mRNA_P-littoralis_Contig608.10.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig608.10.1
Unique Name	mRNA_P-littoralis_Contig608.10.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: D7FSM8_ECTSI (PPM-type phosphatase domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FSM8_ECTSI)

HSP 1 Score: 374 bits (960), Expect = 5.430e-116
Identity = 206/344 (59.88%), Postives = 239/344 (69.48%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRRE--------AEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLEGNDAA----RAPAARSPVVN-------------DPGVLETAAPGGADE----TVPQDSLRLRQAQLQSTCARLILACVRHRYWESNQAAADNASAVILRFHPLPQ 945
            GG  AS+ LAK FHV LA++PLL SDPKAALLDVW SMDGE+Y+ LAQK R  + R T   G +            A  FPRDGSTAT+LLLVG KL+AANCGDS G+LVK+DGS Q IT +HDTL+ GE++RIR+LGG YR Q LR P+KWPWCC ++DVVVGKPRV   GLLVTRAFGDFS K   LGGTPG+ILPDC+E+LE+TI+EDWAEVVIASDGVWD + T EM Q+LA LE    A    R PAA +   N             D    E    G   E    T   DS R+RQAQLQ TCA+L+LACVRHRYW  +QAAADNASAVI+RF   P+
Sbjct:   55 GGSAASTCLAKTFHVKLARSPLLASDPKAALLDVWQSMDGEVYRALAQKHRQNNLRPTIIGGAQETSGGASFPSGGASQFPRDGSTATVLLLVGKKLYAANCGDSAGVLVKKDGSVQTITNSHDTLNPGEYDRIRKLGGSYRNQTLRSPRKWPWCCVVQDVVVGKPRVC--GLLVTRAFGDFSCK---LGGTPGIILPDCEEILELTIEEDWAEVVIASDGVWDVMQTEEMPQILAMLEEKIPAKVSPRIPAAANKDFNSNNSSGGGTLAALDYAASERYLLGELSEEHIVTSFGDSARVRQAQLQGTCAKLVLACVRHRYWALHQAAADNASAVIVRFRTKPE 393

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A835Z4T9_9STRA (Phosphatase 2C-like domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z4T9_9STRA)

HSP 1 Score: 167 bits (424), Expect = 5.130e-40
Identity = 120/339 (35.40%), Postives = 171/339 (50.44%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTL------AQKQRDISARTT---------TANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGS---FQPITKNHDTLDQGEFERIRQLGGFY----RKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAE-------VVIASDGVWDAVPTAEMAQVLAQLEGNDAARAPAARSPVVNDPGVLETAAPGGADETVPQDSLRLRQAQLQSTCARLILACVRHRYWESNQAAADNASAVILRF 930
            GG   S +L++ FH+ALA +PL+ +D KAAL  +W ++D + Y+ L      A +QR   +++T          A G  G  +   FPRDGSTAT+ ++ G++   ANCGDS   LV+R G     +P+++NH TL+  E  RIR +GG      R + +R P   P CC        KPRVYPGGLLVTRA+GDF AK   LGG PG ++     +  + +     +       V++ASDGVWDAVP   MA  L +L   D A                  +   GA     +D + LR      TC  L++       W  +   ADN SA++L++
Sbjct:  129 GGDKCSQWLSENFHMALASHPLVGTDIKAALQQLWPTLDDKFYEYLETIQHRAAQQRPSMSQSTFNPEDPGVMAAAGPAGEGDWS-FPRDGSTATVCVVEGNRAILANCGDSAAALVRRVGMRLVCEPLSENHGTLNSAETARIRSVGGELQVRGRARRVRAP---PLCCVPWKSAPRKPRVYPGGLLVTRAYGDFYAKRAPLGGLPGALICGHGRLSRVELDGFGTDGGGGAGVVILASDGVWDAVPVWRMAAALERLVLEDIADEDEGXXXXXXXXXXXXXSL--GASRHAGEDPVLLR------TCKSLVMRAAEDACW-GHPPHADNVSAILLQY 454

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A7S2CP40_9STRA (Hypothetical protein (Fragment) n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2CP40_9STRA)

HSP 1 Score: 130 bits (327), Expect = 2.940e-30
Identity = 74/240 (30.83%), Postives = 119/240 (49.58%), Query Frame = 1

Query:  214 FPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLEGNDAARAPAARSPVVNDPGVLETAAPGGADETVPQDSLRLRQAQLQSTCARLILACVRHRYWESNQAAADNASAVILRFH 933
            F + GSTA ++ +VGD ++ ANCGDS   L +       ++ +H+T +Q E  R+R  G    ++++R   +   CC  E V  GK RV+PGGL +TR+FGD+ AK+   GG P  +L + +E+ +M I++ W  ++IASDG WDA+                              P  +  +  G ++  V +         LQ+    ++ AC    YW S+   ADN +A+ L F+
Sbjct:   28 FQKSGSTAAVVFIVGDTIYVANCGDSHVYLYREGAPPLRLSDDHNTDNQKECARVRNAGAKVEQELVR---RKIGCCMTEKVPAGKQRVWPGGLAITRSFGDYHAKLTAFGGVPDSVLYEFEELRKMDIEDRWQGLIIASDGAWDALT-----------------------------PDAIWRSFSGASNSAVAESEDEKLTVGLQT----MVEACCMSEYWTSHGYDADNTTAIALSFN 231

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A7S3XNF1_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XNF1_HETAK)

HSP 1 Score: 119 bits (299), Expect = 1.090e-27
Identity = 55/118 (46.61%), Postives = 80/118 (67.80%), Query Frame = 1

Query:  331 ITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVI-ASDGVWDAVPTAEMAQVL 681
            +T +H T ++ E  R+R  GG  R Q+ +   ++P CC L DV  GKPR YPGGLLVTRAFGD+ +K+ +LGG PG ++PD   V E+ ++   A +++ ASDGVWDA+P  E+ ++L
Sbjct:   19 LTDDHGTTNEAEVARLRAAGGEVRPQLQKAFGRFPRCCRLVDVPAGKPRAYPGGLLVTRAFGDYHSKLASLGGAPGTVVPDFSAVREVALEAGTAHLLLMASDGVWDALPREELLEIL 136

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A1R2CHY4_9CILI (PPM-type phosphatase domain-containing protein n=1 Tax=Stentor coeruleus TaxID=5963 RepID=A0A1R2CHY4_9CILI)

