mRNA_P-littoralis_Contig74.103.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig74.103.1
Unique Name	mRNA_P-littoralis_Contig74.103.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: D7FQX9_ECTSI (Exonuclease 1 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQX9_ECTSI)

HSP 1 Score: 512 bits (1319), Expect = 1.980e-168
Identity = 254/299 (84.95%), Postives = 271/299 (90.64%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVNSSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLG 1022
            MGI GLL  LKSVTYP HI EYRGL  GVDAYCWLHRG FSCG ELCTG+ATDKYVAFCMKRVNLLLHHGIQP MVFDG+SLP+KR+ NLER RQRE+ARSKGEAALAAGEAGAA+QHFSKAVGVTHDMAF L+KALRQAGV+ +VAPYEADAQLAFLSRTGAVDVV++EDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSL NWKNSMFLDLCLLVGCDYI SSVKGLGI TA+KLV  HRSLDKII A+NSS+FV+PEGYWEQYK ARLTFRHHIIYNP+T+     M  G
Sbjct:    1 MGITGLLPFLKSVTYPTHISEYRGLKAGVDAYCWLHRGAFSCGMELCTGVATDKYVAFCMKRVNLLLHHGIQPVMVFDGASLPIKRSINLERRRQRETARSKGEAALAAGEAGAAAQHFSKAVGVTHDMAFLLMKALRQAGVELVVAPYEADAQLAFLSRTGAVDVVLSEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLSNWKNSMFLDLCLLVGCDYIPSSVKGLGIATAYKLVDRHRSLDKIIGAINSSRFVIPEGYWEQYKRARLTFRHHIIYNPETEDEKGHMADG 299

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: A0A836CAX1_9STRA (Exonuclease 1 (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CAX1_9STRA)

HSP 1 Score: 369 bits (947), Expect = 9.690e-117
Identity = 178/337 (52.82%), Postives = 250/337 (74.18%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVNSS-KFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKE-VDLHFLGPHLQPQVAQGVASGCLLPTSHQPY 1130
            MGI GLL  LKS+T+PVH+R+  GLTVGVDAYCWLHRG +SC TE+C G  TDK+V FCM+R+ LLL HG+ P +VFDG+ LPMK   N  R   R +  +K EAA+AAGE  AA QH++++V +TH++A   +++L + G++F+VAPYEADAQLAF+S+ G +D +ITEDSDCLP+ CK++LFK++N+G  QEI+ R+L++N   SL  W  SMFLD+CLL GCDY+   V GLGI TAHKLV  HRS   ++ A+ +S KF +P+ + ++++MARLTFRH  +Y+P+++  + LMPL  +A+E  +L FLGP L P +A+ +A+  + P + +PY
Sbjct:    1 MGISGLLQTLKSITHPVHVRDLEGLTVGVDAYCWLHRGAYSCSTEICRGEFTDKFVRFCMRRIELLLSHGVTPWVVFDGAPLPMKHGVNKARRDARAANLAKAEAAMAAGEPIAAQQHYARSVAITHELARMFIRSLARRGIKFVVAPYEADAQLAFMSQQGLIDAIITEDSDCLPFCCKRMLFKLENDGSAQEIRARDLSSNENPSLAGWTYSMFLDMCLLAGCDYLPR-VHGLGIGTAHKLVARHRSHKPMLAALRASRKFALPDDFEDRFEMARLTFRHQRVYDPRSRCVVPLMPLPPSARERQNLDFLGPELPPHIAEAIANSTMDPYTREPY 336

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: W7TNX5_9STRA (Exonuclease 1 n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TNX5_9STRA)

HSP 1 Score: 352 bits (902), Expect = 7.960e-110
Identity = 178/338 (52.66%), Postives = 233/338 (68.93%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAV---NSSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPY 1130
            MGI GLL  LKSVT+ VH+REY+G+  G+DA+CWLHRG F+C TEL  G  TDKY+ FCM+RV +L  +GI P MVFDG+S+P KR+ +L R   R  AR+K  A    G+ G A   F KAV +TH+MA++L+K L++A V+++VAPYEADAQLA+L+R G VD+VI+EDSD LPYGC +VLFK+D EG  QEI+ RNLA N       W  +MFLD+CLL GCDY+ + + GLGI TAHKLVR HR+  K++ A+      +  VP  Y E++  ARLTFRHH +Y+P+    + L P      E+DL FLGP   P++A+ VA G L P + Q Y
Sbjct:    1 MGIAGLLPLLKSVTHTVHLREYQGMMAGIDAFCWLHRGAFTCCTELVLGKTTDKYIRFCMERVRILQENGITPFMVFDGASIPAKRDLHLSRRAARTEARAKALAVHEEGQIGQARTLFQKAVIITHEMAYELIKCLQEANVRYMVAPYEADAQLAYLARKGVVDLVISEDSDTLPYGCPRVLFKLDKEGRAQEIERRNLALNEDYDFEGWTENMFLDMCLLAGCDYLPN-LPGLGIKTAHKLVRQHRTYKKVLGALATPGGKEMAVPGDYMERFARARLTFRHHYVYDPEDGGIVPLTPFTPAHLELDLRFLGPRHAPELARAVAEGRLNPDTLQAY 337

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: A0A6H5JK90_9PHAE (Exonuclease 1 n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JK90_9PHAE)

HSP 1 Score: 299 bits (765), Expect = 1.240e-90
Identity = 151/182 (82.97%), Postives = 159/182 (87.36%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKV 671
            MGI GLL  LKSVTYP HI EYRGL  GVDAYCWLHRG FSCG ELCTG+ATDKYVAFCMKRVNLLLHHGIQP MVFDG+SLP+KR   LER RQRESARSKGEA       GAA+QHFSKAVGVTHDMAF L+KALRQAGV+ IVAPYEADAQLAFLSRTGAVDVV++EDSDCLPYGCKKV
Sbjct:    1 MGITGLLPFLKSVTYPTHISEYRGLKAGVDAYCWLHRGAFSCGMELCTGVATDKYVAFCMKRVNLLLHHGIQPVMVFDGASLPIKRRITLERRRQRESARSKGEAXXXXXXXGAAAQHFSKAVGVTHDMAFHLMKALRQAGVELIVAPYEADAQLAFLSRTGAVDVVLSEDSDCLPYGCKKV 182

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: UPI000D1C6787 (exonuclease 1 n=5 Tax=Selaginella moellendorffii TaxID=88036 RepID=UPI000D1C6787)

HSP 1 Score: 306 bits (784), Expect = 3.150e-89
Identity = 156/341 (45.75%), Postives = 220/341 (64.52%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVNSSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPL-GDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPYETAAP 1145
            MGI GLL ALKS+T   +++EY G+ V VD Y WLH+  FSC  ++C G AT  ++ +CM RVNLL HHGI+P +VFDG SLPMK  +  +R R RE          A+G   AA  H+ KAV +T ++A QL+  LR+  V++IV+PYEADAQ+AFL+  G VD VITEDSD + YGC K+LFKMD  G G E+Q  +L  N  L+L ++   M L++C+L GCDY+ S ++G+G+  AH L+R  RS +K+IR +  S  ++P+ Y E ++ A LTF HH++Y+P     ++L  L  D ++EV+  FLGP L   + Q +  G + P +H P + A P
Sbjct:    1 MGIQGLLPALKSITTSTNVKEYSGMRVAVDTYSWLHKAAFSCSKDICDGRATASFLNYCMHRVNLLRHHGIKPLLVFDGGSLPMKAEQEEKRSRAREEHLKLARECEASGNHAAAYDHYQKAVDITPEVAHQLILVLRRENVEYIVSPYEADAQMAFLALRGVVDAVITEDSDLVAYGCPKILFKMDKNGQGFELQYADLVKNRDLNLTSFTKRMMLEMCILSGCDYLPS-LQGMGVKRAHNLIRRFRSYEKVIRHLKFSGVMIPKSYEEGFRKALLTFCHHLVYDPTQDELVHLTELPADCSEEVE--FLGPKLSRSLVQQIVRGVIHPETHAPLQLAEP 338

