mRNA_P-littoralis_Contig850.18.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig850.18.1
Unique Name	mRNA_P-littoralis_Contig850.18.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: D7G401_ECTSI (RME1, RME-1/EHD family ATPase with a C-terminal EH domain n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G401_ECTSI)

HSP 1 Score: 1032 bits (2668), Expect = 0.000e+0
Identity = 550/587 (93.70%), Postives = 562/587 (95.74%), Query Frame = 1

Query:  106 MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDS---AANPFQPPPQDTNPFGDDTGPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSKASLV 1857
            MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQK+LTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNF KFPKLKVKMLE+LDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGG +R  XXXXXXXXXXXXXXX     XXXXXXXXXX          ANPF+PPPQD+NPFGD+    + WALEV+AAELRGLFEE+EPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPD LPR++VPPSKASL+
Sbjct:    1 MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKQLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFTKFPKLKVKMLEELDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGASRXXXXXXXXXXXXXXXXXGDQRWXXXXXXXXXXGGSPPEPTGVANPFKPPPQDSNPFGDEPSA-SGWALEVEAAELRGLFEEYEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDGLPRNMVPPSKASLM 586

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A835YYV9_9STRA (RME1, RME-1/EHD family ATPase with a C-terminal EH domain n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YYV9_9STRA)

HSP 1 Score: 770 bits (1988), Expect = 1.440e-272
Identity = 435/601 (72.38%), Postives = 479/601 (79.70%), Query Frame = 1

Query:  106 MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYN---APGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDT------------NPFGDDTGP-PTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSKASLVL 1860
            MSMAD+DEAT AV++GLK+LYHTKLKPLE  Y+F  FHSP LTDSEF+SKPQVLM GQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDG+DERV+PGNALTVSPNLPYRGLDRFGV+FLNKFE SQLPSPVLRNITIVDTPGVLSGEKQRV+RGYDFV V  WFAERADLILLLFDAHKLDISDEF+AVIE+L+GQDDKIR ILNKAD VDRQKLMRVYGALMWSMGKII+TPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLR+LPRNSAVRKINELVKRCRLAKVHAYIIG+LRAQMP M+GKEK Q+KL  D+  VFRAVMKQ+NLAPGDFPDLE FRSK  + +F KFPKLK KML+DLDE+LS DIPRLMEMLP +   TRA+ ++ + +      P P +++            XXXXXXXXXXXXXXXXXXXXXXXXX          SAA    P  Q +            NPFG      P  WALE +A      F    P  G L+A  AR PL+++GL  D LRVIWDLSDMD DG LDL E+TVAMHLC   KAG+P+P ALP  +VPP K  LV+
Sbjct:    1 MSMADRDEATKAVIDGLKKLYHTKLKPLESCYLFDHFHSPLLTDSEFDSKPQVLMIGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGADERVIPGNALTVSPNLPYRGLDRFGVAFLNKFEGSQLPSPVLRNITIVDTPGVLSGEKQRVARGYDFVQVNTWFAERADLILLLFDAHKLDISDEFRAVIEKLRGQDDKIRCILNKADAVDRQKLMRVYGALMWSMGKIIKTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRDLPRNSAVRKINELVKRCRLAKVHAYIIGHLRAQMPGMVGKEKAQRKLMQDMGSVFRAVMKQYNLAPGDFPDLETFRSKCEELSFAKFPKLKPKMLQDLDEVLSQDIPRLMEMLPTSDVRTRAEREVASLLH----APGPLQFDDQLPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLAHATSLSALSAARTSVPQWQSSKAASEAQGMGVPNPFGGSVAEEPLPWALEEEAHYNIDKFNSLGPQGGLLAATAARGPLMETGLSTDMLRVIWDLSDMDKDGALDLAEYTVAMHLCAAAKAGDPVPAALPAELVPPDKRHLVM 597

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A4D9CZB1_9STRA (Uncharacterized protein n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9CZB1_9STRA)

HSP 1 Score: 646 bits (1666), Expect = 1.370e-223
Identity = 354/642 (55.14%), Postives = 424/642 (66.04%), Query Frame = 1

Query:  100 SEMSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVA----------------PTR------ADEQIRNFMQESND----------TPTPPKYNAP--------------GGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDTNPFGDDTGPPTA--------WALEVDAAELRGLFEEHEPVA-GKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSKASLVL 1860
            S  S   +D+AT  V++GLK +Y + + PLEQ YM+  F+SP L+DSEF+SKP V++ GQYSTGKTSFIRYL+GRDFPGQRIGPEPTTDRFVAVMDG +ERV+PGNA+ V+ NLP+RGLDRFGVSFLN+FE S  PS VLRNI IVDTPGVL+G KQ V+RGYDF NVC WFAERADLILLLFDAHKLDISDEFK VIE+L+G DDKIR +LNKADQVDRQKLMRVYGALMWSMGK+++TPEVLRVYVGSFWD PLMY +N  LF+MEE+DLM DL++LPRNSA+RKINELVKR RL +VHAYIIGYL+ QMP  MG+EK+Q++L  DL  VFR V+KQH+LAPGDFPDL+ FR+KL D NF KFPK+K KML DL  +L   IP LME LP+T                  P R      A E+       S+D           P+PP Y +P              GG  RGS                                   +  +P  PP  + NPF D+     A        W L     EL+ LF  + P   G LS   A+  LV++G+    LR +W L+DMD DG+LDLEEFTVAM L +  K G+ +P+ LP   VP  K + V+
Sbjct:    2 STQSDQGRDQATRRVIQGLKNIYKSTILPLEQMYMYDAFYSPALSDSEFDSKPMVMLVGQYSTGKTSFIRYLIGRDFPGQRIGPEPTTDRFVAVMDGPEERVIPGNAMAVAGNLPFRGLDRFGVSFLNRFEGSVCPSEVLRNIHIVDTPGVLAGNKQTVARGYDFTNVCGWFAERADLILLLFDAHKLDISDEFKEVIEKLRGHDDKIRCVLNKADQVDRQKLMRVYGALMWSMGKVMKTPEVLRVYVGSFWDHPLMYRENKELFEMEEKDLMKDLKDLPRNSAMRKINELVKRTRLLRVHAYIIGYLKEQMPIFMGREKMQERLLRDLPSVFRNVLKQHHLAPGDFPDLDNFRTKLLDLNFSKFPKIKNKMLADLSHILETQIPALMERLPKTTTALKDEKGNEVTYSMPLPVRDYDETFAGEKWNKTSGASDDYVPPPLADHAAPSPPLYPSPNRQQERPQSALRNSGGGVRGS-----------------------------------TRLDPSPPPTAEANPFDDEEXXGGAEGGKEEGPWVLASKMLELQPLFASYAPSEEGFLSGAAAKKALVETGVDKKVLRELWPLADMDRDGLLDLEEFTVAMQLVEDVKEGKEVPEFLPDAYVPRGKRAYVM 608

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A7S2RKL1_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2RKL1_9STRA)

HSP 1 Score: 614 bits (1583), Expect = 1.000e-211
Identity = 323/580 (55.69%), Postives = 407/580 (70.17%), Query Frame = 1

Query:  109 SMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPP--PQDTNPFGDDT-GPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPP 1839
            +M+++D AT  V++ LK+LY  KL P+E+T+MF  F SP +TDSEF++KPQVL+ GQYSTGKT+FIRYLLG DFP QRIGPEPTTDRFVAV+   +E+V+PGNAL VSP +PYRGL++FG+SFLNKFE S LP+ VL NIT+VDTPG+LSG KQ   RGY F++VCHWFAER DLILLLFDAHKLDISDEF+AVIERLKG +DKIR +LNKADQ+DRQ+LMRVYGALMW MGK+++TPEVLRVY+GSFW++PLMY++ A LF+ EE DLM DLR+LPRNSAVRKINELVKR RLAKV+A+II +L  QMP + GK + Q++L  ++  VFR VMK  +L+PGDFPD+  FR+KL++ +F +FPKL  K L DL+EML+VDIPRLME LPR +        I   + + +       +  PG      XXXX                               +   P  PP  P  +NPF       P  W +    AE   LF+E+ P  GKL A  AR  L+ + +  D L  +W+LSD D DGMLD EEF +A+ LC++ + G+ LP ALP  +VPP
Sbjct:   10 TMSERDMATQQVIDELKQLYKAKLLPVEKTFMFQQFCSPFMTDSEFDAKPQVLLIGQYSTGKTTFIRYLLGSDFPNQRIGPEPTTDRFVAVLYDHEEKVIPGNALAVSPAMPYRGLEKFGMSFLNKFEGSALPNKVLENITLVDTPGILSGRKQSDDRGYQFIDVCHWFAERCDLILLLFDAHKLDISDEFRAVIERLKGHEDKIRCVLNKADQIDRQRLMRVYGALMWGMGKVLKTPEVLRVYIGSFWEQPLMYEEMANLFEREENDLMKDLRDLPRNSAVRKINELVKRARLAKVNAHIISHLSKQMPMLTGKARKQQELLKEMGSVFRKVMKTESLSPGDFPDINEFRAKLSEEDFSRFPKLNKKHLVDLEEMLTVDIPRLMERLPRQLYDRTTALPIEQELAQEH-------HRHPGAAXXXXXXXXVPAPPP-------------------------ADVKPPAPPRKPAASNPFAXXXFAKPAPWPVREKKAEYDELFQEYGPEDGKLDAGKAREALIATEVDQDQLFTVWELSDHDGDGMLDDEEFALALFLCEKVRLGDDLPAALPEDLVPP 557

