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Homology
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: D7FIT7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FIT7_ECTSI) HSP 1 Score: 408 bits (1049), Expect = 2.540e-137 Identity = 199/244 (81.56%), Postives = 214/244 (87.70%), Query Frame = 3
Query: 261 MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVETFVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPLPSQQTLRCRWPRLFMAPPDDHPHTITRGDAYTRTHYLRVRRGYINAHIKFPTG 992
MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVV+IAPEGPM+DEAMFCREH+AQLVP+RAELYREEAVTVS QQVAQVLSILADK++LPALVHCPDGRVL+GVVLWCLRRLQCWDDRASAAEFARFSGV+PS EVE FVESYG+EV VPAN+P WLWGGDRAHWHP IRIRHQPPLEV EP+PLPSQQTLR R P +RG+ YTRT YLRVRR Y++A K P G
Sbjct: 1 MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVSIAPEGPMEDEAMFCREHSAQLVPVRAELYREEAVTVSCQQVAQVLSILADKDRLPALVHCPDGRVLSGVVLWCLRRLQCWDDRASAAEFARFSGVLPSREVEKFVESYGEEVTVPANVPRWLWGGDRAHWHPCIRIRHQPPLEVFEPDPLPSQQTLRLGETRRLRKP--------SRGEVYTRTDYLRVRRDYMHAKNKIPGG 236
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A6H5JCL7_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JCL7_9PHAE) HSP 1 Score: 405 bits (1042), Expect = 2.350e-136 Identity = 204/264 (77.27%), Postives = 219/264 (82.95%), Query Frame = 3
Query: 261 MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVETFVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPLPSQQTLRCRWPRLFMAPPDDHPHTITRGDAYTRTHYLRVRRGYINAHIK--FPTGEGGRAGRRPEGGGVGTRG 1046
MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVV+IAPEGPM+DEAMFCREH+AQLVP+RAELYREEAVTVS QQVAQVLSILADK++LPALVHCPDGRVL+G VLWCLRRLQCWDDRASAAEFARFSGV+PS EVE FVESYG+EV +PAN+P WLWGGDRAHWHP IRIRHQPPLEV EP+PLPSQQTLR G+ YTRT YLRVRR Y+N + K P G GGR G GG VG RG
Sbjct: 1 MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVSIAPEGPMEDEAMFCREHSAQLVPVRAELYREEAVTVSCQQVAQVLSILADKDRLPALVHCPDGRVLSGAVLWCLRRLQCWDDRASAAEFARFSGVLPSREVEKFVESYGEEVTIPANVPRWLWGGDRAHWHPCIRIRHQPPLEVFEPDPLPSQQTLR--------------------GEVYTRTDYLRVRRDYMNMYAKNKIPEGAGGRRG----GGSVGARG 240
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A836CAP9_9STRA (Tyrosine phosphatase family-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CAP9_9STRA) HSP 1 Score: 201 bits (512), Expect = 2.320e-55 Identity = 104/224 (46.43%), Postives = 137/224 (61.16%), Query Frame = 3
Query: 255 RRMEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFS-GVMPSSEVETFVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPLPSQQTLR--------------CRWPRLFMA 881
+R E+V PP +FG VE DVFRS PTLKN R+L+RLKL+T+VAI PE P+ D FCRE +L+ + A+ Y+EE +TV+ QQVAQ+LS L D ++LPALVHC DG +TG V+ CLR+LQ W + E +++ G EV FV+ + +EV V A +PPWLW G R HP IR+RH PPLE + Q L RW R+ M+
Sbjct: 9 QRRELVIPPSKFGLVEQDVFRSGHPTLKNLRYLTRLKLKTMVAIVPEEPLKDLCDFCREQDIELLHVAADKYKEEGMTVTPQQVAQILSALVDPQRLPALVHCLDGGAVTGTVIMCLRKLQGWSWAGLSEESRKYTAGRGMHREVNKFVQDFTEEVTVGAAVPPWLWQGQRERLHPAIRLRHDPPLEEAREGGAKDGQALHEEIQKTLAQARSDNIRWRRVHMS 232
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A024G700_9STRA (Uncharacterized protein n=1 Tax=Albugo candida TaxID=65357 RepID=A0A024G700_9STRA) HSP 1 Score: 161 bits (408), Expect = 4.910e-42 Identity = 78/175 (44.57%), Postives = 109/175 (62.29%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRH 797
PPFRF VE V+R + PTLKN+RFL RLKL+T+V+I PE P D FC+E AE Y + VTVS +Q++ IL D+ K P +HC DG +TG+V+ LR+LQ W A+ +EF RF+ + E+ ++ ++ +E++VP+ IP WLWGG H HP + IRH
Sbjct: 9 PPFRFNIVELLVYRGSYPTLKNFRFLKRLKLKTIVSITPESPSSDVLEFCQEEGITHYQFLAEKYSSDNVTVSPAIASQIVHILIDQSKFPIYIHCLDGSNVTGIVIMILRKLQNWTKVATISEFCRFTRDHSIEKNESEYLATFCEEIVVPSKIPGWLWGGHCIHKHPTLVIRH 183
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A8K1FLW5_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1FLW5_PYTOL) HSP 1 Score: 155 bits (392), Expect = 9.090e-40 Identity = 74/182 (40.66%), Postives = 115/182 (63.19%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVS 818
PPFRF +V+ ++R + PTLKN+RFL RL+L+T+V++ PE P D FC++ AE + + VTVS VAQ+L ++ +E LP +HC DG + G+++ LR+LQ W A+ +EF RF+ + E+ ++ S+ +E++VPA++P WLW G R HP + I HQP LE++
Sbjct: 10 PPFRFSSVQHQLYRGSYPTLKNFRFLRRLQLKTIVSVIPEPPTADLVEFCQQEKITNYHFCAEKFTSDNVTVSPSMVAQILQLMIKQENLPLYIHCLDGANVAGIIIMVLRKLQNWTKVATVSEFCRFTRDHGIEKDESEYLSSFSEEIVVPADVPRWLWNGIRITKHPTMII-HQPDLEMN 190
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A2D4CE66_PYTIN (Uncharacterized protein n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4CE66_PYTIN) HSP 1 Score: 155 bits (392), Expect = 9.590e-40 Identity = 74/182 (40.66%), Postives = 115/182 (63.19%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVS 818
PPFRF +V+ ++R + PTLKN+RFL RL+L+T+V++ PE P D FC++ AE + + VTVS VAQ+L +L ++E LP +HC DG +TG+++ LR+LQ W A+ +EF RF+ + E+ ++ ++ +E++VP ++P WLW G R HP + I HQP LE +
Sbjct: 10 PPFRFSSVQHQLYRGSXPTLKNFRFLRRLQLKTIVSVIPEAPTSDLVEFCQQEKIANHHFYAEKFTSDNVTVSPATVAQILXLLINQENLPLYIHCLDGANVTGIIIMILRKLQNWTKVATISEFCRFTRDHGIEKDESEYLSTFSEEIVVPTDVPKWLWNGIRILKHPTMII-HQPDLETA 190
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: UPI000D1CD96B (probable tyrosine-protein phosphatase DG1060 isoform X1 n=2 Tax=Selaginella moellendorffii TaxID=88036 RepID=UPI000D1CD96B) HSP 1 Score: 152 bits (384), Expect = 1.760e-39 Identity = 76/181 (41.99%), Postives = 108/181 (59.67%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEG-PMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLE 812