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: A0A1V9YDM5_9STRA (Exonuclease 1 n=1 Tax=Achlya hypogyna TaxID=1202772 RepID=A0A1V9YDM5_9STRA)

HSP 1 Score: 301 bits (771), Expect = 6.170e-89
Identity = 168/356 (47.19%), Postives = 224/356 (62.92%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVN-SSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPYET----AAPLERSAPCYPSP 1178
            MGI  LL  LKS+T P ++  YRG TV VD YCWLHRG +SC  ELC G  +DKY+ + M+RV+ LL  GI P +VFDG  LPMK+ K  ER   RE  R+ G   L      AA Q F KAV V+  MA +++++L++  VQ++VAPYEADAQ+A+L+R G VD VI+EDSDCLP+GC  VLFKMDN GH  EI+L +LA N  LS   + + MFLD+C+L GCDY+ +S+ GLG+  +H L++ + +  K++RA+    K  + + Y      ARLTFRH  +Y+P+TKT + L  +  T    D  FLGP +   VAQ +A G L P S   + T    A P  R A   P+P
Sbjct:    1 MGISNLLPQLKSITTPTNLEAYRGKTVAVDGYCWLHRGVYSCSQELCLGQGSDKYINYFMERVDHLLTCGIIPYIVFDGGYLPMKKLKEEERRSGREKHRTAGLQHLENKNYEAARQCFVKAVDVSPYMAHRVIQSLKKRKVQYVVAPYEADAQMAYLARAGLVDAVISEDSDCLPFGCPTVLFKMDNTGHVDEIRLADLAKNKALSFVGFNDDMFLDMCILSGCDYV-ASIPGLGVKKSHGLLQRYGTWQKVVRALRLEGKLAITKSYEADVTQARLTFRHQRVYDPRTKTLVTLTEMAPTKNATD--FLGPEISNDVAQLIAEGDLDPISMDRFPTTPVKATPPPRPAKLTPTP 353

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BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: W4H3P1_9STRA (Exonuclease 1 n=1 Tax=Aphanomyces astaci TaxID=112090 RepID=W4H3P1_9STRA)

HSP 1 Score: 298 bits (763), Expect = 2.780e-87
Identity = 160/336 (47.62%), Postives = 217/336 (64.58%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVN-SSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPY 1130
            MGI  LL  LKS+T    +  Y+G TV VD Y WLHRG +SC  ELC GL TD+YV + M+RV LL+  GI P +VFDG  LPMK+ K  ER   RE  R  G A L A +   A Q F KAV V+  MA ++++ L++ GV++IVAPYEADAQ+A+L RTGAVD VI+EDSDCLPYGC  VLFKMD  G+ + IQ  +LA NT LS   + + MFLD+C+L GCDY+ +S+ GLG+  +H L+  + S  K++RA+    K  + + Y      ARLTFRH  +Y+P ++T  ++ PL  +    D  FLGP +   +A+G+A G + P + +P+
Sbjct:    1 MGISNLLPQLKSITKSTTLHAYKGKTVAVDGYVWLHRGAYSCSQELCLGLDTDRYVGYFMERVGLLIKCGIIPYIVFDGGYLPMKKLKEDERRLSREKHREAGLAYLKANKLDLARQSFVKAVDVSPSMAHRVIQRLQETGVKYIVAPYEADAQMAYLVRTGAVDAVISEDSDCLPYGCHHVLFKMDTPGNVEVIQAAHLALNTTLSFVGFTDDMFLDMCILSGCDYV-ASIPGLGVKKSHGLMLRYGSYQKVVRALRLEGKLPITKTYEADVARARLTFRHQRVYDPVSQTLTHVTPLPASLDGQDTDFLGPIISTVLARGIAEGHIDPITGKPF 335

[Close]

BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: D8RZD7_SELML (Exonuclease 1 n=1 Tax=Selaginella moellendorffii TaxID=88036 RepID=D8RZD7_SELML)

HSP 1 Score: 293 bits (749), Expect = 7.430e-87
Identity = 148/314 (47.13%), Postives = 208/314 (66.24%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVNSSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPL-GDTAKEVDLHFLGPH 1064
            MGI GLL ALKS+T   +++EY G+ V VD Y WLH+  FSC  ++C G AT  ++ +CM RVNLL HHGI+P +VFDG SLPMK  +  +R R RE          A+G   AA  H+ KAV +T ++A QL+  LR+  V++IV+PYEADAQ+AFL+  G VD VITEDSD + YGC K+LFKMD  G G E+Q  +L  N  L+L ++   M L++C+L GCDY+ S ++G+G+  AH L+R  RS +K+IR +  S  ++P+ Y E ++ A LTF HH++Y+P     ++L  L  D ++EV+  FLGP+
Sbjct:    1 MGIQGLLPALKSITTSTNVKEYSGMRVAVDTYSWLHKAAFSCSKDICDGRATASFLNYCMHRVNLLRHHGIKPLLVFDGGSLPMKAEQEEKRSRAREEHLKLARECEASGNHAAAYDHYQKAVDITPEVAHQLILVLRRENVEYIVSPYEADAQMAFLALRGVVDAVITEDSDLVAYGCPKILFKMDKNGQGFELQYADLVKNRDLNLTSFTKRMMLEMCILSGCDYLPS-LQGMGVKRAHNLIRRFRSYEKVIRHLKFSGVMIPKSYEEGFRKALLTFCHHLVYDPTQDELVHLTELPADCSEEVE--FLGPY 311

[Close]

BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: A0A1V9ZBX7_9STRA (Exonuclease 1 n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1V9ZBX7_9STRA)

HSP 1 Score: 295 bits (756), Expect = 1.410e-86
Identity = 158/336 (47.02%), Postives = 215/336 (63.99%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSLDKIIRAVN-SSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPY 1130
            MGI  LL  LKS+T    +  YRG TV VD YCWLHRG +SC  ELC G  T+KYV + M RV  LL  GI P +VFDG  LPMK+ K  ER   RE  R  G   L       A Q F KAV V+  MA ++++ L++  V++IVAPYEADAQ+A+L+R G VD VI+EDSDCLP+GC  VLFKMD  G+  EI L++LA N  LS   + + MFLD+C+L GCDY+ +S+ GLG+  +H L++ + S  K++R++    K  + + Y E ++ ARLTFRH  +Y+P T+T +NL PL   + E+D  FLGP +   +A+ +A G + P +  P+
Sbjct:    1 MGITNLLPQLKSITTSTTLENYRGKTVAVDGYCWLHRGVYSCSQELCLGQETNKYVKYFMDRVEYLLTCGIVPYIVFDGGYLPMKKLKEEERRSSREKHRESGLQYLENKNYEMARQSFIKAVDVSPLMAHRVIQCLKKRNVKYIVAPYEADAQMAYLARNGLVDAVISEDSDCLPFGCHTVLFKMDQVGNVDEIVLKDLANNKALSFVGFSDDMFLDMCILSGCDYV-ASIPGLGVKKSHGLLQRYGSWKKVVRSLRLEGKLTIAKSYEEDFERARLTFRHQRVYDPTTQTLVNLTPLESPSSEMD--FLGPIIPDSIAKDIAEGNMDPITQTPF 333

[Close]

BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Match: A0A7S0QPV1_9CRYP (Exonuclease 1 (Fragment) n=1 Tax=Cryptomonas curvata TaxID=233186 RepID=A0A7S0QPV1_9CRYP)

HSP 1 Score: 288 bits (738), Expect = 8.610e-86
Identity = 152/348 (43.68%), Postives = 216/348 (62.07%), Query Frame = 3

