tnn cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene
Clones
gRNAs

Summary

Gene Symbol	tnn
Entrez Gene ID	110508739
Full Name	tenascin N
Gene Type	protein-coding
Organism	Oncorhynchus mykiss(rainbow trout)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021589499.1	XP_021445174.1	tenascin-N isoform X1
XM_021589500.1	XP_021445175.1	tenascin-N isoform X2
XM_021589501.1	XP_021445176.1	tenascin-N isoform X3

Pathways from BioSystems
Gene Ontology

The following tnn gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tnn cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OOf36831	XM_021589499.1 Latest version!	Oncorhynchus mykiss tenascin N (tnn), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OOf36832	XM_021589500.1 Latest version!	Oncorhynchus mykiss tenascin N (tnn), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OOf36833	XM_021589501.1 Latest version!	Oncorhynchus mykiss tenascin N (tnn), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

tnn ( XM_021589499.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021445174.1 Oncorhynchus mykiss tenascin N (tnn), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OOf36831
Clone ID Related Accession (Same CDS sequence)	XM_021589499.1
Accession Version	XM_021589499.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3891bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1498406400000
Organism	Oncorhynchus mykiss(rainbow trout)
Product	tenascin-N isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035104.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATCTG GATGCTCCTA CTAACCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA TGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
GTGATCAGCT ACAGCTCTGC TGAGGGCTCT AGTGGGGAGA TCACTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATCTGGGCT 
GTCAAGGGCT CCCGGGTTAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TTTGGATGCT 
CCTACTAATC TCTTGACCAG AGAAGTGACC GAGGATACAG CCGACGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACAGCT CTGCTGAGGG CTCCAGTGGG 
GAGATCCCTG TGGGGGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATTTG GGCTGTCAAG GGCTCCAGGG TCAGCAGGAA GAGCTCCACT 
GTAGCTGAAA CAGATCTGGA TGCTCCTACT AACCTCTTGA CCAGAGAAGT AACCGAGGAT 
ACAGCCGATG TGTCGTGGGA CAGACCTCTA GCGGACATCG ACGGCTACAT GATCAGCTAC 
ACCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGAG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACACCAGCT GAGACAGAAA TTGATTCGCC TAAGAACCTA 
