jgi.p|Nanoce1779_2|560665, mRNA_9551 (mRNA) Nannochloropsis oceanica

Overview
Namejgi.p|Nanoce1779_2|560665
Unique NamemRNA_9551
TypemRNA
OrganismNannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length2298
Alignment locationscaffold_44:69047..71722 +

Link to JBrowse

Properties
Property NameValue
TranscriptId560751
TrackFilteredModels2
ProteinId560665
Mutants
Expression
No biomaterial libraries express this feature.
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_44supercontigscaffold_44:69047..71722 +
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|560665gene_9551Nannochloropsis oceanica (N. oceanica CCMP1779)gene


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

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|560665mRNA_9551-proteinNannochloropsis oceanica (N. oceanica CCMP1779)polypeptide


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

Feature NameUnique NameSpeciesType
CDS_9551CDS_9551Nannochloropsis oceanica (N. oceanica CCMP1779)CDS


Sequences
The following sequences are available for this feature:

mRNA sequence

>mRNA_9551 ID=mRNA_9551|Name=jgi.p|Nanoce1779_2|560665|organism=Nannochloropsis oceanica|type=mRNA|length=2298bp
AACAAAAGCACACGCCTACGAATCACAGCATCATGAGCAAGCGCCAGCGA
GAGGACGGGCAGCTCAGCAAGGAGGCTTACTACGAAGAAGCTGAGTACCC
CTATGGTTCCTCTTACTCGTCCTCTGCTTCCCTGTACTCTCGTGGAGGGG
GGATGGTCGGGTTGGGGGGCAGCACTGCTGCTGCTGGCGGTGGTAGTGGT
GGCGGTGGTAGCATGGTGACAGCCGCATCACCGCCGCCACACTCGATGTC
CTCGTCTTTGTCCTTTCAACGGGCCACGCCCTCCACCTTGGCGTCCCGGC
GACTGGTCAAGCCCAAGAAGCTTGATCGCCGCAAGGAGTACCTGGAGGCA
GTCAAAGCCCTAAACCAGCGTTTCCACGCCTGGGTTGTGGACCAGGTGAA
ACATAACCCTGGGGTCAGCTTGGCCGAGAACGCGTTAGAGTACTTGAGCT
ACGTAAGCCAGCTTGACACCCGGTACCTGCGCAAGCAAGGAGAGGTTTTT
ACGTTCGGCTCCAGCGAATGTGGCCAGTGTGCGCACGGAGACCGCTCCGC
CTCGGACATCCTGGTCGTGAACCCCAGGGTCGTCTACTCCCTGCGCGGGA
AAAACGTGTGCAACATCGCATGTGGCGCCCTGCACAATGTGGCGGCTACG
TCCGACGGCCGTGTCTACACGTGGGGATGTAATGACGATGGCGCCGTGGG
TCGGGAGGGGAATGAAGCATTCCCTATGCTTGTCCCGGATATCCGGCATG
AGACTGTGATTGGTGTGGCCGCTGGGGATAGCCATTCGTTGGTGATGACT
TTGGAGGGGAGTGTGTACGGGTGGGGCTGCTATAAAGACAAGGAGGGCAA
AATGTTCTTCAACAGCGCCACGTCTGAGCGAGAGATTTTGAGGAAGCAAG
AGCGGCCCATGCTTTTGCCTGGGTTGGAAAGGGTACGTGAGATCAGGTCG
GGCGTCTCGAGCAATTTGGCGCTCTTGGCGGACTCGACGGTTCTGTCTTG
GGGGATAGGGGAAAGTGGAGAGCTAGGGAGGGCTATCAACCTGGAACTGC
GGGAGAATGCGGAGGACGTGGAGGAGGGAGAGAAACCAGAGTATGAGCTT
TATCGGATTTGGAAGGAGCACTTGACCCCACGGCCGATGCAGGTGGAGGG
GGGTGGATATCTAGCGGGGGTGAAGGCGATCGGGGCGGGCTATAACCACA
GCATGGTGGTTATGGCCGTGAACGCCGAAGTCTGGTCAACGGGTTTGAAC
AATTATGGACAGCTGGGATTGGGGCACCAGACGAATCAGAAGCTGTTGCA
GCACGTGGAGGCGTTGGACGGCAAGGGGATCACGGAAGTGACGGGTGGGG
CGCATTATTCCATGGCCCTGAGTGGACCGACAGGGAAGCTCTTTGCGTTT
GGACGCTCTGACTCGTCCCAGTTGGGGATAGGGCGGGAAGGAGGAGTCCT
GAGTGCCGGGGCGTCGGAGTCCTTGCCAGTGCCGGTCCAATTTCCTGCTG
TAGAAGCCAAAACGGGCAAGGTGCCGTTTGTGACGGCGGTTTCTTGCGGA
GGTACGTTTAATTTGGCCGTCACTGCGAGCAACCAGGTGTATACGTGGGG
CTTTGGTGAGATGGGGCAATTGGGTCACCGTCCGGCCAAGGGGGAGGAGG
CAGTGGACGAACCTGTTCCGCGGCCGATTGATTTTTCTCAAGCGGCGGGG
GGGGGAGTGGGGGGAGGGGGAGGTTTTGAGGTGCTCAAGGTGGATGGAGG
CGCGCAGCATAGCGTGGTGTTGGCGAGGGTGCCAGTGGCGTATCTGGAGG
AGGTAAAGCGAAAGTTGGACGAGGCAGACGCCAAGTATAATAAAAAAATG
GAGGAGAAAAGGAGGGTGGCGCAGCGTCAGGGACAAGGAGAGGAGGAGGA
AGGGGACGATTTGGAATTCGATGATTTGTGAAAGAACCAATGAAAAGAAA
ATGATTTGAGGACGCCGTCTTCTCTAGATTCTCTCCTCCTTGCTTGCTAC
GTCAAGGAGCGTCCGGGATCGGGTGCCCGTCCATCAAGCGGATCAAACAC
TCGGAACGGTCACGAAACAAAATGAAATCGTTTCATTCATGGTGATGACC
TCGCTTGTACACCATCGGCATCTCCGAAAGCTTAGTGGCCCTGTAGCATT
TGTATGAACGCTGAACTCGAATTGGCCCATGGGCTCGCGAATGGACTGCT
TTAAATGGAGAAAAAGGAGGTGGAGGAGGAGGAGGAGGAGGAGGATAACA
AGGAGGATGAGGAAAGAGATGGGTGGCTAGGGTAAAGGATGTGGAGGA
back to top

