jgi.p|Nanoce1779_2|262917, mRNA_9818 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|262917
Unique Name	mRNA_9818
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	1648
Alignment location	scaffold_32:191055..194236 +

Link to JBrowse

Properties


Property Name	Value
TranscriptId	263003
Track	FilteredModels2
ProteinId	262917

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_32	supercontig	scaffold_32:191055..194236 +

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\|262917	gene_9818	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\|262917	mRNA_9818-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_9818	CDS_9818	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_32:191055..194236+
coding sequence from alignment at scaffold_32:191055..194236+

mRNA sequence

>mRNA_9818 ID=mRNA_9818|Name=jgi.p|Nanoce1779_2|262917|organism=Nannochloropsis oceanica|type=mRNA|length=1648bp
AGCAACGATAAGGGAAACTACGCGCAAGGGACGAAGCGCCGCAATTATTC
ATTGACGTTACATACCTCTCGTTGGAAGGGGAGGTGCCAGGGGGCAGCAG
AGCCAGGGAGGATTGTCCCAAACGGACAGCATGAGGAGCAAACCTGGTTC
AAACACCACCACAGCCATGACAAAAACCAAGGCCAAACAATCCAAGGCGA
CAAAGACGACGACAGTGAGCGCCAGCGCGGCCCCTGCCTCTCTTCCTCCC
CCTCCGCCCGCCCTTCTGTCCAAAGCCCAAGCCATTCACCGCCTCCTCGA
TCAACTATACCCTAACCCTCCCATTCCTCTCGACCACTTCGACAACTACT
CCTTGTTGATTGCTGTGATCCTGTCTGCGCAGACGACGGATGGAAAGGTA
AACGAAGTAACACCCGGACTGTTCAAAGTTGCCCCCACACCCGCCCACCT
CGCGGCCCTCCCCCATGCCACCGTCCTTAGCCTCATCCGCTCCGTGGGCC
TGGCCCCGGGGAAGGCCAAAAACATCATCGGCGCGGCGAAAATGCTGGTG
GACACGTTTGGAGGACAGGTCCCTTCCACGTTCGAGGAACTGGAGTCTCT
CCCCGGGGTAGGCCATAAAACCGCCTCCGTCCTCATGAGCCAGGCCTTCA
ATTACCCTGCTTTTCCCGTCGATACGCACGTCCATCGGTGCGCCCTCCGG
TGGGGTCTCTGCAAGGAGACGCAAGACGTCAAGAAAGTTGAGGCTGCCCT
CAAGTCTCTCTTCCCCCGGGACGCCTGGTCCCGTATTGGCCTTCAGATCA
TCTATTTTGGCCGGGAGCACTGCCCCGCGAAGAAACACGTGTCCAGTGCA
TGTCCCATCTGCTGCTGGGTCAAGGGCGGCAAAAGCAAGGGGGCGCCGCC
TCCTTCCCTCCCCCTCACGTCATCAGGAAAGGGAGGGGGGAAGAATGACG
GGAAGGAGGGAGGACTGGAGGAGTGGTTGATACAGTTCGAAGGCGCATCA
CCGGGAAAGGCGAACAAGAATATCATTCTGTACAGCGAGCGGAGGAAGGA
GGAGGAGGGAGGGAAGGAGGGCAAGGGGAGGGCGGTCTTGGCGGATGTGA
TGGTGATGGAAAAGGAGGAGGAGAAAGGGAAGGAGAGGGAGGGAAGAAAG
GTTGGGGGCAAAAGGACGGCGATTGTGAAGACGGGATCGAAGATGGTTGT
TGTCAAGAAGGAGGAGGAAGGGAAGGAGGGAGGGAAGGAGCGATGGAGTA
TCAAGACGAGGAATGTGACGACAGCTTCGACGATGGTTGTTGTCAAGAAG
GAGGAGGGAAGGAAGGAGGGCGGGAAAGAGGGAGGGAGGGTGAAAAGGGA
AAAGGTGACGAGGGCGTCGAAGGTGACTTTTGTTGAGAAGGAGGAGGGAG
GAAAGGAGAGAGGGAGGATGAAGAGGGCCTTGGTTGTTACAGTGAAAACG
GAGGAGTGTGGAGAGGGGAAGGACGGAGGGAAGAAGCGAAAGGTCGCGAC
ACGCAGGACGGTGAGTATCAAAAGCGAGGGAGGGAAGGAGCAACGCAAAG
GGTGCGTGACACGGACACGAAGTCTCAAGTGAGGGAGGGATAGCATGGGT
GTGGGAGGGAGGAAGGTAAGGCAAGGCAAGCAAGCACCACACTTGTCA

