jgi.p|Nanoce1779_2|596241, mRNA_6761 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|596241
Unique Name	mRNA_6761
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	2274
Alignment location	scaffold_17:27963..30457 -

Link to JBrowse

Properties


Property Name	Value
TranscriptId	596327
Track	FilteredModels2
ProteinId	596241

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_17	supercontig	scaffold_17:27963..30457 -

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\|596241	gene_6761	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\|596241	mRNA_6761-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_6761	CDS_6761	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_17:27963..30457-
coding sequence from alignment at scaffold_17:27963..30457-

mRNA sequence

>mRNA_6761 ID=mRNA_6761|Name=jgi.p|Nanoce1779_2|596241|organism=Nannochloropsis oceanica|type=mRNA|length=2274bp
ATTCGACATCGTCAACGCCTCGCCCTCGCCAACAACGATCCCCCGCCTTG
CCACCCAGCCATACGCACACTACACCGACCACACAAATTCCCAAATTTCC
TTTCCTTCTCTCTTGCAACATAGGCGCAATGCATAGTCATCCCCGGCACT
TGTCATCCCCACTCCACGTTAGATCGTCTTCATCCCCTCAGCGCATAGAA
GAAATGGCGGAGGAAACATCGGCAGGAGCAGGAGCGGGAGCAGAGGACTC
ATTGGCTGCCCGGGAGTTGGAAAGCGCCAAAAACACCCCTGCCCTTGAGG
CGCAGCACCGAGAAGTGACCAAGGGCAAGGTCCGCACGCGTTTCCCTCCG
GAGCCGAACGGTTACTTACACATTGGCCACGCCAAGTCTATGCATATGAA
TTTCCACCTTGCTTTTGAGAAGCTGGGCGTGCCCGAGGCCATGCGCGAGA
CGGTGTTCCGGTATGACGACACCAACCCAGAGGCGGAGAGCCAAGAATAT
ATTGATTCCCTGCGGGAGGACGTGGAGTGGTTGGGCTGGACGCCCATGCA
AACCACCTTCACCTCGGACTATTTCGACAAGCTATACGAACTAGCCGTGC
AGCTCATTCGGGACGGCAAGGCCTATGTCTGCCACCAGACAGGTGAAGAG
ATTAGTAAGTCGCGTGCGATTGCCAAGGAGAAGGCGGCTAATGCTGAATT
TGAGGGAGATCCGAACAGCCCCTGGCGGGATCGGCCTGTAGAGGAGTCTC
TCAAGCTCTTCGACGACATGCGCCTGGGCAAGTTCAAAGAGAACACTGCC
ACCCTCCGCCTCAAGATGGACATGTCTTCCGCCAACTTCAACATGTACGA
TCAAGTCGCCTACCGGATTAAATTCATTCCTCACCCACATGCCGGGGAGA
AATGGGTCATCTACCCCACCTACGACTACACGCACTGCATCGTCGACTCG
CTGGAACACGTCGACTACAGCATCTGCACGCTCGAGTTCGAGACGAGGCG
GGAGTCATACTACTGGGTCCTGGAAGCCCTTCAGCTCTACCGGCCAAAGG
TCTATGAATTCTCGCGGCTGAATATCACCTACACTGTCCTCTCCAAGCGC
AAACTCCTCAAGCTCGTCAAGGGTAACCAGGTCCAGGGCTGGGACGACCC
CCGCATGCCTACCATCAAGGGACTCCGCCGCCGTGGCTACACCGCTGACA
TCCTCAACGCCTTCTGCAAAGACATCGGTGTCACCCGCAATGAGAACGTG
ATCCAGTACGAACGCCTCCAGCATTGGGCCCGGGCCATTTTGAACGAAAC
CGCTCCCCGAGCCATGGGTGTTCTCAATCCCATTCTCCTCACCATCACCA
ATCTCTCCTCCCCCCTTTCTCTCGAGGCTCCCGACTTTCCTTTTGCGCCC
GAACGGGGCACTCACCCTGTTCTCCTCACCCCTCAGCTCTACATTGACGC
CTCGGATTTTCGTCAAGAAGACAGCAAAGACTACTTTGGTCTCGCCCCCG
GCAAGAGCGCCATTCTCAAGTACGCCTTTCCCGTGCGTGTCGATGAGGTG
CTGCTCAACGAAAAAGGGAACGTAATCGAGCTCAAGGTGACTGCAGATAA
GGAGGGGAAGGGTCCGAAGCCTAGGGGAGCCATCACATGGGTGTCAGCTG
AAGAGGGGAAATCAGTGCCGACGGAATTCAGGCTGTACAATCACTTGTTC
ACCGTGGAGTGTCCCGGGGACGAGACATGGGAGTCCGAATTGAATCCGTT
GTCGTTGGAGAAGAGAGAGGGAGGGAGGGTGGATGTATCGGTGTTGAAGG
CGGGAGAGATACCTCCGGTTTGTTCGACATTTCAGTTGGAGAGGGTAGGC
TACTTCACTGTGGACCCCGATAGTTCAAAGGAGACATTGGTGTTGAACCG
GGTGGAGGAGGGCGGGGAGGATGGAGGTAAGGGGAAGAGCCGGAAAGAGG
AGCAGGCAAGGCAGTTGGCAGAGAAGGAGGCAAGGAAGAACATGGACCCA
AAAGATATGTTTAGGGTTGAGGGAGAGAAGGAGAAATATGGGGCTTTTGA
CGACGATGGGGTGCCGACCAAGGACGCGCAAGGGGAGTTGTTATCCAAGA
GTTTGGTGAAGAAATTGAAGAAAGAGTGGGAGAAGCAGAAGAGGCTCTTC
GAGAGCAATCGGAAGTAGGACGGATGGAGGAGGTGAAGGAAGAAAGAGAG
GAGAGATGACAGACAGATGAGGTTATGCTTGTTTTACGCATGCGTAACAG
AGGAGGAGGAGGAGGAAAAAGAAG

