NO29G00120.3, NO29G00120.3 (mRNA) Nannochloropsis oceanica

Overview
NameNO29G00120.3
Unique NameNO29G00120.3
TypemRNA
OrganismNannochloropsis oceanica (N. oceanica IMET1)
Sequence length3047
Alignment locationchr29:45420..51390 -

Link to JBrowse

Properties
Mutants
Expression
No biomaterial libraries express this feature.
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
chr29genomechr29:45420..51390 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Gene prediction for N. oceanica IMET12017-10-24
Homology annotation for N. oceanica IMET12017-10-25
InterPro analysis for N. oceanica IMET12017-10-25
Annotated Terms
Homology
[Close]
BLAST of NO29G00120.3 vs.
Match: EWM21237.1 (choline dehydrogenase [Nannochloropsis gaditana])

HSP 1 Score: 203.4 bits (516), Expect = 2.400e-48
Identity = 95/115 (82.61%), Postives = 105/115 (91.30%), Query Frame = 0 
Query:   66 PKYIIVGAGPAGCALAAALVKGQKGMVVMLERGKEELQGRFVHKVNDWVKASLRSWHAVHYLTVPHAHLNNRQFVTPRGQGKGGTALINAMQYSRGYRKDYRDWNEWWRIEDIEE 181
            PKYIIVGAGPAGCALAAAL KGQ+G VVM+ERGKE++  RFV KVNDWVKASLRSW+AV YL+VPH HL NRQFVTPRGQGKGGTALINAMQYSRGYRKDY+ W EWW++E+IEE
Sbjct:   16 PKYIIVGAGPAGCALAAALAKGQQGKVVMVERGKEKVHTRFVTKVNDWVKASLRSWNAVQYLSVPHRHLGNRQFVTPRGQGKGGTALINAMQYSRGYRKDYQAWEEWWKMEEIEE 130
The following BLAST results are available for this feature:
BLAST of NO29G00120.3 vs.
Analysis Date: 2017-10-25 (Homology annotation for N. oceanica IMET1)
Total hits: 1
Match NameE-valueIdentityDescription
EWM21237.12.400e-4882.61choline dehydrogenase [Nannochloropsis gaditana][more]
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Relationships

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

Feature NameUnique NameSpeciesType
NO29G00120NO29G00120Nannochloropsis oceanica (N. oceanica IMET1)gene


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

Feature NameUnique NameSpeciesType
NO29G00120.3NO29G00120.3-proteinNannochloropsis oceanica (N. oceanica IMET1)polypeptide


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

Feature NameUnique NameSpeciesType
NO29G00120.3.cds1NO29G00120.3.cds1Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds2NO29G00120.3.cds2Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds3NO29G00120.3.cds3Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds4NO29G00120.3.cds4Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds5NO29G00120.3.cds5Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds6NO29G00120.3.cds6Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds7NO29G00120.3.cds7Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds8NO29G00120.3.cds8Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds9NO29G00120.3.cds9Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds10NO29G00120.3.cds10Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds11NO29G00120.3.cds11Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds12NO29G00120.3.cds12Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds13NO29G00120.3.cds13Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds14NO29G00120.3.cds14Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds15NO29G00120.3.cds15Nannochloropsis oceanica (N. oceanica IMET1)CDS
NO29G00120.3.cds16NO29G00120.3.cds16Nannochloropsis oceanica (N. oceanica IMET1)CDS


Sequences
The following sequences are available for this feature:

