jgi.p|Nanoce1779_2|606651, mRNA_9143 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|606651
Unique Name	mRNA_9143
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	1982
Alignment location	scaffold_36:52100..55201 +

Link to JBrowse

Properties


Property Name	Value
TranscriptId	606737
Track	FilteredModels2
ProteinId	606651

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_36	supercontig	scaffold_36:52100..55201 +

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\|606651	gene_9143	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\|606651	mRNA_9143-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_9143	CDS_9143	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_36:52100..55201+
coding sequence from alignment at scaffold_36:52100..55201+

mRNA sequence

>mRNA_9143 ID=mRNA_9143|Name=jgi.p|Nanoce1779_2|606651|organism=Nannochloropsis oceanica|type=mRNA|length=1982bp
CAGGTCCTCCTTCTGCCGTGTCCCCTCCTGATCCTGGGGTGTGTGTACGC
GCCAAGGCGTGAGACCGAGAAGAAAGAGAGCGAGAGTTTAGGAGGAGCAG
TAGCAAGCCTTGCCTCCCCTTACTTCCCTCCCTCCCTTCTTTCCCCTATG
AAGCAGTGCAGTCATCACGTCATGCCTTCACGCACACCAACAGCTTTCTC
CTTCGTCTTCCTACCCTCCCTCGTCCTCTCGTTCGTCTTCCTACAATGTT
GCACACTTTTTCCCTCGACCGCCGCCTTCCTCCTTCCTTCCTCCTCCCTC
CCTTCCACCTCCTCTGACTACTATTCCTCATCCTCCTTGCGACGACGTGT
CGCCCTCCAAATGCAAGGAGAAGGCTCTGGCACCGGCAAATCTGTGGCAG
GTCGTTCTTTTCTGAGGTCCAAGCCTATTGGTGTGGGCAGTGCGGCCCCT
GCTGACGTGATAAAGAACACGGACCTTGAAAGCGTGGTGGAGACTTCGGA
TGAATGGATTTTCACCCGGACAGGTATCTCTCAACGCCGCATCCTTCCCT
CGGGCGGGCAAATTCGGGGCTTGGCCGCCACGGCCGCTGCCCGTGCTCTA
GAAAACGCAGGGCTGGAAGGAAAGGACATTGATGTGGTGATTCTCGCCAC
GTCTTCCCCGGACGATCTCTTCGGGGATGCCACGAGCGTGGCGGCGGCCG
TTGGTGCAACGGGCGCCGTGGCGTTTGATTTAACGGCCGCTTGCTCGGGC
TTTCTCTTCGGCGTGGTAACGGCGTCGCAGTTCCTCCACTCGGGGTGCTA
CCGCCACGCCCTGGTGGTGGGCGCTGACGCCTTGTCCAGATGGGTTGACT
GGGAGGATCGGAACTCGTGTATTCTGTTCGGAGATGGCGCAGGCGCGGTG
GTGCTGACGGTGGCAGAAGGAGATGCCGATTCGGGTGTCTTGGGCTTTGC
CATGCACAGCGATGGGACAGGTCAAGGCGACTTGAACCTCCAGTTCGCGA
AGGACGAGTCTCAGAGCCCCCCCGAGATCAATGCCGTCACGCCCTACAAG
GGAAAGTACAACAACATTGCCATGAACGGAAAGGAAGTGTACAAATTTGC
CACGCGCAAGGTGCCTACCGTCATCGAAGAGGCCTTGGCTAACGCGGGGC
TGGGGGTAGAGGAGGTTGACTGGTTGTTGCTGCATCAGGCCAACATTCGC
ATCATGGACGTAGTGGCCGACCGGCTAGGTCTGTCGAAGGACAAGATCCT
GACTAACCTCTCCGACTATGGCAACACCTCCGCTGGCTCAATTCCCCTTG
CTCTCGACGAGGCCGTCAAGTCCGGGAAGGTCAAGAAAGGCGACATCATT
GCGTGCGCTGGATTCGGAGCCGGTCTATCGTGGGGCAGCGCTATCATTAG
ATGGCAGGGCTAGGGAAGGAGGCAGGGAGGGAGGGAGGGAGGGAGGGAGA
GAGGAAGTCTTCATGAGGGACTCTCTCAGGATAGTGGTATCATCAGATAC
CAGGGCTACAGGGAAAGAGGGAAGAAGGTAAAAAAGGTGAAAAGGAAGGA
AGGGAAAAGGAGGAAGAAAAAAGGAAGGGAAGGAGGGAGTAGGCAATTGT
GTGTGAATGAGAGAGAGGAGGGGGGGGGGTAGGGAGAGTCTGTGTACTGT
ATCTTGAGACAACTTTTATGTTATTTGATGTGTTGTGGTGCGGCAAGAGG
GTGCGTGCAGTGGGCGCTTCTCGCTTTCCCATTTTTTCCTTGTGGCGCTC
GAAATTGAGGATGATTAGGGAAGATATATATGTATGCATGTGTGAATGTG
TGAGAGAGAGGGCGGTAGAGAGTGAGGAGTATAGAAAGAGTGAAGGGGGA
AGATGCATGATTTTACACGTCCTCTTCATGTCTTACGTGAATGCCCTCGT
CTCCTTCTTGACTTTTTTTTGTTTCTTAGGACGTAGTGAAAGTGCTGTCA
GTCGAACGCGGGAGGGAGGGAGGGAGGGAGGG