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A7S3HF70_9STRA (Hypothetical protein n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3HF70_9STRA)

HSP 1 Score: 613 bits (1580), Expect = 1.100e-211
Identity = 329/586 (56.14%), Postives = 404/586 (68.94%), Query Frame = 1

Query:  106 MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANP-FQPPPQDTNPFGDDTGPPTA-----WALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSK 1845
            M+  ++D AT  V+  LKRLY TK+ PLEQ Y F  F+SP LTD+EF+SKPQV++ GQYS GKT+FIRYLLG+DFPGQRIGPEPTTDRF A++DG DERV+PGNAL VS ++PYRGL+RFGV+FLN+FE +QLP+ VL+NIT++DTPGVLSGEKQRV+RGYDF  VC WFA RADLI+LLFDAHKLDISDEF+  I+ LKG DDKIR ILNKADQVDRQKLMRVYGALMWS+GK+I++PEVLRVY+GSFWD+PLMY+DNA LF+MEE+DLM DL++LPRNSAVRKINELVKR RLAKVHAYIIG+L+ QMP MMG  K Q +L   L  VFR+VMK++NLAPGDFPD+  F+  LA+ +F KF  +K K ++D + ++S + PRLME LPR++              +S  T  PP    P G                                       D    P F     D NP+GDD   P A     WAL    ++ +  F+      G ++   A+  L  SGLP   LR IW+L+D+D+DG LDL EF +AM L D  K G  +P AL   +VPP K
Sbjct:    1 MASFEKDAATMRVIAELKRLYKTKILPLEQLYKFDVFNSPHLTDAEFDSKPQVMLLGQYSVGKTTFIRYLLGQDFPGQRIGPEPTTDRFTAIIDGPDERVIPGNALAVSHDMPYRGLERFGVAFLNRFEGAQLPNQVLKNITLIDTPGVLSGEKQRVARGYDFCQVCTWFAGRADLIILLFDAHKLDISDEFRNAIDSLKGNDDKIRCILNKADQVDRQKLMRVYGALMWSLGKVIKSPEVLRVYIGSFWDQPLMYEDNAQLFEMEEKDLMRDLKDLPRNSAVRKINELVKRVRLAKVHAYIIGHLKEQMPVMMGHAKKQAQLIETLPTVFRSVMKKYNLAPGDFPDIAEFQKSLAEFDFSKFQVIKQKYIDDAEHVMSTEFPRLMEALPRSL--------------DSYATGGPP---VPSG---------------------------------HLPIVYDVKPTPAFAVAEDDANPWGDDAADPVAAKVSGWALSEYVSQYKPQFDSIAK-NGLVTGGAAKKVLGASGLPVANLRDIWNLADVDSDGNLDLHEFVIAMFLIDMVKQGHAVPAALDPEMVPPGK 535

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A2D4BWP8_PYTIN (Uncharacterized protein n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4BWP8_PYTIN)

HSP 1 Score: 593 bits (1530), Expect = 1.680e-203
Identity = 308/573 (53.75%), Postives = 397/573 (69.28%), Query Frame = 1

Query:  139 AVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDTNPFGDDT-GPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSKASL 1854
            AV++GLK+LY  KLKPLE+ Y F  FHS  L+D++F++KPQ+LM GQYS GKTSFI YLLGR FPGQRIGPEPTTDRF+AVM G +ER++PGNA+ VSP+LPY GL  FG +FLNKFEA+QLP  +L NIT++DTPG+LSGEKQR++RGYDFV+V  WFAER+D+ILLLFDAHKLDISDEF+ VIE LKG DDKIR ILNKADQ+D+Q+LMRVYGALMWSMGK+++TPEV+RV++GSFWD+PL Y DNAALF+ EE+DL+ +LR LP+N+AVRKINE VKR RLAKVHAY+IG+LR +MPSM+GKE+ QK+L A++A VFR V ++ NL PGDFP+++ F  K +D  F KF  L V+ ++++DE+L+ DIP+LM +LP+ V    A          + D       + P   + GS                                               +NPF D+  G   A   +   A  + L  +     GK +     APL  +G P D L+ +WDL+D+D DG LD++EF VAM+LC + K GE LP  LP  ++PPSKA+L
Sbjct:   57 AVIDGLKKLYANKLKPLEKKYGFDDFHSXLLSDADFDAKPQILMIGQYSVGKTSFIEYLLGRSFPGQRIGPEPTTDRFIAVMYGDEERIIPGNAVAVSPDLPYGGLSMFGTAFLNKFEAAQLPCKLLENITVIDTPGILSGEKQRIARGYDFVHVAKWFAERSDMILLLFDAHKLDISDEFQRVIEVLKGHDDKIRCILNKADQIDQQRLMRVYGALMWSMGKVLKTPEVMRVFIGSFWDQPLQYTDNAALFEAEEKDLLTELRNLPQNAAVRKINEFVKRARLAKVHAYLIGHLRDKMPSMVGKERKQKELIANMADVFREVQRKFNLPPGDFPNIDEFTRKCSDRKFQKFHSLNVRGIQEIDELLAKDIPKLMALLPKRVNSAVA--------ANAGD-------DVPAAWSTGS-----------------------------------------------SNPFADEEFGWEIASVRDQYDALFKTLRHDTN---GKATGATCMAPLQGTGCPKDVLKTVWDLADVDKDGCLDVDEFAVAMYLCGKAKQGESLPTELPPSLLPPSKAAL 564

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: B7GAU1_PHATC (Predicted protein n=1 Tax=Phaeodactylum tricornutum (strain CCAP 1055/1) TaxID=556484 RepID=B7GAU1_PHATC)

HSP 1 Score: 582 bits (1501), Expect = 2.260e-199
Identity = 313/581 (53.87%), Postives = 394/581 (67.81%), Query Frame = 1

Query:  127 EATAAVVEGLKRLYHTKLKPLEQTYMFGWF-HSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPF--QPPPQDTNPFGDDTGPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRT-KAGEPLPDALPRHIVPPSKASLV 1857
            + TA V   LK+LY   + P+E+ Y + +F  SP L+D EF++KPQVL+ GQYS GKTSFIRYLLGRDFPGQRIGPEPTTDRF  +++G +ER +PGNAL+V P+LP+RGL+RFGVSFL++ E SQLPS VL++IT++DTPG+LSGEKQR +RGYDF  V  WFAE+ADLI+LLFDAHKLDISDE K  I+ LKG +DKIR ILNKADQ+DRQ+LMRVYGAL+WS+GK + +PEV RVYVGSFW +PL + DNA LF+MEE+DLM DL  LPR SAVRKINELVKR R  K  AYIIGYL++QMP++MGKEK QKKL ADL  VFR +MK+++LAPGDFP++  F +KL +T F +F  L  K + DLD +L+ DIP+LME LP   +   + + IR+            K  A GG+A+                                      A N F  +    ++NPFG D      WAL+  A  L   FE   P  G LS   AR  LV++GL  D LR IW+LSD+D DG+ D +E+ VAM LCD   + G P+P  LP  ++PP K SL+
Sbjct:   20 DRTAIVAARLKKLYKNSVYPVEKKYRYDYFFESPLLSDVEFDAKPQVLLVGQYSVGKTSFIRYLLGRDFPGQRIGPEPTTDRFTVLLNGPEERTIPGNALSVHPDLPFRGLERFGVSFLSRLEGSQLPSSVLKSITLIDTPGILSGEKQRTNRGYDFTKVVSWFAEKADLIILLFDAHKLDISDELKGAIDVLKGHEDKIRCILNKADQIDRQQLMRVYGALLWSLGKTMTSPEVARVYVGSFWQQPLQHMDNADLFEMEEKDLMKDLAVLPRQSAVRKINELVKRIRKVKTLAYIIGYLKSQMPALMGKEKKQKKLIADLPTVFRTIMKKYDLAPGDFPEIASFSNKLHETKFAEFNTLSEKQIADLDRVLNEDIPKLMEELP---SEKDSPDIIRS------------KMGAAGGIAK---------------------------------VPVPVANNKFGKKETAHESNPFGYDEENEDYWALQDSADRLLPSFEALGPDGGYLSTAKARDVLVKTGLEKDQLRQIWNLSDIDKDGLFDHDEYVVAMFLCDAVLQKGRPIPSELPASVIPPRKRSLL 552

