mRNA_P-littoralis_Contig1065.19.11 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig1065.19.11
Unique Name	mRNA_P-littoralis_Contig1065.19.11
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: A0A2P4PZD0_RHIID (AIG1-type G domain-containing protein n=7 Tax=Rhizophagus irregularis TaxID=588596 RepID=A0A2P4PZD0_RHIID)

HSP 1 Score: 63.2 bits (152), Expect = 2.020e-6
Identity = 41/104 (39.42%), Postives = 58/104 (55.77%), Query Frame = 1

Query:  205 SSEMPHVLLIGATGAGKSTLANLLL-YDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGR 513
            +++ P VLL+G TGAGKSTL NLLL     +G F  G    S T   K ET  +DD    + DTPGI D NR  ++   +++ K +    + + AI+I+   GR
Sbjct:    4 NTKYPVVLLMGKTGAGKSTLGNLLLGAPHKKGPFATGSRMDSITQECKAETMLIDDVPYNIVDTPGILDPNRG-TIPILNEISKTINKCAHGVKAILIVSEVGR 106

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: A0A397IIX3_9GLOM (AIG1-type G domain-containing protein n=1 Tax=Diversispora epigaea TaxID=1348612 RepID=A0A397IIX3_9GLOM)

HSP 1 Score: 60.8 bits (146), Expect = 8.520e-6
Identity = 42/147 (28.57%), Postives = 74/147 (50.34%), Query Frame = 1

Query:  205 SSEMPHVLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGRNDERVYRDMRAL--------MKHFNTL--PCGKIMVFRSTLPPR 615
            +  +P +L+IG TGAGKSTL N L+ D  +  F VGH + S T    +    +   + +V DTPG+ DT R       +++ + +++  + + AI+ ++   R  E     ++ +        ++HF  +   CGK + F   LPP+
Sbjct:   33 NDTLPSILIIGKTGAGKSTLGNYLMVDKKQS-FEVGHSQESATITSSSLITKIGGEYFKVVDTPGLFDTKRTNE-EIINEITRAIQNCAFGIKAILFVLQFTRISEEEKTVIKIVKGFLGEDTLRHFIIVFSKCGKPLTF---LPPQ 174

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: A0A2T7NS47_POMCA (AIG1-type G domain-containing protein n=1 Tax=Pomacea canaliculata TaxID=400727 RepID=A0A2T7NS47_POMCA)

HSP 1 Score: 56.2 bits (134), Expect = 1.270e-5
Identity = 32/65 (49.23%), Postives = 42/65 (64.62%), Query Frame = 1

Query:  223 VLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNR 417
            V+L+G TGAGKS+L N  L +D    F +G G +S T   +   A +DD  LQVTDTPG+ DT+R
Sbjct:   11 VVLLGKTGAGKSSLGNTPLGEDK---FEIGRGLSSGTEVCQNAHAELDDMCLQVTDTPGLCDTHR 72

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: A0A397U8Z1_9GLOM (AIG1-type guanine nucleotide-binding (G) domain-containing protein n=1 Tax=Gigaspora rosea TaxID=44941 RepID=A0A397U8Z1_9GLOM)

HSP 1 Score: 57.0 bits (136), Expect = 4.340e-5
Identity = 40/101 (39.60%), Postives = 53/101 (52.48%), Query Frame = 1

Query:  217 PHVLLIGATGAGKSTLANLLLYDDP--EGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGR 513
            P +LL+G TGAGKSTL NLLL D P  EG F+V     S T        T+D     + DTPGI DT+ K     Y ++ K ++   Y + AI+ +    R
Sbjct:   19 PVILLVGKTGAGKSTLGNLLL-DQPYDEGPFIVSDRMDSCTQICAESEVTIDGQKFNLVDTPGIFDTS-KPDEEVYKEIAKIVQKCAYGIKAILFVFEAKR 117

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: UPI0011767CEE (GTPase IMAP family member 7-like isoform X2 n=5 Tax=Salarias fasciatus TaxID=181472 RepID=UPI0011767CEE)

HSP 1 Score: 59.3 bits (142), Expect = 4.510e-5
Identity = 36/118 (30.51%), Postives = 66/118 (55.93%), Query Frame = 1

Query:  211 EMPHVLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGRNDERVYRDMRALMKHFN 564
            E   ++L+G TG+GKS+LAN++L +D    F V H   S TS  ++ET  V D  + + DTPG+ DT  K+      +++K + +    ++A +I++   R  E+    +  + ++F+
Sbjct:  105 ESKRIVLLGKTGSGKSSLANIILGEDL---FAVDHSSVSGTSTCQSETRDVSDRKITLVDTPGLFDTKMKEEA-LKPEIMKCITECAPGIHAFLIVLKVERFSEQEQAVISRICEYFS 218

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: UPI000D739B11 (GTPase IMAP family member 4-like n=1 Tax=Pomacea canaliculata TaxID=400727 RepID=UPI000D739B11)

HSP 1 Score: 58.2 bits (139), Expect = 5.110e-5
Identity = 33/74 (44.59%), Postives = 47/74 (63.51%), Query Frame = 1

Query:  196 NAPSSEMPHVLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNR 417
            +A  ++   V+L+G TGAGKS+L N LL +D    F +G G +S T   +   A +D+  LQVTDTPG+ DT+R
Sbjct:    2 SAGDTKEIRVVLLGKTGAGKSSLGNTLLGEDK---FEIGRGLSSGTEVCQNANAELDNMCLQVTDTPGLCDTHR 72

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BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: J4HYF6_9APHY (G domain-containing protein n=1 Tax=Fibroporia radiculosa TaxID=599839 RepID=J4HYF6_9APHY)

HSP 1 Score: 57.8 bits (138), Expect = 9.640e-5
Identity = 31/77 (40.26%), Postives = 47/77 (61.04%), Query Frame = 1

Query:  196 NAPSSEMPHVLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKS 426
            + P++E   ++++GATG+GKST ANL    D    F VGHG  S T  ++ ET  +D+  + + DTPG  DT R ++
Sbjct:    5 HPPTAEPKLIIIMGATGSGKSTFANLATGAD----FRVGHGLQSCTETIQQETLQLDNEVVTIIDTPGFDDTERPQA 77

[Close]

BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Match: A0A397U9J4_9GLOM (AIG1-type guanine nucleotide-binding (G) domain-containing protein n=1 Tax=Gigaspora rosea TaxID=44941 RepID=A0A397U9J4_9GLOM)

HSP 1 Score: 55.8 bits (133), Expect = 9.860e-5
Identity = 40/105 (38.10%), Postives = 54/105 (51.43%), Query Frame = 1