protein sequence of jgi.p|Nanoce1779_2|606651

>mRNA_9143-protein ID=mRNA_9143-protein|Name=jgi.p|Nanoce1779_2|606651|organism=Nannochloropsis oceanica|type=polypeptide|length=422bp
MKQCSHHVMPSRTPTAFSFVFLPSLVLSFVFLQCCTLFPSTAAFLLPSSS
LPSTSSDYYSSSSLRRRVALQMQGEGSGTGKSVAGRSFLRSKPIGVGSAA
PADVIKNTDLESVVETSDEWIFTRTGISQRRILPSGGQIRGLAATAAARA
LENAGLEGKDIDVVILATSSPDDLFGDATSVAAAVGATGAVAFDLTAACS
GFLFGVVTASQFLHSGCYRHALVVGADALSRWVDWEDRNSCILFGDGAGA
VVLTVAEGDADSGVLGFAMHSDGTGQGDLNLQFAKDESQSPPEINAVTPY
KGKYNNIAMNGKEVYKFATRKVPTVIEEALANAGLGVEEVDWLLLHQANI
RIMDVVADRLGLSKDKILTNLSDYGNTSAGSIPLALDEAVKSGKVKKGDI
IACAGFGAGLSWGSAIIRWQG*

mRNA from alignment at scaffold_36:52100..55201+

Legend: polypeptideCDS

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

>mRNA_9143 ID=mRNA_9143|Name=jgi.p|Nanoce1779_2|606651|organism=Nannochloropsis oceanica|type=mRNA|length=3102bp|location=Sequence derived from alignment at scaffold_36:52100..55201+ (Nannochloropsis oceanica)
CAGGTCCTCCTTCTGCCGTGTCCCCTCCTGATCCTGGGGTGTGTGTACGC
GCCAAGGCGTGAGACCGAGAAGAAAGAGAGCGAGAGTTTAGGAGGAGCAG
TAGCAAGCCTTGCCTCCCCTTACTTCCCTCCCTCCCTTCTTTCCCCTATG
AAGCAGTGCAGTCATCACGTCATGCCTTCACGGTACGTTCGTCACGGGGT
ATTTTTTCCCCCATACCCACCACCACCCTCCATCTCCATCCCTAACCCTC
TCCCTTCCTTCTCCCTCCTTCACTCCCCTTGTCCCAATAATAGCACACCA
ACAGCTTTCTCCTTCGTCTTCCTACCCTCCCTCGTCCTCTCGTTCGTCTT
CCTACAATGTTGCACACTTTTTCCCTCGACCGCCGCCTTCCTCCTTCCTT
CCTCCTCCCTCCCTTCCACCTCCTCTGACTACTATTCCTCATCCTCCTTG
CGACGACGTGTCGCCCTCCAAATGCAAGGAGAAGGCTCTGGCACCGGCAA
ATCTGTGGCAGGTCGTTCTTTTCTGAGGTCCAAGCCTATTGGTGTGGGCA
GTGCGGCCCCTGCTGACGTGATAAAGAACACGGACCTTGAAAGCGTGGTG
GAGACTTCGGATGAATGGATTTTCACCCGGACAGGTACAATGGGAGAGAG
GGGAAGGCGAGAAGGGGATGGGAGGGAGGGATAAATGAAGGGAAGGATGA
CGATTACATGCGTGGTTATCTTGCGGACGGTCCAAGACGTGCGTGTGTCC
TTCCTCACTCACGGCTCGCAATCTCCCCTCCATATACATCACGTCTTCCC
TCCCTCCTCATTCTTTTCCCCCTTCCCAGGTATCTCTCAACGCCGCATCC
TTCCCTCGGGCGGGCAAATTCGGGGCTTGGCCGCCACGGCCGCTGCCCGT
GCTCTAGAAAACGCAGGGCTGGAAGGAAAGGACATTGATGTGGTGATTCT
CGCCACGTCTTCCCCGGACGATCTCTTCGGGGATGCCACGAGCGTGGCGG
CGGCCGTTGGTGCAACGGGCGCCGTGGCGTTTGATTTAACGGCCGCTTGC
TCGGGCTTTCTCTTCGGCGTGGTAACGGCGTCGCAGTTCCTCCACTCGGG
