Homology
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A1E7FHG9_9STRA (Uncharacterized protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FHG9_9STRA)
HSP 1 Score: 112 bits (280), Expect = 3.710e-22
Identity = 61/163 (37.42%), Postives = 97/163 (59.51%), Query Frame = 2
Query: 902 NPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAFQTR---VMRIAGVCLL 1381
+P+ Q A +L ++Q + VL K+L+Q +LDDPD+++QV L I DE+ KE A +L ++ D+V + + L R+ +VQ + +L S+H L DPE+LDHS EF V+GDD VQ++ G+AL+NT+ YAF+ ++ + GV L+
Sbjct: 293 SPQIQEAANNLVTKVIQSSQFKTACQVLLKELLQDLLDDPDTLKQVVHLLQHAIVDEKIKEAAVQLATDIFGDDRVLDELVTLVQRLGLEQQVQQATQALLVESAHNALNDPEILDHSMEFATDVVGDDVVQQTAGEALYNTMSYAFRPTLSVILTLLGVGLI 455
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A3M6VUW2_9STRA (Tup_N domain-containing protein n=1 Tax=Peronospora effusa TaxID=542832 RepID=A0A3M6VUW2_9STRA)
HSP 1 Score: 112 bits (279), Expect = 7.940e-22
Identity = 68/209 (32.54%), Postives = 116/209 (55.50%), Query Frame = 2
Query: 713 LSMFGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYA 1339
L FG E++ + TAEVA +L+ + L+ T+ELA+ +VQ +LND +V+ + FL+ T+ AL +L ++ L P T + L K + A+L DP +++Q L + D + KE L+ ++ + DQ+ +++L + V+ ++ + L+ S H+VL +V +H KEFV+ V+ D VQ GG+A+W T YA
Sbjct: 805 LMAFGPELKLGMSKHTAEVASRSLQDETLRGNTRELASQIVQTVLNDPKVLHQASGFLQRLVAMESTREALRTLVIYTLNDPMTRLQVADLTKHTMAALLRDPKTLRQTVDLLRSTVVDPQAKEALLLLLEQIMRDDQMRAHLTQLLAHTFLQDAVKQNVGKTLSDSVHDVLSRKDVQNHVKEFVSGVVQDQTVQAQGGEAIWGTFIYA 1013
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
W4GLD2_9STRA (Uncharacterized protein n=2 Tax=Aphanomyces astaci TaxID=112090 RepID=W4GLD2_9STRA)
HSP 1 Score: 107 bits (266), Expect = 1.380e-21
Identity = 68/216 (31.48%), Postives = 107/216 (49.54%), Query Frame = 2
Query: 695 LLFVWVLSM--FGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQY 1336
+L V L M FG E+R TAEVA ETL+ ++LQIQTQELA+ +VQ +LND +V+ + FL++ T+ A++ TL L+K+++ + DP +++Q L I + L + P VQ ++ + AS H ++ +P+V DH+KEF+ V+ D+ VQ G+ALW T+ Y
Sbjct: 83 ILGVGALGMIAFGPEMRSKMTKTTAEVATETLQNESLQIQTQELASQIVQTVLNDPKVLDQASQFLQKLMATEATRGAVVQXXXXXXXXXXTLAHVTKLSKQILFNLFQDPTTLRQFVDLIKAAIVXXXXXXXXXXXXXXXXXXXXXXXXXTALMAWTFVQPPVQRGVATTMTASVHNLMSNPDVQDHAKEFIGGVVRDETVQTQSGEALWKTLMY 298
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A397F352_9STRA (Uncharacterized protein n=4 Tax=Aphanomyces astaci TaxID=112090 RepID=A0A397F352_9STRA)
HSP 1 Score: 103 bits (258), Expect = 3.730e-21
Identity = 67/216 (31.02%), Postives = 106/216 (49.07%), Query Frame = 2
Query: 695 LLFVWVLSM--FGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQY 1336
+L V L M FG E+R TAEVA ETL+ ++LQIQTQELA+ +VQ +LND +V+ + FL++ T+ A++ TL L+K+++ + DP +++Q L I + L + VQ ++ + AS H ++ +P+V DH+KEF+ V+ D+ VQ G+ALW T+ Y
Sbjct: 6 ILGVGALGMIAFGPEMRSKMTKTTAEVATETLQNESLQIQTQELASQIVQTVLNDPKVLDQASQFLQKLMATEATRGAVVQXXXXXXXXXXTLAHVTKLSKQILFNLFQDPTTLRQFVDLIKAAIVXXXXXXXXXXXXXXXXXXXXXXXXXTALMAWTFVQAPVQRGVATTMTASVHNLMSNPDVQDHAKEFIGGVVRDETVQTQSGEALWKTLMY 221