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BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A1E7F526_9STRA (Putative EH-domain-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7F526_9STRA)

HSP 1 Score: 580 bits (1495), Expect = 2.400e-198
Identity = 308/593 (51.94%), Postives = 395/593 (66.61%), Query Frame = 1

Query:   88 STTSSEMSMADQDEATAAVVEG-LKRLYHTKLKPLEQTYMFGWFH-SPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDTNPFGDDTGPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRT-KAGEPLPDALPRHIVPPSKASLV 1857
            S  ++E   AD+     +++ G LK +Y   + P+E+ + + +F+ SP ++D+EF++KPQV++ GQYS GKTSFIRYLLGRDFPGQRIGPEPTTDRF  +++G +ERV+PGNAL+V P+LP+RGL+RFGVSFL++FE SQ+PS VLR++T+VDTPG+LSGEKQR +RGYDF  V  WFAERADLIL+LFDAHKLDISDE K  I+ LKG +DK+R +LNKADQ+DRQ+LMRVYGAL+WS+GK + +PEV RVYVGSFW EPL   DN  LF+ EE+DLM DL  LPR SAVRKINELVKR R  K  AYII +L+AQMP++MGKEK Q KL ADL  VFR+++K+H LAPGDFPD+  F +KL D  F +F  L  K ++ LD++L+ DIP LME LP                    D+P   +    GG +RG                                      +NPF P  +D + +         WAL+  A  LRG FE   P  G L    AR+ LV++GL  D LR IW+LSD+D DG+ DL+E+ VAM LCD   + G P+P  LP  ++PPSK  LV
Sbjct:   16 SAAAAEGGGADETADRTSIITGRLKTIYRKSVLPVEKRFKYDYFYESPFMSDAEFDAKPQVMLIGQYSVGKTSFIRYLLGRDFPGQRIGPEPTTDRFTVLINGPEERVIPGNALSVHPDLPFRGLERFGVSFLSRFEGSQMPSSVLRSVTLVDTPGILSGEKQRTNRGYDFNKVTGWFAERADLILVLFDAHKLDISDELKGAIDSLKGNEDKVRCVLNKADQIDRQQLMRVYGALLWSLGKTMTSPEVARVYVGSFWQEPLKSLDNVDLFEKEEQDLMKDLAVLPRQSAVRKINELVKRIRKVKTLAYIIAHLKAQMPTLMGKEKKQNKLIADLPNVFRSILKKHGLAPGDFPDITSFSTKLRDVKFAEFHTLSQKQIDGLDDILNKDIPALMEELP-----------------SERDSPETLRAKMGGGASRGVPNIPVPKTAAKYGKQEQFK------------------SNPFGPDSEDKDNY---------WALQDSADRLRGSFEALGPEGGFLPTAKARSVLVKTGLEKDNLRQIWNLSDIDKDGLFDLDEYVVAMFLCDAVIQKGRPIPAELPASVIPPSKRHLV 564

[Close]

BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: A0A024G737_9STRA (Uncharacterized protein n=1 Tax=Albugo candida TaxID=65357 RepID=A0A024G737_9STRA)

HSP 1 Score: 577 bits (1487), Expect = 2.090e-197
Identity = 299/570 (52.46%), Postives = 377/570 (66.14%), Query Frame = 1

Query:  142 VVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDTNPFGDDTGPPTAWALEVDAAELRGLFE--EHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRTKAGEPLPDALPRHIVPPSK 1845
            VV+GLK+LY  KL+PLE+ Y F  FHSP L+D++F++KPQVLM GQYS GKTSFI YLLGR FPGQRIGPEPTTDRFVAVM G +ER +PGNA+ VSP+LPY GL  FG +FLNKFEA+QLPS VL NIT++DTPG+LSGEKQR+ RGYDFV V  WFAER+DLILLLFDAHKLDISDEF+ VIE LKG DDKIR +LNKADQ+DRQ+LMRVYGALMWSMGK+++TPEVLRV++GSFWD+P+++ DNA LF+ EE DL+ +LR LP+N+A+RKINE VKR RLAKVH ++IG LR +MP+M+GKEK QK L  +L + FR V ++++L PGDFP L+ F+ KL D  F KF  L VK ++++DE+LS DIP+LM  LP+                                                                       D  A   QP    TNPF       + W +         +F+  + +    + S     APL  +G P   L+ IW+L+DMD DG LD +EF VAM+LC++ K G+ +P  L   ++PPSK
Sbjct:   44 VVDGLKKLYAQKLRPLEKKYEFDEFHSPLLSDADFDAKPQVLMIGQYSVGKTSFIEYLLGRSFPGQRIGPEPTTDRFVAVMYGDEERTIPGNAVAVSPDLPYGGLSMFGTAFLNKFEAAQLPSKVLENITVIDTPGILSGEKQRIQRGYDFVQVARWFAERSDLILLLFDAHKLDISDEFQRVIEVLKGHDDKIRCVLNKADQIDRQRLMRVYGALMWSMGKVLKTPEVLRVFIGSFWDQPMVFTDNAELFEAEENDLLTELRNLPQNAAIRKINEFVKRARLAKVHCFLIGVLRDKMPAMIGKEKKQKALIENLGETFREVQRRYHLPPGDFPQLDEFQKKLVDHKFQKFATLNVKGIQEIDELLSKDIPKLMAALPKK---------------------------------------------------------------------DDGKAIDGQPSFSTTNPFA---SAESIWDIAPFKEGFDAVFQALQRDSQTNRASGSICMAPLQATGCPQQALKTIWELADMDKDGFLDQDEFAVAMYLCNKAKDGDAMPTELSVSMIPPSK 541

[Close]

BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Match: B8CBW3_THAPS (Receptor mediated endocytosis protein-like protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CBW3_THAPS)

HSP 1 Score: 576 bits (1485), Expect = 4.980e-197
Identity = 315/587 (53.66%), Postives = 386/587 (65.76%), Query Frame = 1

Query:  109 SMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFH-SPPLTDSEFESKPQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERVVPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVLSGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLKGQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFWDEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHAYIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEPFRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPR---TVAPTRADEQIRNFMQESNDTPTPPKYNAPGGVARGSXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDSAANPFQPPPQDTNPFGDDTGPPTAWALEVDAAELRGLFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEEFTVAMHLCDRT-KAGEPLPDALPRHIVPPSKASL 1854
            S  D    T+ V   LK +Y   + P E+ Y + +F+ SP LTD EF++KPQV++ GQYS GKTSFIRY+LGRDFPG RIGPEPTTDRF  +++G +ER +PGNAL+V P+LP+RGL+RFGVSFL++FE SQLPS VLR++T+VDTPG+LSGEKQRV+RGYDF  V  WFAERADLILLLFDAHKLDISDE K+ I+ LKG +DKIR ILNKADQ++RQ+LMRVYGAL+WS+GK I +PEVLRVYVGSFW EPL   DNA LF+ EE DLM DL  LPR SAVRKINELVKR R  K  AYIIGYL+AQMP++MGKEK Q KL  D+  VFR +MK+HNLAPGDFPD+  F  KL DT F +F  LKV+ ++ L++ L+  +PRLME LP    T    RA          S + P P + +  G    G                                     A+NPF    +D + +         WALE  A  L+  FE   PV G LS   A+  LV++GL  + LR IW LSD+D DG  D  E+ VAM LCD   + G P+P  LP  ++PPSK  L
Sbjct:    4 STDDAASKTSRVSAQLKSIYKDNILPAEKRYRYDFFYESPFLTDVEFDAKPQVMLVGQYSVGKTSFIRYMLGRDFPGARIGPEPTTDRFTCLINGPEERTIPGNALSVHPDLPFRGLERFGVSFLSRFEGSQLPSSVLRSVTLVDTPGILSGEKQRVNRGYDFTKVVAWFAERADLILLLFDAHKLDISDELKSTIDVLKGHEDKIRCILNKADQINRQQLMRVYGALLWSLGKTINSPEVLRVYVGSFWSEPLQNLDNAELFEQEESDLMRDLAILPRQSAVRKINELVKRIRKVKTLAYIIGYLKAQMPTVMGKEKKQSKLITDMPNVFRTIMKKHNLAPGDFPDINKFSEKLKDTKFSEFASLKVEQIQLLEDCLTGHLPRLMEELPSERDTPETLRAKLTDSGMGSSSVNIPLPTRASKFGKSDAG-------------------------------------ASNPFGFSEEDEDNY---------WALEESAERLKNSFEALGPVGGFLSPQTAKEVLVKTGLQKEQLRQIWQLSDIDRDGYFDHHEYVVAMFLCDAVIQKGRPIPAELPASVIPPSKRPL 544

