mRNA_P-fluviatile_contig10.710.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview


Name	mRNA_P-fluviatile_contig10.710.1
Unique Name	mRNA_P-fluviatile_contig10.710.1
Type	mRNA
Organism	Porterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)

Homology

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: D7FXK0_ECTSI (Palmitoyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FXK0_ECTSI)

HSP 1 Score: 291 bits (745), Expect = 8.920e-86
Identity = 206/345 (59.71%), Postives = 225/345 (65.22%), Query Frame = 1

Query:  148 MVGPDWRIGAWTFVSIPIVTVGWACLILFGAPEDGGGTIRMIIVAIGGAIALLTMACYLCTACTDPGIVFKPQAATLSNLSERQXXXXXXXXXXXRIADMASAGAGTPVPYGXXXXXXXXXXXXXXXXXXXQWG--EGKAAAAAG--WETLEDVEAQQMLEILTEDYRDGFSSRGAVPPAVTAAAPARGAATDGVGAGVLMGLPPEECAAAVDAGSTAVADMRN----------DLPRQEGXXXXXXXXXXXXXXXXXXXXXXXXXGAATVCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVCVWSLVVYVLVXXXXXXXXXVYNGL 1140
            MVGPDWR+GAWTFVSIP  TVGW CLI+FGAP+DGG  +R IIVAIGG +AL+TMA YL TACTDPGIVFK  A  +                   +A   SAGAGTPVP GXXXXXXXXXXXXXXXXXXX     EGK A  AG  W T EDVEAQQ+L+ILT+DYR+G  S      A  AAA                GLPPE+CAAA DAGS AVADMRN            PRQ G                          +AT+CGRCQIERPPGAVHCT CGVCV+KLDHHCPFMGQCVGRKTLV FY+FVV VW L+VYVL+XXXXXXXX VYNGL
Sbjct:    1 MVGPDWRVGAWTFVSIPAGTVGWGCLIIFGAPDDGGDMLRTIIVAIGGGLALVTMAFYLSTACTDPGIVFKHTATPVRGTPAAGHGPRGSGGRSALLA--LSAGAGTPVPTGXXXXXXXXXXXXXXXXXXXXXXAEEGKEAQGAGATWGT-EDVEAQQILDILTDDYREGAKSHEV---ATVAAAE--------------EGLPPEDCAAAADAGSKAVADMRNVPXXXXXXXXXXPRQRGATVGGGD-------------------SATICGRCQIERPPGAVHCTLCGVCVQKLDHHCPFMGQCVGRKTLVPFYLFVVSVWFLIVYVLLXXXXXXXXVVYNGL 306

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: A0A2D4C2P6_PYTIN (Palmitoyltransferase n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4C2P6_PYTIN)

HSP 1 Score: 82.8 bits (203), Expect = 6.980e-14
Identity = 32/64 (50.00%), Postives = 50/64 (78.12%), Query Frame = 1

Query:  907 AATVCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVCVWSLVVYVLV 1098
            +A +C +CQ+ RP  A HC  CGVCVRKLDHHCP+ G+C+GR+TL+ FY+F+   W++ +++++
Sbjct:  150 SAVICAQCQLRRPKDASHCADCGVCVRKLDHHCPWTGKCIGRRTLMLFYLFL---WAITIHLVI 210

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: M4BNT3_HYAAE (Palmitoyltransferase n=2 Tax=Hyaloperonospora arabidopsidis (strain Emoy2) TaxID=559515 RepID=M4BNT3_HYAAE)

HSP 1 Score: 78.6 bits (192), Expect = 9.260e-13
Identity = 28/52 (53.85%), Postives = 42/52 (80.77%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVCV 1071
            VC +C++ RP  A HC+ CGVC+R+LDHHCP+ G+C+G++T+  FYVF+ C+
Sbjct:  118 VCAQCEVRRPLDASHCSDCGVCIRELDHHCPWTGKCIGKRTIKLFYVFLTCI 169

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: D7G1J4_ECTSI (Palmitoyltransferase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G1J4_ECTSI)

HSP 1 Score: 77.4 bits (189), Expect = 9.650e-13
Identity = 32/59 (54.24%), Postives = 44/59 (74.58%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVCVWSLVVYV 1092
            +CGRC ++RP GA+HC  C VCV K DHHCP+ G+C+G K +  FY+F+ C+ SL V+V
Sbjct:   80 LCGRCDVKRPAGAIHCNECNVCVTKFDHHCPWTGKCIGEKNIRFFYLFLGCL-SLHVFV 137

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: A0A6H5KUF9_9PHAE (Palmitoyltransferase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KUF9_9PHAE)

HSP 1 Score: 78.6 bits (192), Expect = 2.020e-12
Identity = 29/51 (56.86%), Postives = 39/51 (76.47%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVC 1068
            +CGRC ++RP GA+HCT C VCV K DHHCP+ G+C+G K +  FY+F+ C
Sbjct:  152 LCGRCDVKRPAGAIHCTACNVCVTKFDHHCPWTGKCIGEKNIRFFYLFLGC 202

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: G4YVS6_PHYSP (Palmitoyltransferase n=1 Tax=Phytophthora sojae (strain P6497) TaxID=1094619 RepID=G4YVS6_PHYSP)

HSP 1 Score: 74.7 bits (182), Expect = 6.000e-12
Identity = 29/48 (60.42%), Postives = 38/48 (79.17%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVF 1059
            VC +C++ RP  A HC+ CGVCVR LDHHCP+ G+CVG++T+  FYVF
Sbjct:   69 VCAQCELRRPQNASHCSDCGVCVRGLDHHCPWTGKCVGKRTIKWFYVF 116

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: A0A6A3F387_9STRA (Palmitoyltransferase n=3 Tax=Phytophthora TaxID=4783 RepID=A0A6A3F387_9STRA)

HSP 1 Score: 75.5 bits (184), Expect = 1.660e-11
Identity = 29/48 (60.42%), Postives = 39/48 (81.25%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVF 1059
            VC +C++ RP  A HC+ CGVCVR+LDHHCP+ G+CVG++T+  FYVF
Sbjct:  138 VCAQCEVRRPLNASHCSDCGVCVRELDHHCPWTGKCVGKRTIKWFYVF 185