Query:  217 PHVLLIGATGAGKSTLANLLL---YDDPEGGFVVGHGEASETSNLKTETATVDDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGRNDE 522
            P  LLIG TGAGKSTL NLLL   YDD  G F+V     S T   +    T+D     + DTPGI DT+ K     + ++ K ++   + + AI+ +    R  E
Sbjct:   15 PVTLLIGKTGAGKSTLGNLLLGRPYDD--GPFIVSDRMNSYTQVCRESEMTIDGRKFNIVDTPGIFDTS-KPDEEVFKEIAKTVQKSAHGIKAILFVFEAKRFTE 116

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot

BLAST of mRNA_P-littoralis_Contig1065.19.11 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 8


Match Name	E-value	Identity	Description
A0A2P4PZD0_RHIID	2.020e-6	39.42	AIG1-type G domain-containing protein n=7 Tax=Rhiz...	[more]
A0A397IIX3_9GLOM	8.520e-6	28.57	AIG1-type G domain-containing protein n=1 Tax=Dive...	[more]
A0A2T7NS47_POMCA	1.270e-5	49.23	AIG1-type G domain-containing protein n=1 Tax=Poma...	[more]
A0A397U8Z1_9GLOM	4.340e-5	39.60	AIG1-type guanine nucleotide-binding (G) domain-co...	[more]
UPI0011767CEE	4.510e-5	30.51	GTPase IMAP family member 7-like isoform X2 n=5 Ta...	[more]
UPI000D739B11	5.110e-5	44.59	GTPase IMAP family member 4-like n=1 Tax=Pomacea c...	[more]
J4HYF6_9APHY	9.640e-5	40.26	G domain-containing protein n=1 Tax=Fibroporia rad...	[more]
A0A397U9J4_9GLOM	9.860e-5	38.10	AIG1-type guanine nucleotide-binding (G) domain-co...	[more]

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig1065	contig	P-littoralis_Contig1065:51487..69255 -

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	588596.U9US76
Model size	5621
Max annot lvl	588596.U9US76\|-
Hectar predicted targeting category	other localisation
Exons	9
Evalue	1.79e-06
EggNOG OGs	2DBAT@1\|root,2S5HK@2759\|Eukaryota,3A1P7@33154\|Opisthokonta,3P4IR@4751\|Fungi
Description	AIG1 family
Cds size	939
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig1065.19.11	prot_P-littoralis_Contig1065.19.11	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig1065 67230..69042 -

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


Feature Name	Unique Name	Species	Type	Position
1680789397.2003858-UTR-P-littoralis_Contig1065:51486..52803	1680789397.2003858-UTR-P-littoralis_Contig1065:51486..52803	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 51487..52803 -
1680789397.2099676-UTR-P-littoralis_Contig1065:53005..53093	1680789397.2099676-UTR-P-littoralis_Contig1065:53005..53093	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 53006..53093 -
1680789397.2217295-UTR-P-littoralis_Contig1065:53518..53733	1680789397.2217295-UTR-P-littoralis_Contig1065:53518..53733	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 53519..53733 -
1680789397.2305224-UTR-P-littoralis_Contig1065:53971..54146	1680789397.2305224-UTR-P-littoralis_Contig1065:53971..54146	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 53972..54146 -
1680789397.2409332-UTR-P-littoralis_Contig1065:58531..58676	1680789397.2409332-UTR-P-littoralis_Contig1065:58531..58676	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 58532..58676 -
1680789397.2512543-UTR-P-littoralis_Contig1065:64700..67229	1680789397.2512543-UTR-P-littoralis_Contig1065:64700..67229	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 64701..67229 -
1680789397.3019342-UTR-P-littoralis_Contig1065:69042..69255	1680789397.3019342-UTR-P-littoralis_Contig1065:69042..69255	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig1065 69043..69255 -

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


Feature Name	Unique Name	Species	Type	Position
1680789397.2607353-CDS-P-littoralis_Contig1065:67229..67697	1680789397.2607353-CDS-P-littoralis_Contig1065:67229..67697	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig1065 67230..67697 -
1680789397.2710242-CDS-P-littoralis_Contig1065:67899..67987	1680789397.2710242-CDS-P-littoralis_Contig1065:67899..67987	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig1065 67900..67987 -
1680789397.2826366-CDS-P-littoralis_Contig1065:68421..68636	1680789397.2826366-CDS-P-littoralis_Contig1065:68421..68636	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig1065 68422..68636 -
1680789397.2914736-CDS-P-littoralis_Contig1065:68874..69042	1680789397.2914736-CDS-P-littoralis_Contig1065:68874..69042	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig1065 68875..69042 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig1065:51487..69255-
coding sequence from alignment at P-littoralis_Contig1065:51487..69255-

protein sequence of mRNA_P-littoralis_Contig1065.19.11

>prot_P-littoralis_Contig1065.19.11 ID=prot_P-littoralis_Contig1065.19.11|Name=mRNA_P-littoralis_Contig1065.19.11|organism=Pylaiella littoralis U1_48|type=polypeptide|length=313bp
MPHVLLIGATGAGKSTLANLLLYDDPEGGFVVGHGEASETSNLKTETATV
DDCFLQVTDTPGIPDTNRKKSLRFYDKMIKYLRDDTYHLNAIVIMVAEGR
NDERVYRDMRALMKHFNTLPCGKIMVFRSTLPPRCSDNTRKLKDIEAKKT
MDKLCREAGLKDITQYMLHDMDDREVKILRNLICQMPDKSKDELQLRTYS
QIKQHAKKLSDQQTRMEALRDELNDLSERRTASEASARKYRDAAIGTAFI
PFVGAAISAAMTVEMGKAEATVRSISHDMHRMQGELDRGQVDQGELRKAR
EEFDELDALSRG*