Query:  126 MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGLATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESARSKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYEADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNLAANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVR---SHRSLDK--IIRAVNSSKF---VVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGDTAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPYETAAP 1145
            MGI GLL  L ++    H+  Y+G+ V VD Y WLHRG +SC  ELCTG  TDKY+ +C+ RV LLLHHG+ P M+FDG+ LP K+     R   RE  ++KG  AL +    AA ++F +AV +T  MA +L+KALR+  V+ IVAP+EADAQLA+L+  G V  VI+EDSD + +G   V+FKMD EGHG+E + + L A   L L  W++  FL +C+  GCDY+  S+ GLGI  AH  ++   S+R+  +   I+A+   +    VVP  Y   ++ A LTFRH ++Y+P+    + + P+    +  DL F G  L P VA+G+A+G L P +H P++ A P
Sbjct:    1 MGISGLLPVLGNIMESKHVSVYKGMKVAVDTYGWLHRGAYSCSLELCTGAPTDKYITYCIDRVKLLLHHGVTPVMIFDGADLPSKKGTETNRKSSREEFKAKGLQALRSDNRAAAMEYFQRAVDITPRMAHRLIKALRKIKVECIVAPHEADAQLAYLNLKGYVQAVISEDSDIVAFGADTVMFKMDREGHGREYRRKLLGACDKLRLAGWEHERFLQMCIFAGCDYL-KSLNGLGIKRAHAAIQGDGSNRAAPEECYIKALTRLRLEGTVVPPTYQADFRRAYLTFRHQLVYDPEQACLLPIWPVPPELQGEDLSFTGHPLPPDVARGIATGDLDPATHLPFDAAPP 347

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig74.103.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FQX9_ECTSI	1.980e-168	84.95	Exonuclease 1 n=1 Tax=Ectocarpus siliculosus TaxID...	[more]
A0A836CAX1_9STRA	9.690e-117	52.82	Exonuclease 1 (Fragment) n=1 Tax=Tribonema minus T...	[more]
W7TNX5_9STRA	7.960e-110	52.66	Exonuclease 1 n=1 Tax=Nannochloropsis gaditana Tax...	[more]
A0A6H5JK90_9PHAE	1.240e-90	82.97	Exonuclease 1 n=1 Tax=Ectocarpus sp. CCAP 1310/34 ...	[more]
UPI000D1C6787	3.150e-89	45.75	exonuclease 1 n=5 Tax=Selaginella moellendorffii T...	[more]
A0A1V9YDM5_9STRA	6.170e-89	47.19	Exonuclease 1 n=1 Tax=Achlya hypogyna TaxID=120277...	[more]
W4H3P1_9STRA	2.780e-87	47.62	Exonuclease 1 n=1 Tax=Aphanomyces astaci TaxID=112...	[more]
D8RZD7_SELML	7.430e-87	47.13	Exonuclease 1 n=1 Tax=Selaginella moellendorffii T...	[more]
A0A1V9ZBX7_9STRA	1.410e-86	47.02	Exonuclease 1 n=1 Tax=Thraustotheca clavata TaxID=...	[more]
A0A7S0QPV1_9CRYP	8.610e-86	43.68	Exonuclease 1 (Fragment) n=1 Tax=Cryptomonas curva...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig74	contig	P-littoralis_Contig74:439876..453908 +

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.D7FQX9
PFAMs	XPG_I,XPG_N
Model size	2785
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K10746
KEGG Pathway	ko03430,map03430
Hectar predicted targeting category	other localisation
Exons	12
Evalue	3.98e-196
EggNOG OGs	COG0258@1\|root,KOG2518@2759\|Eukaryota
Ec32 ortholog description	Helix-hairpin-helix motif, class 2
Ec32 ortholog	Ec-09_003340.1
Description	5'-3' exodeoxyribonuclease activity
Cds size	2466
COG category	L
BRITE	ko00000,ko00001,ko01000,ko03032,ko03400

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680791532.729416-UTR-P-littoralis_Contig74:439875..440000	1680791532.729416-UTR-P-littoralis_Contig74:439875..440000	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig74 439876..440000 +
1680791532.88264-UTR-P-littoralis_Contig74:453714..453908	1680791532.88264-UTR-P-littoralis_Contig74:453714..453908	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig74 453715..453908 +

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


Feature Name	Unique Name	Species	Type	Position
1680791532.7445905-CDS-P-littoralis_Contig74:440000..440101	1680791532.7445905-CDS-P-littoralis_Contig74:440000..440101	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 440001..440101 +
1680791532.7573862-CDS-P-littoralis_Contig74:446381..446441	1680791532.7573862-CDS-P-littoralis_Contig74:446381..446441	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 446382..446441 +
1680791532.7686124-CDS-P-littoralis_Contig74:446708..446828	1680791532.7686124-CDS-P-littoralis_Contig74:446708..446828	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 446709..446828 +
1680791532.7780397-CDS-P-littoralis_Contig74:447171..447295	1680791532.7780397-CDS-P-littoralis_Contig74:447171..447295	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 447172..447295 +
1680791532.7896814-CDS-P-littoralis_Contig74:448652..448790	1680791532.7896814-CDS-P-littoralis_Contig74:448652..448790	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 448653..448790 +
1680791532.7999218-CDS-P-littoralis_Contig74:449033..449135	1680791532.7999218-CDS-P-littoralis_Contig74:449033..449135	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 449034..449135 +
1680791532.8107526-CDS-P-littoralis_Contig74:449462..449573	1680791532.8107526-CDS-P-littoralis_Contig74:449462..449573	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 449463..449573 +
1680791532.8216934-CDS-P-littoralis_Contig74:449955..450069	1680791532.8216934-CDS-P-littoralis_Contig74:449955..450069	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 449956..450069 +
1680791532.8353565-CDS-P-littoralis_Contig74:450509..450600	1680791532.8353565-CDS-P-littoralis_Contig74:450509..450600	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 450510..450600 +
1680791532.846169-CDS-P-littoralis_Contig74:450951..451868	1680791532.846169-CDS-P-littoralis_Contig74:450951..451868	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 450952..451868 +
1680791532.857914-CDS-P-littoralis_Contig74:452017..452125	1680791532.857914-CDS-P-littoralis_Contig74:452017..452125	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 452018..452125 +
1680791532.8674521-CDS-P-littoralis_Contig74:453234..453714	1680791532.8674521-CDS-P-littoralis_Contig74:453234..453714	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig74 453235..453714 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig74.103.1	prot_P-littoralis_Contig74.103.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig74 440001..453714 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig74:439876..453908+
coding sequence from alignment at P-littoralis_Contig74:439876..453908+