PPFR+ VE ++R A PT+KN+RFL RL L+T+V++ PE P D FC++ L + + ++ VT+S QV ++L + E LPA +HC DG +TG+V+ CLR+LQCW+ S AEF RF S E+ FVES+ +++P IP WLW G R HP R+ + P E
Sbjct: 13 PPFRYAIVEESLYRGAYPTMKNFRFLKRLHLKTIVSLTPEAQPNKDLRSFCQDQGIHLQHFHVDKF-QDVVTLSHNQVVEILHKIISVENLPAYLHCLDGAHVTGLVVMCLRKLQCWNLSTSTAEFCRFQRTGEISREESQFVESFQGSILIPPRIPQWLWQGVRTVNHPIFRLTYLPDEE 192
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: H3HBF1_PHYRM (Uncharacterized protein n=7 Tax=Phytophthora TaxID=4783 RepID=H3HBF1_PHYRM) HSP 1 Score: 154 bits (390), Expect = 1.900e-39 Identity = 81/202 (40.10%), Postives = 116/202 (57.43%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPL-----PSQQTLRCRW 863
PPFRF V+ ++R A PTLKN+RFL RL L+TVV++ PE P D A FC L AE + + VTVS AQ++ IL +KLP +HC DG +TG+V+ LR+LQ W A+ +EF RF+ + E+ ++ ++ +E++V A+ P WLW G R HP + I HQP LE++ L P+ +W
Sbjct: 10 PPFRFSTVQQGLYRGAYPTLKNFRFLRRLGLKTVVSVIPEPPTSDLADFCASEKIALHHFYAEKFTSDNVTVSPATAAQIIEILVQNKKLPLYIHCLDGSNVTGIVVMILRKLQNWTKLATVSEFCRFTRDHGIEKDESEYLAAFSEEIVVTADAPQWLWNGVRVTKHPTM-IVHQPDLELATASTLDAAGNPNNGAPNLKW 210
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: A0A0P1AVY4_PLAHL (Uncharacterized protein n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1AVY4_PLAHL) HSP 1 Score: 153 bits (386), Expect = 7.000e-39 Identity = 78/183 (42.62%), Postives = 113/183 (61.75%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSG--VMPSSEVETFVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVS 818
PPFRF ++ ++R A PTLKN+RFL RL L+T+V++ PE P D FC L+ AE + + VTVS VAQ++ IL K+ LP +HC DG +TG+V+ LR+LQ W A+ +EF RF+ + +E E ++ ++ +EV+V A+ P WLW G R HP + I HQP L++S
Sbjct: 10 PPFRFSTMQHGLYRGAYPTLKNFRFLRRLGLKTMVSVIPEPPTSDLVAFCTSERITLLHFYAEKFTSDNVTVSPATVAQIIEILIQKKNLPLYIHCLDGANVTGIVVMILRKLQHWTKLATVSEFCRFTRDHAIEKNESE-YLTTFSEEVVVTADAPLWLWNGMRLTKHPTM-IVHQPDLDLS 190
BLAST of mRNA_P-lacustris_contig1123.1000.1 vs. uniprot
Match: W2N4G1_PHYPR (Uncharacterized protein n=13 Tax=Peronosporaceae TaxID=4777 RepID=W2N4G1_PHYPR) HSP 1 Score: 152 bits (384), Expect = 1.340e-38 Identity = 79/202 (39.11%), Postives = 116/202 (57.43%), Query Frame = 3
Query: 276 PPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDDEAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVHCPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVET-FVESYGDEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPL-----PSQQTLRCRW 863
PPFRF V+ ++R A PTLKN+RFL RL L+T+V++ PE P D A FC + AE + + VTVS AQ++ IL K+ LP +HC DG +TG+V+ LR+LQ W A+ +EF RF+ + E+ ++ ++ +E++V A+ P WLW G R HP + I HQP LE++ L P+ +W
Sbjct: 10 PPFRFSTVQQGLYRGAYPTLKNFRFLRRLGLKTLVSVIPEPPTSDLADFCANEKITQLHFYAEKFTSDNVTVSPATAAQIVEILVQKKNLPLYIHCLDGSNVTGIVVMILRKLQNWTKLATVSEFCRFTRDHGIEKDESEYLAAFSEEIVVTADAPQWLWNGVRVTKHPTM-IVHQPDLELATANTLDAAGNPNNGAPNLKW 210
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 | 406.8 |
| Seed ortholog evalue | 1.3e-110 |
| Seed eggNOG ortholog | 2880.D7FIT7 |
| Preferred name | OCA6 |
| KEGG ko | ko:K18046 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0003674,GO:0003824,GO:0004721,GO:0004725,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006464,GO:0006470,GO:0006793,GO:0006796,GO:0006807,GO:0008150,GO:0008152,GO:0009987,GO:0016311,GO:0016787,GO:0016788,GO:0016791,GO:0019538,GO:0035335,GO:0036211,GO:0042578,GO:0043170,GO:0043412,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044424,GO:0044464,GO:0071704,GO:0140096,GO:1901564 |
| EggNOG free text desc. | protein tyrosine phosphatase activity |
| EggNOG OGs | COG2365@1,KOG1572@2759 |
| Ec32 ortholog description | Protein-tyrosine phosphatase-like |
| Ec32 ortholog | Ec-20_002960.1 |
| EC | 3.1.3.48 |
| COG Functional cat. | T |
| Best tax level | Eukaryota |
| Best eggNOG OG | NA|NA|NA |
| BRITE | ko00000,ko01000,ko01009 |
| Exons | 9 |
| Model size | 1714 |
| Cds size | 1254 |
| Stop | 1 |
| Start | 1 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815425.432614-UTR-P-lacustris_contig1123:6822..7082 | 1622815425.432614-UTR-P-lacustris_contig1123:6822..7082 | Pleurocladia lacustris SAG_25_93 | UTR | P-lacustris_contig1123 6823..7082 + |
| 1693493533.9720922-UTR-P-lacustris_contig1123:6822..7082 | 1693493533.9720922-UTR-P-lacustris_contig1123:6822..7082 | Pleurocladia lacustris SAG_25_93 | UTR | P-lacustris_contig1123 6823..7082 + |
| 1622815425.558814-UTR-P-lacustris_contig1123:29429..29629 | 1622815425.558814-UTR-P-lacustris_contig1123:29429..29629 | Pleurocladia lacustris SAG_25_93 | UTR | P-lacustris_contig1123 29430..29629 + |
| 1693493534.0872064-UTR-P-lacustris_contig1123:29429..29629 | 1693493534.0872064-UTR-P-lacustris_contig1123:29429..29629 | Pleurocladia lacustris SAG_25_93 | UTR | P-lacustris_contig1123 29430..29629 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815425.4432826-CDS-P-lacustris_contig1123:7082..7180 | 1622815425.4432826-CDS-P-lacustris_contig1123:7082..7180 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 7083..7180 + |