mRNA from alignment at P-littoralis_Contig1065:51487..69255-

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig1065.19.11 ID=mRNA_P-littoralis_Contig1065.19.11|Name=mRNA_P-littoralis_Contig1065.19.11|organism=Pylaiella littoralis U1_48|type=mRNA|length=17769bp|location=Sequence derived from alignment at P-littoralis_Contig1065:51487..69255- (Pylaiella littoralis U1_48)
CGTTGATGACGGATGCCCTACAGGTGGCGTCGTGCACGTCTGTATTCATC
TGCAAATGTCGGAGGGCAAAGGATATACTGGTGAACTATACTTCTTTCGC
CTCATCGTGGTTCCGGGTTTGGATTTGCAAACGCTTGACCCATCCCTCGT
CGATTTCTCCCGGTGCATTATCCCGGTTATCCTGTGCGTTGTTGAAATGC
GCCGAGCAGTGAGATGCCGCACGTTCTCCTCATCGGCGCGACTGGCGCGG
GCAAGTCCACGCTCGCCAACCTTCTACTCTATGATGACCCGGAGGGTGGG
TTCGTTGTTGGTCACGGGGAAGCGTCTGAGACCAGCAACCTGAAGACGGA
GACGGCCACGGTGGATGATTGTTTCCTGCAGGTACTCGGCGATACGTGTT
GGTAGCCAGATGATGAATAGCCTCGAGATGCGCAGAGAACAGCTGCCGGA
TGATTGAAAGGATCGTCTTGCAGTAAGTAGTACGTCAATACGCGAATGAT
TAAGGTGGACAAGGTACAAACGCGCCCTGAAAGTTTGCTCTTCCAATGCT
TTGGAGTCATTCCCGTTAGGGTGAACGTTTTCCATTCTTTGCCGACGAAA
CTTGAACATTATCACCCAGGTGACCGACACTCCTGGTATACCAGACACCA
ACCGTAAAAAATCCCTCCGGTTCTACGACAAGATGATCAAGTACCTGCGC
GATGATACCTATCACCTCAACGCCATCGTCATCATGGTCGCCGAGGGGAG
GAACGACGAGCGGGTGTACCGGGACATGCGGGCCCTAATGAAGCACTTCA
ACACGCTACCGTGCGGAAAGATCATGGTGTTCAGGTACTGCTGTAGTATC
GTACTTCTATTTCACAGCATCGTTCTCGGTGTGTCTGGGTGATCCGTTGG
GCAGAATGCCGCAGATGCTGATACATGAGTACCACCAATGTAAGATAAGA
TGAACCACGAAACAATCTCGCTGGAATCCTCAATGGTATTTCATTTGGAA
ACGTTCACGCCATTCGAATTGACATACTCCGAGTATACGTTATTCAGATT
GCGCAATGTTCCACCGATGTGCATCCGAAATGAGTCTTCTGCGGGCATGC
TTCATCCGGCCTTGCGTTGCAAGTGTGTAGCTTTTGTATCGTGGGCTGCC
GAATTTGGGTATGTATGTTACCTGTCGGGGGTTGCAAGAGCCACCCCGAC
TTTTCTTGCGCCCCGGGTGGCAGTAACATCCCCCAACTCCTGTTCTGGTG
GATACGCTCGGTGCGCAGGTCGACCCTCCCGCCCAGATGCAGCGACAACA
CCCGGAAGCTCAAAGATATTGAGGCCAAGAAAACAATGGACAAACTCTGC
AGAGAGGTGAGCCATTAGCACAGATGTGGGAAGAGTTTCTTGCGCGTGCT
GAGATGCCGGCCCTGCTTCGCTGGCTGAGGCATCTTCTAGCCAAAGAGGC
TGTCGTTGGAATCTCGTGCGCTCACCCAACGCATTGTTCGAGCAGGAATT
CCATACCCTTTTTGTCCTTGCACATTGCGATGCCCCGTTCGACCTCCATG
TTGATCAGGCGGGACTAAAAGACATAACGCAGTATATGCTGCATGACATG
GACGATCGCGAGGTGAAGATATTGCGCAACCTCATCTGCCAAATGCCGGA
CAAATCCAAGGACGAGCTGCAACTGCGCACCTACAGCCAGATCAAACAGC
ACGCTAAGAAACTGAGTGACCAGCAAACTCGGATGGAGGCCCTTAGGGAC
GAGCTGAACGACCTCTCCGAGCGTAGAACCGCCAGCGAGGCGTCCGCTAG
GAAGTATCGTGACGCTGCCATTGGTACAGCATTCATACCGTTTGTGGGGG
CCGCGATTTCAGCAGCCATGACTGTGGAGATGGGGAAAGCCGAAGCTACG
GTTAGGAGCATTTCCCACGACATGCACCGTATGCAGGGAGAACTGGACCG
GGGACAAGTTGACCAAGGAGAACTCCGCAAGGCCAGGGAGGAGTTTGACG
AGTTGGATGCTCTTTCCCGCGGGTGATCAACTGCGGATGATTGTTGCTGC
GAGGGTTGGTGGGAGCGTGCCTTGCACAAGCGGTATACTTGGCGTTCGGC
GTATTTCAAACTCCTGGAGTTTGTCAATATCGTGTGAAGCTCACCAACGA
TGAAGGGCGAGTCAGGCTCCGACATTGTGATGCCTGTCTTTGCTGGTTTT
TATTGTCGGGGGCGTGTGTTCCGGACTGGCCGTGGTTGCAGGGTAGTGAG
AGTTCCTCAGATAGAGTTCTTCTTGGGTTTGCTTCGGACCCTCGCCGATA
CTTCGCATGATGGTTTTTGGACGAATGAGGATCAGTTGGCATCTATGTAT
CCTTCGATCGGCTGCAGCATTTTTGGGTAGTTCCAGGATGGGTATTCGAC
GAATGGCGATCCACTTGGCATGTATTTGTCGATCGGAGGCGGTGGTTGAA
GGGGGCTGACAGTTTCCTCTGATGCTTTTCGTATTGGGTTTTCCTCCGAC
TTTCGACAAAGTTGCTGCATGGGTTTCAGGCGGACGAGGATCTTTTTGGC
ATGTCTTGATGGGCCGGCGGGTGGTTGCAGGGCGGTGAGAGAGTTCCTCT
GACGCTTTTCGGGTTGGGGTTTGTCTTCGACTCACGGAAATGTTTTTCCT
GGATGGGGTTTGGATGAATGAGGATCATTTCGGCAGTTTCTCCTTACAAG
AATCATGAGGGGCGGGAGATGATGGGTCGTTCTCCTTGATGCAGGAAATT
TCATGTTATGCATACAACATCTGCGTTATGTAAGTTTGCATTTTTGATTT
TTCGTTGGCCTTGGCCATACCTCAGGGGGCAGGAGGGCTGAAGGTTAAAG
GACTATATTTATTGTGATACTGTAGATCATCAGCAGTACATGTTTGATAA
GTACATGGCTTGCAGTGCAGGATTGCTGACGTGGGATCTTGGGTGCTTGC
GTTTTATTGAAGGTTGGATTTGGCATGAACTGATTGGTAATGGTTGGGGC
CCTTGTGCTTTCCGAACGCCTTTTTACTGGATGGGTTTGGGAGGAATGAG
GATCGGTTTGTCATGTATGCGTTGATCGACGGCGGCAGTGTTGAATGGTG
GTGAGAGTTCTTCTGCTTGCTCTGACAATTGCACCAGACCGTACTTGTAG
CGAAACATTCCAACAAAACGCAAAACGCGAATCGAAATCCGTTACCACAG
GAAATTCCGACCAGGATCCGTGCGTTAAACATTACTCGGCGCGGGGAAAC
