jgi.p|Nanoce1779_2|625195, mRNA_2981 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|625195
Unique Name	mRNA_2981
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	4285
Alignment location	scaffold_7:399600..404889 +

Link to JBrowse

Properties


Property Name	Value
TranscriptId	625281
Track	FilteredModels2
ProteinId	625195

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_7	supercontig	scaffold_7:399600..404889 +

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\|625195	gene_2981	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\|625195	mRNA_2981-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_2981	CDS_2981	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_7:399600..404889+
coding sequence from alignment at scaffold_7:399600..404889+

mRNA sequence

>mRNA_2981 ID=mRNA_2981|Name=jgi.p|Nanoce1779_2|625195|organism=Nannochloropsis oceanica|type=mRNA|length=4285bp
AGCGATGCACCATCGACGTCCACCAGCCACATTTGTGACCTCAATTCCGC
TCATGACCGCCACCAAGACTCCCCATCTTCTTGTCTCGGACTCAGAGACG
CCTAATCAGCGCTCCGAGGGGGAGGACCAGCCTGAATGCCGGCATGACGG
CACCGAGGAAATAAAGCGCTGGCATCGGATACAGAAGAAGGTAAGGACAT
CAGGTTCATCACTGCTTTGTATGTTATTGAAGCTCCTCATGCTTGTCTCA
CTCCGACAGGCCCATGCGCAGCAACCCACTGCCGGCTCCACTACCTGCAG
CAACAGCGGCACCAGCGGTGGCACTAGCAGCGACAGCGAAGACTCCGATG
GAATGAATCCTCAGCACCTGACGCTGTCCCGCTCATCCTTAATGGCTCAG
TGGGGTGAGGCCTCCAGCGGGAAAGCTGCCGTGAACGTCGTCAAGGAGCT
AGTCGAGGAGCGAAGAGACGACTCGCAATCCAAGTATCAGCCTCAAACCG
ATAACGTAATAAACAAGGCACGGGATTTGTGTGCCCGCATTCGCCACCAA
GCTAAAGTCAAGCAACGGGAAGAGCGTAAGCACATTTTGTTGCAACGACA
AAAAGCTCGTGACTTGGCTCGGCAGGCGGCGGAGACTGCTCGAGATGAAG
GGACCCGGAATGCAGCCTTGCGGATACACGCACAGAAAGAGGTGACCGAG
GCAGCGCGTCGGGAACGAGTGTTGGCAGGAGAGCACGGGTACGAGGACAA
GTCTGAATGCTTCATTGCCCGCAATAATTACTACGGACAAAGGACGCTGT
CGGCCAGGCGAAAAGACTCTCTCGCCAGCAAACGGGACCAAGAGCGGTTT
CAGGCAGCCAAATCCCAGATCGACATGTTTTACGCCACGACTCTCTCCGC
CCGTGAAGCGCGTCATCAGCGGCAAGCGTCTGTGCAGCAGGCCAAGGCTT
CCCACCGGGAAGAAGAGGATAAAGTAGTACGTTTGATTCAAGCGGCCAAG
ATGGAGCGGCTGCGGGCAGGGGTCCTTAAGTGGGATCGATGGGTGAAGCA
GCGAGCCATCTTTATTTGGTACGTCAAGGCCCAACACATGAGAAAGCTTC
AGCATCAGCACCAGCATCAGCACCAGCAGCGGCAGAAAAAGAAACAGCAG
CAGGAAGAAGCTGAAACGAAGGCGCGTGTCGCTGCTGCTGGTGCCGCATT
AGCTCTTTCTTTCTTTTCCTTTGCTGACTGGGCCGTGAATGCAGGAAAAT
GGTTCAAATGGCAGGTAGACAACGCTTGCGCTCCCCCTCGTCGCCCCAAA
AGCCCGTCCCATTACCTAGATGAGTGCTAGGTGTGACCATATATTTATTC
TATGTACGTGCGTGTAAAACTGAAGGAACGGAGTGAATCGAGAGAGGAAC
GGACCAGAGTGTGCTACTGAAGGCCTTCACACGCTATTGGATAATAGATC
AGCAAATGCTCCATATTCATGGCGTCAAACAGAAAAAGAAATGAAAGTAA
TCGGATTACTGGATACTGTCGTCTTTGCTTCTGTCACTCGTCGTCCTCGT
CTCAATTCAGCCATTCCGTGAATATATTTCTCTGTACACTATCTCACGCG
TGCGATCCAAGTCCCCTCTCTCAATTGGTATAGCTGCCACAGGCCCCAGC
AGTGGCCGCCCGACTATCGCAGGCCTCGGGGAAAGAACAATCACACACTA