HSP 1 Score: 84.0 bits (206), Expect = 2.060e-13
Identity = 63/221 (28.51%), Postives = 99/221 (44.80%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGS-FQPITKNHDTLDQGEFERIRQLGGF-YRKQMLR-IPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAV 654
            GG   + +L +  H  + K+  L +DPK  +L  +   +    +                   E +R    F R GS   I L++ DK + AN GDS  +L    GS   P++++H   +Q E  RI Q GG+ Y+      +P            V+G  RV+PG L V+R  GD  AK+   GG   VI+P   E+    I  +   +++ SDG++D +
Sbjct:  111 GGSRCAEFLKQNLHEYILKDSDLHTDPKNVILRAFIKAENMFLE-------------------EAKRNN--FDRSGSCGIICLIIKDKCYVANLGDSRAVLSSNKGSKIFPLSRDHKPFEQLEMSRIIQAGGYVYQSNNYNSVP-----------AVIGPYRVFPGRLSVSRTIGDIYAKLSQYGGNANVIIPT-PEIKNFRILPEHDFILMCSDGIFDRI 298

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A0C9S8B7_9SPER (Protein-serine/threonine phosphatase n=1 Tax=Wollemia nobilis TaxID=56998 RepID=A0A0C9S8B7_9SPER)

HSP 1 Score: 82.4 bits (202), Expect = 4.820e-13
Identity = 70/236 (29.66%), Postives = 103/236 (43.64%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLEGNDAA 708
            GG  A+ YL +     L K+P   +D K AL + +   D E  +  +   RD                      DGSTA+  +LVGD+L+ AN GDS  +++K  G   P++++H      E +RI Q GG              W  T     VG      G L V+RAFG+   K   +            E+ E  I++D   +VIASDG+WD V   E  +++  +E  +AA
Sbjct:  114 GGSRAAEYLKQHLFDNLIKHPQFYTDTKLALSETYQQTDSEFLKEESSIYRD----------------------DGSTASTAVLVGDRLYVANVGDSRAVILKA-GEAVPLSEDHKPNRVDERQRIEQAGGNVM-----------WAGTWR---VG------GVLAVSRAFGNRMLKRFVVAEP---------EIQEEIIKDDVECLVIASDGLWDVVSNQEAVELVKSIEDPEAA 297

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: B8LPR6_PICSI (Protein-serine/threonine phosphatase n=2 Tax=Picea sitchensis TaxID=3332 RepID=B8LPR6_PICSI)

HSP 1 Score: 79.7 bits (195), Expect = 4.690e-12
Identity = 67/236 (28.39%), Postives = 100/236 (42.37%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLEGNDAA 708
            GG  A+ YL +     L  +P   +D K AL + +   D E  +      RD                      DGSTA+  +LVGD+L+ AN GDS  +++K  G   P++++H      E +RI Q GG              W  T     VG      G L V+RAFG+   K   +            E+ E  I++D   +VIASDG+WD +   +   ++  +E  +AA
Sbjct:  133 GGSRAAEYLKQHLFENLINHPQFATDTKLALSETYQQTDSEFLKAETSIYRD----------------------DGSTASTAVLVGDRLYVANVGDSRAVILKA-GEAIPLSEDHKPNRSDERQRIEQAGGNVM-----------WAGTWR---VG------GVLAVSRAFGNRLLKRFVVAEP---------EIQEEIIKDDVEFLVIASDGLWDVISNEDAVSLVKSIEDPEAA 316

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A1R2CU40_9CILI (PPM-type phosphatase domain-containing protein n=1 Tax=Stentor coeruleus TaxID=5963 RepID=A0A1R2CU40_9CILI)

HSP 1 Score: 79.7 bits (195), Expect = 6.180e-12
Identity = 60/228 (26.32%), Postives = 103/228 (45.18%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGS-FQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVL 681
            GG   +++L +  H  + +N      PK A+   +   D E  +  A+ +RD                     R GS A +++++GDK + AN GDS  ++   +G+    +T +H   D  E+ RI   GG  + Q   I         +  +     RV PG L V+RAFGD + K         +I+PD  E+    + E++  +V+ASDG++D +   ++  V+
Sbjct:  123 GGKMCANFLKEKLHKFIFENENFPYRPKEAIFRGFLKADEEFLKN-AEIKRD---------------------RSGSCAVVVMVLGDKCYVANTGDSRAVVSSHNGAKIHRLTTDHKPSDSNEYNRIIMAGGSIKSQNYPITNS-----QMIRIEENCSRVEPGNLAVSRAFGDSNVKNTK------IIIPD-PEIRSFRLTEEFDFIVMASDGIFDKISDRDVVDVV 316

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A1R2ASQ0_9CILI (PPM-type phosphatase domain-containing protein n=1 Tax=Stentor coeruleus TaxID=5963 RepID=A0A1R2ASQ0_9CILI)

HSP 1 Score: 79.3 bits (194), Expect = 6.820e-12
Identity = 61/221 (27.60%), Postives = 96/221 (43.44%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGS-FQPITKNHDTLDQGEFERIRQLGGF-YRKQMLR-IPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAV 654
            GG   + +L +  H  + K+  L  DPK  +L  +   +    +   +   D                     R GS   I L++ DK + AN GDS  +L    GS   P++++H   +Q E  RI Q GG+ Y+      +P            V+G  RV+PG L V+R  GD  AK+   GG   VI+P   E+    I  +   +++ SDG++D +
Sbjct:  111 GGSRCAEFLKQNLHDYILKDSDLHVDPKNVILRSFIKAENMFIEDAKRNNLD---------------------RSGSCGIICLVIKDKCYVANLGDSRAVLSSNKGSKIFPLSRDHKPFEQLEMSRIIQAGGYVYQSNNYNSVP-----------AVLGPYRVFPGRLSVSRTIGDIYAKLSQYGGNANVIIPT-PEIKNFRILPEHDFILMCSDGIFDRI 298

[Close]

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Match: A0A446LJ22_TRITD (Protein-serine/threonine phosphatase n=2 Tax=Triticum turgidum subsp. durum TaxID=4567 RepID=A0A446LJ22_TRITD)

HSP 1 Score: 77.8 bits (190), Expect = 1.030e-11
Identity = 68/231 (29.44%), Postives = 99/231 (42.86%), Query Frame = 1

Query:    1 GGPTASSYLAKAFHVALAKNPLLTSDPKAALLDVWNSMDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGDKLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQMLRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGVILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLE 693
            GG   + Y+       L ++P   SD K A+ D + S D E  ++            +T N            + GSTA+  +LVGD+LF AN GDS  I+  R G+  P++K+H      E +RI + GGF             W  T     VG      G L V+RAFGD   K         V+ P   E+ E  + E    +++ASDG+WD V   E   +   ++
Sbjct:   77 GGAKVAEYVKHNLFSHLLRHPKFMSDTKVAIDDSYKSTDSEFLES-----------DSTQN------------QCGSTASTAVLVGDRLFVANVGDSRAIIC-RAGNAVPVSKDHKPDQTDERQRIEEAGGFVM-----------WAGTWR---VG------GVLAVSRAFGDKLLKQYV------VVDP---EIQEEIVDESLEFLILASDGLWDVVSNEEAVDMTRSIQ 254