protein sequence of jgi.p|Nanoce1779_2|596241

>mRNA_6761-protein ID=mRNA_6761-protein|Name=jgi.p|Nanoce1779_2|596241|organism=Nannochloropsis oceanica|type=polypeptide|length=680bp
MHSHPRHLSSPLHVRSSSSPQRIEEMAEETSAGAGAGAEDSLAARELESA
KNTPALEAQHREVTKGKVRTRFPPEPNGYLHIGHAKSMHMNFHLAFEKLG
VPEAMRETVFRYDDTNPEAESQEYIDSLREDVEWLGWTPMQTTFTSDYFD
KLYELAVQLIRDGKAYVCHQTGEEISKSRAIAKEKAANAEFEGDPNSPWR
DRPVEESLKLFDDMRLGKFKENTATLRLKMDMSSANFNMYDQVAYRIKFI
PHPHAGEKWVIYPTYDYTHCIVDSLEHVDYSICTLEFETRRESYYWVLEA
LQLYRPKVYEFSRLNITYTVLSKRKLLKLVKGNQVQGWDDPRMPTIKGLR
RRGYTADILNAFCKDIGVTRNENVIQYERLQHWARAILNETAPRAMGVLN
PILLTITNLSSPLSLEAPDFPFAPERGTHPVLLTPQLYIDASDFRQEDSK
DYFGLAPGKSAILKYAFPVRVDEVLLNEKGNVIELKVTADKEGKGPKPRG
AITWVSAEEGKSVPTEFRLYNHLFTVECPGDETWESELNPLSLEKREGGR
VDVSVLKAGEIPPVCSTFQLERVGYFTVDPDSSKETLVLNRVEEGGEDGG
KGKSRKEEQARQLAEKEARKNMDPKDMFRVEGEKEKYGAFDDDGVPTKDA
QGELLSKSLVKKLKKEWEKQKRLFESNRK*

