mRNA_P-littoralis_Contig15.231.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig15.231.2
Unique Name	mRNA_P-littoralis_Contig15.231.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: D7FRU2_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FRU2_ECTSI)

HSP 1 Score: 543 bits (1400), Expect = 1.170e-182
Identity = 264/347 (76.08%), Postives = 291/347 (83.86%), Query Frame = 2

Query:  755 YVRPEVPRWRHKAVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGLGGPWYGSESVIDSWLGPSLDTFFGPATTADGGASSVSRAGSKPRQQAASSTA-RDDDRMGKDV 1792
            Y RPEV +WRHKAVIIPGFATDAR FE+LCHRLERRG+ASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCV A EHKD+PYAFNEPGLQ EV+PYTA+DF AEM DP RGAHHMGP++LPVLP+ PS  ERV+L+AHSAGGW+SRIYLSEA YDGR YNAS  VNGLVTLGTPHVRL DD GR RELPFSRNFKFVEE C GE GGDWEK  PT CIGG+AL+G+S F G++KDLVYQSYELCCGDGSG GDGITPL SAF MAGA+RYVELEGVLHAA +GG WYGS+ VIDSWL PSLDT FGP      G  +V +  ++  Q+ +S T   D DR+  DV
Sbjct:   26 YARPEVTKWRHKAVIIPGFATDARVFEKLCHRLERRGVASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVCAQEHKDMPYAFNEPGLQSEVAPYTAEDFWAEMGDPKRGAHHMGPIDLPVLPSKPSVDERVVLIAHSAGGWMSRIYLSEACYDGRIYNASHAVNGLVTLGTPHVRLTDDKGRHRELPFSRNFKFVEERCTGEKGGDWEKIIPTVCIGGSALEGRSTFGGMFKDLVYQSYELCCGDGSGTGDGITPLKSAFDMAGAKRYVELEGVLHAARMGGKWYGSDDVIDSWLEPSLDTIFGPPVEEVEGTRNVFKTTTELPQKGSSRTVVHDGDRVQNDV 372

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A6H5KLK1_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KLK1_9PHAE)

HSP 1 Score: 487 bits (1254), Expect = 2.350e-159
Identity = 267/430 (62.09%), Postives = 293/430 (68.14%), Query Frame = 2

Query:  341 IPSCHRKRASMMRCEGEMHRGGWRQVMFVVS-RPPAASSR-------GYTWSYSQDTSSSPWRQQRQRQQPSAELLRNAWKCGPCAAKPRRSECVRQQCRPGVSMTSREEDGENVALPIPXXXXXXXXXXXXXXXXXXXXEDPDVPYVRPEVPRWRHKAVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGL 1606
            + S  RKR   + C G + R  W    FV+  RP A  SR       G   S    TS  P+ Q            R AW+ G   A+PRR           VSM    + G+  A P                            Y RPEVP+WRHKAVIIPGFATDAR FE+LCHRLERRG+ASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCV A EHKD+PYAFNEPGLQ EV+PYTA+DF AEM DP RGAHHMGP+ LPVLP  PS  ERVIL+AHSAGGW+SRIYLSEA YDGR YNAS  VNGLVTLGTPHVRL DD G+ RELPFSRNFKFVEE C GE GGDWEK+ PT CIGG+AL+G+S F G++KDLVYQSYELCCGDGSG GDGITPL SAF MAGA+RYVELE  L A  L
Sbjct:   62 VSSNRRKRGGAVGCAGGI-RSRWCVASFVLRCRPKATCSRTRTSARSGCCCSIRPPTSQRPYAQ-----------ARVAWRSGWSGARPRRRGAA-------VSMG---KGGDGNAAPSSLQPEQQVVGENQ--------------YARPEVPKWRHKAVIIPGFATDARVFEKLCHRLERRGVASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVCAQEHKDMPYAFNEPGLQSEVAPYTAEDFWAEMGDPKRGAHHMGPIALPVLPPKPSIDERVILIAHSAGGWMSRIYLSEACYDGRIYNASHAVNGLVTLGTPHVRLTDDKGQHRELPFSRNFKFVEERCTGENGGDWEKKIPTVCIGGSALEGRSAFGGIFKDLVYQSYELCCGDGSGRGDGITPLKSAFDMAGAKRYVELEVYLVATTL 455

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: W7TNQ9_9STRA (GPI inositol-deacylase n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TNQ9_9STRA)

HSP 1 Score: 183 bits (464), Expect = 1.960e-46
Identity = 130/343 (37.90%), Postives = 173/343 (50.44%), Query Frame = 2

Query:  764 PEVPRWRHKAVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLP---YAFNEPGLQKEVSP-----------------------YTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGER--VILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHV---RLEDDFGRPRELPFS-RNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCC----------GDGSGMGDGITPLTSAFGMAGAQRYVELEG-VLHAAGL---GGPWYGSES-VIDSWL 1651
            P  P      VIIPG+A+DA  +++L + L  RG     VPI  Y W+PT GGRS+RPILDRIHETV+   ++D     P           +K  +P                       +   +FL E+ DP +G   + P  LP   + P +  R  V LV HSAGGW++RIYLS   YDGR Y  S  V+ L+TLG+PHV   R  D      ++P++ RN KFVEE C  + GG         C+G  A++G+S   G  +D    SY LC           G G   GDGITP+ SA G+ GA R VELEG VLH   +   G  WYG++   ++ W+
Sbjct:   73 PSTPSLPRAVVIIPGYASDASLYKRLENSLRARGFPCWTVPISAYMWVPTFGGRSIRPILDRIHETVLDVALSDRPLPSPPFXXXXXXXXXEKAAAPPAXXXXXGTSSSAPGSSAAPAKTFALLNFLRELLDPAKG---LQPPPLPSPSSVPPSARRYDVALVGHSAGGWVARIYLSSVPYDGRAYQGSRFVSTLITLGSPHVFPSRYRDR--AVGKVPYALRNLKFVEESCGRDGGGG----VRMVCVGSRAVRGRSWLGGRVRDWAASSYALCGYEEEVGGEVGGKGGVEGDGITPVESALGLPGAVR-VELEGEVLHGPEVERRGRRWYGTDPWPLERWV 405

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A4D9D0D5_9STRA (GPI inositol-deacylase n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9D0D5_9STRA)

HSP 1 Score: 181 bits (460), Expect = 1.510e-45
Identity = 133/350 (38.00%), Postives = 173/350 (49.43%), Query Frame = 2

Query:  764 PEVPRWRHKAVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPY-------------------------------AFNE-PGLQKE-VSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGER--VILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHV---RLEDDFGRPRELPFS-RNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCC----------GDGSGMGDGITPLTSAFGMAGAQRYVELEG-VLHAAGL---GGPWYGSES-VIDSWL 1651
            P  P      VIIPG+A+DA  +++L + L  RG     VPI  Y W+PT GGRS+RPILDRIHETV+   ++D     P                                AF+  PGL       +   +FL E+ DP +G   + P  LP     P +  R  V LV HSAGGW++RIYLS   YDGR Y  S  V+ L+TLG+PHV   R  D       +P++ RN KFVEE C  + GG         C+G  A++G+S   G  +D    SY LC           G G   GDGITP+ SA G+ GA R VELEG VLH   +   G  WYG++   ++ W+
Sbjct:   56 PSTPSLPRAVVIIPGYASDASLYKRLENSLRARGFPCWTVPISAYMWVPTFGGRSIRPILDRIHETVLDVALSDRPLPSPPFPSPVSEGEAGDHQGEAEKAAAPPXXXXXXGAFSSAPGLSAAPAKTFALLNFLRELLDPAKG---LQPPPLPSPSLVPPSARRYDVALVGHSAGGWVARIYLSSVPYDGRAYQGSRFVSTLITLGSPHVFPSRYRDK--AVGNVPYALRNLKFVEESCGRDGGGG----VRMVCVGSRAVRGRSWLGGRVRDWAASSYALCGYEEEVGGVVGGKGGVEGDGITPVESALGLPGAVR-VELEGEVLHGPEVERRGRRWYGTDPWPLERWV 395