mRNA sequence

>NO29G00120.3 ID=NO29G00120.3|Name=NO29G00120.3|organism=Nannochloropsis oceanica|type=mRNA|length=3047bp
AGGCGATAGCATGTCTCTGTGCCTATTTGGTGGGCAGTGTACGTTAGAGA
GCGGCGCCGGGTATTGACATTCCGGGCACCCAGCAAGACCCGGGTAAAAA
CCCGGATAAAACCCACACAGGTAATGATTTTCAACTGGATACCCTGGCAC
CCGGAATAACGATGGCGTAAAAACGAGAGGAACGGAAAGGGCAGGGGAAA
AGGAAAAGACAGAAGGGAAGAGAAAAGTCATGAAGCCCTTGATTTACGCG
TTACCAAGTGATTCGGCGCGACCCCATGAGCGGAGGCCCTTGTACCCAAT
TTCCCCATACATACCCCCCCTCCCTCACAGACACCCTTCACGGGGTTTGT
CCGGACAGACTTTCGGAGAAGCCGGGTCTGCCCGGGTAGGAAAAGTGCTG
CTGCCGGGTGCGGCTGTACGTAGGTCAATGCTAAGCAACGTGAGCTAAGG
ACGATTTGAATTCAGCGAGGCTGACCGGCGGCGGCTGTTTCGCGTCCCTT
ATGCGCGTCATGGGGCGCTTTCCCACACCCACACCCACACAATGCACACG
TATACAGGCGCGCAGGGGGCAAATCAACAGCCTAGCGCATTCAGCCTCAG
TCCTCATTCTCCATTTCTGCAGCACCCAAGTCGCGTAAACCAAGATCGCA
AGCCAAGCCTAGCCGAGAATCCCATCGCTCGCATCATGATGGTCGAACCT
CCTGCCTCCTCTTTCCCCTCTGCCGCAGCTTCCAAACCCAAGTATATAAT
CGTCGGCGCAGGGCCTGCAGGCTGTGCCTTGGCAGCCGCCCTCGTGAAAG
GTCAGAAAGGGATGGTGGTAATGCTGGAGCGTGGCAAGGAAGAGCTGCAA
GGCCGGTTCGTCCACAAGGTCAACGACTGGGTTAAGGCTTCCCTCCGCTC
CTGGCATGCTGTGCACTATCTCACTGTCCCTCACGCCCACCTGAACAACC
GGCAATTTGTTACCCCACGCGGACAAGGCAAAGGGGGCACCGCCCTCATC
AATGCCATGCAGTACTCACGAGGGTATCGGAAAGACTACAGGGACTGGAA
TGAATGGTGGCGGATAGAGGACATTGAAGAGAGCTACGAGTACGTGGAGC
AGAAGCTGAGGGCGGCCGGAGCTCTCACAGAGGGAAGTTCCAGCCTTGTC
CGCGAGGCCTTCGAACAGGCTGCGGCACAGATAGGGCTGACAGTCTTGCC
CCCTGCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCC
CTCCCTCCCCCTCCCCCTACTACCTCACCCCAGACGCCTACGCGCCCATG
TGCTACCTCGCTCGGATTGACAAACATCAAAATAAGAGGTTCACTCGAGT
GTCGCCCTTCGAGGCCCTCCTGCAACCCCTCCTTGATGCGAAGAGGGCCC
CTAATCTTTCTTTTCTCTTCCAGGCTCAGGCCACTCGCGTCTTGTTCACC
CACGGGGGGAAAGGCCGGCGGCTGCCACGGGCGGCGGGCATCGAGTACAT
