jgi.p|Nanoce1779_2|559744, mRNA_8580 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|559744
Unique Name	mRNA_8580
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	2118
Alignment location	scaffold_26:256373..260189 -

Link to JBrowse

Properties


Property Name	Value
TranscriptId	559830
Track	FilteredModels2
ProteinId	559744

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_26	supercontig	scaffold_26:256373..260189 -

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\|559744	gene_8580	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\|559744	mRNA_8580-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_8580	CDS_8580	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_26:256373..260189-
coding sequence from alignment at scaffold_26:256373..260189-

mRNA sequence

>mRNA_8580 ID=mRNA_8580|Name=jgi.p|Nanoce1779_2|559744|organism=Nannochloropsis oceanica|type=mRNA|length=2118bp
ACAGGCAGCAGCAGCTCCTGAGTGCCTCCTTCCAAGCGCCTGTGCCTTGG
GCCCCCCATCATCACCAAAGCAACGGAGCCACTCCTCAGCCCCACCTGCA
CCATAATGTCCCAGGACCAGAAGCCACAGCAGGAGCAAGGGTACGGGCCC
CCAAACTCTCCATATAAATCCACAGTCACCACATGGGTCGAAGATGAGAA
ATCCTGGAATGAATACCAAGGAGTGTCGGTCGTGGAGCGCATGGAAAACA
TCAAGACCACGCTCAAGGAAGGACTCGCCCGTGCTCAAGCGGAAGCAGAC
GCACAGGGTGCAGGAGAAAGCTCAAACATTGCAAACGTTTCGGAAAGCAA
CGTAATGATAGAGACGGTGCAAGCCCTTCAAGAAATATTGCCGGCTGATT
TACGGGTGTCTTTGCCATGGAGCGCACTGGTCAATTTGATAAATACGGGG
CTGGCTAGAGTAGGCTGGTCCTTCCTAGGCCCCTCGCAGAGTAATCGGAA
AGAAGGAGAGAAAGAGGGAGAAAAAATAGTAACAGCAGCAAACAGCAAGA
ACGAGGCAGGGGTAACACTATCAACAGCAGCAGCAGCAGCAATAGCACCA
TCAGCAGCAGATCGACTAGCTGCACTAACGGAGGCTCTGCAGGGGGTGAT
GCATTGGTTGCCCGACGCGGCGTTAGACCACACGGCAACCCCCACGGTTG
ACCCTTCAACTTTAGGGCCTGAGAAAAGCTGGGCGGAGTATCAGGCGATG
TGGCCGGTGACATACCCCTCCCAGCCCGTCCTCACAGTCCTGTCCCCCTC
CTTCCCCCGACGCCCTTACAAGGCCCGCGACGACAATTTAAATCCCAAAA
AGGAAGGCGAGGGCGGAAGGGAGGAAGGTCCTTTCCCCTGTATCCGGGAT
CCTCACTGGGGTCAGCGTAAATTGTTTTTGAACGAGTTGGAGCTTCTGAC
CAAGTACGGAGAGGACGGCGATGTAGTGGTATATGCCGGGGCTGCACCTG
GGAGACACATCGAACATTTGAGCAAGGAGCTGTTTCCGACGTTGAGATTT
GTCCTGGTGGATCCGGCACCGTTTCGGATACGGGAGAGCGAAAGGGTGAA
ATTGGTGGCGGGGCTGATGACGGATGCGCTCGCGAGAGAATATTCAGGTA
GGAACAACGTAATTTTCATCTCCGATATTCGTCGGACGTACGCATCAGAG
GACCTCATCCTCGAAGATATGCTGGATCAACAGAGGTGGCATGAATTGAT
GAATCCCAAGGTATCAATGCTCAAATTTCGCCTGCCATGGAGGGCGGGGG
AGACGGAGTACTTGGAAGGGGAGGTGTGGACACAGCCGTATGCAAAGGCC
CGATCGACTGAGACGAGGTTGGTGAGGGAAGGATGGAGGAGGATTTGGGA
TAATCGTCTTTACGAGGAGCAGTGTTTCTTTTTCAACACGGTGGTGAGGC
CTGTAAGGCACGCGCACGGTGTGAGAGGTGCTGCGTTGAAAGAGACGTGG
GATTATGCAAGAGAAGTGGAGATATGGAGGGAGTTCTTGAGGAGGAGGGA
TGGAGGGAGGAAGGGAGGGAGAGAGGAAGAGAACGAGGTGATCGCGAAGA
TGTCAGTTCAATTAACGATGCATTTGGAGGGCGCTCAGGGGAGGGAGTGG
ATGAGAAGGATTGACTGGAGGGTGATGGGGAAAAGAAGGAAGGAAGGAGG
TGGTTGCGAAGGAGGGAGAAAGAGGAGGAATGTGTACCAGCAGCAGCAGT
GGCCGAATGGGCGGGGAAGGGAGGGGGGGGAGAAGCGGGGGCGGCCGCGG
GACGAGAAGAATGATAGGAGGGAGGAAGAGGAGGAGTAGGAGGAGGAAAA
GGGTAAGGAAGGAGAAGAAATCAACTACCACCGCTACCACCGCCACCGGC
ACAAGCAGAATCAGCATCGACGAGAGAGGGAGGAAAGGGGAGAAGTAGGA
GCAGGGGGAGGGGGAGGAGGGAAAGAGGGGATGGGGAGGGACGACAGCGC
CACCATGTAAGTAGTTTTACCTAATTTTTAAACAGTAGCTTGTGTCGATA
AGTTCAAATCAAGATCAAAGAAAGACAAAGAAACTCGAACCCCCCCCCTT
TTCCACACACAGATAGAG