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: W2Q3B8_PHYPN (Palmitoyltransferase n=13 Tax=Phytophthora TaxID=4783 RepID=W2Q3B8_PHYPN)

HSP 1 Score: 74.3 bits (181), Expect = 3.660e-11
Identity = 28/48 (58.33%), Postives = 38/48 (79.17%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVF 1059
            +C +C++ RP  A HC+ CGVCVR+LDHHCP+ G+CVG +T+  FYVF
Sbjct:  132 ICAQCEVRRPLNASHCSDCGVCVRELDHHCPWTGKCVGERTIKWFYVF 179

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: H3H6V6_PHYRM (Palmitoyltransferase n=2 Tax=Phytophthora ramorum TaxID=164328 RepID=H3H6V6_PHYRM)

HSP 1 Score: 73.6 bits (179), Expect = 7.620e-11
Identity = 28/48 (58.33%), Postives = 38/48 (79.17%), Query Frame = 1

Query:  916 VCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVF 1059
            +C +C++ RP  A HC+ CGVCVR+LDHHCP+ G+CVG +T+  FYVF
Sbjct:  138 ICAQCEVRRPLKASHCSDCGVCVRELDHHCPWTGKCVGERTIKWFYVF 185

[Close]

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Match: A0A6G0X8K6_9STRA (Palmitoyltransferase n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0X8K6_9STRA)

HSP 1 Score: 72.4 bits (176), Expect = 1.680e-10
Identity = 26/51 (50.98%), Postives = 38/51 (74.51%), Query Frame = 1

Query:  907 AATVCGRCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVF 1059
            A  +C  CQI RP  A+HC  CGVC+  +DHHCP+ G+C+G++T++ FY+F
Sbjct:  125 AGILCAHCQIRRPAEAIHCYECGVCIDGMDHHCPWTGKCIGKQTIMWFYLF 175

The following BLAST results are available for this feature:

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot

BLAST of mRNA_P-fluviatile_contig10.710.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FXK0_ECTSI	8.920e-86	59.71	Palmitoyltransferase n=2 Tax=Ectocarpus TaxID=2879...	[more]
A0A2D4C2P6_PYTIN	6.980e-14	50.00	Palmitoyltransferase n=1 Tax=Pythium insidiosum Ta...	[more]
M4BNT3_HYAAE	9.260e-13	53.85	Palmitoyltransferase n=2 Tax=Hyaloperonospora arab...	[more]
D7G1J4_ECTSI	9.650e-13	54.24	Palmitoyltransferase n=1 Tax=Ectocarpus siliculosu...	[more]
A0A6H5KUF9_9PHAE	2.020e-12	56.86	Palmitoyltransferase n=1 Tax=Ectocarpus sp. CCAP 1...	[more]
G4YVS6_PHYSP	6.000e-12	60.42	Palmitoyltransferase n=1 Tax=Phytophthora sojae (s...	[more]
A0A6A3F387_9STRA	1.660e-11	60.42	Palmitoyltransferase n=3 Tax=Phytophthora TaxID=47...	[more]
W2Q3B8_PHYPN	3.660e-11	58.33	Palmitoyltransferase n=13 Tax=Phytophthora TaxID=4...	[more]
H3H6V6_PHYRM	7.620e-11	58.33	Palmitoyltransferase n=2 Tax=Phytophthora ramorum ...	[more]
A0A6G0X8K6_9STRA	1.680e-10	50.98	Palmitoyltransferase n=1 Tax=Aphanomyces euteiches...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-fluviatile_contig10	contig	P-fluviatile_contig10:1367476..1379655 +

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
OGS1.0 of Porterinema fluviatile SAG_2381	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	291.2
Seed ortholog evalue	6.9e-76
Seed eggNOG ortholog	2880.D7FXK0
KEGG ko	ko:K16675
KEGG Pathway	ko04391,map04391
EggNOG free text desc.	protein-cysteine S-palmitoyltransferase activity
EggNOG OGs	COG5273@1,KOG1311@2759
EC	2.3.1.225
COG Functional cat.	Z
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko00001,ko01000
Hectar predicted targeting category	signal anchor
Ec32 ortholog description	Zinc finger, DHHC-type, palmitoyltransferase
Ec32 ortholog	Ec-28_001990.1
Exons	7
Model size	3835
Cds size	1119
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622815379.8947675-UTR-P-fluviatile_contig10:1367475..1367499	1622815379.8947675-UTR-P-fluviatile_contig10:1367475..1367499	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 1367476..1367499 +
1693561661.734511-UTR-P-fluviatile_contig10:1367475..1367499	1693561661.734511-UTR-P-fluviatile_contig10:1367475..1367499	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 1367476..1367499 +
1622815379.9830625-UTR-P-fluviatile_contig10:1376963..1379655	1622815379.9830625-UTR-P-fluviatile_contig10:1376963..1379655	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 1376964..1379655 +
1693561662.0085125-UTR-P-fluviatile_contig10:1376963..1379655	1693561662.0085125-UTR-P-fluviatile_contig10:1376963..1379655	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 1376964..1379655 +