GCGGGCTTCCCTTACGCATCCTCCGAAAACTAAGTGAGACGCGGCGGCCC
CGCGCGACGAGCTGACCATTTACCTTGTCTGTTTTCCGACTCGCCAATCC
ATGACTCCATGCGTACCGGGCCTCTCCCTGCAGCACAAGCAAAGACCTTC
GTGGCAGCAGTAGAGAGCAGCGTGCATCCACTTCTCCCTCTTCCAGTCCA
TCACCGGCCTGTCTCCTTCTTTGCTTCCTAAAATCCATAACACAAGCACT
CCCCAAAGATACAATCAAAAAGCCGTCCTCGAATAGCGAGTGCACATCGA
TATGATTAGCTATGCCCGATCCCGGCTCATATTCATTCACTGTCATCTGA
TCTCTCTCCGCACAAGGAAACTCCTCCTTTGCCAACGGTCCACTCGACCA
GGACACACCCAATGCCTCCTGTTGCTTTCGAATACGATTAAGTAAGGCTT
GGCATATAGAAGGAATGGGAGCGACGGGCGCAGACAGCCCAAGTTTCCGG
GTTTTGAAATCAATGGCCGCTGCACCATAGTGCTGCGTCCTTCGAAAGAC
TTGGACGGTATCCCATTCCGCGCTATCTACTAGAGCTAGGAGTGCCGCCT
CCTCTGCTTCGGATAAAAATGGGAGTATTTGCAGGCCGGGTGGGAGGTGG
GCATCGGGGAAAGGGGCACCTGTGATAGGGTCCGCTTGCACGTCTTCCGG
CTGTGGATTAGACTTAGCCTCGTAAAATCGTCCGAACGTGATTTTAACTG
GGTGCTGCGAAAGCCCAAGTGGAAGTATCTGTTTCTGCCATTGTTTCAGG
ACATCTTCAGCAGTCTGCTGAGTCGCAAAGCAGACAAAGCTCTTGGTAGT
TTTCACGTCGACGGCCGTTGCGGTTGGAAAGAGGGAGCGGAGACAGGTCT
CTAAAGGCTGTTGTTGACCCGCACCCACGCCCAAGAGGCAAAGCGTGTTA
GAGGGCTGCGGAGATGGACAATATGGCATCCTCTACGCCTGTGGTTGGTG
TTTGAATGGTTAGTGCACAAAAGGTTAGGGCGGGGGCAGAGGACGCAGGA
GGTTGTTGCATCATCCGGCTACATCATGGGCGTGCTGTTGTGTGCTGTTG
TGCAATGCTTTTAGCGGCACTTAGCTTAGCGGTCCCTTGTGACACAGCCT
GTAGGGTTTCTTGATTACGCTCATGGCCTTGTACTCACCAGTTACAGCTC
CCTTTCGTCTCACAATCCTTTTACACTTGCCCTCCAACTCTGTACATGCA
GGCGACATAATCAAGCCGAAGCCGTTGCCGGAGTCGCTGGACACAAACGA
GCGACGCTTCTACAAGCGCAAGGTCATACACCACGATAAATATGGGGGAC
AGCGGCGGCAGAAAGAAGGAGATCTATTCCTATCAGACCGATTGGCTTAT
CTTTGCCATGGCCTGGAACCAACGCGCAAATATGTCCGACCGCTTCCGCA
TTGCTCTCGGCTCCTGCATCGAAGAATACAACAACAAAATACGAATCATT
GAACGCAGCCCCTCCTCCATTTCCTCCTCCTCCTCCGTCGACTCCACCCC
TGCCAACGCCAACGACGACGGTTTTCATAAAGTAACGGAATTCGATCATC
CTTACCCTGCGACTAAGGTGATGTGGTGTCCCGACCGAGAGCCTGTCAGC
CCTCAACGGGACCTGCTGGCCACAACGGGCGATTACTTAAGGATATGGAA
TTGCAGTGGATCGGAACCCAAGCTGGAGGCGTTGCTGAACAATAATAAGA
ACAGCGAGTACTGCGCCCCCCTCACCTCCTTCGACTGGAACAAGGACGAC
CCTTCCTTACTCGGGACGGCGTGCATTGACACCACCTGCACGATTTGGGA
CGTGAACACGCAGCAGGCCAAGACCCAGATTATTGCTCACGATAAGGAGG
TCTATGATATTGCCTTCGCCCGTGGCAAGGATCTGTTCGCTTCCGTCGGC
GCAGACGGCTCCGTGCGTATGTTCGACCTCCGCTCCCTCGTCCACTCCAC
CATCATCTACGAATCACCCGAGCTGACTCCCCTCCTCCGCCTGGCATGGA
ACAAACAAGACCCGAATTACCTCGCGGCCATCATGGCGGACAGCGCTAAA
ACTTTTCTGCTTGACATCCGGAAGCCCTCCTCGACCGTCGCCGAGCTCGG
AGAGCATCAAGGCCCTGTTAATTCCCTCGCCTGGGCACCGCATTCTGCTT
GCCATATCTGCACGTGCGGCGAAGACAGACAAGCATTGATCTGGGACCTC
ACTGCGCTGCCGGGGCCGGTAGACAGTCCGATTCTGGCATACGCGGCGCA
GGCGGAGGTAAACACTGTGGAGTGGTTTCAGCAGAGCGCTGAGAGGAATT
GGGTGGCGATTGGATTTGACAACCAGTTGCAGGTTTTGCGGGTGTAAGGC
GGGAGGGATGGAAAAAGGGAGGGAGGAAGAGATGGGCTGTATAATGGATG
AGATGGAGGGATGGAGAGGTGTAACAGTATGGATGTCGGGGCCTTGTCTT
TCTTTTGTGTCTGTGGAAGGGGAAAAGGAATGTAGGACGGAGTGGGAGGC
AGCGAATGAAAGAGACGCGATCCTTGTCTTAGGGG

