jgi.p|Nanoce1779_2|5, mRNA_1218 (mRNA) Nannochloropsis oceanica

Overview
Namejgi.p|Nanoce1779_2|5
Unique NamemRNA_1218
TypemRNA
OrganismNannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length1768
Alignment locationscaffold_1:1..3604 -

Link to JBrowse

Properties
Property NameValue
TranscriptId91
TrackFilteredModels2
ProteinId5
Mutants
Expression
No biomaterial libraries express this feature.
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_1supercontigscaffold_1:1..3604 -
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|5gene_1218Nannochloropsis oceanica (N. oceanica CCMP1779)gene


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

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|5mRNA_1218-proteinNannochloropsis oceanica (N. oceanica CCMP1779)polypeptide


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

Feature NameUnique NameSpeciesType
CDS_1218CDS_1218Nannochloropsis oceanica (N. oceanica CCMP1779)CDS


Sequences
The following sequences are available for this feature:

mRNA sequence

>mRNA_1218 ID=mRNA_1218|Name=jgi.p|Nanoce1779_2|5|organism=Nannochloropsis oceanica|type=mRNA|length=1768bp
TACTGCTGCGCCAGGCCCGCGTGCAGAGCCGCACCAACGCACCGGCCATC
TTTTTATGTTTATCGGGCTTTGGGTGGTCGTGGGGTGGGGGGGGAGGGAG
GTAGTGTAGGGCTAGAAAAAGGACTGGCTGTGGGAAGGCGGATTGCTTAT
TGAACTTAATTTGAGGCCCCCTGTCTTGTTGTCCCCTTGCTTCCTTTGCA
GATGTGTGCGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAA
AGGCAAAATGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGC
GAGCGCCACTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTC
TTCCTCACACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAA
TGCATAGGCGCGCCTCAATTTTGGCCCTGCGACCAGAGCACAACGCCATG
GCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAGGCCGGGACGGA
CAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGAAGAGACTGCCA
CTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGATCGAAGTCATC
GTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCACTACAACCGCGTGGC
CAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCTGGGCACGACATGGC
GGGGTCGGATCGATGTGGTTAACTCGTTCGCAGTGCCGTTCGAGGAGGAC
CTGAAGAATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGCAT
GTTCCATATGTCCAAGAAGATAAACGCAAAGGAGCGCATCGTGGGCTTCT
ACAGCACCGGGCCCAAGATCAAGGAGAACGACCTACAGATCGACGAGCTC
TTCCGACGGTTCTGCTCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCC
GGGGGTGGAAGGGATTCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGG
AGGGGGACGGCAAGGAGATTCAACGCACGTTCGAGCATATCCCGTCCTCT
GTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGA
TATCAACGATCCCTCCGTCTCCACCCTCGCCAACCAAGTGAAGCATAAGC
TGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGGAAATGCAGACGTAC
CTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAACAACCAAATCATTTA
CAACATGCAGACCATATTCAACCTCTTGCCGAACCTTAACGTGGGAGAGC
TCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCATTTCATCATCTAC
CTCTCCTCGCTCATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAA
CAAGATCGATTTCTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGA
AGAAGGAGAAAGAAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAG
AAGGGAAAGGAGGGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGG
CGCATGGCGGGAAGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGA
GGAGACGACAAGGGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGA
GGGATAAAGAGGGGAAAAGAAAAGTAAGAGACAAAGTTGAGAGGGGAGGG
AGGAGGGAGGGAGGAGTAAGAGGGCGAGGAAATTAGGAAAAAAAAAAGGC
TGAACAAGAAACAGGAAG
back to top