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


Feature Name	Unique Name	Species	Type	Position
1622815379.904344-CDS-P-fluviatile_contig10:1367499..1367591	1622815379.904344-CDS-P-fluviatile_contig10:1367499..1367591	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1367500..1367591 +
1693561661.9324079-CDS-P-fluviatile_contig10:1367499..1367591	1693561661.9324079-CDS-P-fluviatile_contig10:1367499..1367591	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1367500..1367591 +
1622815379.912979-CDS-P-fluviatile_contig10:1372337..1372423	1622815379.912979-CDS-P-fluviatile_contig10:1372337..1372423	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1372338..1372423 +
1693561661.9439535-CDS-P-fluviatile_contig10:1372337..1372423	1693561661.9439535-CDS-P-fluviatile_contig10:1372337..1372423	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1372338..1372423 +
1622815379.9246762-CDS-P-fluviatile_contig10:1373145..1373390	1622815379.9246762-CDS-P-fluviatile_contig10:1373145..1373390	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1373146..1373390 +
1693561661.954092-CDS-P-fluviatile_contig10:1373145..1373390	1693561661.954092-CDS-P-fluviatile_contig10:1373145..1373390	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1373146..1373390 +
1622815379.9370947-CDS-P-fluviatile_contig10:1374091..1374253	1622815379.9370947-CDS-P-fluviatile_contig10:1374091..1374253	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1374092..1374253 +
1693561661.9634838-CDS-P-fluviatile_contig10:1374091..1374253	1693561661.9634838-CDS-P-fluviatile_contig10:1374091..1374253	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1374092..1374253 +
1622815379.9481473-CDS-P-fluviatile_contig10:1374761..1375029	1622815379.9481473-CDS-P-fluviatile_contig10:1374761..1375029	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1374762..1375029 +
1693561661.9732857-CDS-P-fluviatile_contig10:1374761..1375029	1693561661.9732857-CDS-P-fluviatile_contig10:1374761..1375029	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1374762..1375029 +
1622815379.9590015-CDS-P-fluviatile_contig10:1376050..1376204	1622815379.9590015-CDS-P-fluviatile_contig10:1376050..1376204	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1376051..1376204 +
1693561661.9832807-CDS-P-fluviatile_contig10:1376050..1376204	1693561661.9832807-CDS-P-fluviatile_contig10:1376050..1376204	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1376051..1376204 +
1622815379.9704428-CDS-P-fluviatile_contig10:1376851..1376963	1622815379.9704428-CDS-P-fluviatile_contig10:1376851..1376963	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1376852..1376963 +
1693561661.9994364-CDS-P-fluviatile_contig10:1376851..1376963	1693561661.9994364-CDS-P-fluviatile_contig10:1376851..1376963	Porterinema fluviatile SAG_2381	CDS	P-fluviatile_contig10 1376852..1376963 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-fluviatile_contig10.710.1	prot_P-fluviatile_contig10.710.1	Porterinema fluviatile SAG_2381	polypeptide	P-fluviatile_contig10 1367500..1376963 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-fluviatile_contig10:1367476..1379655+
coding sequence from alignment at P-fluviatile_contig10:1367476..1379655+

protein sequence of mRNA_P-fluviatile_contig10.710.1

>prot_P-fluviatile_contig10.710.1 ID=prot_P-fluviatile_contig10.710.1|Name=mRNA_P-fluviatile_contig10.710.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=373bp
MMSDFADTREPYHWCCCGGIKRLDNHWLLWGRPTSRFPLQGMVGPDWRIG
AWTFVSIPIVTVGWACLILFGAPEDGGGTIRMIIVAIGGAIALLTMACYL
CTACTDPGIVFKPQAATLSNLSERQQQQGGGGGGGGRIADMASAGAGTPV
PYGGGSSPSGKGGATVAVAGGGQWGEGKAAAAAGWETLEDVEAQQMLEIL
TEDYRDGFSSRGAVPPAVTAAAPARGAATDGVGAGVLMGLPPEECAAAVD
AGSTAVADMRNDLPRQEGGDDEEEEQGGGGSSLPGVGGGGGAAGAATVCG
RCQIERPPGAVHCTRCGVCVRKLDHHCPFMGQCVGRKTLVTFYVFVVCVW
SLVVYVLVAVAYLVVAVVYNGL*