GTGCTACCGCCACGCCCTGGTGGTGGGCGCTGACGCCTTGTCCAGATGGG
TTGACTGGGAGGATCGGAACTCGTGTATTCTGTTCGGAGATGGCGCAGGC
GCGGTGGTGCTGACGGTGGCAGAAGGAGATGCCGATTCGGGTGTCTTGGG
CTTTGCCATGCACAGCGATGGGACAGGTGAGAGGGGGAGAGAGGGAAGGA
GGGAGGAAGGGAGGGAGGGATGGAGGGAGGGGCGGATGTAGCAGCCTTCA
CTTCGTCTTTCTTTGAAGGTCTCTCTCCTCACCGAGCCTATATCATTCAG
ACACCCATACCACCATTCCAGCAAATCAAGTGATTCTCAATTTTCCCTTC
CTTCCTCCCTCCCTCCCTCTCTTCCCACCTACCTAGGTCAAGGCGACTTG
AACCTCCAGTTCGCGAAGGACGAGTCTCAGAGCCCCCCCGAGATCAATGC
CGTCACGCCCTACAAGGGAAAGTACAACAACATTGCCATGAACGGAAAGG
AAGTGTACAAATTTGCCACGCGCAAGGTACGTATGTCCCTTCCCTCCCTC
CCTCCCTCCCTCCCTCCCTCCCTCCTTCCTGCCCTTTCCATCTTCTCCCT
GATGTCCGCCTCGCGCCATCAATTTCTGAAATCAGTCCTCCCTCTCCTCC
CTCTCTTCCCTCCCTCTCTTCCCTCCCCCTCTCCCTTTGTAGGTGCCTAC
CGTCATCGAAGAGGCCTTGGCTAACGCGGGGCTGGGGGTAGAGGAGGTTG
ACTGGTTGTTGCTGCATCAGGCCAACATTCGCATCATGGACGTAGTGGCC
GACCGGCTAGGTATGTGAAACCCTCCCCTCCCGCCCGCCCTCCCTCGGGA
GATATGATGGGTATTGGTTTTTTTGGAATATGATGTGATGGGTGAAATAC
AAATATATTGGAATTATGATGTGATAGGTGTTGGTAATTTCGACGGGCTG
CAGGGGATGAAAGCCCTAGGAGAGGCCAGGATGACTGAAACCATATATTC
ACCCCCCCTTCCCTCCTTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCT
CCCTCCAGGTCTGTCGAAGGACAAGATCCTGACTAACCTCTCCGACTATG
GCAACACCTCCGCTGGCTCAATTCCCCTTGCTCTCGACGAGGCCGTCAAG
GTACGCCCTCCCTCCCCCCCCCCCCTCCCTCCCTCCCTCCCTTCCCTCCT
CCATTCACTGGCACAACGTCTGCCCTCCAATCACGTCGTTCTGACGCCCA
TATCGCCCCCCCTCTAAAATATTGAACGACAAGGAAAAATCATCCCTCCC
TCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCAGTCCGGGAAGG
TCAAGAAAGGCGACATCATTGCGTGCGCTGGATTCGGAGCCGGTCTATCG
TGGGGCAGCGCTATCATTAGATGGCAGGGCTAGGGAAGGAGGCAGGGAGG
GAGGGAGGGAGGGAGGGAGAGAGGAAGTCTTCATGAGGGACTCTCTCAGG
ATAGTGGTATCATCAGATACCAGGGCTACAGGGAAAGAGGGAAGAAGGTA
AAAAAGGTGAAAAGGAAGGAAGGGAAAAGGAGGAAGAAAAAAGGAAGGGA
AGGAGGGAGTAGGCAATTGTGTGTGAATGAGAGAGAGGAGGGGGGGGGGT
AGGGAGAGTCTGTGTACTGTATCTTGAGACAACTTTTATGTTATTTGATG
TGTTGTGGTGCGGCAAGAGGGTGCGTGCAGTGGGCGCTTCTCGCTTTCCC
ATTTTTTCCTTGTGGCGCTCGAAATTGAGGATGATTAGGGAAGATATATA
TGTATGCATGTGTGAATGTGTGAGAGAGAGGGCGGTAGAGAGTGAGGAGT
ATAGAAAGAGTGAAGGGGGAAGATGCATGATTTTACACGTCCTCTTCATG
TCTTACGTGAATGCCCTCGTCTCCTTCTTGACTTTTTTTTGTTTCTTAGG
ACGTAGTGAAAGTGCTGTCAGTCGAACGCGGGAGGGAGGGAGGGAGGGAG
GG