protein sequence of jgi.p|Nanoce1779_2|559744

>mRNA_8580-protein ID=mRNA_8580-protein|Name=jgi.p|Nanoce1779_2|559744|organism=Nannochloropsis oceanica|type=polypeptide|length=578bp
MSQDQKPQQEQGYGPPNSPYKSTVTTWVEDEKSWNEYQGVSVVERMENIK
TTLKEGLARAQAEADAQGAGESSNIANVSESNVMIETVQALQEILPADLR
VSLPWSALVNLINTGLARVGWSFLGPSQSNRKEGEKEGEKIVTAANSKNE
AGVTLSTAAAAAIAPSAADRLAALTEALQGVMHWLPDAALDHTATPTVDP
STLGPEKSWAEYQAMWPVTYPSQPVLTVLSPSFPRRPYKARDDNLNPKKE
GEGGREEGPFPCIRDPHWGQRKLFLNELELLTKYGEDGDVVVYAGAAPGR
HIEHLSKELFPTLRFVLVDPAPFRIRESERVKLVAGLMTDALAREYSGRN
NVIFISDIRRTYASEDLILEDMLDQQRWHELMNPKVSMLKFRLPWRAGET
EYLEGEVWTQPYAKARSTETRLVREGWRRIWDNRLYEEQCFFFNTVVRPV
RHAHGVRGAALKETWDYAREVEIWREFLRRRDGGRKGGREEENEVIAKMS
VQLTMHLEGAQGREWMRRIDWRVMGKRRKEGGGCEGGRKRRNVYQQQQWP
NGRGREGGEKRGRPRDEKNDRREEEEE*