protein sequence of jgi.p|Nanoce1779_2|262917

>mRNA_9818-protein ID=mRNA_9818-protein|Name=jgi.p|Nanoce1779_2|262917|organism=Nannochloropsis oceanica|type=polypeptide|length=484bp
MRSKPGSNTTTAMTKTKAKQSKATKTTTVSASAAPASLPPPPPALLSKAQ
AIHRLLDQLYPNPPIPLDHFDNYSLLIAVILSAQTTDGKVNEVTPGLFKV
APTPAHLAALPHATVLSLIRSVGLAPGKAKNIIGAAKMLVDTFGGQVPST
FEELESLPGVGHKTASVLMSQAFNYPAFPVDTHVHRCALRWGLCKETQDV
KKVEAALKSLFPRDAWSRIGLQIIYFGREHCPAKKHVSSACPICCWVKGG
KSKGAPPPSLPLTSSGKGGGKNDGKEGGLEEWLIQFEGASPGKANKNIIL
YSERRKEEEGGKEGKGRAVLADVMVMEKEEEKGKEREGRKVGGKRTAIVK
TGSKMVVVKKEEEGKEGGKERWSIKTRNVTTASTMVVVKKEEGRKEGGKE
GGRVKREKVTRASKVTFVEKEEGGKERGRMKRALVVTVKTEECGEGKDGG
KKRKVATRRTVSIKSEGGKEQRKGCVTRTRSLK*