Coding sequence (CDS) from alignment at scaffold_36:52100..55201+

>mRNA_9143 ID=mRNA_9143|Name=jgi.p|Nanoce1779_2|606651|organism=Nannochloropsis oceanica|type=CDS|length=8862bp|location=Sequence derived from alignment at scaffold_36:52100..55201+ (Nannochloropsis oceanica)
ATGAAGCAGTGCAGTCATCACGTCATGCCTTCACGCACACCAACAGCTTT
CTCCTTCGTCTTCCTACCCTCCCTCGTCCTCTCGTTCGTCTTCCTACAAT
GTTGCACACTTTTTCCCTCGACCGCCGCCTTCCTCCTTCCTTCCTCCTCC
CTCCCTTCCACCTCCTCTGACTACTATTCCTCATCCTCCTTGCGACGACG
TGTCGCCCTCCAAATGCAAGGAGAAGGCTCTGGCACCGGCAAATCTGTGG
CAGGTCGTTCTTTTCTGAGGTCCAAGCCTATTGGTGTGGGCAGTGCGGCC
CCTGCTGACGTGATAAAGAACACGGACCTTGAAAGCGTGGTGGAGACTTC
GGATGAATGGATTTTCACCCGGACAGGTATCTCTCAACGCCGCATCCTTC
CCTCGGGCGGGCAAATTCGGGGCTTGGCCGCCACGGCCGCTGCCCGTGCT
CTAGAAAACGCAGGGCTGGAAGGAAAGGACATTGATGTGGTGATTCTCGC
CACGTCTTCCCCGGACGATCTCTTCGGGGATGCCACGAGCGTGGCGGCGG
CCGTTGGTGCAACGGGCGCCGTGGCGTTTGATTTAACGGCCGCTTGCTCG
GGCTTTCTCTTCGGCGTGGTAACGGCGTCGCAGTTCCTCCACTCGGGGTG
CTACCGCCACGCCCTGGTGGTGGGCGCTGACGCCTTGTCCAGATGGGTTG
ACTGGGAGGATCGGAACTCGTGTATTCTGTTCGGAGATGGCGCAGGCGCG
GTGGTGCTGACGGTGGCAGAAGGAGATGCCGATTCGGGTGTCTTGGGCTT
TGCCATGCACAGCGATGGGACAGGTCAAGGCGACTTGAACCTCCAGTTCG
CGAAGGACGAGTCTCAGAGCCCCCCCGAGATCAATGCCGTCACGCCCTAC
AAGGGAAAGTACAACAACATTGCCATGAACGGAAAGGAAGTGTACAAATT
TGCCACGCGCAAGGTGCCTACCGTCATCGAAGAGGCCTTGGCTAACGCGG
GGCTGGGGGTAGAGGAGGTTGACTGGTTGTTGCTGCATCAGGCCAACATT
CGCATCATGGACGTAGTGGCCGACCGGCTAGGTCTGTCGAAGGACAAGAT
CCTGACTAACCTCTCCGACTATGGCAACACCTCCGCTGGCTCAATTCCCC
TTGCTCTCGACGAGGCCGTCAAGTCCGGGAAGGTCAAGAAAGGCGACATC
ATTGCGTGCGCTGGATTCGGAGCCGGTCTATCGTGGGGCAGCGCTATCAT
TAGATGGCAGGGCTAGATGAAGCAGTGCAGTCATCACGTCATGCCTTCAC
GCACACCAACAGCTTTCTCCTTCGTCTTCCTACCCTCCCTCGTCCTCTCG
TTCGTCTTCCTACAATGTTGCACACTTTTTCCCTCGACCGCCGCCTTCCT
CCTTCCTTCCTCCTCCCTCCCTTCCACCTCCTCTGACTACTATTCCTCAT
CCTCCTTGCGACGACGTGTCGCCCTCCAAATGCAAGGAGAAGGCTCTGGC
ACCGGCAAATCTGTGGCAGGTCGTTCTTTTCTGAGGTCCAAGCCTATTGG
