jgi.p|Nanoce1779_2|380380, mRNA_10622 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|380380
Unique Name	mRNA_10622
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	2146
Alignment location	scaffold_62:49747..52699 -

Link to JBrowse

Properties


Property Name	Value
TranscriptId	380466
Track	FilteredModels2
ProteinId	380380

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_62	supercontig	scaffold_62:49747..52699 -

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\|380380	gene_10622	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\|380380	mRNA_10622-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_10622	CDS_10622	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_62:49747..52699-
coding sequence from alignment at scaffold_62:49747..52699-

mRNA sequence

>mRNA_10622 ID=mRNA_10622|Name=jgi.p|Nanoce1779_2|380380|organism=Nannochloropsis oceanica|type=mRNA|length=2146bp
GTCAAACCTCTCACAGCCCTTCCCTTCCCTCTCTCCCTCCCTACCCACAG
GAGGAAGAGTCCCTCGTTCGTTCCCTCTTGCAACACTTCAACGTCAAGGT
CGACCACCAAACGCTCCTCCTTCAGATGCAGCGCTTGGATGAGGCCCGGG
AGAAGGGCGGGGGAGAAGGTGAGGAAGGAAGGAGGGAGGGAGAGAATAAG
AATCGAACGGAAAATTCGTGCAGACATACACTTACCGCCCTTCCCTCCCT
CCCTCTTTCGCCGTAGGCCCGGACTCCTTGTTTCTCTCGACCTCCTCTGA
CGCCTTCCTCGCTTCGTCTGCCCAGCCCAAGGAGACGCAGGGCGAGGAAG
AGAGAGAGGGCGGGGGGGAAGAGATGCACATATCGGATGCCGACGAAGGG
GAGGAGGGAGGGCTCAGGCAGACGACGCAGCACCAGCAGCATCAGCACCA
GCAGCGGCAGCAGATGCAGAAGAAGAAGAGTGGAGGCAACGGCAGGACGG
GAAGCTCGCTTAGACCTTCCTCCTCCTCCTCCTCCTCCCTCCTGGCCAAG
GCAAGGGGCCAGATCCCTCTTTTGCGATTGTCCCCTCATCCTTCCTCCTC
CTCGTCCCAAGCGACGGGCCGTGGTCGCAGCGCCAGTGAAGGAGGTGCCC
TCTCCTCGCCCTTCTTCTCCTCCTCCGCCTCCTGCTCAACCTTTCCCCCC
AAGCGGCGCAAGCGCTCCTCCTCCACGGCCTTCCCCGACGACCACCTCTC
CATCCCTCCATCTCTCCTGGCAGGGTACCTCCGCCCCTCCCCTCCTCCCT
CCCTCCTGGACGCCGACAAGCTCAAGGCGGTGGAAGGCATGGACGCGGAG
GCATTGCGCGAAAAGGCGGCGAAGGGGGGCATAATCAGGGCGGGTTCGTG
GGGGGGGAGTGCGGTGTCGTGGGTGGAGGCTGGGAGGGAGGGAGGGAAAG
AGGGAGGGAACACCCCGCGGGGAGGGACTCTGCTTGGGAATGCGGGAGCG
ACCCCACGGGGAGAGGGAGGGAGGGAGGGAGGAGAGGAGGGAGGGGCATG
TAGTGTGAAGGGGCAGGGGCCGCTGGCGCCGCTCCCGCTAGAGAAGGGAG
GGAGGGCCTGGCATGCGATCGTGAGCACCAAGGGCGCCTTGGGACTGCTC
GAAAAGGAGAAGGAGAAGGAGAAGGAGACGGGCGGCAGCAGTAGTAGCCG
CAGCAAGAACAACAGCGGGAGCCTCTCTTCCGTGTTTTCTACTCCCCTGT
CGGCCTTTTCCGTGGGGAGGGGGGGGAGGGGGGGGATGGTAGGGAGGGCA
GTGGACGAACAGGAGGAAATAATCAAAACTCAGGCGCTGGACTGGGGCAC
TCTGGTGGGCCAGTTCCAGTCGGTGGCCCATAAGGGGGGGGAGCAGGCGG
CGGCTGTCGTGGGATCCGTGAAGAGCGCTGTTTCTCGTGCGGCAGGAGCG
GCCGGGATAGGGAAGGAAAAGGGGGAGGGAGGGCAGGAGGAAGGGAAGGG
GGAAGGAAGCGGTGGAAAGAAGACGGTAGGGCTGACGAGGCGACGCAGCG
GTCGCACCTTCAGCACAAGCAGCAGCACCACCAGCAGCACCAGCAGTGCT
TTTATCAACAATGACAGCAGGAGCAGCAGCGGCGGCAGCAGCAGCAGCAG
TGATCCCTCCCTCGGTCCTTCCCTCGCCCTCCGCGAGATTCCCGCCCCGT
CGTTCCGATGCCTAGACGAGGACGAAGGAGAGGAAGGGGAGAAGGAACGG
GGAAAAGACGACGAGGAGGAGGAAGAGGAGGAAGACTTGTCGGATGAGGC
CATCCTCGCTCGGCATGAAGAAACGCTCCGAGAGGAGCGGCGCGGCAGCA
GCGGCAGTAGCAGCGGCAGCAGAGGAAGGGAGGGGGGAAGGGATGGAGGG
AGGGGTGGAGGAAGGGAAGGAAGGAGAGGACACACCGGTCTTGACCTGCT
CCCCTCCCTCCTCCACCTCGTCCTCCGCCTCTACCTCCGTGAACGGGGAG
GAGGGAGAGGGCGGGGATGGTGGGGAGGAAGACAACAGCATCGCCTCCTC
CTCCTCTTTCTCTTCTACTGCGTCCTCTCCTCTTGCTCGCCTTAAGGAGC
AGGAAAAAAAGGAGGAGAAAAGGGAAAGACATGGAGCAAGGGTGGA