protein sequence of jgi.p|Nanoce1779_2|560665

>mRNA_9551-protein ID=mRNA_9551-protein|Name=jgi.p|Nanoce1779_2|560665|organism=Nannochloropsis oceanica|type=polypeptide|length=633bp
MSKRQREDGQLSKEAYYEEAEYPYGSSYSSSASLYSRGGGMVGLGGSTAA
AGGGSGGGGSMVTAASPPPHSMSSSLSFQRATPSTLASRRLVKPKKLDRR
KEYLEAVKALNQRFHAWVVDQVKHNPGVSLAENALEYLSYVSQLDTRYLR
KQGEVFTFGSSECGQCAHGDRSASDILVVNPRVVYSLRGKNVCNIACGAL
HNVAATSDGRVYTWGCNDDGAVGREGNEAFPMLVPDIRHETVIGVAAGDS
HSLVMTLEGSVYGWGCYKDKEGKMFFNSATSEREILRKQERPMLLPGLER
VREIRSGVSSNLALLADSTVLSWGIGESGELGRAINLELRENAEDVEEGE
KPEYELYRIWKEHLTPRPMQVEGGGYLAGVKAIGAGYNHSMVVMAVNAEV
WSTGLNNYGQLGLGHQTNQKLLQHVEALDGKGITEVTGGAHYSMALSGPT
GKLFAFGRSDSSQLGIGREGGVLSAGASESLPVPVQFPAVEAKTGKVPFV
TAVSCGGTFNLAVTASNQVYTWGFGEMGQLGHRPAKGEEAVDEPVPRPID
FSQAAGGGVGGGGGFEVLKVDGGAQHSVVLARVPVAYLEEVKRKLDEADA
KYNKKMEEKRRVAQRQGQGEEEEGDDLEFDDL*
back to top

