jgi.p|Nanoce1779_2|571677, mRNA_1305 (mRNA) Nannochloropsis oceanica

Overview
Namejgi.p|Nanoce1779_2|571677
Unique NamemRNA_1305
TypemRNA
OrganismNannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length3304
Alignment locationscaffold_1:228308..231611 -

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Properties
Property NameValue
TranscriptId571763
TrackFilteredModels2
ProteinId571677
Mutants
Expression
No biomaterial libraries express this feature.
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_1supercontigscaffold_1:228308..231611 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Gene prediction for N. oceanica CCMP17792008-02-01
Annotated Terms
Homology
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|571677gene_1305Nannochloropsis oceanica (N. oceanica CCMP1779)gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|571677mRNA_1305-proteinNannochloropsis oceanica (N. oceanica CCMP1779)polypeptide


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CDS_1305CDS_1305Nannochloropsis oceanica (N. oceanica CCMP1779)CDS


Sequences
The following sequences are available for this feature:

mRNA sequence

>mRNA_1305 ID=mRNA_1305|Name=jgi.p|Nanoce1779_2|571677|organism=Nannochloropsis oceanica|type=mRNA|length=3304bp
ACAGACGACATAAAATGTTGCGACCTCCACCCTCACGAGTATCATTCTCG
CCGAGTTATCAGTGGTCTTCACCTTCGGAACAGTACTGGCGCGCCTTTAT
TGAAAAGTTCCACCAGCACGCTGGCAGTCCCAGCACGAAAGAGACCTGCC
TTCTGCTGCTGGACGTCGGCCTCGTCCTCGTCTTTTGCATTGGTGCCTGG
GGTGTGCGTCAGTCTTTGTCCTCGCCGCATTCTCCGACATCCAATACAAT
CGTTATTGGAGGCACTTGTCGGGATATGACGGCGTATGTCTTGGTTTTGA
CCGTTGGATTGGGCCTTTACTTGTTACAAAACATTTTGCATCGGCTACAG
CGCCGCTTATTGATCGCGGTGTGGCAGCAGACGTACCGCCAGAGTTATGG
TGAGAAAACGCAACACCTGCAAGAGGCGAATGAGATGGAACCAGTGCAAC
AAGGGCGGCAGAGATGGCAGTACGAGGAGCAGCATGACTCCCCCATCCAT
TCCTTCGCTTCATCCAAGCCCCCATTCTCCTCGTGCAGCAGCAGCGAAGT
TCAAGCCGAAGACGTGGTGGCGCACGTCCGCGGCCTCCAACGATTGGAGG
GGCTACGAAACCACAGTATACCTGGATTACCCATGCTTTTCCTATTTAGT
TGGATTTATGCGGGAGCGGTAGACTTGCAAAGTGGGTGTATCGCCCGGTA
CCCTGCATTAGGGGCGGCTTATCACGTGTTTTCCTGGGCAGGGTACTTGT
CCGCGGTGGTGTGTTTGGTTCTGTTGATTATACAGTGTGTATGTTTGACT
GCCGAGGATACCGATTCTCCACCCTGGGCCTCGACGTCGTCGTCGTTGTC
AGGAGCAGGCACAGGCGCAGATGCAACAACCGCGCGCTTGGCCCTCCACG