protein sequence of jgi.p|Nanoce1779_2|380380

>mRNA_10622-protein ID=mRNA_10622-protein|Name=jgi.p|Nanoce1779_2|380380|organism=Nannochloropsis oceanica|type=polypeptide|length=574bp
MHISDADEGEEGGLRQTTQHQQHQHQQRQQMQKKKSGGNGRTGSSLRPSS
SSSSSLLAKARGQIPLLRLSPHPSSSSSQATGRGRSASEGGALSSPFFSS
SASCSTFPPKRRKRSSSTAFPDDHLSIPPSLLAGYLRPSPPPSLLDADKL
KAVEGMDAEALREKAAKGGIIRAGSWGGSAVSWVEAGREGGKEGGNTPRG
GTLLGNAGATPRGEGGREGGEEGGACSVKGQGPLAPLPLEKGGRAWHAIV
STKGALGLLEKEKEKEKETGGSSSSRSKNNSGSLSSVFSTPLSAFSVGRG
GRGGMVGRAVDEQEEIIKTQALDWGTLVGQFQSVAHKGGEQAAAVVGSVK
SAVSRAAGAAGIGKEKGEGGQEEGKGEGSGGKKTVGLTRRRSGRTFSTSS
STTSSTSSAFINNDSRSSSGGSSSSSDPSLGPSLALREIPAPSFRCLDED
EGEEGEKERGKDDEEEEEEEDLSDEAILARHEETLREERRGSSGSSSGSR
GREGGRDGGRGGGREGRRGHTGLDLLPSLLHLVLRLYLRERGGGRGRGWW
GGRQQHRLLLLFLFYCVLSSCSP*