mRNA from alignment at scaffold_17:27963..30457-

Legend: polypeptideCDS

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

>mRNA_6761 ID=mRNA_6761|Name=jgi.p|Nanoce1779_2|596241|organism=Nannochloropsis oceanica|type=mRNA|length=2495bp|location=Sequence derived from alignment at scaffold_17:27963..30457- (Nannochloropsis oceanica)
ATTCGACATCGTCAACGCCTCGCCCTCGCCAACAACGATCCCCCGCCTTG
CCACCCAGCCATACGCACACTACACCGACCACACAAATTCCCAAATTTCC
TTTCCTTCTCTCTTGCAACATAGGCGCAATGCATAGTCATCCCCGGCACT
TGTCATCCCCACTCCACGTTAGATCGTCTTCATCCCCTCAGCGCATAGAA
GAAATGGCGGAGGAAACATCGGCAGGAGCAGGAGCGGGAGCAGAGGACTC
ATTGGCTGCCCGGGAGTTGGAAAGCGCCAAAAACACCCCTGCCCTTGAGG
CGCAGCACCGAGAAGTGACCAAGGGCAAGGTCCGCACGCGTTTCCCTCCG
GAGCCGAACGGTTACTTACACATTGGCCACGCCAAGTCTATGCATATGAA
TTTCCACCTTGCTTTTGAGAAGCTGGGCGTGCCCGAGGCCATGCGCGAGA
CGGTGTTCCGGTATGACGACACCAACCCAGAGGCGGAGAGCCAAGAATAT
ATTGATTCCCTGCGGGAGGACGTGGAGTGGTTGGGCTGGACGCCCATGCA
AACCACCTTCACCTCGGACTATTTCGACAAGCTATACGAACTAGCCGTGC
AGCTCATTCGGGACGGCAAGGCCTATGTCTGCCACCAGACAGGTGAAGAG
ATTAGTAAGTCGCGTGCGATTGCCAAGGAGAAGGCGGCTAATGCTGAATT
TGAGGGAGATCCGAACAGCCCCTGGCGGGATCGGCCTGTAGAGGAGTCTC
TCAAGGTACGTCAGAGGGAAGGGAATGGTGCCTTGGGAGAGGAGGGGGCA
TCAATAGATCGAGGTTGCTTGCTTTGATGATGGAACCCTCTTTTCTGTTA
GTGTGTGTCTTTGCCGTGAGCTTACTTCATATCGTGCGTCGTTCTTACCA
ATCTTTACCTCCCCCTATTCCTTCCTCCCTCCCTTCCTCCCCCAGCTCTT
CGACGACATGCGCCTGGGCAAGTTCAAAGAGAACACTGCCACCCTCCGCC
TCAAGATGGACATGTCTTCCGCCAACTTCAACATGTACGATCAAGTCGCC
TACCGGATTAAATTCATTCCTCACCCACATGCCGGGGAGAAATGGGTCAT
CTACCCCACCTACGACTACACGCACTGCATCGTCGACTCGCTGGAACACG
TCGACTACAGCATCTGCACGCTCGAGTTCGAGACGAGGCGGGAGTCATAC
TACTGGGTCCTGGAAGCCCTTCAGCTCTACCGGCCAAAGGTCTATGAATT
CTCGCGGCTGAATATCACCTACACTGTCCTCTCCAAGCGCAAACTCCTCA
AGCTCGTCAAGGGTAACCAGGTCCAGGGCTGGGACGACCCCCGCATGCCT
ACCATCAAGGGACTCCGCCGCCGTGGCTACACCGCTGACATCCTCAACGC
CTTCTGCAAAGACATCGGTGTCACCCGCAATGAGAACGTGATCCAGTACG
AACGCCTCCAGCATTGGGCCCGGGCCATTTTGAACGAAACCGCTCCCCGA
GCCATGGGTGTTCTCAATCCCATTCTCCTCACCATCACCAATCTCTCCTC
CCCCCTTTCTCTCGAGGCTCCCGACTTTCCTTTTGCGCCCGAACGGGGCA
CTCACCCTGTTCTCCTCACCCCTCAGCTCTACATTGACGCCTCGGATTTT
CGTCAAGAAGACAGCAAAGACTACTTTGGTCTCGCCCCCGGCAAGAGCGC
CATTCTCAAGTACGCCTTTCCCGTGCGTGTCGATGAGGTGCTGCTCAACG
AAAAAGGGAACGTAATCGAGCTCAAGGTGACTGCAGATAAGGAGGGGAAG
GGTCCGAAGCCTAGGGGAGCCATCACATGGGTGTCAGCTGAAGAGGGGAA
ATCAGTGCCGACGGAATTCAGGCTGTACAATCACTTGTTCACCGTGGAGT
GTCCCGGGGACGAGACATGGGAGTCCGAATTGAATCCGTTGTCGTTGGAG
AAGAGAGAGGGAGGGAGGGTGGATGTATCGGTGTTGAAGGCGGGAGAGAT
ACCTCCGGTTTGTTCGACATTTCAGTTGGAGAGGGTAGGCTACTTCACTG
TGGACCCCGATAGTTCAAAGGAGACATTGGTGTTGAACCGGGTGGTGACC
TTGAAGGAGGGGGGGGGTCAAAAAGGAGGAGGGCGGGGAGGATGGAGGTA
AGGGGAAGAGCCGGAAAGAGGAGCAGGCAAGGCAGTTGGCAGAGAAGGAG
GCAAGGAAGAACATGGACCCAAAAGATATGTTTAGGGTTGAGGGAGAGAA
GGAGAAATATGGGGCTTTTGACGACGATGGGGTGCCGACCAAGGACGCGC
AAGGGGAGTTGTTATCCAAGAGTTTGGTGAAGAAATTGAAGAAAGAGTGG
GAGAAGCAGAAGAGGCTCTTCGAGAGCAATCGGAAGTAGGACGGATGGAG
GAGGTGAAGGAAGAAAGAGAGGAGAGATGACAGACAGATGAGGTTATGCT
TGTTTTACGCATGCGTAACAGAGGAGGAGGAGGAGGAAAAAGAAG