mRNA from alignment at scaffold_44:69047..71722+

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_9551 ID=mRNA_9551|Name=jgi.p|Nanoce1779_2|560665|organism=Nannochloropsis oceanica|type=mRNA|length=2676bp|location=Sequence derived from alignment at scaffold_44:69047..71722+ (Nannochloropsis oceanica)
AACAAAAGCACACGCCTACGAATCACAGCATCATGAGCAAGCGCCAGCGA
GAGGACGGGCAGCTCAGCAAGGAGGCTTACTACGAAGAAGCTGAGTACCC
CTATGGTTCCTCTTACTCGTCCTCTGCTTCCCTGTACTCTCGTGGAGGGG
GGATGGTCGGGTTGGGGGGCAGCACTGCTGCTGCTGGCGGTGGTAGTGGT
GGCGGTGGTAGCATGGTGACAGCCGCATCACCGCCGCCACACTCGATGTC
CTCGTCTTTGTCCTTTCAACGGGCCACGCCCTCCACCTTGGCGTCCCGGC
GACTGGTCAAGCCCAAGAAGCTTGATCGCCGCAAGGAGTACCTGGTACGC
CCGTTTTGTTTGGCTCCATTTCTTCCAAGCTCGCTTTTCTTTGTCCAACT
GTGTGCACAGAAGCTAGACATTCCCACTCACTCCTCCACTGTGTGTCATT
AAAACATACAGGAGGCAGTCAAAGCCCTAAACCAGCGTTTCCACGCCTGG
GTTGTGGACCAGGTGAAACATAACCCTGGGGTCAGCTTGGCCGAGAACGC
GTTAGAGTACTTGAGCTACGTAAGCCAGCTTGACACCCGGTACCTGCGCA
AGCAAGGAGAGGTTTTTACGGTACGTGTGACAGGATCGGTGGTAGTCGGT
GGGCCGGGAGAGTGGTTGGTATGTGCTGTTGGCTTCGTGTCTTCTTCCTT
CTCTCTCTCCCTTCCTCTCTGCGTCGTCCACATTAATCTGCCCAAGTGCA
CCTTTCCTATCGTGGAAATCATATCGTTCACTTACTGTCAAGGAAGAATG
TGAAGAGTGTAATTCACCCTCTCTCACACCGTCTCTTCCCCCTCCCTTCT
TCCCTCCCTCCCTCCCTCCCTCTCCTTTTAGTTCGGCTCCAGCGAATGTG
GCCAGTGTGCGCACGGAGACCGCTCCGCCTCGGACATCCTGGTCGTGAAC
CCCAGGGTCGTCTACTCCCTGCGCGGGAAAAACGTGTGCAACATCGCATG
TGGCGCCCTGCACAATGTGGCGGCTACGTCCGACGGCCGTGTCTACACGT
GGGGATGTAATGACGATGGCGCCGTGGGTCGGGAGGGGAATGAAGCATTC
CCTATGCTTGTCCCGGATATCCGGCATGAGACTGTGATTGGTGTGGCCGC
TGGGGATAGCCATTCGTTGGTGATGACTTTGGAGGGGAGTGTGTACGGGT
