mRNA_P-littoralis_Contig143.4.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig143.4.1
Unique Name	mRNA_P-littoralis_Contig143.4.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: D8LC06_ECTSI (Trehalose 6-phosphate phosphatase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LC06_ECTSI)

HSP 1 Score: 477 bits (1227), Expect = 1.780e-158
Identity = 236/284 (83.10%), Postives = 258/284 (90.85%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCGGMGILVKEKFDPERPPQTRASFSLRNPDEVQLFLSALVSYA-TAAGAQAPAAVSA 1274
            LHK NA+E+W +++ LMD KQVV+FLDYDGTLSPIVDQPDKAFM EGMRPVLAQ ASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPL RPV+CQMAE+MRP LEA T+ LHSLL H+ GYEIEDNKFSLSVHYRQV SP HV+E+H IVHEY++ APEIVVKAGKKVLELRPKVDW+KGSAVNWILDALDLG+R+DVFPIYLGDDITDEDAFVAMETR CGGMGILVKEKFDPERPP+T ASFSLRNPDEVQ FL+ LVS+A T   A+AP A +A
Sbjct:   29 LHKDNAIEHWAKIKSLMDKKQVVLFLDYDGTLSPIVDQPDKAFMKEGMRPVLAQAASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLDRPVKCQMAEDMRPMLEATTDTLHSLLGHIQGYEIEDNKFSLSVHYRQVPSPPHVEELHNIVHEYVATAPEIVVKAGKKVLELRPKVDWHKGSAVNWILDALDLGNRSDVFPIYLGDDITDEDAFVAMETRACGGMGILVKEKFDPERPPETNASFSLRNPDEVQTFLATLVSHAGTVTSAKAPPATAA 312

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A7S2D2V7_9STRA (Trehalose 6-phosphate phosphatase n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2D2V7_9STRA)

HSP 1 Score: 310 bits (795), Expect = 1.350e-93
Identity = 163/285 (57.19%), Postives = 204/285 (71.58%), Query Frame = 3

Query:  432 KLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLA-HVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCGGMGILVKEKFDPERPPQTRASFSLRNPDEVQLFLSALVSYATAAGAQAPAAVSAATS 1283
            K NAL+ W+Q+R  M  K+ VVFLDYDGTLSPIV +PD+AFM + MRPVL +VAS+FTTAIVTGRS++KVY FV LDDV+YAGSHG +I GPL  P+ CQ+A+  RP L+   E     +A  + G EIEDNKF+LSVHYR V SP  + EVH  V+ YI++   + ++ GK VLE+RPKV WNKGSAV WIL AL L    DVFP+YLGDD+TDEDAF+A+ +    G+GILV+E+ D ER   T A++ LRNPDEVQ FL  L  +  A  A  P   +AA+S
Sbjct:   90 KKNALDQWQQIRESMAGKRPVVFLDYDGTLSPIVKEPDRAFMKDTMRPVLQKVASMFTTAIVTGRSREKVYQFVQLDDVYYAGSHGFDISGPLKHPISCQVADGFRPLLKRAVEDFEETIAKRIQGAEIEDNKFALSVHYRNV-SPELIPEVHAAVNAYIADESSLELRHGKMVLEVRPKVSWNKGSAVVWILKALGLDQSEDVFPLYLGDDMTDEDAFLALRSMNNSGIGILVREQGDKERVAGTAANYLLRNPDEVQEFLECLSQHEEAPLASLPEPPAAASS 373

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A7S2WT46_9STRA (Trehalose 6-phosphate phosphatase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WT46_9STRA)

HSP 1 Score: 283 bits (723), Expect = 3.400e-83
Identity = 149/273 (54.58%), Postives = 186/273 (68.13%), Query Frame = 3

Query:  438 NALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLAR-PVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMET---------RVCGGMGILVKEKFDPERPPQTRASFSLRNPDEVQLFLSALV 1226
            NA+E W+ +   M  K+ VVFLDYDGTLSPIV +PD A M +GMR VL +V++ +TTAI+TGRS++KVY FV LDDV+YAGSHG +I GP     + CQ+ +  RP LE   + L   L+ +PG ++EDNKF+LSVHYR V    +V+ V +IV   +   P++ +K GKKVLELRPKVDWNKGSAV WI+  L L    D+FP YLGDDITDEDAFVA+            V    GILV+E  D ER P+T ASF LRNPDEVQ FL  L+
Sbjct:  108 NAIEAWQNICSSMHGKRPVVFLDYDGTLSPIVKEPDNAHMKDGMRSVLRRVSAAYTTAIITGRSREKVYQFVQLDDVYYAGSHGFDISGPDGDGSITCQVGDQFRPLLEDVRQQLEDQLSAIPGTKVEDNKFALSVHYRNVPDQ-YVELVFEIVSALVERQPDLALKHGKKVLELRPKVDWNKGSAVLWIMRQLGLDTAEDIFPFYLGDDITDEDAFVALHAFGPSSPQLGDVGRSAGILVREDNDLERQPETHASFKLRNPDEVQQFLELLL 379

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A8K1CGA6_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CGA6_PYTOL)

HSP 1 Score: 253 bits (646), Expect = 5.210e-73
Identity = 139/280 (49.64%), Postives = 184/280 (65.71%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSALVS 1229
            +H  NA  + E +R  +  K+ VVFLDYDGTLSPIVD PD+AFM + MR  L  ++S + T IVTGRS +KVY+FV LD++ YAGSHG +I+GP   P+ CQ+ ++ RP LE C   L + +AH+PG E+EDN  ++SVHYR VA      EV  IV +YI + P +V K GKKV ELRP+VDW+KG AV +IL  L L    +V P YLGDD++DEDAF A+ +R  G G+ I+V+   DPE             P T+A++SLR+  EV+ FL  LVS
Sbjct:   37 VHPTNAFRDLESIRRTVAGKKPVVFLDYDGTLSPIVDIPDRAFMTDEMRHALNTLSSKYITTIVTGRSTEKVYDFVQLDNLVYAGSHGFDIKGPKTLPINCQVGDHFRPMLEQCVRDLSAAIAHIPGAEMEDNHLAVSVHYRHVAMEFQA-EVEDIVDDYIIQHPSLVKKHGKKVFELRPRVDWDKGRAVMYILSELGLDAE-NVVPFYLGDDVSDEDAFSALNSRSIGKGISIIVR---DPEATNADIPGNLKQLPATKAAYSLRDTIEVEQFLKVLVS 311

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A662WPT2_9STRA (Trehalose 6-phosphate phosphatase n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662WPT2_9STRA)

HSP 1 Score: 249 bits (637), Expect = 2.990e-72
Identity = 140/278 (50.36%), Postives = 182/278 (65.47%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSAL 1223
            LH  NA  + E +R  +  K+ VVFLDYDGTLSPIVD PD+AFM + MR  L++++S F TAIVTGRS +KVYNFV LD++ YAGSHG +I+G  +RP+ CQ+A++ RPTLE     L    AH+ G E+EDN  ++S+HYR V  P     V +IV +Y+S  P +  K GK V ELRP+VDW+KG AV +IL  L L    DV P YLGDD++DEDAF A+  R  G G+ I+V+   DPE             P T+AS+SLR+  EVQ FL+ L
Sbjct:    2 LHPTNAFLDMEAIRQKVAGKRPVVFLDYDGTLSPIVDVPDRAFMTDAMRAALSELSSKFVTAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGTKSRPINCQVADHYRPTLEQALRDLTEQTAHIRGAELEDNGLAISIHYRHV-DPTLQGAVEQIVDDYVSFHPSLTKKLGKMVFELRPRVDWDKGRAVMFILAELGLDAE-DVVPFYLGDDVSDEDAFNALNGRGLGQGISIIVR---DPEAVKVDLPGNMKELPATKASYSLRDTFEVQQFLTVL 274

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A3F2RS21_9STRA (Trehalose 6-phosphate phosphatase n=1 Tax=Phytophthora kernoviae TaxID=325452 RepID=A0A3F2RS21_9STRA)

HSP 1 Score: 255 bits (652), Expect = 2.610e-71
Identity = 143/280 (51.07%), Postives = 183/280 (65.36%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSALVS 1229
            LH  NA  + E +R  +  K+ VVFLDYDGTLSPIVD PD AFM + MR  L++++S F TAIVTGRS +KVYNFV LD++ YAGSHG +I+G   RP+ CQ+A++ RP LE     L  L AH+ G E+EDN  +LSVHYR V  PA  + V +IV +Y++  P +  K GK V ELRP+VDW+KG AV +IL  L L    DV P YLGDD++DEDAF A+  R  G G+ I+V+   DPE             P T+AS+SLR+  EVQ FL+ L S
Sbjct:    2 LHPTNAFRDMEAIRQKVAGKRPVVFLDYDGTLSPIVDVPDHAFMTDAMRAALSELSSKFVTAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGTKTRPINCQVADHFRPELEQALIGLKELTAHIAGAELEDNGLALSVHYRHV-DPALQNAVEQIVDDYVAYHPSLTKKMGKMVFELRPRVDWDKGRAVMYILAELGLDAE-DVVPFYLGDDVSDEDAFNALNGRGIGQGVSIIVR---DPEADKVDLPGNLKELPATKASYSLRDTSEVQQFLTELAS 276

