jgi.p|Nanoce1779_2|624048, mRNA_8871 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|624048
Unique Name	mRNA_8871
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	1173
Alignment location	scaffold_29:62061..63977 -

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Properties


Property Name	Value
TranscriptId	624134
Track	FilteredModels2
ProteinId	624048

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_29	supercontig	scaffold_29:62061..63977 -

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Gene prediction for N. oceanica CCMP1779	2008-02-01

Annotated Terms

Homology

Relationships

This mRNA is a part of the following gene feature(s):


Feature Name	Unique Name	Species	Type
jgi.p\|Nanoce1779_2\|624048	gene_8871	Nannochloropsis oceanica (N. oceanica CCMP1779)	gene

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


Feature Name	Unique Name	Species	Type
jgi.p\|Nanoce1779_2\|624048	mRNA_8871-protein	Nannochloropsis oceanica (N. oceanica CCMP1779)	polypeptide

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


Feature Name	Unique Name	Species	Type
CDS_8871	CDS_8871	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_29:62061..63977-
coding sequence from alignment at scaffold_29:62061..63977-

mRNA sequence

>mRNA_8871 ID=mRNA_8871|Name=jgi.p|Nanoce1779_2|624048|organism=Nannochloropsis oceanica|type=mRNA|length=1173bp
ATGTCTAGTTCCTCTTCCTCTTCCTCCCACCCCACCCAAAAGGTGGGCGT
GGTGGGAGCCACGGGGGCGGTGGGCGCCGAGATGATCAAGGTTCTGAAAG
ACCGCCGCTTCCCCGTCACGCTCGACACGCTACGTCTCTTCGCCTCCGAG
CGGAGCGCAGGCAAGAAGATCAAAACTCCCTACGGCGACAAGAAAATCGA
GTTATTCTCTGTGGAGTCGGCCCGAGAGTGTGATTTTGTGTTTTTGGCGG
TGTCTGGCACGTTTGCATTACAGTACGCGAAGAAGATTAGTGAGAAGGGG
GGCCCTTACGTGATTGATAATTCTTCAGCCTTCCGATACGACGATGACAT
CCCCCTCGTCGTCCCCGAGATTAATTCCGCAGCCATCGGTGCCTCTCGTC
TCATCGCCAACCCCAACTGCACCACTGCGATCGCCGTAATGGCCCTGTGG
CCGTTACACCAACAGTTCGGCATCAAGAGGATTCTCTGTTCCACCTACCA
GGCCGCATCGGGCGCAGGCCAAGAGGGCATGGAGGAGCTCAGGACGGGAA
TGGAGCATTATCTGATCGGACGGGAGTACAAAAATGAGGTGTTTGCCCAC
CCTTTGCCGTTCAACGTCATTCCGCATATCGATAAATTCCAAGCGAACGG
ATACACCAAGGAAGAGATGAAGGTGGCCTGGGAGACGAAGAAGATTTTTG
ACTACCCGCACATGGATATTGCTTGCACTGCCGTGCGAGTGCCAACCCTG
AGAGCCCACGCCGAGAGCATCACCATCGAGACGTACCTGGACATAGAGCC
GTCCGCCGCCCTCTTCGCTCTCCGCAAGGCCCCGGGCGTGGAGGTGAGGG
ACAGCGGAGAGGAGAATCTTTACCCGATGCCCCTGACGGCGACGGGCAAG
TACGATGTGGAGGTGGGGAGGGTGCGGCAGAGTCTCGTGTTTGGGAGCAA
GGGGCTGGAGTTGTTTGTGTGTGGCGACCAGCTCCTGCGGGGGGCGGCGA
GTAATGCCGTGTTCATTGCCGAAGCCGTGCTCTTCCCCGAGAGGAGAAGG
AAGGTGGGGAAGGTGCTGAGGAATGTGGGTCTGCTTATGGCTGTGGTGGC
TGTGGCGGCTGACGTGGCGCACATGGTGGGTGGTTGGTGGGGGGAAAGTA
GGGAGGGAGGGCCGGCGGGATAG