mRNA from alignment at scaffold_62:49747..52699-

Legend: polypeptideCDS

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

>mRNA_10622 ID=mRNA_10622|Name=jgi.p|Nanoce1779_2|380380|organism=Nannochloropsis oceanica|type=mRNA|length=2953bp|location=Sequence derived from alignment at scaffold_62:49747..52699- (Nannochloropsis oceanica)
GTCAAACCTCTCACAGCCCTTCCCTTCCCTCTCTCCCTCCCTACCCACAG
GAGGAAGAGTCCCTCGTTCGTTCCCTCTTGCAACACTTCAACGTCAAGGT
ACGTCGTCCTCCCTCCCCCCCTCCCCTCCCTCCCTCGCTCCACGCCCTCC
TTCCCTTCACCTATCAAAATATGACTCCCTCCTTCCCTCCCCCCCTCCCT
CCCTCCTTCAGGTCGACCACCAAACGCTCCTCCTTCAGATGCAGCGCTTG
GATGAGGCCCGGGAGAAGGGCGGGGGAGAAGGTGAGGAAGGAAGGAGGGA
GGGAGAGAATAAGAATCGAACGGAAAATTCGTGCAGACATACACTTACCG
CCCTTCCCTCCCTCCCTCTTTCGCCGTAGGCCCGGACTCCTTGTTTCTCT
CGACCTCCTCTGACGCCTTCCTCGCTTCGTCTGCCCAGCCCAAGGAGACG
CAGGGCGAGGAAGAGAGAGAGGGCGGGGGGGAAGAGATGCACATATCGGA
TGCCGACGAAGGGGAGGAGGGAGGGCTCAGGCAGACGACGCAGCACCAGC
AGCATCAGCACCAGCAGCGGCAGCAGATGCAGAAGAAGAAGAGTGGAGGC
AACGGCAGGACGGGAAGCTCGCTTAGACCTTCCTCCCTCAACACCTCCCT
CCATCCCTCCTCTTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCT
CCTCCCTCCTGGCCAAGGCAAGGGGCCAGATCCCTCTTTTGCGATTGTCC
CCTCATCCTTCCTCCTCCTCGTCCCAAGCGACGGGCCGTGGTCGCAGCGC
CAGTGAAGGAGGTCAGGAGAAGGGTGGGAGGGAATAAGAGGGAAGGAGGG
AATGTCGGAGAAGAGATAGTGTGTATGTCCGCCCTGTCCCTTGGATGCCT
TCACACTTCTCCTCATTTACCCCTCCCTCCCTCCCTCTCTCCTCCCCTCC
CCCCTTCCCGCCCTTCTCCTCCTCTTCACAATAACAGGTGCCCTCTCCTC
GCCCTTCTTCTCCTCCTCCGCCTCCTGCTCAACCTTTCCCCCCAAGCGGC
GCAAGCGCTCCTCCTCCACGGCCTTCCCCGACGACCACCTCTCCATCCCT
CCATCTCTCCTGGCAGGGTACCTCCGCCCCTCCCCTCCTCCCTCCCTCCT
GGACGCCGACAAGCTCAAGGCGGTGGAAGGCATGGACGCGGAGGCATTGC
GCGAAAAGGCGGCGAAGGGGGGCATAATCAGGGCGGGTTCGTGGGGGGGG
AGTGCGGTGTCGTGGGTGGAGGCTGGGAGGGAGGGAGGGAAAGAGGGAGG
GAACACCCCGCGGGGAGGGACTCTGCTTGGGAATGCGGGAGCGACCCCAC
GGGGAGAGGGAGGGAGGGAGGGAGGAGAGGAGGGAGGGGCATGTAGTGTG
AAGGGGCAGGGGCCGCTGGCGCCGCTCCCGCTAGAGAAGGGAGGGAGGGC
CTGGCATGCGATCGTGAGCACCAAGGGCGCCTTGGGACTGCTCGAAAAGG
AGAAGGAGAAGGAGAAGGAGACGGGCGGCAGCAGTAGTAGCCGCAGCAAG
AACAACAGCGGGAGCCTCTCTTCCGTGTTTTCTACTCCCCTGTCGGCCTT
TTCCGTGGGGAGGGGGGGGAGGGGGGGGATGGTAGGGAGGGCAGTGGACG
AACAGGAGGAAATAATCAAAACTCAGGCGCTGGACTGGGGCACTCTGGTG
GGCCAGTTCCAGTCGGTGGCCCATAAGGGGGGGGAGCAGGCGGCGGCTGT
CGTGGGATCCGTGAAGAGCGCTGTTTCTCGTGCGGCAGGAGCGGCCGGGA
TAGGGAAGGAAAAGGGGGAGGGAGGGCAGGAGGAAGGGAAGGGGGAAGGA
AGCGGTGGAAAGAAGACGGTAGGGCTGACGAGGCGACGCAGCGGTCGCAC
CTTCAGCACAAGCAGCAGCACCACCAGCAGCACCAGCAGTGCTTTTATCA
ACAATGACAGCAGGAGCAGCAGCGGCGGCAGCAGCAGCAGCAGTGATCCC
TCCCTCGGTCCTTCCCTCGCCCTCCGCGAGATTCCCGCCCCGTCGTTCCG
ATGCCTAGACGAGGACGAAGGAGAGGAAGGGGAGAAGGAACGGGGAAAAG
ACGACGAGGAGGAGGAAGAGGAGGAAGACTTGTCGGATGAGGCCATCCTC
GCTCGGCATGAAGAAACGCTCCGAGAGATTTGGGAGAGATACGCCCGTTG
GCGGGAATTGAAGAAACGGCAGCGTCCGCCTCCTCCCCACCGCTCCACCC
ACGGTCAGCACCACCACCACCACCACCACCAGCAGCAGCAGCAGCAACAG
CACCACCAGCAGCAGCAGCACCAGCAGCAGCACCAGCACCAGCAGCACCA
GCAGCAGCACCAGCAGCAGCACCACCACCAGCAGCAGCAGCACTTGGAGC
AGCAGGCTGCATCCTCCTCTTCTTCCTCCTCCTCCATGGCCTCCTCGTCG
TCCTCGTCTTCTTCCACCCGCCGCCGACGCAAGGGAGGAGGAAAGACGAG
CGGCGCGGCAGCAGCGGCAGTAGCAGCGGCAGCAGCAGAAAGGGCAAAGG
AAGAGGAAGGGATGGAGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGT
GAACTGTGTGCGTCGGCGTCGACCACGGCGCCGTCGTCTTCGACTTGCTC
CGTGGAGGGCAAGGACAAGGTGAAGGAGGAGGAAGGGAGGGGGGAAGGGA
TGGAGGGAGGGGTGGAGGAAGGGAAGGAAGGAGAGGACACACCGGTCTTG
ACCTGCTCCCCTCCCTCCTCCACCTCGTCCTCCGCCTCTACCTCCGTGAA
CGGGGAGGAGGGAGAGGGCGGGGATGGTGGGGAGGAAGACAACAGCATCG
CCTCCTCCTCCTCTTTCTCTTCTACTGCGTCCTCTCCTCTTGCTCGCCTT
AAGGAGCAGGAAAAAAAGGAGGAGAAAAGGGAAAGACATGGAGCAAGGGT
GGA