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A7J7QAC6_9CHLO (Uncharacterized protein n=1 Tax=Scenedesmus sp. NREL 46B-D3 TaxID=2650976 RepID=A0A7J7QAC6_9CHLO)

HSP 1 Score: 168 bits (425), Expect = 1.160e-41
Identity = 117/301 (38.87%), Postives = 152/301 (50.50%), Query Frame = 2

Query:  782 RHKAVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEV--SPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPAT-PSTG-ERVILVAHSAGGWISRIYLSEAR-YDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSR-NFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGLGGP-----WYGSESVIDSWL 1651
            R   +++P F  DA+AF+ L   L  RG  + + PIRW  W+PTLGGRSVRPILDR+   + + +         Y  +E G  +     P T QD+L EM D ++GA        P L  T P  G ER  LVA SAGGWISRI+L+    Y G  Y+ +  V+ LVTLGTPH   E         P +R N  FV +      GG          IG   +QG+S   G  +D  YQSY +C GDG+  GDG+TPL  A  + GA   V +EG  H      P     WYGS   ++ W+
Sbjct:   86 RGPVLVVPAFYLDAQAFKPLVQELRSRGFNAALPPIRWTDWVPTLGGRSVRPILDRMDYALTQLLEG-------YQVSEQGGYEVPLPQPATYQDWLQEMRDASQGAR-------PGLQLTGPWQGQERAALVASSAGGWISRIFLARGPPYSGTVYHGADRVHTLVTLGTPHKSAE---------PVTRKNIDFVND----NYGGAHMHDVRYVAIGSKTVQGKSWLNGSVQDFAYQSYNICIGDGNAWGDGVTPLECALALDGAHHIV-MEGARHVPLEVKPEQDVHWYGSGPYLEQWV 358

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: UPI001FF12E09 (alpha/beta hydrolase n=1 Tax=Synechococcus sp. C9 TaxID=102119 RepID=UPI001FF12E09)

HSP 1 Score: 145 bits (367), Expect = 7.680e-36
Identity = 98/287 (34.15%), Postives = 134/287 (46.69%), Query Frame = 2

Query:  791 AVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGLGGPWYGSESVIDSWL 1651
            AV++PG+   A  ++ L    +  G+   VVP+RW+ WLPTLGGRSV PIL+R+ +T+ +                  +QK+                                     G ++ L+ HSAGGWISRIYL +  YDGR +     V+ LVTLGTPH          +E    RN  FV     G    + E      CI G A+QG+   RG    L Y+SY L CG G   GDGITP+ +A  ++GA+  + L  V H+    G WYGS  ++  WL
Sbjct:    4 AVLLPGYLAGAAPYQGLVQAAQALGVRMQVVPLRWWDWLPTLGGRSVTPILERLDQTIQQ------------------VQKQYP-----------------------------------GAKITLIGHSAGGWISRIYLGQTPYDGRVWEGVRWVDRLVTLGTPHTS--------QERWTRRNLDFVNTTYPGAYHPEIEY----ICIAGQAVQGR---RGT---LAYESYRLTCGQGDVWGDGITPVVAAH-LSGAEN-ITLPSVWHSPRSPGLWYGSPEILPQWL 217

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A1J0AA90_9CYAN (Acetyltransferases and hydrolases with the alpha/beta hydrolase fold n=1 Tax=Gloeomargarita lithophora Alchichica-D10 TaxID=1188229 RepID=A0A1J0AA90_9CYAN)

HSP 1 Score: 141 bits (356), Expect = 2.560e-34
Identity = 95/286 (33.22%), Postives = 126/286 (44.06%), Query Frame = 2

Query:  794 VIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGLGGPWYGSESVIDSWL 1651
            V++PG+      +  L    +  G+A  VVP+RW+ WLPTLGGRSV PIL+ +  T+                     Q+    Y                                 GE++ L+ HSAGGWISRIYL +  Y GR +  +  V  LVTLGTPH          +E    +N  FV      E  G +       CI G A+QG+         L Y+SY L CG G   GDGITP+ +A  +AGA+  + L  V H+    G WYGS  V+  WL
Sbjct:    5 VLLPGYLAGQAPYRGLVTAAQSLGVAIQVVPLRWWDWLPTLGGRSVAPILEPLDHTI---------------------QQVQQQYP--------------------------------GEKITLIGHSAGGWISRIYLGQTPYYGRVWGGAARVARLVTLGTPHTS--------QERWTRKNLDFVNT----EYPGAYHPEIQYICIAGQAVQGRKW------TLAYESYRLTCGQGDAWGDGITPVAAAH-LAGAEN-LTLPSVWHSPSSPGEWYGSPGVLPQWL 217

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A7S3X6I6_EMIHU (Hypothetical protein n=1 Tax=Emiliania huxleyi TaxID=2903 RepID=A0A7S3X6I6_EMIHU)

HSP 1 Score: 144 bits (362), Expect = 3.320e-34
Identity = 116/323 (35.91%), Postives = 147/323 (45.51%), Query Frame = 2

Query:  791 AVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMG--------PLNLPV--LPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTA------CIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGM---GDGITPLTSAFGMAGAQRYVELEGVLH-------AAGL-----------GGPWYGSESVIDSW 1648
            AV++PGF + A  F ++   L  RGI + VVP+  +HWLP LGGRS+RPIL+RI  TV     A+     P A   PG +     Y+ QD L +      G   +G        P+  P    P   +   RV L+ HSAGGWISR+YLS+ RY GR Y+ S LV+ LVTLG P   L D  G     P  R             G  W  + P         +G     G S  R     L   +Y  C   G G    GDG+TP  SA  + GA+  V L+GV H        AGL           G PWYGS S ++ W
Sbjct:   16 AVVVPGFLSGASDFREMADSLSARGIRTAVVPMAAWHWLPCLGGRSMRPILERIDHTVRHLAAAEGD---PAAV--PGFE-----YSWQDCLTDFVHTPGGIWEVGGSAEVQEYPIVEPRGHFPEAGAARGRVALIGHSAGGWISRVYLSKRRYGGRAYDGSQLVHSLVTLGAP---LADSSG-----PAFR-------------GVAWANQEPPPSTVRCLAVGATGTPGGSSGR-----LTRDAYSFCVDGGDGTKLDGDGVTPTFSALSLPGAETRV-LDGVTHFPWGDVPGAGLVAPDLAKEHRAGKPWYGSPSAMEQW 301

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A830HQU7_9CHLO (Uncharacterized protein n=1 Tax=Pycnococcus provasolii TaxID=41880 RepID=A0A830HQU7_9CHLO)

HSP 1 Score: 144 bits (362), Expect = 1.080e-33
Identity = 113/324 (34.88%), Postives = 146/324 (45.06%), Query Frame = 2

Query:  794 VIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNEPGLQKEVSP--YTAQDFLAEMDDPTRGAHHMGPLNLP-----VLPA---TPSTGE---RVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPH-----VRLEDDFGRPRELPFSRNFKFVEEFCVGEVG---GDWEKRTPTA---CIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAGLGG--------------PWYGSESVIDSWL 1651
            VI+PGF   ++ +E L   +  RG+ + VVP+    WLP  GGRSVRPIL+RI   V     A   K        P  Q  + P   T  D   +  +   G   +G    P     VLP     P  G    RV LV HSAGGWISR+YLS   Y GR Y  S LV+ LVTLGTPH     V  E      R+   S   + V    VG  G   GDW   T  +   C+G    +G+S       +      EL CGDG      +TPL+SA  + GA++ +  + + HA G                  WYGS++V+D WL
Sbjct:   37 VIVPGFLCGSKIYEPLVQAMRERGVPATVVPLSAADWLPCAGGRSVRPILERIDSAVRHA--AASGKCATEVVGIPDTQLAIPPPRVTPIDRFVDFRNTPGGPFSVGGSQKPDEFPTVLPRGDFPPPPGAPVGRVALVGHSAGGWISRVYLSNRAYGGRVYGGSNLVHSLVTLGTPHAPASGVAFESHSWLHRDRDTSDLERRVRMLAVGSAGYGGGDWGDFTRNSYAFCVG---EEGES------DEATRARAELLCGDG------VTPLSSALDLPGAEQLILDDAISHAPGYPSFVSPELAADFNARQTWYGSDAVLDQWL 343