CTCTAGCTACCACACAGTGGCTGGTTCCTGTCCGACGAGCCATTGCCTTA
GTGCTGGGCCCGTTATCTCTACTTTTACCCACCGATGACATCTCGTCTTC
CCCGATTTACACTGGAACTGCCCTGACTACCACCAGCAGCAGCTTCCTCT
TTTCCCCCTTCTCTGTTTCTGAGGAGGAGCAGGCATTACTGCAGCAGGAC
GAGCAGGAGCAGCAGCGGCAGAGAGAGTCATCGCCACAGGAGGAAAGCAT
CTCGGACTTCGATATGACTTCTCCACTTTCCACAAGCACCCGTCCCCACA
CCAGGAGCGGCGATAACAACGACAGTCGCAGCAGCAGCAGCAGCAGTGAA
GAAACGACGACGTGGTTACTCTCTCATGATATTCTTCAAACGGCCTTGGC
CTCCTCTCCTTTTGCCATACGACATCGTACACTTCGCTCGGGTCGTTCCT
CCCCCCCTCCTGCTTTTGCTCCCTCCTCCTCCACCTCCATCAGCACCAAC
GACAGCAGCAGCAGCGGTAGCAGTACTGTCCTGCGCACCTCCACAACTTC
CCTATCTCGCCCGTCCACTACCACTATCTTCACACCCAACCGCCATTTCT
CTTTCAACAAGCGCTTCCTCCCTCTCTCCCTTCCCCATCTCATCTGCTCC
GCCCTTTGGGCATGCTTGCACGTCGCTATCCTTTGCCTGGTCACGACGAG
CTTTTATTTATTGGGACGTACCTCGGCGCTACCTGCCGGGGAGATGGAGG
TGTGTGGAGCAGCAAGGGGGTTTCTATTTGCGCTTGCGACGGGATTTGGG
GGGTATCTTGTCCTAGCGGCCTGGCTGTGGGTGGAGAAAGAGAGGTCATT
TAGGGACGATCCCGAGGAGCATGAGTTGAAGGGGCTGTGGCTTTTGAGAA
CCTTGGCTTGTTTGATGGTGATTAGTTTTGTGTGGGGGGTGATGGTGCTG
AGGGAGGGAGGGAGGGAGGGCGGACGGACGGGAGGGGGGTGTTGGGCCAG
TCAGGGACAGTTGCATGAGTGTGTAGTGGCATTTGTTTTATTGGGATCAA
TGTTGCTGTTTGTGGCGGCGTTTTTGCACTGGATGGCGACAGGGAGGTGG
GCGTTGGTATCAGTAGGCCAGGTGGCACAGGGGGTAGCAGAGACGTGTAG
ATTGTGTCTCAGTTTGCTTCTTAGGTTGGCGCCCCATCAGAAACTGTTGA
AAGCACAGGAGAAGCGGAAGGAGAGAGCATGTCGGGTGAAAGAGAGGGTA
GAGGGGAGGGAGGAAGGAAGGCGAGAAATGTTCTCGTCGCCGGCAAATGA
GATGACGATTCAGGTGGCGGAGGAATTGTCGTTGTTGCCCTTTTTTCATA
TTAGGGTGATTGAAGGAAGAAGAAGTGGAGGCGGAGGTGGAGGAGGGATC
GCGAGTGAAGAAGCACCACGGGGAGGTGAAAGGACAACGCTTGCATCTCC
GTCAGCTTTATATCGTAATAGACAGTACATAGAAGACAACGACGAAGAAA
GCAAGCAGCAGCAGCTGATGCAGGCGCATGGGATCACATCACAGCTCCCG
CCGCGAGCCTTGCCGTACACTCCTCCTCTCACTATTACCACACCCATTGG
TCGCGTTATCGGTCGTCGCAAGAGCAATGATGCTCAATCTCATCACCACA
CCCATCAGGAGCAGGAGCAGGAGTGGGAGCGGGAGCAGCGACGGCCACGG
AGCCGTCTGGGGTTATGCTTAGGTGTTGACGATGATGAGAAGAAGGAGGA
TAAGAAAAGTGATAATGAGGACGAGGTCGATTTACCTGCTGCCGTGCAGG
TGTCGTTGACTCCTGGGGAAGAGGAAGAGGATTGCGAAGGGGCCTTTCAT
TATTACCAGACTCCGCGTCCGTTAGTGTTGGGTGCGACTTTAAATTCGAT
CTTTGATGTGACGCCTTTATCTCTCAGTCCTTTGCGGCCTCGGTCGGCCA
TTGCGATGGGAGAGACAGGAGGCTTGTATCTCACTGAAGACGGGGGGGCA
GAAGGAGAAGGAAGACGGCACACTGAGCAAGGGAACACGTGCTGCCCGCT
CCCACCGTTGCAGGTGTGAGACCAGCAGCGATAGGCACAGGATTTGACAG