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A2D4CD42_PYTIN (Trehalose 6-phosphate phosphatase n=2 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4CD42_PYTIN)

HSP 1 Score: 247 bits (630), Expect = 1.340e-68
Identity = 133/263 (50.57%), Postives = 180/263 (68.44%), Query Frame = 3

Query:  429 HKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVK--EKFDPERP------PQTRASFSLRN 1190
            H  NA ++ E +R  +  K+ VVFLDYDGTLSPIVD PD+AFM E MR  L  ++S + TAIVTGRS +KVYNFV LD++ YAGSHG +I+GP + P+ C++A++ RP L  C   L + +AH+PG E+EDN+ ++SVHYR V      D V  IV  Y++E P++V K GKKV ELRP+VDW+KG AV +IL  L L    +V P YLGDD++DEDAF A+ +R  G G+ I+V+  E  + + P      P T+AS+SLR+
Sbjct:    3 HPTNAFQDLESIRRAVAGKRPVVFLDYDGTLSPIVDVPDRAFMTEEMRRALNALSSKYVTAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGPKSLPISCRIADDFRPMLADCLRDLSARIAHIPGAEMEDNRLAVSVHYRHVPMSRQAD-VEDIVDAYVAEHPKLVKKHGKKVFELRPRVDWDKGRAVMYILAELGLDAE-NVVPFYLGDDVSDEDAFNALNSRPIGRGISIIVRDPEAVNVDLPGNATELPVTKASYSLRD 263

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: K3WM19_GLOUD (Trehalose 6-phosphate phosphatase n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3WM19_GLOUD)

HSP 1 Score: 247 bits (631), Expect = 2.260e-68
Identity = 142/278 (51.08%), Postives = 179/278 (64.39%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSAL 1223
            LH  NA  + + +R L+  KQ VVFLDYDGTLSPIVD PD AFM   MR  L  ++S F TAIVTGRS +KVYNFV LD++ YAGSHG +I+G  + P+ CQ+ +++RP LE C   L   LA +PG EIEDN+ ++SVHYR VA PA    V  IV +Y+   P +  K GKKV ELRP+VDWNKG AV +IL  L L     V P YLGDD++DEDAF A+  R  G G+ I+V+   DPE             P T A++SLR+  EV+ FL+ L
Sbjct:    3 LHPTNAFRDIDTIRQLVAGKQPVVFLDYDGTLSPIVDVPDHAFMTGAMRDALHALSSKFITAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGTKSLPISCQVGDHLRPALEDCIRDLSVKLAEIPGAEIEDNRLAVSVHYRHVA-PALQSVVEGIVDDYVVHHPSLAKKHGKKVFELRPQVDWNKGRAVLFILSQLGLDAEH-VVPFYLGDDVSDEDAFNALNARGNGKGVSIIVR---DPEAVKVDLPGGTNELPATTAAYSLRDTLEVEQFLNVL 275

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: A0A2P4Y0S3_9STRA (Trehalose 6-phosphate phosphatase n=18 Tax=Phytophthora TaxID=4783 RepID=A0A2P4Y0S3_9STRA)

HSP 1 Score: 237 bits (604), Expect = 9.590e-68
Identity = 133/259 (51.35%), Postives = 172/259 (66.41%), Query Frame = 3

Query:  483 KQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSAL 1223
            K+ VVFLDYDGTLSPIVD PD AFM + MR  L++++S F TAIVTGRS +KVYNFV LD++ YAGSHG +I+G   RP+ CQ+A++ RP LE     L    AH+ G E+EDN  ++SVHYR V S A  + V +IV +Y++  P +  K GK V E+RP+VDW+KG AV +IL  L L    DV P YLGDD++DEDAF A+  R  G G+ I+V+   DPE             P T+AS+SLR+  EVQ FL+ L
Sbjct:   12 KRPVVFLDYDGTLSPIVDVPDHAFMTDAMRAALSELSSKFVTAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGTKTRPINCQVADHFRPKLEQALRDLTEQTAHIAGAELEDNGLAISVHYRHVDS-ALQNAVEQIVDDYVAYHPSLTKKMGKMVFEVRPRVDWDKGRAVMYILSELGLDAE-DVVPFYLGDDVSDEDAFNALNGRGLGQGISIIVR---DPEAEKVDLPGNLKELPVTKASYSLRDTAEVQQFLTEL 265

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BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Match: H3GW55_PHYRM (Trehalose 6-phosphate phosphatase n=2 Tax=Phytophthora TaxID=4783 RepID=H3GW55_PHYRM)

HSP 1 Score: 246 bits (627), Expect = 3.760e-67
Identity = 138/278 (49.64%), Postives = 180/278 (64.75%), Query Frame = 3

Query:  426 LHKLNALENWEQLRPLMDNKQVVVFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVYNFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLAHVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGKKVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAMETRVCG-GMGILVKEKFDPERP-----------PQTRASFSLRNPDEVQLFLSAL 1223
            LH  NA  + + +R  +  K+ VVFLDYDGTLSPIVD PD AFM + MR  L++++S F TAIVTGRS +KVYNFV LD++ YAGSHG +I+G   RP+ CQ+A++ RP LE     L    +H+ G E+EDN  ++SVHYR V  PA  + V +IV +Y+   P +  K GK V ELRP+VDW+KG AV +IL  L L    DV P YLGDD++DEDAF A+  R  G G+ I+V+   DPE             P T+AS+SLR+  EVQ FL+ L
Sbjct:   59 LHPTNAFLDMDAIRQKVAGKRPVVFLDYDGTLSPIVDVPDHAFMTDAMRAALSELSSKFVTAIVTGRSTEKVYNFVQLDNLVYAGSHGFDIKGTKTRPINCQVADHFRPELEQALLDLTEQTSHIAGAELEDNGLAISVHYRHV-DPALQNAVEQIVDDYVDYHPSLTKKMGKMVFELRPRVDWDKGRAVMYILSELGLDAE-DVVPFYLGDDVSDEDAFNALNGRGLGQGISIIVR---DPEAEKVDLPGNLKELPVTKASYSLRDTAEVQQFLTEL 331

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig143.4.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LC06_ECTSI	1.780e-158	83.10	Trehalose 6-phosphate phosphatase n=2 Tax=Ectocarp...	[more]
A0A7S2D2V7_9STRA	1.350e-93	57.19	Trehalose 6-phosphate phosphatase n=1 Tax=Dictyoch...	[more]
A0A7S2WT46_9STRA	3.400e-83	54.58	Trehalose 6-phosphate phosphatase n=1 Tax=Rhizochr...	[more]
A0A8K1CGA6_PYTOL	5.210e-73	49.64	Uncharacterized protein n=1 Tax=Pythium oligandrum...	[more]
A0A662WPT2_9STRA	2.990e-72	50.36	Trehalose 6-phosphate phosphatase n=2 Tax=Nothophy...	[more]
A0A3F2RS21_9STRA	2.610e-71	51.07	Trehalose 6-phosphate phosphatase n=1 Tax=Phytopht...	[more]
A0A2D4CD42_PYTIN	1.340e-68	50.57	Trehalose 6-phosphate phosphatase n=2 Tax=Pythium ...	[more]
K3WM19_GLOUD	2.260e-68	51.08	Trehalose 6-phosphate phosphatase n=1 Tax=Globispo...	[more]
A0A2P4Y0S3_9STRA	9.590e-68	51.35	Trehalose 6-phosphate phosphatase n=18 Tax=Phytoph...	[more]
H3GW55_PHYRM	3.760e-67	49.64	Trehalose 6-phosphate phosphatase n=2 Tax=Phytopht...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig143	contig	P-littoralis_Contig143:65615..87390 +

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	4792.ETI51662
PFAMs	ETC_C1_NDUFA4,Trehalose_PPase
Model size	2850
Max annot lvl	4776\|Peronosporales
KEGG rclass	RC00017
KEGG ko	ko:K01087,ko:K03937
KEGG TC	3.D.1.6
KEGG Reaction	R02778
KEGG Pathway	ko00190,ko00500,ko01100,ko04714,ko04723,ko04932,ko05010,ko05012,ko05016,map00190,map00500,map01100,map04714,map04723,map04932,map05010,map05012,map05016
KEGG Module	M00143
Hectar predicted targeting category	other localisation
Exons	8
Evalue	7.07e-81
EggNOG OGs	COG1877@1\|root,KOG1050@2759\|Eukaryota,3QBSY@4776\|Peronosporales
EC	3.1.3.12
Description	Removes the phosphate from trehalose 6-phosphate to produce free trehalose
Cds size	942
COG category	G
BRITE	ko00000,ko00001,ko00002,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig143.4.1	prot_P-littoralis_Contig143.4.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig143 65959..85784 +