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig608.10.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FSM8_ECTSI	5.430e-116	59.88	PPM-type phosphatase domain-containing protein n=2...	[more]
A0A835Z4T9_9STRA	5.130e-40	35.40	Phosphatase 2C-like domain-containing protein n=1 ...	[more]
A0A7S2CP40_9STRA	2.940e-30	30.83	Hypothetical protein (Fragment) n=1 Tax=Florenciel...	[more]
A0A7S3XNF1_HETAK	1.090e-27	46.61	Hypothetical protein (Fragment) n=1 Tax=Heterosigm...	[more]
A0A1R2CHY4_9CILI	2.060e-13	28.51	PPM-type phosphatase domain-containing protein n=1...	[more]
A0A0C9S8B7_9SPER	4.820e-13	29.66	Protein-serine/threonine phosphatase n=1 Tax=Wolle...	[more]
B8LPR6_PICSI	4.690e-12	28.39	Protein-serine/threonine phosphatase n=2 Tax=Picea...	[more]
A0A1R2CU40_9CILI	6.180e-12	26.32	PPM-type phosphatase domain-containing protein n=1...	[more]
A0A1R2ASQ0_9CILI	6.820e-12	27.60	PPM-type phosphatase domain-containing protein n=1...	[more]
A0A446LJ22_TRITD	1.030e-11	29.44	Protein-serine/threonine phosphatase n=2 Tax=Triti...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig608	contig	P-littoralis_Contig608:58990..73218 +

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.D7FSM8
PFAMs	PP2C
Model size	3321
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K17506
Hectar predicted targeting category	other localisation
Exons	7
Evalue	1.39e-105
EggNOG OGs	COG0631@1\|root,KOG0698@2759\|Eukaryota
Ec32 ortholog description	Protein phosphatase 2C (PP2C)-like domain
Ec32 ortholog	Ec-04_000610.1
EC	3.1.3.16
Description	protein serine/threonine phosphatase activity
Cds size	996
COG category	T
BRITE	ko00000,ko01000,ko01009

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig608.10.1	prot_P-littoralis_Contig608.10.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig608 59101..71004 +

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


Feature Name	Unique Name	Species	Type	Position
1680791265.9623437-UTR-P-littoralis_Contig608:58989..59100	1680791265.9623437-UTR-P-littoralis_Contig608:58989..59100	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig608 58990..59100 +
1680791266.071729-UTR-P-littoralis_Contig608:71004..73218	1680791266.071729-UTR-P-littoralis_Contig608:71004..73218	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig608 71005..73218 +

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


Feature Name	Unique Name	Species	Type	Position
1680791265.978663-CDS-P-littoralis_Contig608:59100..59133	1680791265.978663-CDS-P-littoralis_Contig608:59100..59133	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 59101..59133 +
1680791265.99409-CDS-P-littoralis_Contig608:60611..60762	1680791265.99409-CDS-P-littoralis_Contig608:60611..60762	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 60612..60762 +
1680791266.0080638-CDS-P-littoralis_Contig608:63227..63340	1680791266.0080638-CDS-P-littoralis_Contig608:63227..63340	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 63228..63340 +
1680791266.0221462-CDS-P-littoralis_Contig608:65292..65415	1680791266.0221462-CDS-P-littoralis_Contig608:65292..65415	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 65293..65415 +
1680791266.032871-CDS-P-littoralis_Contig608:66433..66577	1680791266.032871-CDS-P-littoralis_Contig608:66433..66577	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 66434..66577 +
1680791266.0440497-CDS-P-littoralis_Contig608:68010..68207	1680791266.0440497-CDS-P-littoralis_Contig608:68010..68207	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 68011..68207 +
1680791266.055243-CDS-P-littoralis_Contig608:70769..71004	1680791266.055243-CDS-P-littoralis_Contig608:70769..71004	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig608 70770..71004 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig608:58990..73218+
coding sequence from alignment at P-littoralis_Contig608:58990..73218+

protein sequence of mRNA_P-littoralis_Contig608.10.1

>prot_P-littoralis_Contig608.10.1 ID=prot_P-littoralis_Contig608.10.1|Name=mRNA_P-littoralis_Contig608.10.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=332bp
MDGEIYQTLAQKQRDISARTTTANGREGRREAEPFPRDGSTATILLLVGD
KLFAANCGDSEGILVKRDGSFQPITKNHDTLDQGEFERIRQLGGFYRKQM
LRIPKKWPWCCTLEDVVVGKPRVYPGGLLVTRAFGDFSAKMVTLGGTPGV
ILPDCDEVLEMTIQEDWAEVVIASDGVWDAVPTAEMAQVLAQLEGNDAAR
APAARSPVVNDPGVLETAAPGGADETVPQDSLRLRQAQLQSTCARLILAC
VRHRYWESNQAAADNASAVILRFHPLPQSSEGFLERSPERIPEQLPERIP
EQIPERSSERSPEGLSEGLPKRGESLEEQTV*