protein sequence of jgi.p|Nanoce1779_2|624048

>mRNA_8871-protein ID=mRNA_8871-protein|Name=jgi.p|Nanoce1779_2|624048|organism=Nannochloropsis oceanica|type=polypeptide|length=391bp
MSSSSSSSSHPTQKVGVVGATGAVGAEMIKVLKDRRFPVTLDTLRLFASE
RSAGKKIKTPYGDKKIELFSVESARECDFVFLAVSGTFALQYAKKISEKG
GPYVIDNSSAFRYDDDIPLVVPEINSAAIGASRLIANPNCTTAIAVMALW
PLHQQFGIKRILCSTYQAASGAGQEGMEELRTGMEHYLIGREYKNEVFAH
PLPFNVIPHIDKFQANGYTKEEMKVAWETKKIFDYPHMDIACTAVRVPTL
RAHAESITIETYLDIEPSAALFALRKAPGVEVRDSGEENLYPMPLTATGK
YDVEVGRVRQSLVFGSKGLELFVCGDQLLRGAASNAVFIAEAVLFPERRR
KVGKVLRNVGLLMAVVAVAADVAHMVGGWWGESREGGPAG*

mRNA from alignment at scaffold_29:62061..63977-

Legend: polypeptideCDS

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

>mRNA_8871 ID=mRNA_8871|Name=jgi.p|Nanoce1779_2|624048|organism=Nannochloropsis oceanica|type=mRNA|length=1917bp|location=Sequence derived from alignment at scaffold_29:62061..63977- (Nannochloropsis oceanica)
ATGTCTAGTTCCTCTTCCTCTTCCTCCCACCCCACCCAAAAGGTGGGCGT
GGTGGGAGCCACGGGGGCGGTGGGCGCCGAGATGATCAAGGTATGTGTGC
CTTCCTACTTGCTATTACTGCACCTCACTTTAACCCCCAGAGGCACGAGA
CGGGCACTCGCGCAACAAGCCGTCGTTGCATTGGCTTTGCCTCTATCTCC
CTCGATATTCCTCTTTCTGCCAAGTCTGTCCCCGGATCTGCCCGTGCCGT
CTCTCACCTCTTCGCAACCTCTCCTCCCCCACTGCACTCCCCTTCTGCCC
GTTCCCCCCGTAGGTTCTGAAAGACCGCCGCTTCCCCGTCACGCTCGACA
CGCTACGTCTCTTCGCCTCCGAGCGGAGCGCAGGCAAGAAGATCAAAACT
CCCTACGGCGACAAGAAAATCGAGTTATTCTCTGTGGAGTCGGCCCGAGA
GTGTGATTTTGTGTTTTTGGCGGTGTCTGGCACGTTTGCATTACAGTACG