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


Feature Name	Unique Name	Species	Type	Position
1680789671.225491-UTR-P-littoralis_Contig143:65614..65958	1680789671.225491-UTR-P-littoralis_Contig143:65614..65958	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig143 65615..65958 +
1680789671.3194304-UTR-P-littoralis_Contig143:85784..85952	1680789671.3194304-UTR-P-littoralis_Contig143:85784..85952	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig143 85785..85952 +
1680789671.3326051-UTR-P-littoralis_Contig143:85994..87390	1680789671.3326051-UTR-P-littoralis_Contig143:85994..87390	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig143 85995..87390 +

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


Feature Name	Unique Name	Species	Type	Position
1680789671.2385325-CDS-P-littoralis_Contig143:65958..66102	1680789671.2385325-CDS-P-littoralis_Contig143:65958..66102	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 65959..66102 +
1680789671.248015-CDS-P-littoralis_Contig143:81234..81333	1680789671.248015-CDS-P-littoralis_Contig143:81234..81333	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 81235..81333 +
1680789671.2609625-CDS-P-littoralis_Contig143:82145..82289	1680789671.2609625-CDS-P-littoralis_Contig143:82145..82289	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 82146..82289 +
1680789671.2698286-CDS-P-littoralis_Contig143:83236..83332	1680789671.2698286-CDS-P-littoralis_Contig143:83236..83332	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 83237..83332 +
1680789671.2781844-CDS-P-littoralis_Contig143:83798..83918	1680789671.2781844-CDS-P-littoralis_Contig143:83798..83918	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 83799..83918 +
1680789671.2902083-CDS-P-littoralis_Contig143:85111..85266	1680789671.2902083-CDS-P-littoralis_Contig143:85111..85266	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 85112..85266 +
1680789671.3078527-CDS-P-littoralis_Contig143:85600..85784	1680789671.3078527-CDS-P-littoralis_Contig143:85600..85784	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig143 85601..85784 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig143:65615..87390+
coding sequence from alignment at P-littoralis_Contig143:65615..87390+

protein sequence of mRNA_P-littoralis_Contig143.4.1

>prot_P-littoralis_Contig143.4.1 ID=prot_P-littoralis_Contig143.4.1|Name=mRNA_P-littoralis_Contig143.4.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=314bp
MPTAEAVAAEGGEGGAAAAVAAAASSSLHKLNALENWEQLRPLMDNKQVV
VFLDYDGTLSPIVDQPDKAFMNEGMRPVLAQVASVFTTAIVTGRSKDKVY
NFVGLDDVFYAGSHGLEIQGPLARPVRCQMAENMRPTLEACTEALHSLLA
HVPGYEIEDNKFSLSVHYRQVASPAHVDEVHKIVHEYISEAPEIVVKAGK
KVLELRPKVDWNKGSAVNWILDALDLGHRADVFPIYLGDDITDEDAFVAM
ETRVCGGMGILVKEKFDPERPPQTRASFSLRNPDEVQLFLSALVSYATAA
GAQAPAAVSAATS*

