EMLSAT00000001046, EMLSAT00000001046-696893 (mRNA) Lepeophtheirus salmonis

Overview


Name	EMLSAT00000001046
Unique Name	EMLSAT00000001046-696893
Type	mRNA
Organism	Lepeophtheirus salmonis (salmon louse)

Associated RNAi Experiments

Nothing found

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
LSalAtl2s1172	supercontig	LSalAtl2s1172:34457..40632 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
ensembl	2013-09-26 .965016

Properties


Property Name	Value
Logic name	ensemblgenomes
Biotype	protein_coding
Evidence	IEA

Cross References

External references for this mRNA


Database	Accession
Ensembl Metazoa (transcript)	EMLSAT00000001046 (primary cross-reference)

Relationships

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


Feature Name	Unique Name	Species	Type
EMLSAG00000001046	EMLSAG00000001046-683812	Lepeophtheirus salmonis	gene

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


Feature Name	Unique Name	Species	Type
EMLSAE00000004624	EMLSAE00000004624-713552	Lepeophtheirus salmonis	exon
EMLSAE00000004625	EMLSAE00000004625-713553	Lepeophtheirus salmonis	exon
EMLSAE00000004626	EMLSAE00000004626-713554	Lepeophtheirus salmonis	exon
EMLSAE00000004627	EMLSAE00000004627-713555	Lepeophtheirus salmonis	exon
EMLSAE00000004628	EMLSAE00000004628-713556	Lepeophtheirus salmonis	exon
EMLSAE00000004629	EMLSAE00000004629-713557	Lepeophtheirus salmonis	exon

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


Feature Name	Unique Name	Species	Type
polypeptide-auto770049	auto770049	Lepeophtheirus salmonis	polypeptide
EMLSAP00000001046	EMLSAP00000001046	Lepeophtheirus salmonis	polypeptide

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at LSalAtl2s1172:34457..40632+

protein sequence of EMLSAP00000001046

>EMLSAP00000001046 ID=EMLSAP00000001046|Name=EMLSAP00000001046|organism=Lepeophtheirus salmonis|type=polypeptide|length=601bp
MKSLHSSIVHIPNEESYLIPSSSKSTFKAVCRAWNRLSRLQRSLVYIFII
VLLLFQVYLLNDVVGDGREEVSLFERQTYENSFSRESQQYRNKVEIVKEY
IQNIQDTTVKDEETKTTQGTGDNGDNISPQTSKGVLNFSGPTNSRQRSVV
DAFKHAWNGYRTYAWGHDHLKPISKKTMNWFGLGLSIIDGLDTMVVMNLV
DEFEVLHLTFKRPKNGLXTHLDFNISKDVNLFETTIRLLGGLLSAFHLTH
KKHDVLLEKATDLGNRLLGGFKTPSGIPYSDINLKTAKGHVPRWSPDSST
SEVTTLQLEFRDLSRCTSNPEYEDMAFQVSKKVHESTKWHGLVPIFINVE
TGDFQKSSTITLGARGDSYYEYLLKQWVQTGKTHEFLKEDYIEAIEGIKN
WLTKRTAINNYLFVGEVQWGGHNFKPKMDELVCFLPGTLALGVHHGMPES
HMEMAKELIETCYQTFATNPTHLAPEITYFNFKSGSKKDFYIKSNDAHYL
LRPETVESLWYMFYMTKDPIYQDWGWNIFQGIEKYTKYANGYSNIGNVRS
ALDTKPRDLMETYFLAETLKYFYLLFSDKNEIDLQKWVFNTEGHPLPVYE
S