protein sequence of mRNA_P-littoralis_Contig74.103.1

>prot_P-littoralis_Contig74.103.1 ID=prot_P-littoralis_Contig74.103.1|Name=mRNA_P-littoralis_Contig74.103.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=822bp
MGIPGLLGALKSVTYPVHIREYRGLTVGVDAYCWLHRGTFSCGTELCTGL
ATDKYVAFCMKRVNLLLHHGIQPTMVFDGSSLPMKRNKNLERMRQRESAR
SKGEAALAAGEAGAASQHFSKAVGVTHDMAFQLVKALRQAGVQFIVAPYE
ADAQLAFLSRTGAVDVVITEDSDCLPYGCKKVLFKMDNEGHGQEIQLRNL
AANTPLSLCNWKNSMFLDLCLLVGCDYITSSVKGLGITTAHKLVRSHRSL
DKIIRAVNSSKFVVPEGYWEQYKMARLTFRHHIIYNPQTKTTMNLMPLGD
TAKEVDLHFLGPHLQPQVAQGVASGCLLPTSHQPYETAAPLERSAPCYPS
PSHKAHTPSQDATSAHSPTLAATGNPSAVTDFLFRDHRVEATSEKDSRVQ
GYPVPSVQTPSSRAFIDSPFCAGRPALRELPFAALAGVPWGVASPDTAAV
WTTEDNHQPSNVSESKGRWGDHSQTEKHFDRNLAVGDVSAYSEEEQTRIY
SGLDLSRIRAVEPLADPLSKNFIRRTSSFRARGEEALLPFIPGQESEKGD
RGGIVADRQAEHWTTGWGQPDEGVWRQSVWGESDGGEERIDVQYVEGRKH
KTCLVQEELALMGSSGVGATTEHACEVDARQGGGELALTGEPPDAGQAKF
VPASAQHFHSTQVSQGLETLQRRKRRLHVVREPDGRQHEEARPDNDHKTA
EAAMWMVQPADTAQGSRGMPLLRDGSEYEPLAPLSPRSPTRRPRTGSHVE
NSETRVLTASARRWTLPSSMPPANEVELPLLRLLDGRGEHSWHGRIGGTT
AAQPSAKRTRGTEFWDAQLLR*