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A448Z2P8_9STRA (Uncharacterized protein n=1 Tax=Pseudo-nitzschia multistriata TaxID=183589 RepID=A0A448Z2P8_9STRA)
HSP 1 Score: 107 bits (266), Expect = 2.480e-20
Identity = 55/148 (37.16%), Postives = 89/148 (60.14%), Query Frame = 2
Query: 902 NPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAFQ 1345
+P+ Q A +L +LQ + +L ++L++ +LDDPD++ Q+ L IADE+ +E A L ++ D+V + + L R+ +V A+ +L S+H L DPE+LDHS EF V+GDD VQ++ G+AL+NT+ YAF+
Sbjct: 400 SPQIQEAATTLVTKVLQSQQFKAACALLLRELLRDLLDDPDTLDQLVHLLQTAIADEKIREAAIGLATDVFGDDRVLDELVVLVQRLGMEGQVMAATQALLVESAHNALNDPEILDHSMEFATDVVGDDVVQQTAGEALYNTMSYAFR 547
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A6G0XYN6_9STRA (Uncharacterized protein n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0XYN6_9STRA)
HSP 1 Score: 102 bits (255), Expect = 3.590e-20
Identity = 70/250 (28.00%), Postives = 111/250 (44.40%), Query Frame = 2
Query: 593 HQVSEFYADMERNLMSRMRAQDKGRFRALSLSSLLLFVWVLSMFGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAF 1342
H+V+ + L + A L L + + FG E+R TAEVA ETL+ ++LQIQTQELA+ +VQ +LND +V+ ++FL++ T AL+ L +L P+T LAK+++ + DP +++Q L I + +S H+V+ + ++ DH+KEF+ VI D+ VQ G+ALW T+ Y F
Sbjct: 59 HKVASDIIHASQQLQHMYMNMQGKNWNAWGLGILAIGAVGVVAFGPEMRSKMTKTTAEVATETLQNESLQIQTQELASQIVQTVLNDPKVLDQASVFLKKLFAMEMTHVALVHLTSNVLNDPQTSAHVTKLAKQILFNLFQDPHTLRQFVDLIKSAIVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMTSSVHQVMSNRDIQDHAKEFIGGVIRDETVQTQSGEALWKTLMYVF 308
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A7S4HQH3_9STRA (Hypothetical protein (Fragment) n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4HQH3_9STRA)
HSP 1 Score: 98.6 bits (244), Expect = 4.070e-19
Identity = 54/159 (33.96%), Postives = 95/159 (59.75%), Query Frame = 2
Query: 914 QAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAFQT---RVMRIAGVCLL 1381
Q A+I+LA ++ P+ + L +KL + +++DP+++ Q+ + V+ ++ ++ A +LV+ L + ++V+ + + R+ EV + +L S+H+ L DPE+LDHS EF V+GDD VQR+ G+AL NTV YA V+ +AGV L+
Sbjct: 31 QTAVINLATRVVSSPQFQEACQGLVQKLWKDLINDPETMDQLARILKDVLTNDSTRDAARELVIALVRDEEVYRELMDMVVRLGDEKEVLGATQALLTESAHKALNDPEILDHSMEFATDVVGDDVVQRTSGEALRNTVGYAVMPGWYTVLTMAGVALV 189
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A3L6UT13_9STRA (Tetraacyldisaccharide 4'-kinase n=5 Tax=Aphanomyces astaci TaxID=112090 RepID=A0A3L6UT13_9STRA)
HSP 1 Score: 102 bits (253), Expect = 5.460e-19
Identity = 76/251 (30.28%), Postives = 120/251 (47.81%), Query Frame = 2
Query: 695 LLFVWVLSM--FGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAFQTRVMRIAGVCLLAGSAVLLSGRVGAGGNDKSP 1441
+L V L M FG E+R TAEVA ETL+ ++LQIQTQELA+ +VQ +LND +V+ + FL++ T+ A++ TL L+K+++ + DP +++Q L I + L + VQ ++ + AS H ++ +P+V DH+KEF+ V+ D+ VQ G+ALW T+ Q R+ ++A L + G V GG K+P