GTTCTTAAACTAACGCGAGCAATCTAGTTATTGATGGTAAAAGTTGAAGT
GGAGGAGCACCTCGTTTACCAGAATGTGTAGGTTGTAAAGCAAGACAGAT
GAATGGAGACTCTCACATGAAAAAATCGTGTCAATGGTTAAGAGATTACA
AGGAAAGAAGCATGGTAGGAAAAAATTGCATACGCGGCACCAAAGGAAGA
CACTCTAAAACACGTCCTTTAGCCAATTCCTGAAAGAGCTAATCAATCAA
TCATCTCTCTATGCTCTTCTCATATTTCTTCTTTGTCACGCTGGTGGTAG
TGGT
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protein sequence of jgi.p|Nanoce1779_2|571677

>mRNA_1305-protein ID=mRNA_1305-protein|Name=jgi.p|Nanoce1779_2|571677|organism=Nannochloropsis oceanica|type=polypeptide|length=985bp
MLRPPPSRVSFSPSYQWSSPSEQYWRAFIEKFHQHAGSPSTKETCLLLLD
VGLVLVFCIGAWGVRQSLSSPHSPTSNTIVIGGTCRDMTAYVLVLTVGLG
LYLLQNILHRLQRRLLIAVWQQTYRQSYGEKTQHLQEANEMEPVQQGRQR
WQYEEQHDSPIHSFASSKPPFSSCSSSEVQAEDVVAHVRGLQRLEGLRNH
SIPGLPMLFLFSWIYAGAVDLQSGCIARYPALGAAYHVFSWAGYLSAVVC
LVLLIIQCVCLTAEDTDSPPWASTSSSLSGAGTGADATTARLALHALATT
QWLVPVRRAIALVLGPLSLLLPTDDISSSPIYTGTALTTTSSSFLFSPFS
VSEEEQALLQQDEQEQQRQRESSPQEESISDFDMTSPLSTSTRPHTRSGD
NNDSRSSSSSSEETTTWLLSHDILQTALASSPFAIRHRTLRSGRSSPPPA
FAPSSSTSISTNDSSSSGSSTVLRTSTTSLSRPSTTTIFTPNRHFSFNKR
FLPLSLPHLICSALWACLHVAILCLVTTSFYLLGRTSALPAGEMEVCGAA
RGFLFALATGFGGYLVLAAWLWVEKERSFRDDPEEHELKGLWLLRTLACL
MVISFVWGVMVLREGGREGGRTGGGCWASQGQLHECVVAFVLLGSMLLFV
AAFLHWMATGRWALVSVGQVAQGVAETCRLCLSLLLRLAPHQKLLKAQEK
RKERACRVKERVEGREEGRREMFSSPANEMTIQVAEELSLLPFFHIRVIE
GRRSGGGGGGGIASEEAPRGGERTTLASPSALYRNRQYIEDNDEESKQQQ
LMQAHGITSQLPPRALPYTPPLTITTPIGRVIGRRKSNDAQSHHHTHQEQ
EQEWEREQRRPRSRLGLCLGVDDDEKKEDKKSDNEDEVDLPAAVQVSLTP
GEEEEDCEGAFHYYQTPRPLVLGATLNSIFDVTPLSLSPLRPRSAIAMGE
TGGLYLTEDGGAEGEGRRHTEQGNTCCPLPPLQV*
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mRNA from alignment at scaffold_1:228308..231611-

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_1305 ID=mRNA_1305|Name=jgi.p|Nanoce1779_2|571677|organism=Nannochloropsis oceanica|type=mRNA|length=3304bp|location=Sequence derived from alignment at scaffold_1:228308..231611- (Nannochloropsis oceanica)
ACAGACGACATAAAATGTTGCGACCTCCACCCTCACGAGTATCATTCTCG
CCGAGTTATCAGTGGTCTTCACCTTCGGAACAGTACTGGCGCGCCTTTAT
TGAAAAGTTCCACCAGCACGCTGGCAGTCCCAGCACGAAAGAGACCTGCC
TTCTGCTGCTGGACGTCGGCCTCGTCCTCGTCTTTTGCATTGGTGCCTGG
GGTGTGCGTCAGTCTTTGTCCTCGCCGCATTCTCCGACATCCAATACAAT