[Close]

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Match: A0A7S3UV48_HETAK (GPI inositol-deacylase n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3UV48_HETAK)

HSP 1 Score: 142 bits (359), Expect = 2.860e-33
Identity = 112/325 (34.46%), Postives = 147/325 (45.23%), Query Frame = 2

Query:  791 AVIIPGFATDARAFEQLCHRLERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLPYAFNE--PGLQKEVSPYTAQDFLAEMDDPTRGAHHMG---------PLNLP--VLPATPSTGERVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDDFGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTA-CIGGAALQGQSIFRGLYKDLVYQSYELCCGDGSG----MGDGITPLTSAFGMAGAQRYVELEGVLH------------AAGL-------GGPWYGSESVIDSWLG 1654
            AVI+PGF T    F+ L   L+RRGI    VP+  +HW+P LGGRSVRP+L+RI  TV R V A   ++LP    E  P  +     Y+  D   +  D   G   +G         P   P    PA      R+ L+ HSAGGW++R YLS+  Y GR+Y+ S  V+ LVTLG+PH           + P +  F+ VE          W  R      + G A+ G          L   +Y  CC DGS      GDG+TP+ SA    GA++ +    V H            A  L       G PWYGS   +D WLG
Sbjct:   37 AVIVPGFLTGGPEFKPLVDELQRRGIPCAAVPMPNWHWIPCLGGRSVRPLLERIDHTV-RHVAAAAGEELPINLEEVIPDFE-----YSIFDCWKDFQDNPGGVLEVGGSAEVDQYDPTITPRGSFPAADLPKGRIALIGHSAGGWMARAYLSDRNYGGRSYSGSQFVHSLVTLGSPHG----------DAPGAA-FRGVE----------WVNREGVPPSVRGLAVAGTGFKGNDSGQLTKNAYSFCCPDGSDGTGYEGDGVTPVFSALAWDGAEKLLLDGKVTHFPWSDVFGGDIFAPDLAKDHKEQGTPWYGSREALDQWLG 334

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig15.231.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FRU2_ECTSI	1.170e-182	76.08	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A6H5KLK1_9PHAE	2.350e-159	62.09	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
W7TNQ9_9STRA	1.960e-46	37.90	GPI inositol-deacylase n=1 Tax=Nannochloropsis gad...	[more]
A0A4D9D0D5_9STRA	1.510e-45	38.00	GPI inositol-deacylase n=1 Tax=Nannochloropsis sal...	[more]
A0A7J7QAC6_9CHLO	1.160e-41	38.87	Uncharacterized protein n=1 Tax=Scenedesmus sp. NR...	[more]
UPI001FF12E09	7.680e-36	34.15	alpha/beta hydrolase n=1 Tax=Synechococcus sp. C9 ...	[more]
A0A1J0AA90_9CYAN	2.560e-34	33.22	Acetyltransferases and hydrolases with the alpha/b...	[more]
A0A7S3X6I6_EMIHU	3.320e-34	35.91	Hypothetical protein n=1 Tax=Emiliania huxleyi Tax...	[more]
A0A830HQU7_9CHLO	1.080e-33	34.88	Uncharacterized protein n=1 Tax=Pycnococcus provas...	[more]
A0A7S3UV48_HETAK	2.860e-33	34.46	GPI inositol-deacylase n=1 Tax=Heterosigma akashiw...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig15	contig	P-littoralis_Contig15:867242..883484 +

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.D7FRU2
PFAMs	PGAP1
Model size	3060
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	9
Evalue	8.1e-189
EggNOG OGs	COG1075@1\|root,2RZXS@2759\|Eukaryota
Ec32 ortholog description	GPI inositol-deacylase PGAP1-like
Ec32 ortholog	Ec-25_000390.1
Description	PGAP1-like protein
Cds size	1695
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig15.231.2	prot_P-littoralis_Contig15.231.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig15 867345..882222 +

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


Feature Name	Unique Name	Species	Type	Position
1680789715.3917668-UTR-P-littoralis_Contig15:867241..867344	1680789715.3917668-UTR-P-littoralis_Contig15:867241..867344	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig15 867242..867344 +
1680789715.4913304-UTR-P-littoralis_Contig15:882222..883484	1680789715.4913304-UTR-P-littoralis_Contig15:882222..883484	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig15 882223..883484 +

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


Feature Name	Unique Name	Species	Type	Position
1680789715.4016411-CDS-P-littoralis_Contig15:867344..868048	1680789715.4016411-CDS-P-littoralis_Contig15:867344..868048	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 867345..868048 +
1680789715.4103475-CDS-P-littoralis_Contig15:873193..873355	1680789715.4103475-CDS-P-littoralis_Contig15:873193..873355	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 873194..873355 +
1680789715.4195745-CDS-P-littoralis_Contig15:878019..878137	1680789715.4195745-CDS-P-littoralis_Contig15:878019..878137	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 878020..878137 +
1680789715.4290905-CDS-P-littoralis_Contig15:879000..879131	1680789715.4290905-CDS-P-littoralis_Contig15:879000..879131	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 879001..879131 +
1680789715.4376369-CDS-P-littoralis_Contig15:879385..879512	1680789715.4376369-CDS-P-littoralis_Contig15:879385..879512	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 879386..879512 +
1680789715.448558-CDS-P-littoralis_Contig15:879950..880073	1680789715.448558-CDS-P-littoralis_Contig15:879950..880073	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 879951..880073 +
1680789715.458531-CDS-P-littoralis_Contig15:880900..881014	1680789715.458531-CDS-P-littoralis_Contig15:880900..881014	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 880901..881014 +
1680789715.473313-CDS-P-littoralis_Contig15:881510..881573	1680789715.473313-CDS-P-littoralis_Contig15:881510..881573	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 881511..881573 +
1680789715.483794-CDS-P-littoralis_Contig15:882069..882222	1680789715.483794-CDS-P-littoralis_Contig15:882069..882222	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig15 882070..882222 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig15:867242..883484+
coding sequence from alignment at P-littoralis_Contig15:867242..883484+

protein sequence of mRNA_P-littoralis_Contig15.231.2

>prot_P-littoralis_Contig15.231.2 ID=prot_P-littoralis_Contig15.231.2|Name=mRNA_P-littoralis_Contig15.231.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=565bp
MIGASICLVACMCVLDSRRGDASWSGVRLLRRDGRSSSETRPLRLLPRLM
RDRQQPQRSRPRRGTTAMAASSGNQLSTGIPSCHRKRASMMRCEGEMHRG
GWRQVMFVVSRPPAASSRGYTWSYSQDTSSSPWRQQRQRQQPSAELLRNA
WKCGPCAAKPRRSECVRQQCRPGVSMTSREEDGENVALPIPPPRMRQQQH
EQQQQQQQQPDEDPDVPYVRPEVPRWRHKAVIIPGFATDARAFEQLCHRL
ERRGIASVVVPIRWYHWLPTLGGRSVRPILDRIHETVIRCVMADEHKDLP
YAFNEPGLQKEVSPYTAQDFLAEMDDPTRGAHHMGPLNLPVLPATPSTGE
RVILVAHSAGGWISRIYLSEARYDGRTYNASCLVNGLVTLGTPHVRLEDD
FGRPRELPFSRNFKFVEEFCVGEVGGDWEKRTPTACIGGAALQGQSIFRG
LYKDLVYQSYELCCGDGSGMGDGITPLTSAFGMAGAQRYVELEGVLHAAG
LGGPWYGSESVIDSWLGPSLDTFFGPATTADGGASSVSRAGSKPRQQAAS
STARDDDRMGKDVA*