TGTGGGCAGTGCGGCCCCTGCTGACGTGATAAAGAACACGGACCTTGAAA
GCGTGGTGGAGACTTCGGATGAATGGATTTTCACCCGGACAGGTATCTCT
CAACGCCGCATCCTTCCCTCGGGCGGGCAAATTCGGGGCTTGGCCGCCAC
GGCCGCTGCCCGTGCTCTAGAAAACGCAGGGCTGGAAGGAAAGGACATTG
ATGTGGTGATTCTCGCCACGTCTTCCCCGGACGATCTCTTCGGGGATGCC
ACGAGCGTGGCGGCGGCCGTTGGTGCAACGGGCGCCGTGGCGTTTGATTT
AACGGCCGCTTGCTCGGGCTTTCTCTTCGGCGTGGTAACGGCGTCGCAGT
TCCTCCACTCGGGGTGCTACCGCCACGCCCTGGTGGTGGGCGCTGACGCC
TTGTCCAGATGGGTTGACTGGGAGGATCGGAACTCGTGTATTCTGTTCGG
AGATGGCGCAGGCGCGGTGGTGCTGACGGTGGCAGAAGGAGATGCCGATT
CGGGTGTCTTGGGCTTTGCCATGCACAGCGATGGGACAGGTCAAGGCGAC
TTGAACCTCCAGTTCGCGAAGGACGAGTCTCAGAGCCCCCCCGAGATCAA
TGCCGTCACGCCCTACAAGGGAAAGTACAACAACATTGCCATGAACGGAA
AGGAAGTGTACAAATTTGCCACGCGCAAGGTGCCTACCGTCATCGAAGAG
GCCTTGGCTAACGCGGGGCTGGGGGTAGAGGAGGTTGACTGGTTGTTGCT
GCATCAGGCCAACATTCGCATCATGGACGTAGTGGCCGACCGGCTAGGTC
TGTCGAAGGACAAGATCCTGACTAACCTCTCCGACTATGGCAACACCTCC
GCTGGCTCAATTCCCCTTGCTCTCGACGAGGCCGTCAAGTCCGGGAAGGT
CAAGAAAGGCGACATCATTGCGTGCGCTGGATTCGGAGCCGGTCTATCGT
GGGGCAGCGCTATCATTAGATGGCAGGGCTAGATGAAGCAGTGCAGTCAT
CACGTCATGCCTTCACGCACACCAACAGCTTTCTCCTTCGTCTTCCTACC
CTCCCTCGTCCTCTCGTTCGTCTTCCTACAATGTTGCACACTTTTTCCCT
CGACCGCCGCCTTCCTCCTTCCTTCCTCCTCCCTCCCTTCCACCTCCTCT
GACTACTATTCCTCATCCTCCTTGCGACGACGTGTCGCCCTCCAAATGCA
AGGAGAAGGCTCTGGCACCGGCAAATCTGTGGCAGGTCGTTCTTTTCTGA
GGTCCAAGCCTATTGGTGTGGGCAGTGCGGCCCCTGCTGACGTGATAAAG
AACACGGACCTTGAAAGCGTGGTGGAGACTTCGGATGAATGGATTTTCAC
CCGGACAGGTATCTCTCAACGCCGCATCCTTCCCTCGGGCGGGCAAATTC
GGGGCTTGGCCGCCACGGCCGCTGCCCGTGCTCTAGAAAACGCAGGGCTG
GAAGGAAAGGACATTGATGTGGTGATTCTCGCCACGTCTTCCCCGGACGA
TCTCTTCGGGGATGCCACGAGCGTGGCGGCGGCCGTTGGTGCAACGGGCG
CCGTGGCGTTTGATTTAACGGCCGCTTGCTCGGGCTTTCTCTTCGGCGTG
GTAACGGCGTCGCAGTTCCTCCACTCGGGGTGCTACCGCCACGCCCTGGT
GGTGGGCGCTGACGCCTTGTCCAGATGGGTTGACTGGGAGGATCGGAACT
CGTGTATTCTGTTCGGAGATGGCGCAGGCGCGGTGGTGCTGACGGTGGCA
GAAGGAGATGCCGATTCGGGTGTCTTGGGCTTTGCCATGCACAGCGATGG
GACAGGTCAAGGCGACTTGAACCTCCAGTTCGCGAAGGACGAGTCTCAGA