CGTTATTGGAGGCACTTGTCGGGATATGACGGCGTATGTCTTGGTTTTGA
CCGTTGGATTGGGCCTTTACTTGTTACAAAACATTTTGCATCGGCTACAG
CGCCGCTTATTGATCGCGGTGTGGCAGCAGACGTACCGCCAGAGTTATGG
TGAGAAAACGCAACACCTGCAAGAGGCGAATGAGATGGAACCAGTGCAAC
AAGGGCGGCAGAGATGGCAGTACGAGGAGCAGCATGACTCCCCCATCCAT
TCCTTCGCTTCATCCAAGCCCCCATTCTCCTCGTGCAGCAGCAGCGAAGT
TCAAGCCGAAGACGTGGTGGCGCACGTCCGCGGCCTCCAACGATTGGAGG
GGCTACGAAACCACAGTATACCTGGATTACCCATGCTTTTCCTATTTAGT
TGGATTTATGCGGGAGCGGTAGACTTGCAAAGTGGGTGTATCGCCCGGTA
CCCTGCATTAGGGGCGGCTTATCACGTGTTTTCCTGGGCAGGGTACTTGT
CCGCGGTGGTGTGTTTGGTTCTGTTGATTATACAGTGTGTATGTTTGACT
GCCGAGGATACCGATTCTCCACCCTGGGCCTCGACGTCGTCGTCGTTGTC
AGGAGCAGGCACAGGCGCAGATGCAACAACCGCGCGCTTGGCCCTCCACG
CTCTAGCTACCACACAGTGGCTGGTTCCTGTCCGACGAGCCATTGCCTTA
GTGCTGGGCCCGTTATCTCTACTTTTACCCACCGATGACATCTCGTCTTC
CCCGATTTACACTGGAACTGCCCTGACTACCACCAGCAGCAGCTTCCTCT
TTTCCCCCTTCTCTGTTTCTGAGGAGGAGCAGGCATTACTGCAGCAGGAC
GAGCAGGAGCAGCAGCGGCAGAGAGAGTCATCGCCACAGGAGGAAAGCAT
CTCGGACTTCGATATGACTTCTCCACTTTCCACAAGCACCCGTCCCCACA
CCAGGAGCGGCGATAACAACGACAGTCGCAGCAGCAGCAGCAGCAGTGAA
GAAACGACGACGTGGTTACTCTCTCATGATATTCTTCAAACGGCCTTGGC
CTCCTCTCCTTTTGCCATACGACATCGTACACTTCGCTCGGGTCGTTCCT
CCCCCCCTCCTGCTTTTGCTCCCTCCTCCTCCACCTCCATCAGCACCAAC
GACAGCAGCAGCAGCGGTAGCAGTACTGTCCTGCGCACCTCCACAACTTC
CCTATCTCGCCCGTCCACTACCACTATCTTCACACCCAACCGCCATTTCT
CTTTCAACAAGCGCTTCCTCCCTCTCTCCCTTCCCCATCTCATCTGCTCC
GCCCTTTGGGCATGCTTGCACGTCGCTATCCTTTGCCTGGTCACGACGAG
CTTTTATTTATTGGGACGTACCTCGGCGCTACCTGCCGGGGAGATGGAGG
TGTGTGGAGCAGCAAGGGGGTTTCTATTTGCGCTTGCGACGGGATTTGGG
GGGTATCTTGTCCTAGCGGCCTGGCTGTGGGTGGAGAAAGAGAGGTCATT
TAGGGACGATCCCGAGGAGCATGAGTTGAAGGGGCTGTGGCTTTTGAGAA
CCTTGGCTTGTTTGATGGTGATTAGTTTTGTGTGGGGGGTGATGGTGCTG
AGGGAGGGAGGGAGGGAGGGCGGACGGACGGGAGGGGGGTGTTGGGCCAG
TCAGGGACAGTTGCATGAGTGTGTAGTGGCATTTGTTTTATTGGGATCAA
TGTTGCTGTTTGTGGCGGCGTTTTTGCACTGGATGGCGACAGGGAGGTGG
GCGTTGGTATCAGTAGGCCAGGTGGCACAGGGGGTAGCAGAGACGTGTAG
ATTGTGTCTCAGTTTGCTTCTTAGGTTGGCGCCCCATCAGAAACTGTTGA
AAGCACAGGAGAAGCGGAAGGAGAGAGCATGTCGGGTGAAAGAGAGGGTA
GAGGGGAGGGAGGAAGGAAGGCGAGAAATGTTCTCGTCGCCGGCAAATGA
GATGACGATTCAGGTGGCGGAGGAATTGTCGTTGTTGCCCTTTTTTCATA
TTAGGGTGATTGAAGGAAGAAGAAGTGGAGGCGGAGGTGGAGGAGGGATC
GCGAGTGAAGAAGCACCACGGGGAGGTGAAAGGACAACGCTTGCATCTCC
GTCAGCTTTATATCGTAATAGACAGTACATAGAAGACAACGACGAAGAAA