mRNA from alignment at P-littoralis_Contig15:867242..883484+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig15.231.2 ID=mRNA_P-littoralis_Contig15.231.2|Name=mRNA_P-littoralis_Contig15.231.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=16243bp|location=Sequence derived from alignment at P-littoralis_Contig15:867242..883484+ (Pylaiella littoralis U1_48)
CAAACTTCAAAGAACGAGGAGACAAGCAACGAGCGCATGACTACCCCCTC
TTGCACTGGCAAGAGAGACACGTACAGCAGCAGCACCAGTGTTGGAGCCG
ACTATGATTGGGGCAAGCATTTGCCTCGTGGCGTGTATGTGTGTGCTAGA
TTCCAGGAGAGGAGATGCATCGTGGTCGGGCGTCAGGCTTCTTCGTCGTG
ATGGACGATCATCGTCGGAAACTAGGCCTCTCCGATTATTGCCGCGTTTG
ATGCGCGATAGACAGCAACCGCAACGGTCACGGCCCCGCCGTGGCACAAC
AGCAATGGCAGCTAGCTCAGGCAATCAGCTATCTACTGGGATTCCATCCT
GCCACCGGAAAAGGGCGAGCATGATGAGGTGCGAAGGGGAAATGCATCGA
GGGGGTTGGCGCCAGGTTATGTTTGTCGTGTCGAGACCTCCAGCTGCAAG
TTCAAGAGGTTACACATGGAGCTATAGTCAAGATACCTCATCATCCCCTT
GGCGACAGCAGCGGCAACGGCAACAGCCGAGTGCGGAGCTGTTGAGGAAT
GCTTGGAAGTGCGGTCCGTGTGCCGCTAAACCTCGACGGTCGGAATGCGT
GCGACAGCAGTGTCGTCCGGGGGTTTCGATGACGAGCAGGGAGGAAGATG
GAGAAAATGTTGCTTTGCCAATTCCGCCGCCTCGCATGCGACAGCAGCAG
CATGAGCAGCAGCAGCAGCAGCAGCAGCAACCGGACGAGGATCCCGACGT
GCCGTATGTGAGGCCAGAGGTGCCGAGATGGAGACACAAGGCCGTCATCA
TTCCGGGGTAAGAAGTATGCTGTTTCTTCTCGTTGTTGTTGTCGTTGTTG
TTGTTGTTGTTGCTATGCTAGAAAAATGGCATGTGTATGGATCTTTTGTC
TTCACGTGTTGTGGGTGTTCGTCTTGTGCGGGCGGGTAGTTGACGCTGCT
TGGAAAATACTCCGCATCGAAAAAACTGCTACAGAACCAACTCTGGAAAG
TAACTCTGTACACGAGTACACAAAGTAGTGTGAACGCTGCTGCTGCCTCT
TGCTTCTGCATGCTGCTCCGCCACTCACCGGTTGTGTATTTGTCTTCAAT
TATTGGTGAACTGAAGTGAAGGTACGTCGCTACTGCTGTAATTTGTTTCG
GTCGACGTCAGCTCAACTGTCTGCTGTATAGATTCAACGCCAGCTTAGTC
CCTGTGTTTACGACAATCAGGAAATCAAAATTGAAAAAATCAAAATAGCA
AAATCAAAGTTTGATTTTACGCAAAACACTGCGAGCCAAATCAACGGACC
AGCTTGGTAGAGGCCTGTAAACGCCGCCAAGATTCAAAACCTCTGATTGA
TTTTGATGTCACCATCGATCGGCACTGCTGTAAACATAACAACAGCAGTA
GCAGTACAGATACATGCATCAGAGCAGCACTGCACGCTGATGCTACGTCG
CTGAGAGACACCGCGTTGTTTGTGTGTCTGTCGGTTTATTTGTGTGTGTT
GGCTCATCATGGACTCGAGACTGCTGTACGCGTCTGGCTGTCTGCTGTTT
GTTGTTGGTTGGCTGTCGTTGTCCTGCTCTAGGTGTTGTCTGGTGCCTCA
TCATGCGAGTCTGTCTGTCTTTGTTCTGCGCTTCTTCTAGGTGTGGTGCT
GGTTTTGACATGCCTGGTGCAACGGCACCTCTCTCTCTCTCTCTCTGTTG
TTGTGGGTTGCGTCGGCGTGCCCTGTGCCTCTGTCTGCTTGTCTGTGGCG
TGGTGCGCGAGCCACATCGTTCAGAAAGCCTTCGATCGGGATAAGACCCC
CAATTTTGATTTTGATTTTCTGGCAATTAAGTCTTTCTGGACTCTTTTGG
TCTGCCGGTGATGTCCAAGAAATCAAAATTGTCGTCGGTAGGTCTTGAGA
GCTTCGACCAATCAGAGACCAATTTTGGTTTTGATTATTTCCAATTTTGA
TTTCCTGATCGTCGTTCATATAGGGCCTTACTGGCGGAAGAAGTTTCTCG
GAGAGAAAGAACAGAAGAGGGGGAGAGAAGAGGTAGTCCGCAGTTTTCTG
ATTTGCCAATTTATTCAAATGAAAACTTGTGGTTGGTGGAATCCCTGGTC
GACCGATGATGTCATCGAGGGCGGTGACACCACTTTTTAGAAGAGTAAAC
ACATGAGATAAATAATATTACTCAGATCGGATCTAGATCCAAGATTAGTC
ACAGCTCATGGTGATGTGTGCGCACAGACTATCCGTGACATTTTTCCAAC
TGATGGTCTGTGCGCACCGGTCATCTGTGACATTTTTTCAAACGGCGGTC
GGTGCGCACAGATCATGTGTGACATTTTTATCCAACAGGTGATCTGTGCG
CACAGATCATCTGCGACATTTTTCCAACCGGTGATGTATGCGCACAGATA
CTCTGTGACGTTCCTCCAACACGTGATATGTGCTGCCCCACAAACAGTTT
CAACATGGAACATGGGGTGCGGGAGGGCGGGTGATGTGAATGTTTGGCGA
CATGACCGATCTTATTCTAGGTTCGATTACCCTTGTGGATTAGACCTGTT
TTGAGCGGCGGGACTGGAGCAACTCCCAACAGAGAGCGCTCCAAGCTCCA
CGCACACGCAGCACAACTCGGACACGACGACACGCGTAGCACATGGTAGA
TATCGGTGGCAATGGCTCGTAGACCGGCACTCCAACTGCAAATCCAGGCA
GCGAGGCTAGAGGTATCACCGAGGAGAGTGGTGGTACGCACATCTTTCCG
ACGATGTGCGAGCCGCACAGCAGTGGTAGTAATGACCTCCAAGTACGTAC
AGAATTCACATTCCTACTGTAGCACCCCTTTTGTTTCCTATAAAACCTCC
CAACTGGGCGGCTAAGCAGCGCCTTTTGTCAACTCCATCAAACATACCCA
CCACGGTCACGTTAGCGTAATGTGAACCATTCGTTCGCCCTGCCTTTTCG
TTGTATGTTAAACTTGTGTCTTGTTTTGCGAAATCTCATTGCGGCCGGGC
TACTTCTTCTGCAGATGGGGGCAGGCTCCACATATCACGACGTGGAATAA
GTCATGTTCTACGCTAAAAGAACGACCTTTTAACTCGTACACTGAAAACA
ATACGCAGGCGTACTGACAAAACACCGATGAGCACAAGTGCACTAACTAT
TTCCCGATTCATCTGTGCCACAGATCCACAGATGGATCATGATCTGCGCG
GATGTAATCTGGGCGCACGGATCATCCGTGACGTTTTGCGAACTGGTGAT
CTGTGCGCACAGATCATGCGTGGCATTTTTCCAACCGGTAACCAGTGCGC
ACGGATCATCTGTGACATTTTACCAACAGGCGATATGTGCGCACAGATGA
TAGATAACGGTCTGCCCTGTGTGTGGAAAAATTCAAGAATTTCAAATTGA
CCATGGAAGGTTGCCACGAATCTCCTGAATTTTCTTTACTGCGGCGGAAG
AAACAAACAACGGCCGGCAGCACTTCCTCGTCAAAACCCCCCGAGCGGTA
ACCATATGCCATGGTCCTGCACAACGTGACGCGATTTACGGTCGTCGGCA
GTCCCATCAGCGACGAGATTACCCACGTTCATGCTGGTAGGAGTGGTGCG
AGAGTGTCGAAAGGCAGCACGCACAGGTAGAGTGATACGCGTGGACTCAC
GAGTGCACTACTGCAATCAGATGAGGGAGTGCAGGAGTACTTGTGCACAA
TTGCCCGTGGATGTATGATGTGTCTGCTTATTGCTCTCCACACGGGTCAG
TTACGGCAAGGACACTTGACATTTGGAAGTTTATTCGGCGTCCGTTGTTG
