mRNA_A-nodosum_M_contig1.116.1 (mRNA) Ascophyllum nodosum dioecious

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview
NamemRNA_A-nodosum_M_contig1.116.1
Unique NamemRNA_A-nodosum_M_contig1.116.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: D8LTV2_ECTSI ((R)-citramalate synthase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LTV2_ECTSI)

HSP 1 Score: 933 bits (2412), Expect = 0.000e+0
Identity = 470/602 (78.07%), Postives = 527/602 (87.54%), Query Frame = 1 
Query:  565 VSSTRTTSTSITPEVDGVQRQEVA-NSIHVNNKQSHAAKLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSIEKGSEA 2367
            V ++  T+  +  +V    RQ  +  ++ ++  +    + V++YDTTLRDGTQMEG+SASV DKLKI  +LH+FGMHYIEGGWPGSNPKDVEFFERA++ELP EAW +VVAFGSTRRK+K C EDKQLESLISAGT CVTIVAKAWDLHVDHILEVPREENLAMVRESV HLKMAGKEVMLDLEHFFDG KAN +YTMQVC+AAV A VDVLV+CDTNGG+LPWE+DE V+ VKAAYP  RLGIHCHNDQGLAVANSLQAVRSG DVVQGTVNGIGERTGNANL+TIIPTLQLKMGM GVGEHLTNLTALSRFT EQ NMA  SGAPFTG+S+FAHKGGIHVSAVNKIPDSYQHIDPA VGN +RVLVSELSGQSNI++KVE+SGMAS  E+KAS VWR+R+GQVLKTVK LE +GY++EGADASVNLLVRRTMSGYVPPF L+DYLVQ WDS+ T GGLEF S PTTA+ATVKVRVPS +S   + IE E+PGVRLEVAEGNGPV+ALAK LFRALLPTFP+L +V LSDYKVRILDQESAT+A TRVLIEF++K SDV WSTVGVNTNIISASM AL+DG EYA+VEFGQSCSI+ G+ +
Sbjct:    5 VPTSTVTTHGVNGDVGKGDRQATSPGALVMDQPEGEVLRTVEMYDTTLRDGTQMEGISASVLDKLKIALQLHHFGMHYIEGGWPGSNPKDVEFFERARKELPAEAWERVVAFGSTRRKFKACAEDKQLESLISAGTGCVTIVAKAWDLHVDHILEVPREENLAMVRESVEHLKMAGKEVMLDLEHFFDGWKANREYTMQVCEAAVGAKVDVLVLCDTNGGSLPWEIDEIVRDVKAAYPGTRLGIHCHNDQGLAVANSLQAVRSGADVVQGTVNGIGERTGNANLMTIIPTLQLKMGMTGVGEHLTNLTALSRFTDEQFNMAHTSGAPFTGISAFAHKGGIHVSAVNKIPDSYQHIDPAQVGNMKRVLVSELSGQSNILSKVEDSGMASKTELKASKVWRERMGQVLKTVKRLETEGYSYEGADASVNLLVRRTMSGYVPPFKLLDYLVQIWDSDRTPGGLEFPSGPTTARATVKVRVPSMDSEAELGIEGENPGVRLEVAEGNGPVDALAKGLFRALLPTFPSLQSVKLSDYKVRILDQESATQAKTRVLIEFYEKSSDVGWSTVGVNTNIISASMSALMDGFEYALVEFGQSCSIDAGTRS 606
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A836CCG4_9STRA ((R)-citramalate synthase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CCG4_9STRA)

HSP 1 Score: 708 bits (1827), Expect = 3.100e-240
Identity = 392/649 (60.40%), Postives = 452/649 (69.65%), Query Frame = 1 
Query:  658 KQSHAA--KLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVV-----------AFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIG--------------ERTGNANLVTIIPTLQLKMGMQGVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLL------------------VRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPT--------TAQATVKVRVPSGES---TLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYK---------------------------VRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSIEK 2355
            +Q HAA  +LVD+YDTTLRDGTQMEG+S SV+DKLKI R L NFGMHYIEGGWPGSNPKD EFFERAK E P + W ++            AFGSTRRK  TCE+DKQL +LI+AGT+CVTIVAKAWDLHVDHILEVPREENLAMV ESVA LK AGKEVM+DLEHFFDG KAN  YTMQVC+ AV+AG DVLV+CDTNGGTL WEVD++V+ V +A+P VRLGIHCHNDQ LAV+NSLQAV+SG  V                       ERTGNANL +I+PTLQLKMG  GVGE L  LTAL RF  EQLN   DS AP+ G S+FAHKGGIHVSAVNKIPDSYQHIDPA VGN RR LVSELSG+SNI++KVEE GM S  E  +S  W+ R+ +VL  VK LEK+G TFEGADA+VNL+                  +RR M GY  PF LMDY V   D   T G    R + T        + +ATVKV++P+G S   +LA   ++ D   RLE AEGNGPVNALAKAL +ALLPTFP+L +VVL DYK                           VRILDQESAT ANTRV+IEF D   + QW+TVGV+TNIISASM AL+DG EYA+VE+   CS+++
Sbjct:   24 RQQHAAPPRLVDIYDTTLRDGTQMEGISVSVDDKLKIARVLSNFGMHYIEGGWPGSNPKDAEFFERAKAEPPPDVWSRIAEXXXXXXXXXAAFGSTRRKNSTCEQDKQLATLIAAGTNCVTIVAKAWDLHVDHILEVPREENLAMVGESVAFLKAAGKEVMIDLEHFFDGFKANPAYTMQVCERAVEAGADVLVLCDTNGGTLGWEVDQAVRTVASAFPGVRLGIHCHNDQELAVSNSLQAVQSGATVXXXXXXXXXXXXXXXXXXXXXXXERTGNANLASIVPTLQLKMGCAGVGERLPELTALCRFVDEQLNRLPDSKAPYVGQSAFAHKGGIHVSAVNKIPDSYQHIDPAAVGNVRRTLVSELSGRSNILSKVEEFGMGSKEEF-SSPEWQDRMNRVLTAVKTLEKRGSTFEGADATVNLIEPLRXXXXXXXXXXXXXMIRRLMPGYTAPFRLMDYTVTAAD---TMGSDALRGEETGTPGSVMPSVRATVKVKLPAGVSQMESLASFWDNGDRTQRLESAEGNGPVNALAKALNKALLPTFPSLQHVVLKDYKASRRPAQLPELRVFVGEVVQELKFQLKVRILDQESATAANTRVMIEFMDSHHNQQWATVGVDTNIISASMCALMDGFEYALVEYAPCCSLDR 668
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A7S2UWY3_9STRA ((R)-citramalate synthase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UWY3_9STRA)

HSP 1 Score: 631 bits (1627), Expect = 1.140e-210
Identity = 335/577 (58.06%), Postives = 421/577 (72.96%), Query Frame = 1 
Query:  682 VDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPT---------TAQATVKVRVPS---GESTLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQ---ESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQ-SCSIEKGSE 2364
            V++YDTTLRDGTQ E +S SV  KL+I   L  FG+HYIEGGWPGSNPKD EFFERAK EL  EA  K+ AFGSTRRK+K   ED Q+ +L+ +G  C+ +V K+ D HVD ILEVPREENLAMV +S+ +LK  GKEVMLDLEHF DG K+N QY+M VC+AAVDAGVDVLVMCDTNGG+LPWEV    + V+  +P+VRLGIHCHNDQ LAVAN+L+AVR G  VVQGT+NG+GERTGNANL ++IP LQLKMG  GVG+ L +LT++SRF+ E +N + +  APF G S+FAHKGGIHVSA+ K P SYQHI+P  VGN +RVLVSEL+G+SNI+TKVEE G+    +    NVW++R  Q+L  VK LEK GYTFEGA+ASVNL++RR+   Y PPF + DY++Q WD +  S  + F SDP+         +A+ATVKV V      E  L            LEVAEGNGPVNALA AL + L+PTFP L  + LSDYKVRILD    +S T +  RV+++F     D +++TVG ++NIISAS+ AL+DGLEYA++  G+ +C+++  +E
Sbjct:   92 VEIYDTTLRDGTQAESISVSVEGKLRIAERLAEFGVHYIEGGWPGSNPKDKEFFERAKTELSPEARTKLTAFGSTRRKFKKAAEDSQIAALVDSGVDCICLVGKSSDFHVDKILEVPREENLAMVHDSIHYLKGLGKEVMLDLEHFIDGFKSNPQYSMSVCQAAVDAGVDVLVMCDTNGGSLPWEVAHVTREVRKMFPEVRLGIHCHNDQELAVANTLEAVREGATVVQGTINGLGERTGNANLCSVIPNLQLKMGYHGVGDKLKDLTSVSRFSDELMNRSPNPAAPFVGASAFAHKGGIHVSAIAKNPLSYQHIEPEEVGNLKRVLVSELAGRSNIMTKVEEYGLI--GQDSDLNVWKERSVQILNKVKALEKSGYTFEGAEASVNLMLRRSSDMYTPPFAIQDYMLQIWDQDVDSV-MRF-SDPSVVEPYYFHGSARATVKVLVMEHTCNEKQL------------LEVAEGNGPVNALANALMKGLVPTFPVLEELELSDYKVRILDMSCGKSGTSSVVRVMMDFKKSNGD-KYTTVGADSNIISASLNALVDGLEYALI--GELNCAVDYDTE 649
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A6V1Q1T2_HETAK ((R)-citramalate synthase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1Q1T2_HETAK)

HSP 1 Score: 619 bits (1595), Expect = 5.290e-206
Identity = 344/634 (54.26%), Postives = 432/634 (68.14%), Query Frame = 1 
Query:  457 LVGAFVHPVQHLGCSRPNSRAGGFRKTHIQVR-VPRMVSSTRTTSTSITPEVDGVQRQEVANSIHVNNKQSHAAKLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVGE-HLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDED----PGVR--LEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESA--TRANTRVLIEF--HDKVSDV--QWSTVGVNTNIISASMIALLDGLEY 2316
            +VGA+   V  L CS         R+T   ++ +  +  ST   S  +T E+D V   +  +    N     +AK +D+YDTTLRDGTQ E VS +V+ KL I + L  FGM YIEGGWPGSNPKD EFF RA+ ELP   W +VVAFGSTRRK+   E+DKQ+  L+ +   CV IV K+WDLH+D ILEVPREENLAMV +SVAHLK AG+EVMLDLEHFFDG+ ++   T+ VC+AAVDAGVDVLV+CDTNGG LPWE++  V+ V A +P VRLGIHCHNDQ LAVANSL A+R+G  +VQGTVNG+GERTGNANL +++PTLQLKMG  GVG   L  LT LSRF  E +N    +  P+ G S+FAHKGGIHVSA+ K P SYQH+DP  VGNTRRVLVS+L+G+SNI+ KV+E G+    +++ +  W     Q+L  +K LEK GY+FEGA+ASV L++RR +  Y PPFN++DY  Q  D   TS  +  R     A A +   + SG++   V +E  D     G R  LEVAEGNGPV+AL +AL R L P FP L  V LSDYKVRILD + A  T + TRV+IEF  H++ + +   W+TVGV++NIISAS  AL DG EY
Sbjct:    9 IVGAWAILVLALFCSGFVPSPHQTRQTRTLIKSISSLRMSTMDNSKEVTSEMDDVLSSQRTS----NMPDGLSAKHLDIYDTTLRDGTQGESVSVTVDGKLAIAKRLGEFGMAYIEGGWPGSNPKDAEFFARARAELPLSTWRRVVAFGSTRRKFLPVEQDKQIAMLLESEAGCVCIVGKSWDLHIDEILEVPREENLAMVADSVAHLKAAGREVMLDLEHFFDGMASDPACTLDVCRAAVDAGVDVLVLCDTNGGRLPWEIEAGVRRVAAEFPGVRLGIHCHNDQELAVANSLAALRAGCSLVQGTVNGVGERTGNANLASLVPTLQLKMGYAGVGRAKLRELTGLSRFVDEMMNRVPAASQPWVGASAFAHKGGIHVSAMAKNPASYQHVDPDVVGNTRRVLVSDLAGRSNIIAKVKEFGLC-VTDVECA-AWADSSLQILNDIKVLEKMGYSFEGAEASVELMLRRMVENYAPPFNIVDYSCQIMDQVATSHTVTQRGAAAAAAAGL---LASGQARATVKMEVSDGAQGEGRRTLLEVAEGNGPVDALGQALRRGLEPAFPLLREVRLSDYKVRILDHQGAKATASTTRVMIEFKRHNEFTGLTESWTTVGVDSNIISASFNALSDGFEY 633
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A1Z5JTT2_FISSO ((R)-citramalate synthase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5JTT2_FISSO)

