jgi.p|Nanoce1779_2|537332, mRNA_271 (mRNA) Nannochloropsis oceanica | NanDeSyn: Nannochloropsis Design & Synthesis Initiative

Overview


Name	jgi.p\|Nanoce1779_2\|537332
Unique Name	mRNA_271
Type	mRNA
Organism	Nannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length	5029
Alignment location	scaffold_3:672134..677248 +

Link to JBrowse

Properties


Property Name	Value
TranscriptId	537418
Track	FilteredModels2
ProteinId	537332

Mutants

Expression

No biomaterial libraries express this feature.

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold_3	supercontig	scaffold_3:672134..677248 +

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\|537332	gene_271	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\|537332	mRNA_271-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_271	CDS_271	Nannochloropsis oceanica (N. oceanica CCMP1779)	CDS

Sequences

The following sequences are available for this feature:

mRNA sequence
protein sequence
mRNA from alignment at scaffold_3:672134..677248+
coding sequence from alignment at scaffold_3:672134..677248+

mRNA sequence

>mRNA_271 ID=mRNA_271|Name=jgi.p|Nanoce1779_2|537332|organism=Nannochloropsis oceanica|type=mRNA|length=5029bp
TTTTTTAAACTGTACAGCAAAGGTTCTAAGCTCTCCATCTTAACACGTTT
CATGCAAGTAACTGCACGCCTTTTTCTGTAGTGTCATATTTTTCGTTTGC
GTTTGATATTTGTTATGATACGTGAGCATTGACATAAAGCGGCAAGAGCT
CGTCGTCCGCATCACGAGGAACATCGTGCCAAGAAATCTCACGGTGATTT
TCACCCCAAACTGGTCAGCAACAACCAATTCCAGATGTGACTCGATAAAA
GTGACAAGTCCACCTCTACTCTAGCTATTGTGATCAGTTTCCTGGAATTT
GATTGTGCTTTTGTATGGTTAAAAAAAAGGTAGGCAGCCAAGACACCAGA
GACAGCGTGTCCCGAGTTAGTGGGATGGACTCCGCGATCTTCACAAGTTG
ACCCACAACAGAGAGGTTTCTTCAATACTTCAATATTTACATGTTCATGT
CCTTATCATATTTCTCTGCGCACACACACAAGTTATTTTGGCCCCGTCGG
TGCTGATGCTGCCTTGGCTTTTGCGTCCTCCAAGGCTGCCGGGAGCTTCG
CCATCCATGCCTCCAGCCACAGATGCCCTTCAAATGTGTGTAGAATCGTG
ATCTTATTCTTGGTACTCACCGGAATGATGTGTGAAATGATAGTATTCCA
TATAAAGAGAAATGGTTTGGGCGCACCAATAATGAAGAGCTTCTGCAGGC
GTTCAGGGTGATGGAGCTTGCTGAAAGATGAAAATCCAGAGAGGATGCTC
ACCAAGTCTTTGGTGCATTGCCCCCAGGTCATACCATTAATGTCAATGAT
AACTTTAAGTTGCCGAGCTGGGAAGCTTTCGGGATGCGAGAACAAGAGCT
TGCAATCCGTCTCATACTGCCAGAGCTCGTGCTTGACCATTTTCTCGACT