GGGATGAAGGGTCTGTAAATTGCGCCGCGTTCGCAGTCCCCAAGACCACT
TGCGTTATCGTCATAAGGTCTCCATCATAAACACCGGGATCCATTGCCGG
TATTCCTCACGTCTTCGTTCATCTTAGGCACGACCCGGTTCTCCACGCCC
TTCTCAGTGAGCCCGTCGTAGCACCGTTGCTGGGTCCGAACCGTCCCTTG
TCCGTTGTGTGCTATTCTTCCTTGTCCGAGACAACGCTGCCGATTGATTG
ATTATCGTAAAGGGTATTCGTGTTTCCTATGAAGCCATGCCCGAGGACGC
TTACGGCCTTGCAGTGCTTTGCGCGAAGCAGGACTGCGACGCTGACTGGC
GGACGCAGGCGGGAGTCCAAGGACTCAACAATGGCAAGGACTGCTGTGTG
GCTCGCGGCATTGGTGCCGATATAAGGGGTGTTTTATACGTCAAGGAAGA
AAAGCAGGAAGCAGATGAGGGGTAGCTCCGACCCATCAAGAATGCCAGGC
AACATCTAAGAAGGGTGTGGAGTACCGGGTCGTGCCCAAGCGGCACAAAG
ACATGGGGAATGTCGGTTATGGGTCCAGGCGTTTCCTATGAAGACCTTGT
AACGATAATGTACGTGGTGTGTAAGACTGCGGACGCCGTGTCATCAACAG
ATGCGTCATCATCGACGACGGAAAAGCATGGTCGGCTTCCATCGTTCGTG
ATGACGCATCTGTTAATGACATGGCGTCTGCAGTCTTTCACACCACGTAC
ATTATCGTTACAAGGTCTTCATAGGAAACGCCTGGACCCATACCCGACAT
TCCCCATGTCTTTGTGCTGCTTGGGCACGACCCGGTACTCCAAACCCTTC
TGAAGTGAGCCTTCCATATCATCGTTGCTGGGACGGAACTACCGTGGACC
ATGTGCAGCAACCCCGAACGCCCCTCGCTGCGCTGTTCATTTTGTGGATG
TTTCTCAATACCGTAATGATGTGCTCCAAGCGATATTAATTGTGGCTGTT
TCTAAGAACCGCAATACGGTTATTGTGTTGGCAGTAAACATCTCGCCGCC
ACCCGGAGGAGCGTAACTGCATGAATGTGTAAAATGTAAAGCGACAACGA
TGATCGCGTCGGTCATTTGGTCGGGGCGCGTTCTAGGGAACACCATCTCG
GACTTTCTGCACCCCGGGGCTACACAAAAAATACCAGAAACACACACAGA
CCGAAACGTACAGCAACAGCACATCACATCACACGTGCTGGTCATGTCAC
TTCACCTTAGCACCCCGATCATGTACTGTAAAGCTGGGCGGTTTTGCTCT
GTGGCCCAGCAGCATTTTTTGCAATGTTGTTGCAGAAGGAGAGGAGGTTT
ACTCTGGATAATGATAGGTTACGGCGAAAAAGTAGCGCCCCGGGGTGCGA
ACTCGAGGTGGGGCGTTTACTAGCATTGTGGTATCCGAAAAGATGGTGCA
CAACTACCGCACGTAATGTGGTACAGACGGACCCCCAGTCTCACGGCTAG
CCGTAGAGTCGCCACCAGACGCTCCAATCTGCCTAGCCGCTGCTTAACAT
ATGTGACGAGCGTGCTGTCGTGCTGAGCTGCCAAATGAATGCGTGGACCG
CAAAGGTCACGGTGCTCTCTTAGATGCAAATGGTGCTAGCGTTACCACGT
TACCATGTACGTCTATGCTTGTCCAAGATTCATTGCTAATGTGGTTGCGA
GCTTTTGCAAACCACACCTTCCGCGGGAGGCCGCGCAATATTTCCAAAGG
TCGATTACGGAACTCCACAACGGGTATGTAGAGTGTCCGTCGGTGCCGTG
CATATCGAACAGGGTTGTCGATCGATATGCGTTGGAACCGCATCATACAT
ACTATACCACACTATCTCGTACAGAGAAAACCTTCCGAAGCCGTTTGGTC
TGATTCGGGACGTGTTCTGATGTTGGCATCACCTGCCCCGTCGCGGAGTA
TTCCATCCGGCCTTGTGGGAAAATCTTTGAAAACCGGTCCAGGAGGCAGG
CTGTAGGTCAAGTATCGTGCGATGTATTGACGGTATCGGTACCTCCTGTT
TCATTTACGAGCCAGGCTCACGGTCGCTTCCTCTTCACGGCATTCCCGTT
GCTCTCGATTCACGTATTTTGTGTCCGCCTGTATATGTCAATGCTTCCGT
AGGTTTGCTACCGATGCCCGGGCGTTCGAGCAGCTCTGCCACCGGCTGGA
GCGTAGGGGGATCGCGAGCGTCGTGGTGCCCATTCGCTGGTACCACTGGC
TGCCCACGTTGGGGGGCAGGAGCGTGCGGCCGATCCTGGATCGCATTCAC
GAGACTGTCATCAGGTGTGCTGTGGTGTGCTGTCCTCGGACACGGGGTTT
CGACCCCCCCCTCCCCCCCCCCGATAAATGTAAAATGCTCGTACAGGCTT
CAACTGGTGTAAATGCGTCCAGAACACATGTTGAATCAAGCTTCTCTTCG
CGTCCCACGCAGCAAGTGGTCCGTCTTCCTTTTGCGCCGCTCAGAACGGA
GTAGCGCCGCGTGGAATCGGCAGCTCAGCGTATGCCCCGAACATGAGCCA
ATTGTCGAAGGCGTGCGGGTTGTGCCGCGTGCTTTTCCCTCAGCGTTTTT
TCTTAGTTTTCAGGGTAGCGCGACGTCTGTGTGACGCAGTTTGTCTTTAA
ACGCACAAAGACGGGCTGGACATGACGCCAATGTGATATGATGTACATTG
ATGTGCGAAGGCGTGAAGCATAACGAAGTATGGTCTGATGCCATCGCACA
CAGAGCGACTCAAATAAACAGAACAACAGAGAGCAGTGGGCGTAACGCAA
ACGGCATGCCCGAGCAATCATCGCCGCCGGCGGCGGATGTGTTGCAGGCA
CTGTTCCGCGAGCGAACATGTAGATATATATCCTGCGGCAGATAATTCAG
ACAGACAGACGCTGTTCTGCAAGATCGCACCCACCCGCGGAGCGTTCTGG
GTTTCTTGTCGACTAGAGTTAGTTGTGAATCAACTTGAAAATTTATGTGA
TGATTATTTGATATGATTATTGATTTGATTAGACTACAGTATGACAATCA
ACAATCATATCTCAACACCTCAAAATTTTCAATGATTGTTCAAGAATATT
TGTCACTCTGTGACCCTTGTTGATTTTGATTTTCTTTTTGTGACCTGGCT
CTGGACCTGGCTCCCCTTTTCTTGTTCTATTTTTGTACAGCGTTGTGTGA
TTCCTCGGGGTCCGTTTTGTTTTGCCTGGAGTTTCCTTGTCGTGCCTTTG
TTTGGTGGACTGAGGGGATCTCCCCCGCCTACTATATACAAGTACCTCTC
TTTTGGGGGCAAGCAGCCTGTGACCACGGAAATCGTCCCTGATCGGTGGA
GTACGCACGTTAGAAGGTACTGAGGAGAGACCGGAATGGTTTTTAATGTG
AAGAGACAACAACAACAACAACAACAACAACAACAACAACAACAACAACA
ACAGCAGCAATCAACTATCATGACTATTTGATTAATCAACTGTTATTGAT
TTTTAGTCCATCATTGTTGATTATTTTAGGAGCAAAAGAGTAGAGGCGTT
GCAGCGTGGAACGGCTTAAAATTTGCCTGCGGCGCGGCGCAATCACACGC
GAAACGACTGAAGATGCGTCACGCGGCGCACGCACAAGCGCGCGACAATG
CTACACACTGCACAGCACACAACACACAGCGCAGCGTTATTTATACTTCG
AAGCAATCAGCTCTATACCAAATCCAATCTGTTGTTACATTATCAGATCT
GTACTAGTTTATTAAGCTTGTAAAACCTTCTTCATAACTTTTTCCCTGAA
GATGCTGCTACTACTTCTTTATACATATATATATACTGCTGTATCCTCCT
GCCTGTGTGTGTGTTGTCATCCCTTTAATTGGACGCCACTCTACACCTTC
CGGGTAGGTAGACGCTCCAACCGGGGTCACACAGTAGGAAGTCAACACAG
GAGTTTTTCTTTTATCTATTTTCTTTTCTTTCTCCACTTCCCACTGCGGT
ACTTACTTCCGTTCCCTCGCTGCCTAGGCAAGGTCTGCTGTAAGCATGAC
CCAAAGCGAGTTGGGGGGGTCTTTCTGGCGGGTGTAAGGCCGGACTCATC
CTCAAGGAGTGATACCTTCTTGCTGCTGCGCTGTGGTCGAACGCCACGGG