GGGGCTGCTATAAAGACAAGGAGGGCAAAATGTTCTTCAACAGCGCCACG
TCTGAGCGAGAGATTTTGAGGAAGCAAGAGCGGCCCATGCTTTTGCCTGG
GTTGGAAAGGGTACGTGAGATCAGGTCGGGCGTCTCGAGCAATTTGGCGC
TCTTGGCGGACTCGACGGTTCTGTCTTGGGGGATAGGGGAAAGTGGAGAG
CTAGGGAGGGCTATCAACCTGGAACTGCGGGAGAATGCGGAGGACGTGGA
GGAGGGAGAGAAACCAGAGTATGAGCTTTATCGGATTTGGAAGGAGCACT
TGACCCCACGGCCGATGCAGGTGGAGGGGGGTGGATATCTAGCGGGGGTG
AAGGCGATCGGGGCGGGCTATAACCACAGCATGGTGGTTATGGCCGTGAA
CGCCGAAGTCTGGTCAACGGGTTTGAACAATTATGGACAGCTGGGATTGG
GGCACCAGACGAATCAGAAGCTGTTGCAGCACGTGGAGGCGTTGGACGGC
AAGGGGATCACGGAAGTGACGGGTGGGGCGCATTATTCCATGGCCCTGAG
TGGACCGACAGGGAAGCTCTTTGCGTTTGGACGCTCTGACTCGTCCCAGT
TGGGGATAGGGCGGGAAGGAGGAGTCCTGAGTGCCGGGGCGTCGGAGTCC
TTGCCAGTGCCGGTCCAATTTCCTGCTGTAGAAGCCAAAACGGGCAAGGT
GCCGTTTGTGACGGCGGTTTCTTGCGGAGGTACGTTTAATTTGGCCGTCA
CTGCGAGCAACCAGGTGTATACGTGGGGCTTTGGTGAGATGGGGCAATTG
GGTCACCGTCCGGCCAAGGGGGAGGAGGCAGTGGACGAACCTGTTCCGCG
GCCGATTGATTTTTCTCAAGCGGCGGGGGGGGGAGTGGGGGGAGGGGGAG
GTTTTGAGGTGCTCAAGGTGGATGGAGGCGCGCAGCATAGCGTGGTGTTG
GCGAGGGTGCCAGTGGCGTATCTGGAGGAGGTAAAGCGAAAGTTGGACGA
GGCAGACGCCAAGTATAATAAAAAAATGGAGGAGAAAAGGAGGGTGGCGC
AGCGTCAGGGACAAGGAGAGGAGGAGGAAGGGGACGATTTGGAATTCGAT
GATTTGTGAAAGAACCAATGAAAAGAAAATGATTTGAGGACGCCGTCTTC
TCTAGATTCTCTCCTCCTTGCTTGCTACGTCAAGGAGCGTCCGGGATCGG
GTGCCCGTCCATCAAGCGGATCAAACACTCGGAACGGTCACGAAACAAAA
TGAAATCGTTTCATTCATGGTGATGACCTCGCTTGTACACCATCGGCATC
TCCGAAAGCTTAGTGGCCCTGTAGCATTTGTATGAACGCTGAACTCGAAT
TGGCCCATGGGCTCGCGAATGGACTGCTTTAAATGGAGAAAAAGGAGGTG
GAGGAGGAGGAGGAGGAGGAGGATAACAAGGAGGATGAGGAAAGAGATGG
GTGGCTAGGGTAAAGGATGTGGAGGA
back to top