HSP 1 Score: 558 bits (1439), Expect = 4.850e-183
Identity = 314/618 (50.81%), Postives = 411/618 (66.50%), Query Frame = 1 
Query:  565 VSSTRTTSTS-------ITPEVDGVQRQEVANSIHVNNKQSHAAKLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDE-SVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQ-GVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSG-------GLEFRSDPTTAQATVKVRVPSGES-------TLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSI 2349
            +SST+T+S         +TP  DGV          V  K  HA     +YDTTLRDGTQ E VSAS +DKLKI R L  FG+ YIE GWPGSNPKD EFF RA+ ELP+ A  K+VAFGSTRRK  + ++D Q++ LI +    V IVAK+    V  IL+   +ENL M+R++V HL  AG++VM+D+EHFFDG  A+  Y +Q C+AA DAG   LV+CDTNGGT+PW V + S ++V+     V +GIHCHND G+AVANS+ A ++G+ ++QGT+NGIGERTGNA+L +IIPTL L MG      + L NLT++SR+  E LN + +  AP+ G+S+FAHKGG+HV+A+ + P SYQHIDPA VGN  RVL+SELSG+ NI++K+E +G+   +E   ++    R   +L  VK LE  GYTFEGA+ASV+L++     GY PPF ++DY  Q +DS   S        G+   S   TA+AT+KVR  SG S       T     ED     RLEV +GNGPV+ALA AL RA+ P+ P L N+ L DYKVRILD +SAT+A TRV+IEF D   D +W+TV V+TN+ISAS+ AL+DG EYA++E  QSC +
Sbjct:   32 LSSTKTSSDQWVQKAFQVTPTTDGV----------VGPK--HAI----IYDTTLRDGTQGESVSASADDKLKICRRLAEFGVDYIEAGWPGSNPKDAEFFRRAQTELPETARAKLVAFGSTRRKNTSADQDTQVQLLIDSKAPTVCIVAKSHSWQVQEILKADLQENLDMIRDTVQHLTNAGRQVMVDMEHFFDGYAADPAYALQCCEAAADAGATCLVLCDTNGGTMPWTVGQVSQRVVRHFDRYVTIGIHCHNDCGMAVANSVSACQNGIGLIQGTINGIGERTGNADLCSIIPTLALHMGSNIACKKQLLNLTSVSRYVDEILNRSPNVAAPYVGISAFAHKGGLHVAAMERSPLSYQHIDPALVGNEMRVLISELSGRQNILSKMEAAGV-DISETGTND----RALAILNRVKELEAVGYTFEGAEASVHLMILHATRGYCPPFRVLDYSAQVYDSNIDSATRVMKKHGISSSSLAPTARATIKVRTVSGSSDDDDCDTTNRPPFED-----RLEVGDGNGPVDALAAALTRAVTPSHPYLKNIELVDYKVRILDPQSATQAATRVMIEFRDTQKDTKWTTVSVDTNVISASLNALVDGFEYALIEHSQSCPL 623
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: R7QGZ5_CHOCR ((R)-citramalate synthase n=1 Tax=Chondrus crispus TaxID=2769 RepID=R7QGZ5_CHOCR)

HSP 1 Score: 556 bits (1432), Expect = 5.390e-183
Identity = 296/570 (51.93%), Postives = 384/570 (67.37%), Query Frame = 1 
Query:  673 AKLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAE-MKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSE----PTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPG------VRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSI 2349
            ++ + +YDTTLRDG Q EG+S SV DKLKI   L  FG HYIEGGWPGSNPKD  FFE  + +L +    K+VAFGSTR K  TCE+D+ ++ L +A T  VT+V KAWD+ V  +LE   EENL M+RESVA+ K  G+EVMLD EHF+DG KA  +Y +   +AAVD GVDVLV+CDTNGG++PW++ +    V   +P  R+G+HCHND  LAVANS+ AV +G  +VQGTVNG GERTGNANL++I+PTLQLK+G   VG+ L+ LT+LSRF  E       SG PF G+SSFAHKGG+HV+AV K  D+YQHIDP+ VGN +R+LVSEL+G+ N+++K EE G+  A +   A   W  R  QVL  VK LE +GY+FEGA+AS+ L++RR++ GY PPF L+D+ V T +      P S G  F    T  QATVK+ +          +  +D G      + LEVAEGNGP++A+  AL + L   +  L  V L+DYKVRILD ESAT A TRV+++F D  S  QW+TV  + NII AS+ AL+DG E A+ +    C I
Sbjct:    5 SRCIQVYDTTLRDGAQGEGISLSVADKLKIATRLDEFGAHYIEGGWPGSNPKDAAFFENCRGKLKR---AKLVAFGSTRYKNTTCEKDRNVQMLANADTLVVTLVGKAWDMQVQVVLEASLEENLDMIRESVAYFKRLGREVMLDAEHFYDGYKAAPEYAIACLQAAVDGGVDVLVLCDTNGGSVPWDLQKVTATVVHRFPATRVGVHCHNDMELAVANSISAVNAGASLVQGTVNGYGERTGNANLMSIVPTLQLKLGYACVGDALSKLTSLSRFVDEIACQKPVSGQPFVGVSSFAHKGGLHVAAVLKNEDTYQHIDPSLVGNEKRILVSELAGRRNVLSKAEELGLVPAGDDAGARQEWGNRAKQVLGQVKDLENKGYSFEGAEASLELMLRRSVEGYRPPFELLDFSVTTDNKRIHYGPNSEGPPFNESVT--QATVKIAL----------LGPKDGGEACPTKICLEVAEGNGPIDAVNGALGKVLFSMYQPLQTVALTDYKVRILDSESATAATTRVVVDFEDSASGRQWTTVYAHPNIIVASVNALMDGFEVAMWDSLPQCCI 559
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BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A2V3IHB1_9FLOR ((R)-citramalate synthase n=1 Tax=Gracilariopsis chorda TaxID=448386 RepID=A0A2V3IHB1_9FLOR)

HSP 1 Score: 552 bits (1422), Expect = 3.510e-181
Identity = 297/562 (52.85%), Postives = 382/562 (67.97%), Query Frame = 1 
Query:  676 KLVDLYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVGEHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDP---TTAQATVKVRVPSGESTLAVSIEDEDPG-VRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSI 2349
            K V +YDTTLRDG+Q EG+S +V DKLK+ + L  FG HYIEGGWPGSNPKD  FF + K  L      K+VAFGSTR K  TCE DK +++L+ A T  VT+V KAWD  V  +LE   +ENLAM+ ++VA  K  G+EVMLD EHF+DG KA+  Y +    AAV AGVDVLV+CDTNGGTLPWE+DE  ++V A +P VR+GIHCHND  LAV+N++ AV +G  +VQGT+NG GERTGNANL++I+PTLQLKMG   VG+ L  LT LSR+T E  N       P+ G SSFAHKGG+HV+AV K  ++YQHIDP  VGN RR+LVSELSG+ NI+TK EE G+  A E K    W  R+  VL+ VK LE +GY+FEGA+AS+ L++RRT+ GY PPF L+D+ V T D++    G    + P   +  QA+VK+ +   E        D+ P  +  E+AEGNGPV+A+  AL + LLP +  L +V L DYKVRILD  S T A TRV++EF +  +  +W+TV  + NII AS+ AL+DG E A+ +    C I
Sbjct:   29 KTVQIYDTTLRDGSQGEGISLTVPDKLKLAQRLDEFGAHYIEGGWPGSNPKDESFFAQCKG-LDN---AKLVAFGSTRYKGTTCEHDKNVQALMKADTPVVTLVGKAWDHQVSVVLEATLDENLAMISDTVAFFKRKGREVMLDAEHFYDGYKASPAYALSCLHAAVKAGVDVLVLCDTNGGTLPWEIDEITRVVVAEFPTVRIGIHCHNDMELAVSNTIAAVHAGATLVQGTINGFGERTGNANLMSIVPTLQLKMGHDCVGDRLQQLTDLSRYTDEITNQPHVPNRPYVGASSFAHKGGLHVAAVLKDENTYQHIDPVLVGNERRILVSELSGRRNILTKAEELGLHPADESKDGVEWNVRVKAVLEQVKELENKGYSFEGAEASLELMLRRTVHGYRPPFELLDFSVST-DNKRVVYGNVLNATPNNESVTQASVKLALLGPEDG-----GDQCPTKICFEIAEGNGPVDAVNGALQKCLLPVYAPLRSVSLVDYKVRILDNASGTAAITRVMVEFEESSNGKRWTTVYAHPNIIVASVNALMDGFEVAMWDQLPQCII 580
[Close]
BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A7C5E488_9CHLR ((R)-citramalate synthase n=1 Tax=Anaerolineae bacterium TaxID=2052143 RepID=A0A7C5E488_9CHLR)

HSP 1 Score: 535 bits (1379), Expect = 1.180e-175
Identity = 293/547 (53.56%), Postives = 367/547 (67.09%), Query Frame = 1 
Query:  688 LYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVG-EHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVV 2325
            LYDTTLRDGTQ EG+S S NDKLKI ++L  FG HYIEGGWPGSNPKD EFF R  +   K A  K+ AFGSTR K  TC++D  +++L+ A T  VT+V K+WDLHV HILE   EENL M+ ESVA+ K  GKEV+ D EHFFDG KAN  Y +   +AA+ +G D +V+CDTNGG+ PWEV+E  + V A +   RLGIH HND  L VAN+L  VR G   VQGTVNG GER GNANL++IIP LQLKMG + V  E L  LTALSR+  E  NM  +   PF G S+FAHKGGIHV+A+ K+ +SYQH+DP  VGN +R +VSELSG+ NI+ K  E G+ ++         R+   QVL+ +K LE QGYTFEGA+ASV++++RR  SGY PPF ++D++V T   E   G   F       +ATVKV+V            DE   +R  VAEGNGPVNAL  AL RAL   FP L  V L+D+KVRILD ++ T A TRV+I+F  + +   W+TVG + NII AS  AL+D +EYA++
Sbjct:    6 LYDTTLRDGTQGEGISLSCNDKLKIAQKLDEFGAHYIEGGWPGSNPKDAEFFARQGELKLKHA--KIAAFGSTRYKNTTCDKDANIQALVEANTPVVTLVGKSWDLHVRHILETDLEENLEMIAESVAYFKERGKEVIYDAEHFFDGYKANPDYALLTLQAAIKSGADCVVLCDTNGGSTPWEVEEITKQVAARFEGQRLGIHPHNDCELGVANALAGVRGGARHVQGTVNGYGERVGNANLISIIPDLQLKMGYECVKPEQLAGLTALSRYVDELANMTPNPHQPFVGYSAFAHKGGIHVAAILKVEESYQHMDPTVVGNEKRAVVSELSGRGNILYKAAERGLDTS---------REEARQVLEQIKELENQGYTFEGAEASVDMMLRRANSGYKPPFEVIDFMVIT---ENRQGRGLF------TEATVKVKVG-----------DE---IRHTVAEGNGPVNALNLALRRALYQDFPQLQRVHLTDFKVRILDSDAGTAATTRVMIDFQQEGTTEFWTTVGAHPNIIEASWRALIDSMEYALL 518
[Close]
BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A3M1GUB2_9CHLR ((R)-citramalate synthase (Fragment) n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A3M1GUB2_9CHLR)

