jgi.p|Nanoce1779_2|588690, mRNA_4306 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|588690
Unique Name	mRNA_4306
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	4277
Alignment location	scaffold_10:254689..259252 +

Link to JBrowse

Properties


Property Name	Value
TranscriptId	588776
Track	FilteredModels2
ProteinId	588690

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_10	supercontig	scaffold_10:254689..259252 +

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\|588690	gene_4306	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\|588690	mRNA_4306-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_4306	CDS_4306	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_10:254689..259252+
coding sequence from alignment at scaffold_10:254689..259252+

mRNA sequence

>mRNA_4306 ID=mRNA_4306|Name=jgi.p|Nanoce1779_2|588690|organism=Nannochloropsis oceanica|type=mRNA|length=4277bp
AGGGACACTTTTTTCGCGTTGTGCAAGGCGTTAGCCACCCACCACTCTGC
AAATTATTTCTACCATGGCTACAGTATCATCGTTCTCGTCATTCACGCAT
GAAATATCAGCCTCGTCTTCTCCTGGAGAAGAAAGCGTGCGCGTGGTCAT
CCGTGTGCGGCCCTTGAATGAGAAGGAGAAGCAGGACGAGCGCATCATTG
TGACGCAGGCCAACGAAAGCAAAGGCGAGATTGAAGTCCAGAACCCTGCA
GCACTATTGTCAGGGAGGACAGGGAGTGAGTCAAAAAAATTTAGTTTCGA
CGCCGTCTTTGGTGAAACCAGCACGCAGCAGCAGGTGTACGACATGTGCG
CGGCCCCTGTCGTCGAGTCGGTGCTGAACGGCTTCAACGGCACAATTTTT
GCCTATGGCCAGACCGGCACTGGCAAAACGCATACCATGGAAGGCACAGC
AACATCGGAGGGGCGCGGCATCATCCCCAATTCCTTCCAGCATATCTTTG
AGCGTGTCGCCGTATTAGAGAATCAAGAGTTCCTGGTTCGAGCGTCCTAC
CTAGAAATTTACAACGAAGAAATCCGGGACTTGCTGTCCAAGGATCCCCG
GAACAAGCTGGACCTGAAGGAGCACCCGGATCGCGGGGTGTATGTTAAGG
ACCTTACGACATTTGTGGTGAAAAATGCCGAAGAGATTGGCAAGGTTATG
CAGGCAGGAAAACGCAATCGTTCAACTGGAGCTACGCTCATGAACCAGAA
CTCGTCTCGATCGCATTCTGTCTTTACCATCATTATCGAGTGCTGCGACA
ACAGTGGGAAATGTTTGGGCAGTGATACGTCATCCAAGCATCAACAAGAC
AACTCCCAACAGCAAACTATCCGGGTGGGCAAGCTTAATCTTGTGGACCT
GGCAGGAAGCGAGCGACAAAGCAAAGCAGGTACCACGGGAGAGCGTTTCA
AGGAGGCAACCAAGATCAACCTTTCGTTGTCGGCGCTGGGCAACGTCATC
ACGGCTCTCGTGGACGGCCGGGCGCAGCATGTGCCCTACCGTGATTCTAA
GCTCACACGGCTTCTGCAATCATCGCTGGGTGGGAACACCAAGACAGTCA
TGTGCGCCAATTGTGGGCCTGCAGATTATAATTACGACGAAACCCTCTCC
ACGCTCCGGTACGCCAACCGCGCCAAGAACATCAAAAACAAACCACACGT
GAATGAAGATCCCAAAGACACCATGCTTCGAGAGTTCAAAGAAGAAATTC
TACGCCTGAAGGCTCAGCTTGCTGCGCAAGACAAGCTCTCCTCCGGGCTC
GGAGGTTCTGGAACCCTCGCGGTTGGCTTGGTGTTGGATGGCACAGCACA
AGCGAAGGAAGAGAATTTTAGGGCCAATTACCACAAGCTGTACAAATACG
GTAACGGAGGCAACGAGCGATGGCGAGAGGTGGCTGTCAGGGCGGAGAAG
GAAAAAGAGGAGCTGAAGTCCCAGGCTAAACGGGACATGGATGCCCTGCA
AAGCAAGTCGTCGGAGGAAAAAGAAGCTCTGCGGCAGCGGCTTCTCAAAG
AGGCCGAAGATCGGCGCGTGCTCGAAAGCAAGCTACTTGCCATGGAAGCC
AAATTGATTCAGGGTGGGGAGTCTGTAGACAGGGCAAACCACGACAAACT
TATGAGAAAAGCCAAGGGTGAAGTGGACGCGCAGCAGCAACATCAGCGAC