Coding sequence (CDS) from alignment at scaffold_44:69047..71722+

>mRNA_9551 ID=mRNA_9551|Name=jgi.p|Nanoce1779_2|560665|organism=Nannochloropsis oceanica|type=CDS|length=5697bp|location=Sequence derived from alignment at scaffold_44:69047..71722+ (Nannochloropsis oceanica)
ATGAGCAAGCGCCAGCGAGAGGACGGGCAGCTCAGCAAGGAGGCTTACTA
CGAAGAAGCTGAGTACCCCTATGGTTCCTCTTACTCGTCCTCTGCTTCCC
TGTACTCTCGTGGAGGGGGGATGGTCGGGTTGGGGGGCAGCACTGCTGCT
GCTGGCGGTGGTAGTGGTGGCGGTGGTAGCATGGTGACAGCCGCATCACC
GCCGCCACACTCGATGTCCTCGTCTTTGTCCTTTCAACGGGCCACGCCCT
CCACCTTGGCGTCCCGGCGACTGGTCAAGCCCAAGAAGCTTGATCGCCGC
AAGGAGTACCTGGAGGCAGTCAAAGCCCTAAACCAGCGTTTCCACGCCTG
GGTTGTGGACCAGGTGAAACATAACCCTGGGGTCAGCTTGGCCGAGAACG
CGTTAGAGTACTTGAGCTACGTAAGCCAGCTTGACACCCGGTACCTGCGC
AAGCAAGGAGAGGTTTTTACGTTCGGCTCCAGCGAATGTGGCCAGTGTGC
GCACGGAGACCGCTCCGCCTCGGACATCCTGGTCGTGAACCCCAGGGTCG
TCTACTCCCTGCGCGGGAAAAACGTGTGCAACATCGCATGTGGCGCCCTG
CACAATGTGGCGGCTACGTCCGACGGCCGTGTCTACACGTGGGGATGTAA
TGACGATGGCGCCGTGGGTCGGGAGGGGAATGAAGCATTCCCTATGCTTG
TCCCGGATATCCGGCATGAGACTGTGATTGGTGTGGCCGCTGGGGATAGC
CATTCGTTGGTGATGACTTTGGAGGGGAGTGTGTACGGGTGGGGCTGCTA
TAAAGACAAGGAGGGCAAAATGTTCTTCAACAGCGCCACGTCTGAGCGAG
AGATTTTGAGGAAGCAAGAGCGGCCCATGCTTTTGCCTGGGTTGGAAAGG
GTACGTGAGATCAGGTCGGGCGTCTCGAGCAATTTGGCGCTCTTGGCGGA
CTCGACGGTTCTGTCTTGGGGGATAGGGGAAAGTGGAGAGCTAGGGAGGG
CTATCAACCTGGAACTGCGGGAGAATGCGGAGGACGTGGAGGAGGGAGAG
AAACCAGAGTATGAGCTTTATCGGATTTGGAAGGAGCACTTGACCCCACG
GCCGATGCAGGTGGAGGGGGGTGGATATCTAGCGGGGGTGAAGGCGATCG
GGGCGGGCTATAACCACAGCATGGTGGTTATGGCCGTGAACGCCGAAGTC
TGGTCAACGGGTTTGAACAATTATGGACAGCTGGGATTGGGGCACCAGAC
GAATCAGAAGCTGTTGCAGCACGTGGAGGCGTTGGACGGCAAGGGGATCA
CGGAAGTGACGGGTGGGGCGCATTATTCCATGGCCCTGAGTGGACCGACA
GGGAAGCTCTTTGCGTTTGGACGCTCTGACTCGTCCCAGTTGGGGATAGG
GCGGGAAGGAGGAGTCCTGAGTGCCGGGGCGTCGGAGTCCTTGCCAGTGC
CGGTCCAATTTCCTGCTGTAGAAGCCAAAACGGGCAAGGTGCCGTTTGTG
ACGGCGGTTTCTTGCGGAGGTACGTTTAATTTGGCCGTCACTGCGAGCAA
CCAGGTGTATACGTGGGGCTTTGGTGAGATGGGGCAATTGGGTCACCGTC
CGGCCAAGGGGGAGGAGGCAGTGGACGAACCTGTTCCGCGGCCGATTGAT
TTTTCTCAAGCGGCGGGGGGGGGAGTGGGGGGAGGGGGAGGTTTTGAGGT
GCTCAAGGTGGATGGAGGCGCGCAGCATAGCGTGGTGTTGGCGAGGGTGC