Sbjct: 6 ILGVGALGMIAFGPEMRSKMTKTTAEVATETLQNESLQIQTQELASQIVQTVLNDPKVLDQASQFLQKLMATEATRGAVVQXXXXXXXXXXTLAHVTKLSKQILFNLFQDPTTLRQFVDLIKAAIVXXXXXXXXXXXXXXXXXXXXXXXXXTALMAWTFVQAPVQRGVATTMTASVHNLMSNPDVQDHAKEFIGGVVRDETVQTQSGEALWKTL--ISQKRLRQLALRRTLPVPTISF-GNVTWGGTGKTP 253
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A7S2EX21_TRICV (Hypothetical protein (Fragment) n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2EX21_TRICV)
HSP 1 Score: 94.4 bits (233), Expect = 9.440e-19
Identity = 53/142 (37.32%), Postives = 83/142 (58.45%), Query Frame = 2
Query: 914 QAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYA 1339
+AA LA +L+ + LAKKL I++DP++ +QV L + + +E +E +LV+ L + V+ + + R+ + EV A+ +L S+H L DPE+LDHS EF V+GDD+VQR+ G+AL NT+ YA
Sbjct: 20 RAAAADLAAGVLRSEQFQTALRTLAKKLWTDIIEDPETTEQVVGLVREALRNEVTREATKELVMALVADEDVYRELMDMVVRLGEDKEVLAATQSLLTESAHLALNDPEILDHSMEFATDVVGDDSVQRTSGEALRNTLGYA 161
BLAST of mRNA_F-serratus_M_contig1056.573.1 vs. uniprot
Match:
A0A067CE05_SAPPC (Uncharacterized protein n=2 Tax=Saprolegnia TaxID=4769 RepID=A0A067CE05_SAPPC)
HSP 1 Score: 94.0 bits (232), Expect = 1.950e-17
Identity = 68/241 (28.22%), Postives = 108/241 (44.81%), Query Frame = 2
Query: 632 LMSRMRAQ-DKGRFRALSLSSLLLFVWVLSMFGTEIRRYFASQTAEVARETLKVQALQIQTQELATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETLDETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQSDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFVAQVIGDDAVQRSGGDALWNTVQYAFQTR 1351
L+SR +A +K + + L L L F E++ + TAEVA ETL+ + LQIQTQELA+ +VQ +LND +V+ + F++ S TQ AL+ L L+K+L+ ++ DP +++Q +L + +S H V+ +P++ DH+K+F+ V+ D+ VQ GDALWNT+ Y R
Sbjct: 35 LISRHKASFNKWGYVTIGLGGLCLVA-----FAPELKNSMSKTTAEVASETLQNEMLQIQTQELASQIVQTVLNDPKVLHQASQFIKNLSETETTQKALVVLTSNXXXXXXXXXXVTKLSKQLLLNLMQDPGTMRQFVNLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSTITSSLHGVMSNPDIQDHAKQFIGGVVRDETVQSQSGDALWNTMTYVLTPR 270
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig1056.573.1
>prot_F-serratus_M_contig1056.573.1 ID=prot_F-serratus_M_contig1056.573.1|Name=mRNA_F-serratus_M_contig1056.573.1|organism=Fucus serratus male|type=polypeptide|length=459bp
MATPIRKIPSSASRRLRLVDYHVQGIYTPSIAHRGTSTLRHRSVPVPRPP
LLRDEAVAIPGSWFRCDPNWEGKLKTLSPRHHCRRPSFYGNPTPPQRSFS
STSDGKGGGKDAPEAPVKITPPDKPTRTGTSSTPKSSPTPTPSPAPEASS
RGGATRTGSGGKGVGGLGSAAGSLPHQVSEFYADMERNLMSRMRAQDKGR
FRALSLSSLLLFVWVLSMFGTEIRRYFASQTAEVARETLKVQALQIQTQE
LATALVQALLNDQEVVGAGALFLREASTNPETQAALISLALFILQHPETL
DETIVLAKKLVQAILDDPDSVQQVTSLALKVIADERFKEGATKLVVELGQ
SDQVFEAVSKLTSRVIQHPEVQASLSEVLAASSHEVLEDPEVLDHSKEFV
AQVIGDDAVQRSGGDALWNTVQYAFQTRVMRIAGVCLLAGSAVLLSGRVG
AGGNDKSP*
back to topmRNA from alignment at F-serratus_M_contig1056:150001..160780-
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_F-serratus_M_contig1056.573.1 ID=mRNA_F-serratus_M_contig1056.573.1|Name=mRNA_F-serratus_M_contig1056.573.1|organism=Fucus serratus male|type=mRNA|length=10780bp|location=Sequence derived from alignment at F-serratus_M_contig1056:150001..160780- (Fucus serratus male)