AAAGTGTCAG ATGTTAAGCT GGACGCTGCG ACCCTGACCT GGACTGCTCC CTTAGCCAGA 
ATCGATGGCT ACATCCTCAC ATTCAGAGCT GAGGATGGCA CATTGAAGAC TTTGGAGAAG 
AAGCTGAGGG AAGGAGAGAG CAGGTTTGCC ATGTCAGGCC TGGAGATGGG AAAGAACTAT 
ATTGTTACCC TCCTCGCTTA CAGAGGAGCA AAGAGGAGCA GAGTGATAGA GACCACATTC 
AAAACAGTGG GTTTGTTGCA CCCGTTCCCC ATGGACTGTA ATCAGATTAA GACGAATGGT 
AACATGGCAA GTGGAATCTA CACGATTTAT ATCAACAGTG ATCGCACCAA GCCCATGGAA 
GTGTACTGTG ACATGGACAC TGATGGCGGT GGATGGGTGG TGTTACAAAG ACGCAACAAT 
GGACAGATGG ACTTCATGAA GCGCTGGAGA CCATACATGG CCGGCTTTGG GAACATGACT 
GATGAGTTCT GGCTCGGTCT GGACAATATC TATGAGCTGA CCAATACTCC TACCCAGTAT 
GAGTTGCGAG TGGACCTGGG TGTGGGTTCA GAGAAGGCCT ATGCTGTCTA TGACAACTTC 
AAGATAGCCC CGGCAAAGCA GAAGTTCAAG CTGACCATCG GCAAATACAG AGGAACAGCA 
GGTGATGCCA TGAACTACCA TCAAGGTCGC CCTTTCTCTA CTGTTGACAA TGACAATGAC 
ATTGCTCTTG GTAACTGCGC CCTGACTCAT CGTGGCGCTT GGTGGTACAA GAACTGTCAC 
CTTGCCAACC TGAACGGCAA ATTCGGAGAC AACAGACACA GCATGGGTGT GAACTGGGAG 
CCATGGAAAG GCCACCTGAT GTCTCTTGAT TTCACTGAGA TGAAGATCCG GCCAGTGGGC 
GCCGCCAGGA AGAGGAGGTC GCTTAGCAGC AGAACAGCTC CCAGAAAATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021445174.1
CDS	248..4138
Translation	MTTRLHWLSRALCLIGILCTVTTTYVTEDSPAPAEKGVTFSHIYKIDLTKSPGCKLALQTMPHQQDQGLGLQELEGGPTLEGDKDIVFRHQINLKTSKCDCDESERFKSLLYRVIGLEEEVEHLKSQCSQGFCGGKGGGAGGVDTSCSGHGTYQHDTCSCQCNPGWEGPDCSVSTCPDECNDHGRCVDGKCVCLAGYMGSDCSQLMCPGDCNDKGYCVDGKCVCFSHFTGEDCSEQKCSPDCVHGTCVNGMCICDEGFFGDDCSAVFGPNGLRLVRVTDVSLLVEWQAVRAAEYYVLTWHPEGNEAELEQVTVPNTETSYLITGLRPGVTYVVQVYAVIKEIQSEGDRIEATTVVSGIDGIRVLGQTEDSIQVDWQNPAAPLDHFRLTHANPDGQEEEQIVPMSAEARTTNTIVGLQPGTEYLITVQGIKGTIEGKASFVTGVTDLDAPTNLLTKEVTEDTATVEWQKVQAEIDGYMISYSSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTEAETDLDAPANLLTREVTEDTMTVTWEKVQAEIESYVISYTSAEGSSGEIHVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDSYMISYSSAEGSSGEIPVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYVISYSSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYMISYSSAEGSSGEIPVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYMISYTSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTPAETEIDSPKNLKVSDVKLDAATLTWTAPLARIDGYILTFRAEDGTLKTLEKKLREGESRFAMSGLEMGKNYIVTLLAYRGAKRSRVIETTFKTVGLLHPFPMDCNQIKTNGNMASGIYTIYINSDRTKPMEVYCDMDTDGGGWVVLQRRNNGQMDFMKRWRPYMAGFGNMTDEFWLGLDNIYELTNTPTQYELRVDLGVGSEKAYAVYDNFKIAPAKQKFKLTIGKYRGTAGDAMNYHQGRPFSTVDNDNDIALGNCALTHRGAWWYKNCHLANLNGKFGDNRHSMGVNWEPWKGHLMSLDFTEMKIRPVGAARKRRSLSSRTAPRK