GGATTCGGCCACGGGCCAGACAAGTGTGCTGCTGCTGGACGAGGCGGACG
ACGAGGCGGAGGTCATTCTGTGTTGCGGCGCCATCGACACTCCTAGACTT
CTCCTCCTTTCCGGCATCGGCGACCCCGAGCACCTCACGGCCCTCGGCAT
CCCCGTGGTGGCTTCTCTCCCCAGCGTGGGCCAGGGACTGCAAGACCATC
TCCTCGCCCCCCGGGCCTGCTTCAGTCGCCCTCCCGCGGGTCAGAGGCAG
CAGCTGGCCCCCAACTCGATGTACGGATGGGTGAATGTCATTCGTAAGGG
AAGCCTGGAGGAAAAGGAGGAGATCAGGATTTCCCTCATGACCAGCGACA
TGTCAGTCACACCCGACCTTCTACCGCAGATTGCCGTCCCCCTGTATCCC
GGCCTATGGTACGGCCTCCTCCGCGCTTGCCTCACCGCCTGCCTTTCCCT
CCTCTGCCTGCTCCCCTTCGTCCGCTGGCTCACCCGCCAATTTCTAGGCT
GCATGATTTGCATCATGAATCCTCTTAGTCAGGGATGTGTGCGTCTCGCC
TCCGCCGACCCGGCTGTCCCTCCGCTTGTCGACCCCGCCTACCTCTCCCA
TCCCCAAGACGTCGAGGCGCTCCATCAGGGCCTCAAGCTGGCGGGTGATC
TCCTTCAGACAGAGGTGCGTATTTCTTCAAGGGAGGGAGGAAGGGAGGGA
GATGATGAGTATATCCTCCCGCCTCGTCTCTTTTTGTCCTGCTCTCAACG
GCCCAACGGCTGCCCCGACCGTTTCCCTACTCTCCCCTTCCTCTCCCAGC
CTCTCGCCCCCTTCCTCGGCCAAGAGATGCTTCCTGGTCGTCTTTTCAAC
CACAACACCTCCCTCACCGACGCTCTAAATTATGGGAAGATCTTCGCGGG
CTCCTACTACCACCCCGCGTGCTCCTGTCGCTTGGGAAAGGTAGTAAACA
AGGATCTGCGCGTCTTTCACGTGTCGGGCTTGAGGGTGGCGGACGCCTCC
ATCCTTCCACGATTGGGCAGTGCGGGGCCTCTCGCGGCCTGCATGATGAT
CGGGGATAGGGCCGGGCGAATCATCTTGGGGTCGAGGGGAAGAGGGGAAG
AAGTGAAGGAGGGGAGGGATGCAAGGAAGGGGAGGGACGAAGGAGACGAC
GAGAGGGAGGGCGGGAAGGAGGGAGGGGACGTGCAGCGGGGTTTAAGTCA
TGGCAAGAAGAAGCGCGAGTAGACCATAAATGAAACTTCCAGTAAAGAGG
ATGAAGGGACAGCGTCATGACAGTGCTCGGTGGGCTACTTTGATTACAAT
ACTTCATTTTTACACCCCTCTTTGAATAATATGTTTGTTCGATTACGTCG
CTTCAGTTCTCAATATTACGTAATATTAGTTATGTATGTATTTATTCGAG
TACATAACTTCATTTTTTCATATTTATTAGATTATGTTGCTCCATTTTTC
AATAGTATGTGTCATTACTTCACAATTCCGACGCTGGCTTTCTCTCGCTT
TCGCTAGGAAGGACGCAGTCCCCTCCTCCTCCTTTACCTCCTCCCCC
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protein sequence of NO29G00120.3