CGGAGACCGTACGTCTGAGCCGGCATTCCCTCTAAGGTTAGTTGGCGCAG
AAAGTCTAGCGCTTAACACCATTTTCTTGAATTACTCTCAGAGCAAGCTG
TAAGCAGATGTAGAAATTTACGGTAAAGAGAAGTTTGGTTGGCAGCTTCT
AGCCCGGCGAATGTCCTAAATAGTACCGTACGCAGGTACGGTTATGGTTC
GATGGCTCTAACAATACTCAGCTCCACTGCTGCATAGCTCGTGGCTCTAT
GCTTGCAAGTAGCTGCTCCTGTCCAACTCGCCGTTTTACGACTGTACCAT
GAATAGTGAGTATTTCTCTGTATCCTGTTGAGTGCCTCCCAAGGAAGTGT
TGCAAATCCTTGTGGCATAGTCGTTCTAAACTTGCTCTCATTTTCTCTTA
CTTTTGTCTTCGAGAGGAGTAACTAATTGAAGAACAACCTAGAGCTGTTG
AGATTCCTGCTCAGTTCTTCGTACGCGTAGATATAGACATACAGTACTAC
TGTAAACAGCCCCTGCTGCTGTGATGATGTTGTCTCTGACTTGCCGAGTT
CATTAGCTGCCAACGAAAGCTTCAATTGTGGTACGTCCCCCAAGCCAACA
CCCTTCGCCCCTTTAAAAGGAATTATATCTTGCTCCATTGTAGAGACAGC
GGGGGATAGAGTATGCTTTTATCGGTGCTCCACTTTCGCGTGAAAATCTC
TTGCAGTTAGCCTCAGAGGTCGAAGACGGACTTCGTTATGGCGACCCCGA
TCCGGAAGATTCCATCATCAGCTTCCCGACGGCTCAGGCTCGTCGACTAT
CACGTTCAAGGCATCTACACCCCTTCCATCGCCCATCGCGGAACGTCGAC
GCTACGTCATCGATCGGTGCCTGTGCCACGTCCACCGCTTCTGCGGGACG
AGGCTGTAGCGATTCCCGGGTCGTGGTTTAGGTGCGACTTGGCGTAAGGT
GACGTGTATCGACTCCTCGCGGGGTGTGCTAAACTGCTGTATATTTTGTG
TAGACTAAAGTATAGCGCAGTGTCTTCAGTAGTTTTTGCCGGCCGTTTTG
TACTGTCTGTTTAGGACCTAAAAGACGCTTGCGGAAGGGGAGGGTGTGTC
AAAAGTTAAAGGTACACATACTGTGCAAGATATGCAATAGAACATATGCA
ACTGTACCTTTTTCGCAGTGGATTCTGCTGACTCATACTGCAAACAGGTA
CGTTTGAAGCTCCAATGGAATGGTATTCATACTATATGATGGCGTTTATC
GCTCGCCACAGAAAACGTTTCGTTGAGCCGCGGTAAAGCAAGCATAATAT
TGTACAGTAGTAGTGCAGTTTGATGCTGGTCGAAGAGTTCGAAATATTGC
CAATAACTTAGATTCTTCTGTATTGATACGTGCAGTAGCAGGTTTGGAGA
TGCACCGTCCGCTCATGGTGTCTATATATCGTATTTTCAGTATATCTTGC
ATAGTATTTTCAGCACCGAGACTGCAGAGTTTTATCAATCCATGTTGATT
TCCACGAGATCTCGCGGCATCGATCGAAACACGCAGCAAGAATAACAAAA
AGCTCTTCCTTCCCCTTCCGGACTTTTTTTTTCGTCTCTTTCGTTATTTA
TTTTTCTCCGCGATGACGCCACTAAAGATGCGACCCGAATTGGGAGGGGA
AACTCAAGACCTTGTCTCCGCGGCATCACTGCCGACGGCCGTCCTTCTAC
GGAAACCCCACCCCCCCCCAACGGAGCTTTTCCTCGACGTCCGACGGCAA
AGGTGGAGGCAAGGACGCGCCGGAGGCACCCGTAAAAATAACGCCTCCAG
ATAAACCAACGCGAACCGGGACCTCGTCGACCCCGAAGTCGTCGCCTACG
CCTACGCCTTCGCCTGCTCCTGAGGCGTCCTCACGGGGAGGCGCTACGCG
TACGGGAAGCGGGGGAAAAGGAGTTGGGGGGCTGGGGAGCGCTGCGGGCA
GTCTGCCCCACCAGGTGTCGGAATTCTACGCTGGTGAGCCCAACTTTCTC
CACCTCTAGATAGAGCTAGACCTCTAGTCCTGAGTAATGTAAGTTGAGGC
GTCGTTTCCGGACATATATATATGTCTTTCTCGCGGCAGAGATTTCGAGC
CCCCCCAAGAGGCGGGGAAAAATACACACATACACACACACACACACACA
TGCACAATACTCTGTAGGAATACGGTAGGATGCGCCTTTTCTGATGCAAG
TTTTGGCGGGATAGATTCCCGCTCCAGTTACCTCGTACACGTATTACAGC
TGCCCACCCCCGCCCCTGCCATCGATGAGGGGCGCTTGGACTTTCGACGA
CGATACCTGCGTACGACTTCATATATTTCTCTTTTTTTTTTCCCCTCTAC
CCTACACAAACCCACACAAACACGCACAAGACATGGAGCGCAACCTGATG
TCGAGGATGCGCGCGCAGGATAAGGGCCGCTTCCGTGCACTCAGCCTCTC
CAGCCTGCTTCTCTTCGTGAGTAATATCAAAAGAGAGAGAGAGTGAGAGA
GAGAGAGATAAATTGAGAGGTGACATCATCTTGGAATGATTCATGTGCGC
GTTCTTGGGATCGTTCTTCGGATCGTTCTTTGGATCTTTACTCTGCATGC
AGCGCCGCTAAGAGCACAAAGTCGGTGCAGAGGGTATATATTGTGGAGAT
GTGTATGCATTGATCACGAGATGCTGGGGAGGGGGGAGTGGGGAAGGGGA
GGGGGGGGAACGATGTTTGCCCCTTCTTTTGGGGGACGGGGGACGATTCC