mRNA from alignment at P-littoralis_Contig74:439876..453908+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig74.103.1 ID=mRNA_P-littoralis_Contig74.103.1|Name=mRNA_P-littoralis_Contig74.103.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14033bp|location=Sequence derived from alignment at P-littoralis_Contig74:439876..453908+ (Pylaiella littoralis U1_48)
TCGACAGCGCAGCGCGCACATCGCGTACACTCGCGCTACAGCTACTGCCG
CTGTGGCAATTTGTTTTTGTTTTTATTCGGCGTCGTACCCTTCGTTCATC
TCGGGGAGAGAGGACTCCGGTCATCATGGGGATACCTGGGTTACTGGGGG
CGCTGAAGAGCGTCACCTACCCCGTTCACATCCGCGAATACCGAGGTCTA
ACCGTCGGGGTTGATGCGTACTGCTGGTGAGACAGCACACACCCAAATGT
TTATATCGTTCGTTCCAACGTGATCCAGCTCTGCTTATTTGTGCATATGA
TGAGTCGTTGTTGGCCAAGACAGCAGTAGCACTGCTGAAAAAATGAACTA
CTGCTTTGTGACATTCTCATGTTTGTGTCAGGATCTCCACCCTCGACGAC
TGTTTTTTTTTAAATTGACCAACGTCAAACGACGAAGAACTTCTTCTTGT
TCATTGACATTGATGTTATGTTCTTGATGTCTTGAGAGCTTGAGAGCACA
TGCACAGCATCATAGTAGTAGCAAGCACAATACGATATACTTCTACGAAG
TACGAAGTGCTGGTAGAATGTGAGACATATCGTGTCATGTATCATACAAA
CCGATCAATATGACTTAGGGATGAGAGATGAGATAGCTGGTATGCATATC
ATATGAGATGACGTGATACAATGCTACGAAGCGGTGTCCAGGGAGGTGCC
GTCCTCCCTGAACAGCGACGACGTATCGGATGAAACTACCGACGGCAGTG
TAGTTTCCGCCTCTTCACACACATCACTTGACTGTTGAAAGGGTCGTGTC
TCCCCTACATCGTTGCGTTATGCCAACCCTCCAGCACTTATCTATCCGTG
ATGCCATACATACGGCGGTACTGCTGTCGTTCTTCGAAGCACTCAGCAGC
AGCGTGTGTGTGTGTTGACCCCATCTATTCTAGGCCCCAGGTGGACGCAC
CAACTCCAGCAGTAATCTATCTGTAATCTGTTTAACCCTTCTGAGACCAG
GGTGTTTCGTTCATTTTCACACGAACAGCCCGGGTTCCAAATCAGAACCA
TCCAATGTTCCCCCGAGAAAAAAAAATGGCTCAAATGTCCCTTTCAAATG
TACAGCAGTCACGAAACCAAGAGAAAATGTACACAACCGCACCACAAAGA
TATACAGCCAGGGCCCCTGACGGGGGCTCACAGCGGGCTGGTTACGTCCC
TGGAGAGTACAGAAGGGATACCCGGTGGTCGAGATACCGCGGCTAGCTCT
CAGGCGTCGTGCAACGTGTTCTAACCATCAGTAGCGCTTAAAGTATCCAT
TCCCCTCAAAACAAGATAATAAGGAAAAATAGTTACTGCTAAGGCTCGTT
TTAAACATATTCCATAAATATGGAAATTTTCCATAAATATGGATCCATAT
TTATGGAATCGAGAGAGCTCTTTTTAAACGTGTAAAAACCAATTCCATAT
TTATGGAAATATGGTCTCCAAAAAGTTCTTTAGAAGGCATGAAAGGTGAC
GTACGTTCGATCAACAAGAAGACACTCCAAGTGTTGTGAAGGACAGACAC
AGCAATTTCCACCACCGTCATCTTCTCGTTCCCTACAATACCTATCAACG
TGAAACCTTCTTGGCGGTCACTTCCGTTCACTGTTCTCTGTCGATGGGGC
GTTGGTTTGGAGGCAGGGTCATTCAATCGACAGAGAGAAGCGTCGCTCGT
TGTTGAGAATGTCTGCAAATATCAATCGACAGACCAATCTGACCACTTTT
TTAGCATACTCGAAAATAGACCACTTACTTGTTCTGCCGCCATAAAAAGT
GAAACAGCAGCAGCAGCAGCAGCAGCAACAGCTGAACACATCCGACAGCA
ACACCACCGTCATCTTCTCGTTCCCTATACCATCTCTCAACGTGAAACCT
TCTTGGCGGTCGTCTCCATTCACTGTTCTCTGTCGGTGGGGCGTTGGGTT
GGATACAGGGTCATTCAGTCGAGAGAGAGAAGGGTCGCTCGTTGTTGAAA
ATAGCTGATAATGTCAATCGAGAGATCAATCTGACCACTTTTTTAGTACT
TGAAAATAGACCACCTGTTCTACTTATTTAGTACTTGAAAATAGACCACT
TGTTCTACCGACTGAAAAAGTGAAAACAGCAGCAGCAGCATCAGCAGACA
ACATCTCATGCGCCGCGATGCTGATGATGCAGCCGATTGAATGACACCAC
CTCTAACGCAACGCCCTGCTTGTAGAGAGCAGTAAAATGAGGTAAAAGCC
ACGAAGCATTCGCGTTGAGAGGTGGTGTATAGGTAACAACAAGAGCTGAC
TGCTGCTGTGGTAAATTATTCTCCCGCAGCTCATCATCATTTCAACAAAG
GAAGGGGGCCTCTCTCAATCAAATGGCCAACTCCGGCCACTTTAACAGCG
ACCGAACTGGTGACGCGGTGGCTCTACGGTTGCTTCGATGCCCCTATGAG
CTCGCAATTACGTGTAGGCCTCGGGCGTGTTGCTACTGCTGTGTGTTCAC
ACTGATTTGAACACTGATTTGAAAATATGGAAAATATGGAAACTTTCCAA
AAATCTGGAATGGACTTGGGCCACTTTTTTGGGCCCAAGTCGGTTCCACA
TTTATGGAAAAAATATGAACAAACGCCTCCTCGGAATGTTCATAAATATG
GAAATTTCCATAAATATGGACAAATCACGTGATGTTTAAAATGGCCCTAA
AGTACTTTTGCGGAGGGGCCCCGTGGCCTGCGGCCGGCCTGAAGGCCGGT
CCTTCCTTCTCGCACATAGTAGGCACATCATTGGTACTGGTAGCAGTAGC
ACCAGCACCAGCACCAGCACCAGCAGCCGCAGTAGTGGTAATCTAGCAAC
CAATCGCATGCATCTACATAATATCTACATACATGCTGCTGCTGCTGTTG
TCGCTGGGTTTTGACCAAACAAGATACTTTCGAAGTAATAAATAAGATAC
CATGATGTATCATACATAGAGGTATGACTCTCAACCTCTCTACTACTACC
ATTCTTCTTCCTTATTATGTCGTACCAACAAGGGAGGAGGTATCATATGG
CATGTGATGTACTGGTGTACAGCAGCGGCAGTAGTAGCAGGTAGTTGTAG
TAGGAGAGTGCTGCTATAATAATGGTGGTGTGGTGTTGCACTCCAGAAAA
ATATGATACACTGCGAAGTGTATATTATCCTGTGTCAGAAGAGATGATTT
CAGATTTCGACATGCCGGGGATCTATTATGTTGACTGAGTCTTGCTGGGT
ACCCTCACACCCCTTGACCACACACAGCAGCAGCTGTGAGCGGTGTTTGT
TTGTCCTCTTGCCCGTATCTGAGTGCAGCCGGAATGCTGCTCAACTCCCA
ACGTGAGGGGTTCGAGAATTTTTTGTTTCTGTCCCCGTCCCGAAGAGACT
GGCTTATATAAAAAAATATATATATATTATGATTAATTTTTTTGATGCAT
TTATTACCTCCGAAGTTCCAGAAGGGTTAACCAGGGGTCATCTCGGTATC
GATTTTTGAGGTTGGTAACAAATACCGTGGTATTCAATCTCCACGGTATC
GAACACTGGGCCACCGTGGTAACGCTACCGCGTGGAAGTCGACCCTAAAC
TTAGATGTAGATATCATAGTAGCAGTACAGGAGGAGCACCCCCCCACAGG
TCTCACTCCCAGCCACCACCTGTCTCAAGCAGACAGGAAGTTTTTTCATA
CCTATAAACATCAAGGACATCTCTCTTACAGACTGCTTTATCATCCATAT
GAAGAACGCCTAACAACCAAGTAAACTGAAACGTTTACGTGCATATCTCT
GCACAGTCACTCCACGTGACACGCGCTAACAGTTAGGCTTATTTTCACTG
GTGCCAGTAACAACAGCGTGCTCGCTAAAGTCATTTCACCACGCGTACTT
TCTAGACCACCAGAAGTTTGACACGTCGTCAAAGTCTAGACTCTTGTTTA
TATTCCACATATAAACAACACTGGACAGTTGCTTCTACTGAATTAATCGC
ACAAGCCAACAACATCACCGACAACCACGGCCGGTAAAGCCACTATCGAA
CACGTTTTGTATCAACATGAAAATCGAGACGGAGAGCCAAACACACCACA
TTCCATCCAAAAAAAAAAGTGGGCGATCGGATCATCACGCACCGTTGACT
ACAGCGGCAACTATACAGGGATCGACAGCGGGCGATCTTCTGGATCGATC
CGAACTCCGACACTAGCGTGGTGCCCCATCTCGAAAATGCACCACGGGCC
CCCTTTCGTTGACATACGGAACCCCCAGCAAGACATGCATCCGCGAGGTC
TCCTTTTTTTATATAATATCTTACTGGGGTTAAATTGGCGGCAACCGCTT
GGAACCAGGCGAAGATCCGTGATCCATCGTCTGACACGACAGAAATTCCT
TTCAGTGACATCTTCGGAGGTTTTGTTATACACTGCTGGAGGTAAACCCC
