mRNA_P-littoralis_Contig824.16.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig824.16.2
Unique Name	mRNA_P-littoralis_Contig824.16.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: D8LI45_ECTSI (Protein kinase domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LI45_ECTSI)

HSP 1 Score: 552 bits (1423), Expect = 7.790e-187
Identity = 285/316 (90.19%), Postives = 298/316 (94.30%), Query Frame = 1

Query:  892 FAGKTVARAVPAAA---GTVLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQKFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRLRV-NSPKPPGW 1827
            FA KTVAR VPAAA   GTVL KYEMKEVLGVGSTSKCYRCVNR+S+K+FACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFES+  IHMVMEIMQGGELFDYVVEKGTLSESEAS +VRKVTSALAYMHSLNIIHRDLKPENLLLTSKGA+PEVKIIDFGLAKVLGAGDD AQSFLGTRGYLAPEMLQRESY+KEVDVWALGVI FVLLCGCLPFDDDS KLNRAGAFQKFVLRFPRWAQ LSPGAKDLLSKLLTVTP+ARLTAK+ALEHPWVTGK AAA+N+LESPRTLR+LRV +SPK   W
Sbjct:   46 FAAKTVAREVPAAAAAAGTVLVKYEMKEVLGVGSTSKCYRCVNRRSRKEFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESDVNIHMVMEIMQGGELFDYVVEKGTLSESEASVIVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGAAPEVKIIDFGLAKVLGAGDDRAQSFLGTRGYLAPEMLQRESYNKEVDVWALGVIVFVLLCGCLPFDDDSKKLNRAGAFQKFVLRFPRWAQKLSPGAKDLLSKLLTVTPQARLTAKRALEHPWVTGKVAAADNYLESPRTLRKLRVGSSPKKGAW 361

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A835YVJ6_9STRA (Kinase-like domain-containing protein (Fragment) n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YVJ6_9STRA)

HSP 1 Score: 379 bits (972), Expect = 3.600e-121
Identity = 196/285 (68.77%), Postives = 232/285 (81.40%), Query Frame = 1

Query:  964 EVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQKFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRL--RVNSP 1812
            +VLGVGSTS CYRC++R + + FACK+IDKRA++ K K LL+QFH EI VL+ LRHP+II ++D FE+E++IHMV+EIM+GGELFD+VV +GTLSE+EA+ M+R V SALAYMHS+ IIHRDLKPENLL+ SK AS  VKIIDFGL K L      A+SFLGTRGYLAPEMLQRESYSK VDVWALGVI FVLLCGCLPFDDDS+++NR  A  KFVLRFPRWAQ LSP AKDLL  LL V P  RLTA+ AL+HPW++G  AAA N LESP+ LR+   R+ SP
Sbjct:    1 QVLGVGSTSTCYRCLDRSTGQAFACKLIDKRAVEQKFKGLLEQFHNEISVLRQLRHPHIIFLKDAFETETRIHMVLEIMEGGELFDFVVNRGTLSEAEAARMLRGVASALAYMHSMGIIHRDLKPENLLI-SKDAST-VKIIDFGLCKALEE-HAQAKSFLGTRGYLAPEMLQRESYSKAVDVWALGVICFVLLCGCLPFDDDSSRINRKSAMAKFVLRFPRWAQNLSPHAKDLLGGLLDVNPATRLTAQAALDHPWLSGAVAAATNMLESPKALRQQLPRIRSP 282

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A482SM04_9ARCH (Serine/threonine-protein kinase n=1 Tax=archaeon TaxID=1906665 RepID=A0A482SM04_9ARCH)

HSP 1 Score: 369 bits (947), Expect = 9.470e-116
Identity = 179/280 (63.93%), Postives = 227/280 (81.07%), Query Frame = 1

Query:  952 YEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKL-NRAGAFQKFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTL 1788
            YE++E +GVGSTSKCYRC+ +   K+FACKVIDKR ++ K   LLDQF+VE++VLQ L HPNII + D FE+  +I+M+ME+M+GGELFDYVVEKGTLSE EAS ++RK+TSA+A+MHS+ IIHRDLKPENLLLT+KGA  E+K+IDFGLAKV+   ++ A SFLGT+GYLAPEMLQR+SY + +D+WALGVI FVLLCGCLPFDDDS+++ +   A +KF LRFP+WA TLS  AKDLL  LL + P+ R +A+QAL HPWV GK    N++L+SP  L
Sbjct:  122 YELREEMGVGSTSKCYRCIRKTDAKEFACKVIDKRHVEIKFSGLLDQFYVELKVLQTLNHPNIIKLIDTFETPDRIYMIMELMKGGELFDYVVEKGTLSEEEASVIIRKITSAVAHMHSMQIIHRDLKPENLLLTTKGADAEIKLIDFGLAKVMF--EEVASSFLGTKGYLAPEMLQRQSYDQAIDMWALGVICFVLLCGCLPFDDDSSRITSEQVARKKFTLRFPKWASTLSASAKDLLHNLLEIDPKRRFSAEQALNHPWVAGKTVQRNSYLQSPCIL 399

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A7S0GFF1_9STRA (Hypothetical protein n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A7S0GFF1_9STRA)

HSP 1 Score: 364 bits (935), Expect = 1.100e-112
Identity = 186/303 (61.39%), Postives = 233/303 (76.90%), Query Frame = 1

Query:  940 VLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGAS----PEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQ-KFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRL----RVNSPKPP 1821
            +L KYE++EVLGVGSTS C++CV+R + K +ACK+IDK  ++ + + ++DQFH EI  L+ L HPNIIH+ DV+ ++SKI +VME+M+GGE+FDYVVEKGTL+E EAS +VRKVTSAL YMHS NIIHRDLKPENLLLT K       PEVKIIDFGL+K +   +  A+SFLGTRGYLAPEMLQR  Y++ VD W+LGVI+FVLLCGCLPFDDDS  +      + KFVLRFPRWA+ LSP AKDLLS LL + P+ R TA+QAL+HPWVTG+ A +N+ L+SP  +       R N+PK P
Sbjct:  164 LLQKYELREVLGVGSTSTCHKCVDRMTGKPYACKIIDKGQIEARFRGMIDQFHSEIDALRRLHHPNIIHLRDVYVTQSKIFIVMELMEGGEMFDYVVEKGTLTEEEASFIVRKVTSALVYMHSKNIIHRDLKPENLLLTRKPRGIHDIPEVKIIDFGLSKCMN--EPVARSFLGTRGYLAPEMLQRREYTRSVDAWSLGVITFVLLCGCLPFDDDSQTVPSDDVLKRKFVLRFPRWAKNLSPSAKDLLSHLLDINPKTRYTAEQALKHPWVTGEDAPSNSILQSPGRMGVSSGGNRANTPKGP 464

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A6G0XU61_9STRA (Protein kinase domain-containing protein n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0XU61_9STRA)

HSP 1 Score: 356 bits (914), Expect = 1.990e-111
Identity = 185/292 (63.36%), Postives = 226/292 (77.40%), Query Frame = 1

Query:  928 AAGTVLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQ-KFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRLR 1800
            AAG+  +KY +  V+G GSTS C+ C ++ + +QFACK+IDKRA+  K   LL+QF VEIQVLQ L HPNIIHMEDV++++S+I MV E+M+GGELFDYVV KGTLSE EAS +VRK+TSA+AYMH+  ++HRDLKPENLLLTSK  + EVKIIDFGLAK+L   D   +SFLGTRGYLAPEML+R+SYSK +DVWALGVI +VLLCGCLPF+DD +K+N   A + KF LRFPRWA  LS  AKDLL  LL V    R TA+QA  HPWVTG+    N FLESP  L+ ++
Sbjct:   66 AAGSFESKYVLGSVIGTGSTSVCHLCESKATGEQFACKIIDKRAIQSKSDDLLEQFQVEIQVLQSLDHPNIIHMEDVYQTDSRICMVTELMEGGELFDYVVHKGTLSEVEASCLVRKITSAIAYMHACGVVHRDLKPENLLLTSKSPNAEVKIIDFGLAKLLH--DSQTRSFLGTRGYLAPEMLRRQSYSKSIDVWALGVIVYVLLCGCLPFNDDGSKINSDKAARAKFGLRFPRWASGLSESAKDLLRHLLEVDSEKRYTAEQACLHPWVTGQRTP-NKFLESPNYLKTIK 354

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A024TSV5_9STRA (CAMK/CAMK1 protein kinase n=1 Tax=Aphanomyces invadans TaxID=157072 RepID=A0A024TSV5_9STRA)