mRNA from alignment at LSalAtl2s1172:34457..40632+

Legend: exonpolypeptide

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

>EMLSAT00000001046-696893 ID=EMLSAT00000001046-696893|Name=EMLSAT00000001046|organism=Lepeophtheirus salmonis|type=mRNA|length=6176bp|location=Sequence derived from alignment at LSalAtl2s1172:34457..40632+ (Lepeophtheirus salmonis)
ACCGCAACTGATAAAAAATTACACTTGGAACTGCAGGATTTGGAGATATT
TTGCCTCATTCATTGTCATGGTGCTTTGGTGAGACGGAGGCATGAAATCC
TTACATTCCTCAATTGTTCACATTCCAAATGAGGAATCCTATCTCATCCC
ATCCTCTTCTAAATCCACTTTTAAGGCTGTTTGTAGGGTAATAAATTAAA
AAAAAAAATTATTTCCCATAGTTCAAGTGATTCAGAGATTGTTCATCTTT
TCAGGCATGGAACAGACTCTCCAGACTTCAAAGATCCCTTGTATATATTT
TTATAATTGTGCTGCTTTTATTCCAAGTGTACTTGCTCAATGATGTTGTC
GGTGATGGTAGGGAGGAAGTTTCCCTTTTTGAGCGACAAACGTATGAGAA
TAGCTTTAGCAGAGAGTCCCAGCAATACCGTAATAAAGTTGAAATCGTCA
AAGAATATATTCAAAATATTCAGGACACAACTGTAAAAGATGAAGAGACA
AAGACGACTCAGGGTACTGGGGACAATGGCGATAATATTAGTCCTCAAAC
GTCAAAAGGGGTTCTAAATTTTAGTGGGCCTACAAACAGTCGTCAAAGAT
CCGTTGTAGATGCTTTTAAGCATGCATGGAACGGCTATAGGACTTATGCT
TGGGGCCATGATCATTTAAAACCTATATCCAAGAAAACCATGAATTGGTT
TGGCCTTGGACTCTCCATTATTGACGGTCTAGATACAATGGTTGTGATGA
ATTTAGTCGATGAGTTTGAAGGTTACATGCGATGCTTGCAATTACTCTTA
ATATTTTGTATCTAAATAAAATTTTTATATTTATTTGGCTGCGTCATTTC
CATTTAAGTCAATTTTCTATAAATAATAATAGTTTAGTGTTGCATTTAAC
CTTCAAGAGGCCAAAAAATGGATTGNATACCCACCTGGATTTCAACATAT
CCAAAGATGTAAACTTATTCGAGACTACAATCAGGCTCTTAGGAGGATTA
TTAAGTGCATTTCACTTAACTCATAAGAAACATGATGTACTTCTAGAGAA
AGCAACAGATTTAGGAAATCGTCTCTTGGGTGGATTTAAAACCCCATCCG
GCATACCTTATTCTGATATTAATTTGAAGACTGCCAAAGGACATGTACCC
CGGTGGAGTCCTGATAGTTCCACGTCAGAAGTCACAACACTACAGCTCGA
ATTCAGGGATCTTAGTCGATGCACTAGCAATCCTGAGTATGAGGATATGG
CCTTTCAAGTGTCAAAGAAAGTCCACGAGTCTACAAAATGGCATGGACTA
GTTCCGATTTTCATAAATGTTGAAACTGGTGACTTTCAAAAGAGCTCAAC
CATTACCTTGGGTGCTAGAGGAGATTCTTATTATGAATATCTCCTTAAAC
AGTGGGTTCAAACAGGAAAAACCCATGAATTTCTTAAAGAAGATTATATT
GAAGCAATAGAAGGAGTAATATAAGCAAATATTTCCACGAAGTTTCTCAT
TCTAAATTAAAAATTTATATTACAGATCAAGAATTGGCTGACTAAGCGTA
CTGCCATTAATAACTATTTATTTGTTGGTGAAGTTCAATGGGGCGGACAT
AATTTCAAGCCAAAAATGGACGAACTAGTAATGAATGACCCATCTAATTT
AATAACATTATTATGTTTTATTATCTTTGTTGTTGTGTAATTTAGGTTTG
CTTCCTACCTGGAACACTTGCTTTAGGAGTCCATCATGGAATGCCAGAAA
GTCACATGGAAATGGCAAAAGAACTAATAGAAACATGTTACCAGACCTTT
GCTACCAATCCCACACATTTAGCCCCTGAGATTACGTACTTCAATTTTAA