GTCACGCCCTTTGCTGCCAAAGCCTTGGTCTGCAAGTGCGTTAAACTCCT
ATACACTACAGGAGCATAGTTGTTAGCTTCGTCTTCGTAGCCTAGGAAAA
TGCACGGGTACTGCTCCAAGAAAAAAGCATCATCCACGCCAACTATTTCT
TCGCGTGTTCGGCCCTGCAGCTCATAGAGCTTTATATCCTCCCTCCAGGC
TATGTCCTTGGTCAGCTGCTCTTTTGCGTGCGCAAGGTGGCCTTCGTTGG
CGACGAGGAAGCGCCAAAAGAGACTGCATCGCGACTCATTGTAATTGGCC
TCCCAAAAGCTGTGTGTTATTATGCGTGAAAGAATAAATGAAACCGTGGG
CTGAGGAGAAGATTGAGGAGTGTGCCCACCTTCCAATGTACTCTTGTGGT
GACTAAATCGGTCTCCGCTGTTACCTTTTGAAATCGCGGAGCTTCCACGA
ACATGCACCCTCTTCGTTCAAATCCAATAATTCATAATGGGGCGCATTTG
ATATTTTCAACAACAACAAAACAATACATTTTTGAGCGTTCTCCCATCGA
AGTGCACTTTCTAGATATCGGCATGGGCCACGCACACCAAGGGAGGTCGA
AATGAAGGAGACGGAGATGCACCACGCCCAAATCGTGGTAAGTGCACGTG
TGCTGAGAAGAGATTCCCCACAAGGAACTCCATCAGAAGTAAGCAAGATC
ACAGCAGGGATTGACACAAAAAGTCCTAACACGTACGTACCTGCGCGGCA
ACGCAACTTGGCCCTCGTCAAGCAGGAGCTGAAAATCTTCTAGGAGCTGG
AGCTCGTCGGGAAGGGGCTGTCGGTCACCCAAAAAGCGGGGCGAGTTCCC
TATGGCCAGCGTGGGGTCAGGGGTCTCATGCGTCTGCGTCGTTGCAGGCT
GCACCTGGTCCAGCTGTTGCTTTTTTTCTCTTTGGGATGGTGGCGCCGTT
GTTGACTCAAGCTGGGAGCTTCTTCCTGCTTCTCTACCTTCCATCTTAAT
CCTGACCCTGTTTGTGCAGGTATCGATGTGGTTTGCGGTATTTGTGAATA
GGGTCGTGATCAAATCAACAACAGGACGGCCGGGGCGTGTCTGATGGTGG
AACTCGCTGTCGATCGCCGATGATGTCTTGCCTTCATTTTCCCGCCTGCA
ATCAAGCCAACACGAACATATAAAAATCGTCGATCAATGCCTCGCCACCC
CCGCTCGATCGTACAGGATAAAAAGACAAGGCATCCACCTATAGCCCCAG
CCAAAGCCAACGTCAGCCTCCACCCCATGGACACGGAACTCCCGGCGCGC
TTGGCAAGCAAGCGCGTGCGTGCCGAAGTCGAGGAGGGCCAAGCGCCCAA
GCCCCGCCTACCCAGTTGCCTTGTTGGCGCCACCCCTGAGATAAATAGCA
GTGTCCTCCAAGCCCGCGGCAATAGGCATGCGGCAGGAGGGACGGGAGCG
CTGACCGTGGCGGTGCTGGGGGAAGAAACGGACCCGCACCGACTCCGGCA
GCGCCAAAAGCAGGTGGACTACGGCAAAAATACGTTGGGCTATGACCGGT
ACACGCAGCTGGTGCCAAAGGAACGTCGGCGTCGCGCCGACCCAAAGACA
CCCGACATCCACGCTCGTATCAGCACCAAGCGGTTTAATGGCCTGGTCCG
GGCCTGGCGCCGGCGACTCCATGAATTCGACCCAAAAGAAACCATGATTG
GTACTTCCCACTTCTCATTCTCCTCTTCTCCCTCTAGTAGCAATGATCTT
CCACAATCTGGCGGCCCTTCCTACGCTGCGGTGGTCAAGACGCCCGGGTC
ATCCTCCCGCCCTCACAGTCACAGCCACGACACTCCCAACTGTGGTGATA
GCGGTGGCGGCATGCATGTGGCGGAAGTCCACGACGACGACAGCAGCGAT
GGGCTTGACGGACAGGAGATTATCATTACACAGGAGGGCGGACCGGGCAG
TACCGGTGGCAAGGGCCGCGACAAAAAGAAGTCCCGGATGAGTCCCTTTG
ATCGGCCGGACGCAGGCTCGGCGACAGAGGAGGAGGTGGCTGGTGGTTGT