mRNA from alignment at scaffold_26:256373..260189-

Legend: polypeptideCDS

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

>mRNA_8580 ID=mRNA_8580|Name=jgi.p|Nanoce1779_2|559744|organism=Nannochloropsis oceanica|type=mRNA|length=3817bp|location=Sequence derived from alignment at scaffold_26:256373..260189- (Nannochloropsis oceanica)
ACAGGCAGCAGCAGCTCCTGAGTGCCTCCTTCCAAGCGCCTGTGCCTTGG
GCCCCCCATCATCACCAAAGCAACGGAGCCACTCCTCAGCCCCACCTGCA
CCATAATGTCCCAGGACCAGAAGCCACAGCAGGAGCAAGGGTACGGGCCC
CCAAACTCTCCATATAAATCCACAGTCACCACATGGGTCGAAGATGAGAA
ATCCTGGAATGAATACCAAGGAGTGTCGGTCGTGGAGCGCATGGAAAACA
TCAAGACCACGCTCAAGGAAGGACTCGCCCGTGCTCAAGCGGAAGCAGAC
GCACAGGGTGCAGGAGAAAGCTCAAACATTGCAAACGTTTCGGAAAGCAA
CGTAATGATAGAGACGGTGCAAGCCCTTCAAGAAATATTGCCGGCTGATT
TACGGGTGTCTTTGCCATGGAGCGCACTGGTCAATTTGATAAATACGGGG
CTGGCTAGAGTAGGCTGGTCCTTCCTAGGCCCCTCGCAGAGTAATCGGAA
AGAAGGAGAGAAAGAGGGAGAAAAAATAGTAACAGCAGCAAACAGCAAGA
ACGAGGCAGGGGTAACACTATCAACAGCAGCAGCAGCAGCAATAGCACCA
TCAGCAGCAGATCGACTAGCTGCACTAACGGAGGCTCTGCAGGGGGTGAT
GCATTGGTTGCCCGACGCGGCGTTAGACCACACGGCAACCCCCACGGTTG
ACCCTTCAACTTTAGGGCCTGAGAAAAGCTGGGCGGAGTATCAGGTACGT
GGTTTCAATAAATGTTGAGAGAAAAATGGATGGAAAAGCGCACAAAATGA
TGGCCAAACTACCTCTTCTTTCTTCTCGCTCCCATAGTTCTTTCTGTGTC
CATTCTGTACACGCTTATTCCTCTTTCTTTCCCTCCTTCCTATCTCTTCT
TCCCCCTAGGCGATGTGGCCGGTGACATACCCCTCCCAGCCCGTCCTCAC
AGTCCTGTCCCCCTCCTTCCCCCGACGCCCTTACAAGGCCCGCGACGACA
ATTTAAATCCCAAAAAGGAAGGCGAGGGCGGAAGGGAGGAAGGTCCTTTC
CCCTGTATCCGGGATCCTCACTGGGGTCAGCGTAAATTGTTTTTGAACGA
GTTGGAGCTTCTGACCAAGTACGGAGAGGACGGCGATGTAGTGGTATATG
CCGGGGCTGCACCTGGGAGACACATCGAACATTTGAGCAAGGAGCTGTTT
CCGACGTTGAGATTTGTCCTGGTGGATCCGGCACCGTTTCGGATACGGGA
GAGCGAAAGGGTGAAATTGGTGGCGGGGCTGATGACGGATGCGCTCGCGA
GAGAATATTCAGGTGCGTGAGAGAGTGCCCTAGTTGATTTCTGTGTTTGA
TTATTCATGTGTTTATGATTCATTTTGTTCATTTCATTACTCATGCACGT
AATCATGCATGAATTCTTCAATGGGATATTTATTAGCCCTTGTTACTGTT
TGTCTATCTTGAAATTATATTTTATGTGATAGATTTAGTTGTGTTTATTT
ATTATTATCATTCTTTTATAAGATCTACTTATTTGTGATCATTTTAATCA
GTGAATGATTTTTTTTTAACGTTTTTATCAAACCTTAACACATTCATTCA
CGCAATAAGTTTCTCCATTACTTATAAGCTGACAAATTGAAAAATACTCC
AGAGATGTGGAGTAGACTCGCCGATATGATATTTAAATGATTGAAAGGTC
AGTAGTCAATGTATTCTTTGATGACATATGTGTGTTAAGTAACACGGTAA