GCCCCCCCGAGATCAATGCCGTCACGCCCTACAAGGGAAAGTACAACAAC
ATTGCCATGAACGGAAAGGAAGTGTACAAATTTGCCACGCGCAAGGTGCC
TACCGTCATCGAAGAGGCCTTGGCTAACGCGGGGCTGGGGGTAGAGGAGG
TTGACTGGTTGTTGCTGCATCAGGCCAACATTCGCATCATGGACGTAGTG
GCCGACCGGCTAGGTCTGTCGAAGGACAAGATCCTGACTAACCTCTCCGA
CTATGGCAACACCTCCGCTGGCTCAATTCCCCTTGCTCTCGACGAGGCCG
TCAAGTCCGGGAAGGTCAAGAAAGGCGACATCATTGCGTGCGCTGGATTC
GGAGCCGGTCTATCGTGGGGCAGCGCTATCATTAGATGGCAGGGCTAGAT
GAAGCAGTGCAGTCATCACGTCATGCCTTCACGCACACCAACAGCTTTCT
CCTTCGTCTTCCTACCCTCCCTCGTCCTCTCGTTCGTCTTCCTACAATGT
TGCACACTTTTTCCCTCGACCGCCGCCTTCCTCCTTCCTTCCTCCTCCCT
CCCTTCCACCTCCTCTGACTACTATTCCTCATCCTCCTTGCGACGACGTG
TCGCCCTCCAAATGCAAGGAGAAGGCTCTGGCACCGGCAAATCTGTGGCA
GGTCGTTCTTTTCTGAGGTCCAAGCCTATTGGTGTGGGCAGTGCGGCCCC
TGCTGACGTGATAAAGAACACGGACCTTGAAAGCGTGGTGGAGACTTCGG
ATGAATGGATTTTCACCCGGACAGGTATCTCTCAACGCCGCATCCTTCCC
TCGGGCGGGCAAATTCGGGGCTTGGCCGCCACGGCCGCTGCCCGTGCTCT
AGAAAACGCAGGGCTGGAAGGAAAGGACATTGATGTGGTGATTCTCGCCA
CGTCTTCCCCGGACGATCTCTTCGGGGATGCCACGAGCGTGGCGGCGGCC
GTTGGTGCAACGGGCGCCGTGGCGTTTGATTTAACGGCCGCTTGCTCGGG
CTTTCTCTTCGGCGTGGTAACGGCGTCGCAGTTCCTCCACTCGGGGTGCT
ACCGCCACGCCCTGGTGGTGGGCGCTGACGCCTTGTCCAGATGGGTTGAC
TGGGAGGATCGGAACTCGTGTATTCTGTTCGGAGATGGCGCAGGCGCGGT
GGTGCTGACGGTGGCAGAAGGAGATGCCGATTCGGGTGTCTTGGGCTTTG
CCATGCACAGCGATGGGACAGGTCAAGGCGACTTGAACCTCCAGTTCGCG
AAGGACGAGTCTCAGAGCCCCCCCGAGATCAATGCCGTCACGCCCTACAA
GGGAAAGTACAACAACATTGCCATGAACGGAAAGGAAGTGTACAAATTTG
CCACGCGCAAGGTGCCTACCGTCATCGAAGAGGCCTTGGCTAACGCGGGG
CTGGGGGTAGAGGAGGTTGACTGGTTGTTGCTGCATCAGGCCAACATTCG
CATCATGGACGTAGTGGCCGACCGGCTAGGTCTGTCGAAGGACAAGATCC
TGACTAACCTCTCCGACTATGGCAACACCTCCGCTGGCTCAATTCCCCTT
GCTCTCGACGAGGCCGTCAAGTCCGGGAAGGTCAAGAAAGGCGACATCAT
TGCGTGCGCTGGATTCGGAGCCGGTCTATCGTGGGGCAGCGCTATCATTA
GATGGCAGGGCTAGATGAAGCAGTGCAGTCATCACGTCATGCCTTCACGC
ACACCAACAGCTTTCTCCTTCGTCTTCCTACCCTCCCTCGTCCTCTCGTT
CGTCTTCCTACAATGTTGCACACTTTTTCCCTCGACCGCCGCCTTCCTCC