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig850.18.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7G401_ECTSI	0.000e+0	93.70	RME1, RME-1/EHD family ATPase with a C-terminal EH...	[more]
A0A835YYV9_9STRA	1.440e-272	72.38	RME1, RME-1/EHD family ATPase with a C-terminal EH...	[more]
A0A4D9CZB1_9STRA	1.370e-223	55.14	Uncharacterized protein n=1 Tax=Nannochloropsis sa...	[more]
A0A7S2RKL1_9STRA	1.000e-211	55.69	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A7S3HF70_9STRA	1.100e-211	56.14	Hypothetical protein n=1 Tax=Spumella elongata Tax...	[more]
A0A2D4BWP8_PYTIN	1.680e-203	53.75	Uncharacterized protein n=1 Tax=Pythium insidiosum...	[more]
B7GAU1_PHATC	2.260e-199	53.87	Predicted protein n=1 Tax=Phaeodactylum tricornutu...	[more]
A0A1E7F526_9STRA	2.400e-198	51.94	Putative EH-domain-containing protein n=1 Tax=Frag...	[more]
A0A024G737_9STRA	2.090e-197	52.46	Uncharacterized protein n=1 Tax=Albugo candida Tax...	[more]
B8CBW3_THAPS	4.980e-197	53.66	Receptor mediated endocytosis protein-like protein...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig850	contig	P-littoralis_Contig850:59915..73062 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D7G401
PFAMs	Dynamin_N,EF-hand_4,EHD_N
Model size	2092
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K12483
KEGG Pathway	ko04144,map04144
Hectar predicted targeting category	other localisation
Exons	12
Evalue	0.0
EggNOG OGs	KOG1954@1\|root,KOG1954@2759\|Eukaryota
Ec32 ortholog description	RME1, RME-1/EHD family ATPase with a C-terminal EH domain
Ec32 ortholog	Ec-19_000630.1
Description	endocytic recycling
Cds size	1758
COG category	S
BRITE	ko00000,ko00001,ko04131,ko04147

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680791720.8974226-UTR-P-littoralis_Contig850:59914..60019	1680791720.8974226-UTR-P-littoralis_Contig850:59914..60019	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig850 59915..60019 +
1680791721.0529027-UTR-P-littoralis_Contig850:72833..73062	1680791721.0529027-UTR-P-littoralis_Contig850:72833..73062	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig850 72834..73062 +

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


Feature Name	Unique Name	Species	Type	Position
1680791720.9117038-CDS-P-littoralis_Contig850:60019..60214	1680791720.9117038-CDS-P-littoralis_Contig850:60019..60214	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 60020..60214 +
1680791720.9251807-CDS-P-littoralis_Contig850:61538..61785	1680791720.9251807-CDS-P-littoralis_Contig850:61538..61785	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 61539..61785 +
1680791720.935697-CDS-P-littoralis_Contig850:63096..63299	1680791720.935697-CDS-P-littoralis_Contig850:63096..63299	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 63097..63299 +
1680791720.945901-CDS-P-littoralis_Contig850:63940..64015	1680791720.945901-CDS-P-littoralis_Contig850:63940..64015	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 63941..64015 +
1680791720.9615648-CDS-P-littoralis_Contig850:65669..65840	1680791720.9615648-CDS-P-littoralis_Contig850:65669..65840	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 65670..65840 +
1680791720.9752178-CDS-P-littoralis_Contig850:66323..66408	1680791720.9752178-CDS-P-littoralis_Contig850:66323..66408	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 66324..66408 +
1680791720.987171-CDS-P-littoralis_Contig850:67556..67708	1680791720.987171-CDS-P-littoralis_Contig850:67556..67708	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 67557..67708 +
1680791720.9977252-CDS-P-littoralis_Contig850:68281..68356	1680791720.9977252-CDS-P-littoralis_Contig850:68281..68356	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 68282..68356 +
1680791721.0081577-CDS-P-littoralis_Contig850:68795..68912	1680791721.0081577-CDS-P-littoralis_Contig850:68795..68912	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 68796..68912 +
1680791721.0196342-CDS-P-littoralis_Contig850:70332..70422	1680791721.0196342-CDS-P-littoralis_Contig850:70332..70422	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 70333..70422 +
1680791721.030536-CDS-P-littoralis_Contig850:71414..71599	1680791721.030536-CDS-P-littoralis_Contig850:71414..71599	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 71415..71599 +
1680791721.0413878-CDS-P-littoralis_Contig850:72670..72833	1680791721.0413878-CDS-P-littoralis_Contig850:72670..72833	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig850 72671..72833 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig850.18.1	prot_P-littoralis_Contig850.18.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig850 60020..72833 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig850:59915..73062+
coding sequence from alignment at P-littoralis_Contig850:59915..73062+

protein sequence of mRNA_P-littoralis_Contig850.18.1

>prot_P-littoralis_Contig850.18.1 ID=prot_P-littoralis_Contig850.18.1|Name=mRNA_P-littoralis_Contig850.18.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=586bp
MSMADQDEATAAVVEGLKRLYHTKLKPLEQTYMFGWFHSPPLTDSEFESK
PQVLMCGQYSTGKTSFIRYLLGRDFPGQRIGPEPTTDRFVAVMDGSDERV
VPGNALTVSPNLPYRGLDRFGVSFLNKFEASQLPSPVLRNITIVDTPGVL
SGEKQRVSRGYDFVNVCHWFAERADLILLLFDAHKLDISDEFKAVIERLK
GQDDKIRVILNKADQVDRQKLMRVYGALMWSMGKIIRTPEVLRVYVGSFW
DEPLMYDDNAALFDMEERDLMNDLRELPRNSAVRKINELVKRCRLAKVHA
YIIGYLRAQMPSMMGKEKVQKKLTADLAQVFRAVMKQHNLAPGDFPDLEP
FRSKLADTNFIKFPKLKVKMLEDLDEMLSVDIPRLMEMLPRTVAPTRADE
QIRNFMQESNDTPTPPKYNAPGGVARGSSGGGGGGGYYEQGGDHQWAASG
GGRNYGGSPPASDSAANPFQPPPQDTNPFGDDTGPPTAWALEVDAAELRG
LFEEHEPVAGKLSAVNARAPLVQSGLPNDTLRVIWDLSDMDNDGMLDLEE
FTVAMHLCDRTKAGEPLPDALPRHIVPPSKASLVL*