HSP 1 Score: 354 bits (908), Expect = 1.860e-110
Identity = 185/292 (63.36%), Postives = 225/292 (77.05%), Query Frame = 1

Query:  928 AAGTVLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQ-KFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRLR 1800
            AAGT  +KY +K ++G GSTS C+ C    +KKQFACKVIDKRA+  K   LL+QF VEIQVLQ L HPNIIHMEDV++++S+I MV E+M+GGELFDYVV+KGTLSE EAS +VRK+TSALAYMH+  ++HRDLKPEN+LLTS   + E+KIIDFGLAK+L   +   +SFLGTRGYLAPEML+R+SYSK +DVWALGVI +VLLCGCLPF DD +K++   A + KF LRFPRWA  LS  AKDLL  LL V    R TA+QA  HPWVTG+    N FLESP  L+ ++
Sbjct:   66 AAGTFESKYTLKAIIGNGSTSVCHLCEENTTKKQFACKVIDKRAIQSKSDDLLEQFQVEIQVLQSLDHPNIIHMEDVYQTDSRICMVTELMEGGELFDYVVQKGTLSEVEASCLVRKITSALAYMHACGVVHRDLKPENVLLTSPSPNAEIKIIDFGLAKLLH--NSQTRSFLGTRGYLAPEMLRRQSYSKSIDVWALGVIVYVLLCGCLPFIDDGSKIHSDKAARAKFGLRFPRWASGLSESAKDLLRHLLEVDSDKRYTAEQACLHPWVTGQRTP-NKFLESPNYLKSIK 354

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A1V9ZSD6_9STRA (Protein kinase n=3 Tax=Saprolegniaceae TaxID=4764 RepID=A0A1V9ZSD6_9STRA)

HSP 1 Score: 352 bits (902), Expect = 8.120e-110
Identity = 183/298 (61.41%), Postives = 226/298 (75.84%), Query Frame = 1

Query:  928 AAGTVLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQ-KFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRLRVNSPKP 1818
            A G+  +KY++  V+G GSTS C+ C  + + K++ACK+IDKR +  K   LL+QF VEIQVLQ L HPNIIHMEDV++++++I MV E M+GGELFDY+V KGTLSE EAS +VRK+TSALAYMH+  ++HRDLKPENLLLTSK  + EVKIIDFGLAK+L   D+  +SFLGTRGYLAPEML+R+SYSK VDVWALGVI +VLLCGCLPF+DD +K+N   A + KF LRFPRWA  LS  AKDLL  LL V    R TA+QA  HPWVTG+    N +LESP  L+ +R    +P
Sbjct:   59 AVGSFDSKYKLLSVIGNGSTSVCHLCEEKATGKKYACKIIDKRVVQSKSDDLLEQFQVEIQVLQSLSHPNIIHMEDVYQTDNRISMVTEHMEGGELFDYIVNKGTLSEVEASCLVRKITSALAYMHACGVVHRDLKPENLLLTSKSPNAEVKIIDFGLAKLLH--DNQTRSFLGTRGYLAPEMLRRQSYSKSVDVWALGVIVYVLLCGCLPFNDDGSKINSDKAARAKFGLRFPRWASGLSDSAKDLLHHLLEVDSEKRYTAEQACLHPWVTGQRTP-NKYLESPNHLKSIRQRRKQP 353

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A7S1YR70_9STRA (Hypothetical protein n=5 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S1YR70_9STRA)

HSP 1 Score: 356 bits (913), Expect = 7.170e-109
Identity = 183/297 (61.62%), Postives = 228/297 (76.77%), Query Frame = 1

Query:  946 AKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASP----EVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQ-KFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLR-----RLRVN 1806
            AKY++ EVLGVGSTS C+RCVNR++++ +ACKVIDK+ M+ + K +++QFH EIQ L+ L HPNII + DV+ +E KI+++ME+M+GGELFDYVV+KGTL+E EAS +VRKVTSAL YMH+ NIIHRDLKPENLLLT K  +P    EVKIIDFGL+K +   +  A+SFLGTRGYLAPEMLQR  YS+ VD WALGVI+FVLLCGCLPFDDD+  +      + KF LRFPRWA+ +SP AKDLLS LL V  R R TA+QA  HPWV G++A   + L+SP  +R     R RVN
Sbjct:  176 AKYDLCEVLGVGSTSTCHRCVNRQTQQSYACKVIDKKHMEQRFKGMIEQFHTEIQALRSLHHPNIIRLFDVYITEDKIYIIMELMEGGELFDYVVKKGTLTEEEASRIVRKVTSALVYMHAKNIIHRDLKPENLLLTRKPRTPLDDIEVKIIDFGLSKCMH--EPVARSFLGTRGYLAPEMLQRRDYSRAVDAWALGVITFVLLCGCLPFDDDANSIPTDDVLKAKFTLRFPRWAKNVSPSAKDLLSHLLDVNSRTRYTAEQAFMHPWVKGESAPKESLLQSPARIRHSPATRKRVN 470

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A1E7FQY6_9STRA (Pkinase-domain-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FQY6_9STRA)

HSP 1 Score: 345 bits (886), Expect = 2.620e-108
Identity = 178/286 (62.24%), Postives = 221/286 (77.27%), Query Frame = 1

Query:  964 EVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKGASP----EVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSA-----KLNRAGAFQKFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRR 1794
            E LGVGSTS C+RCV++ + K +ACK+IDK+ ++ + + +++QFH EI+ L+ L HP+II + DV+ SE KI +VME+M+GGELFDYVV+KGTL+E EAS +VRKVTSA+ YMHS NI+HRDLKPENLLL  K  +P    ++KIIDFGL+K +   +  AQSFLGTRGYLAPEMLQR +Y+K VD WALGVI FVLLCGCLPFDDDSA     +L RA    KFVLRFPRWA+ LSP AKDLLS LL V P  R TA+QAL+HPWVTGK+A   N L SP  +++
Sbjct:    2 EELGVGSTSVCHRCVHKTTGKHYACKIIDKQMIEERFQGMMEQFHTEIEALRALHHPSIIELFDVYISEEKIFIVMELMEGGELFDYVVQKGTLTEDEASDIVRKVTSAMVYMHSQNIVHRDLKPENLLLYRKPNNPRDTVDIKIIDFGLSKCMT--EPVAQSFLGTRGYLAPEMLQRRNYTKAVDTWALGVIVFVLLCGCLPFDDDSATVPTDELVRA----KFVLRFPRWAKNLSPSAKDLLSHLLDVNPNRRYTAEQALDHPWVTGKSAPKGNLLASPGRIKK 281

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BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Match: A0A7S1VJB7_9STRA (Hypothetical protein (Fragment) n=1 Tax=Grammatophora oceanica TaxID=210454 RepID=A0A7S1VJB7_9STRA)

HSP 1 Score: 349 bits (895), Expect = 2.540e-107
Identity = 185/301 (61.46%), Postives = 219/301 (72.76%), Query Frame = 1

Query:  940 VLAKYEMKEVLGVGSTSKCYRCVNRKSKKQFACKVIDKRAMDPKLKPLLDQFHVEIQVL-QLLRHPNIIHMEDVFESESKIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIHRDLKPENLLLTSKG------ASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPEMLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQKFVLRFPRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLESPRTLRRLRVNSPKPP 1821
            +L KYE+ EVLGVGSTS C+RC  R +  + ACK+IDK  +  + + ++DQF  EIQ L QL RHPNII + DV+ S+ K+ +VME+M+GGELFDYVV++GTL+E EAS  VR VTSAL YMHS NIIHRDLKPENLLL  K        S EVKIIDFGL+K L   D +A SFLGTRGYLAPEMLQR +YSK+VD WALGVI FVLLCGCLPFDDDS+++       KF LRFPRWA+ LS  AKDLL KLL + P  R TA+QAL HPWVTG AA   + LESP  ++R     PK P
Sbjct:  129 LLKKYELFEVLGVGSTSTCHRCRARSTGAELACKIIDKSTVSDRFQGMMDQFKTEIQALKQLRRHPNIIRLYDVYISDEKLWIVMELMEGGELFDYVVQRGTLTEEEASACVRMVTSALVYMHSKNIIHRDLKPENLLLKYKPNPTRNLESLEVKIIDFGLSKCLAPADVAASSFLGTRGYLAPEMLQRNNYSKQVDTWALGVIVFVLLCGCLPFDDDSSQIPPDVLNLKFQLRFPRWAKNLSDSAKDLLEKLLDINPATRYTAEQALRHPWVTGAAAPKESLLESPGRIKRSPRIPPKVP 429