Coding sequence (CDS) from alignment at scaffold_17:27963..30457-

>mRNA_6761 ID=mRNA_6761|Name=jgi.p|Nanoce1779_2|596241|organism=Nannochloropsis oceanica|type=CDS|length=6120bp|location=Sequence derived from alignment at scaffold_17:27963..30457- (Nannochloropsis oceanica)
GAGGAGGGCGGGGAGGATGGAGGTAAGGGGAAGAGCCGGAAAGAGGAGCA
GGCAAGGCAGTTGGCAGAGAAGGAGGCAAGGAAGAACATGGACCCAAAAG
ATATGTTTAGGGTTGAGGGAGAGAAGGAGAAATATGGGGCTTTTGACGAC
GATGGGGTGCCGACCAAGGACGCGCAAGGGGAGTTGTTATCCAAGAGTTT
GGTGAAGAAATTGAAGAAAGAGTGGGAGAAGCAGAAGAGGCTCTTCGAGA
GCAATCGGAAGTAGCTCTTCGACGACATGCGCCTGGGCAAGTTCAAAGAG
AACACTGCCACCCTCCGCCTCAAGATGGACATGTCTTCCGCCAACTTCAA
CATGTACGATCAAGTCGCCTACCGGATTAAATTCATTCCTCACCCACATG
CCGGGGAGAAATGGGTCATCTACCCCACCTACGACTACACGCACTGCATC
GTCGACTCGCTGGAACACGTCGACTACAGCATCTGCACGCTCGAGTTCGA
GACGAGGCGGGAGTCATACTACTGGGTCCTGGAAGCCCTTCAGCTCTACC
GGCCAAAGGTCTATGAATTCTCGCGGCTGAATATCACCTACACTGTCCTC
TCCAAGCGCAAACTCCTCAAGCTCGTCAAGGGTAACCAGGTCCAGGGCTG
GGACGACCCCCGCATGCCTACCATCAAGGGACTCCGCCGCCGTGGCTACA
CCGCTGACATCCTCAACGCCTTCTGCAAAGACATCGGTGTCACCCGCAAT
GAGAACGTGATCCAGTACGAACGCCTCCAGCATTGGGCCCGGGCCATTTT
GAACGAAACCGCTCCCCGAGCCATGGGTGTTCTCAATCCCATTCTCCTCA
CCATCACCAATCTCTCCTCCCCCCTTTCTCTCGAGGCTCCCGACTTTCCT
TTTGCGCCCGAACGGGGCACTCACCCTGTTCTCCTCACCCCTCAGCTCTA
CATTGACGCCTCGGATTTTCGTCAAGAAGACAGCAAAGACTACTTTGGTC
TCGCCCCCGGCAAGAGCGCCATTCTCAAGTACGCCTTTCCCGTGCGTGTC
GATGAGGTGCTGCTCAACGAAAAAGGGAACGTAATCGAGCTCAAGGTGAC
TGCAGATAAGGAGGGGAAGGGTCCGAAGCCTAGGGGAGCCATCACATGGG
TGTCAGCTGAAGAGGGGAAATCAGTGCCGACGGAATTCAGGCTGTACAAT
CACTTGTTCACCGTGGAGTGTCCCGGGGACGAGACATGGGAGTCCGAATT
GAATCCGTTGTCGTTGGAGAAGAGAGAGGGAGGGAGGGTGGATGTATCGG
TGTTGAAGGCGGGAGAGATACCTCCGGTTTGTTCGACATTTCAGTTGGAG