>NO29G00120.3-protein ID=NO29G00120.3-protein|Name=NO29G00120.3|organism=Nannochloropsis oceanica|type=polypeptide|length=727bp
MHTYTGAQGANQQPSAFSLSPHSPFLQHPSRVNQDRKPSLAENPIARIMM
VEPPASSFPSAAASKPKYIIVGAGPAGCALAAALVKGQKGMVVMLERGKE
ELQGRFVHKVNDWVKASLRSWHAVHYLTVPHAHLNNRQFVTPRGQGKGGT
ALINAMQYSRGYRKDYRDWNEWWRIEDIEESYEYVEQKLRAAGALTEGSS
SLVREAFEQAAAQIGLTVLPPASSSSSSSSSSSSSSPPSPSPYYLTPDAY
APMCYLARIDKHQNKRFTRVSPFEALLQPLLDAKRAPNLSFLFQAQATRV
LFTHGGKGRRLPRAAGIEYMDSATGQTSVLLLDEADDEAEVILCCGAIDT
PRLLLLSGIGDPEHLTALGIPVVASLPSVGQGLQDHLLAPRACFSRPPAG
QRQQLAPNSMYGWVNVIRKGSLEEKEEIRISLMTSDMSVTPDLLPQIAVP
LYPGLWYGLLRACLTACLSLLCLLPFVRWLTRQFLGCMICIMNPLSQGCV
RLASADPAVPPLVDPAYLSHPQDVEALHQGLKLAGDLLQTEVRISSREGG
REGDDEYILPPRLFLSCSQRPNGCPDRFPTLPFLSQPLAPFLGQEMLPGR
LFNHNTSLTDALNYGKIFAGSYYHPACSCRLGKVVNKDLRVFHVSGLRVA
DASILPRLGSAGPLAACMMIGDRAGRIILGSRGRGEEVKEGRDARKGRDE
GDDEREGGKEGGDVQRGLSHGKKKRE*
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mRNA from alignment at chr29:45420..51390-