CGAAGAAGATTAGTGAGAAGGGGGGCCCTTACGTGATTGATAATTCTTCA
GCCTTCCGGTGCGTAGAGGGAGGGAGTGAGTGAGTGAGTGAGTGAGGGGA
GGAAGCGCATGCACGGGGTAATATCAAGAAAAGAAACACCCCATTTTTCC
TTTACCGTATTTTAATTCCGAACAGATACGACGATGACATCCCCCTCGTC
GTCCCCGAGATTAATTCCGCAGCCATCGGTGCCTCTCGTCTCATCGCCAA
CCCCAACTGCACCACTGCGATCGCCGTAATGGCCCTGTGGCCGTTACACC
AACAGTTCGGCATCAAGAGGATTCTCTGTTCCACCTACCAGGCCGCATCG
GGCGCAGGCCAAGAGGGCATGGAGGAGCTCAGGACGGGAATGGAGCATTA
TCTGATCGGACGGGAGTACAAAAATGAGGTGTTTGCCCACCCTTTGCCGT
TCAACGTCATTCCGCATATCGATAAATTCCAAGTAGGGGCCCTCCCTCCC
TCCCTCCCTCCCTCCCTCCCTCCCTATTTCCTGAACGTGTTCCTTACTTC
CTTCAACCCCCTCCCTCCCTCCCACCCTCTCTCCCTCTCTCTCTCTCCTC
CTTTCCTCCCTATTCTTGAACGTGTTCCTTACTTCCTTCACTTTAACTCT
CCCTTCCCTCCCTCCCCGCTGTCCCTTCCTCCCTAATTCTTCAAGGCGAA
CGGATACACCAAGGAAGAGATGAAGGTGGCCTGGGAGACGAAGAAGATTT
TTGACTACCCGCACATGGATATTGCTTGCACTGGTACCGAGGGAGGGAGG
GTAGGAGGGGGGGGGGAACCGAAATGGAGATCACAGAGAGAGGAAAAAAA
AAGGGAATAACCTCGACACACCTCCCCCCTCCCCTCCCCCCCGACTCCCT
CGCTATCGACAGCCGTGCGAGTGCCAACCCTGAGAGCCCACGCCGAGAGC
ATCACCATCGAGACGTACCTGGACATAGAGCCGTCCGCCGCCCTCTTCGC
TCTCCGCAAGGCCCCGGGCGTGGAGGTGAGGGACAGCGGAGAGGAGAATC
TTTACCCGATGCCCCTGACGGCGACGGGCAAGTACGATGTGGAGGTGGGG
AGGGTGCGGCAGAGTCTCGTGTTTGGGAGCAAGGGGCTGGAGTTGTTTGT
GTGTGGCGACCAGCTCCTGCGGGGGGCGGCGAGTAATGCCGTGTTCATTG
CCGAAGCCGTGCTCTTCCCCGAGAGGTACAGGGGGGGGAGGGGGGAGGGG
GACGGGGGGGGGGGGGGAGTGCGTTTGTGTGGGAGAGGAGAAGGAAGGTG
GGGAAGGTGCTGAGGAATGTGGGTCTGCTTATGGCTGTGGTGGCTGTGGC
GGCTGACGTGGCGCACATGGTGGGTGGTTGGTGGGGGGAAAGTAGGGAGG
GAGGGCCGGCGGGATAG