GCACCCGTTTTGTATATGTGGTAACGGCACCGTATGTGCACTGCTCTCAA
ATTCTCAGGTATTTCTCGAAGATATATTTTTGTGGCGATCGACCGATTCA
CGACACTGCTTCGAGTTACACGAAACCATTAGATGGAGTGGCTTTCTCTC
ACACTCTAGAACGCTGTTTCATCTTGGAGTCTCATATGATTGTGTTTCGA
GCGAAATATGCCGTCTTCTCAGTCGGCGCTAAGAGGCAAACGGACACATT
GACTCAAGAATGAAGCAACACTCTCTATATACGATGGAGTACTCTGCGGG
TTGTTTCGAAGGTAGTACGCAGCGTGGCTGACATACTTTGTTAGTCATGT
ACGGAGTACATTTGTCGTCGAAGACTCTTCGTGAAATCCCGATCCAACAC
TCCCCGCCGCTGTCGCTGGCTGCTCCTCTGAGGGTAGACGAAGTGATTGG
CCATTGAATCATGCACATGAGAACATAGGGAGCGCGGTGGGCGGTAGTAG
GCAGATGAGCCCAGTGACTGAGCAGGACTGAGCTTAAGACGCCCACATCC
TGGTGTGGTTGGAGGACCCAGATTTCGGTGGGCGACCGCACAGTGGTGGC
CGCCACGGCGCATCGCGGAGATTTTGACGGTAGATTTCGATTTCGGTGGG
TCGCACCATGGTGGCTGCCGCCACGATGTATCGCGGAGAGCATAGCCTAT
AGACAAGACCGGTTTTTCGTGGTTCACCGTGGCTAACAAAGGTGTTCGCC
GTAGTTGACCACGGTGAGCCCCGCCGACCGCCTTGGCGAAATTACCAACA
GAGTAGTGAATGATATCATTTGGGGTTGAACGCGTGTTTTCCCCCCAAGG
AATATCCCAAGAGGTTTCTGAGTTTCCTGGACCGGGAACGATGACAGGAA
CAGCACTTACTTGTGTTGGAAGGGACAAAGGCGCTTCAAGTACGTACCAA
TTAGAACGCGATTCATGAGGATTTCTCGAGAACTGTTGCTCGGGTACTAC
ATAGAACGGTACGTAGGGTTCCAGAACGTTTCCGGATCATCAATCTTTGG
GTCCTGGAGACACACGGATGTACAGAACGAGCTCGCCTACCGGGCTCACT
TCCAACTATCACCTTCCAAACACAGCCAGCCATCGAGCTACAGCTCAAGA
GCAACCCACCACATCATCAGAGGCACACAAGCGACACTTTACAACATCGT
CAAGGGTTGTTCACACACTGGCTTAGCCACCAGTGATTCCACCTCTGCAC
GAGTCGCGTAATCAGCAGCATCAGGACAGCGCTACAGGTACATCCCAACA
GAGACGTGAGTCGCCGGCTGCTACATACCTTATCGCATATTACGCATGTC
GTACTACGCGTTGTGAGGCTATTGCCATATGTAGGCGTGTAGGCGGTCGT
GAAGTGCATCACAAAGAATGAAGCCGTTCGTTGTGAGCAAAGCACAATAT
TTTAGCTTCAAAGCGAAAAAATGGCGACCGGGTAGGCTCACACCCGCCCG
AATCTCAAGGCCCGTGCCACTGCCCGTGTCATCCTCTGCGTATTCTCGAG
GTTAGCAAGGAACGTTCACTCGAGGCCAAAATGTGATTGATGTGATTTGG
CTGCATGCCACAGTTCTCTTGTTCTTCCTCGCGTTTTCACCGCGCCGGAG
GATTGGAATAAATGAGGAGCAGGCCGTAATGCCGTCTCGTGGTCCTACAA
CTCTGTCAGCGCACCAGAGAACATCTTTTACTAGAGAGTACTAGGTTTTT
TTTATACTAGGTTTTACTAGTTTATTTTTTTTTTACAACCCGCGCGAAGT
GCGGGTTCGTTTTTTTTCTTCGTTTATTTTCCTCAGAAAAAAAAAAACCT
TCTTATTCTCATTTTGTTTTTTTCTCCTGCCCGTGCATGTGCGCTCAAAA
ACAAGAAAATCGCCGCTAGGGGGAGGGTTTTTGCCCGATGGCTGTCCGTG
CGTGCGTGCGTGCGTGCGCACGGATGTTAAATACACACCTTTTTGCTCAT
CACTCCCGCAATACCGAACATATTCTCGAATGAATGCCCAAGTGTACAGG
ACAGAGCTAAATTAGCACCACCTATTGCAACTTCTTTCCGCTCATTGCGT
CATGAGTTCGCCGAGATGTCTCTCGATTCGGCTGTATTTAGCTCGCCTTA
TCCGTCCCCATCCACCCGAAACAAGCACAGGAGGCATTTATTATTCTTCC
TTCTTGTTCTTGTCTGTTCCATCACATACCACACCGGTCGCCCCGGTGGA
CGAGTGGTCCCCTCGTCAACTACTAGATGCAGAGGAACGGGGGTTCGATT
CCCGGTGAATGTGTTCCTTTGCTCCTTTGAAAGCGGCTATGCTGTTAGTA
AAAGCAGATTCGGCTTCGCCGACGAGGGTAGGGACCGCGGATCCCTGCTC
GCGAGAAAAAATCTCATGCATGTACCGCAGGAGGAAGGTGGGGGTAACTC
CTCCTGTGTTGACCTTCCTCCTGTGTGACCCCGTCGATTGGCCTAGCCTG
TAGTTTGAACCGCAGGGTGCAGACTAGTGTGCCAGAGAATATGGGATGAC
ATCACATGCATCATCACAAACAACAACCCCAACGCCAGCACACGTACACC
TCACACAACGACATCTACCCCTCAAACAACGACATCTACACCTCACACAA
CGACATCTACACCTCACACAACGACATCTACCCGGAGAGAGCCAGAGTGG
GACAAGAGAGTTTGGCACAGCAGTAGTAGTAGAAGTAGTCGTGCGGCTGA
TGGTGACGGAGCGAGGCTACTGCTGCTGTAGTGAGATGGCGGTGTGTTGT
TCTATCATCTTACTCATCATATATGCGTCTCACACGGCATTACCGTATAT
GACACAAGATAACACACCCCGTGTTAGGTTTTTTGCATTCCGTATTACTC
CACAACCAGGAGGGTGCGAACATCAAATAGCCCGTCATACGAAAGCTCTC
GACGAGATCTTTCCAAAACCACCCTTTTCGGCAGTGGCACCCTCCTGGTC
GTGGAGCTATACGGAATGCAAAAAGCTTAACACGGGGTGTGTTATCTTGT
GTCATATGCGGTAGTACAGCAGTATACACACAACCTCGTCGGACCAGAGA
TATATATCTCGATCGACTGGGAGAGAAGCGGAGAGATGGGCGTGCACATC
TTGTTCCTCCGACGTACTGGTCGTACGAACCACAACATGGGCGTGCTAAG
AAGACACCTCGCACCACATCTTGTTTCTCCGACGTACTCGACGTACGAAC
CGCCACATGCACAGCGGGAACACTCACGGAACGTCCCACGGGGTGTTGTG
GTGTAACGCTTTACCAGACGGGCGGTGTGTGAGAATTACTCCGACAGTAC
ACTGGGCCAGGGACATGCCCGGGACGTGCCCGGAGACTGTTCTAGTGGAG
GATATCAGGTGGTAGGTATGTTGGTCGGTGCAAATGAACAGGGATCGACA
CCAAAGTTATACTCCGAGTATTATACAATATGCTTGGGAAGTAAAAGCCT
TCTGCAGGTATGTATTTTTTTCGGGTTTGGGTTTCAAAAAAAAAGAAGCT
AGTATTTAAGGTCCTCTAGTTCTAGTTTTTATTTTTTAGACACCGAGCGC
AGCGAGGTTCCTCACACCCGTGCATGTGCGCGCAAAAAAAAGAAAACCGC