TGATTGTGTTAGAGGGAATTTGCCAGGTGAAATGGTGAAACCACATTCTA
TGAACCTCAATAGTACCAGCGCTACATCCCTTACATGATCGTCTTCTGTC
TTGCTAAACACATATGTATCATCGAAGAAGACGTTCACTACCGACCATTT
CAATCCCTTGAATATCATATCGGCTAACTTACGATATAGAACTGGAATGT
TTTTCAAGTCATATAGCGCTTTGAAATATTCTAACTGTCCATATTTACAC
ACAAATTCTGTGGTGATAGGCTGATTGTACATTCATGACCGCGAAATATT
TCGCTCGCTTCATAACATCTAAGTACGAGTTAATCAGGGTTATCGGGTTG
TGGGTCTCACTATTCCTAAGAGCTTTGTTTAACTCACGATATATTATCTG
TAGCGAAACGGGCCTTTCCCCTCTGTTTTACGATGACAATTGGAGCCATC
CACGGAGAGCTGGATTCCCGAATGATGCCCGCCTTCTGCAACGGTTCCAG
CTTCTTCTGCACGAAGTCTTCATGTGCGTAAGGATGGCATCGTGGCGGAA
CAGCAATCTGTTTATGCTCTACAGTGTCGATGGTGAGCTTGACCAAATCT
GTCTTCTCTGGAAATCTGGGTCTATAAAACGTGCCCGAACCATTGACGTG
TACTTCTTCTTGAACTCCTGCGGTAGCGCCGACTCCGACAGTTCCATATC
TATCCACTCCCGCGTCTATCCAATCCCCTGAAGTGCTGTAGGCTCTTGGT
TCTTCGTCATTCTCTTCGGTCTCAGCGCTTCACACTTCCTGATATTCGTC
AGCGTCGCTGCATTCAATTATTTATTGGTTTATTTATGTTTTCTGTATGA
TTTCTTATGCCCGATAACCATCTAGTGCGCAAAGTCTGCTTCCACTGTAT
ATATAGAGAGGGCGAGAGAAAGAGAGCAGACTTGGCTAAAATTTCCTTCC
CGCTTGCTTCTCTCAAACAGGTAGGAACAACGTAATTTTCATCTCCGATA
TTCGTCGGACGTACGCATCAGAGGACCTCATCCTCGAAGATATGCTGGAT
CAACAGAGGTGGCATGAATTGATGAATCCCAAGGTATCAATGCTCAAATT
TCGCCTGCCATGGAGGGCGGGGGAGACGGAGTACTTGGAAGGGGAGGTGT
GGACACAGCCGTATGCAAAGGCCCGATCGACTGAGACGAGGTTGGTGGTG
AGGGGAAGAGAGGGGGGGATAGAGGGAGGGAAAGAGGGTGGGCGAGGATG
CAAGGGAGGAGGAGGAAGAGAAGGAGGAGACTCTCTCAAGGGAGAAGGGG
AAGGAGGAGAAAGCGGAGAAGAGAGGGAAGGATGGAGGAGGATTTGGGAT
AATCGTCTTTACGAGGAGCAGTGTTTCTTTTTCAACACGGTGGTGAGGCC
TGTAAGGCACGCGCACGGTGTGAGAGGTGCTGCGTTGAAAGAGACGTGGG
ATTATGCAAGAGAAGTGGAGATATGGAGGGAGTTCTTGAGGAGGAGGGAT
GGAGGGAGGAAGGGAGGGAGAGAGGAAGAGAACGAGGTGATCGCGAAGAT
GTCAGTTCAATTAACGATGCATTTGGAGGGCGCTCAGGGGAGGGAGTGGA
TGAGAAGGATTGACTGGAGGGTGATGGGGAAAAGAAGGAAGGAAGGAGGT
GGTTGCGAAGGAGGGAGAAAGAGGAGGAATGTGTACCAGCAGCAGCAGTG
GCCGAATGGGCGGGGAAGGGAGGGGGGGGAGAAGCGGGGGCGGCCGCGGG
ACGAGAAGAATGATAGGAGGGAGGAAGAGGAGGAGTAGGAGGAGGAAAAG
GGTAAGGAAGGAGAAGAAATCAACTACCACCGCTACCACCGCCACCGGCA
CAAGCAGAATCAGCATCGACGAGAGAGGGAGGAAAGGGGAGAAGTAGGAG
CAGGGGGAGGGGGAGGAGGGAAAGAGGGGATGGGGAGGGACGACAGCGCC
ACCATGTAAGTAGTTTTACCTAATTTTTAAACAGTAGCTTGTGTCGATAA
GTTCAAATCAAGATCAAAGAAAGACAAAGAAACTCGAACCCCCCCCCTTT
TCCACACACAGATAGAG