CGTGGCGGTAGAGTTGGGTTGCAGTTGGTGTGCCAGGTGCAAATGTGCGG
ATTCGCGGGCCTTTTGGTTACAGCGGCAGTACAGCAATGTACATCACAAG
CGTTTGTGCGCGGAGGCAGGCGACACCACAGGTGAAAAGACGGTACGATC
TAGGATGCGCAGAGGGATTGTGCCGTCCAGTAACCAGTTTCGCAGGTAAG
GACGGAGGTAGACGAGCGGCGATGAACGGGGAAGAGCTTGGTCGATCTCA
CTCCGAGCGTGAACTTTTTTTTCAGAAGACTTGTACCTCAAGAAGTGCAC
AGTTGGGTTCTTTTTTAGGGAACTGATTGGAAAGGAACAACAAGAGAGAG
CTGTTATGTGAGAGAGCGGCGGTGATGGAGTTGACCTAAGGCAACGCCGG
CAGTGAAGAAGCGTTACGAGAGCATGGTACTGGTGATGTGGTCTTGGGCA
ACGCCAACAGCAACGTGGACCCAGACAAGGAGGACATGTGTAGGGCGACA
TCATCACCAGCGTCGCAAGGACGGCATGGAGACACCATCCTCGACAACAT
CTGATGATACGTGTGTGTTTTTGTGTTTTTTCTTTTTCTGTCTTCTCCGA
TTGCCGGGGCTACTTGTACGTTGCAGGCAGCACTCCAGACAGTAACTAAC
TGCTGTAGTCTGCAGCTACCTCCCGACTGCTTGTAGCAGCAGGTTATTAG
TTACAAGTGGGGCGGGAGGAGACTGAACACGATGCTGTAGTCAAATAAAC
CACGCTGGAAGAACGTTTGATGTTGGTACTGCTGTGACTGCTGTAGTTGA
GTGATGCACACCGGTAGGAAGGTGTATCTTCTTCGGTCTTTCTTGGGTAT
TCCCTCGTAGTTTCTTTCTGTTTTTATTATCTTCCTAGGGCTCAGCACTT
TTTATGACCACGGGCTAGATTTTGGCGATGATCTAATGTGAGAATCAATA
ACAACAACAACTTGCCTTCATTTTTTCTCGCGAGAAAGGGTACAGCCATC
CCTTTCCCTCGTCGACACTTCGAATTTTGTATACTCACGAATTAATCGTT
TTCCGCCCTCTCGCATGACATGAGAAGAATTCCAGATCGTGTTACTGCAC
CGGGATTCGAACTCAAGCGTAAGAGTCAGAAGGTTTCGAGGATAATCAAC
TGAACGACCGGGGCGACCGGTTGTCTGTCTGCGTAGGCTGTAATTATTTG
TTGTACACTAGATAGAACGACGGTACAGCAGCAAGCAGTAGACTGACGAC
GTGCTGTGCGTACTTCGTCCCATCATACCATGTGTGTACGAAGTAGTAAA
GTCTACACTCTCCTCTACACTCTGTATTATTGCAGACCATTTATTATCCT
GTATTCTGTCGGCGGCTCTTACTGCTTTATTGTGTGATGTGTTATCGCAA
CTCTCGATCTACAGAATCAACAACAACTGCTATCTTTCCCACCTGCTCTG
TAGACCACATATAACACCCGCAGATGCATGCGAAATATTGCACTTCGTAT
GCTTTTTCCTTTATACTTCGAAGTATATTTTCGCTCAACACTAAATTTCA
TGTACTGCAGTAATTTGCCCCTGTCAACTAATCAACCCCTGTCGATTATA
ATCACAAAAATCAGATAAAAAATCAGCGTTTCATATCCGGAATAATAATC
AATGATCAAATCAAACCCGTTTTCAGGTTGATTCACAACTAACTACTCTA
ATCTAAATATTGTGGACGGACGTAGTCGAAACGAAATATGTCGGGCCGCA
TGTCAGACCACATCTTCTCATGAATTCATGCCAAAAGAGCGTGTTCTACG
GCAAAGAATAGCCAAGTTATGATTCTTGGACCCCGGGATCATTATCTAGC
TTCACATTGATCCCACTTGCGTGTCACATGCTTCGGTGCTGGCTGAGAAA
AGGCCAAAATGCTCCATGCGGCGTAATTACATCTTCTATGTACGACGCAG
TCTTTTCTCTCTCGTTCTCTTTCTGCTGTTGTTGTCGAAACGTAAGAAAG
CGTTGTTTGGCGACGAACGACTAGCGTCTGCAAACTCGGCGCAGTCTTTT
CTCTCGCTCTCTCTCTTCTCTGTTTGTTGTCGAAACATAAGGGCGCATTT
GGCTAACGGAATGCATCTGCATACAAACCAACGAACACACATCAAATACC
CCCCGCAGCACTGAGTATACCAATGCATCGCGTCCAGACTGTCACGGGTC
TTTGGGCCCGAAGTCATTATCACATCGCTTCATTATCATATCGCTTCATT
TTATCCCGCTTCCGCGTCATGTGCTTCGATGCTGGCTGAGTATAGAAAGG
CCAAAACGCTACGAAGTACATGCGGCTCAATTACATCTATCTGTGTAAGA
GTCAAAATTTTCTCTCGTTCTCTCTCTGTTGTCGAAACGAAAGAAAGCGT
TGGGCGAACGGCTAGCGTCTGCAAACTCGGCCAAGGAAGCACCAACCGAG
CTAACACTTTCTGGAGGCCTCTGAGATCGTCGTAGACGTGCAATGAGCTC
GCCGGTTGTGTCGCACTCGATTGGCTCTAATTTTTCCAATTTTTTCATGG
TTTGGAGCTTCCGTCTGAGACCGACATACATACATACATACATAAAAATG
TTTTACCGTTCCGTAAGTACCCCTCAGTTAACACTGAGGGAATTTCAGGG
GCCATTAGTCGCCGGTCCTCCAAAACGCCGGTGATTGCAAGGCGTAAAAC
ATGTCACGCACTCGCAATCGACTGCTGTAGTGTCGGAGGAGTTGATACCG
TTTTGCTTTACCACTGGTTCTATTCTTAGCACAAAGTCCGCAGATCGCCT
GCCGTTGTTGTTTTCCGGGTGTCTCAAGGTGTGTCATGGCCGACGAGCAC
AAGGATTTGCCCTACGCTTTCAACGAGCCCGGGCTGCAGAAGGAGGTCTC
GCCGTACACGGCACAAGACTTCTTGGCGGAGATGGATGATCCCACGGTAA
GTTGCTACTTTTTGCTTTTTTCGTTCGAAGTTTGCGCATCCATTTCACTT
TTCTTCACGAGTGCTTTTACGGTGTTTTGTGGCCGACGAGCACAAGGGTT
TTCCTACGCTTTCTATATACGAGCCCGGACTGCAGAACGAAGTCTCGCCC
TGCACGGAACAAGACTTCTCGGCGAAAATTGGTGGCGTCGAGAAACCAGG
CGGGGGCGGGGAAAGTTGCTTTATGTGCTTTTGCATCAATTTTCATTCAT
TTTATGACGGTGTTTCATGGCCGACGACCACAAAAATCAAGATTTGCCCT
TGAGCCCGGGCTGCAGAAGCAGGTCTCGCCTTACACGGCACAAGACTTCT
CAGCGAAATTGGGTGATCCCGCAGTATGTTGATGTGCTTTGGACCGTTTT
AAGCTTGTGCGTTCATTTGTTTTTTTTGTTACAGAGACATTATGCACTTC
TGTTTTCCTCCGTGTCGACAAGACAATAGTTGAGACAAAGCTGCAGAAGT
GAAAACTTAGAAAAAGTCATCTCTTCTCCAGTTCGCGTATGTCGAAATAC
CCCGATGAATCAGTAGGCAGGTTCTTTCCATCGAAGACGCATATTAGATC
ACCACCAATATTGGGTGCATTTGAACGCCGTAGAAAATACCCCATTTTTA
CGTGTTTGATTGATATGTGTGGGGTGCTTCATCATGATTTCGTGCGAACC
CGGAGTGCGGGCACCATGTGGACCGTGTTTTTTCCCCTGACGCCGGCAGC
GCGGCGAAATAAGATATCGCGAGCTGCTGGCTTCTAACATGGAACCCCAA
ACATATAATGCTGCTCGGATGTTTCGCGTTGGGTGCTTGTTGTTGCTTTT
TGGGTGCAGCGGGGGGCGCACCACATGGGCCCCCTTAACCTTCCCGTCCT
GCCGGCGACGCCATCGACGGGCGAGCGCGTGATTTTGGTGGCGCATTCCG
CGGGAGGGTGGATATCCAGGATCTACCTCTCAGAGGCCAGGTAGGGAGGT
AACCACCCGCTCTTGTTTTGATGTTATTGCTATTTTCTGCGTTGCCTTCG
TTGTACTTCATGCCAAACGCCGTTGCATCCATCCAAGTCCCCGTCACATC
GTCGCATCTTCAGGCCCCGCTCACCACCGGTTCTGTCCGTCAGGTCATCA
CATGCAGATGGCTTCGGTGTTGCCTTTGTCTACAAGCCTAACTGACGAAA