CGCTAGGGGGAGGGTTTTTGCCCGATGGCTGTCCGTTCGTTCGTTCGTGC
GTGCGCACGGATTCTAAATACACACCTTTTTGCTTATCACTCCCCCAATA
CCGAACCGATTCTCGAATGCCCACGTGTGCAGGACAGAGCTAAATTAGCA
CCACCTATTGCAACTCCTTTCCGCTCATTGCGTGCTGAGTTCGCCGAGGT
GTCTGTCGATTCGGCTGTATTTAGCTCGCCTTATCCGTCCCTATCCACCC
GAAACAATCACAGGAGACATTTATTCTTCTTCCTTCTTGTTGTTGTCTGT
TCTTCACATACATGCATCATCGCACACAACCCCAACGCCAGCAGCAGCAC
ACATAACACGTACATCTCACACAACGACATCTACACCTCACACAGCGACA
TCTACCCGGAGAGGGCCAGAGTGGGACAAGAGACTTTGGCACAGCAGTAG
TAGTAGTAGTAGTCGTGCGGCTCATGGTGACGGAGCGAGCCTAGTGCTGC
TGTGTGTGAGGGGGGAGAGGAGCACAGACAGGTACTCCTGCTGCTGTAGT
GAGATGGCGGCAGCGATACATACACTCTCTTATTGGTTGCTTGTGGTAGA
ACGTCTCACCTGCCCCACCAAGCACCAAGCAAGGAGGTGATCTCTACTTA
CTTGCTTGCTTGTGTCTCCTGCCAGCACCCCACTTTCTTATCCAGCCTCT
ACCCTGCCAGCACCACACGTTTTTGTTATCCAGCGTCCACCTACCAGCTA
CCTGCTGTGCTGGCTGTGCTGTGTGCTCTGCTACTACCACCACTGCAGTA
CTGATGTGTGTCCTTTTTACTGTGTACCTGGTATTGATCTATCTTACACA
TCATTCATGCGTCTCAACACACATACACACATCCATCCATCCAATACATA
CATCACCGGTCGCCCCGGTGGACTAGTCGTCCCCTCGTTAACCACTAGAT
GCAGAGGAACGGGGGTTCGATTCCCGGTGAATGTGTTCTTCTGCTACTTT
GAAAGCGGCTATGCTGTTAGTAAAACCAGATTTGGCTTCGCCGACGAGGG
TAGGGACCGCGGATCCCTGCTCGCGAGAAAACATCTCACGCATGTACCGC
AGAAGGAAGGTGGGGGTAACTCCTCCTGTGTTGACCTTCCTCCTGTGTGA
CCCTGTCGATGGGCCTAGCCTGTAGTTTGAACCGCAGGGTGCAGACTAGT
GTGCCAGAGAATATGGGATGACAACAAACATACATACATACACACATACA
TACATTGTACATACATACAGCTAATGTGAGAATCAACAACAACAACAACA
TACATTCATGCAGCAGCCCCATCTCGACGTACTCCATGTGCGAACCACAA
CCTGCCCAGAAACACTCACGGAAGGTTCCACTCTGGGTGTTGTGGTGTTT
GAGGATTACTCCGATAGTACATGTGACGGAGCGAGGCTAGTGCTGTGTAT
GATGGGGGAAAGGAGCACACCACACTTTGTTATCCAGCGTCCAGCTCCCA
GCTACCTGCTGTGCTGGATGTGCTGTGTTCTTTGCTACTACCACCGGATA
AGTACTGCTGTGTGTACTTTTTTTGCTGTGTGTTGTTCTATCATCTTACT
CATCATGCGTCTCACACAGCATTAGTACAGCAGTATACACACAACCTCGT
CGGACCAGAGATATATATCTCGATCGACTGGGAGAGAAGCGGAGAGATGG
GCGTGCACATCTTGTTCCTCCGACGTACTGGTCGTACGAACCACAACATG
GGCGTGCTAAGAAGACACCTCGCACCACATCTTGTTTCTCCGACGTACTC
GACGTACGAACCGCCACATGCACAGCGGGAACACTCACGGAACGTTCCAC
GGGGTGTTGTGGTGTAACGCTTTACCAGACGGGCCGTGTGTGAGGATTAC
TCCGGCAGTACACTGGGCCAGGGACATGCCCGGGACATGCCCGGAGACTG
TTCTAGTGGAGGATGTCAGGTGGTAGGTATGTTGGTCGGTGCAAATGAAC
AGGGATCGACACCAAAGTTATACAACATGCTTGGGAAGTAAAAGCCTGCA
GGTATGTATTTTTTTCGGGTTTGGGTTTAAAAAAAAAAGAAGCTACCTGG
TAGTATTTAAGGTCTTCCAGTAATAGTTTTTTGTTGAAGAGGAAAGGCCC
GATAGGGGTGCTTTTCGTTTTGAACAAAAGCTGTTTAGAGGGATCGTGAT
GTACGTATATACGTATGTGCGAAAAAAACGGAGAAACATTGGGTGAGGGG
GGGGTGAAAATGAGCCATGCGTGTCTGTCTGTCTGTCCGATCGCCGACCA
CGAAATAACCCCAGCAGACTCGAGCCCATTTGACCATCTCAGCACCAAAT
TGCGATCTAAGACTTGTTCACAACAGGTAATATTTTTCCCGAGCTGTCCC
AACTGCTACCTTTTCAATCCGTGCTCGGTGCGTCGAATGACGAAGGCATC
TGCGCCGATATATATGTCGGAGTCACGCGTCCCCGAGCGAGGAGGAGGCT
TGTTTGTTTGGACCAGACATCAGACGTACGTAGGCTCACGCAAGAGGCAC
GTAAGACATCACCCGGAGCCAGACAAGGGAGTGTGTGTGTATGTGTGTTG
TCATCCCTTTAATTGGACGCCACTCTGCACCTTTCGGGTAGGTAGACGCT
CCAACTGGGGTCACACAGGGGGAAGTCAACACAGGTTTTTTTTTTTTTTT
TCTCCACTTCCCTCTGCGGTGCTTGCCTTTTTGGTTGAGCTTTTATCGCG
AGAAAGGGAACAGCAATCCCTTTCCCTCGTCGATGGTACGGTTGAATTTT
GTTTACTCACGAATTGATCGCTTTCCACTTTCACGCGCAATGTGAGAAAA
AGCCCCAGATCGTGTTACTGCACTGGGATTCGAACTCACGCGTGAATGCC
AGAAGGTTGCGTGGATAACCAACTGAACCACCGGGGCGACCGGAGTAGCA
GGGAGAATCACACCTAGAGCAAGAGCGAGACGGAAGCAGGATGTGCCCTA
TGCTACTACTACTACTGCTGTTAGCTATCGGCGGAGGAAGCGAGAGGAGG
GCAGGAAGAGGGTTTTGTTGGGTCGCCACTGCTTGGATAGCTTTTTGAGC
AACAACAACAACAGAAGCAGCAGCAGCAGCAGGGCCGCAGCGGCCTCTTT
CTTGGAGAGAGGTACATGGCACATGGCATAACACAACAACAACAACATAT
AGACAGACAGAAGCTGCACGCACCACCATTGGTTGGTGCAATATGTACTA
CTGTACGCCTCTCTACACTTGTGCGCGAGGGCATTGATGTATGTTGCCCT
CTCTTCGCGTTTGTCCGGCACCCATCACGTGCTGTCTCATCCTCGCGTCG
AGAGGTATTGCAACAACCCGACATCTCAACGGGTTATTGATGTTCCGCGA
CAGGGAAGAATGATATCAGTTGAAATTTTTCTGACAACCTGTGACCAGGT
GTGTGCCCCGCACCCAGCAACACATCTCTCTTACGCCAGCTCATCAACAG
CCGCGCGCTAGCCCACGAGATTCAAGGTGAGCCGAGACAGTCCTGATGAT
CAACCCATCGACAATCCCTCAGGCACCCGAAAAAGAAGTAAAATGGCAAA