mRNA from alignment at P-littoralis_Contig850:59915..73062+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig850.18.1 ID=mRNA_P-littoralis_Contig850.18.1|Name=mRNA_P-littoralis_Contig850.18.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=13148bp|location=Sequence derived from alignment at P-littoralis_Contig850:59915..73062+ (Pylaiella littoralis U1_48)
CGAAAACACTGAGGTGGTTCGACAAGCGCGCGGGCTCCTTTTGACGCCCT
CCATTCACGACTTCTCCGTTCTACGCCACTTCTCCGTTCTACGACATCAT
CGGAGATGTCGATGGCCGATCAAGACGAAGCCACGGCGGCAGTCGTGGAG
GGCCTGAAGCGCCTGTACCACACCAAGCTCAAGCCCCTGGAGCAGACGTA
CATGTTCGGGTGGTTCCACTCTCCCCCATTGACGGACAGTGAGTTCGAGA
GCAAGCCGCAGGTGCTCATGTGCGGCCAGTACTCCACGGGGAAGACTTCG
GTGAGTAGGCGCGGGGAGCTAGGCGTCCTTTGTATGTGTGCGTTGCTGTT
GCTGTTGCTGTTGCCGTCGTCGTCGTCATCGTTGCTGTTGTCATTTCTGT
TATTGTTTGTGTTTCACACCCGAAATATATCTGAAAATGTCGCCCATGGA
AAGTCTTCATGTATGACCCCTACCCTACTACGTCGTTTTCCGGGCCGGCC
CAACCCTGAAGGGGCGGCTTTCCGTGTTGGTGTCACGGTGTGTTTGTGCG
TGTGTCTGGTATATTTTTCGTTGTAGTGTGGGTGTCGTGTCGTGTCGTGT
CGTGTCGTGTCTGTCTTGCGGATTGTACAAAAGCGCAGCCTTACCCAACC
GCCAAGGTCAAGGGGTGCCACCGCTCCTTGTCGTCGGCGTGTTACTTTTT
TCGCAATCCAATGAAAAAAGTGACTTGAGGTACTTGTAGAAGGATCGCCT
CCGACCGAGTCCACCCCCGTCCTTGCGCTCGGCTCGGCCGCGCCTTACAA
AGAAGCAAACACCGCCAGGCGTTAGCATTTGGGGTCATGGCGTCCGGGTT
GCTGCGCATGCAGGATCGGTCCCGCTTGAGTCCACCCCCGTTGTTCTGCC
CGTGTTGCCCGTCGAAAGAAGTAGGCACCGCTCAGCTCGGCTCTTAGTTG
GGTTCGTTAGGCCTTGCGTTGTTGCGCTTCCAAAAGAAACGCACGCAAAG
ACTTTTTATCGCACGTCGTGTAGCTTGAGCTTTGGATCGACTCAACACAG
CCTTTGGATCGAACCGATGACCCATGAATGTATAACAAGAACTTTTTCGT
CGTGCCCTTGAAGAGGAAACAAAAATGACACATCGACCACACGTACACAG
CGTTGTTATCAAAAATGAAAAAAATGGCACACCGACAGCGTATTCAGTCC
GCGTGCTCGCTCTTGACACCATTGTTATCTTACTGTTACCTCCTCCTCCT
CCTTTCGTCCTTCCTCCTCCTCCCTCCCTCTCATTCCTCCTTCCTCCTCT
CCCCCCTTACCCCCCGCATCCGTGCTCCTTCCCCCGCTCCCGCTCCCGCT
CCCGCCACCCACCGAACGACCGAACGAACAGTTCATCCGATGTTTGCTCG
GGCGCGATTTCCCCTTGTTCGCCCTTTAATAAAAAAAAAAAATTCACGCC
GACAGCGTATGCTGTGATGTGCAGCGCACAAGTGTTCTATTCTTGCTCTT
GGCATCATCCTTCTCTTACTTGTACCTCCTCTTCCTCCCTCTCATTCCTC
GTTCCTCCTCTCCCCCCTTACCCCCCCTCGCCCGTGCTCCTGTCCGCCCT
CGCATCCACCGACCGCACGAGCAGTTCATCCGATATTTGCTCGGGCGGGA
TTTTCCAGGGCAGCGGATCGGCCCGGAACCAACGACAGACCGCTTCGTGG
CGGTGATGGACGGGTCAGACGAGCGGGTCGTTCCCGGCAACGCCCTGACG
GTCTCGCCCAACCTCCCGTACCGCGGGCTGGACAGGTTCGGGGTGTCTTT
CTTGAACAAGTTCGAGGCCAGCCAGCTGCCCTCGCCCGTGCTGAGGAACA
TCACCATCGTGGACACTCCCGGTGATGTTGTTGTTGTTGTTGTTGATTCT
CATATTAGCTCACCACCAAAGCCTAGCCCGTGGGGACAAACCAGACACAC
ATGTAAAAAACAAATTAAAAACAAAGGAAATAAACGATGGCCGCCCAAAT
AAACCCAGAGATGGTACTTTCGGGGTACCTCCTATGGTGGCCAAAGTATA
AAGTACAGAAATACAGGCTCGGCAAACAAAAATTGGGAACAAACTACACC
AAGACAAACCATAGAAAAACGAGCCAGAGGACATAACCAAGACGAACGAA
GCAAATACCATGTGTGTCTATGTCTGTGCGTCTTTTGTGTGAACAAGCCC
AGTAGTATGTGTCTCGTGTTTGCGAAAGTAGGGGCCACCACGGAAGTCGC
ATGTCTCCTTCTGGACCAGCGGCACCAAAGGGTTGGAGTGTGCCGGATGG
ATATTCACGGTTTGCGAAGACAGCAGCAACGAAAGCTTTGTCCTACCCTA
CGGCATGATGCATGGCTGTTTTGTTTTTGCACAACATCGTGCGAGTTGGT
TGAACAGGTCTTGTCGGCTAGCTCGAGGTGCTTGATGGGGTGAGTCGTGG
TCGTGCTATCGGCTTGTTTCTCGCGAACGTTTTAGGACGAGCGGCTACGA
TAGCTGCCGATCTCGCCCGCCCCGAATGACGTCACCGTCGTGTGCGTGTA
CCGGTACATGCGTTGTGTGGGATGAGGGATGCTGTTGTCGACAACAACGG
CGGGATCTTTGGTGGTGGTGATTTGGTGGTTGTGGCGGTAGGAGACCTGC
GGGAGTATCCCGTGATCACGACACCGAAAGAGCAGTTATGATGCTACAGC
AGTATTCGGCACTCGTTTTCGTTGTCTAGACTCAAGTCGTTTTTTTATTC
TTGCTCACAAACTCAAAAGCAATGTGCTCAAATCTATTATACAAAACCTG
GTACAGTACGGTATCAAAAACAAGGGGTGCTGTTGTCGACAACGACGGTG
AAAGTCCATGATGCTATAGTACGTGGTGATTTGGGGATTGTGGTGGCAGG
AGACCTGCGGGAGAGATGATCCCGCGATTACGATACCGAAGAGCAGTTAT
GACACTACGGCAGTATACAGCCGTAGTCTTTTGTTCCCTTCGTCGACGCC
ATGTGAAAAGAGGGAATCCGTCCTCGACAGACGTTGTGGGAATGTACCCC
TTCTGAAGGGTTCCTGTTCCAGGTCAGGCCTTCTTTTTTTTTTTCTCAAA
AAATAATTTTCTCAACCTTCAAACCTGGTTATCACATATACGTCCGTGCC
GAAAACAATATTCTTAACAAAAAAAAAAAAAGGTGTGCTTTCCGGAGAAA
AGCAGCGGGTTTCTCGCGGGTACGACTTCGTGAACGTGTGCCACTGGTTC
GCGGAGAGGGCGGACCTGATCCTGCTCCTCTTCGACGCGCACAAGCTGGA
CATCAGCGACGAGTTCAAGGCGGTGATCGAAAGGCTTAAGGGTCAGGACG
ACAAGATCAGAGTCATCCTCAACAAGGCCGATCAGGTCTGGTCTGTCATA
CATACGGGAATGGTACTTTTCGTCCTTTTTTTTTTTCCTCGTCTGGTGTG
TGTTTTTTTTAATTATTCCAGTTGATGGACGTCTGGCTTTGAAGACGAGT
CGATGTACGTCTGGTCTTTGAAACGAGTTGAAGCCTAGCGTAGCCCTACT
AAAGAGTGCCTTCTTACGTGTACGTATCGCCATTTTTTCACGAAAGTACA
GACAGGGGGTTCACTATCTTTTCATCGTCGTCGCGAGGTATCACGTCGAA
GGGGCATCGCCGAAGAATAAATACGTAATTGTTGCAACGTTGTGCGGCGT
AGTGGCGTGGTGTGACGTGATGCAGCGCGATGATGTCGGGCGGTGTCGCG
TCGCTTTGTCTTGGGCTGCGGTGTGATGTCCTGACACTTTTTTGTTTTGC
CCTGTGATCTTCATGTTTAGTGTGGTGTAGTGTGGTGTGGTGTGCGGTGG
CACGACGTGGTATGATGTAACGTTTTGATGGGATTTAATGTCGATGAATT
GTGTTTTTATTTTTTTACGATACGATGTACGATCTACGATCTGGCGTTTG
TGTTTGATGTGGGTTCATCCATCCGATGTCATGTTTAGATGTGTCATCTT
GCGTGTCGTTTGTTGCCCCCCGATAGGTGGATCGGCAAAAGCTGATGAGG
GTGTACGGCGCGTTGATGTGGTCGATGGGCAAGATCATCCGCACACCTGA
GGTGGGAACGAGATCGTTGATGAAAGACATCAGAAAACCTTCATGACTAT