protein sequence of jgi.p|Nanoce1779_2|5

>mRNA_1218-protein ID=mRNA_1218-protein|Name=jgi.p|Nanoce1779_2|5|organism=Nannochloropsis oceanica|type=polypeptide|length=492bp
MCAGACGERGMVWFWGKAKCHMRQTTDRHQRHRERHCLAQFLKTSFRPHS
SSHLQAQPSPLPCARTMHRRASILALRPEHNAMAPMDVEKEKDKTKAGTD
KGKKDGDKKKSEEETATSILTTGQLAADEIEVIVHPLVLLSTVDHYNRVA
KDTRKRVVGVLLGTTWRGRIDVVNSFAVPFEEDLKNPLIWYLDHNYLESM
FHMSKKINAKERIVGFYSTGPKIKENDLQIDELFRRFCSSPVFVIIDVRP
GVEGIPVMAYRTKEEVEGDGKEIQRTFEHIPSSVGALEAEEVGVEHLLRD
INDPSVSTLANQVKHKLVALSGLRERLEEMQTYLQLVLAQKIPVNNQIIY
NMQTIFNLLPNLNVGELVKGLMVKANDMHFIIYLSSLIRAIVALHGVVQN
KIDFSEGEEGGKEGGKKKEKEGEKEGKEEEGKEKGKEGGKEGGKGSEARG
AWREGEGEGEGGKAVERRRQGRKERRSNGGREGGIKRGKEK*
back to top

mRNA from alignment at scaffold_1:1..3604-

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_1218 ID=mRNA_1218|Name=jgi.p|Nanoce1779_2|5|organism=Nannochloropsis oceanica|type=mRNA|length=3604bp|location=Sequence derived from alignment at scaffold_1:1..3604- (Nannochloropsis oceanica)
TACTGCTGCGCCAGGCCCGCGTGCAGAGCCGCACCAACGCACCGGCCATC TTTTTATGTTTATCGGGCTTTGGGTGGTCGTGGGGTGGGGGGGGAGGGAG GTAGTGTAGGGCTAGAAAAAGGACTGGCTGTGGGAAGGCGGATTGCTTAT TGAACTTAATTTGAGGCCCCCTGTCTTGTTGTCCCCTTGCTTCCTTTGCA GATGTGTGCGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAA AGGCAAAATGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGC GAGCGCCACTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTC TTCCTCACACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAA TGCATAGGCGCGCCTCAATTTTGGCCCTGCGACCAGGTGCCGTGATGCCT GGTTCGCCCCTTGTGTGCTCTACTTTGCCAGCTGCATCTCTTCCCCTGCC TACAGAAGCCCTAAGAAGGAGTCCTTCAGCGAGCAATTAAACCAACCCTC CACCTACCCCCAACACCCTGCACAGAGCACAACGCCATGGCACCCATGGA CGTGGAGAAGGAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGA AAGACGGGGACAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTC ACCACAGGGCAACTAGCAGCTGATGAGGTAAAGTGATGTGTACGGCCGCA AAGATGGCAGATATGTTGGACAGAAGAAGGCTCAATGTCTTTGTGTATGC GTGCTTGCATATTTTGCCCTGTATGTGGTGCCATTCATCCTGGCATTTCC ATAATCTCATCCACTACCCCCCCCTCCCCTCCCCTCCCTCACTCCCTCCC TTGCTCCCCTTCCTCCTCACAAGATCGAAGTCATCGTGCACCCCCTTGTC CTCCTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACCCGTAA ACGTGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGATCGATG TGGTTAACTCGTTCGCAGGTAGAGAGGGAGAGAGGGAGGGAGCGAGGGAG AGGTAGGGGAAGATAAAGAGGGATAAGGGGAGGGAGGAAGGGGGAAGGGG AGGGAAGGTACCCATTATGCTCGAAGGAAGTGGAAAATCTGCCAGCTCAT TTCTCCCCTCCCTCCGTCCCTCCCTTTCTCACTCCCGCCTTGGCAGTGCC GTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTACCTGGATCACAACT ATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAACGGTGCGTCCCTC CCTCCCTCCCTCCTCCCTCCCTCCCTCCCTCCCTCCTATCTGTTTCGATC