GGCTGGCCCAGGAACTTGCCATCAAGGAGGAAACGCACCTGGTCTTGGAA
GAAGAATACTCGAGTTTGCAAGAAGAGGTGGACGCCAAGACCCGAAAACT
CCAGAGGCTCATTTCCAAGTATCGCGGGGCCACACGCGAGAACCAGGACC
TGCAAGCGGAGTTTCAGCAGGAGCGCGAGGACTTGCTCGAAACGGTTCGA
CAATTGACGCAGCAGCTGAAGCTTAAGGATCTTGTGGTGCAGAACTTTAT
CCCTCCCGAGATTGCAATGACGATAGAGCAGCGTGCTACATGGAGCGAAG
AACGGGATGCATGGACTGTGCCATTTTTGAGGTACGCCGGCAACAACTTG
AAGAGAGTAAACTTGAAGCGGCCGGTCGCATCTCCCTCGTCCCGGCGACC
TGAGACGCAGTATGCCCGAGCTAGGCGGAATCAGGACACGGACATGCGGT
TTAGGGTAGATAATCTGTTGGACGTGGAACTTGACATGGACGACGGAGCA
CCCCCATTGCAGCACTACGGTGACGCGGTGGCGGCGGGTGCTGGTGTGGA
AGCAGAAGCATATCCGCCACTGGTCCTGAGGGTCTTAGACATGTCCTTGG
ACGAAGATGGGATTGTACCCAATGAAGATGAGGAAGAAGAGGAGGAGAAT
CTAGACCCGTTTCCTCCCTTGTCGCCCTATTTGCGGTATGCGGACCACCA
TTATGAACCGTCGATGGCTGCGACTGCTGCCGCGAATGAAAGGAGATAGG
GAAACGAACCTCTGCGAAGTCTTTTTTTGGCATTCAAATAAAAGGGACCG
GAAAATTGAGTGTTCTTATTCGATACGATAACCTTTGTGTATTTTTGTTC
CATATTGTTAGCGGCTGCTGGAGATACAGTGCGCTTGCTATTGGTGGCGC
GCGCGCGTTTTCAAAATAATCTCCGATCACAGTCAGAGGAAGGGGTGCCC
TGGTAGAATCATTAAACATTAAATTGTAATACACATACCAGCGTCTGAGA
GGCGTCTCCTTTGTCTGGGTGGGGGAGTTTGATTGCCTCAAGGTCGAGGG
GATTCCTTTTTGTCTGACTAGCAGGTGCGCATGTGACCAGCAGATCACAT
AAACTCTGAAAGTCCTTAGCAGCACTCTTGTGTCGCCCTAGACGAATTTG
ATCCTGCACAAAATAGGCAATGGAAAAAATTGTGGCAAAAGGAAGGCATG
GGCCAAACCGCGAGCATTGAGCGACTGGAAGGACTAATCAGCGTCAATTA
TCTATCTTCTTGCCTGAAATACCACCGCATGACCATACTGCTTACCACAA
CCTCTCATGCACAAACAGCTCTTGAGAAGCTATACTTCTACCTCTGTGGC
TAATATGTCTCCACTTCCATCACACCACCCAACCCAGGCCCTCCATCGCT
GCAAGCATCATCAGCAGCTGTGCAAGCAGCAGAATGAGTCGCACAGGCAG
CAGTTTGGTGCGGCGCCTGGGAGTTTCTCTGACCAGCACCCCGTCCTCCA
CCGTTACCGCCAGCAACAGACGCGCTATCACTATTGTCACTGCCGCCCGA
CGGCCGCCCCATCAATCACAGGCGTCGCCACCACCACCATCCGCCAACCC
CCTCCTCTCGACGCGCTGCCTCATCACCGGCAGCAGCCGCAGCGGCAGCA
GTGCCGCGGACAGCAACGAAGGCGCCTCCAAGAAGTATGTTTCTCCGCAC
AATTGGATGGCGTTGGTGCGGGACTACGGCAAGTCGGATGCGGTGGTTGG
CGATGCACCCATGGAGATCCAGACTATCCAAGCTACGGCCCGCACACCCC
AGGAGACGGGTTCCCGCTACAGCCAACGGGCACGGGAAAAAGGCCATCTG
CCCGGTGTCCTCTACGGACCTGGAGTGGACGGGGACAAAGAGCGCCACCT
CATTACGGTGGAACGTCGGGAGATTGAAAAACAGATGCGGCGGTTGGGGG
ATTCTATCGCGAGTACGGTATTTGATTTGCAGTTGGGGCAGTACAAGCAA
CGGGTTCTCATCCGAGACTTAGACCGGGACCCCGGGACGGCATTGCCGAT
TGCTGTAAATTTTTTGCGGTATCGCCCGGGATACCCCGTCGAGGTGCCTG
TGTGTTTTGTGAATGAAGATTTGTGCTTGCCTTTAAAACGGGGGGGCATG
CTCCTGAGCATTAATCGTTTTATCCGCGTATCGTGCGAGGGCGAGACTTT
GCCGGAAATGTTGATGGTGGATATGACGGGGGTGAGGAACAATCAGAAGG
TTGGATTAGAGCGTGTGCACTTCCCGTCGAACGTGCAACCGTACGAGGTG
AGCGAGAGTTTTGTCTTGGGGGTGGTGAAGGGCAAAAACGTGGCGGGCAC
GCCTGGCGGGCCTGACTCGGTGGCGGATGAGGTGGCAGCAACAGCGTAGA
GGGTTTGAGACCATTAAGAGAGAATGAGAAAGAAAGGAAGCAAAAGTGAG
TGAACGGGATGTGGGGAGAGTAAATCTTCGCTAAAGAAGTAAAAAAAAAA
CAAAAAAAAACATAGTCAAAAAGTTACAACTCTGTGCTGTGGCACCAGAC
ATACAAAACAACAGCGGTTTAATGATA