TGAAAAAGTTGAACTTCTGATGGAAAAACAAGAAAAGGCTCTCAATCAAC
AAAAATAATAAAAACTTCGGACGAAAAAGACAAACATAATACGTTCACCG
GTTCGTTGGTTCATGGATGGTCTCATTTGACAGCTGCTGTCTCTCTTTCA
TTGACATGGCTTGCTTGGTGTTGTCACCCGCACACCGGAGGTGGGCACAA
CAAACGCAAGATGAAAAAACACACGAGTAAAAAAGAATTCACAAAAAAAA
AACATGAAAGCTTCTGATGACCAAAAGTCAGAAAAGGTTCGTTGCCTCAA
ACATAGTCTAAGTCAACAGCTGCGGTCGCTCTTTCGTTGACGTTGTCTTG
GTCCTAGTGTAGACCGTCTCTTTGTCCTATATGTAGGCTGTTCTGTCAGG
AGCCGCAGATAGCATCAAGCTCGCGTAGATACTGCTGTAGCTTATTCGCG
CCGACCATAGTAGATGGTGTCGTCAAATCGTCATGAGTGGAGTCTTTTTC
GCGACCGCCACACATATCATAGGTGGCGCCGTTCAGTTGGGGTCGATCGT
GACGTCGTGCCATCGTGAATGTCGTCTCGGTGCCATCATAGATGCTTCCG
CAAAGCTACCACACCAACCCCACAGGTTGAAACGATGTGTACCAACGCCA
CCACAGAGAGCAGATGCTATGATGGCGCAACTGCAGTTGCCACGTGCGGA
GGCGTGTGTGGGGGGGGGTTGGAAAACGGGTTAAATGCGCATCGAAATGT
CGTCGTGTTTGTATTATGCTTCGAGTATCATTTTATATATAGGTCTGTAC
CAGTAGTACTTTTTTGTTTTATGCCTTCTCGGAAATGACTACCGCTGTCG
CGGCTTTTCAGAATGAGAGCCACGTCTCAAAAAGATATTGCACGCATCAC
AGCTCATTATTTTCGTTTTTTTGTTTGTTACAGAAGCGACCCTGACCAGC
GTTGGGTCGGGTCGCTGTCGGGATGAGACAGCACCACGACACGGCGTAGA
ATGAATTGTACTTTATTTTATGTTTCCTCACGAGTGGAATCGCTTTCCAC
TATATATAACGTTGAAAGTGTGGGGATCGAAAAACGCTCGGCGGTTGACG
TATCGAAATCCCGTCGTGGCTGTTTCATACGAAGTACATATGATCTGATA
CGTCTGCAACACTTTTTTTTTAATGCTGTTTTGTGCTTTCTCGGAAATGA
CTACTAATGCTGTCGCGGCTTCGGAATGAGAGCCACCTCTGAAAGGATTT
CACACAACATGTATCGCATCGCAGCTCATCGTTTTGGTTGTTTTCGTACG
TTGTTACAGAACGACCATGATCAGCGCTGGGTCGGGTCGCTTTCGGGATG
AGAATTCTTGTAGTTTTATGTTTGTTTTTTATGGTTTTCCCACGCGTTGT
TTTCGTTTCCTGCAAAAGTGACGTCGTATGATAAACGCTTTTTTTCCTGT
CTTTGTGTGGCATGCATTGGTCGGGTATGTTTGTTATATTTACCTTTCAA
GGCGAATATTGTACGAAAATGAGAAGAAACAACAACAAAAAGCATGAGAA
ACAACAATAGGATAGCAGTAACTTAATTGTACCAAATGGACGAGTGCCGC
AACAGGTGCTCCGGGTATACGTGGGGTCGTTCTGGGACGAGCCTTTGATG
TACGACGACAACGCCGCGTTGTTCGACATGGAGGAGAGAGATCTCATGAA
CGATCTCAGAGAGCTGCCGAGAAACTCGGCCGTGAGGAAGATCAACGAGC
TCGTCAAGCGTTGCCGACTCGCTAAGGTATGTTGTAAGAGGCTGAAACTA
GAAAAAACCACCCGGTACAGCAGCAGTCGTTTGGTTTGTTTTCCGTCCGT
GCTGGTTGGGTGAGATTGTCGCGTTTTTTTTTTCATTTTTTTTTTTACGT
GATCTTTCTGTGTACAAGGAGTGCCGATTAGTCGGGCGGGATGTGTGCGC
CGTTTGACTTAACTTCGTATGTCATTCTTCTCGTATTTTAGTTTGAACTA
TCTTGGAAAGGCATATTTTTATTTTGCTGGAAATCCTGATGTATAGTCGA
TGGTGCTAGTCGGCACCATCAGAGGGTTGGCGAGCTGGTCTGCGTGCTGT
GCTGTGCTGTGCTGTGCTGTGCTGTGCTGTGCTGTGTGCTGTGCTGTGCC
GTGCTTTGTTTTGTTTTGTTGTGTTGGGTCGTGGTGTGTCTTGCCTGTCG
GCGTTCCTTACGTAACACGGCGTGTGTGCGCGGGTGTTGTGTTTTTGATG
TGCGCCTAGGTCCACGCGTACATCATCGGCTATCTCCGAGCACAGATGCC
GTCCATGATGGGCAAAGAAAAGGTCCAGAAAAAGCTCACCGCCGGTAAGG
GAAAATGGACAGCCATGGCGACAGCAGTCGACGATATATCCCTGTTAGAC
GTATCGCATGTTTCGCATATTTCGCATGTGTCCTTGTGTCTGTGTATTGC
CTCCCACAGGTCCAAAAAAGCTCACCGCCCGTAAGAGAGTGCGTATCGTA
TGTATGGCGACAGCAATCGACAACGTACAGACCGTTCGACGTGTCAGATG
TTTTGTAAGTTTCCTCGTGTGTATTGCCTCCCAAAAGGTCCAAGCTCACC
GCGGTGAGAGAACAGGTATGAATGGCGACAGCAATCGACAATGTTTCCCC
GCCAAGACGTACTTCGTATAAAGTTATTCGTATGTGTCCTGGTGTGTGTT
GCATCCCATGGATTCCGGGCGCGAGTCATTCACCTTTCGGTATGTGTGGT
ATGTGTGCGTTGCCCAGGGTTGCTAGTCACAACACAGCGGTCTTGTTTTT
CTCTGTTCTCCGCCTCATCCCTCTGCGCAACACAGCAGTGCTTGCTCTTT
TTTTTTTATTATCGCGAGAAGGGTTTGGCCTTTTTTTTTTTTTCATCCAT
GTCCGGCGTGGAGCCCAATTCAATTCAGTTACAGTTACTCGCGAAACGAT
CGAGCTCCACCCCCCATAGAAAACGATACTCTTTGTTGTATACTTCGAAG
TATCATGTAAGAAAACTGGAAAAAATATCTGTTGGCCGGGGCTCGAGCAT
ACGACGAAGGTTTCCTTTGGCATCCTTCGAACCGCAAGCCGTGTAACTCA
CTGGACCACCGAGGCGATCAGTCTGTTCACTCACGAAATAAAATTTATTC
ACTGCTACATACTTCGAGTTACGTACAGACACATGATTGTTTTTATGGTG
GGGTTCGGTGCGATGGGAGAACAAAAAACAAATAAAAAAAAGTCGGAAGT
TTCTGTTTTTTCATTTTAAGGCGGGTTGCTGGGTGTTGTCGTGCGATGCC
ACAGGCAAGGCATGCTCAGAAGATATGCGAAGTGCCCAGGCACTCTCTAA
TTTCGTCCGAGAACCAGCAGTCGTGAATGTCCGTCTCTTTGATTGCGAAA
CATTTTTTTTTTTTTCCCTATTGCGCCTCCCGTGCTTCTCCTTCCCTCCT
CCTTTGACATTTGTGTCCATTATTTTTTTGTTTCGATATCAGATTTGGCG
CAGGTGTTTCGTGCCGTTATGAAGCAGCACAACCTTGCCCCGGGGGACTT
CCCGGACCTAGAGCCGTTCCGATCGAAGCTGGCGGACACGAACTTTATCA
AGTTCCCGAAGCTCAAGGTTAAGATGCTGGAGGACCTCGACGAGGTATAT
GCCGAGCCGGTCTAGTGTTGTGTCGTGTTGTGCCGGTAAATTCGATTCGT
CTGACCGCACGTCGGTGCAGTGCTGTGCGCGACGGGTCCCAACCGTTTAA
TCCACGCGGAGAGGTGTGCACAGCAAACCGTATGGTTTACCGTGTGGTGT
ATTTTGGAAGCACGAAGAAGGGCCACGCAGGGCATGATGACCCGAACGTG
CGCGAACCCCCTCTTCTCATTCTCCATCGCACACATGCGTCCATACCTAC
AGAAACCCCCCAAATCCCCGTGAGTTACTAGGCAGACTGCCCAGTACCCT
GTTGGCTAACATCAATCCTAGCCGGCAGCACCGGCAGCACTTGACGTGCA
CTCCGTTGTATTGTTTGTTTGTGGTGCTGTTGTTTGTTTGTGCCGTTTCC
ATGCCCTCTGCTGTGCTCGCCCTCTCTCAATTCTCGATTGTTGTGCTTGC
TTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTTGCTT
ACTTGCTTGCTTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGCCTGC
CTGTCTTGCACCCTCAGATGCTGTCGGTGGACATCCCAAGACTCATGGAG
ATGCTGCCGAGAACAGTCGCGCCCACACGCGCGGACGAGCAGGTCGGTCC
ACGGGCGAAGCATGAAAACTGCATCATGGGACTGCTGTATCCACTGCGGC
AAGCGGGTTCATACGAACACATTCGGCAAGCGAGAGCCAGCGGCACACCT
CTGTCTCTGCCTGTCTCTGCCTCTGTCTCTGCCCCGTTCTTCCGCTTGCT
CTCTCCTTCTCTGCCTCCCCTTTCCTCCCTTTACCCCCCCCCCCCCCCCC