mRNA from alignment at P-littoralis_Contig608:58990..73218+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig608.10.1 ID=mRNA_P-littoralis_Contig608.10.1|Name=mRNA_P-littoralis_Contig608.10.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14229bp|location=Sequence derived from alignment at P-littoralis_Contig608:58990..73218+ (Pylaiella littoralis U1_48)
GGCGGACCCACGGCAAGTTCCTACTTGGCGAAAGCGTTCCACGTCGCGCT
CGCGAAGAACCCGTTGCTGACGTCAGACCCCAAGGCCGCCCTGCTGGACG
TTTGGAACTCCATGGATGGCGAAATCTACCAAACCCTCGCTCAGGTAAGT
GTCGGACAGCAGTAGGGGGGGGGCACGGCTGTAGCCGGGAGGTGGCCTCT
TTTATGGACGGCAATGGGTGGGTGGGTGGGTGTGTGGGCGTCGGCCATTT
GTGTGTTGCTTTCTTCTTTGCGCTATTTTAGTTCATCACAGAAGGGTAAC
ACTACCGAAGGGCGACCTCCTTTAGTAGTGGTGCAGGTGGGTGGGTGGGT
GGGTGGGTGGGTGGGTGGGAAAGTGGATGGGTGGATGTCAGCAACATTTG
TGCTGCTTTCTTTTTTGTGCGATTTTAGTCGATTGCACTTGTAACGCAAG
TGGGTGTCAAGTTTGTTGTTGATTGTACATATATCCCCCATGACCTCCAT
GAACTGCTGTGGTTTGCTGTTTATCGTACCATGGCGTATTCTATGTTTGT
TTGTTGTGAAGGATGCCATCTCGTATGTACGTTTTTTTTTTTTTTTGGAT
CAGTACCACACACACGTACCTTATCTTCGGTTTTTGTTGATTGTCATATC
GTATCATACCTATTTTTCTGTGGTGTGTACATATCATATCATACCACATT
TTTTCGTTTGTGCTGTTGCGTTTCATATCATATGATACCTTTTGTATGTA
TATTTTTTTTGTGCACCATATCGTACCTTGTTTCATGTGGGGTTATATTT
TTGTGCCCTGTGTTTGTCCTGTCCCTGCTCGCTTCTACCTGTATACTGCG
CATTCCTAATTCCGAATCGATCGCAAAAAAAAACGAAACTGGATTTGTTT
TTGTGGAGTTTTTCCTTGTTTGCTGCTAGATTTTCGTACCCCGCGTTTTG
TACTGTCCCTGTTCGCTTTATCTGGGGTAAGGTTCGATTCTCTGTGGGAA
AATTTTCCTGCGACATTACGGTGGAACGCGATTTATTCGTGAGCAATAAC
CGAATAACACCGTCCAATCTTAATAAATAAAGAGGGAAGTAATTGCTGAA
CCCTTGCATCAGAAATCAAAAGCAAGCACCGCAGGAGGGAAGGTGTGGGC
AGTAGAAAAAAAATACAAAATAAAACCTTCGTGTGCGGCCTTCCTCCTGT
GTGGCCCCTGCTAAACGTCAAGGATACTACCGAAAGCTGTTCAGCCTGGT
GCCAAGAGAAATGGGACGAACATATACACTGCGCGTTCGTAGTTTCGAAT
CGATCGCAAAAACAAACGAAAATTGATTTGTCTTTGTGTGACATTTTTCT
TGTTAGATTTGTTTACCTGTGTTTTGCACTGTGTCCCTGCTCGATTTCAC
GTATAGTGCTGAACTGTCCTAGTTTGGAATATCGCAAAAACAACAAATAC
GAAATGGTGTTGATACTACTGCTCTTTAGTATTATCATCGTCCGAACTAC
CAGGTAAGTTTATTCATTTTTGTTGATTAGATTAGACGTTCCTTCGCCGT
GTTTTGTCCTGTACCTGCTCGCCTTCAATAAGAGTATTATGCGCTGATGT
TCTGATTCCGAATCGATCTCAGAAACAAAGAGATATCTCCGCGAGGACGA
CTACCGCGAACGGACGGGAGGGGCGCCGGGAGGCGGAACCGTTCCCGCGG
GACGGCAGCACCGCCACGATCTTGCTGCTGGTGGGAGACAAGCTGTTCGC
CGCGAACTGCGGCGACTCCGAAGGTGACGGAAGCCCGTCCGCGCGTAGTA
TGTCCACATGCACGCAAAGAACCGTATTACAGTAGTGCTATACAGCAGTC
GTGGCTGTGGTTGCGATTTGATGGAGGGGTGCGCCACATGACATGCCAAG
AACACGGGACACTCCTCTTTTGAGCGTGTAAAATCGCTCTTGAATGACAC
GGGAGCACGCACCGCCGCGATCTTGCTGCTGGTTGGGAGACTAGCTATTC
GCCACGAACTTCGGCGACTCGGAAGGTGACGAATTTTCTCTCTCCCACGG
CGGAAAAAGAATAAAGAAAAAAAAACTCCTGCGGCGTTCCTGTCTGTCGT
GACCCCGGCTGGTGCGCCCAACTTTGTTGTGCCGAGAGGCGTAGACTGGC
GTCCGGAATAAATGGGTTGGCAGCACATGCAAGACAACAGAACAACACAC
CCCTCTTTGGGTAGCTACGCTGGCAGGATTTTCCCGTGCAATCAGTACCA
GTAACCCGTTAGGGCTGGCCATATATTGCCCGTTGCAACGCGAAGGCGCC
CCGCTATGGGATGAGTAGCAGCACGGACGTTCAGAAGGTACTTAGCAGAG
ATTGAAAGCGCTATTTTTACTTAGACGACAACACAACACACCTTTTCATG
CATGCCGTAGGCGGCGCAGTACATCACCTGCTCTGTGGACAATGCTCAGA
TCAAAACCTTTACACTTGTACGGAGGTATTAGCAGAACCAGTAAGGGTGA
GTGACACTGGAAATATCCGGTCGGTGGTGATGTTGGTACCCACGTTGGTG
CGGAAAAATTTACCTTCGAAAACTCTCCAGAGGGAGGGAGGGAGGGAGGG
AGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGGTCCCGTGCCGTGATATT
CTACTACGGTACGATTACGGGAGGCTGAACACGATGCTGTTTACCATACC
TGTAGGTTACATACGCTATATACGAGAACAACTGGCTTGATTTGGATAGC
CTGATTTCTCCACAGCAAGACGATGCGTGAATGCCGACATCAACGGTGGA
GTTAGAAATATCTAATCGAGAGCTTTTCGAAAAATATTGGTCGTGTTGTG
TTGGCGCCCTCGTCTTCGTTACGGAGCAATTGACCTACAAACATTAGTCG
GTCCAGGGGGTGTGGTATCTCACGTCACCTACGATACATGCTGTAGAAAC
CTGCGCGGTGGTTGAGCAGGCATATGGAGGCATATCATATGAAGTACCTT
GTTCGCGGCCTTTTGGGTGTACCGTTCTTTCTACTCCTTGCGCGTGTGTT
TTCGATCTTCCTTTCTGGTCCAGAACTTGGGTGCCCACGGGCTAGGTAGA
TACTCGACGTATTTTCGTGGATGAACAAGCTACTGCTGTGAGAGCAAGGA
CAGCTTGCGTCAGTCACGACGTGACGAAAACGCTACCGGGGTACCGTGCA
GGCGTGCGGCCCACGATGGGGGCCGTAAAGACAAGGAGCGACGACGACGA