| 1693493533.9928718-CDS-P-lacustris_contig1123:7082..7180 | 1693493533.9928718-CDS-P-lacustris_contig1123:7082..7180 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 7083..7180 + |
| 1622815425.4533172-CDS-P-lacustris_contig1123:24121..24275 | 1622815425.4533172-CDS-P-lacustris_contig1123:24121..24275 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 24122..24275 + |
| 1693493534.0078819-CDS-P-lacustris_contig1123:24121..24275 | 1693493534.0078819-CDS-P-lacustris_contig1123:24121..24275 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 24122..24275 + |
| 1622815425.467406-CDS-P-lacustris_contig1123:25253..25424 | 1622815425.467406-CDS-P-lacustris_contig1123:25253..25424 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 25254..25424 + |
| 1693493534.0172672-CDS-P-lacustris_contig1123:25253..25424 | 1693493534.0172672-CDS-P-lacustris_contig1123:25253..25424 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 25254..25424 + |
| 1622815425.4812737-CDS-P-lacustris_contig1123:25736..25846 | 1622815425.4812737-CDS-P-lacustris_contig1123:25736..25846 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 25737..25846 + |
| 1693493534.026354-CDS-P-lacustris_contig1123:25736..25846 | 1693493534.026354-CDS-P-lacustris_contig1123:25736..25846 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 25737..25846 + |
| 1622815425.4994693-CDS-P-lacustris_contig1123:26328..26392 | 1622815425.4994693-CDS-P-lacustris_contig1123:26328..26392 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 26329..26392 + |
| 1693493534.0359342-CDS-P-lacustris_contig1123:26328..26392 | 1693493534.0359342-CDS-P-lacustris_contig1123:26328..26392 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 26329..26392 + |
| 1622815425.511999-CDS-P-lacustris_contig1123:26632..26880 | 1622815425.511999-CDS-P-lacustris_contig1123:26632..26880 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 26633..26880 + |
| 1693493534.0457065-CDS-P-lacustris_contig1123:26632..26880 | 1693493534.0457065-CDS-P-lacustris_contig1123:26632..26880 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 26633..26880 + |
| 1622815425.5232327-CDS-P-lacustris_contig1123:27534..27613 | 1622815425.5232327-CDS-P-lacustris_contig1123:27534..27613 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 27535..27613 + |
| 1693493534.0583262-CDS-P-lacustris_contig1123:27534..27613 | 1693493534.0583262-CDS-P-lacustris_contig1123:27534..27613 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 27535..27613 + |
| 1622815425.5355015-CDS-P-lacustris_contig1123:28018..28072 | 1622815425.5355015-CDS-P-lacustris_contig1123:28018..28072 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 28019..28072 + |
| 1693493534.069234-CDS-P-lacustris_contig1123:28018..28072 | 1693493534.069234-CDS-P-lacustris_contig1123:28018..28072 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 28019..28072 + |
| 1622815425.54662-CDS-P-lacustris_contig1123:29153..29429 | 1622815425.54662-CDS-P-lacustris_contig1123:29153..29429 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 29154..29429 + |
| 1693493534.0780926-CDS-P-lacustris_contig1123:29153..29429 | 1693493534.0780926-CDS-P-lacustris_contig1123:29153..29429 | Pleurocladia lacustris SAG_25_93 | CDS | P-lacustris_contig1123 29154..29429 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-lacustris_contig1123.1000.1 >prot_P-lacustris_contig1123.1000.1 ID=prot_P-lacustris_contig1123.1000.1|Name=mRNA_P-lacustris_contig1123.1000.1|organism=Pleurocladia lacustris SAG_25_93|type=polypeptide|length=418bp
MEIVPPPFRFGAVEADVFRSAQPTLKNYRFLSRLKLRTVVAIAPEGPMDD
EAMFCREHAAQLVPIRAELYREEAVTVSSQQVAQVLSILADKEKLPALVH
CPDGRVLTGVVLWCLRRLQCWDDRASAAEFARFSGVMPSSEVETFVESYG
DEVIVPANIPPWLWGGDRAHWHPNIRIRHQPPLEVSEPEPLPSQQTLRCR
WPRLFMAPPDDHPHTITRGDAYTRTHYLRVRRGYINAHIKFPTGEGGRAG
RRPEGGGVGTRGPDAVSSGARDSSGALPSSTRRRSASSGGQTASGALSRE
DSFSQDMQDINMMMEEKEVKLSRAVQALSLEGLDVTPYDDEGDDEDDAAY
EHQQQRHQHHHQRMSRAGFAGSHSSSSRSRRGQQQPIVKFVAVAIRQLNA
ARVSTTSCFFSSGGPYG* back to topmRNA from alignment at P-lacustris_contig1123:6823..29629+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-lacustris_contig1123.1000.1 ID=mRNA_P-lacustris_contig1123.1000.1|Name=mRNA_P-lacustris_contig1123.1000.1|organism=Pleurocladia lacustris SAG_25_93|type=mRNA|length=22807bp|location=Sequence derived from alignment at P-lacustris_contig1123:6823..29629+ (Pleurocladia lacustris SAG_25_93)
GCAGTGTCCCACAGAGAGGGTCGTGGGGGTGCAATGGTTGGTGCGCAAAC
TTCCTGATTTCTTGGAGTTTGGAGTTTGGCGTCGTCAACCGGACAAAAAC
AAATGCGGCATGACGCTCGTGCAAACACCCTCCGACCTCAGCAGAGGAGC
GCGGTCGGAGCTGTCGCGAGCAAAGCGAGGCACCGCAAATTCTCAACACG
AAACAGTAGTGTTGCTGCTGCCCTCTGCATCGGCAGATCAGCAGCCAGGT
CCTCAGACGAATGGAGATCGTCCCGCCACCCTTTCGATTTGGGGCTGTCG
AGGCCGATGTGTTTCGATCCGCCCAACCGACCCTCAAAAACTATCGATTT
CTCTCCAGGTGAGACGCCTCACATGTACAAAGCTGCTATGTGGCCATTTC
TACTCCTTGCTGCTGCTTTATGTCACCGGTGCCATTGCCTCGCAACCGCA
GTTGCGAGTAATTTTGTTTGAACTTGTAGTCCCATTTCCTTGAACTGCGG
GTAGACTCGAGCAGGCTTCGCTGTTCGTTGTATAGTCCGTCCGGGACACT
TTGTCCATTCACTTTTTGAGCGATAAGTTCTGAAAGAAAACGGGCTGTAA
CGTGAAACAACGACAGCCGTGATTGCCTCGTCGAGCTCAGTCGATAGCTG
CAAAGTTTTTCATTTTCGCGAAATGCACCATTTTTGGCCAAAATCACCCC
CACACGGAGCCCCTAATATCATGGTACCCCAAATCCCTCCACGGAGCCCC
CATATTTTCTACGCATGGGCTGCTGAGCGCTAAAAGTCCACACCTATCAT