CCCCCCCCCCCCCCCTCTCTCTCTCTCTCTCTCCCTTTATCTCTGCCTCC
CCCCTTCTGTCTCCGATGCATTACTCCTCATCTCTTTTGTTTCTGTCCCT
CCTCCCCTTCTTGTTTGTACACGTCCGCCCCTTTCCGTCTTTCTCCCCCT
CCTGGACCGCCGCCGCCGCCGCCGCCCACACCTGCCGAACCACACGCCGG
CGCGTTTTTTTTTTTTTGGGGGCGGTTGCAGATCAGGAATTTCATGCAGG
AGAGCAACGACACCCCCACTCCCCCGAAATATAACGCTCCCGGCGGAGTG
GCGAGGGGGAGCAGTGGGGGGGGCGGAGGTGGGGGCTACTACGAGCAGGT
GAGGGAAGGAGAAAGGACGCCCCAAAACCGAACAACGGGTAGGATGCCGT
CGCGCTCGGTTTTTCTGGAGGGGGTTTTGACACGCGTCGATCTGCTTGCT
TGCTTTCTTACTTTCCGCGAAAGTGGATTCGACACACTTCCCAATGTACC
TTGCTTTTGCTTCGAAATGAGGCGGTTTTGGTAGAGATCTACAGCAGTAT
CTGCTTTCGTGACGGGCGTTTTGGCACTTGTTTGTCCGTGTGCGGGAGAT
GGGTCATACCTAGTAATTGTTTGTTCGTGTGCGGGTGCGTTCTAGCGATT
ACGTGCGCGGGGATGGGTTGCAGCAGTCGTTTGTCCATGTGCAGGGGGTG
GGTTCTCTCTACTGCCTGTAGTGTTTGTTTGGAAGGGGTGGTGAATGATG
AAGACGGGCGAGAAGTGAGGATTTCCGCAGAGGCGTACCTCGAAGCTTTA
GCGGGATGGGGTGCCGACGCCGACGCCGAGCCGAGCCGGGCCGGGGGCAG
ATCCGATCCGATCCGATCGATGTCTCTCACAATACAACGCGATGCGGCAG
TAAATAACTACGACGTTCTTTCGTAGTGGTTCGTGGTACTTCGTAAAAAC
GTCAACTTCCATTCCAGATTCAGAGAAAAAATATATATACATACACTTCC
TCTGTATCATAAGTCTGGGCTGTTATGGGCGTGTTATTGTTTGCGCATCC
ATACTATTTCGATCATCCTATAGTTAGGTTCGTTCGAAAGATGAAGTCTC
AAAGAAGCTGATGCAAAAAACAAAACAAAAAAGAAAGCCAGCTGTTTATA
CTAAAATGAAGTCAAAATATGCCCATTTTGGCCCATTTAAAGAATTTTGA
TTCCGCCAGATGTCTTGGTTTTAGAGCATGAGTCCCAAGTATCTTCGTTT
TAGTGTGGCAAACCCAAGTGTCTTGGTTTCAGCGTCGCGTCACTATTATA
CTGATTTTAGTAAGGAGGGACTCGACATGAATCTTTGAGGTAGGGGGGCT
AGGTTCAGGGTTAGGGATAATTTTGGGGGGGATTGCATTGTTTTTTTTTC
TTGCCCCCGCCCCCCACTCCACCTCTGGAAAGGGTTAAATACGGCCATTT
TTGGCCTGACTACTTTTTTGTTAGCCGCTAGCCCATGCGCGGGGTAGTGC
GCAAGAAAAATATATATACGGGGTGTGTGTTTCAACCCAAAAAACTCCGA
AGATTTCGAAAAAATTATCGCCGAAGACATCGGACACCGTTGAGGGGGCG
TAAAAACATAACGGCACAGACTTATGATACAGAGGAAGTATACATATATT
GATGGTGCTGATCGATGCCAACGGCTACCGCACGCTCGTCAGTGTTGACA
ACAACACCCGTCCGTGTTGCCGCATATTTCGTCCATGTTGTTCCTTTCAT
GTTTTTTTTTTTTTGCAGGGGGGGGACCACCAGTGGGCGGCGTCGGGGGG
GGGTAGAAACTACGGCGGCAGCCCTCCGGCTTCAGATTCAGCGGCCAACC
CGTTCCAGGTATTGTGAGCGCCGAAGCGTGAAGCTCGCGTGGTAGCGTAG
AGGTCGCGTAGCGTAGCAGCTGGCGGGAAGGCGGATTGCTTTCGTTGAGA
GAAGATGCGAGATCTTGATATTTTGTGGAAATAACTTTGTAGTGTACGGT
ACTCACCAGTTAAAAAAAAAAACGTGTGACGACCTTCCTGTATGTCGTGA
CCCGTCGGTTGGCGCGGGCACCCACTGCATACCGAAAGGTGTAGACTGAT
GCCCATAATAAATGGGACCAAACCACACACACACGCACACACACTTCTCA
CTAGGTAAAGTGTGCGAAAACTATGGCCGTGTTGGTCGAATGAATCGTGG
CCATATGCGGCCTAACAGGAAAGCGACACGGAACGAGAGTATTGCCCCGT
CTTTTTTGTTGGAAATCGGGTGCCCGTTGGGGGGCGTTGGGGCTCGAGAG
GATGGACCCGGTGGGTACCTGGGTAATTTCGAAGTGGAATACGGTGCCCC
TTCCCCACCGGAATAACGTAGTACGTTGCCCAAAATTAAGGGGGCGCCGT
ATGTGGTGTTCATCGGGGTACCCCGTTAACGAGGGGCGCCATATTGCGAT
TTCAACAACCCGGGTAACTAAAATGCTACCCGGAACCGTCCGGGTAATTC
ATTTCCCGGGTACCCACATTTTTAGGCGGGGCATTTCGCTACACGGAACG
CAAGAATGGCGTGCCGTCCGGGTGTTCGAACATTGTAGAAAAGCGTCCGA
AACGTTGGTCGGTGTGGTGGTGACTCTTTTATGGTAGGAGTAGAGGCCAG
TCGTGTTCGGCTGTCTCCGGAAGGACTCATCGGGGTACATATACGGTCAA
ACGACTAACAAATGAGAACGATAAGAGGAATAAATGTAGGGTTTCCCCCC
TCACCCGCTTCTCTCACCGATAGCCGACATCGGAGTACTGAAGGGTTTCC
CCTCCCCACCCCCGCGTGCGCCATTCGCCGACCACGCCGATGGAATTCAG
CCACCGCCCCAGGACACGAATCCTTTCGGAGACGATACGGGGCCACCAAC
CGCGTGGGCGCTGGAGGTGGATGCGGCGGAGCTGAGGGGGCTATTCGAGG
AGCACGAGCCGGTGGCAGGGAAGCTCAGCGCGGTCAACGCGCGTGCTCCC
TTGGTGCAGTCGGGTCTTCCGAACGATACGCTACGGTACGCACGTACGGA
AAATTCTCGGAAATTTATATGCCGAGGTGCTTTTACCCAGTCAATAAGTG
TACACGACGGAGCATCTGTTATTCCCCCGCACTTCATCGAACAACCCTAC
AGACGAGAAGGTACGAATCAGAAACGTCAAAGATGCTCACATCTTGTTGT
GATGTTTCATTTGATGAGCAAGGGTGTTTGAGAAAGGGAGTGCTGGTTCC
GGCGGGCGTGTTGGTCGTCATTTGTACCCGTTCGCGTGGCCGTGGTGAGA
CTTGGCGTAATTCAAGCTTATTGAAGTCCCTTCTTTGAAGTCCTTTCTTT
GAAGTCCGTTCTTTGAAGCCTCTTCTCTTCGAAGTCACTTCTTTTAAGTC
TATTCTTTAAAGCCCCTTCTTGAAGTCCCTTCTTCCAAGGCCCTTCTTTC
AAGGCCCTTCTGGAAGTCTCTTCTATGAAGCCCCTTCTTTCAAGCCCCTT
CGTTGAAGCCCCTTCTATGAAATTCCTTCTATGAAGCCCCTTCTTTGAAC
TCCCTTCTTTGAACTCCCCTCTTTGAACTCATTTATTTTAAGTTCTTTAA
GCCCTTCTTTGAACTCCCTTCTTTGAACTCCCTTCTATGATATGGGTCCT
CGTTTATTGGACCCGGGCTGAAGCGTTTGGTGGTTTCTCGCTGAAGGTTT
GGCCGCGAAGGTTTTGCTGCTGAAACGTGTAAACTTTTGGGCTTCCGCGC
CGAGGCACTCAATCGTGAAAGCTTTCGTCCTGATGGTTTCCGGCTACGGC
CCCGCAAATTGTGAAATGTTTGCTGGTGATACCCCCCCTTCTCGCCCCTC
CAGTGACGGGGTCATTTCGAAGTTGTCCCCATGGTTAAGTTGTGTTTTTG
CTGATGACACAGGGTACCCCCTACACCACACTGAAGGATCTGCCGTCGGC
ACCTCATATGAGCCCGTGAGTCTCCACCCTCTCCCACGTTTGCCGGTGAT
TGCTTTTTTCGTGTGTCCGGCATTGCCAACTTGTCGCTGACGATACACTT
CGCACCCCCCTCTCCTGTGCGTTACCCCCCCCCCCCTCCCGCGGCGCCTC
TAACAGCGTTATTTGGGACTTGTCCGACATGGACAACGACGGCATGTTGG
ACCTGGAGGAGTTCACGGTGGCCATGCACCTGTGCGATAGAACTAAGGCG
GGGGAACCACTACCGGATGCCCTTCCGCGCCACATCGTCCCGCCCTCCAA
GGCGTCCTTGGTTCTGTAGTCCGTCTGTCGAAGTTTGTAAAGTAGAATGT
TCCCGGAAAGTTCCGTCCGAGGTTTGTTTTCCAGCTGTTTTTGTTGTACT
ACAAGAAAGAGGTTGGTAACCGTTCTTGGTGCGCACAGATGAAACAGTAC
CACTCCACGAATAAACATGATTTTGAAGTACGATATGTAGGGTACCCTGT
CTTTGTCGTCCGGGGGGGGGGGGAAGACAGTGTGTCGTTTGTGTGAAA