CCATCCTCCCTTCGCATCGTTTCTTATGACCCTCCCTCCCTCCCTCCCTC CCTCCCTCCCTCCCTCCCTCCCTTCCTCTTTCCCTTCTTCCCCCTGTCTC CCCCTCCCTCTCATCATTCCTCCTCCCTCCCTCCCTCCCTCCCTCTCTCC CCCCCTTCAGCAAAGGAGCGCATCGTGGGCTTCTACAGCACCGGGCCCAA GATCAAGGAGAACGACCTACAGGCAGGGAGGGAGGGAGGGAGGGAGGGGG GAAGGGAGGGAAGGGTGATGAGAAACGATGGGAAGAAGGGAAGGAGGGCA GGAGGGCAGGAGGGAGGGAGGGCGGGCAGGAAAAAAGTCATAACCCACTG GTAGGCTCACTTCCCACCTTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCC CTCCCTCCCTTCCCTCCCTCCAGATCGACGAGCTCTTCCGACGGTTCTGC TCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGGAAGGGAT TCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGGTGAGGAGGG AGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAAGGAGGGAGGGAGGGAG GGAGGGCGAAGTGACGATGGGATGAAAGGAAACCCCCAGCGGGAGGAGGA GTAGGAGGGCGAGGACCAGGAACACGGGCACATACGGCAAACCATCCTCC TTAACCCCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCCC CCCTTCCCCAGGACGGCAAGGAGATTCAACGCACGTTCGAGCATATCCCG TCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTGGAACACCTCCT CCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCCAACCAAGTGCGCC TTCTGCCCCTCCCTCCCTCCCTCCCTCCCCCCCACCCTTCCTTTCTCGTC ACGTGTATGTGGACACGCTACCTACCTGAACCGTTCCTCCCTCCCTCCCT CCTTCTCTCAGGTGAAGCATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAG CGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTGCTCGCGCAAAAAAT ACCCGTCAACAACCAAATCATTTACAACATGCAGGTGGGAAGGGAGAAAG AGAGGGAGGGAGGGAGGGAATGAAGGCGGGCTGAAGGTCGACCGCTTTTG ATTTAGTTTTTCCTTTATTTATCCATCGTTTATTTATTGATTTATTCTAC CCTCGTTTTCCTGACGAGCTCCTCTCTCTCCTCCCGTCCGCTTCCCCCCC GCCCTCTCCCCCTTCCTCGCAGACCATATTCAACCTCTTGCCGAACCTTA ACGTGGGAGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCAT GTACGGCGGGCGGGAGGGAGGGCGGGAGGGAAGGAGGGTCGTGTATTTTC CCTCTTTTTCTTTTTCGTAGTTTGTCTCCTCATCGCTCTTCCTTCTCGTC TTCATGTCCATCCTCCCTCCCTCCCTCCCTCTCTCCCTCCCTCCCTCCCT CCCTTCCCAGTTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGG CTCTGCACGGTGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAG GGCGGGAAGGAGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGG GAAGGAGGAGGAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAG GGAAGGGAAGCGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGG GAAGGGGGGAAAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAG GAGTAATGGAGGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAG AGACAAAGTTGAGAGGGTGGAGGCAGGGAGGAAGGGAGGGAGGGAGGAGG GAAGGAGGGAGGGAAGGGAGGGAGGGAGGGAGGAGGGAAGGGAGGGAAGG GGAGGAAGAGAGGGAGGAGGGGAGAGGGGGGGGAGGGGGGAAGGAGAAGG AGAGGGGAGAAGGGGAGGAGGAGGAGGAGGAGGGAGGGAGGAGGGGAGGA GGGGGGAGAGGGAGGGAGGGAGGGAGGGAGGGAGGGAGGAGGGAGGGAGG AGTAAGAGGGCGAGGAAATTAGGAAAAAAAAAAGGCTGAACAAGAAACAG GAAG
back to top