Coding sequence (CDS) from alignment at scaffold_62:49747..52699-

>mRNA_10622 ID=mRNA_10622|Name=jgi.p|Nanoce1779_2|380380|organism=Nannochloropsis oceanica|type=CDS|length=8610bp|location=Sequence derived from alignment at scaffold_62:49747..52699- (Nannochloropsis oceanica)
GAGGAAGGGAGGGGGGAAGGGATGGAGGGAGGGGTGGAGGAAGGGAAGGA
AGGAGAGGACACACCGGTCTTGACCTGCTCCCCTCCCTCCTCCACCTCGT
CCTCCGCCTCTACCTCCGTGAACGGGGAGGAGGGAGAGGGCGGGGATGGT
GGGGAGGAAGACAACAGCATCGCCTCCTCCTCCTCTTTCTCTTCTACTGC
GTCCTCTCCTCTTGCTCGCCTTAAGAGCGGCGCGGCAGCAGCGGCAGTAG
CAGCGGCAGCAGTGCCCTCTCCTCGCCCTTCTTCTCCTCCTCCGCCTCCT
GCTCAACCTTTCCCCCCAAGCGGCGCAAGCGCTCCTCCTCCACGGCCTTC
CCCGACGACCACCTCTCCATCCCTCCATCTCTCCTGGCAGGGTACCTCCG
CCCCTCCCCTCCTCCCTCCCTCCTGGACGCCGACAAGCTCAAGGCGGTGG
AAGGCATGGACGCGGAGGCATTGCGCGAAAAGGCGGCGAAGGGGGGCATA
ATCAGGGCGGGTTCGTGGGGGGGGAGTGCGGTGTCGTGGGTGGAGGCTGG
GAGGGAGGGAGGGAAAGAGGGAGGGAACACCCCGCGGGGAGGGACTCTGC
TTGGGAATGCGGGAGCGACCCCACGGGGAGAGGGAGGGAGGGAGGGAGGA
GAGGAGGGAGGGGCATGTAGTGTGAAGGGGCAGGGGCCGCTGGCGCCGCT
CCCGCTAGAGAAGGGAGGGAGGGCCTGGCATGCGATCGTGAGCACCAAGG
GCGCCTTGGGACTGCTCGAAAAGGAGAAGGAGAAGGAGAAGGAGACGGGC
GGCAGCAGTAGTAGCCGCAGCAAGAACAACAGCGGGAGCCTCTCTTCCGT
GTTTTCTACTCCCCTGTCGGCCTTTTCCGTGGGGAGGGGGGGGAGGGGGG
GGATGGTAGGGAGGGCAGTGGACGAACAGGAGGAAATAATCAAAACTCAG
GCGCTGGACTGGGGCACTCTGGTGGGCCAGTTCCAGTCGGTGGCCCATAA
GGGGGGGGAGCAGGCGGCGGCTGTCGTGGGATCCGTGAAGAGCGCTGTTT
CTCGTGCGGCAGGAGCGGCCGGGATAGGGAAGGAAAAGGGGGAGGGAGGG
CAGGAGGAAGGGAAGGGGGAAGGAAGCGGTGGAAAGAAGACGGTAGGGCT
GACGAGGCGACGCAGCGGTCGCACCTTCAGCACAAGCAGCAGCACCACCA
GCAGCACCAGCAGTGCTTTTATCAACAATGACAGCAGGAGCAGCAGCGGC
GGCAGCAGCAGCAGCAGTGATCCCTCCCTCGGTCCTTCCCTCGCCCTCCG
CGAGATTCCCGCCCCGTCGTTCCGATGCCTAGACGAGGACGAAGGAGAGG
AAGGGGAGAAGGAACGGGGAAAAGACGACGAGGAGGAGGAAGAGGAGGAA
GACTTGTCGGATGAGGCCATCCTCGCTCGGCATGAAGAAACGCTCCGAGA
GTCCTCCTCCTCCTCCTCCTCCCTCCTGGCCAAGGCAAGGGGCCAGATCC