Coding sequence (CDS) from alignment at scaffold_29:62061..63977-

>mRNA_8871 ID=mRNA_8871|Name=jgi.p|Nanoce1779_2|624048|organism=Nannochloropsis oceanica|type=CDS|length=7038bp|location=Sequence derived from alignment at scaffold_29:62061..63977- (Nannochloropsis oceanica)
GAGAAGGAAGGTGGGGAAGGTGCTGAGGAATGTGGGTCTGCTTATGGCTG
TGGTGGCTGTGGCGGCTGACGTGGCGCACATGGTGGGTGGTTGGTGGGGG
GAAAGTAGGGAGGGAGGGCCGGCGGGATAGCCGTGCGAGTGCCAACCCTG
AGAGCCCACGCCGAGAGCATCACCATCGAGACGTACCTGGACATAGAGCC
GTCCGCCGCCCTCTTCGCTCTCCGCAAGGCCCCGGGCGTGGAGGTGAGGG
ACAGCGGAGAGGAGAATCTTTACCCGATGCCCCTGACGGCGACGGGCAAG
TACGATGTGGAGGTGGGGAGGGTGCGGCAGAGTCTCGTGTTTGGGAGCAA
GGGGCTGGAGTTGTTTGTGTGTGGCGACCAGCTCCTGCGGGGGGCGGCGA
GTAATGCCGTGTTCATTGCCGAAGCCGTGCTCTTCCCCGAGAGGCGAACG
GATACACCAAGGAAGAGATGAAGGTGGCCTGGGAGACGAAGAAGATTTTT
GACTACCCGCACATGGATATTGCTTGCACTGATACGACGATGACATCCCC
CTCGTCGTCCCCGAGATTAATTCCGCAGCCATCGGTGCCTCTCGTCTCAT
CGCCAACCCCAACTGCACCACTGCGATCGCCGTAATGGCCCTGTGGCCGT
TACACCAACAGTTCGGCATCAAGAGGATTCTCTGTTCCACCTACCAGGCC
GCATCGGGCGCAGGCCAAGAGGGCATGGAGGAGCTCAGGACGGGAATGGA
GCATTATCTGATCGGACGGGAGTACAAAAATGAGGTGTTTGCCCACCCTT
TGCCGTTCAACGTCATTCCGCATATCGATAAATTCCAAGTTCTGAAAGAC
CGCCGCTTCCCCGTCACGCTCGACACGCTACGTCTCTTCGCCTCCGAGCG
GAGCGCAGGCAAGAAGATCAAAACTCCCTACGGCGACAAGAAAATCGAGT
TATTCTCTGTGGAGTCGGCCCGAGAGTGTGATTTTGTGTTTTTGGCGGTG
TCTGGCACGTTTGCATTACAGTACGCGAAGAAGATTAGTGAGAAGGGGGG
CCCTTACGTGATTGATAATTCTTCAGCCTTCCGATGTCTAGTTCCTCTTC
CTCTTCCTCCCACCCCACCCAAAAGGTGGGCGTGGTGGGAGCCACGGGGG
CGGTGGGCGCCGAGATGATCAAGGAGAAGGAAGGTGGGGAAGGTGCTGAG
GAATGTGGGTCTGCTTATGGCTGTGGTGGCTGTGGCGGCTGACGTGGCGC
ACATGGTGGGTGGTTGGTGGGGGGAAAGTAGGGAGGGAGGGCCGGCGGGA
TAGCCGTGCGAGTGCCAACCCTGAGAGCCCACGCCGAGAGCATCACCATC
GAGACGTACCTGGACATAGAGCCGTCCGCCGCCCTCTTCGCTCTCCGCAA
GGCCCCGGGCGTGGAGGTGAGGGACAGCGGAGAGGAGAATCTTTACCCGA
TGCCCCTGACGGCGACGGGCAAGTACGATGTGGAGGTGGGGAGGGTGCGG
CAGAGTCTCGTGTTTGGGAGCAAGGGGCTGGAGTTGTTTGTGTGTGGCGA