GGACGTTTGGAACGCATGGAGAAAAAATGAGTTTTTGCGTCTGTCTCCGG
ACGGCGAGAAAATCCCTCTGTAGCTGGAGCGACCCTCTGTTTCTGGAGCG
AAATCACCACAACACAAGCTACAGCTCTCATGCGCTCGACCTGTTTCATC
TTTTAGGCCGTCACCTCCGTCACCGCTTTCGTTCGGGTGGGCGTGGGGTA
GTACCTTGCAGAGGGCGCTAACCCGTGAGAAGTTTTTTCATGAGAATAAA
CGCTCGCTTTCCCTTCTTACCCCCGAAATAGCATTAAAATAGGCCAAGAG
AGGTACATACCTCGATGATGATGGTGGATCCTACCCTAAAGAAGCCAATT
AACAGCCAACTGCTCGGCAGTGGCGACGAAAGAAGCAATCGTGCCTCAAC
CTACACGTTTTACGGTTGATTCTTGTCAGCGGGAGTCCATCGTAGTACTC
AATTTGGAGCGAGGTTAGTCCGCTGTGTACTCGTTGTGTTGGGCCCTTTT
TCAGGTGGGGAAGCAAGCACTCAATGTTCAAATGAGAAAATTGGTCTCCT
TTGTTTGTTGCTGTTTCTTTTGCATAAAATACTTTCGCAGCAGAGGGATG
ATGCGTGTCCTCCCTCCCGATTGAGTTAATTAAGTTGGCCACTGCCAACC
CACGCCCGCCCGAATAAAAGCAGTGAACAGAGGTGACACCAAAAGCGTTG
CGTGCACAACGAAATACAGAGGGTTCAATGGGATACATTGACTCGTTAGT
GTGACGTCAGACGACCAGCCAGGAGATCCTTCCTGGCCGGGGTACACAGA
GAGTCAGAACCGTCCCTCGGATTATTCCTCGGAGGGATATAAGCTTCCTA
GGATTCCTCGGAATGCGTGTAAGGGGCCAGACCCACTTCCATGTGGTACG
CCTACACAAATCACACCGACCGCGGTTTGCTTCCGTCTCTGTCACAGAGT
TCGCCCCTTCCCACATTTGCCCTTTTCTTCGATCACCAGAAATTCGTTTC
GTTCACACCAACCACACGGAGAGGTGAGTCTCCGGCTTCTACCATAACGC
GTCTTTTTTCATAGTACGCCCTGTGAAGCTCTGACCATGGGCTGCAGCAG
TTCTCTGTTTCCTCCTGTTTTACCGCCGGAGGATCGGAGAATATGAGGAG
AATAGAGTAGGAGATTAGGGTAGGACCACGAGATGGAATATCGCTCCACT
GTCGTCGCTAGCTCTATTTGATACCTGCTACGACCACTTACTGATATGTT
GATCCAGCAAGCCTTACCCAACCTTGCCTTGCTGACTGTAGTCCGTCCGT
GGTCAACCGGTAGTCGAGCGTTCGCCCGGGGCGCTTTAATCTTAGTTGTC
TGGGGCGGTTTATTTGTGGTCTACGCAGACGTCTCACGAGATGGGCAAAG
TAATACTCCCTCCGTCCGGAAGTAAGTGTAAGTCGGATTTGACGTTACAG
TAGGGCCAAAGATATCTCTTGAAAAAGCGCTAATCATCAGGTAGCGCGGT
CGGTTCCCGGTCACCACACCCTTTTTTTCGATATTTGTTTTCTTGTTGTC
AACATTTTTCCTTCGTCTTTGCCCCTTCAATTTACTCATTTTTGCCACTC
TTCATTAAGTTTTCGCTCCGGTCAAAGGGGAAGATGTATTTTTTCTCCTC
AAACTACCGGTCTCTGCAGCACGCTCTATCTGAAAAATTATACAGCAAAG
AATCTGTCCCTTGTTGCGCGCACGGGAGTCCTCGCGAGATGGCGCTACAT
TTCTTGAAATCTCCCCCGACCTCGCGAGATTTTGTCAGACGGAGTCTCGT
GAGACGTCGCGCGAGGTTGTGCGAGATTTTTGCGAGATTCATCGCGAAAG
GCTCGCGATATGGCTCGCGAGTTCTATCGCGATACATCTCGCGAGACCTA
GCGACACGTCTCACGCGACTCCGTCTTGCGACATCTCGCGAATTTTTCCG
AGGGCTCGGGAGATCTCGAATGACTCTCACGAGATCTAAAGACGTCTCGT
GAGACGTCTACTACTCCTCCTGTCCAAATTGTTCTCTTCGGACCTTGTGA
GATCTCGTGACATCTCGTGACATCTCTGGTATGACACGCCCTGCAACCAA
TCAAGCAATATTGATCCTTGGATTTTGCCGATGCTCTAAATACACTATCA
TATGTACATCACATTACCCACGTCGTTCCGCTGGACTGGATGCATGCCTG
TACTGTACGTATGTCACAAACACTTTTTGTTGGAGGAGCTGCCGACAATA
GGGAACCACGCGACGATGAGCGGATCGGCACACACCCGTGATGTCGAGAT
CGGTCCGATCTGGAACCATGGCGACGCCAATACAAAAGCTAGGGCGTATA
TCGACAAGCATCCGTGGTTGAAATGGACTGGACACTGGTCCACCACTGTC
CCTGGCGTAATGTCCACCATCAACGTTCGTAACCTTACATCACTTGGGGG
TTTCGTAAGGGGGGAACACCGCAATGTCGACACGGGTCCCATCTGGAACC
AGCAGGATGCAGTGAAGAAAGCCCGGGCCTTCATCGAGGAGTACCCGTTC
CTGGAATGGACCGGACACTGGAACACGACGGAGATCGGAAAGATGTCTCA
CATCGTAGTTCGCCTGGAGGAGCGTGGCCAGGTGTGTGAGGGCTCCAGGT
AGCGTCCGAATAGAGGACTTACTCCGTAGTATTTGTCAAGCGCTAGTAGA
AGTGCAAAAGTGCAAAAGAAGAGAACGATAGCGTTGCAACGCCATACACA
CACCCCATATACCCTCTTGGGAAATGGCGCCACTATTGTAGCTTGTTTGA
TTGGTGAACAGAGGCCCCTCGCCACCCGTGGCGCGTGTGCACGATCGAAG
GCATATTTCGGCTCTGTTTTTTACCAACACCCACCCGGGGACTTGTTGCG
CAATAATGCAGCCCGACGAGCCAATGTCAAACAAGGATCTCGTTCGTGCG
CGCTAGTCTAATGGCACACGGCGTTTGTTTATCAACGACTGCTATGCCCG
AACTAACCCTCGAAAAAAACTCCTTTTCCTGACCTGCACCACGGCATTTA
TTCTGTCAGGAAATGAGAGCCAGTACCACCCCGACGGAAGTGCTTGTTTG
TGCGCCTTTTTTCTCCAGGTGCCTGCTTTCGTGTACTCGACGAGCCACAT
CCCGGAAGACCGATGGGGCACGAATTACGGCGGGTTGATGCACGTCACCG
ATTGGCTCCCGACCCTCGCCACTGCCGCCGGCTTCACCCTTGACGGAGGG
TAAGCTACAGAAAAATTATAAAAATAAAATGGAGGCAAGAACGGGCGTTC
AGAACCCAGTGCGCCTTGCTTACGTCGCGCCAATATTGTAGAAGTGATCC
GATCCCTCCCATCGCGGTGCGCTCTCCGCTGCCGCTCAAGGTGTGACCTC
CCATCTTATCACCGAGCCTGCTCTTGCCTCCTCTTTCTACCGTTGTGCGC
GCGCGGTTCCCCGGAAAATTAGGGCTGGGCCCTTGGACGGGGTCTGTAGC
CCAACAACTGTCGCCAGAATAAATGGACGACGACACAAACACAGCACACA
GTAGTTGCTCTGTTTGATGCCCGCTAGGCTAACGCATAGTCTAGACCTTT
TGATCGATTGTACCAATCACACCAGCACGTCTTACCAAACTTCACCTTGC