protein sequence of jgi.p|Nanoce1779_2|625195

>mRNA_2981-protein ID=mRNA_2981-protein|Name=jgi.p|Nanoce1779_2|625195|organism=Nannochloropsis oceanica|type=polypeptide|length=442bp
MHHRRPPATFVTSIPLMTATKTPHLLVSDSETPNQRSEGEDQPECRHDGT
EEIKRWHRIQKKVRTSGSSLLCMLLKLLMLVSLRQAHAQQPTAGSTTCSN
SGTSGGTSSDSEDSDGMNPQHLTLSRSSLMAQWGEASSGKAAVNVVKELV
EERRDDSQSKYQPQTDNVINKARDLCARIRHQAKVKQREERKHILLQRQK
ARDLARQAAETARDEGTRNAALRIHAQKEVTEAARRERVLAGEHGYEDKS
ECFIARNNYYGQRTLSARRKDSLASKRDQERFQAAKSQIDMFYATTLSAR
EARHQRQASVQQAKASHREEEDKVVRLIQAAKMERLRAGVLKWDRWVKQR
AIFIWYVKAQHMRKLQHQHQHQHQQRQKKKQQQEEAETKARVAAAGAALA
LSFFSFADWAVNAGKWFKWQVDNACAPPRRPKSPSHYLDEC*