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>NO29G00120.3 ID=NO29G00120.3|Name=NO29G00120.3|organism=Nannochloropsis oceanica|type=mRNA|length=5971bp|location=Sequence derived from alignment at chr29:45420..51390- (Nannochloropsis oceanica)
AGGCGATAGCATGTCTCTGTGCCTATTTGGTGGGCAGTGTACGTTAGAGA
GCGGCGCCGGGTATTGACATTCCGGGCACCCAGCAAGACCCGGGTAAAAA
CCCGGATAAAACCCACACAGGTAATGATTTTCAACTGGATACCCTGGCAC
CCGGAATAACGATGGCGTAAAAACGAGAGGAACGGAAAGGGCAGGGGAAA
AGGAAAAGACAGAAGGGAAGAGAAAAGTCATGAAGCCCTTGATTTACGCG
TTACCAAGTGATTCGGCGCGACCCCATGAGCGGAGGCCCTTGTACCCAAT
TTCCCCATACATACCCCCCCTCCCTCACAGACACCCTTCACGGGGTTTGT
CCGGACAGACTTTCGGAGAAGCCGGGTCTGCCCGGGTAGGAAAAGTGCTG
CTGCCGGGTGCGGCTGTACGTAGGTCAATGCTAAGCAACGTGAGCTAAGG
ACGATTTGAATTCAGCGAGGCTGACCGGCGGCGGCTGTTTCGCGTCCCTT
ATGCGCGTCATGGGGCGCTTTCCCACACCCACACCCACACAATGCACACG
TATACAGGCGCGCAGGGGGCAAATCAACAGCCTAGCGCATTCAGCCTCAG
TCCTCATTCTCCATTTCTGCAGCACCCAAGTCGCGTAAACCAAGATCGCA
AGCCAAGCCTAGCCGAGAATCCCATCGCTCGCATCATGATGGTCGAACCT
CCTGCCTCCTCTTTCCCCTCTGCCGCAGCTTCCAAACCCAAGTATATAAT
CGTCGGCGCAGGGCCTGCAGGCTGTGCCTTGGCAGCCGCCCTCGTGAAAG
GTCAGAAAGGGATGGTGGTAATGCTGGAGCGTGGCAAGGAAGAGGTACGC
AGAAAGGAAGGAAGAAACATGGAGATGGAGATGGAGAGAGAGAGGGAGGG
TAGGGCAAAGCGGCTGGTAAGCAGGGGCGTGATGGAGGTGGCTTAGAGCG
TGCGAGGAGGAGCGTGGTTGGTAGCGCTAGTGACATAAATCGTCTTGGGG
AAGGATCTCAACCCATTTTCACACATCCTCCCCTTCCCTTCTCACCCTCC
CTCCCTCCCTCCCCCACTTCCCTATCTCCCCAGCTGCAAGGCCGGTTCGT
CCACAAGGTCAACGACTGGGTTAAGGCTTCCCTCCGCTCCTGGCATGCTG
TGCACTATCTCACTGTCCCTCACGCCCACCTGAACAACCGGCAATTTGTT
ACCCCACGCGGACAAGGCAAAGGGGGCACCGGTGAGTTTGGATGCTCCAA
GCCCTCCCCTCCCGGTCAAGAGGGGGGAGGAAAGTACCTCCTTTCTTCAT
CCATTCTTCTCTACTCTCTCTTCTGTCCTCTCTACTTTGTTTCAGTTCAG
AAAGTCTTGTCCCTATCTTCCTTTCCCCCTTCGAAACCCCTTGTGCACGC
CCTGTGGCACATGACGCACTTACCTCCCTCCCTCCCTCCCTCCTTCCCGT
CCTCAAGCCCTCATCAATGCCATGCAGTACTCACGAGGGTATCGGAAAGA
CTACAGGGACTGGAATGAATGGTGGCGGATAGAGGACATTGAAGAGTAAG
GGAGGGAGGGAGGGAGGAATGGTGGGGGATAGAGGACAGATGAGTAAGAA
GGGAGGGAGGGAGGGAGAGAGCGAGTGAAGGGAGAAAGTGAAGACAGAAG
CTTGTGGCTCTACTGTGCGATTTGTGCTCATCTTCCTCCCCTCCCCTTTA
CTCACTCTCTCCCTTTTTGATTTTTTTCTGTCAAGGAGCTACGAGTACGT
GGAGCAGAAGCTGAGGGCGGCCGGAGCTCTCACAGAGGGAAGTTCCAGCC
TTGTCCGCGAGGCCTTCGAACAGGTCAGGAGAGAGAGAGGGAGGGAGGAA
GGCCGGTCCTCCACCATTCACATTCTGACAATATAATCCCTTTCTTACAC