AGGGTAGGCTACTTCACTGTGGACCCCGATAGTTCAAAGGAGACATTGGT
GTTGAACCGGGTGATGCATAGTCATCCCCGGCACTTGTCATCCCCACTCC
ACGTTAGATCGTCTTCATCCCCTCAGCGCATAGAAGAAATGGCGGAGGAA
ACATCGGCAGGAGCAGGAGCGGGAGCAGAGGACTCATTGGCTGCCCGGGA
GTTGGAAAGCGCCAAAAACACCCCTGCCCTTGAGGCGCAGCACCGAGAAG
TGACCAAGGGCAAGGTCCGCACGCGTTTCCCTCCGGAGCCGAACGGTTAC
TTACACATTGGCCACGCCAAGTCTATGCATATGAATTTCCACCTTGCTTT
TGAGAAGCTGGGCGTGCCCGAGGCCATGCGCGAGACGGTGTTCCGGTATG
ACGACACCAACCCAGAGGCGGAGAGCCAAGAATATATTGATTCCCTGCGG
GAGGACGTGGAGTGGTTGGGCTGGACGCCCATGCAAACCACCTTCACCTC
GGACTATTTCGACAAGCTATACGAACTAGCCGTGCAGCTCATTCGGGACG
GCAAGGCCTATGTCTGCCACCAGACAGGTGAAGAGATTAGTAAGTCGCGT
GCGATTGCCAAGGAGAAGGCGGCTAATGCTGAATTTGAGGGAGATCCGAA
CAGCCCCTGGCGGGATCGGCCTGTAGAGGAGTCTCTCAAGGAGGAGGGCG
GGGAGGATGGAGGTAAGGGGAAGAGCCGGAAAGAGGAGCAGGCAAGGCAG
TTGGCAGAGAAGGAGGCAAGGAAGAACATGGACCCAAAAGATATGTTTAG
GGTTGAGGGAGAGAAGGAGAAATATGGGGCTTTTGACGACGATGGGGTGC
CGACCAAGGACGCGCAAGGGGAGTTGTTATCCAAGAGTTTGGTGAAGAAA
TTGAAGAAAGAGTGGGAGAAGCAGAAGAGGCTCTTCGAGAGCAATCGGAA
GTAGCTCTTCGACGACATGCGCCTGGGCAAGTTCAAAGAGAACACTGCCA
CCCTCCGCCTCAAGATGGACATGTCTTCCGCCAACTTCAACATGTACGAT
CAAGTCGCCTACCGGATTAAATTCATTCCTCACCCACATGCCGGGGAGAA
ATGGGTCATCTACCCCACCTACGACTACACGCACTGCATCGTCGACTCGC
TGGAACACGTCGACTACAGCATCTGCACGCTCGAGTTCGAGACGAGGCGG
GAGTCATACTACTGGGTCCTGGAAGCCCTTCAGCTCTACCGGCCAAAGGT
CTATGAATTCTCGCGGCTGAATATCACCTACACTGTCCTCTCCAAGCGCA
AACTCCTCAAGCTCGTCAAGGGTAACCAGGTCCAGGGCTGGGACGACCCC
CGCATGCCTACCATCAAGGGACTCCGCCGCCGTGGCTACACCGCTGACAT
CCTCAACGCCTTCTGCAAAGACATCGGTGTCACCCGCAATGAGAACGTGA
TCCAGTACGAACGCCTCCAGCATTGGGCCCGGGCCATTTTGAACGAAACC
GCTCCCCGAGCCATGGGTGTTCTCAATCCCATTCTCCTCACCATCACCAA
TCTCTCCTCCCCCCTTTCTCTCGAGGCTCCCGACTTTCCTTTTGCGCCCG