CTCTTTTGCGATTGTCCCCTCATCCTTCCTCCTCCTCGTCCCAAGCGACG
GGCCGTGGTCGCAGCGCCAGTGAAGGAGATGCACATATCGGATGCCGACG
AAGGGGAGGAGGGAGGGCTCAGGCAGACGACGCAGCACCAGCAGCATCAG
CACCAGCAGCGGCAGCAGATGCAGAAGAAGAAGAGTGGAGGCAACGGCAG
GACGGGAAGCTCGCTTAGACCTGAGGAAGGGAGGGGGGAAGGGATGGAGG
GAGGGGTGGAGGAAGGGAAGGAAGGAGAGGACACACCGGTCTTGACCTGC
TCCCCTCCCTCCTCCACCTCGTCCTCCGCCTCTACCTCCGTGAACGGGGA
GGAGGGAGAGGGCGGGGATGGTGGGGAGGAAGACAACAGCATCGCCTCCT
CCTCCTCTTTCTCTTCTACTGCGTCCTCTCCTCTTGCTCGCCTTAAGAGC
GGCGCGGCAGCAGCGGCAGTAGCAGCGGCAGCAGTGCCCTCTCCTCGCCC
TTCTTCTCCTCCTCCGCCTCCTGCTCAACCTTTCCCCCCAAGCGGCGCAA
GCGCTCCTCCTCCACGGCCTTCCCCGACGACCACCTCTCCATCCCTCCAT
CTCTCCTGGCAGGGTACCTCCGCCCCTCCCCTCCTCCCTCCCTCCTGGAC
GCCGACAAGCTCAAGGCGGTGGAAGGCATGGACGCGGAGGCATTGCGCGA
AAAGGCGGCGAAGGGGGGCATAATCAGGGCGGGTTCGTGGGGGGGGAGTG
CGGTGTCGTGGGTGGAGGCTGGGAGGGAGGGAGGGAAAGAGGGAGGGAAC
ACCCCGCGGGGAGGGACTCTGCTTGGGAATGCGGGAGCGACCCCACGGGG
AGAGGGAGGGAGGGAGGGAGGAGAGGAGGGAGGGGCATGTAGTGTGAAGG
GGCAGGGGCCGCTGGCGCCGCTCCCGCTAGAGAAGGGAGGGAGGGCCTGG
CATGCGATCGTGAGCACCAAGGGCGCCTTGGGACTGCTCGAAAAGGAGAA
GGAGAAGGAGAAGGAGACGGGCGGCAGCAGTAGTAGCCGCAGCAAGAACA
ACAGCGGGAGCCTCTCTTCCGTGTTTTCTACTCCCCTGTCGGCCTTTTCC
GTGGGGAGGGGGGGGAGGGGGGGGATGGTAGGGAGGGCAGTGGACGAACA
GGAGGAAATAATCAAAACTCAGGCGCTGGACTGGGGCACTCTGGTGGGCC
AGTTCCAGTCGGTGGCCCATAAGGGGGGGGAGCAGGCGGCGGCTGTCGTG
GGATCCGTGAAGAGCGCTGTTTCTCGTGCGGCAGGAGCGGCCGGGATAGG
GAAGGAAAAGGGGGAGGGAGGGCAGGAGGAAGGGAAGGGGGAAGGAAGCG
GTGGAAAGAAGACGGTAGGGCTGACGAGGCGACGCAGCGGTCGCACCTTC
AGCACAAGCAGCAGCACCACCAGCAGCACCAGCAGTGCTTTTATCAACAA
TGACAGCAGGAGCAGCAGCGGCGGCAGCAGCAGCAGCAGTGATCCCTCCC
TCGGTCCTTCCCTCGCCCTCCGCGAGATTCCCGCCCCGTCGTTCCGATGC
CTAGACGAGGACGAAGGAGAGGAAGGGGAGAAGGAACGGGGAAAAGACGA
CGAGGAGGAGGAAGAGGAGGAAGACTTGTCGGATGAGGCCATCCTCGCTC
GGCATGAAGAAACGCTCCGAGAGTCCTCCTCCTCCTCCTCCTCCCTCCTG
GCCAAGGCAAGGGGCCAGATCCCTCTTTTGCGATTGTCCCCTCATCCTTC
CTCCTCCTCGTCCCAAGCGACGGGCCGTGGTCGCAGCGCCAGTGAAGGAG