mRNA from alignment at P-littoralis_Contig143:65615..87390+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig143.4.1 ID=mRNA_P-littoralis_Contig143.4.1|Name=mRNA_P-littoralis_Contig143.4.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=21776bp|location=Sequence derived from alignment at P-littoralis_Contig143:65615..87390+ (Pylaiella littoralis U1_48)
TGCGGCAGTCACAGTCAGTTCTCGTTCCACCTCCTTCACAAACCTTCCAC
AACTACTGCTTCTTCTTCTGACTCCCTTCCAAGGAGACAGAGCCAAGCCT
TTCTTTCAACGCCTCTCGGGGAAGAGATAGAGATAGATCGATAGATAGAT
AGATAGACAGATAGAGAAAGAGAGAAGGAGTAGACTGCAAGGTATCAGGG
CCTGCCCTCGAGACAAGAGGCCAGCAACGGCGTGCTTCTGCCTTTCACCT
CCAAAGGCTCGATCGAGAGACGACAACGGACAACATTCGTGTGGGTGGAG
AGGGTGGAGGGTCTTCGGCAGCATCAGCGGGCAGATTAATAACCATGCCG
ACAGCAGAGGCTGTGGCTGCGGAGGGAGGAGAAGGAGGAGCAGCAGCTGC
CGTGGCAGCAGCGGCCTCGAGTAGCTTGCATAAACTGAATGCCCTCGAGA
ATTGGGAGCAACTCCGGCCGCTGATGGACAACAAGCAGGTATGCAGCAGC
AGTATCACATGTATCGTCACACGAAATTTACAGCACAGCAGCAGCCCATT
GTATTTTGTAGACATGACGACGAAAGAAGAACCCGAACCAACCAAAACTT
CCTTTGTTGACTAGCCGTTGCGTGAAGTTGAAAAGACCAAGAGAGCCCCT
TGTTCACTCTACGCCTGCTCTTGCCTACTTTAAGGGTCTCGAAGCGTTCA
CGCCATGGCGCGCACCATACACACACAACATACGCAGTCAACTGCGCAAT
TGGTTCTCTTGATGATGCCCAGTCGAATTTGAGACCAGACGCTCTCGCAG
CAGAGGAGGGGCGCTGCAGCTAGCCGGACAATACCAAACTGCCTTCTTCA
GCGATATCTTCCAGACACCACCCACCCGCATTGGCTGCTGAGTATGGAGT
ATTTCACCAACCGCGTTCAAGTGACACATGCCCTCGGAATGTTCCCGTCA
AAACGCCGGAGACTTCCCCCGCGAAGCACGGGTCGCTGTTTCAGCAGGGG
TCCGTCCTGTCTGGCTCGCACGAACGTCGGAACTTCCACCCACTGTGCGC
AGCAGGTAGCACTACAATGCTGCATGTAGAGAGACATGTGAGATCATTGA
AACCCAAATCATTGCATATTGCTGCCCCTTCTGTGCGTACAAGTCGTTGC
AGCAGGTTGGTGGTAAATGTGAACTCCCTTGAGCTGTGATTTATATCTCA
GCCGCCATCCATCATCGATCGGTTCGGCGTGGTCATTACTTCCCATTAGG
CACTACGACAACCCCCCCACTATGATCTCCAACAGGTTGAGAGCGTGACT
TTACTTGTAGTCTGACTTGAAGCATACCTCCATACAGACAGCAAGCATTC
CAGACACAGCAGGAGTAATTCTCAGGTAGAGGTGCTGCTATATTCACGCG
TGAGTTCGAATCCCAGTTCAGTAACACGATCTGGGTTTTCTTCTCACACA
GCGCGTGAAAGTGGAAAGCGATTAATTCTTGAGTAAACAAAAAGTCGATC
GTACCATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGATAAAAG
CTCAACCAAAAACAATGCAAGCACCGCAGAGGGAAGTGGAGAAAAAATCC
CCTGTGCTGACTTCCCCCTGTGTGTGACCCCAGTTGGAGCGTCGACCTAC
CCGAAAGGTGTAGAGTGGCGTCCAATTAAAGGGATGACAACACACACAAC
ACACACAGCCTACAGCAGTAGACTATACATCGTACTTGATACGAAGTACT
GTTTTGCGGCAATTCGGAATCCCCCGTGGTCAACTTCTCCGTCAACTTCT
CCGATATCTCCGCCTCCGCTCTCAACCATGGATGGAATTGGTCGATTCAT
CCAATACAACATACGAAGTACCAAACAAGCAGTGCAGCAGTACCATACCG
GTAAAAGCGACACTTCTTCTCCGGCTGCGCTGCGTTTTCCGTCTGTTCCT
CTCCTGCTTCTTCATACGAAGTATAACTTGATTACGAGGTTCTTTGTACT
TTCAAGTGAAAAACAGTACTGGTACTTCCAAGTTAAGTATAGTGCAGTAG
TAGTGACTCCTGATGCAAAGTACCAAAAAAATGCACCAATTTTTGGCATC
AGTAAAGAAGCGTGTGAGGCAGAAAAAGAAAAGAAAGAGCGCTCGCGCTC
GGGAAGGACGGGTGTGTGTATGGTACGAGAGAAGGAGAGGCTGCTTTGTT
TCTCGCTAGGCAAAAGTAGCCCCTGCTTGTAAAGACCGCATAATCAAGGT
AGACAAAAACACACGCCGTGTTGACCTTCCTCCTGTGTGACCCGGGCTGG
TGCGTGGTGCGTCCGTACACCGGTATATCGAATGGCGCAGACTGCTGTCG
CCCAGAATCAGATACGAATGTTGTTGCTGATGTTGATTCTCACATTAGCT
CATCGCCAAAATCCAGCCCGTGGTCACGAAAACTGCTAAAGCCTTAGGAA
GATCCAAAACAGAAAGAAACTACAAGAAAGGGAGTACCGAAGAAAGACGG
AAGAAGATATCCCAACGTGGTGTGTACACTGAACTACAGCAGTCACAGCA
GTACCAACAGTAAACAAACGTTTATCCAGCGTAGTTCATTTGACTACAAG
ATCGCGTTCAGTCTCCTCCCGCCCCACTTACTAGAAAGGTGAAGGGGAGT
AGTGTGCGTTGGAGGGCCGCTTCTCAGATAAGTGCGTTAAGCCGTGTGCG
TTTCTGTTTGGTGGCGTATGATATGCCTGCTGCTTCACAGCGGTCCTGCT
GCTGTGGAACAGCTTGGTGTGGTGTTGTTGATTGTTGTTGATTCTCACAT
TAGGGTGGCGCCTACGTAATTTTTTTGGACTCGAACATCGAACAAGCGGC
GTAATCATGTGATTGGCCGTGAAAATAAAATAAAAAAAAGATGTTGGGGT
GTTCGAATTTTTCTACGCCGGATCTTCCAAGGGCGATTCCGCCTAAAACT
CTAACATTTTTCACAAAAACTCGAAAACCTAACACCGAACCTATAGCAGT
CCTGTGGGCTATTGACGAAATAAATTGGTGACAAAAAGAGAAGACCCGCG
TCTATCGCTCCCTCTCACGACAAGAGAGAGAGTGCGACCGGGCGACCGAG
AGAGAGACGACCGCAGAGCATAGCCGCAAAACAAGTGTCCATGCCGAGCG
ACAGCGAGGTTTCGACTGATCCCAGGGCCCCGCGTGCGCAAGCGGGGCCA
GGTAAGACGCAATCACACGGGCGTGGCTTCCTGTCGCAACCACACAGCAG
CAGTAGCAGCAGCAGCTGCGTACCGATATGACAGCCCGGTCTATTGGGGA
GCACTTGCGTGTGTGTGTGTGCGTGTGGGATTTGTTTACTCGCCTTTGCC
GAAATTACAAAGGACCCAAAAAGTCGAACATCGAACTATCCGCTTGTTCG
ATGTCCGATGTTCGAGTTCACAAAGATTACGTAGGCCCCACCCTTAGCTC
ACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCT
AGGAGGAAAAATAAAAAAATAAAACATATGGACTATGATCACCCACAGTC
AAATCAGATAGGGTACCGTTGGGGTACCATCTGTGATGGCCGAAGTACCA
AACAAATACAGAAAAAAATAAAAGGTTAGAAAGAAAAAACAAAGATTGGA
AACAGGACAAAATACCAAGACAATCCTTAACCATATACTTCGTACAAGTA
CTTCGAAGTACTTCGTGCATCCAACCAGGGCCCAGGGCCATGACAGACCA
AGGCAAAGGCAAAGGCAAACCAGGGCGATGGTCCAGTGGCTATATGATCA
AGAGACGAAAGACAAAAAAATAAAAAAGAAGATAGAGGGAGTGCACACAC
CGTTCCCTCGCTGCCTAGGCAAGGTCTGCTGTAAGCATGACCCAAAGCGA
GTTGGGGGGGTCTTATTGGCGGGTGTAAGGCCGGACTCACCCTCAAGGAG
TGATACCTTCTTGCTGCTGCGCTGTGGTTGAACGCCACGGGTGTGGCGGT
AGAGTTGGGTCGCAGTTGGTGTGCCAGGTGCAAATATGCGGATTCGCGGG
CCCTTTGGTTACAGCGGCAGTACAGCAATGTACATCACAAGCATTTGTGC
GCGGAGGCAGGCGACACCACGGGTGAAAAGACGGTCCGATCTAGGATGCA
CTGAGGGATTGTGCCGTCCAGTAACCAGTTTCGCAGCCAAGGACGAAGGT
AGACGAGCAGCGACGAACGGGGAAGAGCATGATCGATCTCACTCCGAGAG
TGAACTTTTTTTTTTCAGAAGACTGTTACCTCAAGTGCCCGGCGGAGTTT
TTTAGGGAACTGATTGGAAAGGAACAACAAGAAAGAGCTGTTATGTGAGA
GAGCGGCGGTGATGGAGGTGACCTAAGGCAACGCCGGCAGTGAAGGAGCG
TTACGAGAGCATGGCGCTGGTCATGTGGCCCTGGGCAACGCCAACAGCGA
CGTGGACCCAGAAAAGGAGGAAATGTTTCGGGCGACATCAACACCACCAG
CGTCGCGGGGACGGCATGGAGACACCACATCCTCGACAACATCTGATGAT
ACGTGTGTGTTTTAGTTTTTTTTCTTTTTCTGTCTTCTCTGATTTCCGGG
GCTACTTGTACGTTGCAGGCAGCACTCCAGACAGCAACCAACTGCTACGT
ATAGTCTACAGCTACTGACTGCTTGAACAGCAGTAGGGTTACTAGTTAAA
GTGGGGCGGGCGGAGACTGAACACGATGTTGTAGTCAAATGATCCACCGC
TGGAAGTACGTTTGCTGTTGGTGCTGCTGTGACTGCTGTAGTTGAGTTAT
GCACACCACGTTAGAAGGTGTATCTTCCTCGGTCTTTCTTGGGTATTCTC
TTGTACTTCGAAGTAGTTTCTTTCTGTTTTTTTATCTTCCTAGGGCTCAG
CACTTTTCGTGACGACGGGCTAGATTTTGGCGATGAGCTAATTCAAAATG
AATGTTAGAATCAACAACAATTCGTACACAAACACAGCAAACAGGCTGCC
AAACAAAGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAAAAAAGAGACAA
AGAGGAACGAAATACATACATGGAGAGTGCAGAGGGAAGACCGGAAGTAC
CGGAAGTCGGGGGGGGGTGATAAAAATACAATACAAGGCATGCAATCAAT
CGCAAACATGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCTACTCA
GTCGCACTCATGCCTCCTGCTAATGGCACCACCGTACCCAGTTGTTTCTG
CTCCACATCTTGGTGCTGATGTGCGTGTACGCGAGCACAACGCAAACAAA
CGCCTCTCATCATTTGTCACATAAAAGGGACCCCAAAAATATCGCGCTGC
TGACAAGATAGCTGTGCGCACAGCACACGGGCTGCGATGAACCCAGCAGC
AGTGTGTGGGTAGACGCCATTTACCTCTTCAGTTCGAGCCCTTGGTCGTA
ACGATCTGTGCCGAACTGGTGCCAAAGTATTGCAAAATGTGGCCATTATT
TCGGACATACACAGACACCGTAAACCTCCAAAATTAAAGAAATGACCCCC
CTGTCTCCGATTTATTTCTATTTTTTTATTCGCACATACACTCACACCTG
CACATCACGACAAGTCGGTACTAGAGGATCGGGGTTGAGAAGCCGTGTGC
GTTGCTGTTTGGTGGCGCATGATATGTCCCAGCAGTGCTGCTGCTGCAGG
ACACAGCTCGTGGTGTGCTGGTGTGCGTGTGCGCCAGCACAACGAACACA
AAACGCCTCTCATCGTTTGTCACAAAAAAGGGACCCCAAAAATATCGCGC
TGCTGACAAGATAGCTGTGCGTACAGGACACGGGCTGCGATGGACCCAAC
AGCAGTGGGTAGATGCTGTTTACCTCTTCAGTTCAAGCCCTTGGTCGTAA
CGATCTGTGCTGAACTGGTGTCAAAGTGTTGCAAAATGTAGCCAATATCC
CGGACACACACACACAGACACCGAAAACCTCCAAAATTAAATAAAGGCAC
CCCTGTCTCCGACTTTTTATTTTTTTTATTCGCACATACACTCAGACCTG
CACATCACGACAAAGTCGGTGTGAATTCGAAGCAGTTCGACAAAGGAAGT
TACACTTCGCTTCGCTCGTGGGCTGCTTCTCAATTAACCACAACTACTCT
GTAAAGCAATAATTTAGTAGCTACAGGCTGGTTCACGGAAGAAGCAGGGA
ATTTAATCCCCGGTATTTTCTCACGCGGTTTTTTCGAGTTAGACCCTGAA
ATTTTGCACACACGTACTATGGGTCACTGCGCAACTTTCGATGAATTGGC
CTTTTTTTTTGTTTTTTTCCTTCACCAGATACTTTTAAGTATTTGGGGTC
CCAGGTTTAAGGGGCCTTCTGGGTCAACTTGGTCGCCTAGGACCCCAGAT
ATCTGGTGAAAGAAAAAAAACAGAAAAAAGGCCAATTCATCCGAAGTTGC
GCAGTGACCCATAGTAGATGTGTGCGAAATTTCAGGGCCTAACTCGAAAA
AACCGCGTGAGAAAATACAGTGGCGTAAAGAGTACTTCTATATAAACCTA
ATTTTTGAATTTAGTACCAAATCGGCTATTTAGGGATTTTATAGCGATAA
GTATACAAAAACTAGGTAAGTTCGTGGACTTGAGAAAAACAAATTTGTGA
GTACCTTCCTTCAGACCCAGAGAGACCATACATGGTCGAAAAAAGTATGT
ACCTCGAATTGATACATATAGCACTTAGTGTTGAAAACCTGGTTTCTATT
GCACTAAGGGGGGTGTTAAACTACGTCATTCAGTGTAAATGATACATTTT
CGCCCCCTAGCACCACCACTGAAGCTTGAAACGAAAATCGAAGAATGTCG
CGGTCTTCTACTGTTCATTGCGGTCGGTTTGATACGAAAGTTGTCCAGAT
TGGGTAATTATTGCGTCCGGAAATGTATGGGGACAAAATTTGGGGATTTC
ACCGTGAACTAGCTCGTAGCTGCAGACTACAGCAGTTGCTGTCTGGAGTG
CTGCCTCCAACATACAAGTAGCCCCGGCAATCGGAGAAGACAGAAAAAGA
AAAAGAACTAAAACACACACGTATCATCAGATGTTGTCGAGGATGGTGTC
TCCATGCCGTCCTTGCGACGCTGGTGGTGATGATGTCGCCCTCAACATTT
CCTCCTTGTCTGGGTCCACGTCGCTGTTGGCGTTGCCCAAGGCTACATCA
CCAGCACCATGCTCTCGTAGCGCTTCTTCACTGCCGGCGTTGCCTTAGGT
CACCTCCATCACCGCCGCTCTACAGCAGTACGATACATGGGATGATAACA
CAACACCACACTTCTGTATACCCTTGCTTTAACTTTTTGTGTATTTTCGG
ATCTTCCTACGGTCGCCCCGGTGGACTAGTGGTCCCCTCGTTAACCACTA
GATGCAGAGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCCTTTGCTAC
TTTGAAAGCGGCTATGCTGTTAGTAAAAGCAGATTCGGCTTCGCCGACGA
GGGCAGGGACCGCGGATCCCTGCCTGGAGAAAAAAATCTCACGCATGTAC
CGCAGAAGGAAGGTGGGGGTGACTCCTCCTGTGTTGACCTTCCTCCTGTG
TGACCCCGTCGATGGGCCTAGCCTGTACTTTGAACCGCAGGGTGCAGACC
AGTGTGCCAGAGAATATGGGATGACAACACATGATAGGGCTCGGCACTCT
TGTGACCATGGGCTAGACTTTGGTGGTTATTAGCTAAATGTGAATCAAGA
ACTTGTTATTAAACAAATTTCGAGTGAAAACAGGCAACGAAGTTGTAATA
TATAATACGTATGGAGACATAAATCGGAGGAACAAAATATTTCGCCGTTA
CTGCGGCGATCAGCGAAAGGATACCACGGCTGCGAGACAGACGGGGCAGA
GAGGAGACGTGCTTCGGCGCAGAAAAAGGGCAGTCCACGTACGGATCATG
CAGAGTGAAATGTTGACTGCACTGCTGAATGATATTTCATTTTCTTATCC
TAACAGTACCCACTATTCGTATCTAGCAGTGTATACTTCGTGCGTAAGAT
ACCGGTATTGACGATGATACTCCGTACGTATTATACGTGCGTGAGTTTAC
GACAGTTTACAGCAGTAGTATGATGTGAAATCTCCTACTCCGATTATTAT
TCTTTCTAAGTACAGTCCCAAGATTTACACTTCCGAACTGAACATGTATG
CATATCATACGTCGCTGGTACTTCACACACGTGGACTGCTACACAGAGTA
CAGAGTACTCACCGGTAATTGGAAGCATGATAGGTCACAACTTGCAACGA
AGACCGGTCGGAACCAAGCCATCTCTGCCGCCGCATGCACACTTGTATGT
ATGCACATATCACGCCAAGGTCAAAAAATGTACACGCCATCACATCGTCG
AACGATTGGCGCGTGTCTTTTTCATATCATGCTCATTCTAGGCTTTCCAC
CACGAAATGACTTTTGACCTGAAAGTTTTGACCTGAAAGAAATGACTTTT
TCTCAGGTGGCGGTTGGGATCTACGCTTTTCGTGATCGGGCCGCTTGTAG
CTCTTGGCAGTTGGCAACCTCTGAAAAGAGTCATTTTGTGTACTTCGAAC
ATAAAGAGTCGTTTGTGTTGTGTGCTGTTGGAGTACTTTTACCATGCATG
GAGTCCGGATGGAGATACGCATGGATAGGTATGACACAGCACACAACACA
CACAACGCTCAGCAGCAGCGGTTCTGCCCCAATCTGCGAAAGCCAAGGCC
ATGGCGCATCGTCACACACACAAACAGCAACAGCAGTGGTAGTACTCAAG
GTACATGTTGTGCGATGCGTATTGTTATTTTTCTATTTTGGCCACGGAGA
AATCACACAACACATCGACAACATACACAAGACCACCGCAGCAGCAGCAG
CAGCAGCGGCAGAGCAGCAGCAGAGCAGCAGCGAGCGGTTCCACCTCACC
CCGCGCAAGCCGAGGCCATGAAGCATCATCACACACTCCAACAGCAACAA
CAGTAGTACAGCAGTACAGCCATTCACGTGTCTCTGTGACCGACCGCCGC
TCTGCTGGTGAGGCTGCTGCTGCTCAGCTGTTTACTGCTCTCAGCTGCTA
CTGCTTTTTGTGGGAACCACCAAGACAGGAAGGAACCTTATAGCCAGCAA
TGTGCGCAGCAGCAGTCACATACTGTACCAGTCAGTGTCACTTTCTCCCT
CTGGGAGTGGGACTCCCCTCACTCCGTGATCGCTGCGCTTACGCTTGCAG
CCTTGTAAGGCGCTTCGCTCTATCTTTGGTGCAAGATTGGCAGTACTGCA
GTGTGCCTTCGGGTGCGTGTATTCCCGATTGAAGCGCAACTTCAAGAGTC
TGAAGTTGGGGTCAATATATTCGGGTCAAAAAAAAAAGACCCGAGTGGAG
AGTTTTTTTGACCCCCAACTTTCGGCGGAGAAAACGCTCCAAAAAGTGCG
GCGAGACAGGAAAGTCATTTCTCGAGGCAAAATTCATTTTTTAGGTCAAA
AGTCATTTTATTAGGCTGGATCTTATGGTCCACGATGTTGGTCCACGGAT
TTTTGTACGTCGTGGTAAGTCACCTTATGGACACGCATGTTGGCGATTTA
GAATCTTGGAAATCCGTGGACCAACATCGTGGACCATTTTTCACGAATGT
TTGCCATCTGTGGCTCGGCATCCACGAATTTTGGCTCACGAATGTTAAGT
TATGTCTGTTTAAACCCACAGAGCCACAGAGTGGGGTCGCGCCGCATGCC
CGAGCTGTTCTATTGTGAGTGGAGCGCACACAAGCTCGGGCGCACCAACA
ACAGCACCTACCACACCACAACTCTACACCCGCAGCACGATGGAGCCTGC
TTCGAGCGTAGGAGACAGCGAACGACGTGCGGAGCTCGTCGCTCTTCTGG
TAGCAGCAATGCGGAGACTTTCAATTGATAATTTTCATCCTGTTGAGTGC
TGCTGTACCCATTTCGCGGACTTGGCGACCTCTAGATTCATCGATTATTC
CGGCATGGACGCCCCCTACTACTGCTGTACAGCAGTACTTCTGTTGTGCG
TGGAAGCACCAGCGTGTGTGTGTGTGTGGCGTTCCGTGCTACGGTGCTCG
CGGTGAGCGAGTGTGTCTTGTGCTGCTGTGCGTGGCCCTCCTCCTCCGCT
GTATTGTACGTAAGGCCCGTGTCCCTGTTGTACGCTTCTCCGAACAATAC
AAAAAAAACAGGCCTGGCCAAAATCCGTGCCCACAGCGATCCGTGTTTCC
CATATTATGGGCTGTATGTTTTTTCGGCCCACGGATGTTGTCCTCGTATG
TTTTAAGATCCACGGGCCAACATCCGTGGACCACAAGATCCAGCCTTTTA
CTTGCAGTAATCAAGTAAACCTCCACCTGGATACTGTCTAAACCGGAACA
GCGGTAACGGTACAGGAATGGTATTTATATTGTTGCCGTGCATGGGTTAC
AGCAGTACGGGTCACGGTGAACCCAATATCAAATTTCAGTGGGGTAACCT
TCCGCGGTACGGTACCTTCGACAGATGCTGCTGTGTGTGCTGTCATCCCA
CCTATCCGGGCGCCAACTTACATCTTTCGGTATGACATGTGGGGGCACCA
GCCGGGGTCACAACAGACACAGGGAAGCCAACACAGGGTTGTTGTTTTTT