mRNA from alignment at scaffold_7:399600..404889+

Legend: polypeptideCDS

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

>mRNA_2981 ID=mRNA_2981|Name=jgi.p|Nanoce1779_2|625195|organism=Nannochloropsis oceanica|type=mRNA|length=5290bp|location=Sequence derived from alignment at scaffold_7:399600..404889+ (Nannochloropsis oceanica)
AGCGATGCACCATCGACGTCCACCAGCCACATTTGTGACCTCAATTCCGC
TCATGACCGCCACCAAGACTCCCCATCTTCTTGTCTCGGACTCAGAGACG
CCTAATCAGCGCTCCGAGGGGGAGGACCAGCCTGAATGCCGGCATGACGG
CACCGAGGAAATAAAGCGCTGGCATCGGATACAGAAGAAGGTAAGGACAT
CAGGTTCATCACTGCTTTGTATGTTATTGAAGCTCCTCATGCTTGTCTCA
CTCCGACAGGCCCATGCGCAGCAACCCACTGCCGGCTCCACTACCTGCAG
CAACAGCGGCACCAGCGGTGGCACTAGCAGCGACAGCGAAGACTCCGATG
GAATGAATCCTCAGCACCTGACGCTGTCCCGCTCATCCTTAATGGCTCAG
TGGGGTGAGGCCTCCAGCGGGAAAGCTGCCGTGAACGTCGTCAAGGAGCT
AGTCGAGGAGCGAAGAGACGACTCGCAATCCAAGTATCAGCCTCAAACCG
ATAACGTAATAAACAAGGCACGGGATTTGTGTGCCCGCATTCGCCACCAA
GCTAAAGTCAAGCAACGGGAAGAGCGTAAGCACATTTTGTTGCAACGGTA
CGTCGGTATGGACTGCCCAGGCTCCTTTCCTTGTTTATTCTCCACCTTCC
AATATTGGCACTCTGAACGACCTTCCCTCTTATTTCTACCATTTCCTTGT
TCCCCGTCATTCACAAACCTACGTACGGATCAGACAAAAAGCTCGTGACT
TGGCTCGGCAGGCGGCGGAGACTGCTCGAGATGAAGGGACCCGGAATGCA
GCCTTGCGGATACACGCACAGAAAGAGGTGACCGAGGCAGCGCGTCGGGA
ACGAGTGTTGGCAGGAGAGCACGGGTACGAGGACAAGTCTGAATGCTTCA
TTGCCCGCAATAATTACTACGGACAAAGGACGCTGTCGGCCAGGCGAAAA
GACTCTCTCGCCAGCAAACGGGACCAAGAGCGGTTTCAGGCAGCCAAATC
CCAGATCGACATGTTTTACGCCACGACTCTCTCCGCCCGTGAAGCGCGTC
ATCAGCGGCAAGCGTCTGTGCAGCAGGCCAAGGCTTCCCACCGGGAAGAA
GAGGATAAAGTAGTACGTTTGATTCAAGCGGCCAAGATGGAGCGGCTGCG
GGCAGGGGTCCTTAAGGTATGCTTCTTACGGGCAATATAGTGGGGAAAGA
ACAAATAGAGGAGAGAAGGGCAACTCTTCTCAACTTCAACATTGAATGAC
ACCGACCAGAGCTGGTCGTACACGAGGTAGTCGAGTGAACACGCGCGATA
CCCATCCAGTAAAGAATATTCTTACGCCCTATTTCACACACAAATACACA
AAAACAGTGGGATCGATGGGTGAAGCAGCGAGCCATCTTTATTTGGTACG
TCAAGGCCCAACACATGAGAAAGCTTCAGCATCAGCACCAGCATCAGCAC
CAGCAGCGGCAGAAAAAGAAACAGCAGCAGGAAGAAGCTGAAACGAAGGC
GCGTGTCGCTGCTGCTGGTGCCGCATTAGCTCTTTCTTTCTTTTCCTTTG