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig824.16.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LI45_ECTSI	7.790e-187	90.19	Protein kinase domain-containing protein n=1 Tax=E...	[more]
A0A835YVJ6_9STRA	3.600e-121	68.77	Kinase-like domain-containing protein (Fragment) n...	[more]
A0A482SM04_9ARCH	9.470e-116	63.93	Serine/threonine-protein kinase n=1 Tax=archaeon T...	[more]
A0A7S0GFF1_9STRA	1.100e-112	61.39	Hypothetical protein n=1 Tax=Proboscia inermis Tax...	[more]
A0A6G0XU61_9STRA	1.990e-111	63.36	Protein kinase domain-containing protein n=1 Tax=A...	[more]
A0A024TSV5_9STRA	1.860e-110	63.36	CAMK/CAMK1 protein kinase n=1 Tax=Aphanomyces inva...	[more]
A0A1V9ZSD6_9STRA	8.120e-110	61.41	Protein kinase n=3 Tax=Saprolegniaceae TaxID=4764 ...	[more]
A0A7S1YR70_9STRA	7.170e-109	61.62	Hypothetical protein n=5 Tax=Ditylum brightwellii ...	[more]
A0A1E7FQY6_9STRA	2.620e-108	62.24	Pkinase-domain-containing protein n=1 Tax=Fragilar...	[more]
A0A7S1VJB7_9STRA	2.540e-107	61.46	Hypothetical protein (Fragment) n=1 Tax=Grammatoph...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig824	contig	P-littoralis_Contig824:80573..98886 -

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.D8LI45
PFAMs	Pkinase
Model size	2733
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K08794
KEGG Pathway	ko04921,ko04925,map04921,map04925
Hectar predicted targeting category	other localisation
Exons	6
Evalue	1.73e-191
EggNOG OGs	KOG0032@1\|root,KOG0032@2759\|Eukaryota
Ec32 ortholog description	Serine/threonine/dual specificity protein kinase, catalytic domain
Ec32 ortholog	Ec-26_005180.3
EC	2.7.11.17
Description	protein serine/threonine kinase activity
Cds size	1908
COG category	T
BRITE	ko00000,ko00001,ko01000,ko01001

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig824.16.2	prot_P-littoralis_Contig824.16.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig824 81275..98763 -

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


Feature Name	Unique Name	Species	Type	Position
1680791681.5555058-UTR-P-littoralis_Contig824:80572..81274	1680791681.5555058-UTR-P-littoralis_Contig824:80572..81274	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig824 80573..81274 -
1680791681.6388755-UTR-P-littoralis_Contig824:98763..98886	1680791681.6388755-UTR-P-littoralis_Contig824:98763..98886	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig824 98764..98886 -

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


Feature Name	Unique Name	Species	Type	Position
1680791681.567688-CDS-P-littoralis_Contig824:81274..81700	1680791681.567688-CDS-P-littoralis_Contig824:81274..81700	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 81275..81700 -
1680791681.57773-CDS-P-littoralis_Contig824:83427..83577	1680791681.57773-CDS-P-littoralis_Contig824:83427..83577	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 83428..83577 -
1680791681.5877445-CDS-P-littoralis_Contig824:84177..84354	1680791681.5877445-CDS-P-littoralis_Contig824:84177..84354	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 84178..84354 -
1680791681.6030374-CDS-P-littoralis_Contig824:87628..87796	1680791681.6030374-CDS-P-littoralis_Contig824:87628..87796	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 87629..87796 -
1680791681.6125371-CDS-P-littoralis_Contig824:88229..88298	1680791681.6125371-CDS-P-littoralis_Contig824:88229..88298	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 88230..88298 -
1680791681.6253796-CDS-P-littoralis_Contig824:97845..98763	1680791681.6253796-CDS-P-littoralis_Contig824:97845..98763	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig824 97846..98763 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig824:80573..98886-
coding sequence from alignment at P-littoralis_Contig824:80573..98886-

protein sequence of mRNA_P-littoralis_Contig824.16.2

>prot_P-littoralis_Contig824.16.2 ID=prot_P-littoralis_Contig824.16.2|Name=mRNA_P-littoralis_Contig824.16.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=636bp
MGNPFSCCHPGRKEEDRGGGSNPRARLLQDNSTQTAGFAEEETNGSTRHE
KSNSSAVGSSAHILRQKQPAEATRGEVHSSSSSSSNIDSNGSCRAGIPVA
SGSAQHQASTKSGVDGTGETPANAAGGATNRGAGGVAPRGFPAGLSTVVA
NGSGAGAHRHPAPAAVYRSAGAAIPRAHPSDQQSRPQQQAQMVAGGTAHA
RAGAGDVHLVGGRGGVHQQQQQHHHQQYNAGAAARGVGGRFGVAGGTFGG
GRTGGVFAGKTVARAVPAAAGTVLAKYEMKEVLGVGSTSKCYRCVNRKSK
KQFACKVIDKRAMDPKLKPLLDQFHVEIQVLQLLRHPNIIHMEDVFESES
KIHMVMEIMQGGELFDYVVEKGTLSESEASGMVRKVTSALAYMHSLNIIH
RDLKPENLLLTSKGASPEVKIIDFGLAKVLGAGDDSAQSFLGTRGYLAPE
MLQRESYSKEVDVWALGVISFVLLCGCLPFDDDSAKLNRAGAFQKFVLRF
PRWAQTLSPGAKDLLSKLLTVTPRARLTAKQALEHPWVTGKAAAANNFLE
SPRTLRRLRVNSPKPPGWGGGGGGARGNGGPQQSAAAASAAAAEAHRRAE
FEEQSDEYKEGGVGLAVGRSGSGGTGGRFRRKNSF*