GCAAGCAGCAGCAGCTGATGCAGGCGCATGGGATCACATCACAGCTCCCG
CCGCGAGCCTTGCCGTACACTCCTCCTCTCACTATTACCACACCCATTGG
TCGCGTTATCGGTCGTCGCAAGAGCAATGATGCTCAATCTCATCACCACA
CCCATCAGGAGCAGGAGCAGGAGTGGGAGCGGGAGCAGCGACGGCCACGG
AGCCGTCTGGGGTTATGCTTAGGTGTTGACGATGATGAGAAGAAGGAGGA
TAAGAAAAGTGATAATGAGGACGAGGTCGATTTACCTGCTGCCGTGCAGG
TGTCGTTGACTCCTGGGGAAGAGGAAGAGGATTGCGAAGGGGCCTTTCAT
TATTACCAGACTCCGCGTCCGTTAGTGTTGGGTGCGACTTTAAATTCGAT
CTTTGATGTGACGCCTTTATCTCTCAGTCCTTTGCGGCCTCGGTCGGCCA
TTGCGATGGGAGAGACAGGAGGCTTGTATCTCACTGAAGACGGGGGGGCA
GAAGGAGAAGGAAGACGGCACACTGAGCAAGGGAACACGTGCTGCCCGCT
CCCACCGTTGCAGGTGTGAGACCAGCAGCGATAGGCACAGGATTTGACAG
GTTCTTAAACTAACGCGAGCAATCTAGTTATTGATGGTAAAAGTTGAAGT
GGAGGAGCACCTCGTTTACCAGAATGTGTAGGTTGTAAAGCAAGACAGAT
GAATGGAGACTCTCACATGAAAAAATCGTGTCAATGGTTAAGAGATTACA
AGGAAAGAAGCATGGTAGGAAAAAATTGCATACGCGGCACCAAAGGAAGA
CACTCTAAAACACGTCCTTTAGCCAATTCCTGAAAGAGCTAATCAATCAA
TCATCTCTCTATGCTCTTCTCATATTTCTTCTTTGTCACGCTGGTGGTAG
TGGT
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Coding sequence (CDS) from alignment at scaffold_1:228308..231611-

>mRNA_1305 ID=mRNA_1305|Name=jgi.p|Nanoce1779_2|571677|organism=Nannochloropsis oceanica|type=CDS|length=2955bp|location=Sequence derived from alignment at scaffold_1:228308..231611- (Nannochloropsis oceanica)
ATGTTGCGACCTCCACCCTCACGAGTATCATTCTCGCCGAGTTATCAGTG
GTCTTCACCTTCGGAACAGTACTGGCGCGCCTTTATTGAAAAGTTCCACC
AGCACGCTGGCAGTCCCAGCACGAAAGAGACCTGCCTTCTGCTGCTGGAC
GTCGGCCTCGTCCTCGTCTTTTGCATTGGTGCCTGGGGTGTGCGTCAGTC
TTTGTCCTCGCCGCATTCTCCGACATCCAATACAATCGTTATTGGAGGCA
CTTGTCGGGATATGACGGCGTATGTCTTGGTTTTGACCGTTGGATTGGGC
CTTTACTTGTTACAAAACATTTTGCATCGGCTACAGCGCCGCTTATTGAT
CGCGGTGTGGCAGCAGACGTACCGCCAGAGTTATGGTGAGAAAACGCAAC
ACCTGCAAGAGGCGAATGAGATGGAACCAGTGCAACAAGGGCGGCAGAGA
TGGCAGTACGAGGAGCAGCATGACTCCCCCATCCATTCCTTCGCTTCATC
CAAGCCCCCATTCTCCTCGTGCAGCAGCAGCGAAGTTCAAGCCGAAGACG
TGGTGGCGCACGTCCGCGGCCTCCAACGATTGGAGGGGCTACGAAACCAC
AGTATACCTGGATTACCCATGCTTTTCCTATTTAGTTGGATTTATGCGGG
AGCGGTAGACTTGCAAAGTGGGTGTATCGCCCGGTACCCTGCATTAGGGG
CGGCTTATCACGTGTTTTCCTGGGCAGGGTACTTGTCCGCGGTGGTGTGT
TTGGTTCTGTTGATTATACAGTGTGTATGTTTGACTGCCGAGGATACCGA
TTCTCCACCCTGGGCCTCGACGTCGTCGTCGTTGTCAGGAGCAGGCACAG
GCGCAGATGCAACAACCGCGCGCTTGGCCCTCCACGCTCTAGCTACCACA