TCCTCCACCTTCCTCAGGCGGTGCTTGCTTTGATTTTTTTCGCGAAAAAA
GGCTTCAGCAGTCCGTCCCTTTTCCTCATGTATTTGATTTTTTCTGAGTC
GGATTTGGTATGTATGTGTGTGTTTTCATCCCATTTAGCTGGACACAGCA
GTGGTTTTTCTTTTTCCTCCAGTGACCTCTGCGATGCTTGTCTTGTGTGC
TTTTTTGCTTTCGCGACAAGGGTTCAACCGTCCCTTACCCTCGTAGATTG
TTTACGTCAGATGTGCTCGTACCTCACACGACGTCATGGTCGTTTTCCAC
TTTCCAGGAACTATTTTGAGAAAAATCAAAATATCCGAGATCGTGTGACT
TAGCCGGGAACTCGTACCCACGTCCTGAGTGTCGGCAGGCGTTGAGGTTT
CCTACTGGACCACCGGGGCGACTGGTCTTCTGACACGAAACATTCGCTTT
ACACTCCTAGGATATTTTGTACGAAAAACCAGGTTGTGATGCACCGCAAA
CCCCTCTGCCCCCCCCCCCCTCTTCGCATTTTTCGGACGAAAGGCATGAA
AACATGGATTCAACCAGGGGGGACTCAATGTACCGAAATAGTTCCTGGTA
AGAAAGTTTCCCGGCCACAATCCCCCCTCCCCCCCCAAGTTTTTTTTTAT
TTTTCTTCAATGCGTTCCCGCCGTGGTATAAAGACTAAATGTGAGGAAAC
AACACGACAGGGTGCAACCTGGTCATGTGTGACACAACAGGGTGACTATT
TTCAAGCAGCGTGAAACGAGCGGAGCTGATTGGTCAGCTCTCGTTTTCCT
CCTGCCGACCCGGAAAATGGGCTGGGTGCACCGCGCGGGGGCTACGTTTC
CACGGAACTGCACCCTGCTTTCAGACATAATCCCTGTCCCCTGTTGTAAG
GGGGTGGGTGGAGGAAGAAAAAATAAAGGGAAAACGACACAACAGGGTGC
ACCCTGGTCATTTTGCGACTCAACAGGGTGCAAACTTTTCCCGAGCGTGA
AACGAACCAAGCTGATTGGTCAAACCTCGAAAACACCCTGTTGAGCCGGA
AAATGACCAGGGCGCATCCCGCGGAGGCTACTTTTCTTCAAAACTACACC
CTGATTTTTTGAAAGCACCCTGTTGTGTCGGTAAATGACACCCCTCCACC
GGATATTCGTCCGGCAGGAATCACTTTCCGCACCCACCGAAGGGCACTAA
ATATGAGATCTTCCACCGCCAAACATACAAGGGTGAATACCATGAACGGC
ACGACGGACCTACCGCATACCCCTCCACATCGACTCTTCACAGGCTCTAA
ACATACCATGGCACACTGCTTCTGTGCCAACAGATCAGAGTGCCGTTGCC
AGCAAACAAAGACTGCAGATCCGCCGAGAACAGAGCAGAGACACCAGCCC
AAACAGAACACATTCGTTGGGCCTGCTTCAAATACTCGTATACGAAGTGC
GATCTATGATACCATATATAGAGGCCAATATACAGCAACACACAACAAGA
AGAAAAAACGCAGAGGAGACAAAGTAGCCACACAACCACACAAAGGAGGT
ATGGAAGGGACGGCCAGTGGGGTGACAGGACACGCGACTCACAGCAGTGC
AGACACAACAAGTAGACATCGGAAGCAGAGAGCAAAACACACAATATCGA
TGCACTGAATAAAGAGGGAACCTTACACCCACCTTTTACCCACGTTGTCC
CTTTACTTTATATAAGGACACACGGAAGGCGCAACACCACCTACCCTCTG
TATTGTTCCCGAACCTTTCATTGCGAACACTCTGTTGCAAGCCCACAACC
CTCTGGCATATCAACACATCGTCACGTCTGAAGGGCACAAGCGCCCTTTC
GCACGACAACCTCGGAATGGAGTTCCACCCCGACCAATGTCAGTCACAAC
AAGAGGATTTAGAAAAAGGTACGTACAACGCGTGCGGGTGTGTTTGTTGC
CATCCAATTTGAGGCTTAAAGCACGAAGAAGAAGCCGAGGGGTACTGGAC
CATCTCGCACACGGTACAACAAACTGCTGTCGTGGGAGATTGGGCGCGCC
GAAAGAATAGGGTTCGTATCCGATCGTGGATGATTTAGGGAGCGTATGTA
CCGAAAATATAACGCAGAGTATCATATCGTAAGTATTGTTTGGTTTCTGT
TTACAATCTACATAATAGTACAGCAGTGTAGCTAAACAACGGCACTCTGA
TCTGTTGGCACAGAAGCAGTGTGCCATGGTATGTTTAGAGCCTGTGAAGA
GTCGATGTGGAGGGGTATGCGGTAGGTCCGTCGTGCCGTTCATGGTATTC
ACCCTTGTATGTTTGGCGGTGGAAGATCTCGTATTTAGTGCCCTTTGGCG
GGTGCGGAAAGTGATTCCTGCCGGAGGAATATCCGGTGGAGGGGTGTCAT
TTACCGACACAACAGGGTGCTTTCAAAAAATCAGGGTGTAGTTTTGAAGA
AAAGTAGCCTCCGCGGGGTGCGCCCTGGTCATTTTCCGGCTCAACAGGGT
GTTTTCGAGGTTTGACCAATCAGCTTGGTTCGTTTCACGCTCGGGAAAAG
TATGCACCCTGTCGAGTCGCAAAATGACCAGGGTGCACCCTGTTGTGTCG
TTTTCCCAAAAAAAAACGCGTGTGGCATTCCTTCTCGGTGACCTATGCTG
GTGTACCCACTTCATGCCGAAAGGTGTAGACTGGTGCCCAGAATAGATGG
GACGAAAACACACACACACCCTGTTTTGTCGAAAAACGGGACTTTTCCCC
CCGGCCCTTTCTCACGCGGGAGTTTCCGCTCCCACTTGAGGGTACCAAAA
TACAAGCCTTTGCCGCGCTGAAGCATACCAAGTGGTCGCCGGCAGGACCG
ACCTGCCTCCAACCCGAGCTGTTCCAACCCATCCACATCGACTGTTCCGC
CTTGTAGCTTACGGCATACCAACACACAGCCGAGAGGCGTTAACAAGCAA
AAGCTGCAAATCAAACGGCCAACCAGCCAACCAACCAACGTCAATACTGC
TGTACAGCCCAGAACTCTGCTTGCTGCTATGCCCGTACATCTGGATATGT
ACAACTCTTCTGGGTACCAGTCTATACACCTTTCAGCATGAGGTGGGTGC
ACCAGCCGGAGTCACGCAGAAGGAAGGTCACACACGCAGAGAGTTTTCTT
TTTCACCCATGATGTGTACTCGGTATGGATGTGTACTCGGCATGATTTCG
AACCCATGTGTTTGAAGCAAAACTCCACGACCGTGTCACGAGACCCACTG
CGGTGTGTGTAACGTGACTAGAGGGCTGCAACAGAACCATCTCTCCATTG
CTGCGGACTTACAGAGATTGCCTCGTTGTCTGACAGGTGGAGGGAAAGCA
GACAGGGTAATCTCCTCCCCCCCCTCTCTCTCTCTCTCTCTCCCTCGTAC
TTCGGAGTGCTAGCTTTGTACATACTTATCGGGTGCCTCCCAGAAGCGGA
ATGTGTGTAGGCTTGGCTCTTCGTGTGCGTGGATCGGGCAGCAGTTCAGT
CCGGCGTACTCAACAATGAGAGAGGTTTCAATTCAGGGAAGAAAGCGCGT
ATTGCGGTGCGGCCAAGGGTCGAGGACGCAGGATAACGCGGTAGGTCCCG
CTGTAAAATACGAAATACGTGCTCGCCTCAAAGGGCCGCACAGTGGGCGC
TGGCGCCCGAGGGCGCTGCGCGTTTGTTTCACGCGTTCTGGTCAACGCGG
GCTTTCGAATCCCGGAGGCGTTGCGGTTCAGGAGCGCTCCCGCAGGCCAT
CTTGGTAAGCCGCTGGCGCAGCGAAGCGTCCGTAATCAGCACGCGAGGCT
TGAAGGAACGAGCCCGGTGCTTTTCCGTAGCACCGGTATCACAAGCGAAG
AAATCGCGCGCCAAAGTATTTTGATTTCTGAACGAAAAGTGGGATGGCGA
GCTCTTGGGGCTCTAGAGGGACGGGAAAAGGCCAACTTCCTGTTTTTGTG
AAGGCGCCGGCGTAGCGAGACCGAGAGGGGCGGGTCGATACGTCGCCGAG
AAGCGGCAGGCGAACGAACCGCGCGTTGATCCATTTCGATTTGTTTGAAG
ATCTGAGGTATCATGAAAGTGCCGATTTTTTTTTTTTTTTGGGGTGTCGA
CATCGATGATCATAGACATGCGATAGGCTCCGGACGCGAGGGGCTGGTGT
TCCCCCCGTCCTCCATTAAGGGTCGAAGAGGTTGCTCCGTATGGGACGGT
AGGTATTGAACGGCACACCAAGTGGCAGACGGGAAGAAAGGGCAGTGCAA
GAAAGACGGTGTAGATCCGAGCGCTAGCTTCTATGCTGCTGCTGCTGCTG
TTCTCGGTGGTGGGAGTTATCTTACCTTCTTCGTTGCATGGAGAGGAAAA
GGTAACAGACAGCCGCACGGTACGTCATTGAGTTGCAGAGTACTGACCTA
GTTTTATTTTTACGCTTTGCTGAGCACTGGTTCTGTCGTCAAGTCTTGTT
TGCGTTTGCGCTGAACCGAGATCTGATGGCCCTTTGATGCGCGTTGGTAA
ACACATCGGTCCTGTCAAGGCTTGCGTTTTTTCCGCGAACTTTCCAAGTG
GACTTTGAGAAGCCACAAAAAAACCGCGTGGATGGCAGCATGTTTGTTTG
TAGTCGCTCGTACCATATCGCACGCGTGTACGTCTGTCTCCTTTTTAAAT
TTCTCGTTTGACGGACGTGCCGTACCGCCTTTCGCCTACCGCCCCCCCGT
TCTCCCCCCTCCTTTTTCTTCCGCATGATGAAAAATGCCACCCAGTCAAT
GGAAACCGTTCCCTTGATTGCTTGCTTGCTTGCCTGCTTTTCGCCTATCG
CCCCCCCCGTCCCCCTCCTCTTCCTCCTCCTCCATCCGCACGTCGAAAAA
TGCCACCCAGTCAATGGAAACCCTTCCCGTGCTTGATTAATTGATTGATT
GATCGTTAGCTTGCGTGCTTGCCTGCTTTCTGATTGCTTGGTTGAATGAC
TGGCTGATCGACATTTTCAGGTGGTGGTGTTCTTGGACTACGACGGGACG
TTGTCGCCCATCGTGGACCAGCCAGATAAGGCATTTATGAACGAGGGGAT
GCGCCCCGTTCTCGCCCAGGTAAAAATGCAGAGTTTGCCGGTCGAAGGGA
TAAACACGTTATGGATGCATCATCCCCGGCAACTGACTTTTGGGCATATG
CCATCATGTGGATTTGTTAGGATTTTGCATCTGCTTGGCCTTGGCTTGGC
TTTTAACCTTTGTCAACTTGGTCTGGCTTAGCGTGGTCTGAGTTGGTTCG
GCTTGCCTTGGCTTTGCTTTGCTTGGCTTGGTTGCGTTTAGTTTTGCTTG
CCTTGTGCTTTGCTTTGCTTGTGCTTTGCTTGGTTTGGCTCGGCGTGGTC
TGTCTTAGTTGAGGTGTCTTAGCTTTGGTTTGGTTGGATCTGCTTTCGTC
CCACCCATGCTCACTTTCTCGTGTGTATATCATACGAAGTATTACATGAG
CTGCTCCCGCGCGCGCGCGATGGGTGAAACGTTGGAGGCGTGCGTGTCAC
GTCAAAGCCATAGGTGCCGTTCCGTCTACGATTATTGTTCCGTTGACAAA