HSP 1 Score: 533 bits (1372), Expect = 1.590e-174
Identity = 280/547 (51.19%), Postives = 364/547 (66.54%), Query Frame = 1 
Query:  688 LYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVG-EHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVV 2325
            +YDTTLRDGTQ EG+S S NDKLKI ++L  FG+HYIEGGWPGSNPKD EFF R  +   K A  K+ AFGSTR K  TC+ D  +++L++A T  VT+  K+WDLHV H+LE   EENL M+ ESV + K  GKEV+ D EHFFDG KAN +Y M   KAAV+ G D LV+CDTNGGT+PWEV+E    V+  +P+V++GIH HND  L VAN+L  VR G   +QGTVNG GER GNANLV+IIP LQ+KMG + V  E L  LT L+ +  E  N+  +S  P+ G S+FAHKGG+H +A+ K+ +SYQHIDP+ VGN RR +VSEL+G+ NI+   E  G+ +  E            Q+++ +K LE +GY FEGA+ASV +++RR   GY PPF ++D++V T   E   G   F       +ATVKV+V  G+             +R  V+EGNGPVNAL  AL +AL   FP L ++ LSDYKVRILD +S T A TRV+I+F+D+     W+TV  + NII AS  AL+D +EYA++
Sbjct:    6 IYDTTLRDGTQGEGISLSCNDKLKIAKKLDEFGVHYIEGGWPGSNPKDAEFFARQGELNLKHA--KIAAFGSTRYKGNTCDNDPNIQALLAANTPVVTLFGKSWDLHVTHVLETDLEENLDMILESVRYFKNRGKEVIYDAEHFFDGYKANPEYAMLTLKAAVNGGADCLVLCDTNGGTMPWEVEEITATVQKQFPEVQIGIHAHNDAELGVANTLAGVRGGAVHIQGTVNGYGERVGNANLVSIIPDLQIKMGYRCVSDEQLAKLTELAHYVDEIANLTPNSHQPYVGQSAFAHKGGVHAAAIRKVEESYQHIDPSLVGNRRRTIVSELAGRGNILDMAEALGLKTTKE---------EARQIVQQIKDLEAEGYAFEGAEASVQMMIRRASEGYKPPFEVIDFMVVT---ENRQGRGLF------TEATVKVKV--GDK------------IRHTVSEGNGPVNALNLALRQALYEDFPQLRHIHLSDYKVRILDSDSGTAATTRVMIDFYDETRPKTWTTVAAHPNIIEASWRALIDSMEYALL 518
[Close]
BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Match: A0A369BWZ1_9GAMM ((R)-citramalate synthase n=1 Tax=Thioalbus denitrificans TaxID=547122 RepID=A0A369BWZ1_9GAMM)

HSP 1 Score: 532 bits (1370), Expect = 4.290e-174
Identity = 292/547 (53.38%), Postives = 366/547 (66.91%), Query Frame = 1 
Query:  688 LYDTTLRDGTQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQELPKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVDHILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVCKAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQGLAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVG-EHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDSYQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQRLGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTWDSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPGVRLEVAEGNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLIEFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVV 2325
            +YDTTLRDGTQ E +S S +DKL + R L  FG+HYIEGGWPGSNPKD EFF R +    ++A  KV AFGSTRRK+  CE+D  L++L+ A T  VT+VAK+WD HVD +L+  REENLAMVR+SVA++K  G+EV LD EHFFDG KAN  Y + V  AA +AG D LV+C+TNGG LPWEV+  V  V+A    V LGIH HND G AVAN+L AVR+G   VQGT+NG GER GNANL TIIP LQLKMG+Q V  E L  LT LSRF AE  N+  DS AP+ G S+FAHKGGIHV+AV K  D+YQHIDP  VGN  R +VSELSG+ N+V +    G+          + R+   +VL  +K LE +G+TFE A+ASV+L++ R    Y PPF L+D++V T   +    GL        ++ATVKVR+              +  ++L  AEGNGPV+ALA AL +AL   +P L  V L+DYKVRILD +  T A TRVLI+FHD   +  W+TVG + NII AS  AL D +E+A++
Sbjct:   14 IYDTTLRDGTQGEEISLSCDDKLTLARRLDEFGVHYIEGGWPGSNPKDAEFFTRVRSLGLRQA--KVAAFGSTRRKHGRCEDDANLQALLDAETPVVTLVAKSWDYHVDAVLDTTREENLAMVRDSVAYMKARGREVFLDAEHFFDGYKANPAYALAVLLAAEEAGADALVLCETNGGALPWEVESVVAEVRAR-TRVPLGIHVHNDSGCAVANTLAAVRAGCTQVQGTLNGYGERVGNANLTTIIPNLQLKMGLQVVSAEQLRGLTTLSRFAAELANLKHDSHAPYVGASAFAHKGGIHVAAVLKAVDTYQHIDPERVGNETRAVVSELSGRGNLVYQARSRGL---------EINREDAQRVLHQIKRLEHEGFTFEAAEASVDLMLYRVSRDYTPPFELVDFMVLT--EQRHGRGL-------LSEATVKVRI--------------EGALKLTAAEGNGPVDALAHALSKALCDVYPELATVRLTDYKVRILDSDKGTAATTRVLIDFHD--GERGWTTVGASPNIIEASWRALSDSMEFALL 523
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig1.116.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LTV2_ECTSI0.000e+078.07(R)-citramalate synthase n=1 Tax=Ectocarpus silicu... [more]
A0A836CCG4_9STRA3.100e-24060.40(R)-citramalate synthase n=1 Tax=Tribonema minus T... [more]
A0A7S2UWY3_9STRA1.140e-21058.06(R)-citramalate synthase n=1 Tax=Fibrocapsa japoni... [more]
A0A6V1Q1T2_HETAK5.290e-20654.26(R)-citramalate synthase n=1 Tax=Heterosigma akash... [more]
A0A1Z5JTT2_FISSO4.850e-18350.81(R)-citramalate synthase n=1 Tax=Fistulifera solar... [more]
R7QGZ5_CHOCR5.390e-18351.93(R)-citramalate synthase n=1 Tax=Chondrus crispus ... [more]
A0A2V3IHB1_9FLOR3.510e-18152.85(R)-citramalate synthase n=1 Tax=Gracilariopsis ch... [more]
A0A7C5E488_9CHLR1.180e-17553.56(R)-citramalate synthase n=1 Tax=Anaerolineae bact... [more]
A0A3M1GUB2_9CHLR1.590e-17451.19(R)-citramalate synthase (Fragment) n=1 Tax=Chloro... [more]
A0A369BWZ1_9GAMM4.290e-17453.38(R)-citramalate synthase n=1 Tax=Thioalbus denitri... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig1contigA-nodosum_M_contig1:1764110..1789441 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LTV2
PFAMsHMGL-like,LeuA_dimer
Model size3459
Max annot lvl2759|Eukaryota
KEGG rclassRC00004,RC00470,RC02754
KEGG koko:K01649
KEGG ReactionR01213
KEGG Pathwayko00290,ko00620,ko01100,ko01110,ko01210,ko01230,map00290,map00620,map01100,map01110,map01210,map01230
KEGG ModuleM00432
Hectar predicted targeting categorysignal peptide
Exons15
Evalue0.0
EggNOG OGsCOG0119@1|root,KOG2367@2759|Eukaryota
Ec32 ortholog description2-Isopropylmalate synthase
Ec32 orthologEc-28_002630.1
EC2.3.3.13
DescriptionBelongs to the alpha-IPM synthase homocitrate synthase family
Cds size1965
COG categoryE
BRITEbr01601,ko00000,ko00001,ko00002,ko01000
Relationships

The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig1.116.1prot_A-nodosum_M_contig1.116.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig1 1765190..1789027 -


The following UTR feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866343.577642-UTR-A-nodosum_M_contig1:1764109..17651891680866343.577642-UTR-A-nodosum_M_contig1:1764109..1765189Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1 1764110..1765189 -
1680866343.7663379-UTR-A-nodosum_M_contig1:1789027..17894411680866343.7663379-UTR-A-nodosum_M_contig1:1789027..1789441Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig1 1789028..1789441 -


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680866343.599964-CDS-A-nodosum_M_contig1:1765189..17653391680866343.599964-CDS-A-nodosum_M_contig1:1765189..1765339Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1765190..1765339 -
1680866343.6078126-CDS-A-nodosum_M_contig1:1765565..17656341680866343.6078126-CDS-A-nodosum_M_contig1:1765565..1765634Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1765566..1765634 -
1680866343.6155372-CDS-A-nodosum_M_contig1:1765950..17660551680866343.6155372-CDS-A-nodosum_M_contig1:1765950..1766055Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1765951..1766055 -
1680866343.6234794-CDS-A-nodosum_M_contig1:1766381..17664531680866343.6234794-CDS-A-nodosum_M_contig1:1766381..1766453Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1766382..1766453 -
1680866343.6361666-CDS-A-nodosum_M_contig1:1767031..17671281680866343.6361666-CDS-A-nodosum_M_contig1:1767031..1767128Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1767032..1767128 -
1680866343.646842-CDS-A-nodosum_M_contig1:1767334..17674471680866343.646842-CDS-A-nodosum_M_contig1:1767334..1767447Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1767335..1767447 -
1680866343.657313-CDS-A-nodosum_M_contig1:1767682..17678001680866343.657313-CDS-A-nodosum_M_contig1:1767682..1767800Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1767683..1767800 -
1680866343.6706517-CDS-A-nodosum_M_contig1:1767951..17680941680866343.6706517-CDS-A-nodosum_M_contig1:1767951..1768094Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1767952..1768094 -
1680866343.6826148-CDS-A-nodosum_M_contig1:1768316..17684601680866343.6826148-CDS-A-nodosum_M_contig1:1768316..1768460Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1768317..1768460 -
1680866343.6916304-CDS-A-nodosum_M_contig1:1769531..17696631680866343.6916304-CDS-A-nodosum_M_contig1:1769531..1769663Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1769532..1769663 -
1680866343.710793-CDS-A-nodosum_M_contig1:1770069..17701471680866343.710793-CDS-A-nodosum_M_contig1:1770069..1770147Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1770070..1770147 -
1680866343.7223425-CDS-A-nodosum_M_contig1:1770818..17709501680866343.7223425-CDS-A-nodosum_M_contig1:1770818..1770950Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1770819..1770950 -
1680866343.733148-CDS-A-nodosum_M_contig1:1771281..17714051680866343.733148-CDS-A-nodosum_M_contig1:1771281..1771405Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1771282..1771405 -
1680866343.747564-CDS-A-nodosum_M_contig1:1771861..17719791680866343.747564-CDS-A-nodosum_M_contig1:1771861..1771979Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1771862..1771979 -
1680866343.7562864-CDS-A-nodosum_M_contig1:1788657..17890271680866343.7562864-CDS-A-nodosum_M_contig1:1788657..1789027Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig1 1788658..1789027 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig1.116.1