ACCCCCCCCCCCCCCCCGCCGCCGTGAGGTTTTGGGCTTATCCCGGTTTG
GTCGGGTCGGTCTCTTATTATACTGGATTTAGTGCAGCGCCTGTCTAAAG
CCTATATAATAAGCTTTAATTATAGGCTTTAGTAGGTGTTCTAAATCCTA
TATAATAAGATTTTATAGGTTTAGTATAGCGTACTAAGTCCAGTATAATA
AGGTTTTATATATGTTTAGTATAGCATACTAAATCCTATATAATAAGGTC
TAAATAGGTTTTAGTATGCCATACTAAACGCTATATAAGACCCCCTGCCG
TGCTCTTTTTTTTTGGCTTATCCCGGTTTGGGATGATAGGTATGGGTTTT
TGCGCTACAGCTGCCCCCTTGTTCTATGGGACCACGGAACCTCCTAACCT
TGTCATACTTTGCGTTCGTACAATTACCACGAGGAATGCATGATGACGTT
TACATCCATCACTTTATTCTTGTAGGTACGCACACACATCATTGAGTTTT
AGTGTACTTGCCCAGGGGCAAAAGAGCACCGAATATCTCGGGCAATTTCG
TTTTTTTTTAAATCGGAAAAAAGATCCACCTGTGGTTTGTCGAGAGGGAT
CGTTTGCCGCACCCTCTATTTTCAAATCGTACGGTACGTTTCCGCAATAA
AAAGCGAACAAAATGTATGAAGAAACGGTTTTTGGCTCATAACATAGTCA
ATTTTTTATATTTTTTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTTGTCTTCACATTAAAAACCGTTCCGGTCTCTGCTCAGTACCTGCTA
TTGTCCGTACTGGTCTAACTGACGCGGTCGACTTCCGTGGTCACAGGCTG
ACTACCCCAATTGGGGTATAATGACAAGATACAAAGTAGGACCCAGGGGG
TCAACACAAGCAAGCGCGATAAAAACAAAAGCAAAGAAAAAGAAAAAGAA
ACAGGACGAGAAGCAAAACACACAATACACGCCCCCTCCCATGGAAATCG
GTGTCACAGGTGGCATGTGGAACTGGGGGTATAGCCCATCGCTCCCACTT
GGCACGCGAGGCTAAGCAAAACCATAATAAATAAATAAAAGGGAATAGCT
AGTAGAAATGAGAGACAAAAGTCACCACAACCAGCCACATCAACCAAGGC
CACAACCAGCCACATCAACCAAGGCCACAAGTAGTCAGAGGGACCCAGTC
AAACTTCCACGTGCTCTCCTAGCCAAACGTCCACATTCTCTCCTAGCCGT
ACGCGTGCCGCGTCGGTGGGTGGGTGCAATGGAAGAGATGGGGGCGGTGG
GGGTTATCAAAACAAAACAAGCCAACACAAGCAGAAGATAACCAGACAAA
GAAACAAAGAAACAAAAAAGAAACAGCCACCGACATAGACAGGGGGGACA
CGCGCCGCGTTGGGGCGGTGGGTGCAATGGAAGAGAGCGGGGGTTATCAA
AAACAAAACAAAGAAACAACAAGTGAAAGGGGAGAGAAAGTTGGTAGGAA
TTCTTGTTACCTCCTCCATTGAATTCAGTCTGGCACGTATCTTACTACAC
GTTCTACTATCTCCCTCCTACTCTCTTCAGCCGCCGTTGCGTCTTGTTTC
CCCCGTGTACTCCCCCCGCCCCTTTTCGTTGCCGTCTCTGCCGTAGTGAG
TTTTTTGCTTTCCCGTTTGATCGCACGTTGTCGGCTGAGCTCTTCTTCGT
CCTCGTGCCACTTGGCCATGAACTTCTCCATTCCCTGTAACACCCCCGTG
TACCACGACCGTCCGTCGGGCTTCGCTGTCAGCGTCCATACAACTCTTTC
AACTCCGAACGTCCGCCGGTTTTCATCCGTCGAGTCGTCGGTGGTTCCGA
ACACTTGGAAATCTTCCCGCCAGTTCTGCTCCGGGCGCCCCCGGCCTTTC
CCCACGAGTTTCCCGAACATCAGCCGCTTCGGGAGGCGTCCGTCTGGTTG
TCTGGCCACGGCGCCCGCAAACAGCAGCCGTCGCTGTCGGACGGTGGCCT
CAACGCTTGGGCACCCCACCTTCCGGAGGGCCTGGGCGTATGAGAGCTGT
CGGAAGGTGCCGGGCGCTCGGCGGTATCCGATGACTCGCAGGAGTAGGCG
GTTGTGTGTCCTCCTCAGAAGCTGGTAGTGTTCAAGGCGCGGGGCCCAAG
TCATGCATCCGTACAGGAGGGCTTCCATTGGCTCCGCTTTCAGCATTCCC
CGTGGTGCTTTCGGCCGGTCGAAGAGCTCCCAAGAGTACTTCTTGAAGCA
TGCCCACGCGGCTCTGCTCCGGCGGTTGATCTCGTGGGTGAGTTCGCCAT
CTTCGTGGATAAAGCCGCCCAAATATCGGAATTCGGTTACCTGGGCGTAC
GTCTGCTCCGCTGCTTGGATGACCAGCGGTGGTGGTGGTGGTTGTTCCCC
CTCCTTTGGCCTTGTTTCCTTCACCCGCATCAGGAGAGTCTCCGTCTTCT
TCTCCGACACTGTCAGGCCAAAGTCCCCAAACACCTCCACTATAACGGCC
ATCATCCTCGCTAACCCATCGGGGGACCTCGATACCACGCCGGCGTCGTC
AGCATACAACATTCCCCACACCGCCCTCCGCACGCTGGACCCGCCCCCTC
CCATCCTCCTCCTCGAGGCATACCAGATTCTCAAGGATGACCGCGTCCTT
GCTGAATCGTGCAACAACGACCTCGTTAGCCGCTGCGAAGAAGATGTTGA
ACAGTAACGGAGACAACACGCATCCCTGTCGCAGTCCCTGTGTGACCTTG
AACCAGTCCGAGAGCTCCCCGTCGTCCATGCGCACCCGGGCCTTCATGCC
CTCATGGAAGTGGCGGATAACTGTGATCAGCTCCTCTGGGAAACCGGCTC
TGGCTGGTACCTTCCATAGCAGCTCCCGGTCAACCGAGTCGTAGGCCTTG
TGGAGGTCGACGAAACACATGTACAGCGGGATCTTCCGTCGTCGCCCCAA
CTCTTGGAGGCGGCGCACTACGAATAGCATGTCAACGGTGGATCGGCAAG
GCCGGAAGCCGCACTGTTCATCCGGCAAAATCCCATGAGTTTCGCAGTAG
TCGCTGAGGCGGTTCGCGACGACCTTCAATAGAACTTTGCCCGCGTGCGA
GAGGAGTGAGATCCCTCGGTAATGGTTGCAGTCGGTTCGGTCCCCCTTCT
CGAAGAGCACCTTGATGGTGGCGTCTTTCCATTCAgGGGGGACTTCCCCT
CCGTTCCACACGTCGGCCAGGATGGCATTGAAGTATTCGAGTACGATGGG
TTCGTTGCGGCCGTCTACCTGAAGAAGCTCTACCGGGAGAGAGTCATGGC
CAGTCGCCTTCCAGTTGTGCATCGCGCGGACTGCCCTTCTGGTCTCCTCC
AGTGTTGGCGCTGATTTCAGGTGTGCCAAGTCTGCGGTTGACGGCGCCGG
TGGCCGTTGCTCCACCTCCTCGATGATGAATGGGTCCAGTGTGGGCGATT
TAGCGTTGGGCAGCGAACCGAAGAACCTCGCCCACCGCTGGAGGATTTCT
CCCTTGTTCCCCAGCAGGACCCCTTTCTCGTCCTTAACGAACTGCTGTCC
TCTCGACTGTCTACCGTGAAGGCCACCGATCGCTTGAGGTGTTTGTAGAT
GCCTCTCAGGTCGCGCTCCTTGTAGATTGCTTCTAGCCTAGCCACATATC
TCCCCAGGTGGGCGTAGATGCCATCATCGACTGCTGTGCGCACCTTCTTG
CACGCGGCTTTGAGTGCCTTCCACGTTGATGGGGTCCGGTCGTTCTTCAT
CCTTCGACGAGCTTCCTGGCGCGCGGCCAGAGCTGCTTCTACTGCTCGGA
AAAATTATGCACCACGGGAATTCCGAGAGCTGTCTAAACCCGGTCTCAGA
ATTATTCTCCGAAAAAAAGACACCCACAACAAAAGCGAACAAGTTTTTCC
GGTTATGTGTTGATAAAAAATTCGTTGTAGGTGGCACCACGTTTCAACGT
TCACCAGCTACTGCTGTTGTATGCTACCAAGCGATGAGTACAAATGTAGC
GCCGACCCGTCTCGGTTCCTTTGTTCCTTTTACGCACGAGTCGCCGCTTT
AAGAGGTGCATCGTTTGACTTCATGAAATCGAACATCTGCAATCTTATCC
CACGGCTACTCGACAACCGCCATAATTTTTACGCAGCTTTTTTTGCTTTG
TGTACTACTGCTACTACTTACTGCTGTTGCATATGTTTACCAAATCATCG
CCAAGCGCAGGACTTTACCTGTCTACTACTTGTAGAAAAGGGAAATGGAC
AAATGTGGGTACTGGGAAACGCGCTTCGCGGAGGCCACCGTTGCGTGGCC
GAAACACCTCCAATCGTCATTCCGACGCCTTGGCAAGGTTGCCAGGGGCC
GATACAAAGAGTGAAGATGAACTTTTACGAGCATTCGACCACGTGTGCAT
GCTTGACACGGCTGCCGCGCACATGGTAGCACAAAAACACGCCGGGGATA
CCCGGTTTTGTCCGACACCCCGGTGGGTATACTACCCATATCCTACACTT
TTATCCGTTACAGCAGTGCCCACTTTTGTCCGAATTTGTACCTACGTTTG
TCCGACTTCGGGCCTCGAAAAACACACTCAAATGGGGCTGTGAATCGATC
GGATTTGTTGATATCTTGAATGGTGTTCGGCGCAGCCGATATCCCGATAC
ATCGGCTCGTCGTGTATCGTTCGGCGAAGCTGCTACACTGCTACAAAGGC
AAGGGGTAGGCTGGAGCGCAAAAACCCACACCCATCACCTAAAACCGGGA
TATATTGTTCAAGCCAAAAAAGGAGGAGGGGGGGGGCGGGGGTTACTATA
TAGGGTTTAGTATGCTGACACTAAAATCTATTTTATATATTTTATATAGG
ATTTAGTGCAAGCCATCTATTTTTTTATGTAGTACGAGCCTTCTATCTTA
TAGGTTTTAGTATGTCTATGCTATATATCCTATACAAATTCATTATATAG