CGCAGCAGGAGATTGCCCAGGGTCGAAGAGCTGGGTAGAGGGAGGGTGTA
GGAAGAGGGACCTGGTTGGTAAAGCCCGAAGCCCCCTTCTCCCCACACCC
TCACTCAGATTTCTCAGGTCGAAGAGCCGGGTAGAGTTTGGGCGGGGTAA
GGAGGGCCTGATTGGGTAATCCCGGAGCCCCCTTCTCTTCTATCTCACTA
AGATTGCCCAGGTCGAAGAGCCGGGTAGAGTGAGGGTGGGGGAAGGGGGA
CCTTGTTAATGAATCCCGGAGCCCCCTTCTCTCCAACCCTCACTCGGATT
GCCCAGGTCGAAGAGCCGGGTAGAGTGAGGTTGGGGGAGAAGGGGCCTCT
GGGATTTGTCAACCAAGCCCTCCCTCTCCTCACCTTCCCTCAAACGCGGC
TCTCCGACCTTGGCAATATTCTGCTTCTTCGTCGTCGCTTCTTCTCTCTG
CGGCGTCCATCTACCCTGATGGTCGGGTGCAAATGAGTTTGGTCACGGAG
AGCGATGGTAGCATGTACGATTCTACACCATGTGAAAAAAAACATCAATA
AAAGCAGCGGGTGCAACACACACACACACGTTCGCTTGGGAACAACGGTT
CCACCCGCTTTTACTAAGGCAGAAACACTTCATGACGGTATATCGTTTGT
GTTACTCGAGTACATGAGTGTACAAATGTGCGAGGTTTCAACACTGCGGG
TACGTGTGTGTGTTTTGTGTACGTGTGTGTCCTGTGTTCGTGTACGTGTG
TGTTTGTGTTTGTGTGTTGCGTGTGTGTGTCTGTGTGTCGCCAGGTTCGT
CTGCAACTTACCGAAGCTTGTCAACCCCTGCGAGTTGGGTGAATGCGAAA
ACCCGAAACCCGGCATTCAAGGGATGCGCCGTCAATGGCCCAATGACCAA
ATCCGGCGAATTCCTCAATCTAAAAGAAAGGATTTCCCCATTCACCCTCT
GCACTACTCCTGTCGATCTCAAATTCTGTCACAATCAGGCATTCTGGTCA
AGAGAGACGGCAGCTTCCAGCCCATCACGAAGAACCACGACACCCTCGAC
CAGGGCGAGTTCGAGCGCATACGCCAACTCGGGGGCTTCTACCGCAAGCA
GGTGGTGCAAGCTTGGTGTGTACCATATGTAGAGGACTACCACAGGTTTG
AATTTATGCCCATATCGGGGATAGTTCACGGGGTTTGAAAAACATGTCAA
CAGATGAAGGTTTTATGGCGCATTTGAGATAAGGTAGTTTTTTAGTTTTC
CCTTCTCCCGTACTTGTGAACGTCAACGTTTAAGAAGTTCCTTTTTTTTT
TACACTACATATGTGTTTTACTCGACACCGAAGGCAATATCGGTCGTTTT
TGCTCGGTTTTATGCTCACAACGGGAAGTATTTGGGCTCCAAATTTTGTT
GAAATAATGGGCAAATCAGTAAAAAAATGCCTACGTAGCATGGCTGACGA
AGTCAGTCTCCCAGCCTAATCACACTAAACTACTCCAAACCACACCAAGC
CAAACCACAGCACACCACACCACACCACACCACACCACACCACACCACAC
CACACCACACCACACCACATCAACTTACATCAATTTGCATGAAACCAAAC
CATACACACGATGCAAAACAATACGAAATCACAAACCACACCTAACCACA
TGTAACCAAACCACGACAGCACACCTCCGCCGTGGGACGTGCAGCTTTCG
GCGTCGAAGCGAAGGCACCCACCTCTTCCGCCTTCTGCCGTGCGGGAACT
CCCTCGAGCACCCCCCCCCCCTCCCCAACCACCTTCCTCGAGCTCCCACG
CCTCCCCAACAAGGCGTCTCGCGTGTCAGCATTGCATGGGAATTCAGTAC
AAGTGCGAAAATTCTTGCCCCCTTGGTGCCGAGCGTAGCAACTGTACCGG
GAGTAACTTGTACCGACGGCGTCGCACACGATGATCCTATTTGCTACTCC
GAAGTGTTTTTCTTATGATAGGCTACGATATCTACCCCAAGAAGTCTGCA
AAATGGCAGCTCCATACCCGAAAGAGGGTGTGATAACCACCCAAAAGAGG
GAGTGACAACCACGCAAAACAGTGTGCGACTTCTACCCAACGAATAGAGG
GTATGACAACTACCCAAAAGGGTATGAGAAGCACCTCAAAGAGAGTGTGA
TCACCGTCCAAAAAAGGTACCAAGTAATAATCTGATAACAACCCCAAAGA
GGGTATAAGAAATAATCAGCAGAGGGTATGCTTCCTACCCCAAGAAAGGT
TGTGATGAGTTCCCAAAGGGAGTGTGATGACTTTCCCAAAGGTGGTGAAA
TGACTGCCAATCAAGGGTGTGTGATACCCAAAAGAGGGTATGTAAATTGC
AGAGGGTATGTAAATTGCCCTAAATTGCCCTAAAGGAAAGCGCTAGTACT
GTGACGAAGTACCCGGGGCGCTTTCCGTCGCTAGAGGCTATCTCAAACAA
GAGGGTATATCCCACGCGGGAAAATCTCAGCTATACTAAGGACCGCCCCG
CCAAACGAAATGGACCCCTGAAAGACCACACAACGCCATGTAGAAAAGTA
GAAGCTAGAGAAGGGTACAGCAGTAGTTTATCATATGACAGCACCGAAGA
ACATTAAATTTCAAGACAAACCCGAAATCAAACTCAATATCAGATTCCGA
GTGCCGACAACAAGCATCGAGAGGTTGAGAGATGGACGTTATATGCGGTG
ATGTTTGTACGTGTTTCACTCTACTCTGGAGATGCCGTGATGTGTTTTTA
ATTAGCTCGTGCAGACCCTCTACAGTAAGTGTGCCAATTCGTTCGTGCCG
ATGCTTTTACGTATTTCAATCTTCAGCTCGTGTGCAGATGTTCCACGTAC
TTTCTCTTTACACATCACGTACAAGACGAGTGATAGCGTCCTGTACCTTT
TTCGGTCTTCTGTGTACCCTTCCTTTTACTCTTTGTGTGTGTTTTCGGAT
TTCTTAGAAGGATCGGTATTTCGTGACCGCTGGCTAAACTTTGGTGGTGA
GCTATCGTGAAAGTCAACAGCAACAGCAACTACAACAACTGACACTCGTG
CAGATGCTGAGGATTCCGAAAAAATGGCCCTGGTGCTGCACGCTCGAAGA
TGTTGTCGTCGGGAAACCAAGAGTATATCCCGGGGGGCTGCTGGTGACAC
GAGCTTTCGGCGACTTCTCCGCGAAGGTACAGTACTGTATCTATCCAGCA
AGCAGTGTTAGTGCTTACTGCTGCTGTCGCTTACCCATATCAACAGCTAC
ATACGGAGCTTTGAACGACTTTTCTCCTAAGGTACGTATTGTTGGGGGAG
AAGAGGGAGGTTTTCGCCTCTGTACAGCAAAGCGTGTGTACTGCTGCTGT
TGTGCAGCACATTGTTGTAATTACGTACCAACGAGCTCCGTCGCAAATTA
TGGGTTAGGACTTTTTTTTTCGACTTTTTTTCAACTTTTCTGCGAAGGTG
TACAGCGTACAAGAAGAAGAGGGAGCCATCTGTACAGCAAGCAGTGTTTC
CTGCTGCTGCTGTCGTCTACCCACATCAACAGCAGCAGCACACCCCTTTT
TGTTTCGTAAACTAGGGGGTACCGGAACGATTTATAGCTTTCCTCCCAAC
TACGCGTCAGACTGGAAAGCGATCTACTGTTCGTGAGTAGACATTCGACT
GCATTATCGACGAGAGGAAGGGAGCGCTGACCCCTTTCTCGCTATATTAT