>prot_A-nodosum_M_contig1.116.1 ID=prot_A-nodosum_M_contig1.116.1|Name=mRNA_A-nodosum_M_contig1.116.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=655bp
MRLRITLLVTYQACLVGAFVHPVQHLGCSRPNSRAGGFRKTHIQVRVPRM
VSSTRTTSTSITPEVDGVQRQEVANSIHVNNKQSHAAKLVDLYDTTLRDG
TQMEGVSASVNDKLKITRELHNFGMHYIEGGWPGSNPKDVEFFERAKQEL
PKEAWGKVVAFGSTRRKYKTCEEDKQLESLISAGTSCVTIVAKAWDLHVD
HILEVPREENLAMVRESVAHLKMAGKEVMLDLEHFFDGLKANAQYTMQVC
KAAVDAGVDVLVMCDTNGGTLPWEVDESVQIVKAAYPDVRLGIHCHNDQG
LAVANSLQAVRSGVDVVQGTVNGIGERTGNANLVTIIPTLQLKMGMQGVG
EHLTNLTALSRFTAEQLNMALDSGAPFTGMSSFAHKGGIHVSAVNKIPDS
YQHIDPAHVGNTRRVLVSELSGQSNIVTKVEESGMASAAEMKASNVWRQR
LGQVLKTVKGLEKQGYTFEGADASVNLLVRRTMSGYVPPFNLMDYLVQTW
DSEPTSGGLEFRSDPTTAQATVKVRVPSGESTLAVSIEDEDPGVRLEVAE
GNGPVNALAKALFRALLPTFPTLLNVVLSDYKVRILDQESATRANTRVLI
EFHDKVSDVQWSTVGVNTNIISASMIALLDGLEYAVVEFGQSCSIEKGSE
AADD*
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mRNA from alignment at A-nodosum_M_contig1:1764110..1789441-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig1.116.1 ID=mRNA_A-nodosum_M_contig1.116.1|Name=mRNA_A-nodosum_M_contig1.116.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=25332bp|location=Sequence derived from alignment at A-nodosum_M_contig1:1764110..1789441- (Ascophyllum nodosum dioecious)
ACCTTCTGAGCATCCACCTTTTGTTGTAGCACAGGATCAGCAGCATTATA
TCGGGGAGAAACCCACCGCTATTATATCGTACACTTTTACATTAATCGCC
ATGCAGCTACTATACCACCGAAACAAAGGCAAAAGCAAACCATCAACCTG
GATACACATTGACTTAGTGAGGGAGGACTTACTATGTGGTGCAATTGGAC
CGTGCTGCTGTGCTAATGTTTGGAAGCGGGAGGGGGCATCTGCCACAACA
TACGTAGCGAAGCTCATTGGTGCACGTGGACAGTACGCTGCACTGAACAT
CAATGAGCGGTTCAAATTCAGCGTCGGAGCAAGATGAAGGTCTCTCTACT
CGCCTAGTAATCTGAGTGGTTGTAAAACCTTCACAGCTCCGTTCGCTGTG
TGCTCGCTGCGACCATGCGGTTAAGGATTACCTTGTTGGTAACCTACCAG
GCATGTCTGGTTGGGGCATTTGTGCACCCCGTGCAGCATCTCGGCTGCTC
AAGGCCTAACAGCAGGGCTGGCGGATTTCGGAAGACCCACATACAAGTAC
GAGTACCTCGAATGGTTTCGAGTACTCGTACTACATCTACGTCCATCACC
CCAGAAGTTGATGGTGTTCAACGCCAGGAGGTGGCCAACTCCATCCACGT
TAACAATAAGCAATCCCATGCAGCTAAGCTTGTGGATTTGTACGACACAA
CGCTCAGAGATGGCACCCAAATGGAAGGAGTCAGCGCGTCGGTGAATGAC
AAGCTCAAGATAACGAGGGAACTTCACAACTTCGGTGCGTTTGTTCGTTA
CCTCGTACTCGCTCTTAGAGAACTACAGTACAGGTCAGGTACCTGGTAGG
TGTTGACAGCCATCTTGAACGTGGCTGCCGAAGTGGATCTTATAACATGG
TACAGAGTAGTATAGGTCTGTTTAGTTTCATGTAGCTCTAGAGCGTCTAG
AACAGTGGTACCGTACGCTCCGAGCTCTTTGGTCTCTCCCGACCGAACTG
ACAGTTGTCTTCACAGCGAAAAAACGTTATGACCTCTATCCAGTACCTTC
TCTTTCTTACTCTCGAAGGTAAAATAAACCAATTTTCGTGGTCACAAGCT
AACCCAAAATAAGGTACCCGATTGAATACCATGAAGAGGTTTTGTCTTTG
CAGCCTATGATCACACCTAAACGTTTTGACATTTTCCCCCCAGACTGGGG
GATGCGCAGAAGGTCCAGAAGCGTTCAGATTTCTCTTTAAATGTTCAGAA
AGACAAAGAGCAGGTTAGGGCAGGAAAATTCAAAAAAAGTAGTAGAGTCC
ATCGCTCCACCTCGAAGCTGAGTCGCAAACAAAATACTCTGTGTAATGTT
TTGGACAGAATAGACATAGCGCGGGCAAAATAAAGCCGTTGTTTAAATAG
CGCGGACCAATCACAGGTTGTTTTAGACATAGGAATACGTGAGGAAAAAA
CTAGTACCGAGCATGTAATGTTTTTGACCAAGGAACAGAATCGACAGAAT
AGACATAGCGCAGGCAAATTAGAAGCCGTTGTTTAAATAGCGCGGACCAA
TCACAGGTTGTTTTAGACATCTCTGATTTTTCTTTAAATACGTCAGGAAA
AAACTAGTACCGAGCATACAACAAGCAAAACAGCTCGACTGTGCATTGCG
ACTGAGATGATACTGTGTTTGCCTGTGTATTGCCATGCTCCTTCGAACAT
CTGTTACTATATTACTAGTATATTACTGTCTAAACGGTAGTGAGACGCTC
ATGTTGAGCTGCTTCACCGCTCTTGTACAGGATCTACTCTTTGTATTATA
GGAGAGTTCCGCCATTTAGGCCTGGCAAAGGGCACAAATATTATAATGTG
TTGTTCGTCTCTAGACTTGCTGTGCATTCTCGAAGAGAGGTTGAAAATTC
TCCTCTGTTGCAAGTGGGATGGCTAGTGAAACGATAGCGACTTACACTCC
GGGCTGGCATGATCGGGCAGCATAGGCATTTGACTTCTTCCTGGTCGTAT
TCAGCATGTTCAAATCTATTAGAACAGAGTATTTTTTTCAAGAAAAATCT
GAACGCATCTAGACCTTCTGAGCATCCCCCAGTCAGGGAGGAAAATGTCA
AAACGTTTAGGTAGATAGGCTGCAAATACAAAACCTCTTCATGGCATTTA
AACGGGTTCCCCGCTGTTAGTAACATTGGGTTAACAGTATAATACCGGGG
AAAAACCCACCGTTATACCGTTATGATGTACACTTACATTAATCGCCATG
CCAGGACACAGACAAATTCTTTAAACACGACAAGCGACGGATGCGAGCCC
AAGAGCAATGTTCCGTAAGATCTGTACGGCTGGACGCCGATGACCTTGGT
TAAGCGGTGGCATACTGGTAGATTGTGGTCAATGACCCTCTCAGCCTCGC
TACGGATGGTGATCTTGTGATTTTGTGTTTTTCTTTATTATTACCCTATT
ATAAAAAACCCTTTCTAGATCATGGGAAAAATATTGTCAAGTGGCTGGGA
CAATGTTTTTTACCTGAACTAGCTAACTAGATCATTCTTACTGAACCCAA
AGTACAATGATACAGTCCCGCTCTGCATGAAGATTCGAGAAGCGATGGAG
CAATGGACCTGGTGATATACGTGGCACGACAGTTCGGAATAAAGACGAGG
AGTTTGAGACATTTTGGGATCTTCGGGAATACCGTACGGGGGATTACACG
AGGCGGTTGCGAGGCCTAGTTAGTCACTTTGACAGACAGATGCTCTTTCC
TCTTGTGTTTCTGGTCAACGCGGGACCATAGCTAAGTCCATGTATGAGGA
GCATCTGTGTGTCGTAGCCCTGACAAGTATTGAGCGAGGAATCCAGTTCT
TTCCGCTTGCCTCTTACTTCCTTGTGTGATCTCCCACTGCTCTTCTTCGT
CTACTTCCAGGTGAATAACGGTGTCTTGTACTTTCTGGATTATAAAGATA
TCTACATTATGGTCTTCTCTGTTCTCGTTTCAATGTAATAGCCTATGTTG
TTGTTGTTGTATATTATTATGTTTGATGATGTACTGTTTTGTCATCGCTG
TTTTTCTGGTGTCCCTGCATGGCGATTAATGTAAGTGTACAGTATAACGG
TGGGCTTCTTCCCGATATTATACTGTTGACCCAATGTTACTACCATAGGG
GAACCCGTTTAAATGCCATGAAGAGGTTTCGTATTTGCAGCCTATGATCC
CACCTAAACGTTTTGACATTTTTTCCCCCTGACTGGGGGATGCTCAGAAG
GTCTTGGTGCGATCTGTTTTTTCTTTAAAAACAAAACAAAAACATTTGAG
TACATTAGAAAATAGGTTTATAATTATATACAGTAATAAATAATAGTGTA
TCGACCCTTATACAATAAAGGCTTATAGTCTAGAACACAAGCAATGTTTC
AATATTGTAATTGGTAGAGAAATACATTTATATTTTACAAGTCCACAGAG
ACATTCTACTACGTTTATAAAATTGTTGTTTCATGAGCTAAAACCTGTAT
AGTCTCACAAAAATGTTACAAGAGTATTATTTTTGTCTCAGTAAAAATGT
GTATGAAGTAATAGGTGTACACTCCTCTTTGTGAAAACCTCAAATCACTT
GATACAGCACAGCAGCCCACGCAACACGAAAAGAACGAAAAGAACGAAAA
GAACCAACACCCGAACCCCGCGCAGCAGTAGCGCCTGTAGATGATACCAT
CAATCACATCAACACAAAAGAAAAAACAACCAACCAACCAATCAGCAACC
CTCAGAATCCCGGTTTCAATAACGGAGTTCGCAAAGATTTCGCGGGCTTT
TCGCCCGCGTAATTAAACTCCCAAAACCCTGTCCCGGAGCCTAAAAAAAT
GCCATACGATGGGAGTACCACTATAATAGACAGTACGTCCGAATATAATC
ACAAACTCTGTCGTAGATACAGTAAAGCGCGGGACACGGGTGTCGATTTT
CTCCGCAACTATCAGTACCATAGTAGCTCTAGTCTAATACTGAACCGTGG
TAGCCTAATAAATAAGGGGCTCCGCCCAAAAGGGGCAGACCTAAATAACA
AAAAATGAGGCGATAGTCCGTCAGAAAGACCACGGTTTCTTCTTACTTCG
AATACATGTATCATACGTGTTTCGAGACGAGGCAAAAAGCAACAAAGCGT
ACAGTTGGGTTATTTCAGTGTTAGGTACAGTAGTATAGTATATCTTAATA
TCTTGTTGACTCTCTCTTTGGTGTTGGAACTGTAAAAAGGTAATATAATG
ATGAGTGAACAAGTTGGATGCTATAAAACTGTATTACAAACACTGGATTG
ATTCTACAGATTAGATGATGTATCACACTGCATAGATCATACGGTATATC
AAAACGAATGCCAATGGTTTTGAACCAGTCAAAAAAAATGCACGAAGAGG
CCTCATTTTAGTTTGTTTCATGCTGAAATTAGGTCACCCACGAGTATTTG
ATATCTTGTAATTGGATTACCCTTTGCGACGTTGTCTATCCTATTATTAA
TAGTAGTACACCAGGTGTTATCAAACACGTGCGTGTAAGCGAGTTAGGAA
ACTTCCTCTTGTGCATGTCACAGAGGGACGAAAAGTATTGGGAATCGCCG
CGCTTACGAAGCCCTTAACGAACCGCAAGCACGGATGGCCTTGCCGACGA
GTTAATTTTTCACGTTGTTACATGACTTCTCTCTCTCTTTCTCTCCAACA
TCTCTTCCTCCTGACTGGGGGATGCTATTGCTATTGCTATTGCTATTGCT
CAGAAATTTTCGATGCGTTCAGGTTTTTCTTTAAACGTATCTGCAACGGC
CCCACACAGAGCATGCTACTTGAAGACACCTTCTACAGAGATATCGTTGA
AGAAAAGTTGGACATCTATACGCCATCGATCGCCACCACCGTCTCGGCAT
ACTTCCCTTGGGTACTGCGTTGAAGCGCGAGCGCGTGTTGCGTAAAAGGG
GTGGATACAAGACAAAAATATGGCAACGGTTTCCGAAGATCAAAGACCTG
TAACAGTCAATATGCATGTTGTGCTATTAAGAGCATTTGTCGGTAGTCAA
GCCTTTCGACAGACAAGACAAATAGTCAACCTCGGCACTCAGCAGAAAAT
GTTGATACTCAAAAACGCTAGGCAGTAGACACGCCATTCTTTGATAGAAA
TCGCCGCCATGCCGAAAGAATGGAACATCTTATATTAACGCAGAATTGAA
TCGTCTGACGTTCGTTGAACAATGTCTCCGTCCTTGTTTGCACAGAGAAT
ATTCAGTTACAGCAGTTGTCTACCGATCACAAACAATTTGGACTCAGAAG
ACAAATTCAATTTCAACAAGTGTAACTCAGACCACAAAGAGTAGTAGAAT
GTAACGAATATGCCTGAGGGGAACACAGACGGGATGGACACAACAGAGGA
TATCTAATCAAAAGGCATGCAGGCCCACTGCGCTCAAGCATTCCCTATTC