CTGCCCCGAACGAAGTACAATAAAAATATTATCCGGACTACTGCTACATT
GCTTGTTTTGACCAACCAGGAAACTGCGTGCCACCATCGTTCAGTATCCA
GTCGGAGCCCTTCCTTGTTTGGGCCTGCATCCAGATTACACCAAGTCCTC
TCTCTCTCTCTCTCTCTCTCTCTCCGTCGATTTTCATCTTGATCTTGCTG
TTTTTGTCGAACTTCTGTCCCTGGCCCGCTGCTCACCGCCACCAGAAAGA
AACCGCGTCCCTTTTGGTATAAATTGGCGAGTGGGGTTCACACACATTTA
TTGATTTGATTCACGAGGGATGATCATCATCAGCGTGTTTATCTTCGGGT
GTGGAATTTATTTGAAGGACCCGTCCCAGAAAGATATGTACAAGGTATTT
ACGTATATGCATCATATCCGTGAGAGATCTTCCAGGTCGGTCTCCTGGTG
AAAGTCTAGACGATCCTAGACAGTCCACCAAACCCTCCAGGGCAAGGCAT
CCATCCGTGCCCTTGATTCCGTCCACCCCCATCGACCTTGGGTGACACCA
ACCGCCATCCAAGGAACTTCCTTCGGTTCGATTTAAAATTTCGCCCCAGG
GGGTATTAACCAATCAGGAAACTGCGTGCCACCTTTCCCCTGTTCGTTAA
CGAATGGTTATTCCAAACTCTCACGGTATGATATTCTACCAATTCCAAAT
TACCGCGGTATTTTACCGCGGTAAATTTCCGAGAGGCCCCCTGGACTTTA
GCCATATCAGGTACATGCCATACTGCTGTCATGCTTCGTAGTACTGAACA
GCAGCATGTGTTTGTGTGTGTTAATCCCATATTTTCTAGGCCCCAGGTGG
ACACACCGACGGGGGTCACACAGGCGGAAGGCAGCAATGCGTCCATTATT
CCCGCGGGGCCAGTTCAAAGACATTTCACACACCATCTAACGAAGTACGA
AGTAATATTTTACGTCCAAAATGACTAATCATATCATACAGTACACGTTA
GAAAGTAGTGTTGCAAGTACCCGTCGTACAGATGTAACGGACCACAATAA
AAAGAGAGCAGGGACTACTTTACGACACTACTGCTGGGCTTTGCTCAAGA
ACCTATAGAATACTACCCACCCACTATGATTCAAAAAACATCGTGATGTC
GGCCTTCCGCGCTGGTTTTGCGGCGTGGGCTGAGAGGAACGACATCTTTG
TTGCCCTACGAAGAAAACGTCCTGCCTCGGTATCATCAGCCGACTCTGCC
ATCTGTTCTAGAGGGCCAAAATACGACGAGGGGTCCGAGTAAGGCAGCAG
TGCCATCAGCTTACCACCCCCCGCAATCTCAGCGTCTCCCGTATCGCTAA
CCTCTCGCCCGTCTTGTGACCGCGACATTCATACCCGCACTCTCGTCCAT
TGGGAGCTATCGGCTCTGCGTTTCTAAGTTTCGCATAAGTATCCATCGGG
TCATGCCATGATGTGAGGAGGTGGTGGGTGGCGGCAACTCGTAGTTGTCT
GTTTGTGCGCGTCTTGAACCAGGCGGGGGTTCCGCAAGCGCAGTATTTAG
AATATATCGGAATTTACCCCGACGACGACTTGTCGCTTTATCGGGGTGCG
TTGGTGCCTAGCGATGTTTATATCTGCATACCCGCTTCGAAAGCATTTTC
GTTTGCATTACGGCCTAAGTTTGAACCCTTCTGACCAAACCGCCTGGCTC
TTGATCCAGTCGGCTGGCCACGCCGTCTTCACGCCTCCTGTCCACCTTGC
TCGCTTCGCGGCATGGCCCAAAATCTCAGGGCTGTGCTCGGTAGTAACGC
CGGTCAACTTGACCAGTTATCGGAAACGTATCACGGGGCTGACGGCGTTG
TTAACAGGCAGCAGCTGTGTGCCACCCCGGCATGCGGTGTGGTGTGTCAA
GTTGAAGGCTACGCAGACTGACCATGCCTATTCCGAGAGCCTTATCGTAT
GCACTTGGATCGTGCGAGTCACCATGCAGTAGAAAAATGACATCTGTGCT
GCGTGGTTTGTAGGATATCCTGACCTCAAAACCTTGATTATCACATGACT
ACACAGGCTTCATCGCGGCACTTTCAGCTGTGGAACTGAGCTATGCACCG
GTCTGGCCACAGACAAGTGAGTGATTGGTCACAGCCAAACTTTCCCCCAT
AGAACACTCGGCGAAGTCAGTGTGTACATCGGTAATGGGTGTACAAGTTT
GACCGAGGGTGCTGCCCTGGGCGCCCGTGGGCATGAAACACAACCAGCCT
CAGCAATTTGACCGTGAACATGTCGCATAGTCAGGAGCGGGTGCTGTGTT
TGCGAGTATTTTCCAATGGCGATCCCCAAATTGCTTTGTTAAACCCTTTC
CGCCTCCCTCTCCTCCTTTCCTGTTTCGACCAGATATGTAGCTTTCTGCA
TGAAGCGGGTGAATCTCCTGCTGCACCATGGGATCCAGCCCACCATGGTG
TTCGACGGCTCTAGTCTCCCAATGAAACGGAACAAGAATCTTGAACGTAT
GAGGTGCATATGGTTCATTCCGAGTTCAGTCGCTACATTCCCATTCCTGG
AATAGAACTCAGATGCGCCGCGCTTTGTGTGTATCCAGAGTTTTGTTGCT
TTCGGGGGCGTCAGCTATAGGTACCTGATAATTACTGACATGCTTTACGG
CACCGGCAACTCCTCAACGTACGTTCGAAGGAAAACAAACATAACATCAC
CAACATAGTGCACAACGATCAACCCCAAAACAGGCTCTGCTGTTGCACCA
GCCACACGCACCCACCTCGTAATCGCCGGGCAATGATGCGCTGAAGCTGC
ACTGTTTGAGGTCTTGCCTTTATTCGATCTGCCACTTAATATTTAGGCAG
CGGGAGTCGGCGAGAAGCAAAGGGGAGGCAGCCTTGGCGGCGGGGGAGGC
GGGCGCCGCATCACAGCACTTCTCGAAGGCAGTCGGGGTGACACACGATA
TGGCCTTTCAGTTGGTCAAGGTGACTGATACAAGTATTTTTTGTACTGTG
CGATACTCCATGAAATATTAGGTGGCCGCCCGCCCGACCCAGCGCAGATT
ATCAGATTATTGTATGGTACATGATGTCTAGGCGAATGAAAAATAATGAT
GATGTAAAGTTGCCAGGGAAGCGTAAGTTGTTAGGTGCTGTTGTGAACGG
GGGGGGAGAGGAGCGGAGGACGAAGGCAAGGAATTTGTACACACCAATTG
CATGTTACGAAGGTGGTGTGTTTGCGTACATCGCTCTCTTCCTGCGTACG
ACACGAATTCCATGTCTCGTCAAAGATTAAAACATAATTTCGGTTTCAGG
GACCTTAAACTAGGATCGAAATTTTGAAGTTTTGTTTGGTCGTTGTTAGG
CGAAGCTCACACATACGGTTGTTGTGTTCCTATGACAGCACAAAGAAAAA
TTCAAGGGGAAAGAGCTGCTGGGGTTCGCCTTCAGAACTGGTGTCACGTT
GGTATAAATCGTGGCATGGTAAACAGGATATCATAGCAAATAGGATACCA
TCACCAGGAACAGCGTAGTAGTAGTTGCCGAATGCCTTCCACGTTGTTGA
TGGAGAATTCATCAACACATTCTCCTAGACATTATGTCGATACTGCTGTA
CAACCCTTTTGTGGACCCACCGCACAGACTGTAGATACAGTTGACACCCG
ATGCGAAGATTTTGTGGAGGTGAGGTGCAAGAGTTTTCTGCCGCTGTTGG
TGGAGGCCCCATCGCGAAGTAGTAGCTGATGGAACGCACAACCTTCCAAA
ATAGGGCAGCGGGCGACCTGTCAAACAACTTTTAAAGAGCCAGTAATAGA
ACAGCGGGGGGAAATCTTATAGCACCGGATCTGGGACGGCGAACAACAGG
CGAAACGAAGCCAGAAAACAGTTGAAATGTAGCTGATTCATTCATGCTTG
CCAACTCCAAAGATTGGAAGAGCAAATACGGCGTCTCTACAATGTGTGCA
CACAATCTTTTTGAAGCAGTGGTGTCCCATCAATACCTCTCGAAGCACCC
AACCCGCGAGGGCAAGCAACAGCAGGATGAGAGGCTACAATCGACTCGCG
TTTCTGTAACGGACAAGAGTACAACTAGCCTCCTGTTCTACTGCTTGTGT
CATGAACTCCCGGTGGCATGCGACAGATATTGCTGAGAAAACAGAGCAAA
CTTGTACGAAAGTATGTAGCTCTCGTGTACACACCTGCAATACTGTACGG
TCGAAACATACCATTCCTAGTTGGGCTCTGGCAATATTACAGAACTCGTC
TCATGGGACTGCCGAGCCCTTTTCGCCAAGTCTTCAACTACCGCGCGCGT
TGATATTGCTTTGTTCGTGCCATGCAGGCGTTGCGACAGGCGGGGGTACA
ATTCATCGTGGCGCCCTACGAAGCAGATGCGCAGCTGGCGTTCCTCAGTC
GGACCGGAGCTGTAGATGTTGTAATAACCGAGGACTCAGACTGCCTTCCG
TACGGTTGCAAGAAGGTGATTTTCACCAGTCTGAGTCCATGAGAGCCTCT
CGTGGGCCAAGCTGCGACCGTAGTAAAACGTTACGAGCTTACGCGTAGGA
TATCGCAGGAAGAAGGTGGGGGGGGGGCTCCACGGAAAGGATTGTAATGT
TTCTGGCATCTTTACAACGCAAAGGCTACGGCTAGTAACAACCGGGGTAG
TCAGTAACCCCGCTACCCGTTGTGCAATCTGAAATTTTCACATGGATGGT
GATTGCAGGTGCTGTTCAAGATGGACAACGAGGGCCACGGCCAAGAGATA
CAGCTGAGGAATCTCGCTGCAAACACACCGCTGTCGCTGTGCAACTGGAA