ATCCGGCTCTAAAAAGGATTTTTACATTAAGAGTAATGATGCACATTATC
TACTACGACCCGAAACTGTTGAATCCCTATGGTACATGTTTTACATGACC
AAAGATCCCATATACCAAGACTGGGGATGGAATATTTTTCAAGTAAGGCT
TTAATGATTAACTTACATTTATATATTACATTGTATTTATTTCGTTCTAA
TAGGGTATAGAGAAGTACACCAAATATGCTAATGGATATTCAAATATTGG
TAATGTGCGGAGTGCTCTTGATACAAAGCCACGGGACCTCATGGAAACAT
ATTTCCTCGCAGAAACACTTAAATATTTTTATCTCCTTTTCTCAGATAAA
AATGAAATTGATCTTCAGAAATGGGTCTTTAATACAGAGGGTCATCCATT
ACCAGTCTATGAGAGTTAAACTGCTCATTTTACAAGTTTAATAATGTTTG
TTGAAAAAAAGGGAAAAAGAAATTCGCCATAGCTATTCATCAACAATATA
CATACAACCCAAAATTTTATATATTATACTATAAACTTCATTCAGATTTT
TTTATTATCATACAAATATATATATATCTATAAATCAGTGAGTTAATTTT
TGAAGAAAAAAAAAAGTAGTAATAAAAACCTAATAAAAGTGTTATCAATA
ATAATAATTACTTTTGGGTTAATTTAATACACTCTGATGCCTCAGTTTCA
GTTTCTGAGTCTTTCCGCTCTCGTGAAATTTCTATTCCTTTCTTGCATGC
CTTCAAAGCATCAGTTTTTAAACCCTAAAAAATATTAATCAATCAGTAAG
TGAAATGTTATCTCATGATTACCTATATAAATTAAGCAACTTACGGTTTG
GATGTAGGACATACCAAGATTGACTAGATAGCGCTGAACATACTCGGAAT
CCTCATTTAAAGTTATGGCTTTCTTGAAGTACTCACTTGCCTCTGAATAG
TTACCTAAAAGAGAGTGAGTGGATCCAAGGGAATTCAGTATATTAAGAGA
TTGGGTGTGCTTCTCTCCTAAAAGGCTCACAGCCGCCTTGTAAGCACTTT
CAAAATGTTGAAGAGCGGATTTAGCTTGTCCTTTGCTAAGCAAATACTCT
CCATATTTATCTTGGCACATTCCCCAGAGGATCAAACTATCCTCGTCTAT
ATCTATTATATATACATGACGGAATTCAAATAACGAATCATACCTTTTTA
TACACACAAAATATAACAGACCCTGATTATCTTTAACTTTTTTTTTCATG
CTTCGCATACAAAAGGAAAAGCCTTCCTCAGCTTTTTTATCTTCTTTTTT
CACTGCATAAATTTGAGCCAATTTTAGAGAAATTTCCACAATAGAATTAT
CTTGCAAGGGCGTATTTTTCGGGGGTCCAAGGAGCCTTTGTATGACATCT
GAGAAAAGCTTTTCAGCTTTCAAATAATCACCTTTTTCAAATGCCATATT
AGCGAGAAGATCATTGATATAAACGACTCCATTTGTGTCACTTATATCAT
GCGCCATTTTAAGTGCCATATGAAGAATCATTTCTGCCTTTTCCAATTCA
TCCCTCTATAAATGCGTGGAGGATATTAAGAAAAAATATTAATTTCATAA
TTGATAATTCTATAATGTAGAACTTACTTGAATGTTAAGGATCCCTAATT
TAATTGTATCGACGAGTCTGTCCTGTGGAGAATCATTTTCTTTGACATTT
AATGCGGATTTGAGAGATGCAAAAATTCCAGAATATAACAAGACCTTAAA
ATTGTCTTTTTTTGACGAATGAGGTCGCATGAGTGAGGGATCAAATAATA
AGTTTTGTTTAGTTGAGCCAAAAGCAAAAATTTGTCGGAAGAATCGGAAC
GACATATTATTGTTTCTAAAAGAGAAAAAAGAAAAATAACGTAAATTTTC
TATTATAGCAACAACATCTAACAAATCTTTATGTTTTATAAAAGTATTTT
TTTCTTACTTTGAGTATTGTGTGTTCTCGACTTCACAGATATGCATTATA
ATAAATTTAAAAATGACATACTTTGTATAAACGTTAATCCTTAGACTCCG
CGAATATACGAACTACTACAACTTAGACAGGCGTTTAAATATAAAATTTT
CGCTTTCCAAATATGAAAAATTTACGAGAAATGTGAATCGAGAAAAGTTA
TTACATATTTTATGGAATAAATTGAAATGTTTTGTACAAATTTGAATTAA