protein sequence of jgi.p|Nanoce1779_2|588690

>mRNA_4306-protein ID=mRNA_4306-protein|Name=jgi.p|Nanoce1779_2|588690|organism=Nannochloropsis oceanica|type=polypeptide|length=795bp
MATVSSFSSFTHEISASSSPGEESVRVVIRVRPLNEKEKQDERIIVTQAN
ESKGEIEVQNPAALLSGRTGSESKKFSFDAVFGETSTQQQVYDMCAAPVV
ESVLNGFNGTIFAYGQTGTGKTHTMEGTATSEGRGIIPNSFQHIFERVAV
LENQEFLVRASYLEIYNEEIRDLLSKDPRNKLDLKEHPDRGVYVKDLTTF
VVKNAEEIGKVMQAGKRNRSTGATLMNQNSSRSHSVFTIIIECCDNSGKC
LGSDTSSKHQQDNSQQQTIRVGKLNLVDLAGSERQSKAGTTGERFKEATK
INLSLSALGNVITALVDGRAQHVPYRDSKLTRLLQSSLGGNTKTVMCANC
GPADYNYDETLSTLRYANRAKNIKNKPHVNEDPKDTMLREFKEEILRLKA
QLAAQDKLSSGLGGSGTLAVGLVLDGTAQAKEENFRANYHKLYKYGNGGN
ERWREVAVRAEKEKEELKSQAKRDMDALQSKSSEEKEALRQRLLKEAEDR
RVLESKLLAMEAKLIQGGESVDRANHDKLMRKAKGEVDAQQQHQRRLAQE
LAIKEETHLVLEEEYSSLQEEVDAKTRKLQRLISKYRGATRENQDLQAEF
QQEREDLLETVRQLTQQLKLKDLVVQNFIPPEIAMTIEQRATWSEERDAW
TVPFLRYAGNNLKRVNLKRPVASPSSRRPETQYARARRNQDTDMRFRVDN
LLDVELDMDDGAPPLQHYGDAVAAGAGVEAEAYPPLVLRVLDMSLDEDGI
VPNEDEEEEEENLDPFPPLSPYLRYADHHYEPSMAATAAANERR*