CAGTGGCGTATCTGGAGGAGGTAAAGCGAAAGTTGGACGAGGCAGACGCC
AAGTATAATAAAAAAATGGAGGAGAAAAGGAGGGTGGCGCAGCGTCAGGG
ACAAGGAGAGGAGGAGGAAGGGGACGATTTGGAATTCGATGATTTGTGAA
TGAGCAAGCGCCAGCGAGAGGACGGGCAGCTCAGCAAGGAGGCTTACTAC
GAAGAAGCTGAGTACCCCTATGGTTCCTCTTACTCGTCCTCTGCTTCCCT
GTACTCTCGTGGAGGGGGGATGGTCGGGTTGGGGGGCAGCACTGCTGCTG
CTGGCGGTGGTAGTGGTGGCGGTGGTAGCATGGTGACAGCCGCATCACCG
CCGCCACACTCGATGTCCTCGTCTTTGTCCTTTCAACGGGCCACGCCCTC
CACCTTGGCGTCCCGGCGACTGGTCAAGCCCAAGAAGCTTGATCGCCGCA
AGGAGTACCTGGAGGCAGTCAAAGCCCTAAACCAGCGTTTCCACGCCTGG
GTTGTGGACCAGGTGAAACATAACCCTGGGGTCAGCTTGGCCGAGAACGC
GTTAGAGTACTTGAGCTACGTAAGCCAGCTTGACACCCGGTACCTGCGCA
AGCAAGGAGAGGTTTTTACGTTCGGCTCCAGCGAATGTGGCCAGTGTGCG
CACGGAGACCGCTCCGCCTCGGACATCCTGGTCGTGAACCCCAGGGTCGT
CTACTCCCTGCGCGGGAAAAACGTGTGCAACATCGCATGTGGCGCCCTGC
ACAATGTGGCGGCTACGTCCGACGGCCGTGTCTACACGTGGGGATGTAAT
GACGATGGCGCCGTGGGTCGGGAGGGGAATGAAGCATTCCCTATGCTTGT
CCCGGATATCCGGCATGAGACTGTGATTGGTGTGGCCGCTGGGGATAGCC
ATTCGTTGGTGATGACTTTGGAGGGGAGTGTGTACGGGTGGGGCTGCTAT
AAAGACAAGGAGGGCAAAATGTTCTTCAACAGCGCCACGTCTGAGCGAGA
GATTTTGAGGAAGCAAGAGCGGCCCATGCTTTTGCCTGGGTTGGAAAGGG
TACGTGAGATCAGGTCGGGCGTCTCGAGCAATTTGGCGCTCTTGGCGGAC
TCGACGGTTCTGTCTTGGGGGATAGGGGAAAGTGGAGAGCTAGGGAGGGC
TATCAACCTGGAACTGCGGGAGAATGCGGAGGACGTGGAGGAGGGAGAGA
AACCAGAGTATGAGCTTTATCGGATTTGGAAGGAGCACTTGACCCCACGG
CCGATGCAGGTGGAGGGGGGTGGATATCTAGCGGGGGTGAAGGCGATCGG
GGCGGGCTATAACCACAGCATGGTGGTTATGGCCGTGAACGCCGAAGTCT
GGTCAACGGGTTTGAACAATTATGGACAGCTGGGATTGGGGCACCAGACG
AATCAGAAGCTGTTGCAGCACGTGGAGGCGTTGGACGGCAAGGGGATCAC
GGAAGTGACGGGTGGGGCGCATTATTCCATGGCCCTGAGTGGACCGACAG
GGAAGCTCTTTGCGTTTGGACGCTCTGACTCGTCCCAGTTGGGGATAGGG
CGGGAAGGAGGAGTCCTGAGTGCCGGGGCGTCGGAGTCCTTGCCAGTGCC
GGTCCAATTTCCTGCTGTAGAAGCCAAAACGGGCAAGGTGCCGTTTGTGA
CGGCGGTTTCTTGCGGAGGTACGTTTAATTTGGCCGTCACTGCGAGCAAC
CAGGTGTATACGTGGGGCTTTGGTGAGATGGGGCAATTGGGTCACCGTCC
GGCCAAGGGGGAGGAGGCAGTGGACGAACCTGTTCCGCGGCCGATTGATT
TTTCTCAAGCGGCGGGGGGGGGAGTGGGGGGAGGGGGAGGTTTTGAGGTG
CTCAAGGTGGATGGAGGCGCGCAGCATAGCGTGGTGTTGGCGAGGGTGCC
AGTGGCGTATCTGGAGGAGGTAAAGCGAAAGTTGGACGAGGCAGACGCCA
AGTATAATAAAAAAATGGAGGAGAAAAGGAGGGTGGCGCAGCGTCAGGGA