Target ORF information:

RefSeq Version	XM_021589499.1
Organism	Oncorhynchus mykiss(rainbow trout)
Definition	Oncorhynchus mykiss tenascin N (tnn), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021589499.1

ORF Insert Sequence:

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATCTG GATGCTCCTA CTAACCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA TGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
GTGATCAGCT ACAGCTCTGC TGAGGGCTCT AGTGGGGAGA TCACTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATCTGGGCT 
GTCAAGGGCT CCCGGGTTAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TTTGGATGCT 
CCTACTAATC TCTTGACCAG AGAAGTGACC GAGGATACAG CCGACGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACAGCT CTGCTGAGGG CTCCAGTGGG 
GAGATCCCTG TGGGGGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATTTG GGCTGTCAAG GGCTCCAGGG TCAGCAGGAA GAGCTCCACT 
GTAGCTGAAA CAGATCTGGA TGCTCCTACT AACCTCTTGA CCAGAGAAGT AACCGAGGAT 
ACAGCCGATG TGTCGTGGGA CAGACCTCTA GCGGACATCG ACGGCTACAT GATCAGCTAC 
ACCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGAG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACACCAGCT GAGACAGAAA TTGATTCGCC TAAGAACCTA 
AAAGTGTCAG ATGTTAAGCT GGACGCTGCG ACCCTGACCT GGACTGCTCC CTTAGCCAGA 
ATCGATGGCT ACATCCTCAC ATTCAGAGCT GAGGATGGCA CATTGAAGAC TTTGGAGAAG 
AAGCTGAGGG AAGGAGAGAG CAGGTTTGCC ATGTCAGGCC TGGAGATGGG AAAGAACTAT 
ATTGTTACCC TCCTCGCTTA CAGAGGAGCA AAGAGGAGCA GAGTGATAGA GACCACATTC 
AAAACAGTGG GTTTGTTGCA CCCGTTCCCC ATGGACTGTA ATCAGATTAA GACGAATGGT 
AACATGGCAA GTGGAATCTA CACGATTTAT ATCAACAGTG ATCGCACCAA GCCCATGGAA 
GTGTACTGTG ACATGGACAC TGATGGCGGT GGATGGGTGG TGTTACAAAG ACGCAACAAT 
GGACAGATGG ACTTCATGAA GCGCTGGAGA CCATACATGG CCGGCTTTGG GAACATGACT 
GATGAGTTCT GGCTCGGTCT GGACAATATC TATGAGCTGA CCAATACTCC TACCCAGTAT 
GAGTTGCGAG TGGACCTGGG TGTGGGTTCA GAGAAGGCCT ATGCTGTCTA TGACAACTTC 
AAGATAGCCC CGGCAAAGCA GAAGTTCAAG CTGACCATCG GCAAATACAG AGGAACAGCA 
GGTGATGCCA TGAACTACCA TCAAGGTCGC CCTTTCTCTA CTGTTGACAA TGACAATGAC 
ATTGCTCTTG GTAACTGCGC CCTGACTCAT CGTGGCGCTT GGTGGTACAA GAACTGTCAC 
CTTGCCAACC TGAACGGCAA ATTCGGAGAC AACAGACACA GCATGGGTGT GAACTGGGAG 
CCATGGAAAG GCCACCTGAT GTCTCTTGAT TTCACTGAGA TGAAGATCCG GCCAGTGGGC 
GCCGCCAGGA AGAGGAGGTC GCTTAGCAGC AGAACAGCTC CCAGAAAATA G