ATACGAAGTAAAAAAAAGGCAAGCACCCGGCGCCCAGTCAAGTGGTAATC
TCGAACACCGGTGAAGTTACACGATCTTGGACTTTGCTCACACAAGTCCT
TGGGAGGAGTGGAACACGACTACGTATGTCGCGAGAAAACAAACACATTC
GGTTTCATAGCTGGCTAAGGGGGGGGGCGCCTTAACGCTGGTAGACGTTC
TTCACTCTTTGTGTTCGTTGCAATATCTGCTCCAGATCCTTGTCTGGAGA
GAGGCGAACACATTGATGTTTTGGTAAGTTTAAAAAAACAAAGTCGACGT
ACCTTGCTTATGTTCGAGTACAGTACCCGGACCCACAGAGTGGATCCCAC
TGCTGAACTGTGTTTACTTGACAAAATTCTGGACCCACCTTTTTGCAAGT
ATCAATCAACGTGTGAGTCCTGCCTTCCCACGAGAGTAGTGTGAAACATC
GCACGTTTTTTGCCAAATTTTCATAAAAACAAATTGTGTTTCAGATGGTT
ACTCTGGGGGGTACCCCGGGGGTCATCCTTCCCGACTGCGACGAGGTGTT
GGAGATGACGATTCAGGAGGATTGGGCGGAGGTGGTCATCGCGAGCGACG
GCGTGTGGGACGCGGTCCCGACGGCGGAGATGGCGCAGGTATGTACATGG
TTGTCCACCACATGTGATTGTCGACCACCTCACGTTACTCCTTCCGTGTG
ATCCCGGCTGGTTCGCCCGACTGTTTGTAGAGGGGCGAAGCGTCCAGAAA
AGATGGGATGACAACAAACAAACAAACACACACAAACACAGAGAACGTTT
TTGTTTTTCAAACAAACGCGTGTTTTTCGTATCATGTGATGTAGTACAGA
AGTAGACCTATTATACCTCTGTACTACGCAGGGGGAAGTGGAGAAACAAA
AAAAAAATCTCCTGTGTTGACTTCCCCCTGTATGACCCCGGTTGGAGCGT
CTACCTACCCGAAAGGTGTAGAGTGGGGTCCAATGAAAGGGATGACAACA
CGCTGCTGTTTGTGTGAACCCGCGGCTGGTGCGCCCGACTTGTACCGGAG
TAAATGGGATGACAACGAACACACACAAAACAGTAACACACAACCACACA
TACACACGAATGCTTTTTCGTTTTACCCATGAACGCCTCTTTTCGTTTTT
CACACAAACGCCTCTTTTCGTTTTTCAAACAGTCGTCTCATTTCGTTTTT
CACACAAATGCCTCTTGTCGTATCATATGATATGATGTAAAAGTATAAAA
GTAGACTCACTTTACTTCTGTACTGCTGCTTGTGTGGACCCCCACCTCCG
GCTGGCGCCCAACTTGCCCCTAACAGAGGTGCAGACTGGCGTCGAGCGTA
AATGGGACTACAAAACACGCACACGCACTCTCCCGACACACACCCTTGTC
ATGACCTCGCGTTCTCCACACAACCCCATGCACATACCAATTCACTACGA
GCATTGCCCCTATGCAAACACTGATATACTACGAGTGTTGATGGATTATT
GTTCTGAGTGTGGTACCGGGGCCTGTGAAGGGGGCACAACAGGCAGAGAG
CGTACAGCACTGCCTGCCTGGTAAATATAAGGTATCGACCTTTTGTAAGG
GTCAGAGTGTATGTCTTGCCGGCACAACGGGGCATCAGAGGCGCGGCCCC
GACGGCGGAAATGGCCCAGATTAAAAGACGTGCATCATCGACATTTCTGT
TTCCTGTTTTCGTCCCCCCGGTACGTACATATCGCTTTCGATTAATATCC
ATATCTACCTTTTTCCTTATTCCGTGACTACACCAGTACCTTTTTTTTTT
GTTTCCGTGTCTTTTTTGCCCGATGCCGAAGGGGGCACAACAGGCAGAAC
GCACTGCCTTGTACGTATGAAATACTTGTACGTATGAGATACACGGTAGA
CCTGTTATTTTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGC
CGAAAGTGAAATAATGTGTACACGTGCAACAAAATACTGTTTTTTGTTGT
TGTTGTTGAATAAGCTCCAAACGCGTCTTGCTGTTTCTGCTGTAACATCG
CATGATTCGCTCCGCACGCAGGTCCTTGCACAACTAGAAGGAAATGATGC
AGCAAGGGCCCCGGCGGCAAGGTCGCCAGTGGTCAACGACCCTGGCGTGC
TGGAAACTGCAGCACCAGGGGGAGCGGATGAAACCGTTCCGCAAGACAGC
CTCCGATTGAGACAGGCGCAGCTGCAGAGCACTTGTGCGAGGCTCATATT
GGCGTGCGTGAGGCACAGGTGAGGTTGTGGCGGTGGTCGACAGAAGTCCC
GTTCATATTCCGCTGTTGTTGTTGCTGTTGGGGTTGCTCATATCTCGTTG
TTGGTATTGCTGTTGGTTGTGGATGACATTGGTGCTGATGTTTCACCGTA
CCGGCTACGATCCATTTTGCCGAGCATGGCGCCGATCCGTATCAACTATC
AGTGTATGCTCTCGTTCGGCTGTTGCACTACGATCACGTTGTCAGGACTG
GCTGCTGGGCACCGTTGTCGATCATTGTGCAGCGCTCTGCGTAACGTATT
TTGTGACTTGCTGCGTGATACGCACGCCAACACACGCTGCGGCCTAGCAG
CAAAGGGAGTATCCTTGTATTCCGGGAAATTTTTGTCTTTTCCCTTTTAC
TCCACCAAGCAAAAACAGGAAAGCATGTGAAGACAAAAAAAAAAGAGTAT
TTTTTTTGTTCCCTGCATTGTTTTTTGGGGGCAACACGTCACAACGGGGG
GTATCCTGGTCACTTTGCGACACAGCAGGGTACACACCTTTTTGTAAGCA
TGAAATGAGCCGAGCTGGTTGATCGAAGGTCACTTTCACCCTGCAGTGCC
GGAAAAAGCGCGGGATATACCCCGCTGCTGCTACCCTGGTTTTGGAAATA
TACCCTGTTGTGTCTGGAAATGAGATCCTTGCACCGGCAATTTCTCCGGC
AAAAATAACTTTTCGCCGCGAGGACACCAAAACACAGATCTTCCGGCGCA
AAACATGCAATGGTAACCAGCAGGGTTCCGTCATGACGGACCTGCCTCAA
ACCCTGCACATCGGCTCTTCCTGCTCTCAACAGACAATGGCACATCATAA
GACCAAAGAGAGAGGAAAATATTCGCAAACTGCAGACAACCGACATATTG
CTGCTGTCGCTGCTACTGCTCCTGCTGCTGCTGCTGCTATGTTGCAGAGA
CCACAAAAAACACACGTTGTAGGGAGACATACACAGCCGACCCCAAACGG
TCTCAGAAGGCTCAGAGGCAGAGAGAGGAAGATCGTCAAACTGCAATCAA
CGCACCAACTAATGCTAATTTGTTGCAGGGACAACAAGAAACACATTGTA
GAGAAACACACACGACCGGCCCCGACGCTCTCGGAAGGTTCAGAGAGAGA
GAGAGAGAGAGAGAGAGAGAGAGAGAGAGCGAGAGAGAGTGACAAACTAC
CACCAGCCGACCAACCACTGCTGCTATGTTGCAGGGACGGCACAGAACAT
GTCGTAGAGAAACACGTACGGCCGATCCGGACGCCCTCGGAAGGCCACGA
GAGATAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGAGAGGTTGGCAAACTGCAACCAACCGACCAACCACTG