GATGTAGTATAGCGATACAAATCCTACTCCTATACAAGGGCTCCGGATGT
GGGGGCTCCGCCCCCCCATCCTCCGCCCTTGAGATCTATAACATACTAGA
TGTGAACCATAAAGTTGAAAAAGGTGGCGTGAAACGTTTAAGCCCGCATA
CCAAATGGAACGTTTACAAACGGAGGCTAAATACGGGGTTCACGAAATTT
ACTTGTACTGTTGACGTGTGCAAAGCACGTGGAAGATCCGGGTGCGAACG
GTGAAAAAATGTAGGAGATATTTGTCTTCGCACACATTGTGAGACTATGT
ATATATCCTGTGGCGCACAACATACCCACATTGTCGCTTCCGGGTACGGA
ACGAAATATACCCGTGATGAAGTTAGCTTTCAATTGAAAAAAAAAATGGA
GTGTTTTTTTTAGAGTGTTTTTTTTCAGGGAAATCTCTCGAAACAATTCT
TCGACCTCAGACATTTACTTTAGTTTGACATCCCTTTCTTGCGATGGTAG
CGCTTCACAGTACGACGTGTACGTATCAGCGCCTGTCTCTAATGTGTAGT
GTGCACACAAAGCGAGCGCTTCACATCACGACGTGCGCGTGTGCGTGTGG
CAGTGATCTGGCTGCAGCTGCCTTTGTCGTTCACACAACTTCAACGCGGA
AAGCGTATCATTTTACGGGCCATTATTTTTCCCGTCAGGCGAACCTTTTG
GCGAACCTTTTCGGAGACGCCAGGGTGCGCGTCAGCGTCTGTGATAGGGT
GTTCATCTCGCTGATTACCACGATCGGGGGTGGAGGAGGGAGGGTGACTG
GTGCACGGGCATTTGCGTGTGTGTGTGTTTCATTCATTCAGGGTGCGCGT
CAGCGTCTGGATAGAGATGGGTTCGAGAACCTTTTCGGAGACGCCAATCA
GCGCTCCGATTCTTGACAGTCCCGCGCCGAAGCGAAACCTCTGGAGCTCG
CGCGGGAGCGCTGAAAATCATGCCGCTGAAAAAATAATGCTGATCTGAGA
GTGCAGTTTTTGTGAGACTCTCTGAGAGGAGAGAACCCCGAGGTTTTGAG
CTGTCAGGGCTCGAGAGCGTTTGCTTTAGTCCTATTTACCTCTACAAGAT
GTCGGGGGAGGGGTGCTCCGCCCCGCCCCCGGACTTGAGCGGGTCAGAGG
CCTTCACGCCAAGTGTTTCTTGTGGTGGAACGAAAAGAAATTGAGGATCC
GACGTGGTCGGTTCCTGTAACGACGGGCATACGAAAATGGACGTCCTGGA
ATGCAAAGCGCACGTGCATGTATTGGAAGACAGGAAGAGAAAGGGCATGG
CAAATTGTACCCATATGCATGCGACGGTAGTGAACTGCTTTTTCATTTGC
GTTGAAATACACACAGCGGAAGATATTATGAATAACGAAGCGATTTTTTG
GTTGGAGGACCACAACATGAAGAACTGACAAAAAAGAAAAGCCGTCGTGA
GACCACTGATCGAAAAAAAAGGAAGTAGTTGGAAAGTTTGGCACAGATAA
CAATTCCCGCTCGTGAAGACGTGAGCCGGGCGGCACCCTTCCCGTGGTGT
CGCAAGAGCACGATGAACGGAAGGAAGGCTTGAGGCAGCACTAAGCGTTC
CGATCTCTACCCAGCAGCTGATGGAGCAAGATGAGGGGAGATAATAACCG
CCCCCGCGCAATCATCGAACATTTTTTTTCATGTGAAGACAGCCACAACA
ATTTACAGCAACAGAAAGAAAAAGCCGTCAGCCCCCGCCGCGCTCCGCTC
TTCTTGTGTCGGCTTTGATTAGACTTTAACTCAAGCGCGCTGGGAGAGCA
AGCTGGGAGAGCGGGCGATGTGGGATAAATTGTTTTTTTTTGTTTTCGTC
GGTGAATTATTATGCATGCGCGAAACTCTCACCGCTCTCGGCAAAAGGCA
CGCAAGCTCACACAACCGCTCAACCTCAAGTTCGCGCAAGAAAAGCTCTC
GCTCGTCTCGGCTAAACCTGAACTCAACGCAAGGAAACGATCCTCTGCCC
TCAGGCGTTCGCTTGAGTTTGACATCCCTTTGTTGCGACGGTTGAAGGAA
GTCGTTTGCCGTGGTGAAGGCGCCATGAGCGAGAGAAAGCGCAAGGCCGG
CCAATCAACATACAAAGAGATCATCATGCCGGGACGAAAACACCCCGACC
GAGTAGAACGCTAAATGAAACTAGTGCCGCCGCTGTAAAAGTAGGCAAGA
AAGCGAAAGGCTCACACAGAATAAGCAAAGAAATGAACGGATCAAAACGC
CCCGAGGTGAACGCCGCACGAAAGTCTCGCCGCGGCAAAGGGCACGCAAG
CTCGACGCGAGAAGACAGACGCGCGCTCGGCGAAAGGCACGCAATCTCAC
AACGCGTCGCGCTCGCCTCGGCTCAATCAAGGTTGGCCCCGCACACGCGC
CAAAGGGAGCCCTCTTTGGAAGCCCTCGCTGGCCTCCGCCAAGCCTTTCC
CCCGCGACAGCTAAACCTTACCTCAACGACGCTCTCTGGCTGCCGCTCTG
TTTTTTGTTCCCGCCGGGCGGAACCCCGCGCGGAACCCTTTCGGGGACGC
CAATCGGCGCGCCGATTCTTGACGGTCCCTCGGCGGGGAAAAAATCGTGC
CGATTTCAGAGTGAAGCTATGGGAGACTCTCGGAGAGGAGAGAACCCCGG
AATGCTGAGCTCTCCGAGCTCGAGCGCCACGCTAAATTCACGTGGAAAAT
AAAAAAAAGTTTGCGTTAATCCTAGTTACCCATAGAATAGGGAGTTTCGG
ATTCGCGCTCAGATTTTTCAGATTTAAAGCTTTCAGAATCAGATTTAGAA
ACGGTTCCGGCACGTTTCTGCGGCGAGATTATTTCTAGATTTAAGCAACT
CAATCTCATTGGCCAGGGTCACACACAGTCCCTGTTTTCAAATGCCCGGC
CACATGCACCGGGAGGGATTCACAACGGCTGCCGATTGCATCCACCAGCC
TTGCGCAACACGCATTCTTTTGGGCGTGAGGCAGGCCCATCATGTCTCGG
CTACGTATCGCGATAGGATAGCGCGCAAAACACGAGCTTTGGTTATGCTC
CAGTGCCGAACGCTATTTGAAGTCTACACCGAGATGTGGTTCGCATACAA
CATGGCCTTCGTCTACGCCATGGCTCGTCTGGAACTCGACGACACCCCGA
CGAGCTTTGTGCGGAGGGACGTGATTGCATTCTTCAGCCCCCAGGATTGC
ATCAACTTTCTTCGCTTCTCACAGCCCCAGGTGCGTGCGTAGCGGGGGGG
TTGTATACAGCTGTATCTCCGGCGTCCTGCGTGTCCTCCCACCACAGCAG
TACAGCAGTGTATATGTACGACTTGCAACCTGGAATCAGAAACGTCACAG
ACACAACTGGTTGACACGCTCTTCAAACTTGGGTACGTTGCTTCTGCTGC
AGATTATGCTGATGCTGGAGCTGTTGCTGATACCTGCATTGATTCGGACG
GACTGTGGATTCGTGTTGAACGGCCGGGAGGCACTGTGCGTTCTCCTGTA
CCGTCTGGCCTCCCCATGCCGCCTCAAGGATATGCGATTGGTCTTCGGCC
TGAGCGAGTCGCTCATCAATGAGGCTTTCAATTGGATGCTGCATTTTCTC
GATTTCAAGTGGGGGGCTCTGCTTTCCCTCAGTGTGGAACGCGTGAAGCC
GAGGCGACGTGACTTTGCCGAGGCGATCTACAATTCCGGCTGTCCCCTAA
CCCACTGTTGGGGCTTCATCGATGGAACCGTGCGCGGCATTGCAAGGTAC
GCTTGATATAAAAATTGACTTGCCATGCTTCGTACGTCTGATAGATCAGT
ACAGATCCAAACTCTCTTGGACTTCAGACATGAACACCTTATCGTAGATG
TTTGGTTTTCGGTGGCGACGCCCCCCTCCCATCTAATCTGTTGCCATCAC
GAACGAGGTTAGATTTTGCTAAAACTGAAATATGTCTGCCGCGGCAAAGA
GAGGGGGGCAGCTGAAAACATCTTGATGAGAAAGTACGCAACGCAACCAT
CCGACCCGATGTCAACATACGCGTCATTTCCAGTCTGGGCATTCCTTTGT
GCTGCCTCTTGCTTTTCGCAGGCCTGTCCGTTTCCAACGCCTGTTCTACA
ATGGGCACAAGAGTAAGCATGCCCTGCAGTTCCAAGGCGTTATCACCACG
GACGGGATGTTCGTGGATCTCTGAGGTCCAGTGACCGGCACACGTCATGA
CAGCTACATTTTAGCGCAGTCTGGACTGATGCAGAAGCTGTCCATGCTCA
GTAACCCCGCAGGCCACCCGCACTACTTGTATGGAGACCCGGCGTACGGA
ATGAGTAAAAATCTTCTCTGCCAGTACAGTGTGGCTAGTGTTGGCCCTCT
CACACCGGCAATGGCCGACTTCAATAAGCGCATGAGTCGCTGCCGGGTTA
CCGTGGAATGGGGGTTCAAGGAGATGACTAGCATGTGGGCATTCATAGGC
ATGAAGCCCCAGCAGAAGGCAGAAGTTTTTGCTGAGCCCTGTAGCCAAGC
AATACAGGTTCGCGACTCTGCTTTCCAACTTTCACTCGTGCCTGGCCGGA
GGCAACGAAATATCGCAATTCTTCGGCGTCACGTCGCCCACCTTAGAAGA
TCCGCTAGCTGTCTTACGGGTCGCTTCGGTAAAGTTTGCCCGAGGCTTAT
CGCGTTGCGAGGCTGTACCAAGTACTCCTATATACTTGGAAATAGTTCAG
TGTTTTTTTTTTAATGCGCGAAAAAAAAAAATGTGGTCAACGCAGTTTCG
TTCTTTTATGGGACGGGCAATGCCTAAATCCGGTGTCCGCGGGTTCTCCG
CGCGGTTTACCGCTCCGCGAATTTGCTGTGCATCGAACTAACTACAGCAC
CCTGCAGTGTTTGTCGGAGCTACGACGGATAGGAGTGCAACATTGTTCGA
GAAGAAAATGTGCAAGTCGCTATCGAACAATGCACATTTTGCTTGTGATT
TCGAGCTATCCGCGAACATGGTGACGACACGCTCGCGCCTGAAAGCGCCC