mRNA from alignment at P-littoralis_Contig824:80573..98886-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig824.16.2 ID=mRNA_P-littoralis_Contig824.16.2|Name=mRNA_P-littoralis_Contig824.16.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=18314bp|location=Sequence derived from alignment at P-littoralis_Contig824:80573..98886- (Pylaiella littoralis U1_48)
GTCGTCCATTTATATTTCCTGCTGAGAGGTCATGTGGAGATACATCAGCT
CTATGACACAGCGACTGGACCCTTGATCTCTCCTTCTCTATCAGAGGCGT
CCCCCGCTAATCCTAAGGCACGCATGGGTAATCCTTTCTCATGCTGCCAT
CCTGGGCGCAAGGAGGAAGATAGGGGCGGCGGCTCGAATCCCCGCGCCCG
ACTCCTCCAGGATAACTCCACACAGACAGCAGGCTTTGCGGAGGAAGAAA
CTAACGGCTCGACTCGTCACGAGAAGTCCAACAGTAGTGCTGTTGGGAGT
TCAGCACATATTCTCCGTCAAAAACAGCCGGCAGAGGCAACGAGAGGTGA
GGTCCACAGCAGTAGTAGTAGTAGCAGCAACATCGATTCCAATGGCTCGT
GCCGTGCTGGAATCCCAGTGGCGAGCGGCAGCGCACAGCATCAGGCATCG
ACGAAAAGCGGAGTTGACGGCACAGGGGAGACACCAGCCAATGCTGCAGG
TGGTGCAACAAATAGAGGGGCTGGAGGGGTCGCCCCTCGAGGCTTCCCCG
CCGGACTGTCGACAGTAGTTGCCAACGGGTCAGGGGCAGGAGCACATCGA
CATCCAGCACCAGCCGCAGTTTATCGATCCGCTGGTGCCGCTATCCCACG
GGCACATCCCAGCGACCAGCAATCGCGGCCGCAGCAACAGGCCCAAATGG
TCGCCGGCGGCACGGCACACGCGCGGGCGGGGGCGGGAGACGTTCACCTG
GTGGGTGGGCGGGGCGGGGTTCACCAGCAGCAGCAGCAGCACCATCATCA
GCAGTACAACGCGGGGGCGGCGGCTAGAGGAGTGGGGGGACGGTTCGGAG
TGGCAGGAGGAACGTTTGGAGGAGGAAGAACAGGAGGTGTCTTTGCGGGC
AAGACTGTGGCGAGAGCGGTCCCTGCGGCGGCTGGCACGGTGCTAGCCAA
GTACGAGATGAAGGAGGTGCTCGGCGTCGGGAGCACATCCAAGTGCTACA
GATGTGTCAACAGGAAGAGCAAGAAGCAGTTTGCTTGCAAGGTTGGTGCC
GGCCGGGTTAGAGTTAAGAGAAGAAAAGACAGGCAGGCTGGGATCGTTGA
CAATCTTCGTGACCTGTTCACAGCAGCAGCGGTTTATAGCAGAAGTACAT
CCACATGAACAAACACATCACGCCAGAGGATATACTGCTGTCCATATCAT
ACACTTCAAAGTACCTGGTACGGAGCACTGCAGTATACGATATGGCAGTT
CGAAGTAGGAGCACTGCTGTATACTTGCTGTATGTACATACGCATGACAT
ACCAGGTGCAACAACGTCGCGTTCGGGCCGTTTTAGCAGCCCCTCTTGGT
TTAAGTGTCTCGTCTCGTCACTACTCGGAATAAATTAATTGGTCGAAATT
GCATATCGAGATTCCAGACATACAGACTCCAGACCTCGCTCCCCGACCAA
AGGATAGCCAGGAAGACCCCGGAATCCAGATCCCAAAAAATAAGAACCTG
ATATGATACAGACAGCGTATGATATTACTTCGAGCATCTGTGCCCTCTCG
GTCGCCCCGGTGGTTCAGTTGGTCATCCACGCAACCTTCTGACATTCACG
CGTGAGTTTGAATCCCAGTGCAGTAACACGATTTGGGTCTTTTTCTCACA
CTGCGCGTGAAAGTGGAAAGCGATCAATTCGTGAGTAAACGAAATTCGAT
CGTACGATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGATAAAA
CCTCAACCAAAAAGGCAAACACCGCAGGGGGAAGTGAAGAAAAAAAAAAA
CTCCTGTGTTGACTTCCCCCTGTGTGACCCCCGGTTGGAGCGTGTACCTA
CCCGAAAGGCGTAGAGTGGCGTCCAATGAAACGGATGACAATACAACACA
CACGACACACACATCTGTCGCCCCGGTGGTTCAGTTGCTTATCCACGCAG
TCTTATCACATTCACGCACGAGTTCGAATCCCAGTGCATTAACACGATCT
GGGTTTTTTTTATCACATCGCGCGTGAAAGTGGAAAGCGATCAATCCGGA
GTAAAAAAAATACAATTCGATCGTACCATCGGCGAGGGAAAGGGATTGCT
GTCCCCTTTCTCGCGATCAAAGCTCAACCAAGAAGGCAAGAACCGCAGAG
GGAAGTGGAGCAAAAAAAAAAAAAAAAACTCCTGTGTTGACTTCCCCCTG
GTGTGACCTCGGTTGGAGCGTCTACCTACCCGAAATGTGTAGAGTGGCGT
CCAATGAAAGGGATGACAATACACACACACACACACACACACATATGATG
GGATACACACACACACACACACACACACACACACACACACACACACACAC
ACACACACACACACACACACACACACTCACACACACACACACACATGGCT
TCGCCGACGAGGGTAGGGACCGCGGACCCCTGCTCGCGAGAAAAATCTCA
CGCATGTACCGCAGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTT
CCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGCAGACTAGT
GTGCCAGAGAATATGGGATGACAACACACATATGATGGGATCGGGGGGTG
ACAGCAAAGTACAGCAGTACTTGGGAGAAAGTCTTCGATCGCTTTTTCAG
AACCAGACCCACCAGACACCAACACGCGTGCGCGGAGCAATTACGACCAT
CTCACCAGCTGCATCATACCTGTGGGTCTGAGGGTGCGGTACCCGCAGAC
GGTACAGCAGTAGACCGCCAACAGCGACGGCGGTGCTTTTTCTGACTGAC
AAAGCTGTACTTCGAAGTATATATCATATCATATGATGTGTACAAGTACA
GCAGTTACAGCGTTTTTTGTGTCCCTAACTATGTATACTCATTTGATTTA
TTTTGGGCGTATGTACTGTCAAGAGCCGGGATCATCGGTAGACCAAAAAA
ACGAAATTTTGGTCTGCAGAACGAAAGTAACTTCGATTTCGGAGGAACAC
GAACTGCTGTGTTGCGTCTCTTTGTTTTTTCCGGGCTGTGATAATGGACC
TGTTACCAGGGTCCTGGAGAAGAGGGGATGAAGGGAGCAACACCATTTGC
ATGGACTCTTCGAGCTGCAGCAGTGTTGACGCTTTCACTGGTATCTAGCC
CAATTTCTGACGAAATCCCGTATCAACCGCACCGACACCTGGATATGTCT
GCCCTCTATCGGAACAAGCTGAGGTTCGGAGCACTGCCACGTTAAACACG
ACGGACAACGAGTTTCAAAGCAGCCCTCTCCGAAAGAGGCAACATCGACT
GCTTATTGTTTGAACTTTTGTATTGACGCGTGCCTTGCTTCCCATCACGC
TTGGCGCTCCGCTGCCCCAAACTTTGGACTGTACCGATGGACAGGAGATC
AACCTCTCCTGAGACGCAGTTGGTAGGGAATCTCGTCCATATTTCGCCGG
GTTTCAGTGAAAACTTGAACTTGGCTGCTTGCAAATTTCGCCCCAAAATC
GGCTCAGAGCACGAGCAGATCATCGTGGGTAGATTGAAACTTTTTTCCCG
TCCTGCTTGACACCCCACTGCCCCAACAACCTTGGGCATTTCTAGTTGAC
GCTAAGCTCATCTCTAGACATGCAGTTGGCAAGGAATGTCGTCCCTTGTG
TGGCGAGATATCAGTCAGCACATGATCTTGTCTGCTGTGCAAAGGTGAAC
CGGATATTCCTCGCAGAGCTGACGCATCCCCGCCAAAAGGTCCAGAACAC
TCATATTTTTGCGAAATCGAAAACGAAGTAACGCCTCTCCAGATGGCGTT
GAAACGAAAACACGCCCATTTCTATTTTTTGTTCCGGGCAATCAGAGCCC
TATTTTGTTTTCGTTTTCGCTATTTCGTTTTTTTGGTCTACCGTTAGAGC
CCGTATTAACGGAAGGCCAAAAAAAACGAAATAGCGAAAACGAAAACGAA
ATTGGGCTCTGATTGGTCGGAAAAAAAAAAACGAAAGAGGCGTGTTTTCG
TTTCAACGCCATCTGAAGAGGCGTTCCTTCGTTTTCGATTTCGCAAAAAT
AAAGTGTTTCTGACTTTTTTTTTGCGAGAACGAAAACGAAATGCATGGAG
TTTGGTAACCTGGGAGGCTTGCCCATGAGCCTCCCAGGCAGCGAACTCCT
TCACACAGACTGCGACTGCGGTACACGGCGGTGGAACAGGCACCAACCCG
AACAGAGCGAGGCCCAATCCACACACTACAGCAGCGCAGCAGACAGCGCC
AAGCCTTCATACCCGCCAGTCAGTGCAACAGACAGCACACGGCCGTCTAC