TGTTACTCAAGAAAGGGAGAAAAGAACTGAAGGGGAAAGATGCAACTGGT
TTTAGACATATTATGTAAATATACATATGTATATTGAGAAATTAATTAAA
AGATTTTCCTATGATCTAGAACGTTTCCGACAACGATTTTTTTTCGAAGA
TGAAGATGATGATCTAAAAGGACTTGGAGAGGATGAAGACGTCGAAGACC
GACGACGACTTCTTTTCCGACGTTTTCTTTTTCGTTCTCGAGAGTACCTT
CGGCGGGAAATACTTTCTCGAGAGCGATCTCGAGATCTTGAACGTCTATC
TCTGGACTTGTATTTTCTACCACTACTACAACTTGAACTTTCAGTCCGAG
AAACAGGTTGCTCCTTTGAAATGGTGGAATGCTGCTTTTCACTTGAGTAT
CTATCCCTGGAGTTTGATCTCTTATCACGAGTACCTCTTTTTTCTTTGGA
ACGAGATCTTTTCTCATGGTTATATTTGTCTCTTGAGCGTGAGCGCTTCT
CATGGGATAATAATTGATCTCGTGAACGAGATTCTCTCTCATGAGAGGTT
CGATCAGATGAAATTGATCTTTTGTCCCGAGATTGTCTCTCTCTTGATCT
ACCTCTTGAGTTCTTTGTTAAACTGCTTCCACCCTTGGGTGAACTATTTC
CTTGATCTTCATCATCGTTGTTGTTCTTATATCGTTCACTGAATGAGTCT
TTCCTGTAAATGTGAGAGACATTTTCTCCTTCCTTTAGTTCCCCACTCTC
TATCCATCGCTTTTCACGAAGACTAAATCTCTCTTCCTTTGCCGCACACA
TTAAATTGATTTTTTCGGAAGTTTTTTCAAATTCCTTTTTCTTCTTACGT
ATTATGGACTCCAATTTTTCTTCGTCTGAAAAGGGGGATGAACATAATCT
TGAACTACTTTCATCCGATGAACTATCCGAATTTTTTTTCTCCTCATCAC
TCGCATAACCACTCAACAATTGTCCAAGAGCTTTCTGGTTATTATTACTC
TTGATGACTCCCGTTTCATGTTTCCGATGCTTATCCAAAATTTCAATACA
AACATTTTGTATTTCTGTAGACGTTACTTCTAATAAAATTTCTGTAAGAG
TGCGTCTCAATGTGATAGCCATCTCCTCAAGAAGCTCTTCCTTATTCTTC
AAAGTCTGGTGAAGAATACCATTACCATTAGGAGGAGAATTTTKGGAATC
ATTGCGAGATTCTGAACTCCTCACTTTTTCCTCATTTTCTTCTACATCAT
GACTCTGATCATCATTAGAGCAGTTATCCTCTTCTTTCTTAAAATCCCCT
TCATACTCCTTTTCCTCATTCATTTCCTGAAATTTCTCTTCTTCACGGAT
CCGTCGCATGATTTCTTCTCGCTCTTTTTGCCGCTTTTCTACTTGTTCCT
TTTTTTGTTTTTCCCTTTCCATTTTCTCTAACCCTTCCCTAATCCATGGA
GGGAGTTTCTTACGAGCTGTAGCATCAATTGTTGTCACCGTATTTGTTGT
ATTGACCTTGGATGGTTTTTGCGTCATGCTTAGAGAGGAAGATGAGGAGA
CTACGTCGGGGGGTTTGGACTTTTTGTGATGGCGATGATGTAGTTTAGGA
GAGTCTGAAATGAAGGAGGTTATGAATTAGAAAGCTGGAAGTGACTCCAG
ATCAAAGATATAGAACCTGGATGTTGTTTTTCTAGTTCCTCTTTAGCTCC
TCCGTGGGCTTCCTCATCATCGTCTTCATCATCTAGGTCCATGTTCGCTT
CTCCCAAATGATGAGAAGGAGGAGGAGGAGCTTGTTGATTATAGTTAGTA
AACTGAGTGAGTTGCGTAGGAACTGTGAATGCTCCTGAGGGTATAGGAGG
CGGTGGAGGAACAATGATCCGAGGACTGGCCCGAATAGGAGATCCCAACG
CCAAATCCTGATGTGTACCTTTCATGGCAATCCATTGTTGAGCCAAGGCA
GCCCAATCTACTACACTGTCTGTTGGAGCATAGGCACTTGGGTTCCAACA
GGAACCTTCGTTATTACCCCACATCCCAGGGTATCCGTCCGAATATGTCC
CGCTTTCTAAGAGATTATTCAGCCTCGTTTAGGGTTGTATTTAAACAATG
ACGTCACAAATACTCTTATTTCCCAA

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