TGACTGTAGTCCGTCCATGGTCAGCCTGAAAGCATGCGTTCTCCCGGGGC
GATTTCATCATTTTTTTCGGGCATCTCACTATTGCCAACCAAACAAGGCT
GCCAGAAAATGAAAACACGCGAGGGACGAGTTGACCAACTCGGCACGAAA
TGCGACGTCCATAACACTTCTTACAGATTGCTGGAAGAGCAGGAGTTGGT
CCACAGCAGATAGGGTAGGTGGGTTTAGTGGGTTGATCACATTGAACAAA
ATCTCAGGAGGAGCGTCCGGGCCATGTTTACGAACTATGTATATTATGTC
GGGTGTGCACTTCAACTAAAGCATACGTTGGAAATGTACAGCGGAGATCC
TGATGCTTTGGTAGGCTCATGGAGTTTGCTTGAGAGGAGCACGGCAGAGC
AGGTGGATGAGGTCGGCGCTGCGGCCACGCTGGCAATATTTACGAGCAAA
CTTCCGTCGCTGGCTCGCTTGCTTTTCTCGTTGCCCCTATGCATACCTTT
CACATCTTCCCATCCCTTCCCCTGCGGGGTTTAGGAGTTCATTTAGCCAA
CCCTTTTCGTGTCAACTACCAGCGTCACTTCAGGTGTGATCATTGCTGTA
CGCACGGACAGAACCAGGAGCTCATGGTTTTCTGACTGCGCCATTACCAT
CACTGCTGGAAGTATTTTTGAGACCACGTCAGCACAAGTATCGAGTGCCG
CGTGAACTCTCCGGGAGGCAGTGTGGTCTCTCTCTTGTTCTATGTAGCTT
GGGCGTTGATGACGGATGCCCTACAGGTGGCGTCGTGCACGTCTGCATTC
ATCTGCAAATGTCGGAGGGCAAAGGATATACTGGTGATCTATACTTCTGT
CTTCTCATCGTGGTTCCGGGTTTGGATTTGGAAACGCTTGACCCATCCCT
CGTCGATTTCTCCCGGTGCATTATCCCGGTTATCCTATGCGTTGTTGAAA
TGCGCCGAGCAGTGAGATGCCGCACGTTCTCCTCATCGGCGCGACTGGCG
CGGGCAAGTCCACGCTCGCCAACCTTCTACTCTATGATGACCCGGAGGGT
GGGTTCGTTGTTGGTCACGGGGAAGCGTCTGAGACCAGCGAACTGAAGGC
AGGGACGGCCACGGTGGATGATTGTTTCCTGCAGGTACTCGGCGATACGT
GTTGGTAGCCAGATGATGCAGAGCCTCGAGATGCACAGAGAACAGCTGCC
GGATGATTGAAAGGATCGTCTTGCAGTAAGTAGTACGTCAATACGCGAAT
GATTAAGGTGGACAAGGTACAAAAGCGCCCTGAAAGTTTGCTCTTCCAAT
GCTTTGGAGTCATTCCCGTTGGGGTTAACGTTTTCCATTCTTTGCCGACG
AAACTTGAACATTATCACTCAGGTGACCGACACTCCTGGTATACCAGACA
CCGACCGTAAAAAATCCCTCCAGTTCTGCGACAAGATAATCGAGTACCTG
CGCGATGATACCTCTTACCTCAACGCCATCGTCATCATGGTCGCCGAGGG
GAGGAACGACGAGCGGGTGTACCGGGACATGCGGGCCCTAATGAAGCCCT
TCAACACGCTACCGTGCGGAAAGATCATGGTGTTCAGGTACTGCTGTAGT
ATCGTACTTCTATTTCACAGCATCGTTCTCGGTGTGTCTAGGTGATCCGT
TGGGCAGAATGCCGCAGATGCTGATACATGAGTACCACCAATGTAAGATA
AGATGAACCACGAAACAATCTCGCTGGAATCCTCAATGGTATTTCATTTG
GAAACGTTCACGCCATTCGAATTGACATATACGTTACACAGATTGCGCAA
TGTTCCACCGATGCGCATCCGAAATGAGTCTTCTGCGGGCATGCTTCATC
CGGCCTTGCGTTGCAAGTGTGTAGCTTTTGTATCGTGGGCTGCCGAATTT
GGGTATGTATGTTACGTGTCGGGGGTTGCAAGAGCCACCCCGACTTTTCT
TGCGCCCCGGGTGGCAGTGACATCCCCCAACTCCTGTTCTGGTGGATACG
CTCGGTGCGCAGGTCGACCCTCCCGCCCAGATGCAGCGATAACACCCGGA
AGCTCAAAGATATTGAGGCCAAGAAAACAATGGACAAACTCTGCAAAGAG
GTGAGCCATTAGCACAGATGTGGGAAGAGTTTCTTGCGCGTGCTGAGATG
CCGGCCCTGCTTCGCTGGCTGAGGCATCTTCTAGCCAAAGAGGCTGTCGT
TGGAATCTCGTGCGCTCACCCAACGCATTGTTCGAGCAGGAATTCCATAC
CCTTTTTGTCCTTGCACATTGCGATGCCCCGTTCGACCTCCATGTTGATC
AGGCGGGACTAAAAGGCATAACGCAGTATATGCTGCATGACATGGACGAT
CGCGAGGTGAAGATATTGCGCAACCTCATCTGCCAAATGCCGGCCAAATC
CAAGGACGAGCTGCAACTGCGCACCTACAGCCAGATCAAACAGCACGTAA
AGAAACTGAGTGACCAGCAAACTCGGATGGAGGCCCTTAGGGACGAGCTG
AACGACCTCTCCGAGCGTAGAACCGCCAGCGAGGCGTCCGCTAGGAAGTA
TCGTGACGCTGCCATTGGTACAGCATTCATACCGTTTGTGGGGGCCGCGA
TTTCAGCAGCCATGACTGTGGAGATGGGGAAAGCCGAAGCTACGGTAAGA
AGCATTTCCCACGACATGCACCGTATGCAGGGAGAACTGGACCGGGGACA
AGTTGACCAAGGAGAACTCCGCAAGGCCAGGGAGGAGTTTGACGAGTTGG
ATGCTCTTTCCCGCGGGTGATCAACTGCGGGTGATTGTTGCTGCGAGGGT
TGGTGGGAGCGTGCCTTGCACAAGCGGTATACTTGGCGTTCGGCGTATTT
CAAACTCCTGGAGTTTGTCAATATCGTGTGAAGCTCACCAACGATGAAGG
GCGAGTCAGGCTCCGACATTGTGATGCCTGTCTTTGCTGGTTTTTATTGT
CGGGGGCGTGTGTTCCGGACTGGCCGTGGTTGCAGGGTAGTGAGAGTTCC
TCAGATAGAGTTCTTCTTGGGTTTGCTTCGGACCCTCGCCGATACTTCGC
ATGATGGTTTTTGGACGAATGAGGATCAGTTGGCATCTATGTATCCTTCG
ATCGGCTGCAGCATTTTTGGGTAGTTCCAGGATGGGTATTCGACGAATGG
CGATCCACTTGGCATGTATTTGTCGATCGGAGGCGGTGGTTGAAGGGGGC
TGACAGTTTCCTCTGATGCTTTTCGTGTTGGGTTTTCCTCCGACTTTCGA
CAAAGTTGCTGGATGGGTTTCGGGCGGACGAGGATCTTTTTGGCATGTCT
TGATGGGCCGGCGGGTGGTTGCAGGGCGGTGAGAGAGTTCCTCTGACGCT
TTTCTGGTTGGGGTTTGTCTTCGACTCACGGAAATGTTTTTCCTGGATGG
GGTTTGGATGAATGAGGATCATTTCGGCAGTTTCTCCTGCGATTCTGCAT
CGGTACGTCTTATTCATATGGTACAGGCAGAAGAATTTTTCCAAAGGGGG
TACCGGTTTTTTCTCCGTCATTTTTGGGAGTTGACAGGTGAAACAAACTT
TTCCAGAATCGCGCGGCCGAGAGGAACTCAAAACCGGTTTAAAAAAAAAA
TTCCATGAACAATGGCCAT