mRNA from alignment at P-fluviatile_contig10:1367476..1379655+

Legend: UTRpolypeptideCDS

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

>mRNA_P-fluviatile_contig10.710.1 ID=mRNA_P-fluviatile_contig10.710.1|Name=mRNA_P-fluviatile_contig10.710.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=12180bp|location=Sequence derived from alignment at P-fluviatile_contig10:1367476..1379655+ (Porterinema fluviatile SAG_2381)
GCTCAGCGGCGCTCAGGGCGGTAAATGATGAGCGACTTTGCAGATACCCG
TGAGCCTTACCACTGGTGCTGTTGCGGCGGGATTAAAAGGCTGGACAACC
ACTGGCTGCTCTGGGGGTGAGCCATCACAGGATGAATCGTCGTTTTGTAT
TCGGCGAGATTTGAATTGCCAAGACTTCCTCCACAACGCCAGCGTGAACG
AGTTCCGTTCTCAGTCAGTGTGTGCCTGCTGCATATTTTCAGCACTGTAG
ACCATAACCACATGACATGGAGTCTAAATGTTGTGTTTTGTTGCGTGTTT
CGAATCCGCTTTCAGATTGTTTATCCGCAAAAAGTCTTGTGCCGTGACCA
GTCGGCAACACGGCATGGCTACAGCGTGAAAGAGTCAATCAGCCGAAAGT
TGGCGTCCACGGTCGAGTACGTAACGACCGTCTTCCAGCGACGCGGTTTG
AGTTGTCAGACCAAAGCGATCAAGTTTGTTGCCGAGTACGCGCCTACCGA
CGTGAGAGACGGTAGCGCCAAGAACGCGTTCTGGGATAGTCTCGCCGCAC
TCGTGCGTCGGATCCCATGGATCCCATGTCGGATCCCATCGCAAGAGGGG
TGTACTCATAGTCGTGCATGCCGTAGTCGTATGACCATTGACCTCGCATC
CCTACAAAGCCGGGACGGAGCACGCCGGGTTCTCACCGGACCAGGCTCTC
ACACCACCAAGCGCGAAGCGCCGTGAGGTATTCGGCGAGTCGCTTGAAGG
GTGCGCTGCATCCTGCTAAGGGTGTTCGGCATCTTGTGCTTACTTCCTTG
CATACGGATGACAGCTGCGTATGGCTTAATTTATTTTCTGGTGCTTTCAC
TTCCAGAGACAGTTGTAAGCACTGTGTAACTGCCTCGAGGGTGTTTGACC
ATTTTAACACAACGGTGCGACCATCCCCCTTGCGCGGAGTGAGGGTTCTC
CACTCCGCACAACATGATCTTCTCGACCACCATTATGGTTACCGCCAAAA
AAAACAGAGGAAAAAACGACGGTAACCTGGTTGCCGAGTTCACGAAGTGA
ATTGGCTTGTTTTAAAACGTCATTGCCAAGCGACGAAAACCCAATCCCGA
TGGCAAACACCGAGGTGAGAGCCAGCGGGGCATCAGGTGGTCGTCGCAGG
AGGTCGTCGCAGGAGGGGTTGAATGTTCTTGTGAATGCCAACGCGAGGAC
GGGGAACAGGATGGACGATGAGCACAGCCACGAGGGGGTGTTGGGCCCCT
ACGGACTTGATCAGCTGAATGACAACGGTGCACGGCTTCTGGAAACAGCA
AACTTGCCCTCACGGAGGACCTTCTTCCGCAGGCGTAAAGGCGGAGTTTC
GCACATGTATAACGGCGTAGCAGCACACGCGACGGACCAATTCAAGCGCG
TAGACTTTATCCTCACGCGGCAGATACACCGGGGCAGAGAAGAGGACATC
AAGATGAATCCGCAGCCAGTGTACCTGCCGAAGGTGACTCCAACCACAAC
ATGGTAGTGGCTTTCATCAACCTTGGGGGCCGACTAGACCACGAGCGCCC
GAATCGGCTCAAGTCGGCGCAACACCAGGTCAGTCAACAACTACTGAAGT
TCGCGGGGAACCGCCACCTAGTCGCCGAGAGATTCCACCGTAACCTTGCA
GGGCATGCAGACCCGATGGCTACGGCTCCGGAGGCCGCGACAGCTGTCGC
AGCGGCTCTACTCGGAGCGTCACAGGCGGTGCTGCCGCCAGGGAGACGCG
CCCCGCGTCTGCCGGAGTGGTGGCTAGATCCTGAGGTAGTCGCAGTGGTG
TATGCAGCACTTGCCAGGAGACGGGAAGCCCGCCGACGATTTAAGAACAA
CCATAACGTGTCGACGTGAAAAGAGCTGAAGGAAGTCTGCAAGGAAGGTA
TTAGTCGCCAGTTCCACGATGGCATGCGTGCATAGGTACGGATTGACAGT
GGGGATCTCTCTGATTGGTCCGGCGTGACCCAAGGGCTTCGACAAGGATG
TGTGCTCTCCCCGCTGCTGTTCAGCATCTTCTTCGTGGCGGCGATCGATG
TGGTGCTGAGGCGATCCACGGAGGGTGCCATCATTCTGCGGGAGCTGGTC
CGACTCATCGAGGACAGGGGACCGGGACCGACCGTGGAGTCACCCCTCGA
AGTCATTTGTCGAGCGGTGTGGGGGATGCTCTATGCCGACGACATGGGAG
TTGTGTCGAGGTCATCCGAGGGATTCGCTAGGATGATGACGGTGGTCGTG
GAGGTGTTCGTGGCGTTTGGGTTGACAGTATCGGAGGAAAAGACCGAGAC
CCTCGCGATGCGAGTACCAGCGAAGAAGGCGAGGCAATTGAAGGGGGTAC
CACCGCCCCCCCCCTCCCCAGCTGGTGGTCAGGGCCGTAGGCCAGACCTA
CGCACACATCAGCAAATTCGGTATATGGGGGGCGTGATTACCGAAGACGG
AGAGCTTATGTCCGAGATCCCTGGCCGGAGCGCAGCCGCCTGGGAATACA
TCCACAGGTACAAACGCGAAATCTTCGACCGACCGGGGGCACCGTGGAGC
CTGAAGGTCCGCTTTCTGGAGGCAGAAGCGATAGACGCCCTCTTGTACGG
GTGCGTGACGTGGGCACCTAGCGAGGAACACGAACAGGAACTGAGGAAGA
TGACCACAGGCCCCTCCTGCGAGTGATCGGGTACCGTCGCCCAACGCGGC
ACCAATCGGCAGCTGTCGTTCGCCAAAGCAATGGAGGAGACCGACAGTCA