CCTTATGTACGTTGAGCAGCGGTTTGGGGCTTCGCCAAAAAGAGGTACAC
GGGGTACACCCCCCTAGCATTCTTGGTACCACACCACCCACCAGAGACCT
ATGTCACCTGCCATTTTCTTGTAGATGGCTGTCAACATACACGAACTAGA
GCCTGGCAGCCTCGTCTCCTTAGCTTTACTATCGACGTCGAATACAGCGC
CATACTATACCATCACAGCGATAAATTATTAATAGCACGAGATCCTCCCA
CGTGCTTGTCGGCACACAGACCTCTGTCATCGGCCAAGAAGCAGCGTTCG
GTGGTCACGCGGAGGTCCGCCGTGTGTGCCAACAACCTATAACCTATTTA
TATATCCTTCCTAAAGTCGCCTAACGTTAAGCTCTGGCGGCGCACCACCA
TAGATGGTAGCCCCCGATGACTGATGACTGTCGACTGTTGTTGTTGACCC
GCCATGTTCAGTGAGGAGAGAAGCGTCTACAGTATAGTAACCAGTATAGC
AGAATATCATAGCAGTATTATTAATATAATAGTGTTTTGGCGCCGGGAAA
GATGCAGTCGGTCGCGCAGTGGGGCTGAAGCGCAATATAGCCTTGTTGTC
CTGCTGCTTGGAAGATGCATTGCTCTTTCGGAAATAATAATTAGTCTTGT
GTACAGTATTCGCCAAAAGGGGTCTTTTCCACGGCCAAGCAAGGGTACTT
GTTGAGCTGAATAGACACCAGGAGGGTATTCCCCTGTTTTTTCTCGCCAA
GAAGGGGAACAGTGAGAAATCATGCTATGTTTATTACAGATTGTCCATAC
GTTTTTTAGGTGTACCCCTTTTTGGCGAAGCCTCAACAAATAATAGTCTA
CTTTCTAACAGTCTACTTTAGTATTATTAATGTACGTGGAGAATACGAAA
ATGAAAAATATGAACCACGGTATTTGGAGATCTGGCCACTATCAATCGTT
CCAGAGAGAGACGTGACTAAGGGCGTCGACTCTTCTTTCTGGTACATTTT
CCGAGACAGACAGACAGACAGACAAATAGACAGACCGTCAGTTGGGTAAA
GGGAAGCCAGACCCCCTTACCTTGCCCTAGGAAAAGTCGGTAAGTAGTCA
TGTAGTCTACATATTGTAATATAATATGTAGAATACAGCAGTATGTAGAG
TAGAGTATGTTTTAAACCCTGATGGTTTCCTCGGTAAAAGTAAACATTCA
ATGATCCCGATCACGTGGTTTGATATACTGTATAAAAACTAGACATTCGA
AGATCCTGTCCAAAACATGTTTAAAGAAAAATCTGAACGCACGTAGACCT
TCTGAGCATATTCCAGTCAAGGGGACAAAACCTCAAAACGTTTAGGTGGG
ATCATAGGCTGCAAAGACAAAACCTCTTCAAGGCATTCAAACGGGTTACC
CGATGGTAGTAACATTGGGTCAACAGTATAATTTCGGGGAGAAACCCACC
GTCTTACTGTACACTTACATGAATCGCCATGCAGGGCCACCAAACAAAAC
AAAACAAAAGACAATGTAGTACATAATCAAATATGGTAGTAATAATAATC
TACAATAACAGTGCTATCGAACCATACAATAAATCAATCCTTAACCCAAA
TCAGATCTATTTACCACTACTATTAACTGTCCTATACCAATCACCCTGGT
GTCATAGTCTAAATCTAACACGTAGAGTGATATACAAACACGTACTGAAT
ACGTGTAGATAACGTACTGTAGTATAAGTCCCTATCGGCGTGGTGGAAAA
CGTAAATGTAACATCGTTGCCAATCCTATAATATCATAACGTTCTTTTGT
TCGATGACACTTACTATCGTGTACTATTATTACTATGGTACTGTACTGTA
TTGTACGCTAATAACTTATTCTATATACCACAAGCGCTACTGGTAAATAT
GTACCGTATAGTAATACTTTAAGGTCAATTTTCCAATATCACCTCTATAT
CTATAACTTGTAGACTTCCCTTATTTACACCCATCCTATCCTATAGTAAC
AAATTGAGTTGTATCCTAGCTTATCGTGCCTTTTGTAATTGTTGTGTTTT
GGTGTCTTTGCATGGTGATTAATTTGAATAGGACAGTAATGCCATGAAGA
GGTTGTATTTTTAGCCTATGAAACAACAACTTTATACACGTAGCAGAATG
TTCCTGTGAACTTGTTGTAAAATGTAGATGTATTTCTCTTGACCAATTAC
AATGTTGTAACACTGCTTGTGTTCTAGACTATAAGCCCTGATTGTACAAT
GGTCGATGGTACTGTTAATGTATATTATTATAAACCTATTTCATTGTGTA
CTAAAACTGTTTTGTTTTGTTTTTGTCTGATGTCTCTGCATGGCGATTAA
TGTAAGTGTACAGCAGTATAACGGTAGGTTTCTCCCCGACATTATAATAT
TGACCCAACGCTACTACCATCGGGGAACCCATTTAAATGCCATGAAGAGG
ATTTGTTTTTGCAGCCTTTGATCCCACCCCCATCCGAGCTTAGACCCAGT
GTAACAAATTGGGCTGTATTATTCTAGCTTATCGTGCCTTTTGTAATTGT
TGTGTTTTGGTGTCTTTGCATGGTGATTAATTTGAATAGGACAGTAATGC
CATGAAGATGTTGTAATTTTTTAGCCTATGAAACAACAATTTTATACACG
TAGTACTCGTCGCCCGAGTGGTCTAGTAGGTAAGCTGCACATCTGCTAGT
ACGGAAGTCGTGAGTTCGATTCTTACCAAAGTAGGATTTGTGTTCTTTCT
TTCGTAACGAAAAGCATGGGAACGTGAGTAAGTATAATTCAACCATTGAT
TGACAAGTTGTAAGAGTGCTGAACTTGCATCGCGATAAAAAAATTGTAAG
GCGTGAACCGGGGAAAGATGGGAAGATCCTTTGTGACCACAGGCAGGATG
GTGATGATGAGGTCCATCGGCTATAAGTGAGATGAAGAAGAAAAAAAAAA
AGTAGAATGTCCCCGCGGATTTGTTGTAACATCGCTTGTGTTCTAGGCTA
TAATAAGCCCTTATTTAAAGAAAAATTGTTCAAGGGTCGATGTCACTATT
ACTGTGTATTATTATAATCCTTTTTTATTATGTACTAAAAATGTTTTTGT
TTTGCTCTTGTCTGGTGTCCCTGCATGGCGATTAATGTAAGTTTACTGGA
CCGGTCGCCCCGGTAGCTCAGAGGTAACCTCGTAACCTTCTGACACGTTG
GGACGTGAGTTCGATCCCGGTAAAAACGGGATCTAAAAATAAAATAAAAT
AAATGTGTCAAAAATAAAAAATGCCCAATGAGTGGAGAACGATTGAATTG
TTAGTACACAAAATTCGACTTCACGGTCGACGAGGGAAAGAAATGGCTGA
ATCCTTCTCGCGAGAAAAGTAAAGGCACGCACCGCAGAAGGAAGATGGAT
GAAAAATCCTGTGTGACCTTCCTGTGTGACCCTGGCTGGTACGTCCAACG
AACTTGCTGTCCAGAATGAATGGGAAGAAAACACACACACAAAAACACAG
CATAACGGTGGGTTTCCCCCCGACATTATGCTGTTGACCCAATAATACTA
CCATCGGGGAACCCGTTTAAATGCCATGAAGAGGATTTGTATTTGCAGCC
TATGATCCCACCTAAACGTTTTGACATTTTTCCCCCTGATTGAGGGATGC
TTAAAAGGTCTAGCTAGATGCGTTCAGACTTTTCTTTAAAAAAAATAATA
TAGGGGCTTGGGTCAACAGTAAAATGTCAGGGAGGAACCCAATGTTATAC
TGTTCAATTACATTATTTGCCATGCAGGGACACCAGGGGCTTGGGTCAAC
AGTAAAATGTTAGGGAGAAACCCACTGTTATACTTACATGATTTGCCATG
CAGGGACACCAAACAAACAAAAAAGACAAAAGAAACGATGAATTTGGATT
ACAGCTCAATTTGTTACATTTGAGTCTAGGATCGGATGGGTGTCGATGAA
GGAATTTACGTGTTATAGATGTAGACGTGATAATGGAAAATTGTCCAATA
ACTATTTCTCTACGGTACATACTTACAAGACGATTATGGTGTTTAAAGAA
ACATCTGAACGCATCTAGACCTTCTGAGCATCCCCGCGCCAGGGGTTTGT
AAAATCACACTATATCTTATATAATGTAACATTTGTGACAGCAGGAGTAA
GAGATAGGCCGGTTAGCGGTAGTGGTAAATACATGGGTTTTATGGGGGTA
GTCTAAGAAATAGAAATTGTCCAATAACTATTCCTCTACGGTACATACTT
ACAAGACAATTATGGTGTTTAAAGAAAAATCTGAACGCATCTAGAACTTC
TGAGCATCCCCCCGCCAGGGGTTTGTAAAATCACACTATATCTTATATAA
TGTAACATTTGTGACAGCAGGAGTAAGAGATAGGCCGGTTAGCGGTAGTG
GTATATACATGGGTTTTATGGGGGTAGTCTAAGAAATAGAACAAAAGGAA
GGAACTGTTTTTTGTTTCATTGGGTTGTGATACATAGTTAGATAGGGTCC
AGTACAGTACAGTATAATACAGTAGTAATAACATACGATAGTAGTGTCAT
CGAACCCTACAACAATGTACTGTACATTGATAAATTATGTACAACAACTT
ATCTAATTACGTACTACATTGTTTTTTGGCGGGTTTTGGCTGTGGTATGT
ACTACAATGTTTTTGTTTGTTAAAGTTTTTTTTGGTGTCCCTGCATGTCG
ATTGATGTTAAGTGTACAGTATAACACTGGGCTTCTCCCCGACATTATAC
GTTGGCCCAATGTTACCACCATCGGGGAACCCGTTTAAATGCCATGAAGA
GGTTCTGTTTTCGCAGCCTATGATCCCACCTAAGCGTTTTGACGTTTTCC
CCCCTGTATGGGAATGAATGTTCAGAAGGTCTAGATGCGTTCAGATTTTT
CTTTAAATACTACAGGACCTTATAGTGTAGAACATAGGAACGTTACAAAT
TTGTGTTGAGTCGAGTACTACTCATGGCGTACTCGAGTATTCTACTCGAG
TATGTACTCGACTCAACATACTCATAGCTTGAGTACCGCTTTCCATACTC
TACTCAACATACTCATAGCTTGAGTACCGCTTTCCATACTCGACTCAAAA
TACTCAAAGCTTGAGTACCGCTTTCCATACTCTACTCGAGTATGAGTACG
GTATCGGGCAAATACTCAACGATGAGTCGAGTATCGAGTATGACTTTCCA
TACTCGACTCAAAATACTCAAAGCTTGAGTACAACTTCCCATACTCGACT
CAAAATACTCAAAGCTTGAGTACAACTTCCCATACTCGACTCAACATACT
CATAGCTTGAGTACAACTTTCCATACTCTACTCGAGTATGAGTACGGTAT
CGGGCAAATACTCAACGATGAGTCGAGTATCGAGTATGACTTTCCATACT
CGACTCAAAATACTCAAAGCTTGAGTATGACTTTCCATACTCGACTCAAA
GTACTCAATACTCTACTCAAGTTTGAGTACATGTCTTCGTCTTCGTGACG
TCATTCTGCGGGGCATTTTGTACCCAGACATTGTGTAAAGTAGTTTTTTC
GGGTTGGCAACCAATACGCTGAATGTGAAAAACAACAACAACATCTTTTC
TTTTCTTTTCTTTTCTTTTCTTTTCTGGTGTCCCTGCATGGCGATTAATG
TAAGTGTACAGTATAACGGTGGGCTTCTCCCGACATTACTGGGTGGAAAT
GGTGATGTTCCTGAAGGCGAACTACAGCTCCATTCCGGCGTACAAGACAT
CCCCAGATCGCATCGGAGGACATCCGCAATCACCTCCCCGCGAGGTTCGA
CGGACAGGACAAGGATCTTCTGGACGCAGAGGCGTCGATTGACCCGCTGG
TCAACAACGCGCCTCCCACTCCCAGTGGCATAGACATCAACTAGGACATG
CGTAGGGCAGCTAGTTGTTTTGTTTTTTGTTTCGTACTGCTTTTGCGGTC
GTGCAATATCAAAATTACTACCATAGAAAGTATAGTATTTTGGTTTTTTA
TATCTCTTTTTGCTATATATTAGTGATTAGTGCGAGTGCTTGCAAACAGG
CCATCGGTGGCGGTTGACAACCGACCAGGAGTGCAGCGTTCAGCCTTTCA
CCGCTATGACCAACGGGGAGGGCGGGTGAAAATGCAGGGGGTGAATTGAA
GTAGGGTGATATGTAGTTTAATTTTTAGTTTTTTAGGTTGTGGTGAGAAA
AGTACTACTCAACTACTCGAGTATTCTACTCGAGTATGTACTGACTCAAC
ATACTCATAGCTTGAGTACCGCTTTCCATACTCTACTCAAAATACTCATA
GCTTGAGTACCGCTTTCCATACTCGACTCAAAATACTCAAAGCTTGAGTA
CCGCTTTCCATACTCTACTCGAGTGTGAGTACGGTATCGGGCAAATACTC
AACGATGAGTCGAGTATCGAGTATGACTTTCCATACTCGACTCAAAATAC
TCAAAGCTTGAGTACAACTTCCCATACTCGACTCAAAATACTCAAAGCTT
GAGTACAACTTCCCATACTCGACTCAACATACTCATAGCTTGAGTACAAC
TTTCCATACTCTACTCGAGTATGAGTACGGTATCGGGCAAAATACTCAAC
GATGAGTCGAGTATCGAGTATGACTTTCCATACTCGACTCAAAATACTCA
AAGCTTGAGTACAACTTTCCATACTCGACTCAAAATACTCAAAGCTTGAG