GTGGGGAGCGACTTTCCTGCACTTGTGTCCGGCGCAGCTGTAGCTAGTGA
CGGAGATCAGGTAGCAAGGAGATGGGATGATGGGGAGGAGGGAGGGGAGG
CTGACTTTTACAAGATCAAACGCTCTATGGCCATGGGCGCTGGACTAGGT
GGCGATTACAACAGTGGCAGCTTCAAGAATGCTGAATATTGGGGTGACGC
CCAGCGGTTGGGAGATGATGAGGAGCTGTGCTACAGTGACGATGACCTTC
TCTAAGCTGCAGGAGGAAAGGGAGGTAAGGAGGGATGGAGGGAAGATTTT
TTTTTCAATTCCAGTTGTTCTGGTCATTGATTGACGAGCAAGCGTCCGTA
CGTGTGGACTGTACCGAGCGAACAGGAGAGAAGGACGGAAAGGCAAAGGC
ATTTTGACGGGCCATAGGAGGAAGGGAAACGAATATCAAGGGCTGAAAAG
TTCGTGAAGCTGCGACAACTACAGCAAGGAGAAAGAACTGCCAAACCTCT
TCCTTTCTCTTCTACCGCCACCGCGTCGTGTTGAACAATTTGATATAACG
TGGTAAGGGACAGAAAGTACTCTTGTGTGTGGAGAGGTGGAAGAGAGAAA
GAAAAAACTAAGAAACTAAGTATATACAATTCTCGTTGTGAGAGACGTCA
CGAACCGCTTAGGGCAAGGAGTATGGCATGTGAGAAGATGAAACGCAAGC
AAAATGGAGAAAAGAAGAGAAAATTGAACATGAAAAATAAGGGAGTGCAA
CCACTGAACAACACATGCTATTCCCCACCCCTGACTTTTTTACTCACAAA
ACATGTTTCAGGCCTAAGCTGACCCGCAAGTTGTCGGTTTCCAGCAGATT
GCCAAAATCGAAAAAAAAAACAATCCCTGCCCGCACGTCGTAACATTTCA
TCTTTCGGTTGAACACATCCGTCGCTGTACATGTCTACCTTTCTGCCTTT
TATCTTTATTTCTATGCCTCCTCCTCTTCCTGCGCTACTTCTTTCTCGCC
ACTTCGGTGGTCCGTTGCTCCTCTAAAAAGGCAACCAACAACATCTCGGC
CGCCGATCGTGGCGTCAAGGTACCATCCGCCAGCTCCTCCTCCATCCTTA
CCGCCTTCCGTTCCACCGCCCCCGACCCCCTCACCTTCCTCACGAGCAAA
TCTTCCAAACTACTCCACATCCAATGCCTTCCTTGATCTCTCCTCTTCAA
CCTCAAAAACCCTGTCTTGTCCAACACGTCACTGCACCGACTAACCTCCT
CCCAGACCTTCGCAATCTTCTCCCTTCTTAAAGCTGAACACATTGTCACA
GTCGGCGTCCACGGCTCCCATTTCCGTCGCTGAAAACACAAGGCATGTTT
ATACTCAGCAGCTGTGTGCTGCGCAGCTGTGAGTAAGTGGCCATCAGCCT
TATTGACCACCACCACGTCGGCCACCTCCATAATGCCCTTTTTAACGCCC
TGCAGCTCATCCCCCCCTCCGGGCGGCACCAGCAGCAACAGCATATCCGA
GGTCTGGTCGATCATGATCTCCGATTGTCCCAGCCCCACCGTCTCGATGA
ATACAACATCAAAAGCAGCCGCCTGGCATAGCAGCACGACGTCATTCGTA
TAGCGTGCCACCCCCCCAAGCACCCCACTGGTCGGGCAGGCACGTACGAA
TGCCCGAGGGTCCTTAGACAGCTCGTACATCCGTGTCTTGTCCCCCAAGA
TTGAACCACCGCTGCGAGACGAAGAGGGATCGACCGCGATGACGGCTACG
CGCTGTGCGTGGTCATAGGGGTAGAAGAAATGAGAGAGAAGTGAGGCGAA
TGTGGTACATTTTACTCTCCTCTACTGCATCCAGATTTATTGTCTTTCCC
CCTCATCCGTAGACGCACCAGTCCCTTGCTATCCAGCAAATACATGCCCA
GGGACTCAATAAAAGTGGACTTGCCGGCACCTGGGGGGCCGGCGATGCCA
ATCCGCAGGGGGCGAGTGCCCTTTCGGAGGCTGCCGCTGGTGCTGCCGCT
GCTGCTGCTGCTGCTTCTGCTGTCGCTGCTAGATGCCATAGCAGTATTCG
AATTCGGCCGCCGATATGTTTTGACCTTT