AGGGCCGTCAGGAGCTGGATACTTTTTGTGTCCTGCCCCGAGCAACTGAA
TAAAAAAAACACAGAGGTACGCAAGACGCAAATCCATGAAATGCTTTTTC
ACGATGACTGATTTCCACTACAACAAGAACGAAGCGCTTGTGCCTGCGGC
CTGCGGCCACAGGATTGAAATGATGCCCACCCTCTCCTACACCGAACAGA
AAACACAACAGCAAAAATCATCAGAGGCGCACAAGACGCAAACGGGAAGC
CACACCGATTTTTTTTCTTGTAGTACTTGCAACAGGGCTTGGCTACCCGG
GATCGACCTAATGGTTGTTTGCCTTCGGGAGCAGCACCTGCAACTCCAGC
AACTTCAACTGGTAGGCCTGGTCCTGCTCTCTGTCCTTCCTGTCCTCGGC
ACGATCAGCCAAGTACTGTTTGCGCTTCCCCTCGTCGGCTTTCCTTTTCT
CGTCAAACTCCTCCTGACGCATGGCCCGGTCGTGCTCCAGCTGCCGTGCG
AACCGGCTGTCGTCGTCACCCTGCTTCTTCGCGGCAGCCTTTTCCGCATC
AGCCATCTGCTTGTCCATGAAACTGAGACACGGGATACAGCAACGGCAAA
AAGCAAGCAGAAGTACGGACGTCGACAACTTCATAGAAATACAAATTATC
GAACAGACGTTATATCGGAGAAAGCACTTGGTACAGACAACGGCGGAGGC
AATAGCACTTGCAAACAAACGTACGGATAAACACGAGAAGTTGCCACGCA
CTGGGAATGATTCAGACCAACGGCGAAGAGTAACAATTCAGAGGTTACAA
ATCTCACCTGTCAAGTCCGTCCTCCTGGAGCTTGTTCCTGTTGCCCCGGC
TGCGTTTCCGACGGTTGCCCTGCTGGCTGCCGCTTTTCCTCGGCGCCGCT
CTTCTTCCCTGGTGAATTTCGCAGCCACCGGCTGCTTCGAGATAGGCCAT
CCGTTCGCGAAGAAGTATGGGACGGCGTCTGCTTCGAAAAAGTCGCCATC
GTCCCGACCATAGTGTGAACACAGATCCTTCAACAGCAACCCATCGACCC
CGAGTTCACCATCGAACCCGGGTACTTCACCACGCTCGCCGATTTCCTCC
AGAAAGGCGGCCACATCGAGATTGTCGCGCGCTTTTGTCAGCCGGTATTC
GATCATAGCCGTCATCATCGCTTCGGCCTTGCCTGGACGGACTTGGCTGG
GGGTAAAGCCGGCGTTGAGGAAGTACTCCGCCTCTTCTGTGGTGGCCTCG
GCGTCTCGCGCGAAGACCGCCAAGGTCAGGTCCCCATGGCCTTCGCCAGT
ACGACTCCGAGCGGCGGGATGTTGGTCGTCTGTCCACTGGGAGAACCGCG
TTGAGTGCTGCTGCTCCCGATATCGCTCGTGGTGGGGCTGGATTTACCGC
TGGAACCGCCACCCGCCGATGACATGCTGCCTGCCCCGCCCGTGCTGGTG
GTGGGGCTTGTCCGGAGGCCCGTCGCTGCCGCCGCCGCCGCCGCCCCTCC
CCCACCCAGGTAAGCAAGCGCGAGGTCATCGTCGGCCAGCGCATCCCCGA
ATAAAGTTGCCCTTGCGCCAGGCCCACACCGCGCGTTTCCCTGTTGCACG
GCTAGCGGAGCCAGCATGGTGCTGTTTGCGGCGTCGTTGTCCGTCTTCTG
CTTGTTCTCCAAGGAGTCTAGCTTTGCGGCAGATCTTGCGTCCACGATCG
CGGTGAGCGCCTTCGCCTGGACGGAGAAGCAACGATGGACAGACAACAGT
GATGCTCTCAGCAAGTGGCGAACAGGCATATCGGTAATCGAAAAAAAAAA
ACGTGAAGAAAAGGTGGGAAACAGCTGCGAGAATGACCGGTACGAGGTTT
TTTGAGCGAGTTAAAAAAACGCTCATTCTAAGCCAGCGAACACCCGAGCC
CTGCCTAGTCTCGGTGCTTCGCACCGTGCTGGAAGCGTATCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTCGAAGAAAACAGGATGTGC
ACACATTTTCGCATCCCACACGCATTCTGCAGCATCTAGCGCTGGTGCAC
AGTAAAGTGGCCAGAATGTACACTTTGCGGATGAAGGCGTGCCTAGTGTG
GTGACCCTGGGTTACCTCTGTGCAGTAGACTTCGGCCTGCACAGAGGATG
CGAATGAGGGGAGGGGGCGGACTATATATTTCTGGGGAAAGGCATTGAGG
GGGAGTTTCGGGGAAAGGCATTGAGGGGGAGATAAGGTCTATGCCCCCTT
TTATCATCTCTTGCTCTCCTCTCGCGCAGTCTCTATCTCAACGACCAAAG
GCCATATTTTTATGCACACAAGTTTCGAAGACTCTTACCAGCTCAGCCCA
GGTCCTCTTCATTCCCTCGTCCTCAGAACCGCTATCATCGTTGCCCGCTT
CGGAGCTTCTTCGCCCCTCTTCCGACTTCTTGCTGTGGTCCTTGACCATG
GAGTCAAGACGCGACTGGCATTTGCTCAGAGTCTTCCTCGAAAACACCCT
GACGTGCGGCTCCTCGTTGACGTCCTCTCAGATCTTGTCCCACCTCTGGG
CGACGGTCAGCTTGCTCCCCTTCTTGGTCCAGACTTGATGATGCAGACCT
GCAGCGAAAAGCGGAAGATCATCGGGTGTATAAGTTTTGTTGTATAAGGA
ACAGAGGGCGTGTAAATCGAGGGGATGCCCTACGGACCAAAATTGAATGA
TTCCCCACACAGGACATAGAAACGGCGGCCCGCAAGATTGCCCTTGCTGC
TGCGCAGAGACACGATTCGGGTGCAGCAAGCCGAAAGATGGTCGCAACTT
TACACGCTATCTTACGGCGAAAATACTTGAGGGAAAAAATCGGATGCCAC
GGTCTTTTGTGCAAGACGGGCAAGGCATCAGTACTACATTCTGCGTGGCA
TGGCACACACAAGTTTTTTTCGCATTTGGGGACGCCGAACCTACAGCGCC
CACATTTATATCCTGTCTTTTCGAGTACTACTGATAAATAAAATAGAGTA
CCAAACCGCTTGTTCTTTTGGATCATGAACGACTGATGTCCCAGTCTTTC
GTCGTGCACACAACTGCGTTGCATGGACGCGATGAAGCACTGGTGTGTGG
GATGTGCGTGAAGTATCGGGGCTTGACCTGAGGATACGCACAGAAATCCC
GCCCCGTTTTTTTTTTAATTTTTAATTTTGGGTGCATATGGTGTGGGGAC
ACAACGAAAAAATGGACAGAGGACGACCAGCAGCAGTACCACTAGACAAC
ACGCCCGTCGCAGGACCAAAGGAACGATGGCCTTTATGACTTTCTTCACT
GCTGTAGAGGTTCAAGCGAGATGGGCACACAGCAGCAGCAAGTGTGCACA
AGCGAAGGGTACGGTAGCCTGCAGTAGCTTACCCTTTTGCTCAAGGATGC
AGTCCCACTGCGGGTTCCACTTTGAGCTCTTGCGGCGCTGCTTCTTATGC
TGGCTTGCGCTGCTGCCTCGTTGTCGATTTCTTTTTGCTTTTAGCATCGT
CATCGGATGATCCATCACCCGGAGCATCGCCACCCTCGTCTCCTCCCGTG
AGGTCTAATAGTTTCTCGCGCTGGTCGGCAAGCGCCGCGAAACTTGCGCT
GTCACCCGCAGCCGTGGACTTCTGCGGGTTCCACCCGGCGTCTCTTGCCT
TTTGGCTTGGTGCTGGGGCTCTCTTTGCGCGTAACGACATGGTTCCTGGT
AGCGTGTCCTAAATCCGAAGATTTACAACAACCTTTTAGAAATAAGGGCC
TCTCAATCGGCTTTTGAGTCCCTTAATTCCAGAAATTGGCCGGATTTCAG
GAACGGTCCGCGGAATGACCCTAAATCTAAATCTGAACGCTGAGACTGAA
AACGAATCCGAAACTCTCTAATAATGAAACCGGGATAAACCCAAAAACTC
ACGGAGGGAGGAGAGGGGGGGTGGCGGGTATGATGGGTGTGGACTTTTCG
CACTCCAGCGTACCCCTTGACATCGGCAAACAGGGGACCCGCAAAAATAA
AATTAAATGCTAGCCCCCCGGCCGACAGTTTGTTTGTGCCGATATTTTTC
GAGAAAAACATACATAACTTCAAAGAAAGACTACCATCTGGGAAGTCCCC
CACAGATGGGTATTGAAATTTTCATAGTCTCTACAGAGAAGGTTGGATTT
TGCCGACATTTTATGCATACCACCCAAAATATCGATGATAACATCGGTCT
TTATGGGAACAAGATGTTGTCAACAAATCTTGAATTTATCGAGAAGATTT
GCGTGCGAACTTTCTGAACTCCAAGATTGGATACCGCTTTTTGTGGGGAA
AAAATCTTGTTTCGGCGGATCTTGGATGTGACGGATGTCGCCTCGCACAG
CTTGCTGTTCAAGTTGTTCCATCACTTCGTCCACAAAACCAACCACAGCG
TCATCAAAACGGAACGCCACGCGACCACCAAAGCCTTCAACCCATCCCAG
CTGTACAGCTTTGACGCTTCAGCAGCTGATAGTAGCGAACAACAGCCAGG
GCGCGCAAAAAAAATGATGTTGGTCGCTGTTTTTCGCTCGAAGGAGGAAA
AAAGCATTTCCAACGGCAGCAGAACATCTCAAGCCGAGAGCTACGACACC
GATAATCATTTCTCGTCTCGAAGTTAGCGCATCGAGGTCAGACCTTCGAC
GTTGTTTACTGTACTCGGTGATCTCTTTCGTGTGCTAGTGGGTTGGCTGT
GGGTTGCTCAGATCAAGAGATGGAAGCGTTGCCCACAACCGATCGCGTTT
TGGGCGAAGTTTCCCCGGCTTATTTTTACACTTGGAAATAGAGCATTCCT
TTTTTTGGCCTTCAACGGCTGATATGGACAGGTTGCGTCGCAGCGATGCT
GTTATCTCTCGATAGAATCGTCGCACAACCAAGCCACTTGCATCCGAAAG
AGAGCAGTCAATGGACTTGACATCATTGAAGGTTTGACCTCGATACGTCA
CCTGCGGAGTGAGATACGAGAAACATTGTCGTTCGCTCTCGGCTGGAGCG