CTGACTGGGCCGTGAATGCAGGAAAATGGTTCAAATGGCAGGTAGACAAC
GCTTGCGCTCCCCCTCGTCGCCCCAAAAGCCCGTCCCATTACCTAGATGA
GTGCTAGGTGTGACCATATATTTATTCTATGTACGTGCGTGTAAAACTGA
AGGAACGGAGTGAATCGAGAGAGGAACGGACCAGAGTGTGCTACTGAAGG
CCTTCACACGCTATTGGATAATAGATCAGCAAATGCTCCATATTCATGGC
GTCAAACAGAAAAAGAAATGAAAGTAATCGGATTACTGGATACTGTCGTC
TTTGCTTCTGTCACTCGTCGTCCTCGTCTCAATTCAGCCATTCCGTGAAT
ATATTTCTCTGTACACTATCTCACGCGTGCGATCCAAGTCCCCTCTCTCA
ATTGGTATAGCTGCCACAGGCCCCAGCAGTGGCCGCCCGACTATCGCAGG
CCTCGGGGAAAGAACAATCACACACTAGCGGGCTTCCCTTACGCATCCTC
CGAAAACTAAGTGAGACGCGGCGGCCCCGCGCGACGAGCTGACCATTTAC
CTTGTCTGTTTTCCGACTCGCCAATCCATGACTCCATGCGTACCGGGCCT
CTCCCTGCAGCACAAGCAAAGACCTTCGTGGCAGCAGTAGAGAGCAGCGT
GCATCCACTTCTCCCTCTTCCAGTCCATCACCGGCCTGTCTCCTTCTTTG
CTTCCTAAAATCCATAACACAAGCACTCCCCAAAGATACAATCAAAAAGC
CGTCCTCGAATAGCGAGTGCACATCGATATGATTAGCTATGCCCGATCCC
GGCTCATATTCATTCACTGTCATCTGATCTCTCTCCGCACAAGGAAACTC
CTCCTTTGCCAACGGTCCACTCGACCAGGACACACCCAATGCCTCCTGTT
GCTTTCGAATACGATTAAGTAAGGCTTGGCATATAGAAGGAATGGGAGCG
ACGGGCGCAGACAGCCCAAGTTTCCGGGTTTTGAAATCAATGGCCGCTGC
ACCATAGTGCTGCGTCCTTCGAAAGACTTGGACGGTATCCCATTCCGCGC
TATCTACTAGAGCTAGGAGTGCCGCCTCCTCTGCTTCGGATAAAAATGGG
AGTATTTGCAGGCCGGGTGGGAGGTGGGCATCGGGGAAAGGGGCACCTGT
GATAGGGTCCGCTTGCACGTCTTCCGGCTGTGGATTAGACTTAGCCTCGT
AAAATCGTCCGAACGTGATTTTAACTGGGTGCTGCGAAAGCCCAAGTGGA
AGTATCTGTTTCTGCCATTGTTTCAGGACATCTTCAGCAGTCTGCTGAGT
CGCAAAGCAGACAAAGCTCTTGGTAGTTTTCACGTCGACGGCCGTTGCGG
TTGGAAAGAGGGAGCGGAGACAGGTCTCTAAAGGCTGTTGTTGACCCGCA
CCCACGCCCAAGAGGCAAAGCGTGTTAGAGGGCTGCGGAGATGGACAATA
TGGCATCCTCTACGCCTGTGGTTGGTGTTTGAATGGTTAGTGCACAAAAG
GTTAGGGCGGGGGCAGAGGACGCAGGAGGTTGTTGCATCATCCGGCTACA
TCATGGGCGTGCTGTTGTGTGCTGTTGTGCAATGCTTTTAGCGGCACTTA
GCTTAGCGGTCCCTTGTGACACAGCCTGTAGGGTTTCTTGATTACGCTCA
TGGCCTTGTACTCACCAGTTACAGCTCCCTTTCGTCTCACAATCCTTTTA
CACTTGCCCTCCAACTCTGTACATGCAGGCGACATAATCAAGCCGAAGCC
GTTGCCGGAGTCGCTGGACACAAACGAGCGACGCTTCTACAAGCGCAAGG
TCATACACCACGATAAATATGGGGGACAGCGGCGGCAGAAAGAAGGAGGT