CTGCTGTATCGCAGGGACGGCAAAAGAGATGTTGTAGAGAAATAAACATG
GCCAGCCCCGACGCTCTCAGAAGGCCCCGAGAAAGAGAGGTTGGAAAACT
GCAACCAACCGACCAACCACTGCTGCTGCTGTGTTGCAGGGACGGCAAAA
GACATGTTGTAGAGGAACTCACAGGACTGGCCCCGACACTCTGCTGCTGC
ACTCCACGTCATAACGACCAGCATACCAAGAGTGATTCATGCGCTCTTGT
CTCCTAAAAAAACAGCAGTCACATACGACAGGCAGCTAAAATGTATGCCG
TTCCTGCTTACTCTCACAGGATGGCTGGCTACTGACCAAGGACTCTTTCC
GGACCACTGACATTACTGATTACCAACATGTACAAATTTTGAGCTGTCCC
TGCAACACAGCCGCGGCAGTCGGTCGATTGGTGGCAGTTTCCCAACCTCT
CTTTATCTCTATCTCTCTGGGCCTTCTGAGAGCGTCTGGGGTCGGTCGTG
TGTGCCTCTCTGCGACGTGGTTTTTTGTGATCTCTGCAACACAGCAGCAG
CAGCAGCAGCAGCAGCAATTTGTCGGTTGTTTGCAGTTCGCCAACATCCC
TTGCCTCTCTGGTCGTACGATTTTCCATTGTACGTTCAGAGCGGGAAGAG
TCGGTATGGAGGGTTAGAGGAAGGTCCGTCATGATGGACCCTTGCTGCTG
ATCACCATGGCATGTTCAGCGCCGATGGGTTTTGTATTTTGGCGTCCTTT
GGTGTTGGCGGAAAGTGATTTCTACGGGAGAAATGGCCTGCGGAAGGCTG
TCACTTTTCGACACAAAATTGTGCGATTCCAAACCAGGGTACAATCCTGG
ACAAAAAAGCCGCCGCGGGATATGCCCCGCCCTCTTACCGGCATCGCAGG
GCGAAAATTAGCATCGTTAAATCAGCTTGGCTCATTTCACGCTGAAAATC
GTGTGTACTTTGCCGTGTCGCAAAATGATCAGGATATACCCCGTCGTGCC
GTTTCCCTTTCTTTTTTCACTTCTGACTCCCAGCAATAAATACTCCCAGC
AATGAATGATTTTTGAGATCAACAGTATCGTCTTCGGGTGATACACATCT
TCGGGTGGCACACACAGTCTGAAACGCAAGATTATACAAAAAATAACCTC
GTCATTTTCCCGGATTTTGTTTCGAGACAGGTATTGGGAAAGTAATCAGG
CCGCGGCAGACAACGCTAGCGCCGTGATTCTAAGGTTTCACCCACTACCG
CAGTCCTCGGAAGGGTTCCTTGAAAGGTCCCCGGAAAGAATCCCGGAACA
GCTCCCGGAAAGGATCCCGGAACAGATCCCGGAAAGGTCCTCGGAGCGGT
CCCCGGAAGGGCTTTCCGAAGGGTTGCCAAAACGCGGTGAATCTCTTGAG
GAGCAGACTGTGTAAAGGAATACTCATTACAACAGTGGTGATCCCAGGTA
GTGTGACCCGGTCGAGGGCTGCGGTGTTCCAGAATGCTGCTGCTGTTGCT
GCTGCTGCTGTTGCTACCATAGACATAGAGTCGTAAGCAGGTAGGCATTG
GTGTTTAGAGCTCTCCCGGGGATGTGAATCCCGCACGACCTGGATTGGAG
CCCGAGAGGCTTCGCACGGGGGGGTGGGGGCGATGGTTTGTTCCGGGCGG
AACATCTCGAAGGCGGGAGGGCTGGGGCGAGGCGGTGGTGCCAACCATTG
TCAATGGGGATTCGAACAGACAGACGGCTGGGCGTTTGGTTACCGGTGGA
GGTATTTCAATCAAGAGGGAGCAGTGTCGTTCAAGAGGAGTGTGAATTAT
CTTGCCGAGGCCTTTCCGAATGTTTTGGTCTTATTTGAGACTTCAGCACC
CTTCCCTCCTCCTACACCCCTCCCCTCGACGTTTTTTGAGCTGCCGGGCA
ACGACGATCGCAACCATCCCCCGTGCACAAACTCTCCGCATGTGTGACGG
TGGTAGAATATTTGTCAGGGGACAGAGGAACCCCGTCGTGACGCGTTCGC
AGGAGCCCGTGATAATCTTTTTAGATCGCATCGCGTCACCCCCGTCTCTT
TGGGAGAACCGCCGTGCGCGTGATTTTTATCTGGGCGACTTCCTGCCTGT
GTGTTTGGGATGTTTTCTTGGCGTGTCTGTCTGTTTGTTTGGTGCGTTTG
TTTGTTTTACCGACAAGGTTGGCATCGGTATAATGTGTGGGGTGCACCCA
CACACGCCCGTTGGACACATGTTTTATCACTACAGGTTTACAAGGTATAT
AATAGACGCGTCAACGGAGATTTCACGTGATGAATAGATGGGTGGGAGTG
AAAACTCTACCGGTGAAGGTTTTGATCGACGGCGTGCAAGTTGCTCAAAG
AACAGTACAACAACGCGTGGCCGAACTAGGACTACAGAAGAAAATACGCC
TTCCGCGTACATATTCTACAGCAGCACAGTACATACCCCAAGATTGTTTG
GGTAAGGATGGGAAACGAACCATACCGACAATTTTGATAACTTTTCCCTT
CGTGGCCGTAGTTTGTCATTCGGTGCTCCGCGGTTGGAGGTATGACACGT
GTGCGCTGGATCCGATCCTCGATCGGGAATATATTTGCCCTTCTCTGTTG
GCTTATTTTGTTAACCGAAGGGCGCGGGAGAGCCTCGAGGGAGAATTCTG
TTTTCGAGGAACTGTGCATGGTGTGCAAGTATCGATCAAGGCATCTTGCT
AATTTCGATGGAGTCATTCGGACGCTATACGAAGTACACAAGTCGATCTA
TTAATATGCGCGTCTTGAATTGACACGGACATGGTCGGAACATTGGCGGG
GGTATATGGCGGAAATATCGATGGTGCAAATATCGCATTGACAGGATCAT
GATTTGCAATGGTCGGTGGAGGCAAATGCCGATGTTAACGGGGGGCACGG
TGCAAATATTGACAGAGGTATCACATGCAACTAACTGATAGAGGCATGGT
GGAAGCATCCATGAAGGCATGTGGTGGTGCGAGTTTTGACGAGGACATGG
TAAAAGCATTGATGGGGGCATGGTAAGAACATTGATGAGAACATAGAACA
TGGTGGGAGCATGTCAAAAACATTGACAGGGACCGGTAAAATCATTAATG
GGGACAAGTTAGAGCACTGTATAAACATTGATGGGGGCTGGCAGGAAACA
CTGATGAGGGAAATTAGGTAAACATTGATGGGGGCATTGTAGAGACATTC
ACGGGGGCCTTGTGCAGCAGCAGCAGCAGCAGTTTTTTTTGCCAATGGTG
ACGGCGTGAGAGAGCATTTTCGGTGGGGCGGCACCCTTGGGAACGTTCCT
ATCTTAATTTTCAGTTTACAACAGCAGTGTCGGTGTGGTGCGAAGCAGGT
CGTGTAGTGAAAAATCGTGTTGTCTTCATCACATACTTCGTGCTTTACTC
AGTATATAGCTGTGGACGGTTCTTGTATCGGTGTTTGTATGCGGGTGTGG
CAAACCAACAAGGGTATGGTTGGCCACACGGATAGGTACAAAAAATGTTT
TTTACCCCATTCAAACGAAACAATTGTCAGCGGCACCGATGTTGACCGAA
TAGGAAAACTGCAGGTAACTTCTTATTCTCACTTGCATAAAAAACATAAC
TCGAAAGTCGTTTGTGGTTAGCTGGAGTG