GGCCAGGCTGCGGCACAGATAGGGCTGACAGTCTTGCCCCCTGCCTCCTC
CTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCCCTCCCTCCCCCT
CCCCCTACTACCTCACCCCAGACGCCTACGCGCCCATGTGCTACCTCGCT
CGGATTGACAAACATCAAAATAAGAGGTTCACTCGAGTGTCGCCCTTCGA
GGTGGGTTGGGGCAGTAGGAGACTCCCCTCCCTTCCTCCGTCCTTCCCTC
CCTCTCTCCTTCCCTTCATTTGATGCCCGTGTGCTTTCTAGCGCTGCACT
CATGCCCTCCCTCCCTCCCTCCCTTCCTCCTTCCTCCCCTCCCTAGGCCC
TCCTGCAACCCCTCCTTGATGCGAAGAGGGCCCCTAATCTTTCTTTTCTC
TTCCAGGCTCAGGCCACTCGCGTCTTGTTCACCCACGGGGGGAAAGGCCG
GCGGCTGCCACGGGCGGTGAGGAGGAGGGAGGAAAAGGAGGGTGTTCTGG
CATGCATGATGTCATGAGAAAAGGGGGGGTAGGGAGGAGGGAGAGGAGAG
GGAGGAGAGGGAGGAGGGAGAGAAGGGAGAGGAAAGGGAGGAGAGGGAGG
AGAGGGAGGAGAGGGAGGAGAGGGAGGAGGGAGAGGAGAGGGAGGAGAGG
AGAGGGAGGAGAGGGAGGAGAGGGAGGAGGGGGCCGGGGGCTGACGCTAA
CTCCTTTCCATACGCCTGCATGATTATAGGCGGGCATCGAGTACATGGAT
TCGGCCACGGGCCAGACAAGTGTGCTGCTGCTGGACGAGGCGGACGACGA
GGCGGAGGTTGGTGGCCTTGTGGGAAGGAGGGAGGGGGGGAGGGGGGGAT
GGAGGAAGGGGAGCAAGGCCGAAGTGTCTCAGCGAGCACGGGCGGACAGA
AAGAGGCCTTCTCATCTCCCTTCCCTCCCTCCCTCCCTCCCGCCCTCCCG
CCCTCCCTCCCTGCTCCAGGTCATTCTGTGTTGCGGCGCCATCGACACTC
CTAGACTTCTCCTCCTTTCCGGCATCGGCGACCCCGAGCACCTCACGTAC
GTCTCCCTCCCTCCCTCCCTCCCTCCCTTCCCTCCTCCCTCCCTTCCTCC
CTCCTTGCTTTATACGCCCTCTGCTGTCCTTCTTCCTCTTCCCTCGTTCA
TCCGCACTCTACCTCCCTTCCTTCCCTCCCTCCCTCCCTCCCCACATCTT
CTATTCCCTATTTTCCCCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTC
CCTCCCTCCCTCAGGGCCCTCGGCATCCCCGTGGTGGCTTCTCTCCCCAG
CGTGGGCCAGGGACTGCAAGACCATCTCCTCGCCCCCCGGGCCTGCTTCA
GTCGGTACGCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCC
CTCCCTCTCTCCCTCCCTCCCTCCCTCCCTCCCTCCCATCCTCCCTCCCT
CCCTCCCTCCCTCCCTCCCTCCTTTCCTTCCTCTTTCCCTTCTTTCTCCT
CTCCTTCCCATAGCCACTCCGAGGCAAAGCAATGCGGCTAATCTTGATTT
ATACTCTCTCCCTCCTTCTCTCCCTTCCTTCTTCCTTCCCTCCCTCCCTC
CAGCCCTCCCGCGGGTCAGAGGCAGCAGCTGGCCCCCAACTCGATGTACG
GATGGGTGAATGTCATTCGTAAGGGAAGCCTGGAGGAAAAGGAGGAGATC
AGGTAGGAAGGGAGGGAGGGAGAAAGAGAGAGAGGGAGGGAGGGAGGGAG
GGAGGGAGAGTATGGATAAGAAACGAAAATGAGGGCTTGGCCTTTGAACT
ATTGCCACACAGCCCTCCCTCCCTCCCTCACTCCCTCCCTTCCTCCCTCT
GTATCTTCTCACCGACCCGCTCTTCCTCTTTCCCTCCCTCCCTCTCCTTC
CGTTGGCATGTAGGACCTAACGCCCCTCTCTTCCTCCCTCCCTCTCTTCC
TCCCTCCCAGGATTTCCCTCATGACCAGCGACATGTCAGTCACACCCGAC
CTTCTACCGCAGATTGCCGTCCCCCTGTAAGAAGGGAGGGAGGGAGGGAG