GAGTCCTGGGAGGGTGTATTGCGGGCGGAAGTCAAGTATTAGGATGGTAA
GGGGAGGAAGTGCTTGTCTACGTGTCATTTCATACGCGGCCTCTGAGCAT
GGTGGGATAGAATGTGGAGTGCAGCTCGTGGTGGTATGTGGATGTCTTGG
GCTCGTGCATGTGTATTAAATGCATGCTTGCAGTGCCTTGCTTGTAATAG
AGTGAGAGTGCGTGATCTGGATGGGGATAGGTGTGCTTGCACGGCTCTTT
GCTCCTAGTCTTGGGGCGACAGGTCACAATTGACGTGAGGGAAGGCCTTA
TTGGCTGTGTGTTGGGCGTAACCGCCATTTGTCTGTTCCTCTTTGTGCTC
TTTCGATGTGTTCAAGTCCCGCTATTCGGAATCTACCACATTCCCTTATC
TCTCTGTCTCTTTCACCTCCTTCCCTCCTTTCCCTCCCTCCTTCCCCCAC
AGATCTATTCCTATCAGACCGATTGGCTTATCTTTGCCATGGCCTGGAAC
CAACGCGCAAATATGTCCGACCGCTTCCGCATTGCTCTCGGCTCCTGCAT
CGAAGAATACAACAACAAAATACGAATCATTGAACGCAGCCCCTCCTCCA
TTTCCTCCTCCTCCTCCGTCGACTCCACCCCTGCCAACGCCAACGACGAC
GGTTTTCATAAAGTAACGGAATTCGATCATCCTTACCCTGCGACTAAGGT
GATGTGGTGTCCCGACCGAGAGCCTGTCAGCCCTCAACGGGACCTGCTGG
CCACAACGGGCGATTACTTAAGGATATGGAATTGCAGTGGATCGGAACCC
AAGCTGGAGGCGTTGCTGAACAATGTGAGTGTCCGAGAAGTGGGTTAGGG
AGGAAAGGCGAGGATGCAGTCAAGTTTTGTCTGCTTATTCTATGTCGGCG
AACAAGTTTTATGACATTTCCATTCCTTTCTCGCATCTCTTAGAATAAGA
ACAGCGAGTACTGCGCCCCCCTCACCTCCTTCGACTGGAACAAGGACGAC
CCTTCCTTACTCGGGACGGCGTGCATTGACACCACCTGCACGATTTGGGA
CGTGAACACGCAGCAGGCCAAGACCCAGATTATTGCTCACGATAAGGAGG
TCTATGATATTGGTGAGGAAAGAGGGGAAGGAGGGAGGGAAAGAGGGCCG
AGGCGGCTTCAATGGTGTAGCAGTACCACCTTTAACTCCAACCCCTCCCC
TTTTTCCTTCCCTCCAGCCTTCGCCCGTGGCAAGGATCTGTTCGCTTCCG
TCGGCGCAGACGGCTCCGTGCGTATGTTCGACCTCCGCTCCCTCGTCCAC
TCCACCATCATCTACGAATCACCCGAGCTGACTCCCCTCCTCCGCCTGGC
ATGGAACAAACAAGACCCGAATTACCTCGCGGCCATCATGGCGGACAGCG
CTAAAACTTTTCTGCTTGACATCCGGAAGCCCTCCTCGACCGTCGCCGAG
CTCGGAGAGCATCAAGGCCCTGTTAATTCCCTCGCCTGGGCACCGCATTC
TGCTTGCCATATCTGCACGTGCGGCGAAGACAGACAAGCATTGATCTGGG
ACCTCACTGCGCTGCCGGGGCCGGTAGACAGTCCGATTCTGGCATACGCG
GCGCAGGCGGAGGTAAACACTGTGGAGTGGTTTCAGCAGAGCGCTGAGAG
GAATTGGGTGGCGATTGGATTTGACAACCAGTTGCAGGTTTTGCGGGTGT
AAGGCGGGAGGGATGGAAAAAGGGAGGGAGGAAGAGATGGGCTGTATAAT
GGATGAGATGGAGGGATGGAGAGGTGTAACAGTATGGATGTCGGGGCCTT
GTCTTTCTTTTGTGTCTGTGGAAGGGGAAAAGGAATGTAGGACGGAGTGG
GAGGCAGCGAATGAAAGAGACGCGATCCTTGTCTTAGGGG