TTCCTTCCTCCTCCCTCCCTTCCACCTCCTCTGACTACTATTCCTCATCC
TCCTTGCGACGACGTGTCGCCCTCCAAATGCAAGGAGAAGGCTCTGGCAC
CGGCAAATCTGTGGCAGGTCGTTCTTTTCTGAGGTCCAAGCCTATTGGTG
TGGGCAGTGCGGCCCCTGCTGACGTGATAAAGAACACGGACCTTGAAAGC
GTGGTGGAGACTTCGGATGAATGGATTTTCACCCGGACAGGTATCTCTCA
ACGCCGCATCCTTCCCTCGGGCGGGCAAATTCGGGGCTTGGCCGCCACGG
CCGCTGCCCGTGCTCTAGAAAACGCAGGGCTGGAAGGAAAGGACATTGAT
GTGGTGATTCTCGCCACGTCTTCCCCGGACGATCTCTTCGGGGATGCCAC
GAGCGTGGCGGCGGCCGTTGGTGCAACGGGCGCCGTGGCGTTTGATTTAA
CGGCCGCTTGCTCGGGCTTTCTCTTCGGCGTGGTAACGGCGTCGCAGTTC
CTCCACTCGGGGTGCTACCGCCACGCCCTGGTGGTGGGCGCTGACGCCTT
GTCCAGATGGGTTGACTGGGAGGATCGGAACTCGTGTATTCTGTTCGGAG
ATGGCGCAGGCGCGGTGGTGCTGACGGTGGCAGAAGGAGATGCCGATTCG
GGTGTCTTGGGCTTTGCCATGCACAGCGATGGGACAGGTCAAGGCGACTT
GAACCTCCAGTTCGCGAAGGACGAGTCTCAGAGCCCCCCCGAGATCAATG
CCGTCACGCCCTACAAGGGAAAGTACAACAACATTGCCATGAACGGAAAG
GAAGTGTACAAATTTGCCACGCGCAAGGTGCCTACCGTCATCGAAGAGGC
CTTGGCTAACGCGGGGCTGGGGGTAGAGGAGGTTGACTGGTTGTTGCTGC
ATCAGGCCAACATTCGCATCATGGACGTAGTGGCCGACCGGCTAGGTCTG
TCGAAGGACAAGATCCTGACTAACCTCTCCGACTATGGCAACACCTCCGC
TGGCTCAATTCCCCTTGCTCTCGACGAGGCCGTCAAGTCCGGGAAGGTCA
AGAAAGGCGACATCATTGCGTGCGCTGGATTCGGAGCCGGTCTATCGTGG
GGCAGCGCTATCATTAGATGGCAGGGCTAGATGAAGCAGTGCAGTCATCA
CGTCATGCCTTCACGCACACCAACAGCTTTCTCCTTCGTCTTCCTACCCT
CCCTCGTCCTCTCGTTCGTCTTCCTACAATGTTGCACACTTTTTCCCTCG
ACCGCCGCCTTCCTCCTTCCTTCCTCCTCCCTCCCTTCCACCTCCTCTGA
CTACTATTCCTCATCCTCCTTGCGACGACGTGTCGCCCTCCAAATGCAAG
GAGAAGGCTCTGGCACCGGCAAATCTGTGGCAGGTCGTTCTTTTCTGAGG
TCCAAGCCTATTGGTGTGGGCAGTGCGGCCCCTGCTGACGTGATAAAGAA
CACGGACCTTGAAAGCGTGGTGGAGACTTCGGATGAATGGATTTTCACCC
GGACAGGTATCTCTCAACGCCGCATCCTTCCCTCGGGCGGGCAAATTCGG
GGCTTGGCCGCCACGGCCGCTGCCCGTGCTCTAGAAAACGCAGGGCTGGA
AGGAAAGGACATTGATGTGGTGATTCTCGCCACGTCTTCCCCGGACGATC
TCTTCGGGGATGCCACGAGCGTGGCGGCGGCCGTTGGTGCAACGGGCGCC
GTGGCGTTTGATTTAACGGCCGCTTGCTCGGGCTTTCTCTTCGGCGTGGT
AACGGCGTCGCAGTTCCTCCACTCGGGGTGCTACCGCCACGCCCTGGTGG
TGGGCGCTGACGCCTTGTCCAGATGGGTTGACTGGGAGGATCGGAACTCG