AAATAGTATGGTGAGCAATCACGTGCGGATCGGTTTTAGCGTAGTCGTTG
CTCTCAGGACCACTTCGGGAGATGTCTAAATACCCTCTTCCAACCGCTTT
GGCCTCGGTATGACCTGTGTCTGGTGCCAGCGATCAATTCAGTGTGCTAG
GAAGCTGCTCAAGCTATGCGACCTTGGTATGTATACTGATGTCGATTTCA
GTGCCCCCTCTCGAGCTTGTTTGATGGCTGCCGATACGTTGCGTCAAATA
TGTCAAACCCACCACCAGTGCCACAACACCGAATTTTATTCGACCATACC
CGCCGTGTCGTCGGTGTCCTTGCAACGCGCGGTAAAGTTTTTGGATCTCT
GCCTTTTGGTGGGTTGTGACTACATCACCTCTTCCGTCAAAGGGCTGGGC
ATCACAACTGCACACAAGCTTGTCCGCAGCCATCGGAGCCTGGACAAGGT
ATGCTGCAGTGGCCTTGTGTTGAATGAATCGATCTGCCAGTTTCCTATGA
TATTGCAATGATTGACGATCACGGCAGTCGTATAGAAGATTTCAAAAGAC
CAAACACACAATAATGGTTGTAGTATTAGTTTCTTTGGAGAGGCCTGCAG
GCGGACCTGTTGGAAGCCTTAGACTGGTCGGAGTCCGAGTTGAATAACTC
CTGTGTTTGAAACCGTCGTACTGTACGATACTTCGTTCCAGGTATATGTT
GTAGACCATTATGCAAACAGTTGTGGACAGATAAACAATACTACCCAAGC
TGGGCTCGGATATCTCGAGGCCCAAAGAAGTGAACTTTCTCTGACGCAAA
TGCATCCATCCCTTTCTCCGCTGTCACCAGATCATCCGCGCTGTGAACTC
GTCCAAGTTTGTTGTTCCGGAGGGGTACTGGGAGCAATACAAGATGGCGC
GCTTGACCTTTCGACATCATATAATCTACAACCCCCAAACAAAGGTTGGT
GTTTACGGTTGCGCTCCGAAGGGCCCTTCCACCAGTATTCCAATGAAAGA
CGGCAGGTTGAGTGTGTGTTTTGTATTTACGGTACAGTGCGTTGAAGTGT
AGCTTAATTCACGTTTTTTTGTACGTTCAAAATTCGTCAGTTTTCTGCAA
GGCTTCACGGTCGCCATTCACCGCTCACCTTGCCTGTAATTTCGCGGAGC
CAAGTTTACTTGGCACCCTACACCTCAGGTTCTCTTGACGTCTTTGACCC
ATCACCATCTGTGTCTTAAGTTCGCGACGAAGAATACGTTAACGTTGTTT
TTTTCTGCCACGCAACTAAGGTATTTCTCGCGCAGTGCCCTGTCTACTGG
CAAGCGCCCGAGAAGTACTCATCAATCTGCAGGTGGATAAATGAAGTGAT
GCTCGAAACTGCCCCCGACCCCGTACTGTACCAGACCACAATGAATCTGA
TGCCACTCGGAGACACGGCCAAGGAGGTGGATCTTCATTTCTTGGGTCCC
CACCTACAACCTCAAGTAGCACAAGGTGCGGATGGTGCTGTACTACGGTG
TTGTGGAACTCTGTTGCATTCCGATGGTAATATGTTTTGTTGCTCTGCAG
CCAGGCGTCGTGTGCTTGTTCTCGCACCGCGCGCCTTTTGGGGGTAGCGG
TAACAAATCGCTTCGCTCCTGCGTTGTAGTCTACCCTTTACTTGAGTGCT
TGAGCGCGGTAATCTCGCGCGGGGCCTGCCCTAAACACCACGGTTCGGTA
CTGAAGCGTTTATACTCACGCGGTTGCCTGTGAGAAACTTTTGTGTTCAA
AAGCTACCGAAACAACACTCGAGCACATTGCATGAGTGGGCCAATGCCCG
TCTGTCTGGCCAACGCATATTGTTAGGTGTGGCCTCTGGATGTTTACTGC
CTACGAGTCACCAGCCGTACGAAACAGCAGCGCCTCTGGAGCGCAGCGCG
CCCTGTTACCCATCACCCTCGCACAAAGCACACACGCCGTCGCAGGATGC
TACTTCCGCGCACTCGCCCACTCTGGCGGCGACTGGAAACCCTTCTGCTG
TTACCGACTTTCTGTTTCGGGATCACCGTGTGGAAGCTACTTCGGAGAAG
GACAGCAGAGTTCAAGGATATCCCGTGCCGTCGGTACAGACCCCTTCATC
TCGAGCGTTCATCGACAGCCCCTTCTGCGCCGGGAGACCCGCGCTAAGAG
AGCTACCGTTTGCGGCGCTAGCCGGGGTGCCGTGGGGCGTAGCGTCACCC
GATACGGCAGCCGTGTGGACGACTGAAGACAACCACCAACCGTCGAATGT
GTCTGAGTCGAAAGGTCGTTGGGGAGACCACTCCCAGACAGAGAAACATT
TTGATAGAAATCTTGCGGTAGGCGACGTTTCGGCATATTCTGAGGAAGAA
CAGACACGTATATACTCTGGGCTAGACTTGTCTAGGATACGGGCGGTAGA
GCCGCTCGCCGACCCTTTGTCGAAAAATTTCATCAGAAGGACTTCTTCAT
TTCGCGCGAGAGGAGAGGAGGCACTTTTGCCTTTTATTCCCGGCCAGGAG
AGCGAAAAGGGGGACAGGGGCGGTATCGTCGCCGATCGGCAAGCAGAGCA
CTGGACCACCGGCTGGGGCCAACCTGATGAAGGGGTGTGGCGACAATCAG
TCTGGGGAGAGAGCGATGGCGGAGAGGAACGAATTGACGTGCAATACGTC
GAAGGACGTAAACACAAGACCTGTCTTGTCCAGGAAGAGTTGGCGTTGAT
GGGGTCCAGTGGTGTTGGAGCAACCACAGAACACGCTTGTGAGGTGGGTC
CAACGTACCCTTGGCAAGCGCACCGTGCAGAATACCGTACTCGGTTTAGG
CGTTGGCCCACTCAAATGCAAAACGAGCGCAACCTTCAACGTGTACAAAT
CACGGTCACCTGTTGTACCCTCGTGCAACGCGCCTGTTCCAGGTGGACGC
ACGGCAAGGTGGTGGTGAATTGGCCTTGACAGGCGAACCTCCAGATGCCG
GTCAGGCCAAGTTTGTTCCTGCTTCTGCGCAACATTTTCACAGCACGCAG
GTAATCGTCAAAGAAGAAACCACCGGTCCACCTGTGGGTACGGGTTGTCT
CGCTATTGTCATTCGGCAGACGGTTGATGTATTGTATGCGTTCTGAAAAA
TCTCCAGGATTGTTGCGAAAGCCCTCTCCATTCTTACGTCACGTGCGAAA
ATAGCATGCATCAGGGCGTGTGTCTTAGAAAAAATAACGAGGTGTGGAAC
GTGAAACTTGGAACCTAGATTCCTCGTTCCCTGTTCCACGCGTTGTGTCT
TGAAGAAAAAAGGCTATTTCGAAATGAAGAACGTGGAACCGGTTGCAAGC
GAAAAGCCTGAGGGTCGCTGCTGTGGTGCAAGTTCAGAAGTAAAGTAGCA
GAACAACAGCAGGAGTATCGGGATCGTTGAGAGTTATTCAACACCACACA
CACACGCACGCACGCACGCACGCACGAATCCGTCCATCTCCCATTTCTCG
CCCACAGAGCATACACAGGCACACACATACACACAGCACACACACCGCAT
AGCACATCGTGGTGTGAGAGATGGTTGCATGTCGGCCGGCCGCAGTCGTC
CGGGCCCGTTTGGCCAAAAAGCGGGTGGACAAACAGACGGAGAGGTGTGA
GATGTGAGATGGTGTGTTGATCGTTTTTTCTCTGCTGCTCTTCTTGCTGC
TGCAGCGCGGTGACTTTGTCCATCCGAGTGATAGGGCTAATATCTTACGC
TTAACTCGATGCGTGGCGCTAGGCGGGGTGGTATAGTTACGGGGGAGCTA
GCTGTGCATGTGTATGTGTGTGTTTGCCTTGTGTGTGTGGTATGGGTTTT
GTGGTCAGATAGAGGGAGAAAGCTGCCGGAAACTTCTTGCCCCCAAGCAG
CCCGTTCCACACAGACTTTTGGACAATTTTAAAACGAGGACATAATTATT
CTGGAGGAGGGAACGAGAAATGAGGAACCCCGGTGGCCATAATTATTTCC
AGGAACGTTTTTTGCTGAGGTTGGCCAATCGGAGAATAATTCTAGGTTCC
ACGTTCCACGTTCCACACCTCGTTTTTTTTTCTAAGACGCGCCCTCACGG
CTTAAATCGGATGCGACACGTGCAATTCGTGTGTGTTGTGTTTCATGTGT
TCCGCGCAGGTAAGCCAAGGGCTCGAAACACTTCAACGCAGGAAAAGGCG
TCTGCATGTGGTAAGAGAACCTGATGGGAGGCAACACGAGGAGGCCCGTC
CCGACAACGACCACAAGACAGCGGAAGCAGCGATGTGGATGGTTCAACCG
GCTGACACCGCTCAGGGTTCGAGAGGAATGCCGTTATTAAGGGACGGCTC
GGAGTATGAACCGCTGGCACCGTTATCCCCTCGCTCGCCTACTCGACGGC
CCAGGACAGGAAGTCATGTAGAGAACTCTGAGACTCGAGTGTTGACGGCG
TCTGCGAGGCGTTGGACATTGCCTTCGAGCATGCCACCCGCAAACGAAGT
AGAGTTGCCGCTTCTGCGTTTGTTAGATGGGAGGGGAGAACACTCGTGGC
ACGGGCGAATTGGCGGGACCACGGCGGCGCAGCCGTCGGCCAAACGCACA
CGAGGGACAGAATTTTGGGATGCGCAACTCTTGCGCTAGTAGAGTAGTAG
ATAGGGTTAGCATTAGAAGGAGACATTCATTGAATCATACTGAAGCACTT
TCGTAGTGAAAGTAGGAGAGTCACGCAACATGTTCCTCTCTTGTGTAAAT
GCCGTGGAGGATGATAAAAATACCTGCTTGACCCCGAAAAATAATCGCTT
CTGCTCAGATCTTCGGCATTAAAGTGGGTGAGC