Coding sequence (CDS) from alignment at scaffold_7:399600..404889+

>mRNA_2981 ID=mRNA_2981|Name=jgi.p|Nanoce1779_2|625195|organism=Nannochloropsis oceanica|type=CDS|length=3978bp|location=Sequence derived from alignment at scaffold_7:399600..404889+ (Nannochloropsis oceanica)
ATGCACCATCGACGTCCACCAGCCACATTTGTGACCTCAATTCCGCTCAT
GACCGCCACCAAGACTCCCCATCTTCTTGTCTCGGACTCAGAGACGCCTA
ATCAGCGCTCCGAGGGGGAGGACCAGCCTGAATGCCGGCATGACGGCACC
GAGGAAATAAAGCGCTGGCATCGGATACAGAAGAAGGTAAGGACATCAGG
TTCATCACTGCTTTGTATGTTATTGAAGCTCCTCATGCTTGTCTCACTCC
GACAGGCCCATGCGCAGCAACCCACTGCCGGCTCCACTACCTGCAGCAAC
AGCGGCACCAGCGGTGGCACTAGCAGCGACAGCGAAGACTCCGATGGAAT
GAATCCTCAGCACCTGACGCTGTCCCGCTCATCCTTAATGGCTCAGTGGG
GTGAGGCCTCCAGCGGGAAAGCTGCCGTGAACGTCGTCAAGGAGCTAGTC
GAGGAGCGAAGAGACGACTCGCAATCCAAGTATCAGCCTCAAACCGATAA
CGTAATAAACAAGGCACGGGATTTGTGTGCCCGCATTCGCCACCAAGCTA
AAGTCAAGCAACGGGAAGAGCGTAAGCACATTTTGTTGCAACGACAAAAA
GCTCGTGACTTGGCTCGGCAGGCGGCGGAGACTGCTCGAGATGAAGGGAC
CCGGAATGCAGCCTTGCGGATACACGCACAGAAAGAGGTGACCGAGGCAG
CGCGTCGGGAACGAGTGTTGGCAGGAGAGCACGGGTACGAGGACAAGTCT
GAATGCTTCATTGCCCGCAATAATTACTACGGACAAAGGACGCTGTCGGC
CAGGCGAAAAGACTCTCTCGCCAGCAAACGGGACCAAGAGCGGTTTCAGG
CAGCCAAATCCCAGATCGACATGTTTTACGCCACGACTCTCTCCGCCCGT
GAAGCGCGTCATCAGCGGCAAGCGTCTGTGCAGCAGGCCAAGGCTTCCCA
CCGGGAAGAAGAGGATAAAGTAGTACGTTTGATTCAAGCGGCCAAGATGG
AGCGGCTGCGGGCAGGGGTCCTTAAGTGGGATCGATGGGTGAAGCAGCGA
GCCATCTTTATTTGGTACGTCAAGGCCCAACACATGAGAAAGCTTCAGCA
TCAGCACCAGCATCAGCACCAGCAGCGGCAGAAAAAGAAACAGCAGCAGG
AAGAAGCTGAAACGAAGGCGCGTGTCGCTGCTGCTGGTGCCGCATTAGCT
CTTTCTTTCTTTTCCTTTGCTGACTGGGCCGTGAATGCAGGAAAATGGTT
CAAATGGCAGGTAGACAACGCTTGCGCTCCCCCTCGTCGCCCCAAAAGCC
CGTCCCATTACCTAGATGAGTGCTAGATGCACCATCGACGTCCACCAGCC
ACATTTGTGACCTCAATTCCGCTCATGACCGCCACCAAGACTCCCCATCT
TCTTGTCTCGGACTCAGAGACGCCTAATCAGCGCTCCGAGGGGGAGGACC
AGCCTGAATGCCGGCATGACGGCACCGAGGAAATAAAGCGCTGGCATCGG
ATACAGAAGAAGGTAAGGACATCAGGTTCATCACTGCTTTGTATGTTATT
GAAGCTCCTCATGCTTGTCTCACTCCGACAGGCCCATGCGCAGCAACCCA
CTGCCGGCTCCACTACCTGCAGCAACAGCGGCACCAGCGGTGGCACTAGC
AGCGACAGCGAAGACTCCGATGGAATGAATCCTCAGCACCTGACGCTGTC
CCGCTCATCCTTAATGGCTCAGTGGGGTGAGGCCTCCAGCGGGAAAGCTG
CCGTGAACGTCGTCAAGGAGCTAGTCGAGGAGCGAAGAGACGACTCGCAA
TCCAAGTATCAGCCTCAAACCGATAACGTAATAAACAAGGCACGGGATTT