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

tnn ( XM_021589500.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021445175.1 Oncorhynchus mykiss tenascin N (tnn), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OOf36832
Clone ID Related Accession (Same CDS sequence)	XM_021589500.1
Accession Version	XM_021589500.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3627bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1498406400000
Organism	Oncorhynchus mykiss(rainbow trout)
Product	tenascin-N isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035104.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATCTG GATGCTCCTA CTAACCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA TGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
GTGATCAGCT ACAGCTCTGC TGAGGGCTCT AGTGGGGAGA TCACTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATCTGGGCT 
GTCAAGGGCT CCCGGGTTAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TCTGGATGCT 
CCTACTAACC TCTTGACCAG AGAAGTAACC GAGGATACAG CCGATGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACACCT CTGCTGAGGG CTCCAGTGGG 
GAGATCACTG TGGGAGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATCTG GGCTGTCAAG GGCTCCCGGG TCAGCAGGAA GAGCTCCACA 
CCAGCTGAGA CAGAAATTGA TTCGCCTAAG AACCTAAAAG TGTCAGATGT TAAGCTGGAC 
GCTGCGACCC TGACCTGGAC TGCTCCCTTA GCCAGAATCG ATGGCTACAT CCTCACATTC 
AGAGCTGAGG ATGGCACATT GAAGACTTTG GAGAAGAAGC TGAGGGAAGG AGAGAGCAGG 
TTTGCCATGT CAGGCCTGGA GATGGGAAAG AACTATATTG TTACCCTCCT CGCTTACAGA 
GGAGCAAAGA GGAGCAGAGT GATAGAGACC ACATTCAAAA CAGTGGGTTT GTTGCACCCG 
TTCCCCATGG ACTGTAATCA GATTAAGACG AATGGTAACA TGGCAAGTGG AATCTACACG 
ATTTATATCA ACAGTGATCG CACCAAGCCC ATGGAAGTGT ACTGTGACAT GGACACTGAT 
GGCGGTGGAT GGGTGGTGTT ACAAAGACGC AACAATGGAC AGATGGACTT CATGAAGCGC 
TGGAGACCAT ACATGGCCGG CTTTGGGAAC ATGACTGATG AGTTCTGGCT CGGTCTGGAC 
AATATCTATG AGCTGACCAA TACTCCTACC CAGTATGAGT TGCGAGTGGA CCTGGGTGTG 
GGTTCAGAGA AGGCCTATGC TGTCTATGAC AACTTCAAGA TAGCCCCGGC AAAGCAGAAG 
TTCAAGCTGA CCATCGGCAA ATACAGAGGA ACAGCAGGTG ATGCCATGAA CTACCATCAA 
GGTCGCCCTT TCTCTACTGT TGACAATGAC AATGACATTG CTCTTGGTAA CTGCGCCCTG 
ACTCATCGTG GCGCTTGGTG GTACAAGAAC TGTCACCTTG CCAACCTGAA CGGCAAATTC 
GGAGACAACA GACACAGCAT GGGTGTGAAC TGGGAGCCAT GGAAAGGCCA CCTGATGTCT 
CTTGATTTCA CTGAGATGAA GATCCGGCCA GTGGGCGCCG CCAGGAAGAG GAGGTCGCTT 
AGCAGCAGAA CAGCTCCCAG AAAATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021445175.1
CDS	248..3874
Translation	MTTRLHWLSRALCLIGILCTVTTTYVTEDSPAPAEKGVTFSHIYKIDLTKSPGCKLALQTMPHQQDQGLGLQELEGGPTLEGDKDIVFRHQINLKTSKCDCDESERFKSLLYRVIGLEEEVEHLKSQCSQGFCGGKGGGAGGVDTSCSGHGTYQHDTCSCQCNPGWEGPDCSVSTCPDECNDHGRCVDGKCVCLAGYMGSDCSQLMCPGDCNDKGYCVDGKCVCFSHFTGEDCSEQKCSPDCVHGTCVNGMCICDEGFFGDDCSAVFGPNGLRLVRVTDVSLLVEWQAVRAAEYYVLTWHPEGNEAELEQVTVPNTETSYLITGLRPGVTYVVQVYAVIKEIQSEGDRIEATTVVSGIDGIRVLGQTEDSIQVDWQNPAAPLDHFRLTHANPDGQEEEQIVPMSAEARTTNTIVGLQPGTEYLITVQGIKGTIEGKASFVTGVTDLDAPTNLLTKEVTEDTATVEWQKVQAEIDGYMISYSSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTEAETDLDAPANLLTREVTEDTMTVTWEKVQAEIESYVISYTSAEGSSGEIHVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDSYMISYSSAEGSSGEIPVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYVISYSSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYMISYTSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTPAETEIDSPKNLKVSDVKLDAATLTWTAPLARIDGYILTFRAEDGTLKTLEKKLREGESRFAMSGLEMGKNYIVTLLAYRGAKRSRVIETTFKTVGLLHPFPMDCNQIKTNGNMASGIYTIYINSDRTKPMEVYCDMDTDGGGWVVLQRRNNGQMDFMKRWRPYMAGFGNMTDEFWLGLDNIYELTNTPTQYELRVDLGVGSEKAYAVYDNFKIAPAKQKFKLTIGKYRGTAGDAMNYHQGRPFSTVDNDNDIALGNCALTHRGAWWYKNCHLANLNGKFGDNRHSMGVNWEPWKGHLMSLDFTEMKIRPVGAARKRRSLSSRTAPRK