CCAGCTCCTGCGGGGGGCGGCGAGTAATGCCGTGTTCATTGCCGAAGCCG
TGCTCTTCCCCGAGAGGCGAACGGATACACCAAGGAAGAGATGAAGGTGG
CCTGGGAGACGAAGAAGATTTTTGACTACCCGCACATGGATATTGCTTGC
ACTGATACGACGATGACATCCCCCTCGTCGTCCCCGAGATTAATTCCGCA
GCCATCGGTGCCTCTCGTCTCATCGCCAACCCCAACTGCACCACTGCGAT
CGCCGTAATGGCCCTGTGGCCGTTACACCAACAGTTCGGCATCAAGAGGA
TTCTCTGTTCCACCTACCAGGCCGCATCGGGCGCAGGCCAAGAGGGCATG
GAGGAGCTCAGGACGGGAATGGAGCATTATCTGATCGGACGGGAGTACAA
AAATGAGGTGTTTGCCCACCCTTTGCCGTTCAACGTCATTCCGCATATCG
ATAAATTCCAAGTTCTGAAAGACCGCCGCTTCCCCGTCACGCTCGACACG
CTACGTCTCTTCGCCTCCGAGCGGAGCGCAGGCAAGAAGATCAAAACTCC
CTACGGCGACAAGAAAATCGAGTTATTCTCTGTGGAGTCGGCCCGAGAGT
GTGATTTTGTGTTTTTGGCGGTGTCTGGCACGTTTGCATTACAGTACGCG
AAGAAGATTAGTGAGAAGGGGGGCCCTTACGTGATTGATAATTCTTCAGC
CTTCCGATGTCTAGTTCCTCTTCCTCTTCCTCCCACCCCACCCAAAAGGT
GGGCGTGGTGGGAGCCACGGGGGCGGTGGGCGCCGAGATGATCAAGGAGA
AGGAAGGTGGGGAAGGTGCTGAGGAATGTGGGTCTGCTTATGGCTGTGGT
GGCTGTGGCGGCTGACGTGGCGCACATGGTGGGTGGTTGGTGGGGGGAAA
GTAGGGAGGGAGGGCCGGCGGGATAGCCGTGCGAGTGCCAACCCTGAGAG
CCCACGCCGAGAGCATCACCATCGAGACGTACCTGGACATAGAGCCGTCC
GCCGCCCTCTTCGCTCTCCGCAAGGCCCCGGGCGTGGAGGTGAGGGACAG
CGGAGAGGAGAATCTTTACCCGATGCCCCTGACGGCGACGGGCAAGTACG
ATGTGGAGGTGGGGAGGGTGCGGCAGAGTCTCGTGTTTGGGAGCAAGGGG
CTGGAGTTGTTTGTGTGTGGCGACCAGCTCCTGCGGGGGGCGGCGAGTAA
TGCCGTGTTCATTGCCGAAGCCGTGCTCTTCCCCGAGAGGCGAACGGATA
CACCAAGGAAGAGATGAAGGTGGCCTGGGAGACGAAGAAGATTTTTGACT
ACCCGCACATGGATATTGCTTGCACTGATACGACGATGACATCCCCCTCG
TCGTCCCCGAGATTAATTCCGCAGCCATCGGTGCCTCTCGTCTCATCGCC
AACCCCAACTGCACCACTGCGATCGCCGTAATGGCCCTGTGGCCGTTACA
CCAACAGTTCGGCATCAAGAGGATTCTCTGTTCCACCTACCAGGCCGCAT
CGGGCGCAGGCCAAGAGGGCATGGAGGAGCTCAGGACGGGAATGGAGCAT
TATCTGATCGGACGGGAGTACAAAAATGAGGTGTTTGCCCACCCTTTGCC
GTTCAACGTCATTCCGCATATCGATAAATTCCAAGTTCTGAAAGACCGCC
GCTTCCCCGTCACGCTCGACACGCTACGTCTCTTCGCCTCCGAGCGGAGC
GCAGGCAAGAAGATCAAAACTCCCTACGGCGACAAGAAAATCGAGTTATT
CTCTGTGGAGTCGGCCCGAGAGTGTGATTTTGTGTTTTTGGCGGTGTCTG
GCACGTTTGCATTACAGTACGCGAAGAAGATTAGTGAGAAGGGGGGCCCT