Coding sequence (CDS) from alignment at scaffold_26:256373..260189-

>mRNA_8580 ID=mRNA_8580|Name=jgi.p|Nanoce1779_2|559744|organism=Nannochloropsis oceanica|type=CDS|length=6936bp|location=Sequence derived from alignment at scaffold_26:256373..260189- (Nannochloropsis oceanica)
AGGGAAGGATGGAGGAGGATTTGGGATAATCGTCTTTACGAGGAGCAGTG
TTTCTTTTTCAACACGGTGGTGAGGCCTGTAAGGCACGCGCACGGTGTGA
GAGGTGCTGCGTTGAAAGAGACGTGGGATTATGCAAGAGAAGTGGAGATA
TGGAGGGAGTTCTTGAGGAGGAGGGATGGAGGGAGGAAGGGAGGGAGAGA
GGAAGAGAACGAGGTGATCGCGAAGATGTCAGTTCAATTAACGATGCATT
TGGAGGGCGCTCAGGGGAGGGAGTGGATGAGAAGGATTGACTGGAGGGTG
ATGGGGAAAAGAAGGAAGGAAGGAGGTGGTTGCGAAGGAGGGAGAAAGAG
GAGGAATGTGTACCAGCAGCAGCAGTGGCCGAATGGGCGGGGAAGGGAGG
GGGGGGAGAAGCGGGGGCGGCCGCGGGACGAGAAGAATGATAGGAGGGAG
GAAGAGGAGGAGTAGGTAGGAACAACGTAATTTTCATCTCCGATATTCGT
CGGACGTACGCATCAGAGGACCTCATCCTCGAAGATATGCTGGATCAACA
GAGGTGGCATGAATTGATGAATCCCAAGGTATCAATGCTCAAATTTCGCC
TGCCATGGAGGGCGGGGGAGACGGAGTACTTGGAAGGGGAGGTGTGGACA
CAGCCGTATGCAAAGGCCCGATCGACTGAGACGAGGTTGGTGGCGATGTG
GCCGGTGACATACCCCTCCCAGCCCGTCCTCACAGTCCTGTCCCCCTCCT
TCCCCCGACGCCCTTACAAGGCCCGCGACGACAATTTAAATCCCAAAAAG
GAAGGCGAGGGCGGAAGGGAGGAAGGTCCTTTCCCCTGTATCCGGGATCC
TCACTGGGGTCAGCGTAAATTGTTTTTGAACGAGTTGGAGCTTCTGACCA
AGTACGGAGAGGACGGCGATGTAGTGGTATATGCCGGGGCTGCACCTGGG
AGACACATCGAACATTTGAGCAAGGAGCTGTTTCCGACGTTGAGATTTGT
CCTGGTGGATCCGGCACCGTTTCGGATACGGGAGAGCGAAAGGGTGAAAT
TGGTGGCGGGGCTGATGACGGATGCGCTCGCGAGAGAATATTCAGATGTC
CCAGGACCAGAAGCCACAGCAGGAGCAAGGGTACGGGCCCCCAAACTCTC
CATATAAATCCACAGTCACCACATGGGTCGAAGATGAGAAATCCTGGAAT
GAATACCAAGGAGTGTCGGTCGTGGAGCGCATGGAAAACATCAAGACCAC
GCTCAAGGAAGGACTCGCCCGTGCTCAAGCGGAAGCAGACGCACAGGGTG
CAGGAGAAAGCTCAAACATTGCAAACGTTTCGGAAAGCAACGTAATGATA
GAGACGGTGCAAGCCCTTCAAGAAATATTGCCGGCTGATTTACGGGTGTC
TTTGCCATGGAGCGCACTGGTCAATTTGATAAATACGGGGCTGGCTAGAG
TAGGCTGGTCCTTCCTAGGCCCCTCGCAGAGTAATCGGAAAGAAGGAGAG
AAAGAGGGAGAAAAAATAGTAACAGCAGCAAACAGCAAGAACGAGGCAGG