Target ORF information:

RefSeq Version	XM_021589500.1
Organism	Oncorhynchus mykiss(rainbow trout)
Definition	Oncorhynchus mykiss tenascin N (tnn), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021589500.1

ORF Insert Sequence:

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATCTG GATGCTCCTA CTAACCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA TGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
GTGATCAGCT ACAGCTCTGC TGAGGGCTCT AGTGGGGAGA TCACTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATCTGGGCT 
GTCAAGGGCT CCCGGGTTAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TCTGGATGCT 
CCTACTAACC TCTTGACCAG AGAAGTAACC GAGGATACAG CCGATGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACACCT CTGCTGAGGG CTCCAGTGGG 
GAGATCACTG TGGGAGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATCTG GGCTGTCAAG GGCTCCCGGG TCAGCAGGAA GAGCTCCACA 
CCAGCTGAGA CAGAAATTGA TTCGCCTAAG AACCTAAAAG TGTCAGATGT TAAGCTGGAC 
GCTGCGACCC TGACCTGGAC TGCTCCCTTA GCCAGAATCG ATGGCTACAT CCTCACATTC 
AGAGCTGAGG ATGGCACATT GAAGACTTTG GAGAAGAAGC TGAGGGAAGG AGAGAGCAGG 
TTTGCCATGT CAGGCCTGGA GATGGGAAAG AACTATATTG TTACCCTCCT CGCTTACAGA 
GGAGCAAAGA GGAGCAGAGT GATAGAGACC ACATTCAAAA CAGTGGGTTT GTTGCACCCG 
TTCCCCATGG ACTGTAATCA GATTAAGACG AATGGTAACA TGGCAAGTGG AATCTACACG 
ATTTATATCA ACAGTGATCG CACCAAGCCC ATGGAAGTGT ACTGTGACAT GGACACTGAT 
GGCGGTGGAT GGGTGGTGTT ACAAAGACGC AACAATGGAC AGATGGACTT CATGAAGCGC 
TGGAGACCAT ACATGGCCGG CTTTGGGAAC ATGACTGATG AGTTCTGGCT CGGTCTGGAC 
AATATCTATG AGCTGACCAA TACTCCTACC CAGTATGAGT TGCGAGTGGA CCTGGGTGTG 
GGTTCAGAGA AGGCCTATGC TGTCTATGAC AACTTCAAGA TAGCCCCGGC AAAGCAGAAG 
TTCAAGCTGA CCATCGGCAA ATACAGAGGA ACAGCAGGTG ATGCCATGAA CTACCATCAA 
GGTCGCCCTT TCTCTACTGT TGACAATGAC AATGACATTG CTCTTGGTAA CTGCGCCCTG 
ACTCATCGTG GCGCTTGGTG GTACAAGAAC TGTCACCTTG CCAACCTGAA CGGCAAATTC 
GGAGACAACA GACACAGCAT GGGTGTGAAC TGGGAGCCAT GGAAAGGCCA CCTGATGTCT 
CTTGATTTCA CTGAGATGAA GATCCGGCCA GTGGGCGCCG CCAGGAAGAG GAGGTCGCTT 
AGCAGCAGAA CAGCTCCCAG AAAATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