TACAACTTTCCATACTCGACTCAAAATACTCAAAGCTTGAGTACCGCTTT
CAATACTCTACTCTAAATACTCTACTCGACTCAACACAACCTTGAATCGT
TATAATATTTTAAGATTGGCAAAAAATGCTACATTTTCGTTTGTTGTTCT
CACATTAACTGATCCGCTACGAATCCAGCCGTGGTCTAAGATAGACGGCA
CCAAATAAAATCAAACCAGGAACACTGTAATATATAATATATGATATATA
TTATCGGGGAGAGACCCAGCGCCATGTTGGTATACGAAAAAACAGAACAC
GGTAGTAGGAATCTTGAAATATACTGTAATTATATTCTTACTAGGGTGGG
GTACGTTAGAATGTAAATACAGTTTAAAGAAAAATCTGAACGCATCTGGA
CCTTCTGAGCATCTCCCAGTGAGGGGAAAAAGATAACTGCTCCATGAATA
CAGTATTTACACTCTTTTCTGCAGCAGCACGGCACAGAGTGCTGACCCAA
AAGAATAAATAATGTACCGGTTGTACGACAGTAGCAGTAGTAATAGTATT
TTAGTAGTAGGGTATATAGTATATAAAGAATATATACTAAATGTAGTAGG
TCATATCAACTTAACCTTACGGGGACCATGTAGGCACGTTCGTACGGTGA
GGCACTGGGAGTTACGCTCGCAATGTGGTGGTCAAAATATCAACATCATA
AAGATCAAAGTTGACGACTGCCGTTCTAGATATTTATTCTTTCTCACGAG
TATGGGAAAAGAAAATTACAAATCTTGTACATGTACTGTACTGTACTGTA
GGAATGTTGAGTACTAGTATTGATATTAATAGCAGGTACTGTTATTGTAC
CAGTGTTGAGTGAGTACCAGGTAGTGTAGTGTTGAGTAATTATCGACGAT
GGCGTGAAGAAATATGCAGTGCTATGCTATGCTATGCCATGGCTGTGCTT
TGTCAGGATGGCATGCCTGCTTGAGCCTTTGCGCTGGACCTGCAAGGCCA
CCTGTAGCTCAGCCAGTCCATCTTCTCTTTACACCTAGCTATGTTAAAAT
ACTCCGTTGGCTGTGCTTTGTCAGGATGGCATGCGTGCTTGAGCCTTTGC
GCTGGACCTGCAAGGCCACCTGTAGCTCAGCCAGTCCATCTTCTCTTTAC
ACCAAGCTATGTTAAAATACTCCGTTGTGTCCATCGATCCAGCACAGTGT
TCCTATGGAAACAGCCCACAGGACTGATCAGTGATATGTGGGCAAGAAGT
TTACTTTGAACAAGGAAAGGAGCAAAGAGCGCACTGTAGCCGTCCTCCTC
TTGGAAACCCATAAGAACCCAAAGGTAAAGTTGTGGAAAATGATCAACAA
TAGAGAAGAGCCTATTATTAATAACAATACGACCAAAAGTGTCTATGCGG
CATGCAATACCTGTCATACTCATAGAAAAACTTTGCCACAATAATCACAG
TAAGTACTTGACTTGACACCCTACCTAAGGTTTTGATTCCCCAAGAGTGT
TGCTGAAGAAATGTTTTCAGATGCAGAATTTTCAGGATGTGTCTAGTGGG
ACGTCGATTACAATTTGGCAGCCCGCGGTGTTTTGGAGATGTGGCATGTG
GTATGTGGCAGACCTAGAGTGGAAGGGCTTCTGTGTAGGATACATAGGAT
ACATATTTGAAATGCTGTTTCATGAAGGTTTGGCCCTCGTAGCTTCGCTG
CCCATGCGGAGCAGAGTCCTCCCATTGCAGTCCTCCCATTGATGTATCCC
ATTGCTGTAAAGGGACCGTAGGGATGTGTGCCAAATCCGATTGCTTGTTT
TTTGGGCGGTCGTTTTCTGTCCCACTGGACGACGTTCGGTCATAACATAC
AATTCGGTTTTAACGTTCGTTCATAAAATACATTCGGCTGCTGCTAAGCG
ACGGTCATAAGTCATAAGTGATAACATGGGCCAAGGTTGTGTTGAGTCGA
GTAGAGTATTTAGAGTAGAGTATTGAAAGCGGTACTCAAGCTTTGAGTAT
TTTGAGTCGAGTATGGAAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCG
AGTATGGAAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAA
AGTCATACTCGATACTCGACTCATCGTTGAGTATTTGCCCGATACCGTAC
TCATACTCGAGTAGAGTATGGAAAGTTGTACTCAAGCTATGAGTATGTTG
AGTCGAGTATGGGAAGTTGTGCTCAAGCTTTGAGTATTTTGAGTCGAGTA
TGGGAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTC
ATACTCGATACTCGACTCATCGTTGAGTATTTGCCCGATACCGTACTCAT
ACTCGAGTAGAGTATGGAAAGCGGTACTCAAGCTTTGAGTATTTTGAGTC
GAGTATGGAAAGCGGTACTCAAGCTATGAGTATTTTGAGTAGAGTATGGA
AAGCGGTACTCAAGCTATGAGTATGTTGAGTCGAGTACATACTCGAGTAG
AATACTCGAGTAGTTGAGTAGTACTTTTCTCACCACAACCTAAAAAACTA
AAAATTAAACTACATATCACCCTACTTCAATTCACCCCCTGCATTTTCAC
CCGCCCTCCCCGTTGGTCATAGCGGTGAAAGGCTGAACGCTGCACCCCTG
GTCGGTTGTCAACCGCCACCAATGGCCTGTTTGCAAGCACTCGCACTAAT
CACTAATATATAGCAAAAGATATATAAAAAACCAAAATACTATACTTTCT
ATGGTAGTAATTTTGATATTGCACGACCGCAAAAGCAGTACGAAACAAAA
AACAAAACAACTAGCTGCCCTACGCATGTCCTAGTTGATGTCTATGCCAC
TGGGAGTGGGAGGCGCGTTGTTGACCAGCGGGTCAATCGACGCCTCTGCG
TCCAGAAGATCCTTGTCCTGTCCGTCGAACCTCGCGGGGAGGTGATTGCG
GATGTCCTCCGATGCGATCTGGGGGATGTCCTTGTACGCCGGAATGGAGC
TGTAGTTCGCCTTCAGGAACATCACCATTTCCACCCAGTAATGTCGGGGA
GAAGCCCACCGTTATACTGTACACTTACATTAATCGCCATGCAGGGACAC
CAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGATGTTGTTGTTG
TTTTTCACATTCAGCGTATTGGTTGCCAACCCGAAAAAACTACTTTACAC
AATGTCTGGGTACAAAATGCCCCGCAAAATGACGTCACGAAGACGAAGAC
ATGTACTCAAACTTGAGTAGAGTATTGAGTACTTTGAGTCGAGTATGGAA
AGTCATACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACT
CGATACTCGACTCATCGTTGAGTATTTGCCCGATACCGTACTCATACTCG
AGTAGAGTATGGAAAGTTGTACTCAAGCTATGAGTATGTTGAGTCGAGTA
TGGGAAGTTGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGGAAGTT
GTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGAAAGTCATACTCGAT
ACTCGACTCATCGTTGAGTATTTGCCCGATACCGTACTCATACTCGAGTA
GAGTATGGAAAGCGGTACTCAAGCTTTGAGTATTTTGAGTCGAGTATGGA
AAGCGGTACTCAAGCTATGAGTATGTTGAGTAGAGTATGGAAAGCGGTAC
TCAAGCTATGAGTATGTTGAGTCGAGTACATACTCGAGTAGAATACTCGA
GTACGCCATGAGTAGTACTCGACTCAACACAAATTTGAACATGTGTCATG
ACATGTACCATCGCCGCAGAGTCCTCGCAAGTACAGTACAGTACCTAGTA
TGGTATTATCTATCGGAGCAACTCCCGCGTTTGTTTGTTGGTTTGTTTGT
TTTTAAAACTTTGAGCTTAACTCAAACCTCTCGGCGCTCCCAATCATCCA
AACCCTCCCCGCCTTCCGAGCGTCTACACTGTCTACACCCGCTGGAGGGC
CTTGGCGTCTACACCGTCGTGTCGTGTCGTGTCGCATCCTTGGGTTTGAG
TAGGGTGGGGGCACATCGGCTGTTACTTACACTGTGACTGTCAGATATAC
ATGTCAGAAGTAGAGAAATGCACTGCAGCCTACGATTTGACTCCGTATAG
TTTCGTCCGCATTTTTTTTCAGAAATATCGTCTAATAGGATCAGATTCAG
AATATTCATTTTCCAGTAGATCTAATGCATCGGCTCCAATGCATGTCTGA
TGTCTGATGACATGAAAACCGTGGCAAATTAATAGTTTCACCAAAACATT
CGGCCTAAAACCTGAAATCGGAGGGAAACTCGCAACACTCACTGCTGGAT
CTAATAAATACATACCTGGTACTGTACCTCTTTTGTCCTCCCAAATGTTG
AAAAGGTTAAAAATGTAAACACCTGTAAGCCTAGACATGAAAGTATGTTC
ATGAAAGAATTCAACGAACTGCATTCTTTACGACCAGGTAGTTAACATAA
ATTTACGCATAGCAATTCAACCATCTCTCGGGGTACAATTTAAGCATTGA
ATGTGTATTGGTACTGTACTACTATTATTGATACTACTATTAATATTATT
ATTAATAATACCGGTGCCTAATTACGTCGTACTAAAAGTAACTATTATAT
CATTATATCAATATTATTATGAATAATAGAAAGGGTATTTCATCCCTTCA
ACTATTTAATCACATCACAAGTAAAACCTGCTGTAATATACGTACACATG
CTGTTAGACTAGACTAGACTAGACTCCTATTATAATTAATAATAGTGCAC
CAGGTACCAGGTAGGTACTTTTGTTGCTATAATCAAGGACTGCGATATCC
CTTTACTCGTTCTCTGCTCCGATTGGCTGCCGTCAACATTAAGACATTAA
GAGCAGAGGTCATGTGCGGGGCGGGGTCGCGTATTCAATTCCAGACACTA
CATGCCGGTTGATAGTCTGTATGATGATGCAAAAGCGTCAAGAGCTTTGC
CTTAGCTCTCTAAAACGCTGGCGGTTGCGAGGACAGCAACGCGTGCTCAG
CGGCATTCAGTTCATGTGAGCAGATGTCATGCCCAAATTCAAGACACCCT
GCCAGCGTTGAACAACGTTAAACAGCGTTAAACAGCGTTAAACGTCCACG
TACGAGTAGAAGTGAACCCTCATACAGTACAGTACAGTACAGTACCTGGT
ATGGTAAAAACACACACACATACAGGACACTAGGTTTAACTATTTTTTTT
AACTTTTCTACGGTTCATCAAACTAAATCATGCTGCCATATCCTGTCGGC
CTGGCATGTCAGGTATGCACTACATTGAAGGCGGGTGGCCAGGTTCTAAC
CCGAAGGATGTGGAGTTCTTCGAGAGAGCGAAGCAGGAACTTCCGAAAGA
GGCTTGGGGCAAGGTTGTTGCTTTCGGAAGGTTTGAGCTTTGAACTTTGA
ATATCACCGTTTGAAACTGGAGCCCTTTTTAAGATTCATGTATAGAGCGT
GTCGGAAATCCCACGACGGTCAGACCTGACTTGAGTAGACTTCGCCATAC
CAGCTACTTCGGATCATCTTATTAATAGTCGACTTTGTGCGCTAACAGTT
TTGTACTATAATATTAATATTAATTTAATATAGCTCTAATAGTAGTATTA
CTGTATTATTAATAGCAACATGGTTTGGATCGAATGCCATACATATTTGC
AACAAGACAGGAAGCCCGGAACGGCCTTTTGAGTAGACCTTTCTAGGAAT
TTTACAAGACATGTTTCACTTATGACTGAAGCAACGTGCAAGATCGCTTA
TTGTATCATTTCTGACCGTAGCTACGCATCTCCACCCCGTGAATTGCCAT
CCTGGCACCTGTCACCTGCGGCACCTGCTGCTCTAGCACCCGACGGAAGT
ACAAAACGTGTGAAGAGGACAAGCAGCTGGAGTCGCTCATTTCAGCCGGA
ACGAGTTGTGTTACTATCGTGGCGAAAGCGTGGGATCTTCACGTCGACCA
CATCCTTGAGGTTAGGTTAGATTAGACACAGCAATATTCCGAAGTTGCGC
ATAGTTACGTCGGAAACGCTGGTGTGCCTCACGGCACTTGATAACCGCTT
GTTATGCTTGTTATCCGCAGAGGCACATGCACATGAAACAAACTCATAGT
GTGTGTGGAAAATATGTAAAACTGCACGAGCGGGGCTGAACCAACAACTT
GTCGTCACGTGTTCTTTTTAGTTCATATCCTATCTTATCCTATCTTATCC
GATCCTTCCCTTCCCTTCCCTTTATTATCTTTCTTTTCCTCTCCTGTCGT
TACTTTTCTTCACCTTTACCTTTTCCTCATTATTTTTCCAGGTGCCGCGA
GAGGAAAACTTGGCCATGGTCCGCGAGAGTGTTGCGCATCTCAAAATGGC
TGGGAAGGAGGTCATGCTCGATCTAGAGCACTTTTTTGACGGGTTAAAGG
CTAACGCCCAATACACCATGCAGGTTGGATGTGGTGGTTTTCACTCCTCA
CTTATCTCTGCCAATGCTATGAATGCTATGAATGCTATGGATGGATGTAG