protein sequence of jgi.p|Nanoce1779_2|537332

>mRNA_271-protein ID=mRNA_271-protein|Name=jgi.p|Nanoce1779_2|537332|organism=Nannochloropsis oceanica|type=polypeptide|length=373bp
MPRHPRSIVQDKKTRHPPIAPAKANVSLHPMDTELPARLASKRVRAEVEE
GQAPKPRLPSCLVGATPEINSSVLQARGNRHAAGGTGALTVAVLGEETDP
HRLRQRQKQVDYGKNTLGYDRYTQLVPKERRRRADPKTPDIHARISTKRF
NGLVRAWRRRLHEFDPKETMIGTSHFSFSSSPSSSNDLPQSGGPSYAAVV
KTPGSSSRPHSHSHDTPNCGDSGGGMHVAEVHDDDSSDGLDGQEIIITQE
GGPGSTGGKGRDKKKSRMSPFDRPDAGSATEEEVAGGCVGSDFPALVSGA
AVASDGDQVARRWDDGEEGGEADFYKIKRSMAMGAGLGGDYNSGSFKNAE
YWGDAQRLGDDEELCYSDDDLL*

mRNA from alignment at scaffold_3:672134..677248+

Legend: polypeptideCDS

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

>mRNA_271 ID=mRNA_271|Name=jgi.p|Nanoce1779_2|537332|organism=Nannochloropsis oceanica|type=mRNA|length=5115bp|location=Sequence derived from alignment at scaffold_3:672134..677248+ (Nannochloropsis oceanica)
TTTTTTAAACTGTACAGCAAAGGTTCTAAGCTCTCCATCTTAACACGTTT
CATGCAAGTAACTGCACGCCTTTTTCTGTAGTGTCATATTTTTCGTTTGC
GTTTGATATTTGTTATGATACGTGAGCATTGACATAAAGCGGCAAGAGCT
CGTCGTCCGCATCACGAGGAACATCGTGCCAAGAAATCTCACGGTGATTT
TCACCCCAAACTGGTCAGCAACAACCAATTCCAGATGTGACTCGATAAAA
GTGACAAGTCCACCTCTACTCTAGCTATTGTGATCAGTTTCCTGGAATTT
GATTGTGCTTTTGTATGGTTAAAAAAAAGGTAGGCAGCCAAGACACCAGA
GACAGCGTGTCCCGAGTTAGTGGGATGGACTCCGCGATCTTCACAAGTTG
ACCCACAACAGAGAGGTTTCTTCAATACTTCAATATTTACATGTTCATGT
CCTTATCATATTTCTCTGCGCACACACACAAGTTATTTTGGCCCCGTCGG
TGCTGATGCTGCCTTGGCTTTTGCGTCCTCCAAGGCTGCCGGGAGCTTCG
CCATCCATGCCTCCAGCCACAGATGCCCTTCAAATGTGTGTAGAATCGTG
ATCTTATTCTTGGTACTCACCGGAATGATGTGTGAAATGATAGTATTCCA
TATAAAGAGAAATGGTTTGGGCGCACCAATAATGAAGAGCTTCTGCAGGC
GTTCAGGGTGATGGAGCTTGCTGAAAGATGAAAATCCAGAGAGGATGCTC
ACCAAGTCTTTGGTGCATTGCCCCCAGGTCATACCATTAATGTCAATGAT
AACTTTAAGTTGCCGAGCTGGGAAGCTTTCGGGATGCGAGAACAAGAGCT
TGCAATCCGTCTCATACTGCCAGAGCTCGTGCTTGACCATTTTCTCGACT
GTCACGCCCTTTGCTGCCAAAGCCTTGGTCTGCAAGTGCGTTAAACTCCT
ATACACTACAGGAGCATAGTTGTTAGCTTCGTCTTCGTAGCCTAGGAAAA
TGCACGGGTACTGCTCCAAGAAAAAAGCATCATCCACGCCAACTATTTCT
TCGCGTGTTCGGCCCTGCAGCTCATAGAGCTTTATATCCTCCCTCCAGGC