ATGCACATATCGGATGCCGACGAAGGGGAGGAGGGAGGGCTCAGGCAGAC
GACGCAGCACCAGCAGCATCAGCACCAGCAGCGGCAGCAGATGCAGAAGA
AGAAGAGTGGAGGCAACGGCAGGACGGGAAGCTCGCTTAGACCTGAGGAA
GGGAGGGGGGAAGGGATGGAGGGAGGGGTGGAGGAAGGGAAGGAAGGAGA
GGACACACCGGTCTTGACCTGCTCCCCTCCCTCCTCCACCTCGTCCTCCG
CCTCTACCTCCGTGAACGGGGAGGAGGGAGAGGGCGGGGATGGTGGGGAG
GAAGACAACAGCATCGCCTCCTCCTCCTCTTTCTCTTCTACTGCGTCCTC
TCCTCTTGCTCGCCTTAAGAGCGGCGCGGCAGCAGCGGCAGTAGCAGCGG
CAGCAGTGCCCTCTCCTCGCCCTTCTTCTCCTCCTCCGCCTCCTGCTCAA
CCTTTCCCCCCAAGCGGCGCAAGCGCTCCTCCTCCACGGCCTTCCCCGAC
GACCACCTCTCCATCCCTCCATCTCTCCTGGCAGGGTACCTCCGCCCCTC
CCCTCCTCCCTCCCTCCTGGACGCCGACAAGCTCAAGGCGGTGGAAGGCA
TGGACGCGGAGGCATTGCGCGAAAAGGCGGCGAAGGGGGGCATAATCAGG
GCGGGTTCGTGGGGGGGGAGTGCGGTGTCGTGGGTGGAGGCTGGGAGGGA
GGGAGGGAAAGAGGGAGGGAACACCCCGCGGGGAGGGACTCTGCTTGGGA
ATGCGGGAGCGACCCCACGGGGAGAGGGAGGGAGGGAGGGAGGAGAGGAG
GGAGGGGCATGTAGTGTGAAGGGGCAGGGGCCGCTGGCGCCGCTCCCGCT
AGAGAAGGGAGGGAGGGCCTGGCATGCGATCGTGAGCACCAAGGGCGCCT
TGGGACTGCTCGAAAAGGAGAAGGAGAAGGAGAAGGAGACGGGCGGCAGC
AGTAGTAGCCGCAGCAAGAACAACAGCGGGAGCCTCTCTTCCGTGTTTTC
TACTCCCCTGTCGGCCTTTTCCGTGGGGAGGGGGGGGAGGGGGGGGATGG
TAGGGAGGGCAGTGGACGAACAGGAGGAAATAATCAAAACTCAGGCGCTG
GACTGGGGCACTCTGGTGGGCCAGTTCCAGTCGGTGGCCCATAAGGGGGG
GGAGCAGGCGGCGGCTGTCGTGGGATCCGTGAAGAGCGCTGTTTCTCGTG
CGGCAGGAGCGGCCGGGATAGGGAAGGAAAAGGGGGAGGGAGGGCAGGAG
GAAGGGAAGGGGGAAGGAAGCGGTGGAAAGAAGACGGTAGGGCTGACGAG
GCGACGCAGCGGTCGCACCTTCAGCACAAGCAGCAGCACCACCAGCAGCA
CCAGCAGTGCTTTTATCAACAATGACAGCAGGAGCAGCAGCGGCGGCAGC
AGCAGCAGCAGTGATCCCTCCCTCGGTCCTTCCCTCGCCCTCCGCGAGAT
TCCCGCCCCGTCGTTCCGATGCCTAGACGAGGACGAAGGAGAGGAAGGGG
AGAAGGAACGGGGAAAAGACGACGAGGAGGAGGAAGAGGAGGAAGACTTG
TCGGATGAGGCCATCCTCGCTCGGCATGAAGAAACGCTCCGAGAGTCCTC
CTCCTCCTCCTCCTCCCTCCTGGCCAAGGCAAGGGGCCAGATCCCTCTTT
TGCGATTGTCCCCTCATCCTTCCTCCTCCTCGTCCCAAGCGACGGGCCGT
GGTCGCAGCGCCAGTGAAGGAGATGCACATATCGGATGCCGACGAAGGGG