GGTAACACTATCAACAGCAGCAGCAGCAGCAATAGCACCATCAGCAGCAG
ATCGACTAGCTGCACTAACGGAGGCTCTGCAGGGGGTGATGCATTGGTTG
CCCGACGCGGCGTTAGACCACACGGCAACCCCCACGGTTGACCCTTCAAC
TTTAGGGCCTGAGAAAAGCTGGGCGGAGTATCAGAGGGAAGGATGGAGGA
GGATTTGGGATAATCGTCTTTACGAGGAGCAGTGTTTCTTTTTCAACACG
GTGGTGAGGCCTGTAAGGCACGCGCACGGTGTGAGAGGTGCTGCGTTGAA
AGAGACGTGGGATTATGCAAGAGAAGTGGAGATATGGAGGGAGTTCTTGA
GGAGGAGGGATGGAGGGAGGAAGGGAGGGAGAGAGGAAGAGAACGAGGTG
ATCGCGAAGATGTCAGTTCAATTAACGATGCATTTGGAGGGCGCTCAGGG
GAGGGAGTGGATGAGAAGGATTGACTGGAGGGTGATGGGGAAAAGAAGGA
AGGAAGGAGGTGGTTGCGAAGGAGGGAGAAAGAGGAGGAATGTGTACCAG
CAGCAGCAGTGGCCGAATGGGCGGGGAAGGGAGGGGGGGGAGAAGCGGGG
GCGGCCGCGGGACGAGAAGAATGATAGGAGGGAGGAAGAGGAGGAGTAGG
TAGGAACAACGTAATTTTCATCTCCGATATTCGTCGGACGTACGCATCAG
AGGACCTCATCCTCGAAGATATGCTGGATCAACAGAGGTGGCATGAATTG
ATGAATCCCAAGGTATCAATGCTCAAATTTCGCCTGCCATGGAGGGCGGG
GGAGACGGAGTACTTGGAAGGGGAGGTGTGGACACAGCCGTATGCAAAGG
CCCGATCGACTGAGACGAGGTTGGTGGCGATGTGGCCGGTGACATACCCC
TCCCAGCCCGTCCTCACAGTCCTGTCCCCCTCCTTCCCCCGACGCCCTTA
CAAGGCCCGCGACGACAATTTAAATCCCAAAAAGGAAGGCGAGGGCGGAA
GGGAGGAAGGTCCTTTCCCCTGTATCCGGGATCCTCACTGGGGTCAGCGT
AAATTGTTTTTGAACGAGTTGGAGCTTCTGACCAAGTACGGAGAGGACGG
CGATGTAGTGGTATATGCCGGGGCTGCACCTGGGAGACACATCGAACATT
TGAGCAAGGAGCTGTTTCCGACGTTGAGATTTGTCCTGGTGGATCCGGCA
CCGTTTCGGATACGGGAGAGCGAAAGGGTGAAATTGGTGGCGGGGCTGAT
GACGGATGCGCTCGCGAGAGAATATTCAGATGTCCCAGGACCAGAAGCCA
CAGCAGGAGCAAGGGTACGGGCCCCCAAACTCTCCATATAAATCCACAGT
CACCACATGGGTCGAAGATGAGAAATCCTGGAATGAATACCAAGGAGTGT
CGGTCGTGGAGCGCATGGAAAACATCAAGACCACGCTCAAGGAAGGACTC
GCCCGTGCTCAAGCGGAAGCAGACGCACAGGGTGCAGGAGAAAGCTCAAA
CATTGCAAACGTTTCGGAAAGCAACGTAATGATAGAGACGGTGCAAGCCC
TTCAAGAAATATTGCCGGCTGATTTACGGGTGTCTTTGCCATGGAGCGCA
CTGGTCAATTTGATAAATACGGGGCTGGCTAGAGTAGGCTGGTCCTTCCT
AGGCCCCTCGCAGAGTAATCGGAAAGAAGGAGAGAAAGAGGGAGAAAAAA
TAGTAACAGCAGCAAACAGCAAGAACGAGGCAGGGGTAACACTATCAACA
GCAGCAGCAGCAGCAATAGCACCATCAGCAGCAGATCGACTAGCTGCACT