GCTTTATGTATGTCGCAATGCAATGGATGTAACTTGAACGGGAAGAGTCG
TAAGGTTCTCCTGCTCGGGTTCCTTGTCTGCCAACGGAAAGGAAAGGAAA
GGCAGAAGAAGGGCGAGATCAGGCGTGGGGTGTTTGTCAAGTGCGACTGT
GCACCGCAAACAAAAGTCTCGGAAAACAAGGCGTGCTGGGCAAGACATCT
CGGCAGAGTCTTCTATATCCCAAACATTAATTTTTGTTCCTTCATGATCA
CTTTCTGGCAACATTCTCAGTCAACGTACTATTTACTATTTCTAGCCCTA
ACCCCACCTACAGTATAATAGTATTAAATCTGAAACTTTTCTATCCCGCC
GGTGGTCTCGAGCAATCTCCTCCGTATTGAATACTGTACAATCTCACCTC
TCCCCGGTTCACACCAACGACTGTTAATCGCCAATCAAGTTCAGCATTAT
TTTTGCTTACTCACGCCCTCACGTCCTCCGCCGCTACACTGTTGTAACCA
TAACACAAGAAATCATCCTGACGAGACAAATCATTAATTCTGCGCTAATG
GTAATGCTAATGGTGGCATGGTGCATCATTTGTGGCGTCTTCAGGTGTGC
AAGGCGGCTGTGGACGCTGGTGTGGATGTGCTTGTGATGTGCGACACTAA
CGGAGGAACGCTTCCATGGGAGGTGATATTACAGTAATATTAGTACATTT
CATTGCGCTATTGATACCAGTAATGTTGATGTTGAGTACATTTCATTGCC
TATGTTCCCCTCCCCTCCCTTCAAGTTTCATGGCTGGAATAGACTAAATG
GAATACAGTACAGTACAGTACCCCTCCGCTCGGCGTTTGCCCACACCGTC
GATCTCGTATAGACGCTGCTGCAATAAATGTACTGGTAATTCAACGCGAG
TGATTCGCAGCTGAATAATCCCCTAATAAACTAATTACTTTAACTTAGCT
GCGCTGCTATCACTAATGTCACATCTAATATACTAATAGTAATAGCCCAT
AAGACGACAGTGTGGCCGTTTTCCCATGACGTTAAATTAATGATGTGACC
TTTATGTTCATTGCTATATTTTTGTTAGGTGGATGAGAGCGTGCAGATCG
TTAAGGCTGCCTACCCGGACGTCCGCCTGGGGATCCATTGCCACAACGAC
CAGGGTTTGGCTGTCGCGAACTCTCTTCAGGCCGTCCGGAGCGGTGTTGA
CGTCGTTCAGGCGAGAAAGAGAAGGGATCAAGGTTCAAAGATGTCCAAAA
GTTGATGACGTTGATTAGACGGACTCGTGATCGTTGATCTGGCTCACGTT
GATTTGGTTCACGCCGATTTAGCTCACGTTGATTTGATTTAACTCGTGGT
GGAATATTTTACCTACATTATATATGTATTATATGCTAATGGAACACGCT
GAATGAATGATTGCCACAGTCCCTGAGTGGTAGTAACTTGTTCCAAGAAA
TACTACACCGTTACATTACACAGTAGGTTACAGGTAACCTAGGGGCCGAC
TGGACTGATAAGCCAGACCCGTCAGTTGTCATGGCCCCGAAATTGCCACC
GCTGTAATCGCTGTAATCGCCGTAATCGGAGCTACGCCCAGCGTGGGGGC
AGTTTGCGAAACTCTCTCTTGCCATCGACGGTTGCAATAGACTTTGACTC
CATTGACTCCATTGAGGCTACGCGAACGAAGATCCCCAAGTAATTTTCTT
CCGAAAACCTTTTGAGACCTTTGATAGATACCTTTGATACCTTGATATAT
ACCTTCGATATATAGCTTTGATATATTCCTTTGAGACATGAGACCATGTG
CGCTGTAGTCTACTCGTAGCTGCTATATTGATCATGTATTGATCATGTAT
TGATCATGTATTGATGGTCTTCGCTTTTGATTAAACGAGTTAATAACCAC
TGAAGTCGATGTGACATTGGATCACACAGTGGCTCCGTGGTCGATAACTT
GCATTGGATAACTTGTACAGTATTGGATAAACTGTTCCGACAGTACTTAC
TTCCACTTGCGAGACCAGTGGCAGTCATTCCAAGGGCAGTGGCGTACGCA
CCTCGCCCAAATAAAAAAAACGAAAACACTCGAAAGCATCAAAAGGATTC
ACGTTTTGCTTTTGAACCTTTTCCGCTGCGTCAGCCAGCCTTCGACAGAT
CTTCGACAGATCTCTCGGGAAATTATGAGATGGATAACAATGATGATTTA
CGGTAACCGGCGCGACAACGTACGAGCTCGACTCTGACGACCAGAACCGC
TGATAACGTATTATCTAATTTTCAACTCCAGGGCACGGTCAATGGGATCG
GAGAACGTACTGGCAATGCCAATCTCGTGACCATCATCCCCACGTTACAG
CTGAAGATGGGGATGCAAGGAGTCGGAGAGCACCTGACCAACCTCACTGC
TCTAAGCAGGTTTACTGCCGAACAGGTGATATACTTCCGTCGAGAGCAAC
GAAAAAAAGGGAAATGAGTGCTCTCCGTATATTGAGGGTCCTTCATGGTC
TTTAAAGTTCCTCTTCGGAGGAAACGTCAATGACCAAGGTCGACCAAGGA
ATGTGATGTCATGTACAGCAAGGCGCGGTATTTTTCGACTTGAACTATTA
GAACTATTATAAGCCTAAAAGCTTCTCCATCCGTGTGCCGTGTCCAGTTG
AACATGGCACTCGACTCCGGGGCCCCGTTCACTGGCATGAGTTCGTTCGC
TCACAAGGGTGGAATACACGTCAGCGCCGTCAACAAGATCCCAGACTCTT
ACCAGCACATCGATCCGGCTCACGTCGGGAACACAAGAAGGTGAGCCACT
GGTTCTCTTGAGTCTCTAACCATTGTCTACGCTGACCCATCTTGCGGGGT
ACCGGGGTCAATTCGCTGAAGATCAACGACCCATCTCCAACGGTTTCTGA
AAACCGTGCAATTGCCCAACGGGATTTCGCGCGTCGTGTAGGGTGCTCGT
GTCGGAATTATCTGGCCAGAGCAACATCGTGACTAAAGTGGAGGAGTCGG
GGATGGCGAGCGCGGCAGAGATGAAGGCTTCCAATGTCTGGAGGCAAAGA
CTTGGGCAGGTGTTACAAAAGCATAGGTCGATTGTCTAATCCACCGCGTC
CCGGCCTCATCCCTGGAACGGATTGTTCTTCGTAGAGGTCGCTTTATGCT
CAATAGGCAGATAGGGACATATAGGAACATTAGGCAGATAGGAATAGCTT
CTCGTTACAGGACTGGACTGCCTGTAGGGCCTATCGCCATATCGCCCGGG
CGTGACGAAAGACGACCACAATTTTGCCGCTCACGTTTTTCAAGGTACTG
AAAACGGTCAAGGGCTTGGAGAAGCAGGGATACACTTTCGAGGGCGCAGA
CGCTTCGGTAAATTTGCTTGTTCGGAGAACGATGAGCGGATACGTGCCTC
CTTTCAAGTGCGTTCAGTGTCGCAACTCGGGAAACATTTTGCGTCGCATT
AACAATAGCCCACACCTACACTATATTAATAGGTCACACCTTTAGGAGCG
GTTGAAATTGAAGTTATAGTTATTTGTTCCAAAACTCTTTTGTTGAATGA
CTCGAAGGTGGCACTCATGTGAGTCTATTGCACTTCGCTGCTGTTGGGTG
TCTGTGAATCTAGTTTAATGGACTATCTTGTACAGACATGGGACAGCGAA
CCAACAAGTGGGGGGCTGGAGTTCAGGAGTGACCCCACCACCGCTCAAGC
GACTGTCAAGGTAAAGGTTAAGGTCAAGGTCAAGGTGGTGGGGAGATCTT
CGGGCTCTTTATTTGATTTGATGATTTTGCTCCAGCCCTCCGCTCTAGAT
TTACTCTTGCGCGATCTACGCTCGCAACACGTTCGAACGAGGGAAAATAT
GTCCGTGTCATCTGTGTTTAGACATGTACTCTGGCGGGAGGAACAGGCAA
ACAGCAGGCAAACATGGCTTCGTTTTGCCGATAGGGCTTTCTCGCATTTA
GCCGATAGGCACCAAGCATAGCTAAACATGGCTACCAGTTCCCTTTTTTA
TTCTTGGTTCCTTAAAAAAAGAGAAAGGGAAGCTGCAGCCATGTAGCACC
TATGGAAATATTTATAGCCTTCACTACTACTAATATTTATATTATAGTAC
AGCATAACTATTAGTAATAGTGGAGGATCGCTGAACCAGTAAGTACAGAA
ATTATTAAGAGATGTGTTATTAATAAGATATGCTGCACCAGATACCTAAT
AAAGACCCATTGGTGAAGTAGCGCCAAGTAGTCTGAACAAGGGGAGCCCT
ACATTTCACTTGGTTTTCCAATGACATCTTGGAGTCAGGTTCGTGTACCA
TCTGGTGAATCAACCCTGGCGGTATCTATAGAGGACGAAGATCCAGGGGT
TCGTCTCGAGGTGAGAGGCGGACATGGAAAAAGCATGGAGGATTTTATGG
AGGATGGATCGATCGATCGTCATACGAGTATTGTTATTATTTTATGAATG
AATTCGTCAGCGGATTGTGGGACGGAGCATTTTTCGGCCTGGCTCGCATG
TGACCCTCATGACGCTCCGTCATGATCGCCTGCGTACTTACGTACTTACT
TATCGCGAGTCTTTCCAGTCTGACGTTCTGCGCGGGACGGAGCTATGCTT
AATACTTAATACTTCATGAAGTGAATGGCCTGGATCAAAATTTCAAACAA
AATGCGCACGCCAACGGTGGGTTTGCATTGCGTCAGGTGGCGGAGGGAAA
CGGCCCGGTGAACGCTCTGGCTAAAGCTCTATTCCGAGCTCTGTTGCCCA
CCTTCCCTACCCTCTTGAATGTTGTGCTCAGTGACTATAAGGTGAGACTG
ATGTCGCCGTTGAGACATTTATGGACGCTCACTGTTGCTCCTCGCGTCTC
TAGTCTAGAGTGCTGGTTTTATTGCTATAATACTTATAGCAAAACGATAT
GGCATATGGCATATGGTAGGTAATAGAAGCTCATGTACGAAATTTCGTTA
AGCACCCACACTCTTTCTTCATGAGTTCGTGCTGGTCATTTGTAAAAACA
ATGGTACCCGCTCGTGCCCCCGGGGATCTGGTTCCAGGTAACCTATCAAT
AGTACGTACCTGGTTGTATTTATTAGCTCGTCCGCTCTTGTCCTGATGTC
GATCCAGGTTCGCATCTTAGATCAAGAGAGCGCGACACGGGCGAACACTC
GCGTTCTGATCGAGTTTCATGACAAGGTATGAATCATGAATCATGGGTAA
TTAATACAACACCAACATAATCTCCGCCAGGACTCGAGGGTGCTCCGAAA
AAGGCTCTAAGTCAAACTCAAACTCTAATCCAGGGAGCTGGGGCAAATAA
TTTGCTTTAAAAACCGTCGTCGATCGGCATGCACGCGCTGTATGGGCTAC
TCACTGATCTGCTCCTGCACTCCACGCCGTTTGTCTCCGTTAATTGTTGT
AGGTATCGGATGTGCAATGGTCTACAGTCGGGGTCAATACCAACATTATC
TCTGCGTCGATGATAGCTCTCCTAGACGGGCTCGAGTACGCAGTGGTAGA
GTTTGGTCAAAGCTGCTCGATTGAGAAGGGTTCGGAGGCCGCAGATGACT
AATAATAGCACTCGTAGGACGATTTTTACCCTAGAGTACTCGAGTAGTTG
TCAACATCGATTCATCATTCTTAATAAGTATACTTACTGTAGGCCACAGG
AAGTCATATCAGCAGTCGCGACTGTACCGAGGGAACTTTTTGCACCATGC
ACCATGTACTAATAATAGGGTTGATCGCGCTTCTAAGCACACGCATGTAG
TGCGATAAAAGTCTGGCTGTTACATGGACCAACTTGTGGAACGAGCACCA
ACATGTACAACGCCGAAAACGTTATGGTTGTTGACCCTGTTCACTCTGCA
AACGGTGTGCACCGCCGTTGGGCAACTTGGCTTTTTCTAGGAGGAGTGCA
CGCCTTGAGCCAAGGCCTCTATTGGGCAACTTTGCTCTCTCTATTTCTAG
TGCACGCATTGAGGCAATTTTCTATTTGGTTCTGCCACGCAAATACCTTG
TCCTCGGTACCCTGTCACAAAGTCCTCAATTTGGTTATATATTGTTTTGT
GTTGTAACTTGGGTTGTGAGGTGTTGCGTGTCTTCTGGACGATTATATTA
CGCTTAAATACAAAGTGTATGCAGCAATGTGGACATGTGTGTATACAATA
GATGGCAAGAGAAGGGGTGATCGGTTATTAGTTCTCGTACAAAATACAAC
GTACCAGTTAGAGAAATGAGTCGTGATCTTTATAAAATACAAAGTATCAG
TCAGTTGGATCTGATCGGAGCTGATCTGATCTAGAGTCGAGTGTCGAGTC
AGCTATTCGCGGTGCAAAGCTACGGCATTCCTGATTGGTTCCGACTGGAT
TGGAAAATGAAATGTATCTGCCAGTTACAATCTTCGAGCTTGGCTTGAAG
CCGACGAGATATATTTAACTTGTACTGGTACCCGTAGGCTCTACAGCGGC
AATGCTCTATCGTAACTGGATTCACTGGATTGAACATCACCTTTTCTATT
ATAGTACTACATGTAATCCTGTACAGTGCCCAATAATATTAATGTGCGGC
TGTTCTATTAACAGATATATGGAAGTGCAAGTACACTCGTGTTGCAAACG
TTGAAACCCCCCATTCAGGACGTTTCCCCGTG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig1:1764110..1789441-