mRNA from alignment at scaffold_10:254689..259252+

Legend: polypeptideCDS

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

>mRNA_4306 ID=mRNA_4306|Name=jgi.p|Nanoce1779_2|588690|organism=Nannochloropsis oceanica|type=mRNA|length=4564bp|location=Sequence derived from alignment at scaffold_10:254689..259252+ (Nannochloropsis oceanica)
AGGGACACTTTTTTCGCGTTGTGCAAGGCGTTAGCCACCCACCACTCTGC
AAATTATTTCTACCATGGCTACAGTATCATCGTTCTCGTCATTCACGCAT
GAAATATCAGCCTCGTCTTCTCCTGGAGAAGAAAGCGTGCGCGTGGTCAT
CCGTGTGCGGCCCTTGAATGAGAAGGAGAAGCAGGACGAGCGCATCATGT
AAGCAAAGGCGAAGTATGAAGACGGGGCCGATACATAGATGGTGGAGGCA
CTACCGACGTCTGATATTTTCAAGGTCTATTTCTCGGATGTGACAGTTTG
GGATTATTCTTTTTATTCACCTCACTGCAACACCCTATCATCCCCTCACA
CCCAACCACACACACACAGTGTGACGCAGGCCAACGAAAGCAAAGGCGAG
ATTGAAGTCCAGAACCCTGCAGCACTATTGTCAGGGAGGACAGGGAGTGA
GTCAAAAAAATTTAGTTTCGACGCCGTCTTTGGTGAAACCAGCACGCAGC
AGCAGGTGTACGACATGTGCGCGGCCCCTGTCGTCGAGTCGGTGCTGAAC
GGCTTCAACGGCACAATTTTTGCCTATGGCCAGACCGGGTATAGTGCCGA
GTGAATATTTTGTATCCTTTTAGGACATAACGAGATGGAAGATGGCGTGC
ATTGTTCAATTTTCAATCTCCTTTTTTCCTATCTCTATTCTGTCATCATA
CTAGCACTGGCAAAACGCATACCATGGAAGGCACAGCAACATCGGAGGGG
CGCGGCATCATCCCCAATTCCTTCCAGCATATCTTTGAGCGTGTCGCCGT
ATTAGAGAATCAAGAGTTCCTGGTTCGAGCGTCCTACCTAGAAATTTACA
ACGAAGAAATCCGGGACTTGCTGTCCAAGGATCCCCGGAACAAGCTGGAC
CTGAAGGAGCACCCGGATCGCGGGGTGTATGTTAAGGACCTTACGACATT
TGTGGTGAAAAATGCCGAAGAGATTGGCAAGGTTATGCAGGCAGGAAAAC
GCAATCGTTCAACTGGAGCTACGCTCATGAACCAGAACTCGTCTCGATCG
CATTCTGTCTTTACCATCATTATCGAGTGCTGCGACAACAGTGGGAAATG
TTTGGGCAGTGATACGTCATCCAAGCATCAACAAGACAACTCCCAACAGC
AAACTATCCGGGTGGGCAAGCTTAATCTTGTGGACCTGGCAGGAAGCGAG
CGACAAAGCAAAGCAGGTACCACGGGAGAGCGTTTCAAGGAGGCAACCAA
GATCAACCTTTCGTTGTCGGCGCTGGGCAACGTCATCACGGCTCTCGTGG
ACGGCCGGGCGCAGCATGTGCCCTACCGTGATTCTAAGCTCACACGGCTT
CTGCAATCATCGCTGGGTGGGAACACCAAGACAGTCATGTGCGCCAATTG
TGGGCCTGCAGATTATAATTACGACGAAACCCTCTCCACGCTCCGGTACG
CCAACCGCGCCAAGAACATCAAAAACAAACCACACGTGAATGAAGATCCC
AAAGACACCATGCTTCGAGAGTTCAAAGAAGAAATTCTACGCCTGAAGGC
TCAGCTTGCTGCGCAAGACAAGCTCTCCTCCGGGCTCGGAGGTTCTGGAA
CCCTCGCGGTTGGCTTGGTGTTGGATGGCACAGCACAAGCGAAGGAAGAG
AATTTTAGGGCCAATTACCACAAGCTGTACAAATACGGTAACGGAGGCAA
CGAGCGATGGCGAGAGGTGGCTGTCAGGGCGGAGAAGGAAAAAGAGGAGC
TGAAGTCCCAGGCTAAACGGGACATGGATGCCCTGCAAAGCAAGTCGTCG
GAGGAAAAAGAAGCTCTGCGGCAGCGGCTTCTCAAAGAGGCCGAAGATCG
GCGCGTGCTCGAAAGCAAGCTACTTGCCATGGAAGCCAAATTGATTCAGG
GTGGGGAGTCTGTAGACAGGGCAAACCACGACAAACTTATGAGAAAAGCC
AAGGGTGAAGTGGACGCGCAGCAGCAACATCAGCGACGGCTGGCCCAGGA
ACTTGCCATCAAGGAGGAAACGCACCTGGTCTTGGAAGAAGAATACTCGA
GTTTGCAAGAAGAGGTGGACGCCAAGACCCGAAAACTCCAGAGGCTCATT