TATGTCCTTGGTCAGCTGCTCTTTTGCGTGCGCAAGGTGGCCTTCGTTGG
CGACGAGGAAGCGCCAAAAGAGACTGCATCGCGACTCATTGTAATTGGCC
TCCCAAAAGCTGTGTGTTATTATGCGTGAAAGAATAAATGAAACCGTGGG
CTGAGGAGAAGATTGAGGAGTGTGCCCACCTTCCAATGTACTCTTGTGGT
GACTAAATCGGTCTCCGCTGTTACCTTTTGAAATCGCGGAGCTTCCACGA
ACATGCACCCTCTTCGTTCAAATCCAATAATTCATAATGGGGCGCATTTG
ATATTTTCAACAACAACAAAACAATACATTTTTGAGCGTTCTCCCATCGA
AGTGCACTTTCTAGATATCGGCATGGGCCACGCACACCAAGGGAGGTCGA
AATGAAGGAGACGGAGATGCACCACGCCCAAATCGTGGTAAGTGCACGTG
TGCTGAGAAGAGATTCCCCACAAGGAACTCCATCAGAAGTAAGCAAGATC
ACAGCAGGGATTGACACAAAAAGTCCTAACACGTACGTACCTGCGCGGCA
ACGCAACTTGGCCCTCGTCAAGCAGGAGCTGAAAATCTTCTAGGAGCTGG
AGCTCGTCGGGAAGGGGCTGTCGGTCACCCAAAAAGCGGGGCGAGTTCCC
TATGGCCAGCGTGGGGTCAGGGGTCTCATGCGTCTGCGTCGTTGCAGGCT
GCACCTGGTCCAGCTGTTGCTTTTTTTCTCTTTGGGATGGTGGCGCCGTT
GTTGACTCAAGCTGGGAGCTTCTTCCTGCTTCTCTACCTTCCATCTTAAT
CCTGACCCTGTTTGTGCAGGTATCGATGTGGTTTGCGGTATTTGTGAATA
GGGTCGTGATCAAATCAACAACAGGACGGCCGGGGCGTGTCTGATGGTGG
AACTCGCTGTCGATCGCCGATGATGTCTTGCCTTCATTTTCCCGCCTGCA
ATCAAGCCAACACGAACATATAAAAATCGTCGATCAATGCCTCGCCACCC
CCGCTCGATCGTACAGGATAAAAAGACAAGGCATCCACCTATAGCCCCAG
CCAAAGCCAACGTCAGCCTCCACCCCATGGACACGGAACTCCCGGCGGTA
AGTCCCCGCCTTTTTTTTACCCTCTCCACCTGCTACCTCCCTCCTCACCT
TCTTCCCTCCCTTCCGTCCCCCCGTCCCAAAAGCGCTTGGCAAGCAAGCG
CGTGCGTGCCGAAGTCGAGGAGGGCCAAGCGCCCAAGCCCCGCCTACCCA
GTTGCCTTGTTGGCGCCACCCCTGAGATAAATAGCAGTGTCCTCCAAGCC
CGCGGCAATAGGCATGCGGCAGGAGGGACGGGAGCGCTGACCGTGGCGGT
GCTGGGGGAAGAAACGGACCCGCACCGACTCCGGCAGCGCCAAAAGCAGG
TGGACTACGGCAAAAATACGTTGGGCTATGACCGGTACACGCAGCTGGTG
CCAAAGGAACGTCGGCGTCGCGCCGACCCAAAGACACCCGACATCCACGC
TCGTATCAGCACCAAGCGGTTTAATGGCCTGGTCCGGGCCTGGCGCCGGC
GACTCCATGAATTCGACCCAAAAGAAACCATGATTGGTACTTCCCACTTC
TCATTCTCCTCTTCTCCCTCTAGTAGCAATGATCTTCCACAATCTGGCGG
CCCTTCCTACGCTGCGGTGGTCAAGACGCCCGGGTCATCCTCCCGCCCTC
ACAGTCACAGCCACGACACTCCCAACTGTGGTGATAGCGGTGGCGGCATG
CATGTGGCGGAAGTCCACGACGACGACAGCAGCGATGGGCTTGACGGACA
GGAGATTATCATTACACAGGAGGGCGGACCGGGCAGTACCGGTGGCAAGG
GCCGCGACAAAAAGAAGTCCCGGATGAGTCCCTTTGATCGGCCGGACGCA
GGCTCGGCGACAGAGGAGGAGGTGGCTGGTGGTTGTGTGGGGAGCGACTT
TCCTGCACTTGTGTCCGGCGCAGCTGTAGCTAGTGACGGAGATCAGGTAG