GAGCGTCGAGGCGATCATCCGCCAACGGCAACTTCCGTTCGCGGGAGCTC
TGGAGGTCCGAGCCAGCGGACGGCTCCCGAAGCGGCTCCCAAAGCGGCTG
ATGAATGGAACTTTGGTGAAGGGGACGAAGCCGGGTCGCGGCCGGCCGCC
GCAGAACTAGGAGATGGCGAGGAAGGACAATCTCAAAATGCTGAAAGCTA
CGGCTGGGTCCACCGAGGACAGGCCGTTGGTGTTCGGGGTTGCCGGCGGC
GACTGGAGGGTGGAAGCGAAGAGAGGGGGAGGGGATGTGGCTCAAGGGAA
TGATGGAAGCGGGCGTACGGTTGATGGAAGGGCACGTGAAGGAGGAAGAA
ACCAGCAAAGCCCGAGATCAATAGAAACAAGGCGGAGTGAGAGACAGAAG
CCGAGATATTGAGAGGAGCCGGAAAAAACTGAGTGATGATTCATCCCCAT
GATTGGATTCTGTCGCTGTGGGTTACCTTGTGCCCTCATTTTTTTTTGCG
ATTTTGTTTCATTTTATTTATTTTTCGCTTCTTCTGCCACTCTCCTCCGC
ATTGATTTTTCCTGTTTTGTTTTGGTAACTTCTCGCCCCCCGCTGCCGGG
TACCCGCCCTACCGTGGGCGGCATGTGTCAATTTGTAGGGGAGGGAGGTG
CGCGGCCGGTGAAAACCCGAGCTCGTAGCAAGAAGAGTACTCGGGCATAT
CCCGGGGACGGGGACAAGCAGTTTCTTGTTTAATTGTTTTTGCGGTGGAA
AGGAGAACAAAACTTGAAGCATGTCGGATAGACGCTGCTGCGCCCACGTG
ATAATTGAGAAGAGGATATTGGGTTGCTTTGTTTTTCGTTGTGTCTTCTC
ATGTACTTCGCTTCGCATGGTGCTAAATATCCGGTACCGATTTTTCTTTT
TATGGTGGAACCCCATTCGAAAGCGGGATCACCATCGTTATTTTAGCCTG
TGACCACGGAATTGTTTCCCGACAGGATAGGATACGTACACTTGGAGGTG
CCAGGAGTGAGAGGAGGGGGGGATTTAATGGGAAGACAACACACACACAG
CATCCCAAGGCATCCGTCCCATTCCCTTGTCAACCGTGAAGTAGAATTTT
GTATATAGGGAGTTTTCAGATTTTCTCGTTTTCACCCAAAAAATGCAAAC
TTTTCACCCTCACCGGGATTCAATTTCACGACTTTGGTGCCAGTGGGTTT
CGAGGTTACCCACTAGACCACCGGGGCGACTGATTCACGTGCAATGAATG
CAGAGTGAAAATCATCCCTGCCCCCTCGTTCAGTTCCGCCGCCAACTCTA
CGAATGGCGCCACGCGCCTTGCTTCCAAAGCGCACCCTCGCAATCCGCTC
TTAGACTCATGGCTCCTGCAACAACACGAATCTGCTTTTGTAGTGTTTGT
AGTGTACATGCTACGGCTGGTTTGAAAAACTTGCACGACGACCTGAGTGC
AAGGTGTCTGCGGACGGGTGCTGAGGATTTCGCGGTCTTGCACAGCTTGA
AGTCGTGGTTTTCAGTTTCAAGTTGTACAGGGAAGAAACAAGTAAGGTAA
ATTCGCCCGTCGGCCATTTCACCGAGTTTGTCCTTGCACACGCCTCCACA
GCGGCAAGAAAATGCAACCAGCGGATCAGAGTTAACACATACAGGCCCCA
AAAGCGGGAGTCGGCTCCAGGAGGGGGGCAATAGGGCTTTTGTATCTGAA
CTTTCGCTCCGCGTAGACTCTTCACCAAAACTTTACGAGTCGACGGAGAA
TGACGTTCCAGAGAGGAACGGTTTGTACGTACACTTCGGTCGAGAAACGG
GCAGCCGATGTGTTCGGTTCATGATTTGCGTCCCTGGCTCGTCGCCACAT
CGCATGCTACGTGGGCGCTCACATTGCTGCCATGCATGTCATGATTAGTC
GTTGGACCGTTCAACTCGCTCGCTCCCAGCATGTAGTCTTGTTGCGTCCT
TCACCTCTTTCACCAAGAAAGTTGTACGTGTTTTTCCTGTGGTGACACTA
CACCTCCCCGCCCTCCGGCCCTCCCGCCCTCCCCCTTCCGCTGAACGACG
TAATGTGAAATGGCGTGACGTGAAACGAAATGACGTGACACGACATGACG
TGACACGAGCAGGCGGCCAACAAGCCGTTTCCCTTTGCAAGGCATGGTTG
GCCCCGACTGGCGGATCGGTGCGTGGACGTTCGTTTCGATCCCTATAGGT
GAGCTGAATCGTGTGCTCGTGGCACCTACCGGTTGCCTGTTCGTCCAGCT
CATATCTGATAAGGGGAGGTGAACATCGCGCAGCCAAGACGAATCAGATC
GTTGGGCAAAAACCGTCTTCGGGCAGGTTGTCGGTAGGTGGCTTTTCGTG
GTCCCTTAAGGAGAAGAGAACTTAATACGTTAGGTCGATCGCCGTCCCAT
CTAAGCGCGAGAGAAGGATCAATGTTTCACAGTACACAGAACGAAAGAGT
TCGCCGACTGTCGGTCTAGATTTTCATTTTTTTTTTGCGATGCTTGGCTG
TGCACGAGTAAATTGCGAAACGAAAACAGCTGTAGCCAGCTGACATGCGG
GTTTCAATTCACGCACAGGAGTATCTTGGAATGGGCATTGAGATCGCAAC
ACCCTTGCCTCTGTCCAAATATACAGTTCAGTTCGCCAATCCCTCCCTGC
TGTTGAGAGACCCGTTGAGTCGTCGCCTTCCGATCTTGGCAACGGCCTGC
GTTTTGATTGGGGGTTTTCGAGTAGTTTTGAAGTACTTTCACGAAGCGTT
CATCAATGTCGTGATCAGCAAAAAGCAACAACAATAACAACAAAAACAAT
GACAACAACAACAACAAAAACAACGACAACAACAACAGCAATAACAACAA
GAACAACAGCAATGATAATGACGACGACGACAACAATCGTAGAAACACGG
GGGCTCATTCGCGTGCGCAGTCACCGTCGGTTGGGCGTGCCTCATCCTGT
TTGGAGCACCGGAAGACGGAGGCGGCACGATCCGGATGATCATCGTTGCC
ATCGGTGGGGCCATCGCCCTGCTGACGATGGCTTGCTACCTCTGCACCGC
GTGCACGGACCCCGGTATCGTGTTCAAGCCTCAAGCGGCGACTCTGTCAA
ACCTGTCGGAGCGGCAGCAGCAGCAGGGCGGCGGCGGCGGCGGCGGCGGG