GATACCCACACGCTGACACGATGCATTCCACCGCGTTATTTGAAATTGGG
CCCCGCGCGTTCTGGGTTTACATCATTTTTGGCGTTATCTCCTCTATTCC
GCTGCTCCAGCTCCTCGCAGCAGAAACGCGTTAATACCGAAATTGAGTTT
TTTATTTTTTTTCCAAAAGAACGAAGTTATTTCGTTTTTGTTTCCGCTAT
TTCGTTTTTTTTGGCCTTCCGTTAATCCCCGCTCTTAGAGCCCGTATTAA
CGGGGAATCGAAAAAAACGAAATTGCGAAAACGAAAACGAAATAACTTCG
TTCCTATGGAAAAAATAAAAAAATAATCGTTGTTGGGTATTAAGTATTAA
CGCGTCTTCCCGCAGGGACACCGAGAACCCGAATAAGAAGAGACAACGCC
AAACATGAAGTACAAACCCTAGCGCGCGCATAGTTTGCAACGGATGCGGT
GTGATGTGCAACAAACAACACATGACGACAGCAGAAGTTCTCCTGCGAGT
GTGTTCCGTGAGCGTTCTCTCCTTGCCTATATCGCTGTCGTGTCCTGCTC
TTGCTACCTTGCTGTTGCGAGCTGGCTGTCGCGCCGACTTCCTGGTTGCC
ATGGAGCCTGGGAGGCTGTTGAATCAAGCCTCCCCAATCTACGACATTCC
GGCAAAACACTTTATTTTCGCGAAGAAAAAAGCGAAATACAGCCTGCTCG
GTGTGTACTAAATCGGAGACACGCCTCTTTCGAAGAAAATAACGCCTCTT
TCTCTTTTTTTCTCGGACCAATCAGAGCCCAATTTCGTGTTCTTTTTCGC
AATTTCGTTTTTTTCAATTCCCCATTAATCCGGGCCCTTAGTCCGGGCCC
TGAGCGAGGTCCGGCGTGCAATTTCCTCGTTCGGCGTGCCCCCGGTACAG
CACCACGGGGACCCCGAACCGTCCTGTACAACAGTGAACGTACCGTAAAC
GGGCGCGAAACCATGTGCATGGTGTTGTTGGCGGTTGATGTCCTCGCGGC
GCGCCTGTGCCTGCTGCTGCTGCCGCTGCGGCCCCTGCTACTTCCTTGTC
ACGCTGCCGTTGTTCATCATTCGAAGGGGGCATCCTGAATATGCCCGCGG
GTGGGTGGGCCATGCCATCATGTGCGCTCTCAAGCTATCCTCGAGTGTGG
GTATGTCTACGAGTGTGTGTGTTGTCATCCCTTTAATTGGACGCCACTCT
GCACCTTTCGGGTAGGTCGACGCTCCAACTGGGGTCACACGGGGGGAAGT
CAACTCAGGAGTTTTTTTTTCTCCACTTCCTTCTGCGGTGCTTGCCTTGT
TTTTGGTTGAGCTTTTATCGCGAGAAAGGGGACAGCGGTCCCTTTCCCTC
GTCGATGGTACGATCGAATTTTGTTTACTCACGAATTAATCGCTTTCCAC
TTTCACGCGCAATGTGAGAAGAAAAACCAGATCGTGTCACTGCACTGGAA
AAGACCGAAGAAGATAACCCCGGTCGCCCCAGTGGACTAGTGGTCCCCTC
GTTGGCCACTAGATGCAGAGGAACGGGGGTTCGATTCCCGGTGAACGTGT
TCCTTTGCTACTTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGC
TTCGCCGACGAGGGTAGGGACCGCGGATCCCTGCTCGCGAGAAAAATCTC
ACGCATGTACCGCAGCAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCT
TCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAG
GGTGCAGACTAGTGTGCCAGAGAATATGGGATGGCAACTGGGATTCGAAC
ACTCGCGTACAAATGTAAAATAGGTTCGTCGACGTTTATCTGAATATGTA
TGCGTACAAGTAGCGATTGGTGGACACACGCCGCAAGGCTCGCCTCGACC
AGACCAACCAATCGGGAACTTTTGTTGCGGTTCGCCTAACTCTGAGTCTG
CTCGCCTACCTCTGGGTCCCGATGTCCGGATTAGTCACGATGAGTTGAAA
TACCGGTACTCTATGATACTGCTGTACTATAATACCCTCTCGTGTCCATT
GCTTGTCTACTCGAGATCCTCGTGTAGAGAGAAGCGAACACACTGATTTT
TTTTTAGCAAGGAAAAAAAATAATAATTCGTAGTAGAACCGCGACGACCG
AGAGTTCCTGTTGTACGCAGGTCAAATGCTGACAAGAGAAACTTTTGGTA
ATCTCAAGTTCACCCACTCACGTACATCGCGTGTCCTTTGAATCTTCCCG
CAGTGTATGCTGGTTTGCGAGCGAAGTCTCGTTGTGCAACTCTAGTGAAG
ACCGGGCTTTGTTTGGGCGTGTCTTAGGAACATGCGCGTGGATCGTGGAA
CTCAGATCACTTCTCCGATAGACCCAAACACACAAAAAAGATGGAGCATT
TTTCCAGAAAAAGTTTTTTTCGGCCACCGGAGTTCTTTGTTTGTCGTTTT
CTGCTCAAAAATAGTTGTAAGGGGCTGCTGGCGATAAAAGGAGCTTCTGG
CACGAGAAAGAAGCACAGCACAGCTTTCGTCGCCCTCTCTCTCCGATTGC
AACGGTTTGAGCACACGCACACATGCATACAGTACATACGTCACACACAG
CTCCCCCCACAACCACACAACTCCCGCCTACAGCCACGCGCCGAACGATG
AGCCCTCTCTCGTGGACGAAGTCACCGCGCAGCCGCAGCAGCCCCAGCAA
AACAATCACCATCATCACCTCCGTTTGTTGTCCACGCTTTCTACCTACCT
CTCTCCATTTTCTACGTGTATGAATCCGGTTTTCTTTCAAGCGGGCCGGG
ACGATGGCGGCCAGCGGAGGAAAAATCTTTCATGATACATGTGATGGTGC
TGTGCTGTGTTTTGTGTGTGCTGTATGTGCAAGAGATGAGATGTAAGTAT
GCGCGTGTGGTGTTGAGAGGAAGCGTACTTGTATTACCTGAACGGTGGCA
TCCGTGCATCTGCACAGCAACAGCAGCGGGCAGCTTTCCCCATGGCTTTC
TTCATAACATCAGGTGCCCACATCCCGCATCTTGTCATGTATTTTTTCAT
CAAGACACAGCGCTTGGAACAAGGAATCCTGAGTTCCATGTTTCATGCGG
TTATTTTTCTCGCCGGCCCGCCCTTACCCATTGAAAAGGTGAAGGGTCCG
GTCCAGAAGGTAATTGTTTTTGTTATTTTCACGTAATTGCCCAGGTCTCA
ATCCCAGAGGATTACGCAGTTTGCTCAGAGAAAAACGTTCTTATCGGGGA
ATCCGGCGATTAACAGATGAAATCAGCAAAATACACCACGGTGCGGTAAC
CTGCGTGCTGGTGCGCTCAGATCTGCTGCTGGGACCGAGATATCGGAGGT
CGAAATTATGGCTTGGGCAGTCCAGAAATGTCCGCGCTTCAGTCGAAAAC
CAAACAACTGCCTCGGCCGCACTCGTCGCCATTGGCCCCGCTATGGTCGA
CAGCAGTAGCTAGTGGATGAGGAGCTCCTTTGCCCTATAGCTACCACGAC
CGATTGTTCAAGAGATGAGGCCCGTGGTGACGAGTACAACAGTAAACACG
TGCAAAATGTTTCGAGTCTGGCTGAGGCTCAGGCGATTGCTGGACTGCCT
GAACCATACCCTTTTACCTCCGACATCCCGGCCCTAGTAGTATACCTGAG
CGTGCCAATGCGCAGGTCGCCGCTCCACGGTATGTTCTGCGGATTTCATG
TGTTTATCGCCGCAATTCCCGAAAGGAACGCTTTATTTTGAGCGATTAGC
GTTTTCGTCGTGGATTGAGACTTGGGCACGTGCTTGATAATATTCAAAAC
CTTCTGGACCGCACCTTTAACGTTGGTCACTACACAGACAGGCTCGGACT
CGCGACCCAAGTCTTGACGGTTTTGGGCGCTTCATTGTCTGGGTATGATG
TTGATGGGAATGCTGTTGTTTTTTCACAAAGATAAAGCGCAGACGATATT
CATGAAAAAAAAAAAAAACGAGGTTGTTGACATGGCTAAAAAGGTTACGA
CCCTTGAACACGCTAGAAGTATACGACCTTGACAACTGTCGTTGACGCCA
CTATTAGAGCCTTCTGCTCTCAGGTTCTCTCGGGCATGTTCTTCTCTTTG
TGACGTGTGGTGCATATGATAGGCGCACCGAGTTGCTCGCTCTCGACGCC
GAGAGGGAGGAGCGGAGAACAGGTGTGAGTCATCAACGCAGTTGTCCTTT
GTGTTACAGCTATTCTTCTTGAGAAATAACGTTATGTGAACGTTCCGCGA
ACCCAAGGATAGTGATTTACTCCGATAGGGAGGAACGCCCCGTCGGGAAA
CCTGGCGGGCCATTTAATGCTGTCACAATATTTGGTCAATGCATGGTGGC
GCCTCGATAGCCAGGTCAGAATATAACCTCGAAGTTCCCATTTTTTATCA
GAATTTTTGAGTACTTTTGGAGAATGTTGGAGAACATTTTTTGGGAATAT
TTTGAGAATTTTTGGAGATTTTTTTTAGGGAATACCAGGCACTACTGTAA
CGACTTCAGGCCGATTCCTTCAATCGGATAAATCCGGATCGAGGATGTGC
TGGGGACATGGGATAGAACGCACTCGAAATAGAGAGTTTGCGAAATAGAG
TATTCTTTCTGACATAAACACCTAGTCTACACTTTGCTGTGAGAGTGGAG