AACGGAGGCTCTGCAGGGGGTGATGCATTGGTTGCCCGACGCGGCGTTAG
ACCACACGGCAACCCCCACGGTTGACCCTTCAACTTTAGGGCCTGAGAAA
AGCTGGGCGGAGTATCAGAGGGAAGGATGGAGGAGGATTTGGGATAATCG
TCTTTACGAGGAGCAGTGTTTCTTTTTCAACACGGTGGTGAGGCCTGTAA
GGCACGCGCACGGTGTGAGAGGTGCTGCGTTGAAAGAGACGTGGGATTAT
GCAAGAGAAGTGGAGATATGGAGGGAGTTCTTGAGGAGGAGGGATGGAGG
GAGGAAGGGAGGGAGAGAGGAAGAGAACGAGGTGATCGCGAAGATGTCAG
TTCAATTAACGATGCATTTGGAGGGCGCTCAGGGGAGGGAGTGGATGAGA
AGGATTGACTGGAGGGTGATGGGGAAAAGAAGGAAGGAAGGAGGTGGTTG
CGAAGGAGGGAGAAAGAGGAGGAATGTGTACCAGCAGCAGCAGTGGCCGA
ATGGGCGGGGAAGGGAGGGGGGGGAGAAGCGGGGGCGGCCGCGGGACGAG
AAGAATGATAGGAGGGAGGAAGAGGAGGAGTAGGTAGGAACAACGTAATT
TTCATCTCCGATATTCGTCGGACGTACGCATCAGAGGACCTCATCCTCGA
AGATATGCTGGATCAACAGAGGTGGCATGAATTGATGAATCCCAAGGTAT
CAATGCTCAAATTTCGCCTGCCATGGAGGGCGGGGGAGACGGAGTACTTG
GAAGGGGAGGTGTGGACACAGCCGTATGCAAAGGCCCGATCGACTGAGAC
GAGGTTGGTGGCGATGTGGCCGGTGACATACCCCTCCCAGCCCGTCCTCA
CAGTCCTGTCCCCCTCCTTCCCCCGACGCCCTTACAAGGCCCGCGACGAC
AATTTAAATCCCAAAAAGGAAGGCGAGGGCGGAAGGGAGGAAGGTCCTTT
CCCCTGTATCCGGGATCCTCACTGGGGTCAGCGTAAATTGTTTTTGAACG
AGTTGGAGCTTCTGACCAAGTACGGAGAGGACGGCGATGTAGTGGTATAT
GCCGGGGCTGCACCTGGGAGACACATCGAACATTTGAGCAAGGAGCTGTT
TCCGACGTTGAGATTTGTCCTGGTGGATCCGGCACCGTTTCGGATACGGG
AGAGCGAAAGGGTGAAATTGGTGGCGGGGCTGATGACGGATGCGCTCGCG
AGAGAATATTCAGATGTCCCAGGACCAGAAGCCACAGCAGGAGCAAGGGT
ACGGGCCCCCAAACTCTCCATATAAATCCACAGTCACCACATGGGTCGAA
GATGAGAAATCCTGGAATGAATACCAAGGAGTGTCGGTCGTGGAGCGCAT
GGAAAACATCAAGACCACGCTCAAGGAAGGACTCGCCCGTGCTCAAGCGG
AAGCAGACGCACAGGGTGCAGGAGAAAGCTCAAACATTGCAAACGTTTCG
GAAAGCAACGTAATGATAGAGACGGTGCAAGCCCTTCAAGAAATATTGCC
GGCTGATTTACGGGTGTCTTTGCCATGGAGCGCACTGGTCAATTTGATAA
ATACGGGGCTGGCTAGAGTAGGCTGGTCCTTCCTAGGCCCCTCGCAGAGT
AATCGGAAAGAAGGAGAGAAAGAGGGAGAAAAAATAGTAACAGCAGCAAA
CAGCAAGAACGAGGCAGGGGTAACACTATCAACAGCAGCAGCAGCAGCAA
TAGCACCATCAGCAGCAGATCGACTAGCTGCACTAACGGAGGCTCTGCAG
GGGGTGATGCATTGGTTGCCCGACGCGGCGTTAGACCACACGGCAACCCC