mRNA from alignment at scaffold_32:191055..194236+

Legend: polypeptideCDS

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

>mRNA_9818 ID=mRNA_9818|Name=jgi.p|Nanoce1779_2|262917|organism=Nannochloropsis oceanica|type=mRNA|length=3182bp|location=Sequence derived from alignment at scaffold_32:191055..194236+ (Nannochloropsis oceanica)
AGCAACGATAAGGGAAACTACGCGCAAGGGACGAAGCGCCGCAATTATTC
ATTGACGTTACATACCTCTCGTTGGAAGGGGAGGTGCCAGGTACTGTACA
GGGAACGAAGCATGGGATCAAGCGAGGAGGAAAAGCATACCGACGATAAC
CGTATCGCCCGACAAGGCAGCAGCCAGAAAAAAGCAGAAGCAGAAGGCGA
GGCGGCGATGCTCTTGTATCGTCTTGGTCAGAGCATCCATGGCTAACCTA
CACTCATTTTACTGCTTTCATTCGCAACAACCATTGCCAGGGGGCAGCAG
AGCCAGGGAGGATTGTCCCAAACGGACAGCATGAGGTAAGCAAGTGCAGC
TATAGCAATACGACATGCTCCATAACCTCTTCCATACAAGCACCCACTCC
TGCCGCGACCCCACCACAAACAGCAGGAGCAAACCTGGTTCAAACACCAC
CACAGCCATGACAAAAACCAAGGCCAAACAATCCAAGGCGACAAAGACGA
CGACAGTGAGCGCCAGCGCGGCCCCTGCCTCTCTTCCTCCCCCTCCGCCC
GCCCTTCTGTCCAAAGCCCAAGCCATTCACCGCCTCCTCGATCAACTATA
CCCTAACCCTCCCATTCCTCTCGACCACTTCGACAACTACTCCTTGTTGA
TTGCTGTGATCCTGTCTGCGCAGACGACGGATGGAAAGGTGCGTGCGTGC
GGATAAATTGGGAGGGAGGGAGGGAGGGAGGAAGGGAAGGAGGGAGGGAG
GGAGGGTTGCCTGCTCGAGGCACTGAGTACTGGGAGTACAGGTGACATGA
TATTCAGAGACGGCGGTGGTCGAGATTGAAAGCATTCATCCAAGGAAAAT
CTTTACCATATCTTTCCCTTCTCAGCCCTTATCGCAGCTCCCTCAGTCCC
CTCCCTCCCTTCCTCCCTTCCTCACCCTCCTTTCCCTCCCTCCTTCCATC
CTTCCCTCCCCTCCCCTCTATCAAGGTAAACGAAGTAACACCCGGACTGT
TCAAAGTTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACC
GTCCTTAGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAA
CATCATCGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTAC
GCTTTTAAGTTTATGTTTCAGATTCATTTAATATGTGAGAAGTGATTCAT
CTCCCCGACTCTTTCTCTTGTTTCTCGATCCCCCCTGCCTCTCCATGATT
CGATGTTTCACTAGTAGTATTATCACCACCAACATCATAAACCTTTTGAT
TACTCTTAGTGTCTATTGGTGTTGTTGATACCAATATCTTATCCCGGTCC
TCCTTTCATCGTGAGCCTGCATGTACGTGCCCTGCTGATCCACTCGTCCC
TCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTC
CCTCCCTCCCCCAGGTCCCTTCCACGTTCGAGGAACTGGAGTCTCTCCCC
GGGGTAGGCCATAAAACCGCCTCCGTCCTCATGAGCCAGGCCTTCAATTA
CCCTGCTTTTCCCGTCGATACGCACGTCCATCGGTGCGCCCTCCGGTGGG
GTCTCTGCAAGGAGACGCAAGACGTCAAGAAAGTTGAGGTAGATTGCCCT
CCCTCCCCCTCTCCTTCCTTCCCTCCTTCCCCCCCTCTTCACCCCCCTCC
TTCCCCCCCTCCTTCCCTCCCTCCTTCCCTCCCTCCTTCCCTCCTTCCTT
CCCCCCTTCCTTCTCTCCCTCCTTCTCTCCCTCCCCCCTTCCCTCCTTCT
CTCCCTACCGCCTCCTTCCCCCCCTCCCCCCTTCCCTACTTCTCTCTCCT
TCCCTCTCTCCTTCCCTCCCTCCTTCCCCGTCCCCTCCTCCCTCCTTCCC
TCCCTCCTTCCCTCCCTCCTTCCCCCCCTCCTTCCCTCCCTCCCTCCCTC
CCTCCTTCCCTCCCTTTCTTCGGCCTTCCACCAGCTGGGTCTTCTTTTCC
CTCAACTCATCCTTTTGACCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCT
CCCGCCCGCCCTCCGTCCCTCCCTCCCTCCAGGCTGCCCTCAAGTCTCTC
TTCCCCCGGGACGCCTGGTCCCGTATTGGCCTTCAGATCATCTATTTTGG
TATGCCCCTCCCTCTCTCCCTCCCTCCCTCCCTCTGTCGTTTTCCCTTTC
CCTCTTATCCTCCTCCCCTCCCTTCCTCGTGCCTTCCCTCCCTCCTTCTC
TCCCTCTCTTTCTCGCGCCACAGTTCCCACTGACTCACCAATCCTATCCT
TGTACTCTCCCCCCCTCCCTCCCTCCTTCCCCTCCTCCCTCAGGCCGGGA
GCACTGCCCCGCGAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCT
GGGTCAAGGGCGGCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTC
ACGTCATCAGGAAAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACT
GGAGGAGTGGTTGATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACA
AGAATATCATTCTGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAG
GAGGGCAAGGGGAGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGA
GGAGGAGAAAGGGAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGA
CGGCGATTGTGAAGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAG
GAAGGGAAGGAGGGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGT
GACGACAGCTTCGACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGG
AGGGCGGGAAAGAGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCG
TCGAAGGTGACTTTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAG
GATGAAGAGGGCCTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGG
GGAAGGACGGAGGGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGT
ATCAAAAGCGAGGGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGAC
ACGAAGTCTCAAGTGAGGGAGGGATAGCATGGGTGTGGGAGGGAGGAAGG
TAAGGCAAGGCAAGCAAGCACCACACTTGTCA