GGAGGGACAGAGAGAGGGAGAGCAGCGACTCTATGTCTTTTTGTCCTTTT
GTTTTCCCTTCTTTCCCTCCCTCTGTCCCCTCCCTCCCTCCCTCCCTCCC
TCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTC
CCTCCCTCCCTCCCTCCCTCCCACACCCACAGGTATCCCGGCCTATGGTA
CGGCCTCCTCCGCGCTTGCCTCACCGCCTGCCTTTCCCTCCTCTGCCTGC
TCCCCTTCGTCCGGTAAGGGTCAATCCCCTCCCTCCTTTCCTCCTTCCCT
CCTTCCCCTCTCCCCCGCTACCTCCCATCCGTCCGTCCCTCCCTCCCTCC
CTCCCTGCAGCTGGCTCACCCGCCAATTTCTAGGCTGCATGATTTGCATC
ATGAATCCTCTTAGTCAGGGATGTGTGCGTCTCGCCTCCGCCGACCCGGC
TGTCCCTCCGCTTGTCGGTAAGGAGGGAGGGAGGGAGGGAGGGAGGGAGG
GAAGAGAAGGACTGCGTGGTTTTGGGCGTCTTCCTTCCTTTTCCTCTTCC
TCTTGCATTGTGTAGGATAGTGTCTCTTCTGTATACCTGCCTAGGATAAC
TCTATTCTGTATCACCTTCCTCCCTCCTCCCCTCCCTCCCTTTCTCCCTT
CCTCAACCCCCTTCCTCTCCCTTCGCCGGCGTGCATACCTCATGCCAAAA
TCCCTCACACCTCCTCTGCTCCCTCCCTCCCTCCCTCCTTCCCTCCCTCC
CTGCCTCCCTTCCTCCCTTTCTAGACCCCGCCTACCTCTCCCATCCCCAA
GACGTCGAGGCGCTCCATCAGGGCCTCAAGCTGGCGGGTGATCTCCTTCA
GACAGAGGTGCGTATTTCTTCAAGGGAGGGAGGAAGGGAGGGAGATGATG
AGTATATCCTCCCGCCTCGTCTCTTTTTGTCCTGCTCTCAACGGCCCAAC
GGCTGCCCCGACCGTTTCCCTACTCTCCCCTTCCTCTCCCAGCCTCTCGC
CCCCTTCCTCGGCCAAGAGATGCTTCCTGGTCGTCTTTTCAACCACAACA
CCTCCCTCACCGACGCTCTAAATTATGGGAAGATCTTCGCGGGCTCCTAC
TACCACCCCGCGTGCTCCTGTCGCTTGGGAAAGGTAAATCCCTCCCCTTT
ATCCCCTCCTCCTCACCCTCGGTATGGTGTCATTCCTCCAACCACCTTCT
CCTTTATTTCGCCTGCCTTCCCTTCCTCACTCCTTTCCTCTCCCCCTCCC
CCCCTCCTTCCTCAGGTAGTAAACAAGGATCTGCGCGTCTTTCACGTGTC
GGGCTTGAGGGTGGCGGACGCCTCCATCCTTCCACGATTGGGCAGTGCGG
GGCCTCTCGGTGAGTGAGAGGAGGGGGGAGGAAGAAGGGAGAAGAGAGAG
GGGAGACGAGGCGGAGCAAGAGAGCGTATGGAGACCTACCTGCCTTGGGA
CGCGCATGATGATCATTCTTATGGCCTTTCCTCCTTTCCCCCCCTCCTCC
ATTGCCAGCGGCCTGCATGATGATCGGGGATAGGGCCGGGCGAATCATCT
TGGGGTCGAGGGGAAGAGGGGAAGAAGTGAAGGAGGGGAGGGATGCAAGG
AAGGGGAGGGACGAAGGAGACGACGAGAGGGAGGGCGGGAAGGAGGGAGG
GGACGTGCAGCGGGGTTTAAGTCATGGCAAGAAGAAGCGCGAGTAGACCA
TAAATGAAACTTCCAGTAAAGAGGATGAAGGGACAGCGTCATGACAGTGC
TCGGTGGGCTACTTTGATTACAATACTTCATTTTTACACCCCTCTTTGAA
TAATATGTTTGTTCGATTACGTCGCTTCAGTTCTCAATATTACGTAATAT
TAGTTATGTATGTATTTATTCGAGTACATAACTTCATTTTTTCATATTTA
TTAGATTATGTTGCTCCATTTTTCAATAGTATGTGTCATTACTTCACAAT
TCCGACGCTGGCTTTCTCTCGCTTTCGCTAGGAAGGACGCAGTCCCCTCC
TCCTCCTTTACCTCCTCCCCC
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Coding sequence (CDS) from alignment at chr29:45420..51390-