TTGTGATTCTTGGTTGAAGAGCATACGTGTGCAGGTGCGAGGCGAAAACG
ATTTTTTGCGACCGCCTGCCTTAATTTTTTGCCGCCATCCGCACTCGCAG
CGTCGAGCATGCCTCTAGGGTGGTTATGAAGCTTCTCCGAGTGTGCCATG
TTCAGATTCCATGGCGTAGTCGATGATTTTGGGTGACTGAAGTCACCAGA
GCCTACAAATCCCGCCGCTCTCTCCAAGATTTGTAGAGCTGCTCCCAAAT
GCAAATCTTGGGCCAAGATTTGCAGAAAAAGGCAACTTTCTGGCCTTCTG
CAAATCTTGGGTGCCAAATATTTGGAACATTTGTGGCCATAAAAAGTGAA
ACAAAATCTTGGCGGACAAATCTTCCAAATTTCAAGATTTATTGACAACA
TTTTGTTCCCGGTGTAACATCGACACAATTTGCGGATTTCGATATCGCTT
CAAATGGATGCGATGTAGGGCATGAATCGGTTTGGATTCACAACCCTACA
CTCTACACACACTCCACATCACCGAACCGGCACAACATAGATTGACACCC
AGTCAACACGGAGATTTGAACTCCAATCGGGTCGTCAAGAGCCATATTTC
TAGCCCCTTGGCTACCCGTCGATCTCTGTGTAGTGTTACAAACTCGTTTC
TGAAAGGAAGAGTGGGGGGCGAGTCCTGTCCAACCCTGACAAACTAGGCA
GTGCGGCCGGGCTGCTGCGTCAACAACGATGGGATACCTTGAACCTGTGC
GGAGGAAGCTGGTCGTGCAGCGTCACGCGTTGGGTGCGTGCATCGTGTGC
GGCGTGTATGTGTGTACAAATAGCTACGTGTGCACAAACCTGCAAAAAAA
CTGTTGCATGAAGAAAAGAAGGTGCGCAACTGACTGGTCATCATGCCATG
CCAGCAAGGGCATCAGGAAACCAGGGCCAAATTTTTCCGGCTAAAAAACT
TCAAGAGAAACAATTTTAATTTTCTTGCATTTCGGGACGAAATCAAGGAA
AATAAAATAAAATAAACAGGTCTCCGTCACGCAATGCGCCTGGAAACAGG
GCGTTTGCCGGTACTTTCAGATTTCGGAACAACCACCTGTGTGCAGAGAA
AAGTTGATCATTTTTTGTGCTGAGAAATTTTAATTTTTCGACAAATTGTT
GTGCACGGACCGCAGAAGGACATGGGTATACCCACCGGGATGTCGGACAA
AACTGGGTAtTCGGaCGTGTCTCTTCGCTACCCTGTGCGCGGCGGCGGTG
TTAAGCATGAAGACGTGGCCGATCGTAAAAGTTCATGTTCACTCTTCGTA
TCGGCCCTGGCAACCTTGCGCAGGCGTCGGAATGACGATGGGAGGAGTTG
GGGCCATGCAGCGGCGGCCTCCGCGAAGCGCGTTTCCCTGTAGCCACTTT
TGTTCGGAAAGGGGATGGTTTACCCACTTTTGTTCATGAAGTTACACATG
CCTAAAACATCTATGAAAGACTAAATACCACCCGAGAATTTCTCCAGGAG
TTTGTTTTTAGAGGTCTTACGCTACCCCACTTCCTCCACCGCGAGGCAGA
TTGAAGCTTCGCACAGTGGTGGCGATAGCGCCTGAGGGACCGATGGACGA
CGAGGCCATGTTTTGCAGGGAGCACGCGGCACAACTTGTGCCGATCCGCG
CGGAGTTGTACCGTGAAGAAGCCGTGACAGTTTCGTCCCAGCAGGTGGCG
CAGGTATGGGTATGCACAAGCGGGGAGAGACGAGAAGCTCGCTACCCACG
CCCTTCGTGGTCGCTGTTGTTTTTGTTTCCGATGTTCTTCTGGCGCACCT
ACCACAGTATCGTGTTTTTGTGTTTGCGAAGCCTTGAAGTCCGTTAGCCC
GCCTGGAAGAGGGTCTTTCTCGACAAGGGTCCTTGTGGAGTTCAGTATTG
GCGTGTTTTTCCCTTTGGTTTTCCTTGTGGTCTTCGCTTCATTGTCGGGG
AGAAGGGCGGACCGGCCGTGATCCCAGGCGTAGCTCTGGGTGACCCTGTC
CTATGTGACAGGGATAACAAGATATCGCGATTGCTTTCCGTACCTCCACC
TGGCCCGTCACGATTCCGATACTACTCTTGTGTTTCCGTACCCACCCGTA
CGCCGATCTATACGCTTGTTTTGATTCATTTTGCAGACCGAGTAACTGAT
TTGTCCTCGCGAGTACAGTGCTGTCTAGGACATCCGATGGCTTTGCATTT
GTGCCAGTACTACAGCCGGCTACCCAATCCACCCCGCCAACAGCAGTCTC
TCCCTAACAGCATGAGATGAATAAATACCGTCGCGTGCGTCACCCCGCAC
AAAGACGTGTGGCCATCGACCGCATGTTAGTGCTGCTTGATTGTCCTCGC
CCAGAGGCATCTTGCACTTCGACTGTTGTGTGGAGGCAAACTCACGAGAT
GGTAGTACACTCGTCCTGGTCGACCTTCTTGGAAGCCACCCTTGACTCAC
TGCTGCTGATACAGGCTCAGCGCAAACTCCAAGAAGCACATTCCGACGGT
GATGCCTATTCGTCGCTAGTGTATGTCCACCCTCATATTTGCTTCTGTAG
TCCAGTCTCTCTCTCTCTCTCTCTCTGCCCCCCTTCCTCCTCCTTTCCGT
CTTGAAAATCTGAGGAAAATGTTCTTCGTCCTTGCCGTTATTCACACGTC
TCTTTCTCTCTGTCCGTAAATTATGGGAAAGGTGTTGTCTATTCTTGCTG
ACAAGGAAAAGCTTCCCGCTCTGGTCCACTGCCCTGACGGTCGCGTTCTG
ACCGGAGTCGTACTCTGGTGTTTGAGGCGGCTGCAGTGCTGGGACGACCG
AGCTTCCGCTGCGGAGTTCGCCAGGTTCTCCGGCGTTATGCCCTCGAGTG
AGGTATGATCCACTTGTTCTTCATGTCGTGATTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGATGATGTTGATGTTGTTGTTGCAGCTGTTGCTGTTGTTT
CTGTTGTTGTTGTTGTCGTTGTTGTTGTTGATGTTGATGTTGATGTTGCA
GCTGTTGCTGTGGTTGTTGTTGTTGTTGTTGTTGTTGTGTGTCTCGGGTC
ACAACAACTAGTTTGTGGACGCAATCTTGAACGAGCAATGCATATGGTAG
ATGCAACAGGCGTTTCGTTTTGTGTGTATGGCTGGCGGTTGCAATTGCCA
TGTTCATTCTCCAGGTCGAAACGTTTGTGGAGAGCTACGGGGACGAGGTA
ATCGTTCCGGCGAACATTCCACCGTGGCTGTGGGGAGGCGACAGGGCACA
CTGGCACCCCAACATTCGAATTCGGTGCGCGAGAGGGAACATGGGAAACA
CGCGCGCTAGATACCGTGGCTGCTTTGACAGCACTCTTTGATATCTGAAG
ATACGTTCAGGACAGGGGGCGTATCCGTGGGGCTAGATCATGTGCTACTG
TTGCTGCTAGAGGCGGCGATAATTCGCTTTCTGCGCTGTTAGCGCCGCGC
TCCTCGTTGTTATCTTCGCAATCGTAGTCGAAGCGACGGCGGGTGCTTTG
TTCCTCCATGAGTCGTACAATACCTTGAGGGATGGCCGACGTTTCTTTTC
GGGCTCGTGGCCGGAAATACGACGAGCTCTATCTAAAATCGATGGCGCAC
GATCTGTGTTGGAGAGCTCCAATATCCTGCATAAAAAAAGATCGAGAGTA
GGCAATCGAACCGCCTGAAGGAGAGACCCTCAAAGCATCATGTTTGCCTT
GACACAACAGCTGCATGATCGTTTCGTCTGTTGCCCCACGGCTTGCGCCC
TGGCAGGCATCAGCCGCCGCTGGAAGTGTCTGAGCCGGAACCTCTCCCCT
CTCAACAAACGCTCAGGTGTGTTGCCAGCCCCGAGCGGCGCGTATGCCAC
AAGCCCCTTGTTATATTCGCGCAGGTAAAATGGGGAGAATGAACCGGATC
TAGGTTCTTAGTGGCTGCCTGCTGCTGCTGCTGCTGCTGCCGCGGCGGCG
GCGGCGTTGATGCTGTCGGCGTCCTATCGTCGTTGATGCCTTGTCTCTTT
ACTGCAGGTACCCAGAATCGGTCAACTTCTTGGAAATGCAATCCAACTCT
CGTAGACAAGCGTTGGCCGCGGTTGTTCATGGCACCTCCCGATGATCACC
CACACACGATAACTAGGGGTGACGCATACACAAGGACGCACTATCTTCGA
GTACGGAGGGGTTACATCAACGCTCACATTAAGTTCCCCACAGGCGAGGG
TGGCAGGGCGGGGAGGCGGCCAGAGGGCGGAGGCGTCGGCACAAGGGGAC
CAGACGCCGTGTCATCCGGCGCGCGGGATAGCTCCGGGGCATTACCTTCC
TCCACGAGGTATCTTGTGCATGTTTGATCTTTGGTTCATGCGCTCAGCAC
ACTATATTTCCATGCACATCGACGGGATTGGTACTGTACCAGGAAGGCAA
GCACGAGTGGAATCTACACGAGTAGTCGGATAGCGAACTACGAGTCTGTG
CACCGAAACGAAGAGTCATCGGTGGTCACAATAGGTGCAAGCAGGGAACC
ATACCAACCAGTCGCCGAGACACCCATCCAATCTGTCGGTTTCCGGAAGC
TGGCGTTCACGTTGGGGTTCCGCTAACGACTCCTTCGGTCTCGAGCTCTA
GCATCGTGCTTTCTGCTCTCGGGTGCTCTCGTGAAGTATTAAGGGACAAA
GGGGGCGGCAACGTCTTCGAGCCAGGAAACAAGGGGGTGGGGGGGGGGGA
GGAATCAGCCGTGGCCCAATCAGGGCAAAGTTTGGCACCGCCTCCAATGG
CGATGCACTCTTGAGGTCCTAGCACAGAGTTCACCGTCGCGCGTTTGCTT
CTGGTCTGAGTGTGCTTTTGTTTCTGCATGTAGACGTTTCATGTTCGTGG
TCAGTTTCGTCCTAGCTGTAGATCGAGGCCACCCTTTCTTCGACAACTCG
GTTGCTTTGCTGTTCCCTCTCCTCCATCGGGTGTATGTATTTTTTTCACG
CGCGCGGGACAGGAGAAGATCGGCTAGCAGTGGCGGCCAAACGGCCTCCG