TACGTGATTGATAATTCTTCAGCCTTCCGATGTCTAGTTCCTCTTCCTCT
TCCTCCCACCCCACCCAAAAGGTGGGCGTGGTGGGAGCCACGGGGGCGGT
GGGCGCCGAGATGATCAAGGAGAAGGAAGGTGGGGAAGGTGCTGAGGAAT
GTGGGTCTGCTTATGGCTGTGGTGGCTGTGGCGGCTGACGTGGCGCACAT
GGTGGGTGGTTGGTGGGGGGAAAGTAGGGAGGGAGGGCCGGCGGGATAGC
CGTGCGAGTGCCAACCCTGAGAGCCCACGCCGAGAGCATCACCATCGAGA
CGTACCTGGACATAGAGCCGTCCGCCGCCCTCTTCGCTCTCCGCAAGGCC
CCGGGCGTGGAGGTGAGGGACAGCGGAGAGGAGAATCTTTACCCGATGCC
CCTGACGGCGACGGGCAAGTACGATGTGGAGGTGGGGAGGGTGCGGCAGA
GTCTCGTGTTTGGGAGCAAGGGGCTGGAGTTGTTTGTGTGTGGCGACCAG
CTCCTGCGGGGGGCGGCGAGTAATGCCGTGTTCATTGCCGAAGCCGTGCT
CTTCCCCGAGAGGCGAACGGATACACCAAGGAAGAGATGAAGGTGGCCTG
GGAGACGAAGAAGATTTTTGACTACCCGCACATGGATATTGCTTGCACTG
ATACGACGATGACATCCCCCTCGTCGTCCCCGAGATTAATTCCGCAGCCA
TCGGTGCCTCTCGTCTCATCGCCAACCCCAACTGCACCACTGCGATCGCC
GTAATGGCCCTGTGGCCGTTACACCAACAGTTCGGCATCAAGAGGATTCT
CTGTTCCACCTACCAGGCCGCATCGGGCGCAGGCCAAGAGGGCATGGAGG
AGCTCAGGACGGGAATGGAGCATTATCTGATCGGACGGGAGTACAAAAAT
GAGGTGTTTGCCCACCCTTTGCCGTTCAACGTCATTCCGCATATCGATAA
ATTCCAAGTTCTGAAAGACCGCCGCTTCCCCGTCACGCTCGACACGCTAC
GTCTCTTCGCCTCCGAGCGGAGCGCAGGCAAGAAGATCAAAACTCCCTAC
GGCGACAAGAAAATCGAGTTATTCTCTGTGGAGTCGGCCCGAGAGTGTGA
TTTTGTGTTTTTGGCGGTGTCTGGCACGTTTGCATTACAGTACGCGAAGA
AGATTAGTGAGAAGGGGGGCCCTTACGTGATTGATAATTCTTCAGCCTTC
CGATGTCTAGTTCCTCTTCCTCTTCCTCCCACCCCACCCAAAAGGTGGGC
GTGGTGGGAGCCACGGGGGCGGTGGGCGCCGAGATGATCAAGGAGAAGGA
AGGTGGGGAAGGTGCTGAGGAATGTGGGTCTGCTTATGGCTGTGGTGGCT
GTGGCGGCTGACGTGGCGCACATGGTGGGTGGTTGGTGGGGGGAAAGTAG
GGAGGGAGGGCCGGCGGGATAGCCGTGCGAGTGCCAACCCTGAGAGCCCA
CGCCGAGAGCATCACCATCGAGACGTACCTGGACATAGAGCCGTCCGCCG
CCCTCTTCGCTCTCCGCAAGGCCCCGGGCGTGGAGGTGAGGGACAGCGGA
GAGGAGAATCTTTACCCGATGCCCCTGACGGCGACGGGCAAGTACGATGT
GGAGGTGGGGAGGGTGCGGCAGAGTCTCGTGTTTGGGAGCAAGGGGCTGG
AGTTGTTTGTGTGTGGCGACCAGCTCCTGCGGGGGGCGGCGAGTAATGCC
GTGTTCATTGCCGAAGCCGTGCTCTTCCCCGAGAGGCGAACGGATACACC
AAGGAAGAGATGAAGGTGGCCTGGGAGACGAAGAAGATTTTTGACTACCC
GCACATGGATATTGCTTGCACTGATACGACGATGACATCCCCCTCGTCGT