TCCAAGTATCGCGGGGCCACACGCGAGAACCAGGACCTGCAAGCGGAGTT
TCAGCAGGAGCGCGAGGACTTGCTCGAAACGGTTCGACAATTGACGCAGC
AGCTGAAGCTTAAGGATCTTGTGGTGCAGAACTTTATCCCTCCCGAGATT
GCAATGACGATAGAGCAGCGTGCTACATGGAGCGAAGAACGGGATGCATG
GACTGTGCCATTTTTGAGGTACGCCGGCAACAACTTGAAGAGAGTAAACT
TGAAGCGGCCGGTCGCATCTCCCTCGTCCCGGCGACCTGAGACGCAGTAT
GCCCGAGCTAGGCGGAATCAGGACACGGACATGCGGTTTAGGGTAGATAA
TCTGTTGGACGTGGAACTTGACATGGACGACGGAGCACCCCCATTGCAGC
ACTACGGTGACGCGGTGGCGGCGGGTGCTGGTGTGGAAGCAGAAGCATAT
CCGCCACTGGTCCTGAGGGTCTTAGACATGTCCTTGGACGAAGATGGGAT
TGTACCCAATGAAGATGAGGAAGAAGAGGAGGAGAATCTAGACCCGTTTC
CTCCCTTGTCGCCCTATTTGCGGTATGCGGACCACCATTATGAACCGTCG
ATGGCTGCGACTGCTGCCGCGAATGAAAGGAGATAGGGAAACGAACCTCT
GCGAAGTCTTTTTTTGGCATTCAAATAAAAGGGACCGGAAAATTGAGTGT
TCTTATTCGATACGATAACCTTTGTGTATTTTTGTTCCATATTGTTAGCG
GCTGCTGGAGATACAGTGCGCTTGCTATTGGTGGCGCGCGCGCGTTTTCA
AAATAATCTCCGATCACAGTCAGAGGAAGGGGTGCCCTGGTAGAATCATT
AAACATTAAATTGTAATACACATACCAGCGTCTGAGAGGCGTCTCCTTTG
TCTGGGTGGGGGAGTTTGATTGCCTCAAGGTCGAGGGGATTCCTTTTTGT
CTGACTAGCAGGTGCGCATGTGACCAGCAGATCACATAAACTCTGAAAGT
CCTTAGCAGCACTCTTGTGTCGCCCTAGACGAATTTGATCCTGCACAAAA
TAGGCAATGGAAAAAATTGTGGCAAAAGGAAGGCATGGGCCAAACCGCGA
GCATTGAGCGACTGGAAGGACTAATCAGCGTCAATTATCTATCTTCTTGC
CTGAAATACCACCGCATGACCATACTGCTTACCACAACCTCTCATGCACA
AACAGCTCTTGAGAAGCTATACTTCTACCTCTGTGGCTAATATGTCTCCA
CTTCCATCACACCACCCAACCCAGGCCCTCCATCGCTGCAAGCATCATCA
GCAGCTGTGCAAGCAGCAGAATGAGTCGCACAGGCAGCAGTTTGGTGCGG
CGCCTGGGAGTTTCTCTGACCAGCACCCCGTCCTCCACCGTTACCGCCAG
CAACAGACGCGCTATCACTATTGTCACTGCCGCCCGACGGCCGCCCCATC
AATCACAGGCGTCGCCACCACCACCATCCGCCAACCCCCTCCTCTCGACG
CGCTGCCTCATCACCGGCAGCAGCCGCAGCGGCAGCAGTGCCGCGGACAG
CAACGAAGGCGCCTCCAAGAAGTATGTTTCTCCGCACAATTGGATGGCGT
TGGTGCGGGACTACGGCAAGTCGGATGCGGTGGTTGGCGATGCACCCATG
GAGATCCAGACTATCCAAGCTACGGCCCGCACACCCCAGGAGACGGGTTC
CCGCTACAGCCAACGGGCACGGGAAAAAGGCCATCTGCCCGGTGTCCTCT
ACGGACCTGGAGTGGACGGGGACAAAGAGCGCCACCTCATTACGGTGGAA
CGTCGGGAGATTGAAAAACAGATGCGGCGGTTGGGGGATTCTATCGCGAG
TACGGTATTTGATTTGCAGTTGGGGCAGTACAAGCAACGGGTTCTCATCC
GAGACTTAGACCGGGACCCCGGGACGGCATTGCCGATTGCTGTAAATTTT
TTGCGGTATCGCCCGGGATACCCCGTCGAGGTGCCTGTGTGTTTTGTGAA
TGAAGATTTGTGCTTGCCTTTAAAACGGGGGGGCATGCTCCTGAGCATTA
ATCGTTTTATCCGCGTATCGTGCGAGGGCGAGACTTTGCCGGAAATGTTG
ATGGTGGATATGACGGGGGTGAGGAACAATCAGAAGGTTGGATTAGAGCG
TGTGCACTTCCCGTCGAACGTGCAACCGTACGAGGTGAGCGAGAGTTTTG
TCTTGGGGGTGGTGAAGGGCAAAAACGTGGCGGGCACGCCTGGCGGGCCT
GACTCGGTGGCGGATGAGGTGGCAGCAACAGCGTAGAGGGTTTGAGACCA
TTAAGAGAGAATGAGAAAGAAAGGAAGCAAAAGTGAGTGAACGGGATGTG
GGGAGAGTAAATCTTCGCTAAAGAAGTAAAAAAAAAACAAAAAAAAACAT
AGTCAAAAAGTTACAACTCTGTGCTGTGGCACCAGACATACAAAACAACA
GCGGTTTAATGATA