CAAGGAGATGGGATGATGGGGAGGAGGGAGGGGAGGCTGACTTTTACAAG
ATCAAACGCTCTATGGCCATGGGCGCTGGACTAGGTGGCGATTACAACAG
TGGCAGCTTCAAGAATGCTGAATATTGGGGTGACGCCCAGCGGTTGGGAG
ATGATGAGGAGCTGTGCTACAGTGACGATGACCTTCTCTAAGCTGCAGGA
GGAAAGGGAGGTAAGGAGGGATGGAGGGAAGATTTTTTTTTCAATTCCAG
TTGTTCTGGTCATTGATTGACGAGCAAGCGTCCGTACGTGTGGACTGTAC
CGAGCGAACAGGAGAGAAGGACGGAAAGGCAAAGGCATTTTGACGGGCCA
TAGGAGGAAGGGAAACGAATATCAAGGGCTGAAAAGTTCGTGAAGCTGCG
ACAACTACAGCAAGGAGAAAGAACTGCCAAACCTCTTCCTTTCTCTTCTA
CCGCCACCGCGTCGTGTTGAACAATTTGATATAACGTGGTAAGGGACAGA
AAGTACTCTTGTGTGTGGAGAGGTGGAAGAGAGAAAGAAAAAACTAAGAA
ACTAAGTATATACAATTCTCGTTGTGAGAGACGTCACGAACCGCTTAGGG
CAAGGAGTATGGCATGTGAGAAGATGAAACGCAAGCAAAATGGAGAAAAG
AAGAGAAAATTGAACATGAAAAATAAGGGAGTGCAACCACTGAACAACAC
ATGCTATTCCCCACCCCTGACTTTTTTACTCACAAAACATGTTTCAGGCC
TAAGCTGACCCGCAAGTTGTCGGTTTCCAGCAGATTGCCAAAATCGAAAA
AAAAAACAATCCCTGCCCGCACGTCGTAACATTTCATCTTTCGGTTGAAC
ACATCCGTCGCTGTACATGTCTACCTTTCTGCCTTTTATCTTTATTTCTA
TGCCTCCTCCTCTTCCTGCGCTACTTCTTTCTCGCCACTTCGGTGGTCCG
TTGCTCCTCTAAAAAGGCAACCAACAACATCTCGGCCGCCGATCGTGGCG
TCAAGGTACCATCCGCCAGCTCCTCCTCCATCCTTACCGCCTTCCGTTCC
ACCGCCCCCGACCCCCTCACCTTCCTCACGAGCAAATCTTCCAAACTACT
CCACATCCAATGCCTTCCTTGATCTCTCCTCTTCAACCTCAAAAACCCTG
TCTTGTCCAACACGTCACTGCACCGACTAACCTCCTCCCAGACCTTCGCA
ATCTTCTCCCTTCTTAAAGCTGAACACATTGTCACAGTCGGCGTCCACGG
CTCCCATTTCCGTCGCTGAAAACACAAGGCATGTTTATACTCAGCAGCTG
TGTGCTGCGCAGCTGTGAGTAAGTGGCCATCAGCCTTATTGACCACCACC
ACGTCGGCCACCTCCATAATGCCCTTTTTAACGCCCTGCAGCTCATCCCC
CCCTCCGGGCGGCACCAGCAGCAACAGCATATCCGAGGTCTGGTCGATCA
TGATCTCCGATTGTCCCAGCCCCACCGTCTCGATGAATACAACATCAAAA
GCAGCCGCCTGGCATAGCAGCACGACGTCATTCGTATAGCGTGCCACCCC
CCCAAGCACCCCACTGGTCGGGCAGGCACGTACGAATGCCCGAGGGTCCT
TAGACAGCTCGTACATCCGTGTCTTGTCCCCCAAGATTGAACCACCGCTG
CGAGACGAAGAGGGATCGACCGCGATGACGGCTACGCGCTGTGCGTGGTC
ATAGGGGTAGAAGAAATGAGAGAGAAGTGAGGCGAATGTGGTACATTTTA
CTCTCCTCTACTGCATCCAGATTTATTGTCTTTCCCCCTCATCCGTAGAC
GCACCAGTCCCTTGCTATCCAGCAAATACATGCCCAGGGACTCAATAAAA
GTGGACTTGCCGGCACCTGGGGGGCCGGCGATGCCAATCCGCAGGGGGCG
AGTGCCCTTTCGGAGGCTGCCGCTGGTGCTGCCGCTGCTGCTGCTGCTGC
TTCTGCTGTCGCTGCTAGATGCCATAGCAGTATTCGAATTCGGCCGCCGA
TATGTTTTGACCTTT