CCCCGAGATTAATTCCGCAGCCATCGGTGCCTCTCGTCTCATCGCCAACC
CCAACTGCACCACTGCGATCGCCGTAATGGCCCTGTGGCCGTTACACCAA
CAGTTCGGCATCAAGAGGATTCTCTGTTCCACCTACCAGGCCGCATCGGG
CGCAGGCCAAGAGGGCATGGAGGAGCTCAGGACGGGAATGGAGCATTATC
TGATCGGACGGGAGTACAAAAATGAGGTGTTTGCCCACCCTTTGCCGTTC
AACGTCATTCCGCATATCGATAAATTCCAAGTTCTGAAAGACCGCCGCTT
CCCCGTCACGCTCGACACGCTACGTCTCTTCGCCTCCGAGCGGAGCGCAG
GCAAGAAGATCAAAACTCCCTACGGCGACAAGAAAATCGAGTTATTCTCT
GTGGAGTCGGCCCGAGAGTGTGATTTTGTGTTTTTGGCGGTGTCTGGCAC
GTTTGCATTACAGTACGCGAAGAAGATTAGTGAGAAGGGGGGCCCTTACG
TGATTGATAATTCTTCAGCCTTCCGATGTCTAGTTCCTCTTCCTCTTCCT
CCCACCCCACCCAAAAGGTGGGCGTGGTGGGAGCCACGGGGGCGGTGGGC
GCCGAGATGATCAAGGAGAAGGAAGGTGGGGAAGGTGCTGAGGAATGTGG
GTCTGCTTATGGCTGTGGTGGCTGTGGCGGCTGACGTGGCGCACATGGTG
GGTGGTTGGTGGGGGGAAAGTAGGGAGGGAGGGCCGGCGGGATAGCCGTG
CGAGTGCCAACCCTGAGAGCCCACGCCGAGAGCATCACCATCGAGACGTA
CCTGGACATAGAGCCGTCCGCCGCCCTCTTCGCTCTCCGCAAGGCCCCGG
GCGTGGAGGTGAGGGACAGCGGAGAGGAGAATCTTTACCCGATGCCCCTG
ACGGCGACGGGCAAGTACGATGTGGAGGTGGGGAGGGTGCGGCAGAGTCT
CGTGTTTGGGAGCAAGGGGCTGGAGTTGTTTGTGTGTGGCGACCAGCTCC
TGCGGGGGGCGGCGAGTAATGCCGTGTTCATTGCCGAAGCCGTGCTCTTC
CCCGAGAGGCGAACGGATACACCAAGGAAGAGATGAAGGTGGCCTGGGAG
ACGAAGAAGATTTTTGACTACCCGCACATGGATATTGCTTGCACTGATAC
GACGATGACATCCCCCTCGTCGTCCCCGAGATTAATTCCGCAGCCATCGG
TGCCTCTCGTCTCATCGCCAACCCCAACTGCACCACTGCGATCGCCGTAA
TGGCCCTGTGGCCGTTACACCAACAGTTCGGCATCAAGAGGATTCTCTGT
TCCACCTACCAGGCCGCATCGGGCGCAGGCCAAGAGGGCATGGAGGAGCT
CAGGACGGGAATGGAGCATTATCTGATCGGACGGGAGTACAAAAATGAGG
TGTTTGCCCACCCTTTGCCGTTCAACGTCATTCCGCATATCGATAAATTC
CAAGTTCTGAAAGACCGCCGCTTCCCCGTCACGCTCGACACGCTACGTCT
CTTCGCCTCCGAGCGGAGCGCAGGCAAGAAGATCAAAACTCCCTACGGCG
ACAAGAAAATCGAGTTATTCTCTGTGGAGTCGGCCCGAGAGTGTGATTTT
GTGTTTTTGGCGGTGTCTGGCACGTTTGCATTACAGTACGCGAAGAAGAT
TAGTGAGAAGGGGGGCCCTTACGTGATTGATAATTCTTCAGCCTTCCGAT
GTCTAGTTCCTCTTCCTCTTCCTCCCACCCCACCCAAAAGGTGGGCGTGG
TGGGAGCCACGGGGGCGGTGGGCGCCGAGATGATCAAG

Synonyms

Publications