Coding sequence (CDS) from alignment at scaffold_1:1..3604-

>mRNA_1218 ID=mRNA_1218|Name=jgi.p|Nanoce1779_2|5|organism=Nannochloropsis oceanica|type=CDS|length=14760bp|location=Sequence derived from alignment at scaffold_1:1..3604- (Nannochloropsis oceanica)
TTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGGCTCTGCACGG
TGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAGGGCGGGAAGG
AGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGGGAAGGAGGAG
GAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAGGGAAGGGAAG
CGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGGGAAGGGGGGA
AAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAGGAGTAATGGA
GGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAACCATATTCAA
CCTCTTGCCGAACCTTAACGTGGGAGAGCTCGTCAAGGGCCTAATGGTGA
AGGCCAACGACATGCATGTGAAGCATAAGCTGGTTGCCCTCTCAGGCCTT
CGGGAGCGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTGCTCGCGCA
AAAAATACCCGTCAACAACCAAATCATTTACAACATGCAGGACGGCAAGG
AGATTCAACGCACGTTCGAGCATATCCCGTCCTCTGTGGGGGCGCTGGAG
GCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGATATCAACGATCCCTC
CGTCTCCACCCTCGCCAACCAAATCGACGAGCTCTTCCGACGGTTCTGCT
CCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGGAAGGGATT
CCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGCAAAGGAGCGC
ATCGTGGGCTTCTACAGCACCGGGCCCAAGATCAAGGAGAACGACCTACA
GTGCCGTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTACCTGGATCA
CAACTATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAACGATCGAA
GTCATCGTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCACTACAACCG
CGTGGCCAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCTGGGCACGA
CATGGCGGGGTCGGATCGATGTGGTTAACTCGTTCGCAGAGCACAACGCC
ATGGCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAGGCCGGGAC
GGACAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGAAGAGACTG
CCACTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGATGTGTGCG
GGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAAAGGCAAAATG
TCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGCGAGCGCCACT
GTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTCTTCCTCACAC
TTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAATGCATAGGCG
CGCCTCAATTTTGGCCCTGCGACCAGTTCATCATCTACCTCTCCTCGCTC
ATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAACAAGATCGATTT
CTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGAAGAAGGAGAAAG
AAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAGAAGGGAAAGGAG
GGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGGCGCATGGCGGGA
AGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGAGGAGACGACAAG
GGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGAGGGATAAAGAGG
GGAAAAGAAAAGTAAACCATATTCAACCTCTTGCCGAACCTTAACGTGGG
AGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCATGTGAAGC
ATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGGAAATGCAG
ACGTACCTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAACAACCAAAT
CATTTACAACATGCAGGACGGCAAGGAGATTCAACGCACGTTCGAGCATA
TCCCGTCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTGGAACAC
CTCCTCCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCCAACCAAAT
CGACGAGCTCTTCCGACGGTTCTGCTCCTCGCCCGTCTTTGTCATCATCG
ACGTCCGCCCGGGGGTGGAAGGGATTCCGGTCATGGCCTACAGAACCAAG
GAGGAGGTGGAGGGGCAAAGGAGCGCATCGTGGGCTTCTACAGCACCGGG
CCCAAGATCAAGGAGAACGACCTACAGTGCCGTTCGAGGAGGACCTGAAG
AATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGCATGTTCCA
TATGTCCAAGAAGATAAACGATCGAAGTCATCGTGCACCCCCTTGTCCTC
CTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACCCGTAAACG
TGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGATCGATGTGG
TTAACTCGTTCGCAGAGCACAACGCCATGGCACCCATGGACGTGGAGAAG
GAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGAAAGACGGGGA
CAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTCACCACAGGGC
AACTAGCAGCTGATGAGATGTGTGCGGGGGCCTGTGGTGAGCGTGGGATG
GTGTGGTTTTGGGGAAAGGCAAAATGTCACATGCGGCAGACTACCGACCG
TCATCAGCGTCATCGCGAGCGCCACTGTCTCGCTCAATTTCTCAAGACTT
CGTTCCGCCCACACTCTTCCTCACACTTACAAGCCCAGCCCTCCCCTCTC
CCGTGCGCTCGTACAATGCATAGGCGCGCCTCAATTTTGGCCCTGCGACC
AGTTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGGCTCTGCAC
GGTGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAGGGCGGGAA
GGAGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGGGAAGGAGG
AGGAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAGGGAAGGGA
AGCGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGGGAAGGGGG
GAAAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAGGAGTAATG
GAGGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAACCATATTC
AACCTCTTGCCGAACCTTAACGTGGGAGAGCTCGTCAAGGGCCTAATGGT
GAAGGCCAACGACATGCATGTGAAGCATAAGCTGGTTGCCCTCTCAGGCC
TTCGGGAGCGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTGCTCGCG
CAAAAAATACCCGTCAACAACCAAATCATTTACAACATGCAGGACGGCAA
GGAGATTCAACGCACGTTCGAGCATATCCCGTCCTCTGTGGGGGCGCTGG
AGGCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGATATCAACGATCCC
TCCGTCTCCACCCTCGCCAACCAAATCGACGAGCTCTTCCGACGGTTCTG
CTCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGGAAGGGA
TTCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGCAAAGGAGC
GCATCGTGGGCTTCTACAGCACCGGGCCCAAGATCAAGGAGAACGACCTA
CAGTGCCGTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTACCTGGAT
CACAACTATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAACGATCG
AAGTCATCGTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCACTACAAC
CGCGTGGCCAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCTGGGCAC
GACATGGCGGGGTCGGATCGATGTGGTTAACTCGTTCGCAGAGCACAACG
CCATGGCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAGGCCGGG
ACGGACAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGAAGAGAC
TGCCACTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGATGTGTG
CGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAAAGGCAAAA
TGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGCGAGCGCCA
CTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTCTTCCTCAC
ACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAATGCATAGG
CGCGCCTCAATTTTGGCCCTGCGACCAGTTCATCATCTACCTCTCCTCGC
TCATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAACAAGATCGAT
TTCTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGAAGAAGGAGAA
AGAAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAGAAGGGAAAGG
AGGGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGGCGCATGGCGG
GAAGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGAGGAGACGACA
AGGGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGAGGGATAAAGA
GGGGAAAAGAAAAGTAAACCATATTCAACCTCTTGCCGAACCTTAACGTG
GGAGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCATGTGAA
GCATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGGAAATGC
AGACGTACCTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAACAACCAA
ATCATTTACAACATGCAGGACGGCAAGGAGATTCAACGCACGTTCGAGCA
TATCCCGTCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTGGAAC
ACCTCCTCCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCCAACCAA
ATCGACGAGCTCTTCCGACGGTTCTGCTCCTCGCCCGTCTTTGTCATCAT
CGACGTCCGCCCGGGGGTGGAAGGGATTCCGGTCATGGCCTACAGAACCA
AGGAGGAGGTGGAGGGGCAAAGGAGCGCATCGTGGGCTTCTACAGCACCG
GGCCCAAGATCAAGGAGAACGACCTACAGTGCCGTTCGAGGAGGACCTGA
AGAATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGCATGTTC
CATATGTCCAAGAAGATAAACGATCGAAGTCATCGTGCACCCCCTTGTCC
TCCTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACCCGTAAA
CGTGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGATCGATGT
GGTTAACTCGTTCGCAGAGCACAACGCCATGGCACCCATGGACGTGGAGA
AGGAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGAAAGACGGG
GACAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTCACCACAGG
GCAACTAGCAGCTGATGAGATGTGTGCGGGGGCCTGTGGTGAGCGTGGGA
TGGTGTGGTTTTGGGGAAAGGCAAAATGTCACATGCGGCAGACTACCGAC
CGTCATCAGCGTCATCGCGAGCGCCACTGTCTCGCTCAATTTCTCAAGAC
TTCGTTCCGCCCACACTCTTCCTCACACTTACAAGCCCAGCCCTCCCCTC
TCCCGTGCGCTCGTACAATGCATAGGCGCGCCTCAATTTTGGCCCTGCGA
CCAGTTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGGCTCTGC
ACGGTGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAGGGCGGG
AAGGAGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGGGAAGGA
GGAGGAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAGGGAAGG
GAAGCGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGGGAAGGG
GGGAAAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAGGAGTAA
TGGAGGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAACCATAT
TCAACCTCTTGCCGAACCTTAACGTGGGAGAGCTCGTCAAGGGCCTAATG
GTGAAGGCCAACGACATGCATGTGAAGCATAAGCTGGTTGCCCTCTCAGG
CCTTCGGGAGCGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTGCTCG
CGCAAAAAATACCCGTCAACAACCAAATCATTTACAACATGCAGGACGGC
AAGGAGATTCAACGCACGTTCGAGCATATCCCGTCCTCTGTGGGGGCGCT
GGAGGCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGATATCAACGATC
CCTCCGTCTCCACCCTCGCCAACCAAATCGACGAGCTCTTCCGACGGTTC
TGCTCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGGAAGG
GATTCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGCAAAGGA
GCGCATCGTGGGCTTCTACAGCACCGGGCCCAAGATCAAGGAGAACGACC
TACAGTGCCGTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTACCTGG
ATCACAACTATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAACGAT
CGAAGTCATCGTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCACTACA
ACCGCGTGGCCAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCTGGGC
ACGACATGGCGGGGTCGGATCGATGTGGTTAACTCGTTCGCAGAGCACAA
CGCCATGGCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAGGCCG
GGACGGACAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGAAGAG
ACTGCCACTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGATGTG
TGCGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAAAGGCAA
AATGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGCGAGCGC
CACTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTCTTCCTC
ACACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAATGCATA
GGCGCGCCTCAATTTTGGCCCTGCGACCAGTTCATCATCTACCTCTCCTC
GCTCATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAACAAGATCG
ATTTCTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGAAGAAGGAG
AAAGAAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAGAAGGGAAA
GGAGGGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGGCGCATGGC
GGGAAGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGAGGAGACGA
CAAGGGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGAGGGATAAA
GAGGGGAAAAGAAAAGTAAACCATATTCAACCTCTTGCCGAACCTTAACG
TGGGAGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCATGTG
AAGCATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGGAAAT
GCAGACGTACCTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAACAACC
AAATCATTTACAACATGCAGGACGGCAAGGAGATTCAACGCACGTTCGAG
CATATCCCGTCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTGGA
ACACCTCCTCCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCCAACC
AAATCGACGAGCTCTTCCGACGGTTCTGCTCCTCGCCCGTCTTTGTCATC
ATCGACGTCCGCCCGGGGGTGGAAGGGATTCCGGTCATGGCCTACAGAAC
CAAGGAGGAGGTGGAGGGGCAAAGGAGCGCATCGTGGGCTTCTACAGCAC
CGGGCCCAAGATCAAGGAGAACGACCTACAGTGCCGTTCGAGGAGGACCT
GAAGAATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGCATGT
TCCATATGTCCAAGAAGATAAACGATCGAAGTCATCGTGCACCCCCTTGT
CCTCCTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACCCGTA
AACGTGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGATCGAT
GTGGTTAACTCGTTCGCAGAGCACAACGCCATGGCACCCATGGACGTGGA
GAAGGAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGAAAGACG
GGGACAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTCACCACA
GGGCAACTAGCAGCTGATGAGATGTGTGCGGGGGCCTGTGGTGAGCGTGG
GATGGTGTGGTTTTGGGGAAAGGCAAAATGTCACATGCGGCAGACTACCG
ACCGTCATCAGCGTCATCGCGAGCGCCACTGTCTCGCTCAATTTCTCAAG
ACTTCGTTCCGCCCACACTCTTCCTCACACTTACAAGCCCAGCCCTCCCC
TCTCCCGTGCGCTCGTACAATGCATAGGCGCGCCTCAATTTTGGCCCTGC
GACCAGTTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGGCTCT
GCACGGTGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAGGGCG
GGAAGGAGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGGGAAG
GAGGAGGAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAGGGAA
GGGAAGCGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGGGAAG
GGGGGAAAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAGGAGT
AATGGAGGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAACCAT
ATTCAACCTCTTGCCGAACCTTAACGTGGGAGAGCTCGTCAAGGGCCTAA
TGGTGAAGGCCAACGACATGCATGTGAAGCATAAGCTGGTTGCCCTCTCA
GGCCTTCGGGAGCGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTGCT
CGCGCAAAAAATACCCGTCAACAACCAAATCATTTACAACATGCAGGACG
GCAAGGAGATTCAACGCACGTTCGAGCATATCCCGTCCTCTGTGGGGGCG
CTGGAGGCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGATATCAACGA
TCCCTCCGTCTCCACCCTCGCCAACCAAATCGACGAGCTCTTCCGACGGT
TCTGCTCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGGAA
GGGATTCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGCAAAG
GAGCGCATCGTGGGCTTCTACAGCACCGGGCCCAAGATCAAGGAGAACGA
CCTACAGTGCCGTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTACCT
GGATCACAACTATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAACG
ATCGAAGTCATCGTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCACTA
CAACCGCGTGGCCAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCTGG
GCACGACATGGCGGGGTCGGATCGATGTGGTTAACTCGTTCGCAGAGCAC
AACGCCATGGCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAGGC
CGGGACGGACAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGAAG
AGACTGCCACTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGATG
TGTGCGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAAAGGC
AAAATGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGCGAGC
GCCACTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTCTTCC
TCACACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAATGCA
TAGGCGCGCCTCAATTTTGGCCCTGCGACCAGTTCATCATCTACCTCTCC
TCGCTCATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAACAAGAT
CGATTTCTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGAAGAAGG
AGAAAGAAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAGAAGGGA
AAGGAGGGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGGCGCATG
GCGGGAAGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGAGGAGAC
GACAAGGGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGAGGGATA
AAGAGGGGAAAAGAAAAGTAAACCATATTCAACCTCTTGCCGAACCTTAA
CGTGGGAGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCATG
TGAAGCATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGGAA
ATGCAGACGTACCTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAACAA
CCAAATCATTTACAACATGCAGGACGGCAAGGAGATTCAACGCACGTTCG
AGCATATCCCGTCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAGTG
GAACACCTCCTCCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCCAA
CCAAATCGACGAGCTCTTCCGACGGTTCTGCTCCTCGCCCGTCTTTGTCA
TCATCGACGTCCGCCCGGGGGTGGAAGGGATTCCGGTCATGGCCTACAGA
ACCAAGGAGGAGGTGGAGGGGCAAAGGAGCGCATCGTGGGCTTCTACAGC
ACCGGGCCCAAGATCAAGGAGAACGACCTACAGTGCCGTTCGAGGAGGAC
CTGAAGAATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGCAT
GTTCCATATGTCCAAGAAGATAAACGATCGAAGTCATCGTGCACCCCCTT
GTCCTCCTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACCCG
TAAACGTGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGATCG
ATGTGGTTAACTCGTTCGCAGAGCACAACGCCATGGCACCCATGGACGTG
GAGAAGGAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGAAAGA
CGGGGACAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTCACCA
CAGGGCAACTAGCAGCTGATGAGATGTGTGCGGGGGCCTGTGGTGAGCGT
GGGATGGTGTGGTTTTGGGGAAAGGCAAAATGTCACATGCGGCAGACTAC
CGACCGTCATCAGCGTCATCGCGAGCGCCACTGTCTCGCTCAATTTCTCA
AGACTTCGTTCCGCCCACACTCTTCCTCACACTTACAAGCCCAGCCCTCC
CCTCTCCCGTGCGCTCGTACAATGCATAGGCGCGCCTCAATTTTGGCCCT
GCGACCAGTTCATCATCTACCTCTCCTCGCTCATTCGCGCGATTGTGGCT
CTGCACGGTGTCGTCCAAAACAAGATCGATTTCTCAGAAGGGGAGGAGGG
CGGGAAGGAGGGAGGGAAGAAGAAGGAGAAAGAAGGGGAGAAAGAGGGGA
AGGAGGAGGAGGGGAAAGAGAAGGGAAAGGAGGGAGGGAAGGAGGGAGGG
AAGGGAAGCGAAGCAAGAGGCGCATGGCGGGAAGGAGAAGGGGAAGGGGA
AGGGGGGAAAGCAGTAGAGAGGAGACGACAAGGGAGGAAGGAGAGAAGGA
GTAATGGAGGGAGGGAGGGAGGGATAAAGAGGGGAAAAGAAAAGTAAACC
ATATTCAACCTCTTGCCGAACCTTAACGTGGGAGAGCTCGTCAAGGGCCT
AATGGTGAAGGCCAACGACATGCATGTGAAGCATAAGCTGGTTGCCCTCT
CAGGCCTTCGGGAGCGCCTGGAGGAAATGCAGACGTACCTCCAACTTGTG
CTCGCGCAAAAAATACCCGTCAACAACCAAATCATTTACAACATGCAGGA
CGGCAAGGAGATTCAACGCACGTTCGAGCATATCCCGTCCTCTGTGGGGG
CGCTGGAGGCGGAGGAGGTCGGAGTGGAACACCTCCTCCGCGATATCAAC
GATCCCTCCGTCTCCACCCTCGCCAACCAAATCGACGAGCTCTTCCGACG
GTTCTGCTCCTCGCCCGTCTTTGTCATCATCGACGTCCGCCCGGGGGTGG
AAGGGATTCCGGTCATGGCCTACAGAACCAAGGAGGAGGTGGAGGGGCAA
AGGAGCGCATCGTGGGCTTCTACAGCACCGGGCCCAAGATCAAGGAGAAC
GACCTACAGTGCCGTTCGAGGAGGACCTGAAGAATCCGCTCATCTGGTAC
CTGGATCACAACTATCTAGAGAGCATGTTCCATATGTCCAAGAAGATAAA
CGATCGAAGTCATCGTGCACCCCCTTGTCCTCCTCTCCACCGTCGATCAC
TACAACCGCGTGGCCAAGGACACCCGTAAACGTGTCGTGGGTGTCTTGCT
GGGCACGACATGGCGGGGTCGGATCGATGTGGTTAACTCGTTCGCAGAGC
ACAACGCCATGGCACCCATGGACGTGGAGAAGGAGAAGGACAAGACAAAG
GCCGGGACGGACAAGGGCAAGAAAGACGGGGACAAAAAGAAATCAGAGGA
AGAGACTGCCACTTCCATTCTCACCACAGGGCAACTAGCAGCTGATGAGA
TGTGTGCGGGGGCCTGTGGTGAGCGTGGGATGGTGTGGTTTTGGGGAAAG
GCAAAATGTCACATGCGGCAGACTACCGACCGTCATCAGCGTCATCGCGA
GCGCCACTGTCTCGCTCAATTTCTCAAGACTTCGTTCCGCCCACACTCTT
CCTCACACTTACAAGCCCAGCCCTCCCCTCTCCCGTGCGCTCGTACAATG
CATAGGCGCGCCTCAATTTTGGCCCTGCGACCAGTTCATCATCTACCTCT
CCTCGCTCATTCGCGCGATTGTGGCTCTGCACGGTGTCGTCCAAAACAAG
ATCGATTTCTCAGAAGGGGAGGAGGGCGGGAAGGAGGGAGGGAAGAAGAA
GGAGAAAGAAGGGGAGAAAGAGGGGAAGGAGGAGGAGGGGAAAGAGAAGG
GAAAGGAGGGAGGGAAGGAGGGAGGGAAGGGAAGCGAAGCAAGAGGCGCA
TGGCGGGAAGGAGAAGGGGAAGGGGAAGGGGGGAAAGCAGTAGAGAGGAG
ACGACAAGGGAGGAAGGAGAGAAGGAGTAATGGAGGGAGGGAGGGAGGGA
TAAAGAGGGGAAAAGAAAAGTAAACCATATTCAACCTCTTGCCGAACCTT
AACGTGGGAGAGCTCGTCAAGGGCCTAATGGTGAAGGCCAACGACATGCA
TGTGAAGCATAAGCTGGTTGCCCTCTCAGGCCTTCGGGAGCGCCTGGAGG
AAATGCAGACGTACCTCCAACTTGTGCTCGCGCAAAAAATACCCGTCAAC
AACCAAATCATTTACAACATGCAGGACGGCAAGGAGATTCAACGCACGTT
CGAGCATATCCCGTCCTCTGTGGGGGCGCTGGAGGCGGAGGAGGTCGGAG
TGGAACACCTCCTCCGCGATATCAACGATCCCTCCGTCTCCACCCTCGCC
AACCAAATCGACGAGCTCTTCCGACGGTTCTGCTCCTCGCCCGTCTTTGT
CATCATCGACGTCCGCCCGGGGGTGGAAGGGATTCCGGTCATGGCCTACA
GAACCAAGGAGGAGGTGGAGGGGCAAAGGAGCGCATCGTGGGCTTCTACA
GCACCGGGCCCAAGATCAAGGAGAACGACCTACAGTGCCGTTCGAGGAGG
ACCTGAAGAATCCGCTCATCTGGTACCTGGATCACAACTATCTAGAGAGC
ATGTTCCATATGTCCAAGAAGATAAACGATCGAAGTCATCGTGCACCCCC
TTGTCCTCCTCTCCACCGTCGATCACTACAACCGCGTGGCCAAGGACACC
CGTAAACGTGTCGTGGGTGTCTTGCTGGGCACGACATGGCGGGGTCGGAT
CGATGTGGTTAACTCGTTCGCAGAGCACAACGCCATGGCACCCATGGACG
TGGAGAAGGAGAAGGACAAGACAAAGGCCGGGACGGACAAGGGCAAGAAA
GACGGGGACAAAAAGAAATCAGAGGAAGAGACTGCCACTTCCATTCTCAC
CACAGGGCAACTAGCAGCTGATGAGATGTGTGCGGGGGCCTGTGGTGAGC
GTGGGATGGTGTGGTTTTGGGGAAAGGCAAAATGTCACATGCGGCAGACT
ACCGACCGTCATCAGCGTCATCGCGAGCGCCACTGTCTCGCTCAATTTCT
CAAGACTTCGTTCCGCCCACACTCTTCCTCACACTTACAAGCCCAGCCCT
CCCCTCTCCCGTGCGCTCGTACAATGCATAGGCGCGCCTCAATTTTGGCC
CTGCGACCAG
back to top
Synonyms
Publications