Coding sequence (CDS) from alignment at scaffold_3:672134..677248+

>mRNA_271 ID=mRNA_271|Name=jgi.p|Nanoce1779_2|537332|organism=Nannochloropsis oceanica|type=CDS|length=2238bp|location=Sequence derived from alignment at scaffold_3:672134..677248+ (Nannochloropsis oceanica)
ATGCCTCGCCACCCCCGCTCGATCGTACAGGATAAAAAGACAAGGCATCC
ACCTATAGCCCCAGCCAAAGCCAACGTCAGCCTCCACCCCATGGACACGG
AACTCCCGGCGCGCTTGGCAAGCAAGCGCGTGCGTGCCGAAGTCGAGGAG
GGCCAAGCGCCCAAGCCCCGCCTACCCAGTTGCCTTGTTGGCGCCACCCC
TGAGATAAATAGCAGTGTCCTCCAAGCCCGCGGCAATAGGCATGCGGCAG
GAGGGACGGGAGCGCTGACCGTGGCGGTGCTGGGGGAAGAAACGGACCCG
CACCGACTCCGGCAGCGCCAAAAGCAGGTGGACTACGGCAAAAATACGTT
GGGCTATGACCGGTACACGCAGCTGGTGCCAAAGGAACGTCGGCGTCGCG
CCGACCCAAAGACACCCGACATCCACGCTCGTATCAGCACCAAGCGGTTT
AATGGCCTGGTCCGGGCCTGGCGCCGGCGACTCCATGAATTCGACCCAAA
AGAAACCATGATTGGTACTTCCCACTTCTCATTCTCCTCTTCTCCCTCTA
GTAGCAATGATCTTCCACAATCTGGCGGCCCTTCCTACGCTGCGGTGGTC
AAGACGCCCGGGTCATCCTCCCGCCCTCACAGTCACAGCCACGACACTCC
CAACTGTGGTGATAGCGGTGGCGGCATGCATGTGGCGGAAGTCCACGACG
ACGACAGCAGCGATGGGCTTGACGGACAGGAGATTATCATTACACAGGAG
GGCGGACCGGGCAGTACCGGTGGCAAGGGCCGCGACAAAAAGAAGTCCCG
GATGAGTCCCTTTGATCGGCCGGACGCAGGCTCGGCGACAGAGGAGGAGG
TGGCTGGTGGTTGTGTGGGGAGCGACTTTCCTGCACTTGTGTCCGGCGCA
GCTGTAGCTAGTGACGGAGATCAGGTAGCAAGGAGATGGGATGATGGGGA
GGAGGGAGGGGAGGCTGACTTTTACAAGATCAAACGCTCTATGGCCATGG
