCGGGCTTCGGGGGACCCGGCGCCTTTGGCAAT
CCCTTTCCGAGTTTTGGAGTGCCGCCAGGGTTGGCCATGCTTCCGGCCCA
GCGGGTCGTCGCTCAAGAAGAAAGAGGAGTCGGTGGCGAGCTCCAACACG
CCGGGCTTCGGGGGACCCGGCGCCTTTGGCAATCCCTTTCCGAGTTTTGG
AGTGCCGCCAGGGTTGGCCATGGGGCAACCGGGCGGCGCCGCCCCAGAGC
CGTCGGGGCCCGGCGTGGCGGAGGTGATTTCCGTGGACGGGAGCATCGTC
ATGGTTCTCAAGCCCAACGACCTCGCCAAGAAGAAGCGGAAGTTCAAGCA
GGGGCAACCGGGCGGCGCCGCCCCAGAGCCGTCGGGGCCCGGCGTGGCGG
AGGTGATTTCCGTGGACGGGAGCATCGTCATGGTTCTCAAGCCCAACGAC
CTCGCCAAGAAGAAGCGGAAGTTCAAGCAGGATGGTGCGAACAGGCTTCA
GGTGATTGCGACGTTCGATCATTGCCTCACGGCGTTCTACGGCAAGGACG
GCAAGACGGCATGCCTCAAGACCACGGACGCCTTGGAACAGGATGGTGCG
AACAGGCTTCAGGTGATTGCGACGTTCGATCATTGCCTCACGGCGTTCTA
CGGCAAGGACGGCAAGACGGCATGCCTCAAGACCACGGACGCCTTGGAAC
AGAACCAACACGTGATGCTGCCAGAGGCTGCGAAGAAGGTCCGGTTCTTG
CGCAGCGACTTCAAGAGGAGGATGGAGGCAGACGGGAAAGCGATGACGCC
GGACGAGAGAACCAACACGTGATGCTGCCAGAGGCTGCGAAGAAGGTCCG
GTTCTTGCGCAGCGACTTCAAGAGGAGGATGGAGGCAGACGGGAAAGCGA
TGACGCCGGACGAGAGAGTGGCGGCGCTGGAAGACAATCTCCGCAAGGTG
TACAGCGTCGTGGCCATGGAGGGGGGCGTTCACATGAACTCCATAGGACC
TGCAATTGAATCCCAGCTCGACAGTATCCCGCTCAGAGTGGCGGCGCTGG
AAGACAATCTCCGCAAGGTGTACAGCGTCGTGGCCATGGAGGGGGGCGTT
CACATGAACTCCATAGGACCTGCAATTGAATCCCAGCTCGACAGTATCCC
GCTCAGGGAGGGCGTGGACGACATGACCGCCGCGCTGGCGTGGAGGGCGA
TCCCTCTGACCATCTTTTGCGCCGGCTACGGGAACGTGGCTATGGAGGTC
TTGAGGAGAGGTTCTCCCAAGATCACGGGGCCGGGAGGGGTCTTCACGCC
TCATTTGCGATTGGTGGCAAACTTCTTCAGGGGAGGGCGTGGACGACATG
ACCGCCGCGCTGGCGTGGAGGGCGATCCCTCTGACCATCTTTTGCGCCGG
CTACGGGAACGTGGCTATGGAGGTCTTGAGGAGAGGTTCTCCCAAGATCA
CGGGGCCGGGAGGGGTCTTCACGCCTCATTTGCGATTGGTGGCAAACTTC
TTCAGGCCCGACGACACCATGACGATCATCGGCATGTACGACACGGTGCC
CCTCATCCACGAGGCCAAGAAGTCCGGAGCGACCTTGCTGGAGTTCCTCC
GAGGCGTTCGGCAGGAGAACGCCTTCTCGGCCCGGTCCAATGTGCTCCTG
CTGGGATCGGAGCTCTCAGACCTTGGGCTCGCCAACGCCCGACGACACCA
TGACGATCATCGGCATGTACGACACGGTGCCCCTCATCCACGAGGCCAAG
AAGTCCGGAGCGACCTTGCTGGAGTTCCTCCGAGGCGTTCGGCAGGAGAA
CGCCTTCTCGGCCCGGTCCAATGTGCTCCTGCTGGGATCGGAGCTCTCAG
ACCTTGGGCTCGCCAACGGCTTGCCGGGCGTGGAGGAGCGAATCTGCGTA
GGCTTCCTCAAGCTGGACGAGCACGTGATGGAGAAGCTGCCGCGCTACGC
CCAGGCTTACGACGTGGTTATCCTCGGGGACGGAGACATGTCGTATGCGA
ACGAAATTCTGCACGAGGTCGTGGGCTGAGCTTGCCGGGCGTGGAGGAGC
GAATCTGCGTAGGCTTCCTCAAGCTGGACGAGCACGTGATGGAGAAGCTG
CCGCGCTACGCCCAGGCTTACGACGTGGTTATCCTCGGGGACGGAGACAT
GTCGTATGCGAACGAAATTCTGCACGAGGTCGTGGGCTGA back to top
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