Coding sequence (CDS) from alignment at P-littoralis_Contig608:58990..73218+

>mRNA_P-littoralis_Contig608.10.1 ID=mRNA_P-littoralis_Contig608.10.1|Name=mRNA_P-littoralis_Contig608.10.1|organism=Pylaiella littoralis U1_48|type=CDS|length=996bp|location=Sequence derived from alignment at P-littoralis_Contig608:58990..73218+ (Pylaiella littoralis U1_48)
ATGGATGGCGAAATCTACCAAACCCTCGCTCAGAAACAAAGAGATATCTC
CGCGAGGACGACTACCGCGAACGGACGGGAGGGGCGCCGGGAGGCGGAAC
CGTTCCCGCGGGACGGCAGCACCGCCACGATCTTGCTGCTGGTGGGAGAC
AAGCTGTTCGCCGCGAACTGCGGCGACTCCGAAGGCATTCTGGTCAAGAG
AGACGGCAGCTTCCAGCCCATCACGAAGAACCACGACACCCTCGACCAGG
GCGAGTTCGAGCGCATACGCCAACTCGGGGGCTTCTACCGCAAGCAGATG
CTGAGGATTCCGAAAAAATGGCCCTGGTGCTGCACGCTCGAAGATGTTGT
CGTCGGGAAACCAAGAGTATATCCCGGGGGGCTGCTGGTGACACGAGCTT
TCGGCGACTTCTCCGCGAAGATGGTTACTCTGGGGGGTACCCCGGGGGTC
ATCCTTCCCGACTGCGACGAGGTGTTGGAGATGACGATTCAGGAGGATTG
GGCGGAGGTGGTCATCGCGAGCGACGGCGTGTGGGACGCGGTCCCGACGG
CGGAGATGGCGCAGGTCCTTGCACAACTAGAAGGAAATGATGCAGCAAGG
GCCCCGGCGGCAAGGTCGCCAGTGGTCAACGACCCTGGCGTGCTGGAAAC
TGCAGCACCAGGGGGAGCGGATGAAACCGTTCCGCAAGACAGCCTCCGAT
TGAGACAGGCGCAGCTGCAGAGCACTTGTGCGAGGCTCATATTGGCGTGC
GTGAGGCACAGGTATTGGGAAAGTAATCAGGCCGCGGCAGACAACGCTAG
CGCCGTGATTCTAAGGTTTCACCCACTACCGCAGTCCTCGGAAGGGTTCC
TTGAAAGGTCCCCGGAAAGAATCCCGGAACAGCTCCCGGAAAGGATCCCG
GAACAGATCCCGGAAAGGTCCTCGGAGCGGTCCCCGGAAGGGCTTTCCGA
AGGGTTGCCAAAACGCGGTGAATCTCTTGAGGAGCAGACTGTGTAA