CGAATCGCCGATATGGTCAGTCGCCGTCCATCTATTGTTTTGCGATGCCG
TATGTTGTTTGTCATACCTGGGTGTCGTGCGGTGACGGTGAGAACAAGGT
GGGGCGATAGCGGCGGTGGCGGAGATTGAAGGGGAGGTAAGAGTTATCTC
TGCCACCATGCCGGGCTGTTGAATATGTGACAATTGCTTTCTTCAACAGG
TGCAGTGTCCGGTGTGACTGAAGTTGTGGGCGAGGGTTATTACGGGTGAG
ACGTCGGGGGGGAGGTAGTGTCGCGTGATCAGATGAGGGCAGCATGACTC
CGCGACGTGGTACGCCCTATCTTGAATAGGCCAGTACGACGAGCGAGTCA
GCAGACGCCGGAACATTGAAGCCGAAGCCGACGAGGCGGATCCACGTGCT
TTGCAGAATTCAGTCTCCCTTCCCCCTCGCCGTCGTCCGTAGTCTTCAAA
TGAACAGACAGATGGGTCACGAAAGTTAGAACGGTTACACGGTACGATGG
TGTCGAAGGCTGTGGCACATGCAAAAAGAAAGGAAAAGAAGCCAGTACGC
GAAACGGTGAGAGCAGTGCATTCAGCCCCTTGTCGCGCCACCCCCCCCCT
CGGTCCGCCCCTACCCCTGCGTCCACCCCTCCCCCTTCTCCTACTCGTGC
GCCCAACTCCATCATCTACCTCATGGCCTCTGCACCTTCGTACACCGCTG
TCCGTGTGGTGTGCAGGCGTCGGCAGGGGCCGGGACGCCGGTACCATACG
GCGGCGGATCGAGCCCGTCAGGCAAGGGCGGGGCGACGGTGGCGGTGGCC
GGCGGAGGCCAGTGGGGGGAGGGAAAGGCCGCCGCGGCGGCGGGTTGGGA
GACACTTGAGGACGTTGAGGCGCAGCAGGTATGCGGCAGAGGAGGGGAGG
GGGGGCTGGCAAGGGGGCCCCGCGGGCGCGAGATCGGCAGGCTGTGATGG
GAGGTCCGCATAAGGATCACGTGCTGCTTCCTTTTTTTTTGCCGTTGCCG
AACCCGCCGCGGAGTGTGTAAGAAGCGGCAGCCGCTGCGGACGCATGCTT
CAGAGGAGTAAGACGTGTGCATGCAACCGCAGCGTAGATGATCCTTGGGG
GGTGGAGGGTGCGAGACGCTGCGGCTGCGCAGATGAAGCCCGAGAGGGGT
TGATTGAGCGTGTGCATGCAGTCCCTTGGAGCGTGTCCGTGCAGCTGCTG
CGACCGCACAGCTGGCGTGTACGCGATGGTGCTGGATTTCCACTCAGCAT
GCGCTGGTACAGGGCGTTGGTAATGTTTGGTGCGTGTGCCTGTATGTGAG
TTGCTTAAGTGAATCCAAGCAACGTGTTGAGAATCGCCATGCGCGAGTCG
CTGCCAAGAAAATATTCAACTCGCGCGCAACCACAGATGCTCGAGATTCT
GACGGAAGATTACCGGGACGGATTCTCGTCGCGCGGGGCTGTGCCCCCAG
CCGTGACTGCCGCCGCCCCCGCTAGAGGGGCCGCGACTGATGGCGTCGGG
GCCGGGGTACTCATGGGGCTGCCGCCAGAAGAATGCGCCGCCGCTGTGGA
TGCCGGGTCGACCGCTGTGGCCGACATGCGGAACGATCTCCCCCGCCAGG
AGGGGGGAGACGATGAGGAAGAGGAGCAGGGCGGGGGAGGGAGCTCGTTG
CCGGGTCTTCGGCAGCTGCAGGTGCACCGGCGGCTGCTGTGTTTTGTCAT
TTCTTGCGTCGGTTTTTATTGACGGGCTTTATTTGCTTCGCTTCCCCTGT
TTTTGCTGTTTGTTTTCTATAGTCGGCTATGGAGTACGTCCTCGGCCACG
TGTAGGAGACAGTTGTTCATCAAGAATGACTAGTTCGTGTCACGGGCAGG
CGGGGTGGCTTCGCGGAACTCACCGGAGCGAAGGCGAGGAAAGAGAGAGA
CAGAAAAGTGGCATAGAAGGGGGGAGAGAGCGAGAACGAGAGAAGGCGAG
AAGAAGGTGCGGATGGGAGAACACGAGCAAGAGAGAGAAAGAGTTGGCGC
GGGGGCGCGACAACACATATATTCTTAAGACGACGCCATGGCGATCCATC
CATAGTTGATCGGATCGCTGAACTCGTTGTAGGGGGGCTCTCTGATTGCG
GTCGTCAACGCTTTGAGGACACCAAATTACGCACGTCCCGCTGCAAGGGC
ACTTTTCTTTCTTTTTTTTCTTTTATTTTTTCTGAAGCAGGGGTCATGAC
GAGTCCACTTCCACTGCATCTCAAGAACATTTCCCGGCGCGTGTTAGGCA
CTGGAAATATTAAGAAGTGCTTGGTGTCCTTACAGCGGGGATGGCTGCAT
CTTGGCACATTCACAGGTGCTGAGTGTATTGTTCCGGCGGGACGGTGCGC
AAAAGTATGAGCGACTCTTTAACGTTTATTGGCCGCGCGGATATCATCAG
AGTCACGCTTCTTCCCGATCTGTATGCTCAGCACACGGCAAGCGGGACGG
CTGAATAAGGTCGTAAGAGGAGCCGAACGCAAGAGAGACCGCAGGTACAT
GGATCGTCAACGCACTCCTTGCGTTATCGCGTTAGTTGTGGAAACAATCG
CCTGCACACGCGGGTAACCATGCAGCAAAAATCTCAAACGTCCCTTTGCG
CACTAAATCGCCCCACTCTCGCCCGCCGGCGGTGCCGTTGCGTGCCTCGA
CAGGTCTGGGGGGGGGCCGCGGGAGGTGTTGGTGGCGGGGGAGGCGCAGC
GGGTGCTGCGACGGTTTGCGGGCGCTGCCAGATCGAGAGGCCCCCAGGAG
CGGTCCACTGCACCCGTTGCGGGGTGTGCGTGCGGAAGCTGGACCATCAC
TGCCCGTTCATGGGTCAGTGCGTGGGAAGGTCAGTGACCACACCGCCTAT
CCCATTATTTCTTCGGCCGCCGTTTTTTTTTTTTTCTGGGCAATCGCAGC
CGTCGCGTGTGGATCGCCCCTCCATGCCCCATGAGGAAGAAGTTGCAAGC
TGGTGCTGCCTGGTGACCAACAATAATGTTTAGAGATGTTTCGTCCACGG
GGACACTCGAGATAGCTATCCTCTTGTGAGGTCCCCCTCACACATTTTTG
AGTATTCACTGTTATTCCCTGTCTGCTCAGAGGATGGCTTGACAAGCGAG
AACGTCCGTCACAGAATGTGATGGCCTCAGACATTCCAGGTTCCACCGAC