AGCAACACAAATACAAACACACACACGCGGCTGATGATGTGCTGCTGCTG
TAGAGACAACACAATGAGTCATTCGTTCAAGTGGTGGTGATGGGTGCCGG
GTCAAGCGAAGTAAATGCAAAGTCAGGGGTCATGGGCAGCAGGGACGGGG
CAAGTTCGGCAGAGAGGCTGTGTTGTGGAGGAAGGCCTCACTGCTGCGTG
TCAACTGCTGTTCTATTTTGGCCCGTCTATTTTCATGTGCAAAAAATGGT
CGCTTGCATTTCCAGCGTGGCCGGTCAGACCTCGAGCGATGCTTCTGCTT
CTCTCCACCGATTGAGTGAGCCCACCTCCAACCCAACCTCTTGCGGGCGG
AGAGCACGATACAAAGGAGACAGCCAAGAAGTGTTCACCTTGATACGTGG
TGTAGAGAGCGAGAGCGTGACTGCTGTGATGTTCTGATGTCTCGTCGCGC
TCAACTGCTGCTCTGTGCCTCTGGGGACGCACGCCAGCCCACACTAAATA
CTTTCAAAGAGTCGCTGCTCAGACGATATGTTTTGCATGGCTGGCACACT
TCCACCACATAAAGCAGCGGCGAAGGTGTTGGCACAGTGACTACAGGGTT
GCACGGAATCCTCTTTGAGCTCGCTACCTTTAGAAATCACGGCTCAGTGG
TCGGTACTGTCGACTGAAGCGTAGTGGTGTATCGCCATCTTGTCGCACAT
CACACCGTCTGGGTGATGCCGGGGAGATTTGGCCAATCACACGATGTGCC
GACACGGGCTCGCTTGGCAAATTTAAATTATTTTCAAATATCCTTTCTTA
CCGGGAATTTCCGGAATTTGAGATCAAATATTCTTTTTGGTGCAGCCACG
GAGCCTCTCGGGGAACCTCGGAGAAACCAAGAAAGGATATTTGATATTCG
AGATGAGATATTCTATTTCGCAAACGCTCCAATGACTCTGAATAACCTCA
AAGGTTTTCTAGGAACCACACACACATCGGGTATTCATGAACATGTACCA
AAGCGCAGGAGGAAGGTGTGGGCAATAAAAACACAATAAAACATGCCAAG
CTCGTATGCGCCCTCCCTCCTGTGTGACCCCGGCTGAACGTCAAGGATAT
CACCGAAAGCTTGAAAGATCGGCGTAATAATAAATGAGACGAACACACAT
ACGAGAAAAAATCTCACGCATGTACCGCAGAAGGAAGGTGGGGGTAACTC
CCCCTGTGTTGACCTTCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCTG
TAGTTTGAACCGCAGGTTGCAGACTAGTGTGCCGGAGAAAATGGGATGAC
AGCACACATACCAGATGTTCCACGAAGATACGAGTGGGCACAAAATGATG
GAGAGCTCGGGTTTCGTCATCGCTGCTCACTCCCACCTCTCTCCCCCACT
ACTAGCCAAAAAAGAGGAGGGAAAAGCAACAGGTGCACCGCAAAAGCACC
TGCAGCGCTGCCGGTATTGAGGGGCTCGTTGAAAAAATCATCTACAGGTC
GTGATCGAACTGCGGTACGAATGCGTCCGTGGAGGCCTTTGAAACATATC
CTGCTGTGTGCGTGTGTACTCATTCGACCCACTGCTGGTGCCGCTCGCCC
CCATCCCCCCGCCCTTGTACCTCAAAATACGCCTCCAGGTGATCGACAAG
CGAGCGATGGATCCTAAGTTGAAGCCCCTGCTCGACCAGTTTCACGTCGA
GATACAGGCAAGCTATCTCTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTG
CCGCCATGCCGTGCCTTGCTGCGTGTGCGTAGAGTAGAGTAGGCTTTGTG
CTGCTTTACCGCTGCCCGACTACTGCTGTTGTCCCGCGTTGTTGTTGTAG
GGTGTCTCTGCAAGATGCATAGTTCATACATACGGTATTTTGTTTTCTGT
TTTTTTTTTTTGCCCTTTGCTGCTATTCTTTCAAAAGCTGTTGGTAAACG
TTCGGGGACTTTTTTGAGACAAGACACTTGAACGGTGCCCGTCAATTCCT
CCGAGATTTTTGTGCACAAGAGACATTTTCGGGCTCTTACTGTACGCACA
ACAGTATAGGGGGGCGTGTTTTCGGAGGTGGCAGGGCCGAAAGCGACCGT
CACTCTCTTCCCCATCGCGGCTTCCGTTCCCAACGTGCAGGTATTGCAGC
TTTTGCGGCATCCCAACATCATCCACATGGAGGACGTTTTCGAGTCCGAG
TCTAAGATCCATATGGTGATGGAAATCATGCAAGGCGGTGAGCTGTTCGA
CTATGTGGTGGAGAAGGGGACTCTAAGCGAGAGCGAAGCTAGCGGTATGG
TCAGGAAGGTGAGTTCGGGTCGTGCTCGCCTTGGTTGGTCACTGGGGGTT
TATCTCCGCCACGCAGGCCGGAGCGAAGCTGGCTCTATGGTCACAGACGA
GGGAGCTCGTACGTCAGGTCGCACCCGTCAACGGGGCGGGGGAGGGGGGG
GTTGGGGTTCATATAATCCACCGGCCAGCTCGCGGTGTGCTGCCGAGCCG
GGCCACGCTATTGTTCTTCACACGTTTGGTCATATTGCGGGCTCGAGTAC
CGTATCTAGTCTGCGTTCCGGTACACAAAGTGCTTTATTTTGGTAAGTAT
TAGCACGACCGGCTCTCGGCGATTGGTTCATCGCCAGCGGGCAGGCAAAT
CAACAAACTTAAATACTAGGGAGATGGGAGGTGTTGGTCGAGGTTATGTT
TGCGTACAGCAGGGTTTTCCTTTATCATACCTGCCACCCGCATGGTGCCC
GTGCCAAAAAGCGTGTCTCACAAAAGTTCTGGACAGAAGTTTTTTTTAAT
ATCGGTCATTTCGGGCTTGGCGCCCCCCCATGTTTACGAAACAATTTTCA
ATCAACTTCGCAGAACGATAGCTCACCACACGAGAGCACTCAGATAGTGT
TTTGAAATCACTGATTGCACTGACCTTTCGGTGCGTAGTGCATGAGTGCA
GCGGCTGGTACAAGATTGTAGGTCCCACGTGAGGTCAGGAAACAACACAA
CTCCAATAGAGTGGAGAGCAGAGAAAAGCGACCCCTCTGTTCTTACCGCT
GCCGCACTCACAGCAATAAATCTTCCCGACGAACTTCCTCGCTGTCCAGG
GATTTTCCCTTCGAAGCCTGCTTTATGATACCCTTGCCGACCCAATGCTA
ATGAAAGTAGGCAACTCTGCCGCGTCGCATATCTTCCAGTCATGGAGGCG
TTTATTTTTGTAAAAGTAATGCTTTTTTGCCGATTTTGTGATGAATGTGC
ACCCAAGAGTTTGTCTTGCTGACGGCCACCCTTTTGCGCAGGCGTGTATG
TGTGTGTGTGTGTCCGCACCAACTGCATCCACTTGTAGCGCCTTTTGGGA
GCGGTGACGCCACGATGTTGGGAGGGTCGCACCAACAGTTGACCGAGAAC
TCTGGGCCCACCATATATGGTTTCACATGTAGCCTCAATTTTTTAGTTCG
ACCTGGCCCATATCCCATGCGCGTATCCGCTCTCAAACCCTCAAAACCCT
GGGCAGTAAAGCAGAACATTGACCCCGGTCGGCACCCTCCTCTGTCGCCG
CTCACACCAACTTCTCGGCAAGACCCACCCACTCCTGTCGCCTACCCTTC
ACTTCGACCCCTGGGGTTGTCGTTGTTGTTGCGGTTGTTTGTCGCATGAG
CTCACCGCAGAAAGCTACGTAGCTCGTGGTCACAAGCCAGGCGCAGTAGC
GTGCCAGGGGGAAACGCGGCAAAGGGAAGGAAATTAAAGAAGGCCATCAA
TGCAAACAAGAATAGCAGGGCTGTCGTTCCCCGAGAGGCTGTCTTCTGTG
GTGGCCCAACAATGAACCATGAAGAGTGTAAACATGTGTGAATTCGTGTG
ATACGTCCAGAGTTCAAGAAACGAAAGGACCGAAAAAACAGAGGAGAAGA
ATAGGAAAGGAATACGAGTACACGATACAGGAGAAGAAGAAGGGACATGT
GGGTGTGCAATACAGGCCAGTCGGTAGCGAGTCATTTTCCGCCGAAAAAT
CTCTGCCTGGTCATGCGCTTGCTACCCTCCCACGTACCCATGCCTCCTGT
CAACTGCTGTACGACAGCACGGCACAGCACTCTGACGTTGTTGCTTCTGC
CCTACAGCTTTAGCAGCAAACGCTACGCCGCGCCTTCTGCCGTTCAGCTT
TTTGTTCTCCCACCACACCGCAGCTTGGGTTGCTTTTTTTTTCCCACAGC
TTGAGCAACCCTACTCCGCAACTCCTGCCCCGCAGCTTGTTCGATCTCAC
CACCCCGCTACGTGGAGGGCACATGATATCCCGCCCCTTGGGGCCGGGGG
GCATGTTCACCCCCCCCACTGGGCGCCCGTGTTTTCTCCTCTCGGGGGTT
ATCGCCATCCGTCCTGCCTATCTTAGCCGTGGCCCGTCCCTGGACTGCGT
CCCCTTCTCTCTTGAGTAGACGTTTGTCTATGGTGTCTCGCTGCCCTTAC
CGCTACACCCCCACTTCGATCCTGTCGAACCATTCTTCCGCTCTCTTGGC
ACTTGCTGTTCAACCCTTCTCATCTATGGCGATGCCGAACACGCGGTGAG
GTCCTCCTCCTTGTAGCCGCGTTCAGACAGACATTTTTTTTGCGCCCCCC
CGCGTATCTCGGAGCCCGGAGCCTGTTGTCTCCCATGCTCACGACGAATC