GCGCTGGACTAGGTGGCGATTACAACAGTGGCAGCTTCAAGAATGCTGAA
TATTGGGGTGACGCCCAGCGGTTGGGAGATGATGAGGAGCTGTGCTACAG
TGACGATGACCTTCTCTAAATGCCTCGCCACCCCCGCTCGATCGTACAGG
ATAAAAAGACAAGGCATCCACCTATAGCCCCAGCCAAAGCCAACGTCAGC
CTCCACCCCATGGACACGGAACTCCCGGCGCGCTTGGCAAGCAAGCGCGT
GCGTGCCGAAGTCGAGGAGGGCCAAGCGCCCAAGCCCCGCCTACCCAGTT
GCCTTGTTGGCGCCACCCCTGAGATAAATAGCAGTGTCCTCCAAGCCCGC
GGCAATAGGCATGCGGCAGGAGGGACGGGAGCGCTGACCGTGGCGGTGCT
GGGGGAAGAAACGGACCCGCACCGACTCCGGCAGCGCCAAAAGCAGGTGG
ACTACGGCAAAAATACGTTGGGCTATGACCGGTACACGCAGCTGGTGCCA
AAGGAACGTCGGCGTCGCGCCGACCCAAAGACACCCGACATCCACGCTCG
TATCAGCACCAAGCGGTTTAATGGCCTGGTCCGGGCCTGGCGCCGGCGAC
TCCATGAATTCGACCCAAAAGAAACCATGATTGGTACTTCCCACTTCTCA
TTCTCCTCTTCTCCCTCTAGTAGCAATGATCTTCCACAATCTGGCGGCCC
TTCCTACGCTGCGGTGGTCAAGACGCCCGGGTCATCCTCCCGCCCTCACA
GTCACAGCCACGACACTCCCAACTGTGGTGATAGCGGTGGCGGCATGCAT
GTGGCGGAAGTCCACGACGACGACAGCAGCGATGGGCTTGACGGACAGGA
GATTATCATTACACAGGAGGGCGGACCGGGCAGTACCGGTGGCAAGGGCC
GCGACAAAAAGAAGTCCCGGATGAGTCCCTTTGATCGGCCGGACGCAGGC
TCGGCGACAGAGGAGGAGGTGGCTGGTGGTTGTGTGGGGAGCGACTTTCC
TGCACTTGTGTCCGGCGCAGCTGTAGCTAGTGACGGAGATCAGGTAGCAA
GGAGATGGGATGATGGGGAGGAGGGAGGGGAGGCTGACTTTTACAAGATC
AAACGCTCTATGGCCATGGGCGCTGGACTAGGTGGCGATTACAACAGTGG
CAGCTTCAAGAATGCTGAATATTGGGGTGACGCCCAGCGGTTGGGAGATG
ATGAGGAGCTGTGCTACAGTGACGATGACCTTCTCTAA

Synonyms

Publications