TGTATTCTGTTCGGAGATGGCGCAGGCGCGGTGGTGCTGACGGTGGCAGA
AGGAGATGCCGATTCGGGTGTCTTGGGCTTTGCCATGCACAGCGATGGGA
CAGGTCAAGGCGACTTGAACCTCCAGTTCGCGAAGGACGAGTCTCAGAGC
CCCCCCGAGATCAATGCCGTCACGCCCTACAAGGGAAAGTACAACAACAT
TGCCATGAACGGAAAGGAAGTGTACAAATTTGCCACGCGCAAGGTGCCTA
CCGTCATCGAAGAGGCCTTGGCTAACGCGGGGCTGGGGGTAGAGGAGGTT
GACTGGTTGTTGCTGCATCAGGCCAACATTCGCATCATGGACGTAGTGGC
CGACCGGCTAGGTCTGTCGAAGGACAAGATCCTGACTAACCTCTCCGACT
ATGGCAACACCTCCGCTGGCTCAATTCCCCTTGCTCTCGACGAGGCCGTC
AAGTCCGGGAAGGTCAAGAAAGGCGACATCATTGCGTGCGCTGGATTCGG
AGCCGGTCTATCGTGGGGCAGCGCTATCATTAGATGGCAGGGCTAGATGA
AGCAGTGCAGTCATCACGTCATGCCTTCACGCACACCAACAGCTTTCTCC
TTCGTCTTCCTACCCTCCCTCGTCCTCTCGTTCGTCTTCCTACAATGTTG
CACACTTTTTCCCTCGACCGCCGCCTTCCTCCTTCCTTCCTCCTCCCTCC
CTTCCACCTCCTCTGACTACTATTCCTCATCCTCCTTGCGACGACGTGTC
GCCCTCCAAATGCAAGGAGAAGGCTCTGGCACCGGCAAATCTGTGGCAGG
TCGTTCTTTTCTGAGGTCCAAGCCTATTGGTGTGGGCAGTGCGGCCCCTG
CTGACGTGATAAAGAACACGGACCTTGAAAGCGTGGTGGAGACTTCGGAT
GAATGGATTTTCACCCGGACAGGTATCTCTCAACGCCGCATCCTTCCCTC
GGGCGGGCAAATTCGGGGCTTGGCCGCCACGGCCGCTGCCCGTGCTCTAG
AAAACGCAGGGCTGGAAGGAAAGGACATTGATGTGGTGATTCTCGCCACG
TCTTCCCCGGACGATCTCTTCGGGGATGCCACGAGCGTGGCGGCGGCCGT
TGGTGCAACGGGCGCCGTGGCGTTTGATTTAACGGCCGCTTGCTCGGGCT
TTCTCTTCGGCGTGGTAACGGCGTCGCAGTTCCTCCACTCGGGGTGCTAC
CGCCACGCCCTGGTGGTGGGCGCTGACGCCTTGTCCAGATGGGTTGACTG
GGAGGATCGGAACTCGTGTATTCTGTTCGGAGATGGCGCAGGCGCGGTGG
TGCTGACGGTGGCAGAAGGAGATGCCGATTCGGGTGTCTTGGGCTTTGCC
ATGCACAGCGATGGGACAGGTCAAGGCGACTTGAACCTCCAGTTCGCGAA
GGACGAGTCTCAGAGCCCCCCCGAGATCAATGCCGTCACGCCCTACAAGG
GAAAGTACAACAACATTGCCATGAACGGAAAGGAAGTGTACAAATTTGCC
ACGCGCAAGGTGCCTACCGTCATCGAAGAGGCCTTGGCTAACGCGGGGCT
GGGGGTAGAGGAGGTTGACTGGTTGTTGCTGCATCAGGCCAACATTCGCA
TCATGGACGTAGTGGCCGACCGGCTAGGTCTGTCGAAGGACAAGATCCTG
ACTAACCTCTCCGACTATGGCAACACCTCCGCTGGCTCAATTCCCCTTGC
TCTCGACGAGGCCGTCAAGTCCGGGAAGGTCAAGAAAGGCGACATCATTG
CGTGCGCTGGATTCGGAGCCGGTCTATCGTGGGGCAGCGCTATCATTAGA
TGGCAGGGCTAG

Synonyms

Publications