AATCCTGTTGCCGCCGTCTGCTGTTGTGTGTTCCATCTTGTTAGGTACGA
CGGCCGAACGTACAACGCGTCTTGTTTGGTGAACGGGCTCGTGACGCTGG
GCACACCGCACGTCCGCCTAGAGGACGACTTCGGCCGCCCTCGCGAGTTA
CCCTTCAGCAGAAATTTCAAGGTCCGTGATTTACCGTTCGCACGCCGTCG
TCGCCGCTCGTGCCTCCATTTTTTTCGGGGTAGTTTAACGCCACGCTGGG
TTCAGTACAAAAAGAAAGGGAAAAAAGGGTTTGAAAACGAACGGCGTTTA
GGAAAAATGACGTGAATGGGGTTGTACTAGTCGAGGTACCGTGCTGCTTC
GGGGGTGCGTAAAATTTTGGTTTTTCGATCATGACGGCAGGTTTTTCGGA
AGTCGTTCGTTCGTTGTCAACTCCATTGCGGGCGGGGCCGACATGTTTTA
AGGCTGGGAGTGTGTACCGTGCCAAATTACTGGCTACAGCAGTATGAAAA
ATTTAGATGACAGGTTTCGAAAGACAAGGGGGCATCAATTCAAATCGAAG
CTATGAACTGCTGTGCGTGCCGAACTTGCTCGACGTGGCGTGGCACCCCG
GGAGAAAAGTTCGTGGAAGAGTTCTGCGTTGGAGAAGTTGGCGGCGACTG
GGAGAAGCGAACACCAACAGCTTGCATCGGAGGTGCGGCTCTGCAGGGGC
AGTCGATATTCAGAGGCCTGTACAAGGATCTGGTGAGTTGAGAGGCGAAT
GATGGTTGATGCGCCGGAAGTTACAAAGACCTTATCGTGAGGGCCTAAAC
CGCACTTTGTGGGCAAGTCGCTCTCGTGTTCCCGTTTGAGAGTCGTTTTC
AATGACCCGTTCTACGCATGTTTTTTCCATCGACGTATGTATTCCCGAGA
ATTTAGATGCCGCTCAAAGGTATTTCTCGAAGCGGATTGTCTTTGAGAGG
GCTAGTACATACAGTTTTTTTTTGTTACGGTATTCCAGAGAGAGAGAGAG
TCGCGTGCCGAGCACGCCCCGCATATCATGCAAATTGGTACATATGATAC
TCCACACCCGCGGTGCGGTTCGTTCCTCGTGTAACAACGTCGTTCGCGCG
TATCTAAGCGTGGTGGAACGGAAGGGCCACCTGGCTCGTTTGTGGATCCG
GGTTATCGATGATTTGAAGCGGAACCTCATCGAGCTGTTTCCTCCTTGTG
TTTCCCCTCCCCGGTGGAGCGTGCCTTACGACATGCGCCGCAGCTTCCTC
GAGAAATCGATTTTCGTCTCTGATGTGCGTGCGCACACACACGCAACCTG
CTTGTTAGTTCGGGTTTTGTTTTTTGTTGTTTTTTGGTCTCCGAGCGTGT
TACCTCTTCATTTCCCTGGTCAACAGCAGTCAACACAGTGAACTTGCAAA
AATACCATCGGGTTTTTCGCTCGCCGAGTGAATCGAATCAAGCACGAGGA
TCAACGGCAGTACCTCCCACGCTCCACACAAGGAGGCAGGGAAGTGGACA
ACCCCCCTACTCCAAACCTAGCGTTCCACGTCCACCCGTACATGTCCTTG
GCCGGAAAGGTCTACCAGAGCTACGAGCTTTGCTGCGGGGACGGGTCGGG
CATGGGAGACGGCATCACCCCGCTCACGAGCGCGTTCGGTATGGCGGGTG
CTCAACGCTACGTTGAGCTCGAGGTGCGCGGTGTTAATATCGGTCAACCG
TATCAACATACATAGCGTTGGACCGTCACAGCGGAAGACGGCAAGTATTG
GGTGGTAGGTCAGCTGGTCGGTGCCTAATCATCGCATGTTTTTTCTTGCT
TTTTTTAATGTATGGGACAAGATATGCCTGATTTTTGCCGAAGTAAGGCG
GTATCTACCCTACCCATCGTCCAGTTCTACGTACGTGCGCATACGCTGTA
GTGCACAAGACGGTCATGACCGCCGTCCCGCTGCGGATAGGTCCGTCGGT
CGGTGACTCGCCATCGCATTGGTGTTGACGAAAAATGCTGTGTCTTCCAC
GTATTGCCGGCGTGTGATATCTACCCGTTGTTGTGTACTGCTGGAATCCA
CACCGCTGATGAACCATTACTACGGCAATGAACGGACGCCTCCAACGGAA
ATCAACGCCTCCCACGATAATGAACGCCTTCTCCGCGGGGGCTCCGCGAT
TACATCGCTTTTTTTTCAGGGGGTGCTCCACGCTGCAGGTTTGGGCGGGC
CGTGGTACGGTAGCGAAAGCGTCATCGACTCGGTAAGATACTCTTGCGGC
GATGAGCACTCGCTTTCATACAGTGTACGTTCTTTTCGAAGCATACGAGT
GGCTTGCCCTCGGGACAAGTTTAAGGCGTCGTTCGATTGGATGGGTCCTT
ACTCCTTTGCTGTACGATGCAGAGCGTTGCTTGCCGGTATTTCTTAGGAT
ATCTCAACCAAGCGTTGTTCTCATGCGTTTGTGTTGCAAAGCGTGTTCCA
AACATGCAACCGTACCGTATCCTTCTTTCGGGCTACTGTATTTCACTGTC
CCTGTGTTCGTTTCCGAAGAACGATAAACCCAGTGCCGTTGACGCCAATC
CAGTTCGAAAGGATCGGGCAAACCTCCTCTGTAAAGGTCAAAGAGTGAGG
CCGCACGCCCCGACCAGTATTTAAAGACAAGTCTCGCTTGACGACGTCCA
CATTATGTTTGTGTCCGCCCATGCCCTCTGTATTCGTCTGGCCTGCCCAA
CCGCGGGCACACTATTGTACTTTCCCAGTGGTTGGGACCTTCCCTTGACA
CGTTTTTCGGCCCAGCGACAACGGCAGATGGCGGCGCGTCGAGTGTTTCG
AGGGCGGGCTCAAAACCCCGACAGCAGGCTGCATCTAGCACTGCGCGTGA
CGATGACAGGATGGGAAAAGACGTAGCCTAGGGCTACCGGTATGTTCTAT
GATAGGGGGCGTCTGGGGCACAGCAGCTCCTGGCTTTCTAAGTTTTCCGT
TTTTCATATTTGGGATAAATCACAATCCTCGCGGACATAGGCAGACGCCG
CCGCTGAGAGCAAGATACACCAGTTGAGTGCTCGGAATATTGAATACAGC
TTGTATGTAGGATACGATGCCCACCGAGCGTTGTCGCGTATGTACCCCTT
TTTACGACATCAGGGACCGCGGAGATTGAACCAACACACAAACACACCTT
CTGACTGTATAAAAATTCGAGGGTGGTCGGATTGGTCGCGAACGCAGCAA
GATGCCACTTGCTGAAGTGATCAAGGCGTTCAGCGTTTCCATGTCTTCGT
GGGGCAAGATTACTGCGTGCAGTGGGCGCAAGAATGTCTGGGAGTGCCAT
TACGTCGCGTTTCGTTTACTGCGCTTTAGCGACAGCGACAGGATTGCTGA
TGGGGCGATCGCTCGTTTGCGGTGATTTTCGTCTGTATATATGCTTGAAG
GCTGCCTTGCGGTTGTTGTCCTCAAGTCGACGGCGAGAGTGCACTCGCAG
CGTGTGCCTGCATTGGGGTGTAGAGAGGGTGATCGCGCGCTAGAAGGCGT
GTAGCGTGTCTTTTGATACAGGATAAGTTGTTGAAGGTGTGTGTGGCGTG
TCTGTTGACAGGTGTGATAGGTGTGCGTGTGTTTGTGTGTTGTTAATCCC
GTCTTCTTTGACTTTGGACACCGGTCTACGCCTTTTGGCTGAAGTTGGGC
GCACCAGCCGGGGTCACGGACAGACAGGAAGGAAAAAACTCGACGAGTTT
TTGTTGTTGTTTCGGTATGTGGTAAAAATATACGGAGCACATGCGAAAAC
AGTTTTTTCGACTCATGTTTTCTAGGGGTTTATGGTCTTTAGGGCATCGT
GCGAGTGCGGGTGCAGTAGATATAAAGACGAGACACAACTTTGGCTTGGA
ATTTGGTTCCCGTGTACTTAAAAAAAACTTGAAGCATCAGCAAACGGTTT
TCATTTTGCGCCGGCGCCCCCCTTTTTGCGGTGGTGCTATTTGTGCGTAA
TATTTGTTCGTGTCAGCTACTGAGAGGCTTGCGCTGAAATAGTTTCTCAG
TTTAACAGTTTGAAAAGCCGGTCGCCGTTGTGACCCGTGTGACACGGGAA
ACCCGACATATTTCCATTGAAACCCGAAGTTTGACTGGACGATGCAATGC
GAGACCCGCGTATGTGCGTGCGCGTGGATACAATTAGCGAAGG