>mRNA_A-nodosum_M_contig1.116.1 ID=mRNA_A-nodosum_M_contig1.116.1|Name=mRNA_A-nodosum_M_contig1.116.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=1965bp|location=Sequence derived from alignment at A-nodosum_M_contig1:1764110..1789441- (Ascophyllum nodosum dioecious)
ATGCGGTTAAGGATTACCTTGTTGGTAACCTACCAGGCATGTCTGGTTGG
GGCATTTGTGCACCCCGTGCAGCATCTCGGCTGCTCAAGGCCTAACAGCA
GGGCTGGCGGATTTCGGAAGACCCACATACAAGTACGAGTACCTCGAATG
GTTTCGAGTACTCGTACTACATCTACGTCCATCACCCCAGAAGTTGATGG
TGTTCAACGCCAGGAGGTGGCCAACTCCATCCACGTTAACAATAAGCAAT
CCCATGCAGCTAAGCTTGTGGATTTGTACGACACAACGCTCAGAGATGGC
ACCCAAATGGAAGGAGTCAGCGCGTCGGTGAATGACAAGCTCAAGATAAC
GAGGGAACTTCACAACTTCGGTATGCACTACATTGAAGGCGGGTGGCCAG
GTTCTAACCCGAAGGATGTGGAGTTCTTCGAGAGAGCGAAGCAGGAACTT
CCGAAAGAGGCTTGGGGCAAGGTTGTTGCTTTCGGAAGCACCCGACGGAA
GTACAAAACGTGTGAAGAGGACAAGCAGCTGGAGTCGCTCATTTCAGCCG
GAACGAGTTGTGTTACTATCGTGGCGAAAGCGTGGGATCTTCACGTCGAC
CACATCCTTGAGGTGCCGCGAGAGGAAAACTTGGCCATGGTCCGCGAGAG
TGTTGCGCATCTCAAAATGGCTGGGAAGGAGGTCATGCTCGATCTAGAGC
ACTTTTTTGACGGGTTAAAGGCTAACGCCCAATACACCATGCAGGTGTGC
AAGGCGGCTGTGGACGCTGGTGTGGATGTGCTTGTGATGTGCGACACTAA
CGGAGGAACGCTTCCATGGGAGGTGGATGAGAGCGTGCAGATCGTTAAGG
CTGCCTACCCGGACGTCCGCCTGGGGATCCATTGCCACAACGACCAGGGT
TTGGCTGTCGCGAACTCTCTTCAGGCCGTCCGGAGCGGTGTTGACGTCGT
TCAGGGCACGGTCAATGGGATCGGAGAACGTACTGGCAATGCCAATCTCG
TGACCATCATCCCCACGTTACAGCTGAAGATGGGGATGCAAGGAGTCGGA
GAGCACCTGACCAACCTCACTGCTCTAAGCAGGTTTACTGCCGAACAGTT
GAACATGGCACTCGACTCCGGGGCCCCGTTCACTGGCATGAGTTCGTTCG
CTCACAAGGGTGGAATACACGTCAGCGCCGTCAACAAGATCCCAGACTCT
TACCAGCACATCGATCCGGCTCACGTCGGGAACACAAGAAGGGTGCTCGT
GTCGGAATTATCTGGCCAGAGCAACATCGTGACTAAAGTGGAGGAGTCGG
GGATGGCGAGCGCGGCAGAGATGAAGGCTTCCAATGTCTGGAGGCAAAGA
CTTGGGCAGGTACTGAAAACGGTCAAGGGCTTGGAGAAGCAGGGATACAC
TTTCGAGGGCGCAGACGCTTCGGTAAATTTGCTTGTTCGGAGAACGATGA
GCGGATACGTGCCTCCTTTCAATTTAATGGACTATCTTGTACAGACATGG
GACAGCGAACCAACAAGTGGGGGGCTGGAGTTCAGGAGTGACCCCACCAC
CGCTCAAGCGACTGTCAAGGTTCGTGTACCATCTGGTGAATCAACCCTGG
CGGTATCTATAGAGGACGAAGATCCAGGGGTTCGTCTCGAGGTGGCGGAG
GGAAACGGCCCGGTGAACGCTCTGGCTAAAGCTCTATTCCGAGCTCTGTT
GCCCACCTTCCCTACCCTCTTGAATGTTGTGCTCAGTGACTATAAGGTTC
GCATCTTAGATCAAGAGAGCGCGACACGGGCGAACACTCGCGTTCTGATC
GAGTTTCATGACAAGGTATCGGATGTGCAATGGTCTACAGTCGGGGTCAA
TACCAACATTATCTCTGCGTCGATGATAGCTCTCCTAGACGGGCTCGAGT
ACGCAGTGGTAGAGTTTGGTCAAAGCTGCTCGATTGAGAAGGGTTCGGAG
GCCGCAGATGACTAA
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