Coding sequence (CDS) from alignment at P-littoralis_Contig1065:51487..69255-

>mRNA_P-littoralis_Contig1065.19.11 ID=mRNA_P-littoralis_Contig1065.19.11|Name=mRNA_P-littoralis_Contig1065.19.11|organism=Pylaiella littoralis U1_48|type=CDS|length=939bp|location=Sequence derived from alignment at P-littoralis_Contig1065:51487..69255- (Pylaiella littoralis U1_48)
ATGCCGCACGTTCTCCTCATCGGCGCGACTGGCGCGGGCAAGTCCACGCT
CGCCAACCTTCTACTCTATGATGACCCGGAGGGTGGGTTCGTTGTTGGTC
ACGGGGAAGCGTCTGAGACCAGCAACCTGAAGACGGAGACGGCCACGGTG
GATGATTGTTTCCTGCAGGTGACCGACACTCCTGGTATACCAGACACCAA
CCGTAAAAAATCCCTCCGGTTCTACGACAAGATGATCAAGTACCTGCGCG
ATGATACCTATCACCTCAACGCCATCGTCATCATGGTCGCCGAGGGGAGG
AACGACGAGCGGGTGTACCGGGACATGCGGGCCCTAATGAAGCACTTCAA
CACGCTACCGTGCGGAAAGATCATGGTGTTCAGGTCGACCCTCCCGCCCA
GATGCAGCGACAACACCCGGAAGCTCAAAGATATTGAGGCCAAGAAAACA
ATGGACAAACTCTGCAGAGAGGCGGGACTAAAAGACATAACGCAGTATAT
GCTGCATGACATGGACGATCGCGAGGTGAAGATATTGCGCAACCTCATCT
GCCAAATGCCGGACAAATCCAAGGACGAGCTGCAACTGCGCACCTACAGC
CAGATCAAACAGCACGCTAAGAAACTGAGTGACCAGCAAACTCGGATGGA
GGCCCTTAGGGACGAGCTGAACGACCTCTCCGAGCGTAGAACCGCCAGCG
AGGCGTCCGCTAGGAAGTATCGTGACGCTGCCATTGGTACAGCATTCATA
CCGTTTGTGGGGGCCGCGATTTCAGCAGCCATGACTGTGGAGATGGGGAA
AGCCGAAGCTACGGTTAGGAGCATTTCCCACGACATGCACCGTATGCAGG
GAGAACTGGACCGGGGACAAGTTGACCAAGGAGAACTCCGCAAGGCCAGG
GAGGAGTTTGACGAGTTGGATGCTCTTTCCCGCGGGTGA