Coding sequence (CDS) from alignment at P-littoralis_Contig15:867242..883484+

>mRNA_P-littoralis_Contig15.231.2 ID=mRNA_P-littoralis_Contig15.231.2|Name=mRNA_P-littoralis_Contig15.231.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1695bp|location=Sequence derived from alignment at P-littoralis_Contig15:867242..883484+ (Pylaiella littoralis U1_48)
ATGATTGGGGCAAGCATTTGCCTCGTGGCGTGTATGTGTGTGCTAGATTC
CAGGAGAGGAGATGCATCGTGGTCGGGCGTCAGGCTTCTTCGTCGTGATG
GACGATCATCGTCGGAAACTAGGCCTCTCCGATTATTGCCGCGTTTGATG
CGCGATAGACAGCAACCGCAACGGTCACGGCCCCGCCGTGGCACAACAGC
AATGGCAGCTAGCTCAGGCAATCAGCTATCTACTGGGATTCCATCCTGCC
ACCGGAAAAGGGCGAGCATGATGAGGTGCGAAGGGGAAATGCATCGAGGG
GGTTGGCGCCAGGTTATGTTTGTCGTGTCGAGACCTCCAGCTGCAAGTTC
AAGAGGTTACACATGGAGCTATAGTCAAGATACCTCATCATCCCCTTGGC
GACAGCAGCGGCAACGGCAACAGCCGAGTGCGGAGCTGTTGAGGAATGCT
TGGAAGTGCGGTCCGTGTGCCGCTAAACCTCGACGGTCGGAATGCGTGCG
ACAGCAGTGTCGTCCGGGGGTTTCGATGACGAGCAGGGAGGAAGATGGAG
AAAATGTTGCTTTGCCAATTCCGCCGCCTCGCATGCGACAGCAGCAGCAT
GAGCAGCAGCAGCAGCAGCAGCAGCAACCGGACGAGGATCCCGACGTGCC
GTATGTGAGGCCAGAGGTGCCGAGATGGAGACACAAGGCCGTCATCATTC
CGGGGTTTGCTACCGATGCCCGGGCGTTCGAGCAGCTCTGCCACCGGCTG
GAGCGTAGGGGGATCGCGAGCGTCGTGGTGCCCATTCGCTGGTACCACTG
GCTGCCCACGTTGGGGGGCAGGAGCGTGCGGCCGATCCTGGATCGCATTC
ACGAGACTGTCATCAGGTGTGTCATGGCCGACGAGCACAAGGATTTGCCC
TACGCTTTCAACGAGCCCGGGCTGCAGAAGGAGGTCTCGCCGTACACGGC
ACAAGACTTCTTGGCGGAGATGGATGATCCCACGCGGGGGGCGCACCACA
TGGGCCCCCTTAACCTTCCCGTCCTGCCGGCGACGCCATCGACGGGCGAG
CGCGTGATTTTGGTGGCGCATTCCGCGGGAGGGTGGATATCCAGGATCTA
CCTCTCAGAGGCCAGGTACGACGGCCGAACGTACAACGCGTCTTGTTTGG
TGAACGGGCTCGTGACGCTGGGCACACCGCACGTCCGCCTAGAGGACGAC
TTCGGCCGCCCTCGCGAGTTACCCTTCAGCAGAAATTTCAAGTTCGTGGA
AGAGTTCTGCGTTGGAGAAGTTGGCGGCGACTGGGAGAAGCGAACACCAA
CAGCTTGCATCGGAGGTGCGGCTCTGCAGGGGCAGTCGATATTCAGAGGC
CTGTACAAGGATCTGGTCTACCAGAGCTACGAGCTTTGCTGCGGGGACGG
GTCGGGCATGGGAGACGGCATCACCCCGCTCACGAGCGCGTTCGGTATGG
CGGGTGCTCAACGCTACGTTGAGCTCGAGGGGGTGCTCCACGCTGCAGGT
TTGGGCGGGCCGTGGTACGGTAGCGAAAGCGTCATCGACTCGTGGTTGGG
ACCTTCCCTTGACACGTTTTTCGGCCCAGCGACAACGGCAGATGGCGGCG
CGTCGAGTGTTTCGAGGGCGGGCTCAAAACCCCGACAGCAGGCTGCATCT
AGCACTGCGCGTGACGATGACAGGATGGGAAAAGACGTAGCCTAG