tnn ( XM_021589501.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021445176.1 Oncorhynchus mykiss tenascin N (tnn), transcript variant X3, mRNA.

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CloneID	OOf36833
Clone ID Related Accession (Same CDS sequence)	XM_021589501.1
Accession Version	XM_021589501.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3627bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1498406400000
Organism	Oncorhynchus mykiss(rainbow trout)
Product	tenascin-N isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035104.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATTTG GATGCTCCTA CTAATCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA CGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
ATGATCAGCT ACAGCTCTGC TGAGGGCTCC AGTGGGGAGA TCCCTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATTTGGGCT 
GTCAAGGGCT CCAGGGTCAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TCTGGATGCT 
CCTACTAACC TCTTGACCAG AGAAGTAACC GAGGATACAG CCGATGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACACCT CTGCTGAGGG CTCCAGTGGG 
GAGATCACTG TGGGAGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATCTG GGCTGTCAAG GGCTCCCGGG TCAGCAGGAA GAGCTCCACA 
CCAGCTGAGA CAGAAATTGA TTCGCCTAAG AACCTAAAAG TGTCAGATGT TAAGCTGGAC 
GCTGCGACCC TGACCTGGAC TGCTCCCTTA GCCAGAATCG ATGGCTACAT CCTCACATTC 
AGAGCTGAGG ATGGCACATT GAAGACTTTG GAGAAGAAGC TGAGGGAAGG AGAGAGCAGG 
TTTGCCATGT CAGGCCTGGA GATGGGAAAG AACTATATTG TTACCCTCCT CGCTTACAGA 
GGAGCAAAGA GGAGCAGAGT GATAGAGACC ACATTCAAAA CAGTGGGTTT GTTGCACCCG 
TTCCCCATGG ACTGTAATCA GATTAAGACG AATGGTAACA TGGCAAGTGG AATCTACACG 
ATTTATATCA ACAGTGATCG CACCAAGCCC ATGGAAGTGT ACTGTGACAT GGACACTGAT 
GGCGGTGGAT GGGTGGTGTT ACAAAGACGC AACAATGGAC AGATGGACTT CATGAAGCGC 
TGGAGACCAT ACATGGCCGG CTTTGGGAAC ATGACTGATG AGTTCTGGCT CGGTCTGGAC 
AATATCTATG AGCTGACCAA TACTCCTACC CAGTATGAGT TGCGAGTGGA CCTGGGTGTG 
GGTTCAGAGA AGGCCTATGC TGTCTATGAC AACTTCAAGA TAGCCCCGGC AAAGCAGAAG 
TTCAAGCTGA CCATCGGCAA ATACAGAGGA ACAGCAGGTG ATGCCATGAA CTACCATCAA 
GGTCGCCCTT TCTCTACTGT TGACAATGAC AATGACATTG CTCTTGGTAA CTGCGCCCTG 
ACTCATCGTG GCGCTTGGTG GTACAAGAAC TGTCACCTTG CCAACCTGAA CGGCAAATTC 
GGAGACAACA GACACAGCAT GGGTGTGAAC TGGGAGCCAT GGAAAGGCCA CCTGATGTCT 
CTTGATTTCA CTGAGATGAA GATCCGGCCA GTGGGCGCCG CCAGGAAGAG GAGGTCGCTT 
AGCAGCAGAA CAGCTCCCAG AAAATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_021445176.1
CDS	249..3875
Translation	MTTRLHWLSRALCLIGILCTVTTTYVTEDSPAPAEKGVTFSHIYKIDLTKSPGCKLALQTMPHQQDQGLGLQELEGGPTLEGDKDIVFRHQINLKTSKCDCDESERFKSLLYRVIGLEEEVEHLKSQCSQGFCGGKGGGAGGVDTSCSGHGTYQHDTCSCQCNPGWEGPDCSVSTCPDECNDHGRCVDGKCVCLAGYMGSDCSQLMCPGDCNDKGYCVDGKCVCFSHFTGEDCSEQKCSPDCVHGTCVNGMCICDEGFFGDDCSAVFGPNGLRLVRVTDVSLLVEWQAVRAAEYYVLTWHPEGNEAELEQVTVPNTETSYLITGLRPGVTYVVQVYAVIKEIQSEGDRIEATTVVSGIDGIRVLGQTEDSIQVDWQNPAAPLDHFRLTHANPDGQEEEQIVPMSAEARTTNTIVGLQPGTEYLITVQGIKGTIEGKASFVTGVTDLDAPTNLLTKEVTEDTATVEWQKVQAEIDGYMISYSSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTEAETDLDAPANLLTREVTEDTMTVTWEKVQAEIESYVISYTSAEGSSGEIHVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDSYMISYSSAEGSSGEIPVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYMISYSSAEGSSGEIPVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTVAETDLDAPTNLLTREVTEDTADVSWDRPLADIDGYMISYTSAEGSSGEITVGADSSSYRLTGLRPGVIYTVYIWAVKGSRVSRKSSTPAETEIDSPKNLKVSDVKLDAATLTWTAPLARIDGYILTFRAEDGTLKTLEKKLREGESRFAMSGLEMGKNYIVTLLAYRGAKRSRVIETTFKTVGLLHPFPMDCNQIKTNGNMASGIYTIYINSDRTKPMEVYCDMDTDGGGWVVLQRRNNGQMDFMKRWRPYMAGFGNMTDEFWLGLDNIYELTNTPTQYELRVDLGVGSEKAYAVYDNFKIAPAKQKFKLTIGKYRGTAGDAMNYHQGRPFSTVDNDNDIALGNCALTHRGAWWYKNCHLANLNGKFGDNRHSMGVNWEPWKGHLMSLDFTEMKIRPVGAARKRRSLSSRTAPRK