ACAGGGAATTCAACGAAAGTTCGGTGATTTGACGGTCGCCAAAAGAAACA
CAGTAAGGCGCCGACTTACTTTGTGATGCGAAATGTGGTCAATCCTTTGG
CGGTATTTCTTTCTGCTGTTCTTGAGAAGTATGGAGAATATCCATGAGGA
AAGCGCCCGTGACACCCGTGGTGGCCATTCTTCCTCCCTCCCCTTGACTC
CCTCTTTCTCCCTCCTTCCCCGCCCCCGTGCCCCCCCTGTCGCCGTCTCC
TCAAATCGTCGTTCTTTTGTTTCGGAAATCGTCGTTTTTTTGTTTCGGAA
ATCGTCGTTCTTTGATTTTTTGGCAGGAAAACCCTGGTCACCTTTTATGT
GTTTGTCGTTTGCGTGTGGTCCCTCGTGGTATACGTGTTAGTTGCCGTAG
CGTACCTTGTCGTTGCTGTCGTGTACAACGGCTTGTAGTCCCCCGCCTCT
TTCCCTTTTGACACCCCGGATCCCACTCCCAGCATCCCTCTAGAGGAGAG
CGAAGCAGCACGTATCTGTCTCGGAGTTTGGAAAGCACCATTGACATCGG
TTGAGTAGCTGGAAGAAGCGGAGACGCCACTTCGGCAGGGGCCCCGGCCC
TTCGGTGTCCAGCGCTATCACGTGCCTGCCTGAGCGTGCTCACAACAACG
AGGGGGGTCGTGGGGGGGGTTCGTCCTCTCGGATGGGACTGGGACGGTTC
TTGTTGTCTTGCCGAAATGCGGTTGTGATGGCACGTGCCGACGTCTACGT
GGCTATCGATGACAGATTTTGAGGCAGCAAGTATCAACTTCTCTAGAGGC
GGAGCAACGGAGAACGAGAGGCTTTCGCGCGCGCGTCGGTCTATCCGCAA
CTGGAGGAGACGACAAGCAGGAAAGGGTGATTGCGTGTCCGCCGTTTATC
AATGCGCAGCCCAGCCCTGGCGCCTTCCGTTTCAAGGGCACCGCCGTAGA
AAAGCCAAAGAACAGCCGGCCTGGATGTCGAGAGAAAAGGCTTTTTGCGC
GCTCATACTACGGCACACGCCCGCCGGCCAATAATGTCGTGCGCCGCTCG
TTTTCTCTCGAGACCAGGCTGGTTCTCTGAAAAAGTTCTCCCATTTTGCG
AGCACCGCCATAGGCACGTTCAAGACTACTCTCGGGTATCGAGAGAAACG
TGTCGTGCACGTACTGTCGTAGCGGCAGGCGCGCGCGCGCGCCGTGGTGC
GGTCGTCCTACCCCTTGCGTGGCGCGAGCCACCGGCGTAGGGGGGGGGGG
TGTTCGTTTACATCCCGTCGGTTTCATAGGGCCGGGGGAACAAGCAGGCG
GGTTGCTTGTTTTCCTCAGTTTTGGTTCTTGTGCAGAATAATAGTGGGAG
CACGCAGACCTTCCCTTTCCTTCCCGCATCGATTGTTGTGCAGGGCAGCG
GGAGCAAGCAGGGAGGCAGGCGGATTGCTAGTTTCTCCGCGTGTTGGTTG
CTATGCAGGACCTCGGGAGGCTTTGCCAACCATCCCTGTTTCGTGTCCGG
GTTTATGAAGCCCGCCGGTCTTGTGTGTGTACAGCGGTCGGTTCCCCTCT
ACCACCGACCTGACCTAGAAACAACACGATTTCATTCCGCGCTGCACTGA
GAAGGGATCCCCGAGCGGGGCGCGGGGGGGTCGGGTTTGGGGTGAGTCAT
GCGCCTTGGTGTGTGGGAGAAGATAGGCATCTGCCTAGTCTTGTTGGAGT
ACCGTCGCCATCTGCTTGCGGTCATGCCTTGCCGTTGTCTGAGCAGGGCC
GACGGCCGGGGAACGTATTGTTTGTTTCTTCCACAAGTCATGCCTTGTCC
GGGGAACGTGTGTAGCTGCTGTGAGTGGTGTTTGTATCGTGTGCGCTCCT
GCCTCGCGAAGTTGGTGCTTGGGTTTTAAAGCAGCGTATTTGCCTGTTTG
CGTTAGGGATCTGCCTCTCGTGCCGGCGCCTCGCTCGTGCTTACATCCAA
TCAAAATTGTGCGTGGGATGTAAGGGCCTCTCAGTAAACAAAGGTGACAT
TTGTTAGATTTCGCATGTGTCCTTTTTCGTGTTCCATGGGATAGTACGCT
GCTGTGCACCCGTCCGTGTGGTATGAACGTCGCGCGCACCTTAGTCACTC
CGTGCGCGTGCTCGATATCGGATACCATACGTGTTTGTGCGTGTGTTTGG
CTGGTTTGCCACGTGGAAGTGTCCCGTCAGTGAATCTCCCCCTGTCCAGT
GTGCCCCCGAGCTCCGACGGAAACCTTGCAGTCTTCCTCGTGGACTTGGT
GTCGTGTTTTTTGGAATCTACTTTTGCCTCACCCGTTTTTTTTCAAGCTG
CCCGAGGGATTCTGACCGCAAGGCAAGTAACGACGCCGGCCTACTCGGCG
TAGAAATACACATTCATGCTTGCGTTGCCGCCAAAGACTCTTACGAGACA
TCTTTCACAACGAACGCCCGTCCGGCGCAGCTTCGCCGACGCCGCTGCCG
GCACAGTAGCCGCGTCCGCCAACGACGCTGATCAGAACACACGAAGTGTC
AGGACCGGGAAACCTCGACAGAATTACGACATAAGCGCGGTCGCACCCGC
CGGATCTATCGAGCAGACGTCAAACACGACCCGCTGGTCGCGCTGCTGCT
GCTGCTGCTGCTGCTGCTGCCACTGGAGCCCCCGTCTCCTCCGCCCAGCC
CCTCTCCGTCCAGACGGGACCAGCAACCTAGCCCTCGTCTCCTTGCAGTA
GCACGACGACTCGCCCTGCCACCGTCGTCGCCCCTCGACGCCTGCCTCCT
CCTTCTCCCCCTCTCCGCCGGTCCCGGTGCCGTCGCCTTTGGAACAGCCG
CGGCCGGTGGCGGTGACGGCAGCGGCGGCGGCGGCGGTGGCACTTTCCAT
CGCGGCGAAGCCCGCGTTCAGGTGCGCGGTATCGGGGTCCACCGAGCCCA
CCGCTCTGAACAACGGCTTGCTTTCTACGTGCAGCGAGGTGCCCTCGGCA
GCATCACCCTCCCTGCCGCCGTCACGACCATCACAAGCGGCAGTGCTATC
GCCGCTGTTCTTCTCCCCGCCGCCCGCCCCGCCGTTGGGTACCATTGCCG
CGCCCCCCGGCCCGGCTCCGCGCTCTGTGTCTTCGGCTTCGTTGCCCCCT
TCATCGTCGGCACGGCCCGCGGTGCCGGCC