Coding sequence (CDS) from alignment at scaffold_32:191055..194236+

>mRNA_9818 ID=mRNA_9818|Name=jgi.p|Nanoce1779_2|262917|organism=Nannochloropsis oceanica|type=CDS|length=8712bp|location=Sequence derived from alignment at scaffold_32:191055..194236+ (Nannochloropsis oceanica)
ATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGACAAAAACCAA
GGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGCGCCAGCGCGG
CCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTCCAAAGCCCAA
GCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTCCCATTCCTCT
CGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATCCTGTCTGCGC
AGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACTGTTCAAAGTT
GCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACCGTCCTTAG
CCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAACATCATCG
GCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTCCCTTCCACG
TTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAACCGCCTCCGT
CCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTCGATACGCACG
TCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGACGCAAGACGTC
AAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGGACGCCTGGTC
CCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCACTGCCCCGCGA
AGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGTCAAGGGCGGC
AAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGTCATCAGGAAA
GGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAGGAGTGGTTGA
TACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAATATCATTCTG
TACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGGGCAAGGGGAG
GGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAGGAGAAAGGGA
AGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGCGATTGTGAAG
ACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAGGGAAGGAGGG
AGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACGACAGCTTCGA
CGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGGCGGGAAAGAG
GGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGAAGGTGACTTT
TGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATGAAGAGGGCCT
TGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAAGGACGGAGGG
AAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCAAAAGCGAGGG
AGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGAAGTCTCAAGT
GAATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGACAAAAACC
AAGGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGCGCCAGCGC
GGCCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTCCAAAGCCC
AAGCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTCCCATTCCT
CTCGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATCCTGTCTGC
GCAGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACTGTTCAAAG
TTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACCGTCCTT
AGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAACATCAT
CGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTCCCTTCCA
CGTTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAACCGCCTCC
GTCCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTCGATACGCA
CGTCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGACGCAAGACG
TCAAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGGACGCCTGG
TCCCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCACTGCCCCGC
GAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGTCAAGGGCG
GCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGTCATCAGGA
AAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAGGAGTGGTT
GATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAATATCATTC
TGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGGGCAAGGGG
AGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAGGAGAAAGG
GAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGCGATTGTGA
AGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAGGGAAGGAG
GGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACGACAGCTTC
GACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGGCGGGAAAG
AGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGAAGGTGACT
TTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATGAAGAGGGC
CTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAAGGACGGAG
GGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCAAAAGCGAG
GGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGAAGTCTCAA
GTGAATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGACAAAAA
CCAAGGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGCGCCAGC
GCGGCCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTCCAAAGC
CCAAGCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTCCCATTC
CTCTCGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATCCTGTCT
GCGCAGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACTGTTCAA
AGTTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACCGTCC
TTAGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAACATC
ATCGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTCCCTTC
CACGTTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAACCGCCT
CCGTCCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTCGATACG
CACGTCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGACGCAAGA
CGTCAAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGGACGCCT
GGTCCCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCACTGCCCC
GCGAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGTCAAGGG
CGGCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGTCATCAG
GAAAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAGGAGTGG
TTGATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAATATCAT
TCTGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGGGCAAGG
GGAGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAGGAGAAA
GGGAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGCGATTGT
GAAGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAGGGAAGG
AGGGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACGACAGCT
TCGACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGGCGGGAA
AGAGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGAAGGTGA
CTTTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATGAAGAGG
GCCTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAAGGACGG
AGGGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCAAAAGCG
AGGGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGAAGTCTC
AAGTGAATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGACAAA
AACCAAGGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGCGCCA
GCGCGGCCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTCCAAA
GCCCAAGCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTCCCAT
TCCTCTCGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATCCTGT
CTGCGCAGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACTGTTC
AAAGTTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACCGT
CCTTAGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAACA
TCATCGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTCCCT
TCCACGTTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAACCGC
CTCCGTCCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTCGATA
CGCACGTCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGACGCAA
GACGTCAAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGGACGC
CTGGTCCCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCACTGCC
CCGCGAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGTCAAG
GGCGGCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGTCATC
AGGAAAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAGGAGT
GGTTGATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAATATC
ATTCTGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGGGCAA
GGGGAGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAGGAGA
AAGGGAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGCGATT
GTGAAGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAGGGAA
GGAGGGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACGACAG
CTTCGACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGGCGGG
AAAGAGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGAAGGT
GACTTTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATGAAGA
GGGCCTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAAGGAC
GGAGGGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCAAAAG
CGAGGGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGAAGTC
TCAAGTGAATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGACA
AAAACCAAGGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGCGC
CAGCGCGGCCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTCCA
AAGCCCAAGCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTCCC
ATTCCTCTCGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATCCT
GTCTGCGCAGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACTGT
TCAAAGTTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCACC
GTCCTTAGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAAAA
CATCATCGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGTCC
CTTCCACGTTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAACC
GCCTCCGTCCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTCGA
TACGCACGTCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGACGC
AAGACGTCAAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGGAC
GCCTGGTCCCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCACTG
CCCCGCGAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGTCA
AGGGCGGCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGTCA
TCAGGAAAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAGGA
GTGGTTGATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAATA
TCATTCTGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGGGC
AAGGGGAGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAGGA
GAAAGGGAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGCGA
TTGTGAAGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAGGG
AAGGAGGGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACGAC
AGCTTCGACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGGCG
GGAAAGAGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGAAG
GTGACTTTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATGAA
GAGGGCCTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAAGG
ACGGAGGGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCAAA
AGCGAGGGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGAAG
TCTCAAGTGAATGAGGAGCAAACCTGGTTCAAACACCACCACAGCCATGA
CAAAAACCAAGGCCAAACAATCCAAGGCGACAAAGACGACGACAGTGAGC
GCCAGCGCGGCCCCTGCCTCTCTTCCTCCCCCTCCGCCCGCCCTTCTGTC
CAAAGCCCAAGCCATTCACCGCCTCCTCGATCAACTATACCCTAACCCTC
CCATTCCTCTCGACCACTTCGACAACTACTCCTTGTTGATTGCTGTGATC
CTGTCTGCGCAGACGACGGATGGAAAGGTAAACGAAGTAACACCCGGACT
GTTCAAAGTTGCCCCCACACCCGCCCACCTCGCGGCCCTCCCCCATGCCA
CCGTCCTTAGCCTCATCCGCTCCGTGGGCCTGGCCCCGGGGAAGGCCAAA
AACATCATCGGCGCGGCGAAAATGCTGGTGGACACGTTTGGAGGACAGGT
CCCTTCCACGTTCGAGGAACTGGAGTCTCTCCCCGGGGTAGGCCATAAAA
CCGCCTCCGTCCTCATGAGCCAGGCCTTCAATTACCCTGCTTTTCCCGTC
GATACGCACGTCCATCGGTGCGCCCTCCGGTGGGGTCTCTGCAAGGAGAC
GCAAGACGTCAAGAAAGTTGAGGCTGCCCTCAAGTCTCTCTTCCCCCGGG
ACGCCTGGTCCCGTATTGGCCTTCAGATCATCTATTTTGGCCGGGAGCAC
TGCCCCGCGAAGAAACACGTGTCCAGTGCATGTCCCATCTGCTGCTGGGT
CAAGGGCGGCAAAAGCAAGGGGGCGCCGCCTCCTTCCCTCCCCCTCACGT
CATCAGGAAAGGGAGGGGGGAAGAATGACGGGAAGGAGGGAGGACTGGAG
GAGTGGTTGATACAGTTCGAAGGCGCATCACCGGGAAAGGCGAACAAGAA
TATCATTCTGTACAGCGAGCGGAGGAAGGAGGAGGAGGGAGGGAAGGAGG
GCAAGGGGAGGGCGGTCTTGGCGGATGTGATGGTGATGGAAAAGGAGGAG
GAGAAAGGGAAGGAGAGGGAGGGAAGAAAGGTTGGGGGCAAAAGGACGGC
GATTGTGAAGACGGGATCGAAGATGGTTGTTGTCAAGAAGGAGGAGGAAG
GGAAGGAGGGAGGGAAGGAGCGATGGAGTATCAAGACGAGGAATGTGACG
ACAGCTTCGACGATGGTTGTTGTCAAGAAGGAGGAGGGAAGGAAGGAGGG
CGGGAAAGAGGGAGGGAGGGTGAAAAGGGAAAAGGTGACGAGGGCGTCGA
AGGTGACTTTTGTTGAGAAGGAGGAGGGAGGAAAGGAGAGAGGGAGGATG
AAGAGGGCCTTGGTTGTTACAGTGAAAACGGAGGAGTGTGGAGAGGGGAA
GGACGGAGGGAAGAAGCGAAAGGTCGCGACACGCAGGACGGTGAGTATCA
AAAGCGAGGGAGGGAAGGAGCAACGCAAAGGGTGCGTGACACGGACACGA
AGTCTCAAGTGA

Synonyms

Publications