Coding sequence (CDS) from alignment at scaffold_10:254689..259252+

>mRNA_4306 ID=mRNA_4306|Name=jgi.p|Nanoce1779_2|588690|organism=Nannochloropsis oceanica|type=CDS|length=7155bp|location=Sequence derived from alignment at scaffold_10:254689..259252+ (Nannochloropsis oceanica)
ATGGCTACAGTATCATCGTTCTCGTCATTCACGCATGAAATATCAGCCTC
GTCTTCTCCTGGAGAAGAAAGCGTGCGCGTGGTCATCCGTGTGCGGCCCT
TGAATGAGAAGGAGAAGCAGGACGAGCGCATCATTGTGACGCAGGCCAAC
GAAAGCAAAGGCGAGATTGAAGTCCAGAACCCTGCAGCACTATTGTCAGG
GAGGACAGGGAGTGAGTCAAAAAAATTTAGTTTCGACGCCGTCTTTGGTG
AAACCAGCACGCAGCAGCAGGTGTACGACATGTGCGCGGCCCCTGTCGTC
GAGTCGGTGCTGAACGGCTTCAACGGCACAATTTTTGCCTATGGCCAGAC
CGGCACTGGCAAAACGCATACCATGGAAGGCACAGCAACATCGGAGGGGC
GCGGCATCATCCCCAATTCCTTCCAGCATATCTTTGAGCGTGTCGCCGTA
TTAGAGAATCAAGAGTTCCTGGTTCGAGCGTCCTACCTAGAAATTTACAA
CGAAGAAATCCGGGACTTGCTGTCCAAGGATCCCCGGAACAAGCTGGACC
TGAAGGAGCACCCGGATCGCGGGGTGTATGTTAAGGACCTTACGACATTT
GTGGTGAAAAATGCCGAAGAGATTGGCAAGGTTATGCAGGCAGGAAAACG
CAATCGTTCAACTGGAGCTACGCTCATGAACCAGAACTCGTCTCGATCGC
ATTCTGTCTTTACCATCATTATCGAGTGCTGCGACAACAGTGGGAAATGT
TTGGGCAGTGATACGTCATCCAAGCATCAACAAGACAACTCCCAACAGCA
AACTATCCGGGTGGGCAAGCTTAATCTTGTGGACCTGGCAGGAAGCGAGC
GACAAAGCAAAGCAGGTACCACGGGAGAGCGTTTCAAGGAGGCAACCAAG
ATCAACCTTTCGTTGTCGGCGCTGGGCAACGTCATCACGGCTCTCGTGGA
CGGCCGGGCGCAGCATGTGCCCTACCGTGATTCTAAGCTCACACGGCTTC
TGCAATCATCGCTGGGTGGGAACACCAAGACAGTCATGTGCGCCAATTGT
GGGCCTGCAGATTATAATTACGACGAAACCCTCTCCACGCTCCGGTACGC
CAACCGCGCCAAGAACATCAAAAACAAACCACACGTGAATGAAGATCCCA
AAGACACCATGCTTCGAGAGTTCAAAGAAGAAATTCTACGCCTGAAGGCT
CAGCTTGCTGCGCAAGACAAGCTCTCCTCCGGGCTCGGAGGTTCTGGAAC
CCTCGCGGTTGGCTTGGTGTTGGATGGCACAGCACAAGCGAAGGAAGAGA
ATTTTAGGGCCAATTACCACAAGCTGTACAAATACGGTAACGGAGGCAAC
GAGCGATGGCGAGAGGTGGCTGTCAGGGCGGAGAAGGAAAAAGAGGAGCT
GAAGTCCCAGGCTAAACGGGACATGGATGCCCTGCAAAGCAAGTCGTCGG
AGGAAAAAGAAGCTCTGCGGCAGCGGCTTCTCAAAGAGGCCGAAGATCGG
CGCGTGCTCGAAAGCAAGCTACTTGCCATGGAAGCCAAATTGATTCAGGG
TGGGGAGTCTGTAGACAGGGCAAACCACGACAAACTTATGAGAAAAGCCA
AGGGTGAAGTGGACGCGCAGCAGCAACATCAGCGACGGCTGGCCCAGGAA
CTTGCCATCAAGGAGGAAACGCACCTGGTCTTGGAAGAAGAATACTCGAG
TTTGCAAGAAGAGGTGGACGCCAAGACCCGAAAACTCCAGAGGCTCATTT
CCAAGTATCGCGGGGCCACACGCGAGAACCAGGACCTGCAAGCGGAGTTT
CAGCAGGAGCGCGAGGACTTGCTCGAAACGGTTCGACAATTGACGCAGCA
GCTGAAGCTTAAGGATCTTGTGGTGCAGAACTTTATCCCTCCCGAGATTG
CAATGACGATAGAGCAGCGTGCTACATGGAGCGAAGAACGGGATGCATGG
ACTGTGCCATTTTTGAGGTACGCCGGCAACAACTTGAAGAGAGTAAACTT
GAAGCGGCCGGTCGCATCTCCCTCGTCCCGGCGACCTGAGACGCAGTATG
CCCGAGCTAGGCGGAATCAGGACACGGACATGCGGTTTAGGGTAGATAAT
CTGTTGGACGTGGAACTTGACATGGACGACGGAGCACCCCCATTGCAGCA
CTACGGTGACGCGGTGGCGGCGGGTGCTGGTGTGGAAGCAGAAGCATATC