AACGGGGCACTCACCCTGTTCTCCTCACCCCTCAGCTCTACATTGACGCC
TCGGATTTTCGTCAAGAAGACAGCAAAGACTACTTTGGTCTCGCCCCCGG
CAAGAGCGCCATTCTCAAGTACGCCTTTCCCGTGCGTGTCGATGAGGTGC
TGCTCAACGAAAAAGGGAACGTAATCGAGCTCAAGGTGACTGCAGATAAG
GAGGGGAAGGGTCCGAAGCCTAGGGGAGCCATCACATGGGTGTCAGCTGA
AGAGGGGAAATCAGTGCCGACGGAATTCAGGCTGTACAATCACTTGTTCA
CCGTGGAGTGTCCCGGGGACGAGACATGGGAGTCCGAATTGAATCCGTTG
TCGTTGGAGAAGAGAGAGGGAGGGAGGGTGGATGTATCGGTGTTGAAGGC
GGGAGAGATACCTCCGGTTTGTTCGACATTTCAGTTGGAGAGGGTAGGCT
ACTTCACTGTGGACCCCGATAGTTCAAAGGAGACATTGGTGTTGAACCGG
GTGATGCATAGTCATCCCCGGCACTTGTCATCCCCACTCCACGTTAGATC
GTCTTCATCCCCTCAGCGCATAGAAGAAATGGCGGAGGAAACATCGGCAG
GAGCAGGAGCGGGAGCAGAGGACTCATTGGCTGCCCGGGAGTTGGAAAGC
GCCAAAAACACCCCTGCCCTTGAGGCGCAGCACCGAGAAGTGACCAAGGG
CAAGGTCCGCACGCGTTTCCCTCCGGAGCCGAACGGTTACTTACACATTG
GCCACGCCAAGTCTATGCATATGAATTTCCACCTTGCTTTTGAGAAGCTG
GGCGTGCCCGAGGCCATGCGCGAGACGGTGTTCCGGTATGACGACACCAA
CCCAGAGGCGGAGAGCCAAGAATATATTGATTCCCTGCGGGAGGACGTGG
AGTGGTTGGGCTGGACGCCCATGCAAACCACCTTCACCTCGGACTATTTC
GACAAGCTATACGAACTAGCCGTGCAGCTCATTCGGGACGGCAAGGCCTA
TGTCTGCCACCAGACAGGTGAAGAGATTAGTAAGTCGCGTGCGATTGCCA
AGGAGAAGGCGGCTAATGCTGAATTTGAGGGAGATCCGAACAGCCCCTGG
CGGGATCGGCCTGTAGAGGAGTCTCTCAAGGAGGAGGGCGGGGAGGATGG
AGGTAAGGGGAAGAGCCGGAAAGAGGAGCAGGCAAGGCAGTTGGCAGAGA
AGGAGGCAAGGAAGAACATGGACCCAAAAGATATGTTTAGGGTTGAGGGA
GAGAAGGAGAAATATGGGGCTTTTGACGACGATGGGGTGCCGACCAAGGA
CGCGCAAGGGGAGTTGTTATCCAAGAGTTTGGTGAAGAAATTGAAGAAAG
AGTGGGAGAAGCAGAAGAGGCTCTTCGAGAGCAATCGGAAGTAGCTCTTC
GACGACATGCGCCTGGGCAAGTTCAAAGAGAACACTGCCACCCTCCGCCT
CAAGATGGACATGTCTTCCGCCAACTTCAACATGTACGATCAAGTCGCCT
ACCGGATTAAATTCATTCCTCACCCACATGCCGGGGAGAAATGGGTCATC
TACCCCACCTACGACTACACGCACTGCATCGTCGACTCGCTGGAACACGT