Coding sequence (CDS) from alignment at P-littoralis_Contig850:59915..73062+

>mRNA_P-littoralis_Contig850.18.1 ID=mRNA_P-littoralis_Contig850.18.1|Name=mRNA_P-littoralis_Contig850.18.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1758bp|location=Sequence derived from alignment at P-littoralis_Contig850:59915..73062+ (Pylaiella littoralis U1_48)
ATGTCGATGGCCGATCAAGACGAAGCCACGGCGGCAGTCGTGGAGGGCCT
GAAGCGCCTGTACCACACCAAGCTCAAGCCCCTGGAGCAGACGTACATGT
TCGGGTGGTTCCACTCTCCCCCATTGACGGACAGTGAGTTCGAGAGCAAG
CCGCAGGTGCTCATGTGCGGCCAGTACTCCACGGGGAAGACTTCGTTCAT
CCGATATTTGCTCGGGCGGGATTTTCCAGGGCAGCGGATCGGCCCGGAAC
CAACGACAGACCGCTTCGTGGCGGTGATGGACGGGTCAGACGAGCGGGTC
GTTCCCGGCAACGCCCTGACGGTCTCGCCCAACCTCCCGTACCGCGGGCT
GGACAGGTTCGGGGTGTCTTTCTTGAACAAGTTCGAGGCCAGCCAGCTGC
CCTCGCCCGTGCTGAGGAACATCACCATCGTGGACACTCCCGGTGTGCTT
TCCGGAGAAAAGCAGCGGGTTTCTCGCGGGTACGACTTCGTGAACGTGTG
CCACTGGTTCGCGGAGAGGGCGGACCTGATCCTGCTCCTCTTCGACGCGC
ACAAGCTGGACATCAGCGACGAGTTCAAGGCGGTGATCGAAAGGCTTAAG
GGTCAGGACGACAAGATCAGAGTCATCCTCAACAAGGCCGATCAGGTGGA
TCGGCAAAAGCTGATGAGGGTGTACGGCGCGTTGATGTGGTCGATGGGCA
AGATCATCCGCACACCTGAGGTGCTCCGGGTATACGTGGGGTCGTTCTGG
GACGAGCCTTTGATGTACGACGACAACGCCGCGTTGTTCGACATGGAGGA
GAGAGATCTCATGAACGATCTCAGAGAGCTGCCGAGAAACTCGGCCGTGA
GGAAGATCAACGAGCTCGTCAAGCGTTGCCGACTCGCTAAGGTCCACGCG
TACATCATCGGCTATCTCCGAGCACAGATGCCGTCCATGATGGGCAAAGA
AAAGGTCCAGAAAAAGCTCACCGCCGATTTGGCGCAGGTGTTTCGTGCCG
TTATGAAGCAGCACAACCTTGCCCCGGGGGACTTCCCGGACCTAGAGCCG
TTCCGATCGAAGCTGGCGGACACGAACTTTATCAAGTTCCCGAAGCTCAA
GGTTAAGATGCTGGAGGACCTCGACGAGATGCTGTCGGTGGACATCCCAA
GACTCATGGAGATGCTGCCGAGAACAGTCGCGCCCACACGCGCGGACGAG
CAGATCAGGAATTTCATGCAGGAGAGCAACGACACCCCCACTCCCCCGAA
ATATAACGCTCCCGGCGGAGTGGCGAGGGGGAGCAGTGGGGGGGGCGGAG
GTGGGGGCTACTACGAGCAGGGGGGGGACCACCAGTGGGCGGCGTCGGGG
GGGGGTAGAAACTACGGCGGCAGCCCTCCGGCTTCAGATTCAGCGGCCAA
CCCGTTCCAGCCACCGCCCCAGGACACGAATCCTTTCGGAGACGATACGG
GGCCACCAACCGCGTGGGCGCTGGAGGTGGATGCGGCGGAGCTGAGGGGG
CTATTCGAGGAGCACGAGCCGGTGGCAGGGAAGCTCAGCGCGGTCAACGC
GCGTGCTCCCTTGGTGCAGTCGGGTCTTCCGAACGATACGCTACGCGTTA
TTTGGGACTTGTCCGACATGGACAACGACGGCATGTTGGACCTGGAGGAG
TTCACGGTGGCCATGCACCTGTGCGATAGAACTAAGGCGGGGGAACCACT
ACCGGATGCCCTTCCGCGCCACATCGTCCCGCCCTCCAAGGCGTCCTTGG
TTCTGTAG