CCGCGAAGCACAAATCAATCGCCGCCCCGCTGACAATGGCCTTCAGTGCA
CTCGTCGCAACCCGCTTGGTGAGGACCCTCGGTGTAAAAAACACGAGGCG
GTCCGTCCGTCCTCTCCCTCTTTTTCGATCTGATGCAATGAATGCGTCGA
AGGTTAGAAGAAGTCGTGGGCTGTCTGGAGGCTGCTGAAATGGATCGGAT
TCAGGTTCCACGCGACGCACCCGTAGAGTATTGTAGGGTATTTACATTTA
CGATTTCGGCTCGAACGAGGTATACGTTCAGTCGAAGCCCCCCCCGCCTC
CGGACGGCCGCAATTCGCCGGGCGCTGTTGCACTGCTAGCAGTCGTGCGC
TCGCTGTACTCGGTGGTGGCCTCATCCTCGACGCTCCCATCCTCGCAGAT
CTTTCCTCCGAGATGCTCAAACTCTTTCCCGTTAGTTTTGAGAGCACTGT
CGAGGCAGCGTTGACCGTGAAGGAGCACGGCTTCATCCCCCTTGGCGAGA
ATGGTGCACATGATCTTGGCCTCGCGTTCCGACACCAACAGCCCCAACAG
CCCGGCCACACGCACAATGATCATCGGCACAGTATTCTCGAGGCTCCCCG
GCGACTGGAAAGATACGACGCGCGTCATGGGCAAGAGGACCGACTCCCCA
GACGAGTTCTGCTGCCTCCACCAGTTCAGCGTTTCTTTTCCTTCCCCCTC
CGTCACCATCCTCTCGACCACCCTGACCCTGACCGCCATCGCCTCCTTGT
CTTTTGCGGAACTCGTCGAAGGCGACCATGACCATTGCAGTAAAAAAAAA
TGTTGAATGTGTCACCCGTCGGCTGCTTTTGCTCTTCATCCATCGATCAA
CACCCCCCCCCCCCCTACCCTACCCCCCCCCCCACGCGTTCGCGCCCGAA
ATTGACGTCTTGTTTTCATTCTGTGCGTCCAGGTGACGTCTGCCCTGGCT
TACATGCACTCGTTGAACATCATCCACCGAGACCTGAAGCCGGAGAACCT
GCTCTTGACTTCCAAGGGCGCTTCCCCCGAAGTCAAGATTATCGACTTCG
GGCTGGCGAAGGTGCTGGGAGCGGGGGACGACAGCGCACAGTCCTTCTTG
GGGACAAGGGTGAGTTAGCTCCAGACTATCAAGAGAAGAGCGAACAAAAA
AAAAACTTAAGAAAGCTTTTGCTCTGCTATGTAGATAGAGTTGTTTTTTT
ATGCACATTTCCTTCACGGTTTTTTGTATGATAGGTGCCAAAATTGTTTT
ACGAATGCAGAATTTTTTTTGAATGTCGGCGTTACCCCGCATTGCTTGTT
TTCAATGTAGTGTCAGAGGCGTGTTTGCGATATCATAGTGGATAAAAAAT
ATCGTGGGGTTGATATGAATGATGCGATGATAGTGGTGTTTGCGGTGGTT
TGGGGGGGGAGCTGCTTTTACACCGGGCAGCGTTGGCTTGACCCTTAGCT
TCTCATGTGAGCACGCGTACAGATACGTCAGGCTAGTGCCGTCGATAATT
TATCCTTAAGGGCCCGGGTTCGGTGCGTTTGGTTTCGCGCTCTTCGCGTC
GAGCGATATATCAAATCATAGCTCACTGGGACAATGCGTTTGGAACGACA
CATTGTTTCCCTCACGGGAGCAGCAGCAGCAGCACGTTTAGTCGAAAATA
CAACCAATTACAGGCCGTTCGGGAGAAAAAACGATGTCAACACACTTTTT
GTGACGCAGGGGTACCTCGCGCCGGAGATGCTTCAGCGTGAGTCGTACAG
CAAGGAGGTGGACGTTTGGGCTCTGGGGGTGATTTCGTTCGTGCTGCTGT
GCGGGTGCTTGCCGTTCGACGACGACAGCGCAAAGCTCAACCGTGCTGGG
GCGTTTCAGGTGAGGCTGAGGCATGTCCCCCTTCCTCTGCGGCTATTTTG
TGTGGTTGTTGGGTTGTTTTTTTTCGCGCCGTACCATCTTGACAGTTTCC
CTCCCGCTTTGGATTCCCTTTCGACGTGAGACGAAATGCTGCTGCCGCTG
TTGCTGCTGCTGCTGCTGCAAACGGTCGTGTCTATGGGTGTGCAAGATGG
TGCTGTGTTTTTGTTGGAGGTATTGGCTGTCCACTTTGTTGGCGGCTTGT
TTATGTAGCTACTGGTGCGGCGGAGACTCCGCGTGTACGTACTTGTACGA
GTATCGATCATTTATGTCCTCGGGGTCGTGAGTGATTTGGTGAGAAGGCG
CAGGATGAATGGTTTGCCGAAACAAGAAATGTGTTGCAAGTTTCCCGAAA
AATGTACACAAAATAAACAGAGAACACAACAGAATGTTCAACAGCGTGAG
AGCGTATTTCATGTAGAGCACAAATTTAACAAACCGCGCCGCACTTGCGT
TAGTTTTGACCGAGCATGCTGCGCTCGTACCCACCTTTGGTGCTGCTCGC
GAAGCGGCTTGTTCCCGCGCATAAACTGAGGGACACCCAAAGTTCGTAGA
AGGCCAAACCCCCGAGATACTGGAGAGAATTGCCACATCTGCAACGTGTG
CCAAAAACAATCATTTGCAGTCCGCAGTTCTGAAAAGTGGCGCCTCGCTT
TCTCAAAACACCTTAGCCAAAATTTCGCCTTGTGATTTGGGAGGTGCTAC
ACGCATTGTTGAAAAGTAGATTTGGTGGTTCCACTGGTGTACCATAGCGG
AACGCACCACACATTGAGTTTTTTCACCGTCTCGAAGTGGTCCACTCTTC
CGTGAGAAGCAGTGTGCGGCGAAGTGTTATCCCGCCAAGAACTTTCGAAC
TGCTTGGAATTTGATGCCGGTTAGGTAGCGGTTTTGGCACGTGTGCGTGT
ATGTGCGAACGAACAAACAAAAAACGTCACGGGGGACCATTTTTATTTTT
GCGGAGTTTTTTTTTGTGGCTGCCGTTTGTTTGTGTATGCGTCTGTGCGT
CCGAGATGATGGCTACGTTTTGTAATTTAGAACACCAGTTCAGCTCTTGA
ACTCCAGTCCAGGCAACTATTCCTGGGCCTGGGTGTAACACGACACGAAG
GTGACCAGCGCCAGCACAAGCGCGCTCTCTGTCGACAAATTTTGCTCTGC
GCACGTGATGCACGGGCATGACCAGCACCAACACAAGGGTGTGGGGTCAC
GAGCACGGGCAGCGGCCGTCCTGCGCATCATCACCAGAAACGACAACCAC
CCGACTCCGAACGCCGGCAGGGGCGGCTTTCTCCTAGATTTGTGCTGCTG
TAAAAGTGTTGTGGTATGATTATCTTGTACCGAAGTATCAAAGATGGACG
TGTGTGCTGGTGAGACGTGATACGTGTGTTTCGGTTAGACGTGCGCATCG
CATCGCCGCACAGCAGAGCACAGCACAATCCCCCTCCGAGTTGTTTTCGA
CTTCTCTACAAGGATAATTTCTCTCTCCTATGATACTCTCTCTCCCTCTC
TCTCTCTCTCATTCTCTCACACCCCCCCCCCCCCCCGCGCGCGTGTTTAC
CTCGTGTGCCTCTCTCTGTTAAACCCCCATTCCTTCCTTGTACCGCCCTC
TTCCCACCCAACACTTTTTTTTTGTTATCCCCCCACGCCGCCAATCAACG
CACCGCACCGCGCCGTACCGCAATTTCTATCGACAGAAATTCGTCCTCCG
CTTCCCCCGATGGGCGCAAACGCTGTCCCCGGGTGCGAAGGACCTCCTCT
CCAAGCTCCTCACGGTAACGCCGCGAGCGAGGCTCACGGCCAAGCAGGCC
CTCGAACACCCATGGGTCACCGGGAAAGCGGCAGCTGCCAACAACTTTTT
AGAGTCGCCGAGGACGCTGCGCAGGCTGCGCGTCAACAGCCCGAAGCCGC
CGGGGTGGGGTGGCGGTGGCGGTGGCGCCCGTGGGAACGGCGGGCCGCAG
CAGTCGGCGGCGGCGGCGTCAGCGGCGGCGGCCGAGGCGCATCGGAGGGC
CGAGTTCGAGGAGCAGAGCGACGAGTACAAAGAGGGCGGCGTCGGGCTGG
CCGTGGGAAGGAGCGGGAGCGGGGGCACGGGCGGTCGATTTCGGCGAAAA
AACAGCTTTTGACCACCAGGAGGGAGGCAGGCGTCGTGCATGGTTTAGAT
TCGCTAATTGCCCGAATATCGAGAGAGATATCAAGATAGAACGAGACACA
CGCAGGGGGAGGGAGGAGAATGAGGAGAAAGATATAAAACGTTGTGAGTT
CTGAGGAGCAGATCGGGCGTTTTTATTTTAATTTTTTTTCGCTTTTTTTT
TTTTCTGTGGAAGGAAAGGCTCAAGGGTGCAGAGATTCACCTCGTTAACC
GAGCACAACGAGAATGGAAAACGGTTGACCGTGTGGGGGAGGTCGTACGA
TATTCCGTCAGTGTTGCTGCAGCCGCTGGTTTTCGCGGTGTTCCGTTGGG
CGCTTGACATCACGCGCCTCGTAGCATGGCATTCCCTTGGTGTGCTGAGA
GAGCGGTACTCGTGCGAATTTTTACGTTTTCGTTTTCCGACGCATTCATG
TCCGAAAAGTATCCCCCCTTGGTATGTGCTGAGAGAGCGTCCGGGGACGT
TTAATGTTTTGTTTCCATCCCGTTCACTTCATGAAATCGGTAAAATATTT
GTCGGTGCTTCGATTTTCGTCTGGCGTTCTATTCCGAGAAGGTGCGGCTG
ATCACGGCGGCAGAACGTCCTTCGTCGAGCTGCTGCGTATCCTTGCCGAG
AAAATCCAGAGTGTGTGTATGGGTTTGTGTATGGCGTTTTGAAGCTTGCA
CAGGAGAAGTGGGG