CAAGGAGAGGAGGAGGAAGGGGACGATTTGGAATTCGATGATTTGTGAAT
GAGCAAGCGCCAGCGAGAGGACGGGCAGCTCAGCAAGGAGGCTTACTACG
AAGAAGCTGAGTACCCCTATGGTTCCTCTTACTCGTCCTCTGCTTCCCTG
TACTCTCGTGGAGGGGGGATGGTCGGGTTGGGGGGCAGCACTGCTGCTGC
TGGCGGTGGTAGTGGTGGCGGTGGTAGCATGGTGACAGCCGCATCACCGC
CGCCACACTCGATGTCCTCGTCTTTGTCCTTTCAACGGGCCACGCCCTCC
ACCTTGGCGTCCCGGCGACTGGTCAAGCCCAAGAAGCTTGATCGCCGCAA
GGAGTACCTGGAGGCAGTCAAAGCCCTAAACCAGCGTTTCCACGCCTGGG
TTGTGGACCAGGTGAAACATAACCCTGGGGTCAGCTTGGCCGAGAACGCG
TTAGAGTACTTGAGCTACGTAAGCCAGCTTGACACCCGGTACCTGCGCAA
GCAAGGAGAGGTTTTTACGTTCGGCTCCAGCGAATGTGGCCAGTGTGCGC
ACGGAGACCGCTCCGCCTCGGACATCCTGGTCGTGAACCCCAGGGTCGTC
TACTCCCTGCGCGGGAAAAACGTGTGCAACATCGCATGTGGCGCCCTGCA
CAATGTGGCGGCTACGTCCGACGGCCGTGTCTACACGTGGGGATGTAATG
ACGATGGCGCCGTGGGTCGGGAGGGGAATGAAGCATTCCCTATGCTTGTC
CCGGATATCCGGCATGAGACTGTGATTGGTGTGGCCGCTGGGGATAGCCA
TTCGTTGGTGATGACTTTGGAGGGGAGTGTGTACGGGTGGGGCTGCTATA
AAGACAAGGAGGGCAAAATGTTCTTCAACAGCGCCACGTCTGAGCGAGAG
ATTTTGAGGAAGCAAGAGCGGCCCATGCTTTTGCCTGGGTTGGAAAGGGT
ACGTGAGATCAGGTCGGGCGTCTCGAGCAATTTGGCGCTCTTGGCGGACT
CGACGGTTCTGTCTTGGGGGATAGGGGAAAGTGGAGAGCTAGGGAGGGCT
ATCAACCTGGAACTGCGGGAGAATGCGGAGGACGTGGAGGAGGGAGAGAA
ACCAGAGTATGAGCTTTATCGGATTTGGAAGGAGCACTTGACCCCACGGC
CGATGCAGGTGGAGGGGGGTGGATATCTAGCGGGGGTGAAGGCGATCGGG
GCGGGCTATAACCACAGCATGGTGGTTATGGCCGTGAACGCCGAAGTCTG
GTCAACGGGTTTGAACAATTATGGACAGCTGGGATTGGGGCACCAGACGA
ATCAGAAGCTGTTGCAGCACGTGGAGGCGTTGGACGGCAAGGGGATCACG
GAAGTGACGGGTGGGGCGCATTATTCCATGGCCCTGAGTGGACCGACAGG
GAAGCTCTTTGCGTTTGGACGCTCTGACTCGTCCCAGTTGGGGATAGGGC
GGGAAGGAGGAGTCCTGAGTGCCGGGGCGTCGGAGTCCTTGCCAGTGCCG
GTCCAATTTCCTGCTGTAGAAGCCAAAACGGGCAAGGTGCCGTTTGTGAC
GGCGGTTTCTTGCGGAGGTACGTTTAATTTGGCCGTCACTGCGAGCAACC
AGGTGTATACGTGGGGCTTTGGTGAGATGGGGCAATTGGGTCACCGTCCG
GCCAAGGGGGAGGAGGCAGTGGACGAACCTGTTCCGCGGCCGATTGATTT
TTCTCAAGCGGCGGGGGGGGGAGTGGGGGGAGGGGGAGGTTTTGAGGTGC
TCAAGGTGGATGGAGGCGCGCAGCATAGCGTGGTGTTGGCGAGGGTGCCA
GTGGCGTATCTGGAGGAGGTAAAGCGAAAGTTGGACGAGGCAGACGCCAA
GTATAATAAAAAAATGGAGGAGAAAAGGAGGGTGGCGCAGCGTCAGGGAC
AAGGAGAGGAGGAGGAAGGGGACGATTTGGAATTCGATGATTTGTGA
back to top
Synonyms
Publications