AGGAGGGAGGGCTCAGGCAGACGACGCAGCACCAGCAGCATCAGCACCAG
CAGCGGCAGCAGATGCAGAAGAAGAAGAGTGGAGGCAACGGCAGGACGGG
AAGCTCGCTTAGACCTGAGGAAGGGAGGGGGGAAGGGATGGAGGGAGGGG
TGGAGGAAGGGAAGGAAGGAGAGGACACACCGGTCTTGACCTGCTCCCCT
CCCTCCTCCACCTCGTCCTCCGCCTCTACCTCCGTGAACGGGGAGGAGGG
AGAGGGCGGGGATGGTGGGGAGGAAGACAACAGCATCGCCTCCTCCTCCT
CTTTCTCTTCTACTGCGTCCTCTCCTCTTGCTCGCCTTAAGAGCGGCGCG
GCAGCAGCGGCAGTAGCAGCGGCAGCAGTGCCCTCTCCTCGCCCTTCTTC
TCCTCCTCCGCCTCCTGCTCAACCTTTCCCCCCAAGCGGCGCAAGCGCTC
CTCCTCCACGGCCTTCCCCGACGACCACCTCTCCATCCCTCCATCTCTCC
TGGCAGGGTACCTCCGCCCCTCCCCTCCTCCCTCCCTCCTGGACGCCGAC
AAGCTCAAGGCGGTGGAAGGCATGGACGCGGAGGCATTGCGCGAAAAGGC
GGCGAAGGGGGGCATAATCAGGGCGGGTTCGTGGGGGGGGAGTGCGGTGT
CGTGGGTGGAGGCTGGGAGGGAGGGAGGGAAAGAGGGAGGGAACACCCCG
CGGGGAGGGACTCTGCTTGGGAATGCGGGAGCGACCCCACGGGGAGAGGG
AGGGAGGGAGGGAGGAGAGGAGGGAGGGGCATGTAGTGTGAAGGGGCAGG
GGCCGCTGGCGCCGCTCCCGCTAGAGAAGGGAGGGAGGGCCTGGCATGCG
ATCGTGAGCACCAAGGGCGCCTTGGGACTGCTCGAAAAGGAGAAGGAGAA
GGAGAAGGAGACGGGCGGCAGCAGTAGTAGCCGCAGCAAGAACAACAGCG
GGAGCCTCTCTTCCGTGTTTTCTACTCCCCTGTCGGCCTTTTCCGTGGGG
AGGGGGGGGAGGGGGGGGATGGTAGGGAGGGCAGTGGACGAACAGGAGGA
AATAATCAAAACTCAGGCGCTGGACTGGGGCACTCTGGTGGGCCAGTTCC
AGTCGGTGGCCCATAAGGGGGGGGAGCAGGCGGCGGCTGTCGTGGGATCC
GTGAAGAGCGCTGTTTCTCGTGCGGCAGGAGCGGCCGGGATAGGGAAGGA
AAAGGGGGAGGGAGGGCAGGAGGAAGGGAAGGGGGAAGGAAGCGGTGGAA
AGAAGACGGTAGGGCTGACGAGGCGACGCAGCGGTCGCACCTTCAGCACA
AGCAGCAGCACCACCAGCAGCACCAGCAGTGCTTTTATCAACAATGACAG
CAGGAGCAGCAGCGGCGGCAGCAGCAGCAGCAGTGATCCCTCCCTCGGTC
CTTCCCTCGCCCTCCGCGAGATTCCCGCCCCGTCGTTCCGATGCCTAGAC
GAGGACGAAGGAGAGGAAGGGGAGAAGGAACGGGGAAAAGACGACGAGGA
GGAGGAAGAGGAGGAAGACTTGTCGGATGAGGCCATCCTCGCTCGGCATG
AAGAAACGCTCCGAGAGTCCTCCTCCTCCTCCTCCTCCCTCCTGGCCAAG
GCAAGGGGCCAGATCCCTCTTTTGCGATTGTCCCCTCATCCTTCCTCCTC
CTCGTCCCAAGCGACGGGCCGTGGTCGCAGCGCCAGTGAAGGAGATGCAC
ATATCGGATGCCGACGAAGGGGAGGAGGGAGGGCTCAGGCAGACGACGCA
GCACCAGCAGCATCAGCACCAGCAGCGGCAGCAGATGCAGAAGAAGAAGA