CGACTACAGCATCTGCACGCTCGAGTTCGAGACGAGGCGGGAGTCATACT
ACTGGGTCCTGGAAGCCCTTCAGCTCTACCGGCCAAAGGTCTATGAATTC
TCGCGGCTGAATATCACCTACACTGTCCTCTCCAAGCGCAAACTCCTCAA
GCTCGTCAAGGGTAACCAGGTCCAGGGCTGGGACGACCCCCGCATGCCTA
CCATCAAGGGACTCCGCCGCCGTGGCTACACCGCTGACATCCTCAACGCC
TTCTGCAAAGACATCGGTGTCACCCGCAATGAGAACGTGATCCAGTACGA
ACGCCTCCAGCATTGGGCCCGGGCCATTTTGAACGAAACCGCTCCCCGAG
CCATGGGTGTTCTCAATCCCATTCTCCTCACCATCACCAATCTCTCCTCC
CCCCTTTCTCTCGAGGCTCCCGACTTTCCTTTTGCGCCCGAACGGGGCAC
TCACCCTGTTCTCCTCACCCCTCAGCTCTACATTGACGCCTCGGATTTTC
GTCAAGAAGACAGCAAAGACTACTTTGGTCTCGCCCCCGGCAAGAGCGCC
ATTCTCAAGTACGCCTTTCCCGTGCGTGTCGATGAGGTGCTGCTCAACGA
AAAAGGGAACGTAATCGAGCTCAAGGTGACTGCAGATAAGGAGGGGAAGG
GTCCGAAGCCTAGGGGAGCCATCACATGGGTGTCAGCTGAAGAGGGGAAA
TCAGTGCCGACGGAATTCAGGCTGTACAATCACTTGTTCACCGTGGAGTG
TCCCGGGGACGAGACATGGGAGTCCGAATTGAATCCGTTGTCGTTGGAGA
AGAGAGAGGGAGGGAGGGTGGATGTATCGGTGTTGAAGGCGGGAGAGATA
CCTCCGGTTTGTTCGACATTTCAGTTGGAGAGGGTAGGCTACTTCACTGT
GGACCCCGATAGTTCAAAGGAGACATTGGTGTTGAACCGGGTGATGCATA
GTCATCCCCGGCACTTGTCATCCCCACTCCACGTTAGATCGTCTTCATCC
CCTCAGCGCATAGAAGAAATGGCGGAGGAAACATCGGCAGGAGCAGGAGC
GGGAGCAGAGGACTCATTGGCTGCCCGGGAGTTGGAAAGCGCCAAAAACA
CCCCTGCCCTTGAGGCGCAGCACCGAGAAGTGACCAAGGGCAAGGTCCGC
ACGCGTTTCCCTCCGGAGCCGAACGGTTACTTACACATTGGCCACGCCAA
GTCTATGCATATGAATTTCCACCTTGCTTTTGAGAAGCTGGGCGTGCCCG
AGGCCATGCGCGAGACGGTGTTCCGGTATGACGACACCAACCCAGAGGCG
GAGAGCCAAGAATATATTGATTCCCTGCGGGAGGACGTGGAGTGGTTGGG
CTGGACGCCCATGCAAACCACCTTCACCTCGGACTATTTCGACAAGCTAT
ACGAACTAGCCGTGCAGCTCATTCGGGACGGCAAGGCCTATGTCTGCCAC
CAGACAGGTGAAGAGATTAGTAAGTCGCGTGCGATTGCCAAGGAGAAGGC
GGCTAATGCTGAATTTGAGGGAGATCCGAACAGCCCCTGGCGGGATCGGC
CTGTAGAGGAGTCTCTCAAG

Synonyms

Publications