>NO29G00120.3 ID=NO29G00120.3|Name=NO29G00120.3|organism=Nannochloropsis oceanica|type=CDS|length=2181bp|location=Sequence derived from alignment at chr29:45420..51390- (Nannochloropsis oceanica)
ATGCACACGTATACAGGCGCGCAGGGGGCAAATCAACAGCCTAGCGCATT
CAGCCTCAGTCCTCATTCTCCATTTCTGCAGCACCCAAGTCGCGTAAACC
AAGATCGCAAGCCAAGCCTAGCCGAGAATCCCATCGCTCGCATCATGATG
GTCGAACCTCCTGCCTCCTCTTTCCCCTCTGCCGCAGCTTCCAAACCCAA
GTATATAATCGTCGGCGCAGGGCCTGCAGGCTGTGCCTTGGCAGCCGCCC
TCGTGAAAGGTCAGAAAGGGATGGTGGTAATGCTGGAGCGTGGCAAGGAA
GAGCTGCAAGGCCGGTTCGTCCACAAGGTCAACGACTGGGTTAAGGCTTC
CCTCCGCTCCTGGCATGCTGTGCACTATCTCACTGTCCCTCACGCCCACC
TGAACAACCGGCAATTTGTTACCCCACGCGGACAAGGCAAAGGGGGCACC
GCCCTCATCAATGCCATGCAGTACTCACGAGGGTATCGGAAAGACTACAG
GGACTGGAATGAATGGTGGCGGATAGAGGACATTGAAGAGAGCTACGAGT
ACGTGGAGCAGAAGCTGAGGGCGGCCGGAGCTCTCACAGAGGGAAGTTCC
AGCCTTGTCCGCGAGGCCTTCGAACAGGCTGCGGCACAGATAGGGCTGAC
AGTCTTGCCCCCTGCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCT
CCTCCTCCCCTCCCTCCCCCTCCCCCTACTACCTCACCCCAGACGCCTAC
GCGCCCATGTGCTACCTCGCTCGGATTGACAAACATCAAAATAAGAGGTT
CACTCGAGTGTCGCCCTTCGAGGCCCTCCTGCAACCCCTCCTTGATGCGA
AGAGGGCCCCTAATCTTTCTTTTCTCTTCCAGGCTCAGGCCACTCGCGTC
TTGTTCACCCACGGGGGGAAAGGCCGGCGGCTGCCACGGGCGGCGGGCAT
CGAGTACATGGATTCGGCCACGGGCCAGACAAGTGTGCTGCTGCTGGACG
AGGCGGACGACGAGGCGGAGGTCATTCTGTGTTGCGGCGCCATCGACACT
CCTAGACTTCTCCTCCTTTCCGGCATCGGCGACCCCGAGCACCTCACGGC
CCTCGGCATCCCCGTGGTGGCTTCTCTCCCCAGCGTGGGCCAGGGACTGC
AAGACCATCTCCTCGCCCCCCGGGCCTGCTTCAGTCGCCCTCCCGCGGGT
CAGAGGCAGCAGCTGGCCCCCAACTCGATGTACGGATGGGTGAATGTCAT
TCGTAAGGGAAGCCTGGAGGAAAAGGAGGAGATCAGGATTTCCCTCATGA
CCAGCGACATGTCAGTCACACCCGACCTTCTACCGCAGATTGCCGTCCCC
CTGTATCCCGGCCTATGGTACGGCCTCCTCCGCGCTTGCCTCACCGCCTG
CCTTTCCCTCCTCTGCCTGCTCCCCTTCGTCCGCTGGCTCACCCGCCAAT
TTCTAGGCTGCATGATTTGCATCATGAATCCTCTTAGTCAGGGATGTGTG
CGTCTCGCCTCCGCCGACCCGGCTGTCCCTCCGCTTGTCGACCCCGCCTA
CCTCTCCCATCCCCAAGACGTCGAGGCGCTCCATCAGGGCCTCAAGCTGG
CGGGTGATCTCCTTCAGACAGAGGTGCGTATTTCTTCAAGGGAGGGAGGA
AGGGAGGGAGATGATGAGTATATCCTCCCGCCTCGTCTCTTTTTGTCCTG
CTCTCAACGGCCCAACGGCTGCCCCGACCGTTTCCCTACTCTCCCCTTCC
TCTCCCAGCCTCTCGCCCCCTTCCTCGGCCAAGAGATGCTTCCTGGTCGT
CTTTTCAACCACAACACCTCCCTCACCGACGCTCTAAATTATGGGAAGAT
CTTCGCGGGCTCCTACTACCACCCCGCGTGCTCCTGTCGCTTGGGAAAGG
TAGTAAACAAGGATCTGCGCGTCTTTCACGTGTCGGGCTTGAGGGTGGCG
GACGCCTCCATCCTTCCACGATTGGGCAGTGCGGGGCCTCTCGCGGCCTG
CATGATGATCGGGGATAGGGCCGGGCGAATCATCTTGGGGTCGAGGGGAA
GAGGGGAAGAAGTGAAGGAGGGGAGGGATGCAAGGAAGGGGAGGGACGAA
GGAGACGACGAGAGGGAGGGCGGGAAGGAGGGAGGGGACGTGCAGCGGGG
TTTAAGTCATGGCAAGAAGAAGCGCGAGTAG
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Synonyms
Publications