CTTTGTTCTAGGCGTGCTGTGAAGCGCAGGCCGCCAGTGTTTTATTGAAA
ATGCGGTCGTAAAAGGAGTTTGGTTATTTTGTTTTTGGCGATAATACAAA
CTAACACCAGCTTCTGCTTTGGAGTCATGCTCAATTCGGTTGCCCTATGA
ACGGGCGAGCGGTATGGCATTGCTTGTGGGCCGAGAGATTTCCACTGTGC
CGGGAAGGCGTTTGAGTAGGTTGATCGGAAGAAGGGAATAAGTTCTCGTC
GGAAAATTTCCAGCAGAACTAATGCGCAACGACAGGGCGCAGGGGGGGAG
GGCGTCGGGGGGGGGGGGGGCAGAGTCTGATCATTATTTCGCCTGCTTCA
GGGGGGGTGACAGCATCAGAAGAACCCTCCCGGGGTATGAGTTCCTCATA
TGATACTCTGCTGTAGTACAAGGTAGTTAAAAAATGGTGACCTCGAAAAA
ATGAGACGTCGGCATTTCTGATCGGAATAACACCTCTTTTATGCTCTGCT
AGCTTTATGAACAGTCGGCCATGTTTTTGAAACTCTTCCCCCTAGGTGTG
GGTCTTGAGCATGTTCGGGACGGAAATCCGACGGTACTTTGCCAGCCAGA
CGGCGGAGGTCGCGCGTGAAACGCTCAAGGTCCAAGCATTACAGGTCCGC
CTCTCGAGGAAAACACACAATTTGTACCGTTTTTCAATATACCTAGAAAC
TTTTTTTTTCTTCTTTTTCTTAGTTTATCACAGTACACTCGGATGCAAGT
TTTTCGTATACTGTTTGTAGGGTTGTGTTGTAGTATCCGACAAGAATGTG
ACAGAATATGACATAATATGACCGGGTACCAAGAGCTTTCAAGGTATTTC
CTTCTCCCGGGAGAAGGAACTATAGGAGATGATAGTCTTCCCCTGAACAT
GCGCGTCTTGCGACTAATACTTTGCACATGTTGGACAAGCTATCATAGTA
CTTGGTATCAAAATCTTAAGCGCAGCAGTGGCTCAGCTGCCTGAAACGCA
TAGTCAGGATCTCGGTGGAGACCTTTTCACCTTTTCTGACTTTTCTGACA
CCGTACCTCATGATATTTTGTTCTTGTGGAATCTGGTTAGGCGCCATATT
TTTGTCTCGTACTCGACATAGTACCCCTCTCCACGACGAAGCGTTGCGTG
AGAATCAGAGCGGGTGAACGAACGATTCATCCGACGGGATGGAGGAGGTG
GGAGAGGGGATTGACGAATTCGTCCCCTTTTTTGTGGTGGGCGTGTAATC
TAAACGGCCCAGCCTTGTTATCAAGGCAATATCCCACCTTTTACCTACTA
CTATTATCTAGTGTATGGCTTGCTTGTACGCGACATACATCATTGAGATG
ATGAAACAAATCTTCCTCCCTCCGGAATGGGCTACCTTGAAGCATCCCTC
CCCAAACCCGAAGACATATTCGTAGCATCCCCGAATGCTATCCGCCTTCT
TGGTTGAACAGCCCAAGCACACAGCTCCCCTCTAGCGTTCGTACACAGCA
ATGAACGCATCACACACCCTCATGTTATGTGAACTCCACAGATTCAGACG
CAGGAGCTGGCGACTGCCCTAGTACAAGCGCTCTTGAACGATCAGGAGGT
GAGGGCGTCGAAAACGGAACCGTAACGCCTCTGTACAAACGGCAATACTG
TATCACTGTGGATTTTCTCCTATATAACTACTATAATAGTAGTTTGTATG
ATAGCTGCAAGTACTGCGCTGTATCGTACCTGCGATTTTCCACTCACTGT
GTATACTACTGTGTACCAGGTATTTGTTATAAAAGGGTTCGAAAGCAAAG
TTCCGCGGCCGATTTTGTTGGAAATGTATTCTGGCAAATACGGCCTTGTG
CGTGTGCGCTGGCTGACATGGCTTGAGCGCAATATGATGAGCTGAAATAC
TTGCATACGTCGTACTGGTTTATCGATCATGACTTGAGGAGGAAGAAAAA
TTAGCAAAACACGCCGTTTGAAGCCGAGGGGGGTTGCTTTTGTCAGAGAT
CGTGTCCACGAGGGAACGGACGCAGCATGTACTTTTCTCGAAGCGTTTTA
TGGAACGGAGTGATGTCTGGCTCGAATGTTTCTGCGTCGCGAGGTCGGAA
CAGAGCGAGCTGATTTGATGCGTCAGAACCACCCAGTGATAAAGGGCTAT
TAATATGATAATATTTAATATGATAATATTTAATATGATATAATTAATGT
GATAAAGAAGTGTAATATGCACATGCGCAAAAATTAAACTATGTGCTAAA
AAATAACAAACTGAAAAACATGTGCAAAAAATATGTGCAATGACGCGGGG
GGAAAAATGAAAAAAATTAGGTGGTGGGCGCGGGCGCTTTGTTCCTCCGG
GAAGCGTCAACCAATCCGGAGACTCAGGTTGGTTCACTCGCTAGGTACAG
AGACCCAATAGTGTATAGTCCACAAACCGTCAACAACTGTCAACAACTTT
TAATGTGTTGAAAGTTCCAGGTTTGCTGGTGACGAACTAATGCTCGAGAG
TTTTGGAGAATGGTGCAGCATTGTGTTGCTCATTACTTTGTAGGGTAAGC
TAGACGCGGCGTTCGACGCCTTCGCAGAGTTTGTTGGTGGAGATAGGCAG
CTACATTTTTTTCGGTCTTTTTTCTGTGACCTCTGTCCTTATGCTGTGGC
TATGTGGCTATCCTTGTGCTCCCTCTTTTCAGGCAGCGTTGATCAGCCTT
GCGCTGTTTATCCTCCAGCACCCGGAGACTTTGGACGAAACCATCGTGCT
CGCGAAGAAGCTAGTGCAGGCCATTTTAGACGACCCTGACAGCGTGCAAC