Coding sequence (CDS) from alignment at P-littoralis_Contig824:80573..98886-

>mRNA_P-littoralis_Contig824.16.2 ID=mRNA_P-littoralis_Contig824.16.2|Name=mRNA_P-littoralis_Contig824.16.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1908bp|location=Sequence derived from alignment at P-littoralis_Contig824:80573..98886- (Pylaiella littoralis U1_48)
ATGGGTAATCCTTTCTCATGCTGCCATCCTGGGCGCAAGGAGGAAGATAG
GGGCGGCGGCTCGAATCCCCGCGCCCGACTCCTCCAGGATAACTCCACAC
AGACAGCAGGCTTTGCGGAGGAAGAAACTAACGGCTCGACTCGTCACGAG
AAGTCCAACAGTAGTGCTGTTGGGAGTTCAGCACATATTCTCCGTCAAAA
ACAGCCGGCAGAGGCAACGAGAGGTGAGGTCCACAGCAGTAGTAGTAGTA
GCAGCAACATCGATTCCAATGGCTCGTGCCGTGCTGGAATCCCAGTGGCG
AGCGGCAGCGCACAGCATCAGGCATCGACGAAAAGCGGAGTTGACGGCAC
AGGGGAGACACCAGCCAATGCTGCAGGTGGTGCAACAAATAGAGGGGCTG
GAGGGGTCGCCCCTCGAGGCTTCCCCGCCGGACTGTCGACAGTAGTTGCC
AACGGGTCAGGGGCAGGAGCACATCGACATCCAGCACCAGCCGCAGTTTA
TCGATCCGCTGGTGCCGCTATCCCACGGGCACATCCCAGCGACCAGCAAT
CGCGGCCGCAGCAACAGGCCCAAATGGTCGCCGGCGGCACGGCACACGCG
CGGGCGGGGGCGGGAGACGTTCACCTGGTGGGTGGGCGGGGCGGGGTTCA
CCAGCAGCAGCAGCAGCACCATCATCAGCAGTACAACGCGGGGGCGGCGG
CTAGAGGAGTGGGGGGACGGTTCGGAGTGGCAGGAGGAACGTTTGGAGGA
GGAAGAACAGGAGGTGTCTTTGCGGGCAAGACTGTGGCGAGAGCGGTCCC
TGCGGCGGCTGGCACGGTGCTAGCCAAGTACGAGATGAAGGAGGTGCTCG
GCGTCGGGAGCACATCCAAGTGCTACAGATGTGTCAACAGGAAGAGCAAG
AAGCAGTTTGCTTGCAAGGTGATCGACAAGCGAGCGATGGATCCTAAGTT
GAAGCCCCTGCTCGACCAGTTTCACGTCGAGATACAGGTATTGCAGCTTT
TGCGGCATCCCAACATCATCCACATGGAGGACGTTTTCGAGTCCGAGTCT
AAGATCCATATGGTGATGGAAATCATGCAAGGCGGTGAGCTGTTCGACTA
TGTGGTGGAGAAGGGGACTCTAAGCGAGAGCGAAGCTAGCGGTATGGTCA
GGAAGGTGACGTCTGCCCTGGCTTACATGCACTCGTTGAACATCATCCAC
CGAGACCTGAAGCCGGAGAACCTGCTCTTGACTTCCAAGGGCGCTTCCCC
CGAAGTCAAGATTATCGACTTCGGGCTGGCGAAGGTGCTGGGAGCGGGGG
ACGACAGCGCACAGTCCTTCTTGGGGACAAGGGGGTACCTCGCGCCGGAG
ATGCTTCAGCGTGAGTCGTACAGCAAGGAGGTGGACGTTTGGGCTCTGGG
GGTGATTTCGTTCGTGCTGCTGTGCGGGTGCTTGCCGTTCGACGACGACA
GCGCAAAGCTCAACCGTGCTGGGGCGTTTCAGAAATTCGTCCTCCGCTTC
CCCCGATGGGCGCAAACGCTGTCCCCGGGTGCGAAGGACCTCCTCTCCAA
GCTCCTCACGGTAACGCCGCGAGCGAGGCTCACGGCCAAGCAGGCCCTCG
AACACCCATGGGTCACCGGGAAAGCGGCAGCTGCCAACAACTTTTTAGAG
TCGCCGAGGACGCTGCGCAGGCTGCGCGTCAACAGCCCGAAGCCGCCGGG
GTGGGGTGGCGGTGGCGGTGGCGCCCGTGGGAACGGCGGGCCGCAGCAGT
CGGCGGCGGCGGCGTCAGCGGCGGCGGCCGAGGCGCATCGGAGGGCCGAG
TTCGAGGAGCAGAGCGACGAGTACAAAGAGGGCGGCGTCGGGCTGGCCGT
GGGAAGGAGCGGGAGCGGGGGCACGGGCGGTCGATTTCGGCGAAAAAACA
GCTTTTGA