ATCATGCCGCAGCCTCTCCCTTTTTTTTCACGGACGTGGATGTTCGTGTT
GCAAACGATGGATAGCCCAATGGCCTACAGAAGGCCTGCTGAATACAACA
CCGTACTGCTTGACTCCCAAGTGGCAGGACTTCTAGCAGTATGATTTCGG
GCAGCAGCCTCTCGTCCGCTGTGCTCCTTCCTCGCAAGGTCGGTGCTTTA
TATGAAGTTGATGTTTTATAAAACCGCCGGGCGGGTCCACGCGTGTACTG
ACGTGACCTTCACGCGCGCGTTTTTTTTCTTCTTTTTTCGTTTTCGTTCG
TTACCGTTGCCGTTACCGCGCGTCCAATCAGGTGGCCTCGGTTTTTACGA
CAGCAATCGTTACCGGGCGCAGCAAGGACAAGGTGTACAACTTTGTCGGA
CTAGACGACGTGTTTTACGCGGGCAGCCACGGCCTCGAAATCCAAGGCCC
GTTGGCTAGGCCGGTCAGGTGCCAGGTGGGCCATTGTTTGTTCTCATTCT
CGGAAATTAATTAATTGCGCCCATTTTAGGCATTGCATGATACTCATTCT
TGGGAGTAAATTGATCGCGTCCATTCTAAGGCCATGTATTCATTCTCGGT
ACTATTTTGCTGGTAAACCCTGAGGCATTGTTGTACTACCGCTGGTGATA
CTGCCCACCCATATAAACAAGGACTGTGGTGTTCTCCTGTCTGCACGTCA
AGAAAATTCTGATATTATCTCCCTTTTTTCAATTTGATGCTGTTATATTC
AAAACTTTAAGAGTATGATCCCAACGACTTGTGCGGGTTTTTTTTTTTTT
CTGATTCGGTCTGCTGTAGTCACGAAGTTGCGGCATACCCCGCTGGCATG
CTCGGAGGTGGAGCGACCCGTTTTCAGGTTTTTACGACAGCGTAATGGAA
TCACCTGCGTGTTGGTCGCTTACGCTACTGTTCGCGAGCAGTTGGGTACC
GGCGCTGTTGTTGCGTCCGATGCGACGGAGACTGTGATGGACGCACGCCC
TCCCATGCTCATCGAAACCCTCTGCTTTCATCTTATCATAGTGCGATGCC
TCAAGAGAATTTTTGTAAAAGCACATCGGCGGAAGAGTGGTTGAGGGACG
CGTGCGGGGATTCGGCCATGCGAAGAGAACGGCAACAGCAGCAGTGGCAG
CGTTAAGGGAATGGTCGCTTTGCGTCACTCGTGATGGTGATCGATCAAGC
TACCATCGCTGAAGCACCCACCACACGTGCGCGTACGCATCATATGATAT
GGCAAAAGTGGATCACAAACCAGCAGGGAAAATGACCCCCTTTTACAGCA
GTATCGGCTAGGGTTTTGTCTCGTGGAAGATTTGCCTGTACGCTATCATA
CTCCGTAGAGAGATTTTTTTGGTGTTGTTGGCTCTCGGGTCTAACAAAGG
GTCACGGTTCGCTGTTGTGCAGATGGCGGAGAACATGAGGCCAACCCTAG
AAGCCTGCACGGAAGCGCTGCATTCGCTGCTCGCCCACGTCCCCGGCTAC
GAGATTGAGGACAACAAGGTCAGTCAAATTGGCGTCGAAAAGTATTGACA
CCACATTCTAGGTGGAGGAGCAGAGCAACACCCACCAGTTCCTCCTTTTT
TTCTGTTTTTGTTCTGTTTTTGTCCGTCCGAGTGTGATCGGTTGCGCGGC
TGTCACTACTGCTGCTGCTGCTTTTTTTGCTGCTGTTGCCGTTGAATACT
CCGTATGTTTGTTGCGCAGTGGTGGTGGTGTTGCCTCTGACTCACGATTC
GATTGAGAGACGTCTGCTGTGTGTGTCTGTGTGCATCTGTGTGTGTTTGT
GTGCGTGTTTTCTTCCCATTTTTTCTGTGAAGCACCTTGTAACTGCTGTG
TCTGCATATTACCACACGGCAAGAAGGCCCCTTTTGGCTGTTGTCTCATC
CTCCCTCCCCCCAACCCTTCCCCCCCCACGGCACTTACGTGCCGTAATTG
CGCTGCACCTGGGCCTCCGTTTCATTTTTTTCAGTTTTCCCTTAGCGTCC
ACTATCGCCAGGTTGCATCCCCGGCACACGTTGACGAGGTCCACAAGATA
GTTCACGAGTACATATCCGAGGCACCGGAAATCGTGGTCAAGGCGGGCAA
GAAGGTGTGCGTGTGCGTGTGTACGTGCGTGTTTGCGTGCTTTTTCTTTT
CTTGAACTCGGTCACAAAACGCGGCGAAACTTCCTGCTTCGCGATTAGAT
GAGTATTTTGCTTCTTTTCGTTTCCTTCTGCTACTTCAGCAGTGTTGACT
GGCCTGTTGTTGTTTCGTCTCCGGGCTCCAAGATCCAACACGGGTGGCTC
ATAGCTCCCCCTTTTCTCATCCCCTCCCGAAGTGTTTGCTGACGGCCAAC
GAAGTCCAAAATTATTCTTAAGCCCGGTTCACCGTTTTTTTTTCCCCTCT
TTTATTTCCCCCGAAACCCCTCTTTCCCTTTTTTTTAAACCCCTTTTTCT
CACCCTACGTGGGGTGGAAAAATGGGTTTCGGGGGAAAAAAGAAAAGGGA
AAAAGGGGTTTCGAGGAAAAAAAAAAACTGTGAACCGACCTTTACGGAAT
TATCATGCCATAGCGATCACACAGAAATTCTCTCAGCATTTTTCTCCCTT
GAAGAAATTATGTATTTGTCCCCAGCCTGACTGTCTTGAACTACCTTGCA
AGGAATCCAAGACGTGCCCCCCTGATTCCGGTTGGCCTCGGTTGGAACGG
GCATTTTCTCCCGACTCTCTTTGGAATCCGTTTTGTTCTTGACATTTCCC
GTATAGCAGTAAGTGTTTTTTTTTCTCAAAATTGATGAGACCACAACTGT
AGTGTGTGTTTGTCCCGTTTGTCCTGGGCACCGGTCTACACCTTTCGGTA
TGAAGTGGGTGCATCAGCCGGGGTCACACAGAAATAAGGTCATGCACGAG
CTTTGTATTGCCCACATCTTTCCTCCCGCGGTACTTGCCTTCTGCTTTTT
ATGCGAGTCGGGTTCAGCACTTCCCTCTGTTGACTCATGAATAGATCGCG
TTCCACACAAAGTCGACCAGTGCTCGATTTTGTTGAAACAAAATACCGGT
GATGTGATGAAAGAGTTACTAGCTTCTCTCCCAAGACTACGAAATATGTT
GTCCTTCAAAAATACGGGCATGCGTTCGTTCTCAAAAAGGACCAGGCGTT
TGTCCCGTTTCTCACAGCGAATGTGGGGTGTTCATGGAGAGTGTGACCCG
CTATGATAGCGCCTCTACCCATTTTCTGCTTCTTTGTTTGATTTTTTGTT
TTTTCTGTTTTTCTGTTTTTCTGTTTTTTTCTTTCTCCCTGTCGCAGGTG
TTGGAACTTCGCCCCAAGGTTGACTGGAATAAGGGCAGTGCCGTCAACTG
GATCCTGGATGCGTTGGACTTGGGACACCGGGCGGATGTGTTTCCCATCT
ATCTGGGGGATGATATCACGGATGAAGACGCCTTTGTCGCCATGGAAACC
CGGTGCGTTTTTCTTTTTTTTATTTCGGGTCGAGATTTCGTATTTCTGTT
TCTACGAGTATATCAGAGTATACGGAGTATCCTCTGCCGTACGCTCGGTA
TCTCCTCTAAAGTTTTGCGTGTGTGTGCCTGAATGTGCTTGCTCTGGAAC
GGGGTTTCTTTTTTGTTTGCTCTGCCCCCCCCCTCCCCCGCGATCTCCGG
CTTTTGCCCAGCACAACGCTTACTTTCGGGATTGCTTGTGAAAAAAATCG
CCTCTGTTGTATGTGTCTCACGATATTTGACGCTTAACTTTTGTCGCCTT
CCGTCGTCCATTGTTTATGCTATATTCATCTTCCAGGGTCTGCGGAGGCA
TGGGCATCCTGGTGAAGGAAAAGTTCGACCCTGAGCGCCCCCCACAGACC
CGCGCTTCGTTCTCTCTTAGAAACCCCGACGAGGTCCAGTTGTTCTTGTC
GGCGCTAGTGTCGTACGCTACGGCGGCGGGAGCCCAAGCTCCGGCCGCCG
TGAGCGCAGCAACGTCATGACGAAAAAAGACCTGCGGCTATTTCAGGGCC
AGGTTGAGTTTTATAACACTCCGTGAGCTGGTTTGGTCTGGTGTGTTTGT
TGGTTGGAATGATGGTGATGGTGATGGCGGTGCTAGTAGTGGTGGTGGTC
ATACACAAACGCGAAGTATGAGGATGATGACCATGATAACGTTGATGATG
ATGATGATGATGATGATGATGATGATGATGATGGTGGTGGTGGTCATGAT
AATGATGATTCAGGCGCCCCCTCCCCCCCCTTTTTTTCCTCTTATGGGAG
GGTACCCGTCTGAGGGGAATGCCCGGACGACGGATGATATTGTTTCGTGT
GATGGAAGTTTTCATTTTTGTTACGCCGTCACCGTCCCAATAGAAGGGAA
CAGACGCCCGACCTCCGCAAGCTGAGGTTAGGTCTATCTCTTGATCTCCG
CTTGAGGGCGGGCGGCGAAATCTCTCTCGTGTTGCCTAGTGTGGGTTCAG
TCGTGAGTGGCACGTGTTCCCCTAAGAAAGGTCAGGGGCCATCTTCAGGT
GAAATCCCGACCTTTGCTTGAGAGGGCTGGTCGTCGCCCGTAGGATGGAT
GAGGTATCATCGTGTTTTTCAGTCGTTGAAACAAAAAACAAATGTTTCCC
AACCTAACAAAAAGGCCCTTTTTCGACAGGCTCGGTAATTTAAAGAGCGC
ACCCGTTTTTTTTCATGTCGTATCATATAATACGACATGTTTGTATTATA
TATGTTGCCTTGTGACACACGTGTTGTTGCCCGGGTGTACGCTTAACATA
TGCTATATACAAGGAGGCGTCTGCAGCGATGCGCTACGGCAGTACAAAAA
TATGAAAGGACTGTTTTTTGTTTTTTCGAGGAGGAGCGGTAGCTTTGTTT
TCCGCACAGCAGCGGTGGTGCTTGGAAAGGCGTGAAAGGATGTTTTTTTG
GGAAGGGGGGGGATGGAGCGCTGCGGCTGCAGGGGCGCAAGGTTATTTGC
GGGGAGGACTTGGCGGCAATGACGGTGAGCTTGAGGACAGAATGAGTTAT
TTAGTGGGAGGGAACGGGGGCTTGGTGGCACCAATAGAGAACGTGGGGAT
TAAATGGGGACATCAGTCGGGGGGGACGGGACTAGCCAGGGGTGACACTA
GGATGAAAGCGTGTTGCTGCTGTCCTCACTAGCGTAGACTGGAGCGTGAG
GACGCTTGCGGGCAGGATATGTAGGGGGGGCGAGAGTGGTGAACGAAACG
GGCTGCTGAAGGAGGGTATGATGGTGCACCGCGTCCAGGTGTGTGGCGAG
AGGAGCTTGGTTCGCGCCTGGGAAAAAAATTGAGCTCGATGGAGCAACTA
ACTGACGATGGAAGACGAAAATCAGGGACTTTCGGTTTCGATGGAAACGC
GCAAGTACGCGCTTGCATGCAGCATGTGTGCTCACATGCCCTGATGAAGG
CAGCAGGAGAAGAAGGGAGGCAGAAGCAATGTTTCGTTGTTTGTCTGCTG
GGCCGATCCTCCGCGTTTTTTTTGTCTTTTGACAGACGCGCCGCTTGACA
GATGTATGTATGGATAAGTTCGTTGCCACAAAAAACTCATGATATCTTCC
ATTTAACTCCCTGCACGTGATACAAG