Coding sequence (CDS) from alignment at P-fluviatile_contig10:1367476..1379655+

>mRNA_P-fluviatile_contig10.710.1 ID=mRNA_P-fluviatile_contig10.710.1|Name=mRNA_P-fluviatile_contig10.710.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=2238bp|location=Sequence derived from alignment at P-fluviatile_contig10:1367476..1379655+ (Porterinema fluviatile SAG_2381)
ATGATGAGCGACTTTGCAGATACCCGTGAGCCTTACCACTGGTGCTGTTG
CGGCGGGATTAAAAGGCTGGACAACCACTGGCTGCTCTGGGGATGATGAG
CGACTTTGCAGATACCCGTGAGCCTTACCACTGGTGCTGTTGCGGCGGGA
TTAAAAGGCTGGACAACCACTGGCTGCTCTGGGGGCGGCCAACAAGCCGT
TTCCCTTTGCAAGGCATGGTTGGCCCCGACTGGCGGATCGGTGCGTGGAC
GTTCGTTTCGATCCCTATAGGCGGCCAACAAGCCGTTTCCCTTTGCAAGG
CATGGTTGGCCCCGACTGGCGGATCGGTGCGTGGACGTTCGTTTCGATCC
CTATAGTCACCGTCGGTTGGGCGTGCCTCATCCTGTTTGGAGCACCGGAA
GACGGAGGCGGCACGATCCGGATGATCATCGTTGCCATCGGTGGGGCCAT
CGCCCTGCTGACGATGGCTTGCTACCTCTGCACCGCGTGCACGGACCCCG
GTATCGTGTTCAAGCCTCAAGCGGCGACTCTGTCAAACCTGTCGGAGCGG
CAGCAGCAGCAGGGCGGCGGCGGCGGCGGCGGCGGGCGAATCGCCGATAT
GTCACCGTCGGTTGGGCGTGCCTCATCCTGTTTGGAGCACCGGAAGACGG
AGGCGGCACGATCCGGATGATCATCGTTGCCATCGGTGGGGCCATCGCCC
TGCTGACGATGGCTTGCTACCTCTGCACCGCGTGCACGGACCCCGGTATC
GTGTTCAAGCCTCAAGCGGCGACTCTGTCAAACCTGTCGGAGCGGCAGCA
GCAGCAGGGCGGCGGCGGCGGCGGCGGCGGGCGAATCGCCGATATGGCGT
CGGCAGGGGCCGGGACGCCGGTACCATACGGCGGCGGATCGAGCCCGTCA
GGCAAGGGCGGGGCGACGGTGGCGGTGGCCGGCGGAGGCCAGTGGGGGGA
GGGAAAGGCCGCCGCGGCGGCGGGTTGGGAGACACTTGAGGACGTTGAGG
CGCAGCAGGCGTCGGCAGGGGCCGGGACGCCGGTACCATACGGCGGCGGA
TCGAGCCCGTCAGGCAAGGGCGGGGCGACGGTGGCGGTGGCCGGCGGAGG
CCAGTGGGGGGAGGGAAAGGCCGCCGCGGCGGCGGGTTGGGAGACACTTG
AGGACGTTGAGGCGCAGCAGATGCTCGAGATTCTGACGGAAGATTACCGG
GACGGATTCTCGTCGCGCGGGGCTGTGCCCCCAGCCGTGACTGCCGCCGC
CCCCGCTAGAGGGGCCGCGACTGATGGCGTCGGGGCCGGGGTACTCATGG
GGCTGCCGCCAGAAGAATGCGCCGCCGCTGTGGATGCCGGGTCGACCGCT
GTGGCCGACATGCGGAACGATCTCCCCCGCCAGGAGGGGGGAGACGATGA
GGAAGAGGAGCAGGGCGGGGGAGGGAGCTCGTTGCCGGATGCTCGAGATT
CTGACGGAAGATTACCGGGACGGATTCTCGTCGCGCGGGGCTGTGCCCCC
AGCCGTGACTGCCGCCGCCCCCGCTAGAGGGGCCGCGACTGATGGCGTCG
GGGCCGGGGTACTCATGGGGCTGCCGCCAGAAGAATGCGCCGCCGCTGTG
GATGCCGGGTCGACCGCTGTGGCCGACATGCGGAACGATCTCCCCCGCCA
GGAGGGGGGAGACGATGAGGAAGAGGAGCAGGGCGGGGGAGGGAGCTCGT
TGCCGGGTGTTGGTGGCGGGGGAGGCGCAGCGGGTGCTGCGACGGTTTGC
GGGCGCTGCCAGATCGAGAGGCCCCCAGGAGCGGTCCACTGCACCCGTTG
CGGGGTGTGCGTGCGGAAGCTGGACCATCACTGCCCGTTCATGGGTCAGT
GCGTGGGAAGGTGTTGGTGGCGGGGGAGGCGCAGCGGGTGCTGCGACGGT
TTGCGGGCGCTGCCAGATCGAGAGGCCCCCAGGAGCGGTCCACTGCACCC
GTTGCGGGGTGTGCGTGCGGAAGCTGGACCATCACTGCCCGTTCATGGGT
CAGTGCGTGGGAAGGAAAACCCTGGTCACCTTTTATGTGTTTGTCGTTTG
CGTGTGGTCCCTCGTGGTATACGTGTTAGTTGCCGTAGCGTACCTTGTCG
TTGCTGTCGTGTACAACGGCTTGTAGGAAAACCCTGGTCACCTTTTATGT
GTTTGTCGTTTGCGTGTGGTCCCTCGTGGTATACGTGTTAGTTGCCGTAG
CGTACCTTGTCGTTGCTGTCGTGTACAACGGCTTGTAG