CGCCACTGGTCCTGAGGGTCTTAGACATGTCCTTGGACGAAGATGGGATT
GTACCCAATGAAGATGAGGAAGAAGAGGAGGAGAATCTAGACCCGTTTCC
TCCCTTGTCGCCCTATTTGCGGTATGCGGACCACCATTATGAACCGTCGA
TGGCTGCGACTGCTGCCGCGAATGAAAGGAGATAGATGGCTACAGTATCA
TCGTTCTCGTCATTCACGCATGAAATATCAGCCTCGTCTTCTCCTGGAGA
AGAAAGCGTGCGCGTGGTCATCCGTGTGCGGCCCTTGAATGAGAAGGAGA
AGCAGGACGAGCGCATCATTGTGACGCAGGCCAACGAAAGCAAAGGCGAG
ATTGAAGTCCAGAACCCTGCAGCACTATTGTCAGGGAGGACAGGGAGTGA
GTCAAAAAAATTTAGTTTCGACGCCGTCTTTGGTGAAACCAGCACGCAGC
AGCAGGTGTACGACATGTGCGCGGCCCCTGTCGTCGAGTCGGTGCTGAAC
GGCTTCAACGGCACAATTTTTGCCTATGGCCAGACCGGCACTGGCAAAAC
GCATACCATGGAAGGCACAGCAACATCGGAGGGGCGCGGCATCATCCCCA
ATTCCTTCCAGCATATCTTTGAGCGTGTCGCCGTATTAGAGAATCAAGAG
TTCCTGGTTCGAGCGTCCTACCTAGAAATTTACAACGAAGAAATCCGGGA
CTTGCTGTCCAAGGATCCCCGGAACAAGCTGGACCTGAAGGAGCACCCGG
ATCGCGGGGTGTATGTTAAGGACCTTACGACATTTGTGGTGAAAAATGCC
GAAGAGATTGGCAAGGTTATGCAGGCAGGAAAACGCAATCGTTCAACTGG
AGCTACGCTCATGAACCAGAACTCGTCTCGATCGCATTCTGTCTTTACCA
TCATTATCGAGTGCTGCGACAACAGTGGGAAATGTTTGGGCAGTGATACG
TCATCCAAGCATCAACAAGACAACTCCCAACAGCAAACTATCCGGGTGGG
CAAGCTTAATCTTGTGGACCTGGCAGGAAGCGAGCGACAAAGCAAAGCAG
GTACCACGGGAGAGCGTTTCAAGGAGGCAACCAAGATCAACCTTTCGTTG
TCGGCGCTGGGCAACGTCATCACGGCTCTCGTGGACGGCCGGGCGCAGCA
TGTGCCCTACCGTGATTCTAAGCTCACACGGCTTCTGCAATCATCGCTGG
GTGGGAACACCAAGACAGTCATGTGCGCCAATTGTGGGCCTGCAGATTAT
AATTACGACGAAACCCTCTCCACGCTCCGGTACGCCAACCGCGCCAAGAA
CATCAAAAACAAACCACACGTGAATGAAGATCCCAAAGACACCATGCTTC
GAGAGTTCAAAGAAGAAATTCTACGCCTGAAGGCTCAGCTTGCTGCGCAA
GACAAGCTCTCCTCCGGGCTCGGAGGTTCTGGAACCCTCGCGGTTGGCTT
GGTGTTGGATGGCACAGCACAAGCGAAGGAAGAGAATTTTAGGGCCAATT
ACCACAAGCTGTACAAATACGGTAACGGAGGCAACGAGCGATGGCGAGAG
GTGGCTGTCAGGGCGGAGAAGGAAAAAGAGGAGCTGAAGTCCCAGGCTAA
ACGGGACATGGATGCCCTGCAAAGCAAGTCGTCGGAGGAAAAAGAAGCTC
TGCGGCAGCGGCTTCTCAAAGAGGCCGAAGATCGGCGCGTGCTCGAAAGC
AAGCTACTTGCCATGGAAGCCAAATTGATTCAGGGTGGGGAGTCTGTAGA
CAGGGCAAACCACGACAAACTTATGAGAAAAGCCAAGGGTGAAGTGGACG
CGCAGCAGCAACATCAGCGACGGCTGGCCCAGGAACTTGCCATCAAGGAG
GAAACGCACCTGGTCTTGGAAGAAGAATACTCGAGTTTGCAAGAAGAGGT
GGACGCCAAGACCCGAAAACTCCAGAGGCTCATTTCCAAGTATCGCGGGG
CCACACGCGAGAACCAGGACCTGCAAGCGGAGTTTCAGCAGGAGCGCGAG
GACTTGCTCGAAACGGTTCGACAATTGACGCAGCAGCTGAAGCTTAAGGA
TCTTGTGGTGCAGAACTTTATCCCTCCCGAGATTGCAATGACGATAGAGC
AGCGTGCTACATGGAGCGAAGAACGGGATGCATGGACTGTGCCATTTTTG
AGGTACGCCGGCAACAACTTGAAGAGAGTAAACTTGAAGCGGCCGGTCGC
ATCTCCCTCGTCCCGGCGACCTGAGACGCAGTATGCCCGAGCTAGGCGGA
ATCAGGACACGGACATGCGGTTTAGGGTAGATAATCTGTTGGACGTGGAA
CTTGACATGGACGACGGAGCACCCCCATTGCAGCACTACGGTGACGCGGT
GGCGGCGGGTGCTGGTGTGGAAGCAGAAGCATATCCGCCACTGGTCCTGA
GGGTCTTAGACATGTCCTTGGACGAAGATGGGATTGTACCCAATGAAGAT
GAGGAAGAAGAGGAGGAGAATCTAGACCCGTTTCCTCCCTTGTCGCCCTA