AGGTGCGTTATACATTCTTATTTAGTACCAGGTATACACTAGTATCTTGT
AGGGCAGCATAATACGTCAATAATATTCGATGTAGTATAGGTGAATATTA
ATCGGTCCATGGTGACCTGCCAAGGCAGCACTCGTTCGGAACTACCTTGA
GGTTTACTGTCCCCGTGCCGGCGGACTGTCGACACTGAACGACATCGGTA
CGCAATTGCGTGACCCGATAAACTCGGGACTGACCCGATGACGCATGGCG
GTTATAAATGAATAAATGGACGCCGCCGCGGAACTCGGGAGAAACCCCGT
AAGTAAGCACCCGATTCAGCCTGAGTAAGGAGAATGAGCAGGCTGATGCG
GGATGGGACGGCCGAACCCGTCTAGCGAGGCCAGATTCTCAAGCGCGAAC
GCGGATAGGGGAATATTTATTTTTCCTGTTCAGCTTGACCACGAGCAGGA
TTGGCAACCCTACCCGGTTGATCCATACTCTTGATACATATGCGATCATA
CATAGAGTTTAGTATATTGCAGCACATCGTGCCACAACATAGCACTGGTG
CAGACAGCGTAGAATCTAACAGTGTAGATTAATTACATCGAATAATGAAC
TGTAGGAGTAGCGTAGCACCACCCTCCGGGGAATGCCGTGAGAGAGAAAT
AGAAACCTTTGAGCAACACTCAGTATGCACAGTAGAGTATGATACGTAAT
ATAATATCCAACAGTGTAGAATAACATAGTAAAGTATAATTCAATATAGT
AAAGTTGTTGTTTCTCATATTTGGCGTATTGGTTGCCAATCCGAAAAAAA
AAAACATTACACGGTGGTGGCCAATCCCTCTCTATCAGTGGTCTGCTGAA
CAGGGAAAATATACCGAGTAACAAAAATAGGAAGTCTGGCAGCACACCCC
CCCCCCCCTTCCCATACAACACAAGGCGCGTACACCAAATAGAACAAAAA
AGAAAGAACACATGGATATAAGTGTAGTAAAGTACTGTACATAGCTCTAG
TAGCGCAATATGTAGTAAAACACAGGTATCTTAGAAGAGTGTACCTGGTA
CTATATTATTACACTATTATTACGAGCGTAGCGAGTTACTTATCTACGAT
GGGAAAGAAAGAAAAGCGAGTGCGCAAAAAAATAGTACGCACAAAAAACG
TCCAATCATATCCGTCGCCGACCAAGTTGAAATTACTGGCCAATCATATC
CGTGCAATTACATGCCGCACGCCGAGCCAGCCCGTCTACGCCGCAGCAGT
GGGGTCCGCCTAGCCTACACAGACCCTGCCGGCGAGCGACAGCGAGCACC
ATCCACGCCGCGGGGGGGTCCGTCTAGCTTATAGAGATGCAGGAGAACTT
CCAGCATAAGCTACGGTCGATGCCGAACCTCTGCTGTGTCGTGTGCTCGG
AGCGGTGGTACACACCACAGCATTGCTTAGATCCCGCTCTCGACGAGAGA
GTGAACATTCCTTTTTAAAAAAAGAAAGAAAATAAAACAGGGGGATTTTA
ACTCACTTCTGAAGGGTTATAAGACGTCCCTACTTTAACTGGGCCATTGC
GCTGCGGTGCCAGTAACCTTTAGTACTACATGGCGAGACGCACTTTTTGA
CCATCTAATACCTTACAGGGGGGAAAGAAAAACAAAAAACGAAGAAAAAC
TATTTTACAAAAAAACATTTAAAAAAAACACAGAGCAAGCGGCGCGTAGA
GGGGGTCCTAGACAGCGGTTGGGATTATCGATAGTGGCCGGTATCGAGGG
TGGAAGTTTTTCGTCGTCGTGTGGGACGGCGCGACAGTCATTGGTTCGGT
TTCAAAAACGAAAACACGTGATAACATTGTGTTCGTTTTCTTCTTTTCAA
ACCCCGTCTGGTACGTCAAACATACACCGAAAGGCGTAGAGTGGCGCCAG
AATATATGGGATCAAACACACGCACTCACCAACGCACACATCTGACGACA
GTTACAAATATCATCGAGCGCGAGCTCGTAGCGACAGCCATATACTATTG
CCTCCTATTATAGTGTGCTGTATGTAGTGTGTGTGTTTTCTTCCCATCCA
TTCTGGACATCAAGTTCGTTGCTGCCGGGGTCACACAGGAGGAAGGTCAC
GTGCATAGTTTTGTAGTATAATGTTTTAGTAAGGTTTTGTAGTGAAGTAC
TACCCACTACAAAGCAACTGTCTGTGTAGTTTGACAGAATACTGTAATTG
GGAGGATCAGGATCACTCGTTGCGGTTACTTTGTAGCGTCATTCGTCGTT
CGCTTGCCATGTACACCAGTATAGTCTATCCGTACGGTTTCGTTTTTGAC
GACCATATGTTTCAAAAGTCATGTCGAGACTAGACTATAATATACTATGA
TAATATGCTATACTGCTAAGTAAATGTCTTGGCCTCTTTCTTTCGCTCGC
AACAGGTGACCTCTTTGGCCCTCAAGGTGATCGCGGATGAACGCTTCAAG
GAGGGAGCCACCAAGCTCGTGGTGGAACTCGGTCAGAGCGACCAAGTAAG
CGCTGCGAGATGCCCCGATGGATAGGAAGTTACAGGAGTTCATAGAAAAA
TGCGCGTTTCCCATTTAATGTATCTGCCCTGTCCTGTTGTACACGTCGTG
TCACCGTTTTGAGGACGAAGAAAATAAATAAATAATGAAATGGAATAAAC
GTTTAAAATCCCTTGGATGCGAACGAAAATCCCTTGGAAATGAACCAACC
CCAACTTGGTCTCGAAAAATGAAAGTTCTTTTCAATAGGTCCAAATTTCC
CTCGTTTTGTAGTAACCAAGAAATGTTTTTCATGGGTCAGATTAAATCTT