GAGCCTTGTCTCGAGAGGACAGTTTCAGCCAAGACATGCAGGCGAGCGCG
AAACAGAACGCCTTTTTTTTTCCGACAACTTGTCCTTTGCAAGTTGTTGT
GTACGGAGTTCGTTTAAGGCACTCAATACGCACAGCTACGGTCCACCAGC
AGCATCAGCGTCAGCACCACCACCACCACCTTTGGCAAGGAGCTCTCCAC
CTGATGCCCCCTGTTGTTAACTTTTTCCTCTTCAAGAGAAAGCGAGCCTA
CCCACTGTAGCATACCGCGTAGCGAGAACGTACGAACACATCAGCTCTGT
CCGAGTTCGACGGTATCTACCGAACTTTAGGTGCAAGGCCGGTAGGTGGG
TTGGTGTTTGTGGGGTTGTGTTCTCGATGTTTTGCAACAGCAACCATTCC
AACCTGCTCTCTGCTTTGGTTCGATTTTTTCATGCAAATTTCGCAGGACA
TCAACATGATGATGGAGGAGAAAGAGGTTAAGCTTTCCAGAGCAGTCCAG
GTGTGTGGGGGGCGGGGGCGGGGCGTGGTCCGTTGTTGCTTGCATTGGTC
ATTTGACTTTTCGCCATGCACCCATGCAAAACGGCGTACCGTTTCTCCTC
CTGCTGGAGACATATCTCTATCCCTTGGCGCTGGGTGCGCTATGCCATGT
ATTACAGCACCGCCTGTTGCTGGAATTCTCACACCCCTTCCTTCACGGCG
TTTTCCAGTGAAGAGGTTGCGAGAACGCTCGGCGACACCCATGTCGTATT
TCGTCCTGCCTGCTCCCGTTGTGTCCTGCGTCTTTTGCTCCCACGATCTG
CGTCCTCTACTGTACCTGTTCAAGCCAGCACCGGCGTTGCTTTTCATGCT
CGACAAATCCCGCACCAACGATCCCTTTTCCAAGTGTTTGCCCCTTGCCC
TGATCCCTGGTGTTTCCTCAACCCGCAATCCGAGGAGAACACTGCTTCCC
TACTCTCTGCCCCATTGGCCTGTCTTTAGCTTTTGTTGCATTGCAACTTT
ACTAAAGACGCAAGGGCACTTTCAATTCGTCCCCCGTTGCGAGCCACAAC
GTTATCGCTCGGGAGAAAAGCGGTTAGGTCGATTGAGTATAAGCGGTGCA
GGCCACAAGCTCTTCGAGATCCAAGAGTTTTTTTGAACACGTGGACGAAT
GGGGGGCGGACTGGATTGGTTCGGGCGGGAACGACAATTTTGGTTGCCAA
GAAAACAAAAAACAAAAAAGAAGGAGCAAACACACACATACACACGTCAC
AATACTCCAACCCAAGCCCCTTCGCTCAACCCGACCTTTTTCCCTTCATT
TTCTGTCCCTTTCCCACGCGTCGTATTCGTTTCTCCACCTTGGATGTTGG
CGCATTATCTCCCCCTATACCTTGGCTGCCGTATATCATCTAGTCAAGGC
AGAAAATTATCTTGAATCCGTTTTTTCCTCGAACTTGTGTCGGGCGAAGG
GAACGGGGGGTTCTTGTTCTGCTTGAAGAAAGAGGCAAGACAGGACGCCT
TGAGAGAGAAAAAGCTGGTAGCTGGCTCTCTCTCATGTTATCCGCTCTCT
TTGTTTGTATGGCGACACCACACCACCGCAGGCGTTATCCCTCGAGGGAC
TCGACGTAACGCCGTACGACGATGAGGGAGATGACGAGGACGACGCCGCT
TACGAGCACCAACAGCAACGACACCAACATCACCACCAACGAATGTCGAG
GGCCGGATTCGCCGGTAGCCACAGCAGCAGCAGCCGGAGCCGGAGGGGTC
AACAGCAGCCTATCGTGAAATTCGTGGCCGTAGCAATTCGGCAGCTAAAC
GCGGCGAGGGTTTCAACAACATCGTGTTTCTTCTCAAGCGGGGGTCCGTA
CGGTTGATTCTGGTTAGGAGCCACCCTTGTGGAGGCGCGACGGCGTGGCT
GTAGGTTGCGTGTGGCGAGAGAAAATCGGAGGGTCAAGGTTTTCCTACAA
CAGTAAGTGAGAGATTCTTGCCCGCAACAGACACTGAAACGCCTCGGAAG
GGGGGGTTCAGATTTAGTCCGCAGTGCACGTCTCCCCTGCCGTCTTACGG
ACGGACA back to topCoding sequence (CDS) from alignment at P-lacustris_contig1123:6823..29629+ >mRNA_P-lacustris_contig1123.1000.1 ID=mRNA_P-lacustris_contig1123.1000.1|Name=mRNA_P-lacustris_contig1123.1000.1|organism=Pleurocladia lacustris SAG_25_93|type=CDS|length=2508bp|location=Sequence derived from alignment at P-lacustris_contig1123:6823..29629+ (Pleurocladia lacustris SAG_25_93)
ATGGAGATCGTCCCGCCACCCTTTCGATTTGGGGCTGTCGAGGCCGATGT
GTTTCGATCCGCCCAACCGACCCTCAAAAACTATCGATTTCTCTCCAGAT
GGAGATCGTCCCGCCACCCTTTCGATTTGGGGCTGTCGAGGCCGATGTGT
TTCGATCCGCCCAACCGACCCTCAAAAACTATCGATTTCTCTCCAGATTG
AAGCTTCGCACAGTGGTGGCGATAGCGCCTGAGGGACCGATGGACGACGA
GGCCATGTTTTGCAGGGAGCACGCGGCACAACTTGTGCCGATCCGCGCGG
AGTTGTACCGTGAAGAAGCCGTGACAGTTTCGTCCCAGCAGGTGGCGCAG
ATTGAAGCTTCGCACAGTGGTGGCGATAGCGCCTGAGGGACCGATGGACG
ACGAGGCCATGTTTTGCAGGGAGCACGCGGCACAACTTGTGCCGATCCGC
GCGGAGTTGTACCGTGAAGAAGCCGTGACAGTTTCGTCCCAGCAGGTGGC
GCAGGTGTTGTCTATTCTTGCTGACAAGGAAAAGCTTCCCGCTCTGGTCC
ACTGCCCTGACGGTCGCGTTCTGACCGGAGTCGTACTCTGGTGTTTGAGG
CGGCTGCAGTGCTGGGACGACCGAGCTTCCGCTGCGGAGTTCGCCAGGTT
CTCCGGCGTTATGCCCTCGAGTGAGGTGTTGTCTATTCTTGCTGACAAGG
AAAAGCTTCCCGCTCTGGTCCACTGCCCTGACGGTCGCGTTCTGACCGGA
GTCGTACTCTGGTGTTTGAGGCGGCTGCAGTGCTGGGACGACCGAGCTTC
CGCTGCGGAGTTCGCCAGGTTCTCCGGCGTTATGCCCTCGAGTGAGGTCG
AAACGTTTGTGGAGAGCTACGGGGACGAGGTAATCGTTCCGGCGAACATT
CCACCGTGGCTGTGGGGAGGCGACAGGGCACACTGGCACCCCAACATTCG
AATTCGGTCGAAACGTTTGTGGAGAGCTACGGGGACGAGGTAATCGTTCC
GGCGAACATTCCACCGTGGCTGTGGGGAGGCGACAGGGCACACTGGCACC
CCAACATTCGAATTCGGCATCAGCCGCCGCTGGAAGTGTCTGAGCCGGAA
CCTCTCCCCTCTCAACAAACGCTCAGGTGTGCATCAGCCGCCGCTGGAAG
TGTCTGAGCCGGAACCTCTCCCCTCTCAACAAACGCTCAGGTGTCGTTGG
CCGCGGTTGTTCATGGCACCTCCCGATGATCACCCACACACGATAACTAG
GGGTGACGCATACACAAGGACGCACTATCTTCGAGTACGGAGGGGTTACA
TCAACGCTCACATTAAGTTCCCCACAGGCGAGGGTGGCAGGGCGGGGAGG
CGGCCAGAGGGCGGAGGCGTCGGCACAAGGGGACCAGACGCCGTGTCATC
CGGCGCGCGGGATAGCTCCGGGGCATTACCTTCCTCCACGAGCGTTGGCC
GCGGTTGTTCATGGCACCTCCCGATGATCACCCACACACGATAACTAGGG
GTGACGCATACACAAGGACGCACTATCTTCGAGTACGGAGGGGTTACATC
AACGCTCACATTAAGTTCCCCACAGGCGAGGGTGGCAGGGCGGGGAGGCG
GCCAGAGGGCGGAGGCGTCGGCACAAGGGGACCAGACGCCGTGTCATCCG
GCGCGCGGGATAGCTCCGGGGCATTACCTTCCTCCACGAGGAGAAGATCG
GCTAGCAGTGGCGGCCAAACGGCCTCCGGAGCCTTGTCTCGAGAGGACAG
TTTCAGCCAAGACATGCAGGAGAAGATCGGCTAGCAGTGGCGGCCAAACG
GCCTCCGGAGCCTTGTCTCGAGAGGACAGTTTCAGCCAAGACATGCAGGA
CATCAACATGATGATGGAGGAGAAAGAGGTTAAGCTTTCCAGAGCAGTCC
AGGACATCAACATGATGATGGAGGAGAAAGAGGTTAAGCTTTCCAGAGCA
GTCCAGGCGTTATCCCTCGAGGGACTCGACGTAACGCCGTACGACGATGA
GGGAGATGACGAGGACGACGCCGCTTACGAGCACCAACAGCAACGACACC
AACATCACCACCAACGAATGTCGAGGGCCGGATTCGCCGGTAGCCACAGC
AGCAGCAGCCGGAGCCGGAGGGGTCAACAGCAGCCTATCGTGAAATTCGT
GGCCGTAGCAATTCGGCAGCTAAACGCGGCGAGGGTTTCAACAACATCGT
GTTTCTTCTCAAGCGGGGGTCCGTACGGTTGAGCGTTATCCCTCGAGGGA
CTCGACGTAACGCCGTACGACGATGAGGGAGATGACGAGGACGACGCCGC
TTACGAGCACCAACAGCAACGACACCAACATCACCACCAACGAATGTCGA
GGGCCGGATTCGCCGGTAGCCACAGCAGCAGCAGCCGGAGCCGGAGGGGT
CAACAGCAGCCTATCGTGAAATTCGTGGCCGTAGCAATTCGGCAGCTAAA
CGCGGCGAGGGTTTCAACAACATCGTGTTTCTTCTCAAGCGGGGGTCCGT
ACGGTTGA back to top
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