TTTGCGGTATGCGGACCACCATTATGAACCGTCGATGGCTGCGACTGCTG
CCGCGAATGAAAGGAGATAGATGGCTACAGTATCATCGTTCTCGTCATTC
ACGCATGAAATATCAGCCTCGTCTTCTCCTGGAGAAGAAAGCGTGCGCGT
GGTCATCCGTGTGCGGCCCTTGAATGAGAAGGAGAAGCAGGACGAGCGCA
TCATTGTGACGCAGGCCAACGAAAGCAAAGGCGAGATTGAAGTCCAGAAC
CCTGCAGCACTATTGTCAGGGAGGACAGGGAGTGAGTCAAAAAAATTTAG
TTTCGACGCCGTCTTTGGTGAAACCAGCACGCAGCAGCAGGTGTACGACA
TGTGCGCGGCCCCTGTCGTCGAGTCGGTGCTGAACGGCTTCAACGGCACA
ATTTTTGCCTATGGCCAGACCGGCACTGGCAAAACGCATACCATGGAAGG
CACAGCAACATCGGAGGGGCGCGGCATCATCCCCAATTCCTTCCAGCATA
TCTTTGAGCGTGTCGCCGTATTAGAGAATCAAGAGTTCCTGGTTCGAGCG
TCCTACCTAGAAATTTACAACGAAGAAATCCGGGACTTGCTGTCCAAGGA
TCCCCGGAACAAGCTGGACCTGAAGGAGCACCCGGATCGCGGGGTGTATG
TTAAGGACCTTACGACATTTGTGGTGAAAAATGCCGAAGAGATTGGCAAG
GTTATGCAGGCAGGAAAACGCAATCGTTCAACTGGAGCTACGCTCATGAA
CCAGAACTCGTCTCGATCGCATTCTGTCTTTACCATCATTATCGAGTGCT
GCGACAACAGTGGGAAATGTTTGGGCAGTGATACGTCATCCAAGCATCAA
CAAGACAACTCCCAACAGCAAACTATCCGGGTGGGCAAGCTTAATCTTGT
GGACCTGGCAGGAAGCGAGCGACAAAGCAAAGCAGGTACCACGGGAGAGC
GTTTCAAGGAGGCAACCAAGATCAACCTTTCGTTGTCGGCGCTGGGCAAC
GTCATCACGGCTCTCGTGGACGGCCGGGCGCAGCATGTGCCCTACCGTGA
TTCTAAGCTCACACGGCTTCTGCAATCATCGCTGGGTGGGAACACCAAGA
CAGTCATGTGCGCCAATTGTGGGCCTGCAGATTATAATTACGACGAAACC
CTCTCCACGCTCCGGTACGCCAACCGCGCCAAGAACATCAAAAACAAACC
ACACGTGAATGAAGATCCCAAAGACACCATGCTTCGAGAGTTCAAAGAAG
AAATTCTACGCCTGAAGGCTCAGCTTGCTGCGCAAGACAAGCTCTCCTCC
GGGCTCGGAGGTTCTGGAACCCTCGCGGTTGGCTTGGTGTTGGATGGCAC
AGCACAAGCGAAGGAAGAGAATTTTAGGGCCAATTACCACAAGCTGTACA
AATACGGTAACGGAGGCAACGAGCGATGGCGAGAGGTGGCTGTCAGGGCG
GAGAAGGAAAAAGAGGAGCTGAAGTCCCAGGCTAAACGGGACATGGATGC
CCTGCAAAGCAAGTCGTCGGAGGAAAAAGAAGCTCTGCGGCAGCGGCTTC
TCAAAGAGGCCGAAGATCGGCGCGTGCTCGAAAGCAAGCTACTTGCCATG
GAAGCCAAATTGATTCAGGGTGGGGAGTCTGTAGACAGGGCAAACCACGA
CAAACTTATGAGAAAAGCCAAGGGTGAAGTGGACGCGCAGCAGCAACATC
AGCGACGGCTGGCCCAGGAACTTGCCATCAAGGAGGAAACGCACCTGGTC
TTGGAAGAAGAATACTCGAGTTTGCAAGAAGAGGTGGACGCCAAGACCCG
AAAACTCCAGAGGCTCATTTCCAAGTATCGCGGGGCCACACGCGAGAACC
AGGACCTGCAAGCGGAGTTTCAGCAGGAGCGCGAGGACTTGCTCGAAACG
GTTCGACAATTGACGCAGCAGCTGAAGCTTAAGGATCTTGTGGTGCAGAA
CTTTATCCCTCCCGAGATTGCAATGACGATAGAGCAGCGTGCTACATGGA
GCGAAGAACGGGATGCATGGACTGTGCCATTTTTGAGGTACGCCGGCAAC
AACTTGAAGAGAGTAAACTTGAAGCGGCCGGTCGCATCTCCCTCGTCCCG
GCGACCTGAGACGCAGTATGCCCGAGCTAGGCGGAATCAGGACACGGACA
TGCGGTTTAGGGTAGATAATCTGTTGGACGTGGAACTTGACATGGACGAC
GGAGCACCCCCATTGCAGCACTACGGTGACGCGGTGGCGGCGGGTGCTGG
TGTGGAAGCAGAAGCATATCCGCCACTGGTCCTGAGGGTCTTAGACATGT
CCTTGGACGAAGATGGGATTGTACCCAATGAAGATGAGGAAGAAGAGGAG
GAGAATCTAGACCCGTTTCCTCCCTTGTCGCCCTATTTGCGGTATGCGGA
CCACCATTATGAACCGTCGATGGCTGCGACTGCTGCCGCGAATGAAAGGA
GATAG

Synonyms

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