GTGGAGGCAACGGCAGGACGGGAAGCTCGCTTAGACCTGAGGAAGGGAGG
GGGGAAGGGATGGAGGGAGGGGTGGAGGAAGGGAAGGAAGGAGAGGACAC
ACCGGTCTTGACCTGCTCCCCTCCCTCCTCCACCTCGTCCTCCGCCTCTA
CCTCCGTGAACGGGGAGGAGGGAGAGGGCGGGGATGGTGGGGAGGAAGAC
AACAGCATCGCCTCCTCCTCCTCTTTCTCTTCTACTGCGTCCTCTCCTCT
TGCTCGCCTTAAGAGCGGCGCGGCAGCAGCGGCAGTAGCAGCGGCAGCAG
TGCCCTCTCCTCGCCCTTCTTCTCCTCCTCCGCCTCCTGCTCAACCTTTC
CCCCCAAGCGGCGCAAGCGCTCCTCCTCCACGGCCTTCCCCGACGACCAC
CTCTCCATCCCTCCATCTCTCCTGGCAGGGTACCTCCGCCCCTCCCCTCC
TCCCTCCCTCCTGGACGCCGACAAGCTCAAGGCGGTGGAAGGCATGGACG
CGGAGGCATTGCGCGAAAAGGCGGCGAAGGGGGGCATAATCAGGGCGGGT
TCGTGGGGGGGGAGTGCGGTGTCGTGGGTGGAGGCTGGGAGGGAGGGAGG
GAAAGAGGGAGGGAACACCCCGCGGGGAGGGACTCTGCTTGGGAATGCGG
GAGCGACCCCACGGGGAGAGGGAGGGAGGGAGGGAGGAGAGGAGGGAGGG
GCATGTAGTGTGAAGGGGCAGGGGCCGCTGGCGCCGCTCCCGCTAGAGAA
GGGAGGGAGGGCCTGGCATGCGATCGTGAGCACCAAGGGCGCCTTGGGAC
TGCTCGAAAAGGAGAAGGAGAAGGAGAAGGAGACGGGCGGCAGCAGTAGT
AGCCGCAGCAAGAACAACAGCGGGAGCCTCTCTTCCGTGTTTTCTACTCC
CCTGTCGGCCTTTTCCGTGGGGAGGGGGGGGAGGGGGGGGATGGTAGGGA
GGGCAGTGGACGAACAGGAGGAAATAATCAAAACTCAGGCGCTGGACTGG
GGCACTCTGGTGGGCCAGTTCCAGTCGGTGGCCCATAAGGGGGGGGAGCA
GGCGGCGGCTGTCGTGGGATCCGTGAAGAGCGCTGTTTCTCGTGCGGCAG
GAGCGGCCGGGATAGGGAAGGAAAAGGGGGAGGGAGGGCAGGAGGAAGGG
AAGGGGGAAGGAAGCGGTGGAAAGAAGACGGTAGGGCTGACGAGGCGACG
CAGCGGTCGCACCTTCAGCACAAGCAGCAGCACCACCAGCAGCACCAGCA
GTGCTTTTATCAACAATGACAGCAGGAGCAGCAGCGGCGGCAGCAGCAGC
AGCAGTGATCCCTCCCTCGGTCCTTCCCTCGCCCTCCGCGAGATTCCCGC
CCCGTCGTTCCGATGCCTAGACGAGGACGAAGGAGAGGAAGGGGAGAAGG
AACGGGGAAAAGACGACGAGGAGGAGGAAGAGGAGGAAGACTTGTCGGAT
GAGGCCATCCTCGCTCGGCATGAAGAAACGCTCCGAGAGTCCTCCTCCTC
CTCCTCCTCCCTCCTGGCCAAGGCAAGGGGCCAGATCCCTCTTTTGCGAT
TGTCCCCTCATCCTTCCTCCTCCTCGTCCCAAGCGACGGGCCGTGGTCGC
AGCGCCAGTGAAGGAGATGCACATATCGGATGCCGACGAAGGGGAGGAGG
GAGGGCTCAGGCAGACGACGCAGCACCAGCAGCATCAGCACCAGCAGCGG
CAGCAGATGCAGAAGAAGAAGAGTGGAGGCAACGGCAGGACGGGAAGCTC
GCTTAGACCT

Synonyms

Publications