GTGTGCCCGCATTCGCCACCAAGCTAAAGTCAAGCAACGGGAAGAGCGTA
AGCACATTTTGTTGCAACGACAAAAAGCTCGTGACTTGGCTCGGCAGGCG
GCGGAGACTGCTCGAGATGAAGGGACCCGGAATGCAGCCTTGCGGATACA
CGCACAGAAAGAGGTGACCGAGGCAGCGCGTCGGGAACGAGTGTTGGCAG
GAGAGCACGGGTACGAGGACAAGTCTGAATGCTTCATTGCCCGCAATAAT
TACTACGGACAAAGGACGCTGTCGGCCAGGCGAAAAGACTCTCTCGCCAG
CAAACGGGACCAAGAGCGGTTTCAGGCAGCCAAATCCCAGATCGACATGT
TTTACGCCACGACTCTCTCCGCCCGTGAAGCGCGTCATCAGCGGCAAGCG
TCTGTGCAGCAGGCCAAGGCTTCCCACCGGGAAGAAGAGGATAAAGTAGT
ACGTTTGATTCAAGCGGCCAAGATGGAGCGGCTGCGGGCAGGGGTCCTTA
AGTGGGATCGATGGGTGAAGCAGCGAGCCATCTTTATTTGGTACGTCAAG
GCCCAACACATGAGAAAGCTTCAGCATCAGCACCAGCATCAGCACCAGCA
GCGGCAGAAAAAGAAACAGCAGCAGGAAGAAGCTGAAACGAAGGCGCGTG
TCGCTGCTGCTGGTGCCGCATTAGCTCTTTCTTTCTTTTCCTTTGCTGAC
TGGGCCGTGAATGCAGGAAAATGGTTCAAATGGCAGGTAGACAACGCTTG
CGCTCCCCCTCGTCGCCCCAAAAGCCCGTCCCATTACCTAGATGAGTGCT
AGATGCACCATCGACGTCCACCAGCCACATTTGTGACCTCAATTCCGCTC
ATGACCGCCACCAAGACTCCCCATCTTCTTGTCTCGGACTCAGAGACGCC
TAATCAGCGCTCCGAGGGGGAGGACCAGCCTGAATGCCGGCATGACGGCA
CCGAGGAAATAAAGCGCTGGCATCGGATACAGAAGAAGGTAAGGACATCA
GGTTCATCACTGCTTTGTATGTTATTGAAGCTCCTCATGCTTGTCTCACT
CCGACAGGCCCATGCGCAGCAACCCACTGCCGGCTCCACTACCTGCAGCA
ACAGCGGCACCAGCGGTGGCACTAGCAGCGACAGCGAAGACTCCGATGGA
ATGAATCCTCAGCACCTGACGCTGTCCCGCTCATCCTTAATGGCTCAGTG
GGGTGAGGCCTCCAGCGGGAAAGCTGCCGTGAACGTCGTCAAGGAGCTAG
TCGAGGAGCGAAGAGACGACTCGCAATCCAAGTATCAGCCTCAAACCGAT
AACGTAATAAACAAGGCACGGGATTTGTGTGCCCGCATTCGCCACCAAGC
TAAAGTCAAGCAACGGGAAGAGCGTAAGCACATTTTGTTGCAACGACAAA
AAGCTCGTGACTTGGCTCGGCAGGCGGCGGAGACTGCTCGAGATGAAGGG
ACCCGGAATGCAGCCTTGCGGATACACGCACAGAAAGAGGTGACCGAGGC
AGCGCGTCGGGAACGAGTGTTGGCAGGAGAGCACGGGTACGAGGACAAGT
CTGAATGCTTCATTGCCCGCAATAATTACTACGGACAAAGGACGCTGTCG
GCCAGGCGAAAAGACTCTCTCGCCAGCAAACGGGACCAAGAGCGGTTTCA
GGCAGCCAAATCCCAGATCGACATGTTTTACGCCACGACTCTCTCCGCCC
GTGAAGCGCGTCATCAGCGGCAAGCGTCTGTGCAGCAGGCCAAGGCTTCC
CACCGGGAAGAAGAGGATAAAGTAGTACGTTTGATTCAAGCGGCCAAGAT
GGAGCGGCTGCGGGCAGGGGTCCTTAAGTGGGATCGATGGGTGAAGCAGC
GAGCCATCTTTATTTGGTACGTCAAGGCCCAACACATGAGAAAGCTTCAG
CATCAGCACCAGCATCAGCACCAGCAGCGGCAGAAAAAGAAACAGCAGCA
GGAAGAAGCTGAAACGAAGGCGCGTGTCGCTGCTGCTGGTGCCGCATTAG
CTCTTTCTTTCTTTTCCTTTGCTGACTGGGCCGTGAATGCAGGAAAATGG
TTCAAATGGCAGGTAGACAACGCTTGCGCTCCCCCTCGTCGCCCCAAAAG
CCCGTCCCATTACCTAGATGAGTGCTAG

Synonyms

Publications