Coding sequence (CDS) from alignment at P-littoralis_Contig74:439876..453908+

>mRNA_P-littoralis_Contig74.103.1 ID=mRNA_P-littoralis_Contig74.103.1|Name=mRNA_P-littoralis_Contig74.103.1|organism=Pylaiella littoralis U1_48|type=CDS|length=2466bp|location=Sequence derived from alignment at P-littoralis_Contig74:439876..453908+ (Pylaiella littoralis U1_48)
ATGGGGATACCTGGGTTACTGGGGGCGCTGAAGAGCGTCACCTACCCCGT
TCACATCCGCGAATACCGAGGTCTAACCGTCGGGGTTGATGCGTACTGCT
GGCTTCATCGCGGCACTTTCAGCTGTGGAACTGAGCTATGCACCGGTCTG
GCCACAGACAAATATGTAGCTTTCTGCATGAAGCGGGTGAATCTCCTGCT
GCACCATGGGATCCAGCCCACCATGGTGTTCGACGGCTCTAGTCTCCCAA
TGAAACGGAACAAGAATCTTGAACGTATGAGGCAGCGGGAGTCGGCGAGA
AGCAAAGGGGAGGCAGCCTTGGCGGCGGGGGAGGCGGGCGCCGCATCACA
GCACTTCTCGAAGGCAGTCGGGGTGACACACGATATGGCCTTTCAGTTGG
TCAAGGCGTTGCGACAGGCGGGGGTACAATTCATCGTGGCGCCCTACGAA
GCAGATGCGCAGCTGGCGTTCCTCAGTCGGACCGGAGCTGTAGATGTTGT
AATAACCGAGGACTCAGACTGCCTTCCGTACGGTTGCAAGAAGGTGCTGT
TCAAGATGGACAACGAGGGCCACGGCCAAGAGATACAGCTGAGGAATCTC
GCTGCAAACACACCGCTGTCGCTGTGCAACTGGAAAAATAGTATGTTTTT
GGATCTCTGCCTTTTGGTGGGTTGTGACTACATCACCTCTTCCGTCAAAG
GGCTGGGCATCACAACTGCACACAAGCTTGTCCGCAGCCATCGGAGCCTG
GACAAGATCATCCGCGCTGTGAACTCGTCCAAGTTTGTTGTTCCGGAGGG
GTACTGGGAGCAATACAAGATGGCGCGCTTGACCTTTCGACATCATATAA
TCTACAACCCCCAAACAAAGACCACAATGAATCTGATGCCACTCGGAGAC
ACGGCCAAGGAGGTGGATCTTCATTTCTTGGGTCCCCACCTACAACCTCA
AGTAGCACAAGGTGTGGCCTCTGGATGTTTACTGCCTACGAGTCACCAGC
CGTACGAAACAGCAGCGCCTCTGGAGCGCAGCGCGCCCTGTTACCCATCA
CCCTCGCACAAAGCACACACGCCGTCGCAGGATGCTACTTCCGCGCACTC
GCCCACTCTGGCGGCGACTGGAAACCCTTCTGCTGTTACCGACTTTCTGT
TTCGGGATCACCGTGTGGAAGCTACTTCGGAGAAGGACAGCAGAGTTCAA
GGATATCCCGTGCCGTCGGTACAGACCCCTTCATCTCGAGCGTTCATCGA
CAGCCCCTTCTGCGCCGGGAGACCCGCGCTAAGAGAGCTACCGTTTGCGG
CGCTAGCCGGGGTGCCGTGGGGCGTAGCGTCACCCGATACGGCAGCCGTG
TGGACGACTGAAGACAACCACCAACCGTCGAATGTGTCTGAGTCGAAAGG
TCGTTGGGGAGACCACTCCCAGACAGAGAAACATTTTGATAGAAATCTTG
CGGTAGGCGACGTTTCGGCATATTCTGAGGAAGAACAGACACGTATATAC
TCTGGGCTAGACTTGTCTAGGATACGGGCGGTAGAGCCGCTCGCCGACCC
TTTGTCGAAAAATTTCATCAGAAGGACTTCTTCATTTCGCGCGAGAGGAG
AGGAGGCACTTTTGCCTTTTATTCCCGGCCAGGAGAGCGAAAAGGGGGAC
AGGGGCGGTATCGTCGCCGATCGGCAAGCAGAGCACTGGACCACCGGCTG
GGGCCAACCTGATGAAGGGGTGTGGCGACAATCAGTCTGGGGAGAGAGCG
ATGGCGGAGAGGAACGAATTGACGTGCAATACGTCGAAGGACGTAAACAC
AAGACCTGTCTTGTCCAGGAAGAGTTGGCGTTGATGGGGTCCAGTGGTGT
TGGAGCAACCACAGAACACGCTTGTGAGGTGGACGCACGGCAAGGTGGTG
GTGAATTGGCCTTGACAGGCGAACCTCCAGATGCCGGTCAGGCCAAGTTT
GTTCCTGCTTCTGCGCAACATTTTCACAGCACGCAGGTAAGCCAAGGGCT
CGAAACACTTCAACGCAGGAAAAGGCGTCTGCATGTGGTAAGAGAACCTG
ATGGGAGGCAACACGAGGAGGCCCGTCCCGACAACGACCACAAGACAGCG
GAAGCAGCGATGTGGATGGTTCAACCGGCTGACACCGCTCAGGGTTCGAG
AGGAATGCCGTTATTAAGGGACGGCTCGGAGTATGAACCGCTGGCACCGT
TATCCCCTCGCTCGCCTACTCGACGGCCCAGGACAGGAAGTCATGTAGAG
AACTCTGAGACTCGAGTGTTGACGGCGTCTGCGAGGCGTTGGACATTGCC
TTCGAGCATGCCACCCGCAAACGAAGTAGAGTTGCCGCTTCTGCGTTTGT
TAGATGGGAGGGGAGAACACTCGTGGCACGGGCGAATTGGCGGGACCACG
GCGGCGCAGCCGTCGGCCAAACGCACACGAGGGACAGAATTTTGGGATGC
GCAACTCTTGCGCTAG