CAGTGGCTGGTTCCTGTCCGACGAGCCATTGCCTTAGTGCTGGGCCCGTT
ATCTCTACTTTTACCCACCGATGACATCTCGTCTTCCCCGATTTACACTG
GAACTGCCCTGACTACCACCAGCAGCAGCTTCCTCTTTTCCCCCTTCTCT
GTTTCTGAGGAGGAGCAGGCATTACTGCAGCAGGACGAGCAGGAGCAGCA
GCGGCAGAGAGAGTCATCGCCACAGGAGGAAAGCATCTCGGACTTCGATA
TGACTTCTCCACTTTCCACAAGCACCCGTCCCCACACCAGGAGCGGCGAT
AACAACGACAGTCGCAGCAGCAGCAGCAGCAGTGAAGAAACGACGACGTG
GTTACTCTCTCATGATATTCTTCAAACGGCCTTGGCCTCCTCTCCTTTTG
CCATACGACATCGTACACTTCGCTCGGGTCGTTCCTCCCCCCCTCCTGCT
TTTGCTCCCTCCTCCTCCACCTCCATCAGCACCAACGACAGCAGCAGCAG
CGGTAGCAGTACTGTCCTGCGCACCTCCACAACTTCCCTATCTCGCCCGT
CCACTACCACTATCTTCACACCCAACCGCCATTTCTCTTTCAACAAGCGC
TTCCTCCCTCTCTCCCTTCCCCATCTCATCTGCTCCGCCCTTTGGGCATG
CTTGCACGTCGCTATCCTTTGCCTGGTCACGACGAGCTTTTATTTATTGG
GACGTACCTCGGCGCTACCTGCCGGGGAGATGGAGGTGTGTGGAGCAGCA
AGGGGGTTTCTATTTGCGCTTGCGACGGGATTTGGGGGGTATCTTGTCCT
AGCGGCCTGGCTGTGGGTGGAGAAAGAGAGGTCATTTAGGGACGATCCCG
AGGAGCATGAGTTGAAGGGGCTGTGGCTTTTGAGAACCTTGGCTTGTTTG
ATGGTGATTAGTTTTGTGTGGGGGGTGATGGTGCTGAGGGAGGGAGGGAG
GGAGGGCGGACGGACGGGAGGGGGGTGTTGGGCCAGTCAGGGACAGTTGC
ATGAGTGTGTAGTGGCATTTGTTTTATTGGGATCAATGTTGCTGTTTGTG
GCGGCGTTTTTGCACTGGATGGCGACAGGGAGGTGGGCGTTGGTATCAGT
AGGCCAGGTGGCACAGGGGGTAGCAGAGACGTGTAGATTGTGTCTCAGTT
TGCTTCTTAGGTTGGCGCCCCATCAGAAACTGTTGAAAGCACAGGAGAAG
CGGAAGGAGAGAGCATGTCGGGTGAAAGAGAGGGTAGAGGGGAGGGAGGA
AGGAAGGCGAGAAATGTTCTCGTCGCCGGCAAATGAGATGACGATTCAGG
TGGCGGAGGAATTGTCGTTGTTGCCCTTTTTTCATATTAGGGTGATTGAA
GGAAGAAGAAGTGGAGGCGGAGGTGGAGGAGGGATCGCGAGTGAAGAAGC
ACCACGGGGAGGTGAAAGGACAACGCTTGCATCTCCGTCAGCTTTATATC
GTAATAGACAGTACATAGAAGACAACGACGAAGAAAGCAAGCAGCAGCAG
CTGATGCAGGCGCATGGGATCACATCACAGCTCCCGCCGCGAGCCTTGCC
GTACACTCCTCCTCTCACTATTACCACACCCATTGGTCGCGTTATCGGTC
GTCGCAAGAGCAATGATGCTCAATCTCATCACCACACCCATCAGGAGCAG
GAGCAGGAGTGGGAGCGGGAGCAGCGACGGCCACGGAGCCGTCTGGGGTT
ATGCTTAGGTGTTGACGATGATGAGAAGAAGGAGGATAAGAAAAGTGATA
ATGAGGACGAGGTCGATTTACCTGCTGCCGTGCAGGTGTCGTTGACTCCT
GGGGAAGAGGAAGAGGATTGCGAAGGGGCCTTTCATTATTACCAGACTCC
GCGTCCGTTAGTGTTGGGTGCGACTTTAAATTCGATCTTTGATGTGACGC
CTTTATCTCTCAGTCCTTTGCGGCCTCGGTCGGCCATTGCGATGGGAGAG
ACAGGAGGCTTGTATCTCACTGAAGACGGGGGGGCAGAAGGAGAAGGAAG
ACGGCACACTGAGCAAGGGAACACGTGCTGCCCGCTCCCACCGTTGCAGG
TGTGA
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Synonyms
Publications