CACGGTTGACCCTTCAACTTTAGGGCCTGAGAAAAGCTGGGCGGAGTATC
AGAGGGAAGGATGGAGGAGGATTTGGGATAATCGTCTTTACGAGGAGCAG
TGTTTCTTTTTCAACACGGTGGTGAGGCCTGTAAGGCACGCGCACGGTGT
GAGAGGTGCTGCGTTGAAAGAGACGTGGGATTATGCAAGAGAAGTGGAGA
TATGGAGGGAGTTCTTGAGGAGGAGGGATGGAGGGAGGAAGGGAGGGAGA
GAGGAAGAGAACGAGGTGATCGCGAAGATGTCAGTTCAATTAACGATGCA
TTTGGAGGGCGCTCAGGGGAGGGAGTGGATGAGAAGGATTGACTGGAGGG
TGATGGGGAAAAGAAGGAAGGAAGGAGGTGGTTGCGAAGGAGGGAGAAAG
AGGAGGAATGTGTACCAGCAGCAGCAGTGGCCGAATGGGCGGGGAAGGGA
GGGGGGGGAGAAGCGGGGGCGGCCGCGGGACGAGAAGAATGATAGGAGGG
AGGAAGAGGAGGAGTAGGTAGGAACAACGTAATTTTCATCTCCGATATTC
GTCGGACGTACGCATCAGAGGACCTCATCCTCGAAGATATGCTGGATCAA
CAGAGGTGGCATGAATTGATGAATCCCAAGGTATCAATGCTCAAATTTCG
CCTGCCATGGAGGGCGGGGGAGACGGAGTACTTGGAAGGGGAGGTGTGGA
CACAGCCGTATGCAAAGGCCCGATCGACTGAGACGAGGTTGGTGGCGATG
TGGCCGGTGACATACCCCTCCCAGCCCGTCCTCACAGTCCTGTCCCCCTC
CTTCCCCCGACGCCCTTACAAGGCCCGCGACGACAATTTAAATCCCAAAA
AGGAAGGCGAGGGCGGAAGGGAGGAAGGTCCTTTCCCCTGTATCCGGGAT
CCTCACTGGGGTCAGCGTAAATTGTTTTTGAACGAGTTGGAGCTTCTGAC
CAAGTACGGAGAGGACGGCGATGTAGTGGTATATGCCGGGGCTGCACCTG
GGAGACACATCGAACATTTGAGCAAGGAGCTGTTTCCGACGTTGAGATTT
GTCCTGGTGGATCCGGCACCGTTTCGGATACGGGAGAGCGAAAGGGTGAA
ATTGGTGGCGGGGCTGATGACGGATGCGCTCGCGAGAGAATATTCAGATG
TCCCAGGACCAGAAGCCACAGCAGGAGCAAGGGTACGGGCCCCCAAACTC
TCCATATAAATCCACAGTCACCACATGGGTCGAAGATGAGAAATCCTGGA
ATGAATACCAAGGAGTGTCGGTCGTGGAGCGCATGGAAAACATCAAGACC
ACGCTCAAGGAAGGACTCGCCCGTGCTCAAGCGGAAGCAGACGCACAGGG
TGCAGGAGAAAGCTCAAACATTGCAAACGTTTCGGAAAGCAACGTAATGA
TAGAGACGGTGCAAGCCCTTCAAGAAATATTGCCGGCTGATTTACGGGTG
TCTTTGCCATGGAGCGCACTGGTCAATTTGATAAATACGGGGCTGGCTAG
AGTAGGCTGGTCCTTCCTAGGCCCCTCGCAGAGTAATCGGAAAGAAGGAG
AGAAAGAGGGAGAAAAAATAGTAACAGCAGCAAACAGCAAGAACGAGGCA
GGGGTAACACTATCAACAGCAGCAGCAGCAGCAATAGCACCATCAGCAGC
AGATCGACTAGCTGCACTAACGGAGGCTCTGCAGGGGGTGATGCATTGGT
TGCCCGACGCGGCGTTAGACCACACGGCAACCCCCACGGTTGACCCTTCA
ACTTTAGGGCCTGAGAAAAGCTGGGCGGAGTATCAG

Synonyms

Publications