TTATCCAATCTTTCGGATCCGAATTTTCCGCTATTTTAACGAATATATAA
CAACATAGTCTATACACCCTAACCCGCACGTCTACTGCTGTTGTACGCAG
GTGTTCGAGGCCGTGTCGAAACTTACATCCAGGGTCATCCAGCACCCAGA
GGTGCAGGCGTCGCTGAGTGAAGTCTTGGCTGCTTCTTCACACGAGGTAA
TCTTACACACACTGCACTATATAACATATATGTTATTACTTATTAACACT
ACACTACACTTCATAACACACATTATTAGTACTACTGAACACTATTATAG
GGCCTATACTCTTATTATTATATTATCCGATCATATCATACCAGGTACTA
TTTAATATTGATATTATAGAAAAATAGTTGTACTGTAACACCGAAACACT
GTTATATATATATATATATATGTTATATATATACATTAATACGAGTATTA
CACTAACTAGCTACTATAATGCTGTAGCTCATATATTATTAGAATAATAG
ATCATGTAGTATGTACAACTGTACGAGAGACTTGAGATTGTCGTCTCATT
GTGATGTAAATAAATTTCATCATGGATTCACTATGCCCGAGAAGGAGCAA
ACACAAACAAATGGGTCAACATTATAATACTATATAAAGTACATCCATGT
ACCGGGTTTGCTTTTGGGCAGCGATAATTTGTGGCTTGTTGAGGCTCCGA
TATTTTATATTTTGGGAGGGTATGATGTGTGCTCGTAGGATGCAGCAGCA
CATTTTTTGTCGGGCACCGGTAAATTTTACACCACATTTTGGTATGCATG
CATTTCTTTATGTTTCCTTTTTTTTTTTTTACAAGGTCTGTTGTATGGTT
ATCGATCTCAAGTCTAGCGGGATAAGGAGCCCTAATGCACTTTTTATTAT
TAATTATACTACAACAGGCACATATATACTTGCGCTTGTAGTCTAGTAAG
TCTGGAAAGTCTTCTTGCTTCGCCGCCGCACGCCCAATCGCAATCGCAAT
TTCGTATGCTAATATGATATAAAAATACCGCCTCGCAGGTGTTAGAAGAC
CCGGAGGTACTGGACCACTCGAAGGAGTTCGTAGCGCAGGTGAGAATGAA
ACCGCTACGTTTTTTTGTATTAAGTCTTGACGAGAGACCTCCACGCCAAA
AGGTTTTTAGCGTTCGGCGTCAGGGACTCGGTCCGTTGTTCCCACTTTAG
CCCTGCCTAACACTCCAGACCAAAAAACAAGGCCATGATATACTGTAGAC
AGCATCAATAGTCGTATTAGTAGCAAAGAGCCATTAATATACAACAGCTA
GTTTATAGTGAGTGATGGTTTCGGTCTGTATGCTTACAAATCGCGGCAAC
GGCATGTATTATTTTTCGAGACTGGCACGTAGTGCTGTGTACTCAGTGTT
TGTGTGAATCTTTCGAGACTTGGTGAAACGTCATATTGTTTTTGTCTTCC
AAGGTCTTTTTTAAAATATTTAACCATGTTTTACGATACTTTTTTACGAG
TTTTTTTTTAGACCCTCCTCCCCCTCAGCTTAAAAAAATTTACCAGTACG
GTTTTTGCTTTCCTGTGTAGAGTGGCATCTATCTTTATTACTGTTGTATA
CAATTGGTATATATACCAGTCGTATACGGTTCGAACATCTCTATCATCTT
GTCGAATTCGTTGGTAGGCCTCCTCGGTCACATATCTCATCTTTAGTACT
GTGTTACACATGTTGTAGGTCATAGGCGATGATGCGTAGCCTTCTTCGTC
ACATATCTCCTCTTTATTACTCTATTACACATGTTGTAGGTCATAGGCGA
TGATGCCGTGCAGCGGAGCGGAGGGGATGCGCTGTGGAACACCGTGCAGT
ACGCGTTTCAGACGCGAGTCATGAGGATAGCAGGCGTTTGCCTCCTTGCC
GGCTCGGCAGTCCTCCTGTCGGGGAGGGTCGGCGCTGGAGGAAACGACAA
GAGCCCATGAAGAATGCAGACTTGATGGGCGACTGATTCCTCAAGCGTAT
CATGAAGGCTTCATGAAGGCTTTACACTCGCAGTAACTCAGTACTACTGT
CTGTAGTGGTATGGTATACTGCCGGCAGTCGACGGCGAACAGTTTAGTGT
CCTAAACTGAAGGTTAAAGATGCGTTCAGATTTTTAAAACAAACAAAAAC
CTTTTCAAAGTATGTTTCACCTCGATGGTGCACAGATATCACACGGAAAG
TACTTTTTATATGTAGAGCTATAATATTGATACTCTACTGGTCATGCCAT
GCCAACATTGATGTAGGTCTACTATAAACAAAGTGTCGGTACATTCAGCG
ACGACCGCAGAAATTCGTGCGCTGTTCTATCTGTAGCGATCTTTTTTACC
AGGTATAGACTATACATTTGTATATGTATTTGACAGTACTGTACGCGTAG
AGCTTCGCTTCCATTTTATTTGAATGCACG
back to topCoding sequence (CDS) from alignment at F-serratus_M_contig1056:150001..160780-
>mRNA_F-serratus_M_contig1056.573.1 ID=mRNA_F-serratus_M_contig1056.573.1|Name=mRNA_F-serratus_M_contig1056.573.1|organism=Fucus serratus male|type=CDS|length=2754bp|location=Sequence derived from alignment at F-serratus_M_contig1056:150001..160780- (Fucus serratus male)