Coding sequence (CDS) from alignment at P-littoralis_Contig143:65615..87390+

>mRNA_P-littoralis_Contig143.4.1 ID=mRNA_P-littoralis_Contig143.4.1|Name=mRNA_P-littoralis_Contig143.4.1|organism=Pylaiella littoralis U1_48|type=CDS|length=942bp|location=Sequence derived from alignment at P-littoralis_Contig143:65615..87390+ (Pylaiella littoralis U1_48)
ATGCCGACAGCAGAGGCTGTGGCTGCGGAGGGAGGAGAAGGAGGAGCAGC
AGCTGCCGTGGCAGCAGCGGCCTCGAGTAGCTTGCATAAACTGAATGCCC
TCGAGAATTGGGAGCAACTCCGGCCGCTGATGGACAACAAGCAGGTGGTG
GTGTTCTTGGACTACGACGGGACGTTGTCGCCCATCGTGGACCAGCCAGA
TAAGGCATTTATGAACGAGGGGATGCGCCCCGTTCTCGCCCAGGTGGCCT
CGGTTTTTACGACAGCAATCGTTACCGGGCGCAGCAAGGACAAGGTGTAC
AACTTTGTCGGACTAGACGACGTGTTTTACGCGGGCAGCCACGGCCTCGA
AATCCAAGGCCCGTTGGCTAGGCCGGTCAGGTGCCAGATGGCGGAGAACA
TGAGGCCAACCCTAGAAGCCTGCACGGAAGCGCTGCATTCGCTGCTCGCC
CACGTCCCCGGCTACGAGATTGAGGACAACAAGTTTTCCCTTAGCGTCCA
CTATCGCCAGGTTGCATCCCCGGCACACGTTGACGAGGTCCACAAGATAG
TTCACGAGTACATATCCGAGGCACCGGAAATCGTGGTCAAGGCGGGCAAG
AAGGTGTTGGAACTTCGCCCCAAGGTTGACTGGAATAAGGGCAGTGCCGT
CAACTGGATCCTGGATGCGTTGGACTTGGGACACCGGGCGGATGTGTTTC
CCATCTATCTGGGGGATGATATCACGGATGAAGACGCCTTTGTCGCCATG
GAAACCCGGGTCTGCGGAGGCATGGGCATCCTGGTGAAGGAAAAGTTCGA
CCCTGAGCGCCCCCCACAGACCCGCGCTTCGTTCTCTCTTAGAAACCCCG
ACGAGGTCCAGTTGTTCTTGTCGGCGCTAGTGTCGTACGCTACGGCGGCG
GGAGCCCAAGCTCCGGCCGCCGTGAGCGCAGCAACGTCATGA