ATGGCGACCCCGATCCGGAAGATTCCATCATCAGCTTCCCGACGGCTCAG
GCTCGTCGACTATCACGTTCAAGGCATCTACACCCCTTCCATCGCCCATC
GCGGAACGTCGACGCTACGTCATCGATCGGTGCCTGTGCCACGTCCACCG
CTTCTGCGGGACGAGGCTGTAGCGATTCCCGGGTCGTGGTTTAGATGGCG
ACCCCGATCCGGAAGATTCCATCATCAGCTTCCCGACGGCTCAGGCTCGT
CGACTATCACGTTCAAGGCATCTACACCCCTTCCATCGCCCATCGCGGAA
CGTCGACGCTACGTCATCGATCGGTGCCTGTGCCACGTCCACCGCTTCTG
CGGGACGAGGCTGTAGCGATTCCCGGGTCGTGGTTTAGATGCGACCCGAA
TTGGGAGGGGAAACTCAAGACCTTGTCTCCGCGGCATCACTGCCGACGGC
CGTCCTTCTACGGAAACCCCACCCCCCCCCAACGGAGCTTTTCCTCGACG
TCCGACGGCAAAGGTGGAGGCAAGGACGCGCCGGAGGCACCCGTAAAAAT
AACGCCTCCAGATAAACCAACGCGAACCGGGACCTCGTCGACCCCGAAGT
CGTCGCCTACGCCTACGCCTTCGCCTGCTCCTGAGGCGTCCTCACGGGGA
GGCGCTACGCGTACGGGAAGCGGGGGAAAAGGAGTTGGGGGGCTGGGGAG
CGCTGCGGGCAGTCTGCCCCACCAGGTGTCGGAATTCTACGCTGATGCGA
CCCGAATTGGGAGGGGAAACTCAAGACCTTGTCTCCGCGGCATCACTGCC
GACGGCCGTCCTTCTACGGAAACCCCACCCCCCCCCAACGGAGCTTTTCC
TCGACGTCCGACGGCAAAGGTGGAGGCAAGGACGCGCCGGAGGCACCCGT
AAAAATAACGCCTCCAGATAAACCAACGCGAACCGGGACCTCGTCGACCC
CGAAGTCGTCGCCTACGCCTACGCCTTCGCCTGCTCCTGAGGCGTCCTCA
CGGGGAGGCGCTACGCGTACGGGAAGCGGGGGAAAAGGAGTTGGGGGGCT
GGGGAGCGCTGCGGGCAGTCTGCCCCACCAGGTGTCGGAATTCTACGCTG
ACATGGAGCGCAACCTGATGTCGAGGATGCGCGCGCAGGATAAGGGCCGC
TTCCGTGCACTCAGCCTCTCCAGCCTGCTTCTCTTCACATGGAGCGCAAC
CTGATGTCGAGGATGCGCGCGCAGGATAAGGGCCGCTTCCGTGCACTCAG
CCTCTCCAGCCTGCTTCTCTTCGTGTGGGTCTTGAGCATGTTCGGGACGG
AAATCCGACGGTACTTTGCCAGCCAGACGGCGGAGGTCGCGCGTGAAACG
CTCAAGGTCCAAGCATTACAGGTGTGGGTCTTGAGCATGTTCGGGACGGA
AATCCGACGGTACTTTGCCAGCCAGACGGCGGAGGTCGCGCGTGAAACGC
TCAAGGTCCAAGCATTACAGATTCAGACGCAGGAGCTGGCGACTGCCCTA
GTACAAGCGCTCTTGAACGATCAGGAGATTCAGACGCAGGAGCTGGCGAC
TGCCCTAGTACAAGCGCTCTTGAACGATCAGGAGGTGGTGGGCGCGGGCG
CTTTGTTCCTCCGGGAAGCGTCAACCAATCCGGAGACTCAGGTGGTGGGC
GCGGGCGCTTTGTTCCTCCGGGAAGCGTCAACCAATCCGGAGACTCAGGC
AGCGTTGATCAGCCTTGCGCTGTTTATCCTCCAGCACCCGGAGACTTTGG
ACGAAACCATCGTGCTCGCGAAGAAGCTAGTGCAGGCCATTTTAGACGAC
CCTGACAGCGTGCAACAGGCAGCGTTGATCAGCCTTGCGCTGTTTATCCT
CCAGCACCCGGAGACTTTGGACGAAACCATCGTGCTCGCGAAGAAGCTAG
TGCAGGCCATTTTAGACGACCCTGACAGCGTGCAACAGGTGACCTCTTTG
GCCCTCAAGGTGATCGCGGATGAACGCTTCAAGGAGGGAGCCACCAAGCT
CGTGGTGGAACTCGGTCAGAGCGACCAAGTGACCTCTTTGGCCCTCAAGG
TGATCGCGGATGAACGCTTCAAGGAGGGAGCCACCAAGCTCGTGGTGGAA
CTCGGTCAGAGCGACCAAGTGTTCGAGGCCGTGTCGAAACTTACATCCAG
GGTCATCCAGCACCCAGAGGTGCAGGCGTCGCTGAGTGAAGTCTTGGCTG
CTTCTTCACACGAGGTGTTCGAGGCCGTGTCGAAACTTACATCCAGGGTC
ATCCAGCACCCAGAGGTGCAGGCGTCGCTGAGTGAAGTCTTGGCTGCTTC
TTCACACGAGGTGTTAGAAGACCCGGAGGTACTGGACCACTCGAAGGAGT
TCGTAGCGCAGGTGTTAGAAGACCCGGAGGTACTGGACCACTCGAAGGAG
TTCGTAGCGCAGGTCATAGGCGATGATGCCGTGCAGCGGAGCGGAGGGGA
TGCGCTGTGGAACACCGTGCAGTACGCGTTTCAGACGCGAGTCATGAGGA
TAGCAGGCGTTTGCCTCCTTGCCGGCTCGGCAGTCCTCCTGTCGGGGAGG
GTCGGCGCTGGAGGAAACGACAAGAGCCCATGAGTCATAGGCGATGATGC
CGTGCAGCGGAGCGGAGGGGATGCGCTGTGGAACACCGTGCAGTACGCGT
TTCAGACGCGAGTCATGAGGATAGCAGGCGTTTGCCTCCTTGCCGGCTCG
GCAGTCCTCCTGTCGGGGAGGGTCGGCGCTGGAGGAAACGACAAGAGCCC
ATGA
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