Target ORF information:

RefSeq Version	XM_021589501.1
Organism	Oncorhynchus mykiss(rainbow trout)
Definition	Oncorhynchus mykiss tenascin N (tnn), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_021589501.1

ORF Insert Sequence:

ATGACTACTA GACTTCACTG GCTCTCAAGA GCCCTCTGCC TGATAGGCAT ACTGTGCACT 
GTCACTACCA CATATGTGAC AGAAGATTCT CCAGCCCCCG CTGAGAAAGG AGTCACCTTC 
AGCCACATCT ATAAGATAGA CCTGACCAAG AGCCCTGGCT GTAAATTGGC CTTGCAGACC 
ATGCCTCACC AGCAGGACCA GGGGTTAGGT CTGCAAGAGC TGGAGGGGGG CCCTACTCTG 
GAGGGGGACA AGGACATAGT ATTCAGGCAC CAAATCAACC TCAAGACCTC AAAGTGTGAC 
TGTGATGAGT CGGAGCGCTT CAAGTCTTTG CTGTACAGAG TCATCGGGCT GGAGGAGGAG 
GTGGAACACC TGAAGAGTCA GTGCTCCCAG GGCTTCTGTG GTGGCAAAGG TGGTGGAGCA 
GGAGGTGTGG ACACTAGCTG TAGTGGCCAT GGGACCTACC AGCACGACAC CTGCAGCTGC 
CAATGTAACC CTGGCTGGGA AGGCCCAGAC TGCTCCGTCT CCACCTGTCC TGATGAGTGC 
AACGACCATG GGCGCTGTGT GGATGGCAAG TGTGTGTGCC TTGCTGGCTA CATGGGGAGT 
GACTGCAGCC AGCTGATGTG CCCAGGTGAC TGCAACGATA AGGGATACTG CGTGGACGGG 
AAGTGTGTGT GCTTCAGCCA CTTCACCGGC GAAGACTGCA GCGAACAGAA ATGCAGTCCT 
GACTGCGTCC ACGGTACCTG CGTGAATGGA ATGTGTATCT GTGACGAGGG CTTCTTCGGG 
GATGACTGCT CTGCAGTGTT TGGCCCTAAC GGCCTGCGTC TGGTCAGGGT GACTGATGTC 
TCGCTACTGG TAGAGTGGCA GGCGGTGAGA GCAGCAGAGT ACTACGTCTT GACCTGGCAC 
CCTGAGGGCA ACGAGGCAGA GCTGGAGCAG GTCACCGTTC CCAACACAGA GACCTCCTAC 
CTGATCACCG GTCTTAGGCC GGGGGTCACC TACGTAGTGC AGGTGTACGC TGTCATCAAG 
GAGATCCAGA GCGAGGGGGA CAGGATAGAG GCGACCACAG TGGTGTCTGG TATTGATGGT 
ATCCGGGTAT TGGGCCAGAC TGAGGACTCT ATCCAGGTGG ACTGGCAGAA CCCTGCAGCA 
CCTCTGGACC ACTTCAGACT AACCCATGCT AACCCTGACG GGCAGGAGGA GGAGCAGATC 
GTACCTATGA GTGCAGAGGC CAGGACCACC AACACCATCG TAGGACTGCA ACCTGGCACT 
GAGTACCTCA TCACAGTGCA AGGCATCAAA GGCACCATCG AGGGGAAAGC CTCCTTCGTC 
ACCGGGGTCA CAGATCTTGA CGCTCCTACG AACCTCTTGA CCAAAGAAGT GACAGAGGAC 
ACTGCTACCG TGGAATGGCA GAAGGTACAA GCAGAGATCG ACGGCTACAT GATCAGCTAC 
AGCTCTGCTG AGGGCTCCAG TGGGGAGATC ACTGTGGGGG CAGACAGCAG CTCCTACAGG 
CTGACTGGGC TGAGGCCTGG AGTCATCTAC ACAGTCTACA TCTGGGCTGT CAAGGGCTCC 
CGGGTCAGCA GGAAGAGCTC CACAGAAGCT GAGACAGATC TGGATGCTCC TGCTAACCTG 
TTGACCAGAG AAGTGACAGA GGACACAATG ACAGTAACAT GGGAAAAAGT CCAGGCTGAA 
ATTGAAAGCT ATGTGATCAG CTACACCTCT GCTGAGGGCT CCAGTGGGGA GATCCATGTG 
GGGGCAGACA GCAGCTCCTA CAGGCTGACT GGGCTGAGGC CTGGAGTCAT CTACACAGTC 
TACATCTGGG CTGTCAAGGG CTCCCGGGTC AGCAGGAAGA GCTCCACTGT AGCTGAGACA 
GATCTGGATG CTCCTACTAA CCTCTTGACC AGAGAAGTGA CCGAGGATAC AGCCGATGTG 
TCGTGGGACA GACCTCTAGC GGACATCGAC AGCTACATGA TCAGCTACAG CTCTGCTGAG 
GGCTCCAGTG GGGAGATCCC TGTGGGGGCA GACAGCAGCT CCTACAGGCT GACTGGGCTG 
AGGCCTGGAG TCATCTACAC AGTCTACATC TGGGCTGTCA AGGGCTCCAG GGTCAGCAGG 
AAGAGCTCCA CTGTAGCTGA AACAGATTTG GATGCTCCTA CTAATCTCTT GACCAGAGAA 
GTGACCGAGG ATACAGCCGA CGTGTCGTGG GACAGACCTC TAGCGGACAT CGACGGCTAC 
ATGATCAGCT ACAGCTCTGC TGAGGGCTCC AGTGGGGAGA TCCCTGTGGG GGCAGACAGC 
AGCTCCTACA GGCTGACTGG GCTGAGGCCT GGAGTCATCT ACACAGTCTA CATTTGGGCT 
GTCAAGGGCT CCAGGGTCAG CAGGAAGAGC TCCACTGTAG CTGAAACAGA TCTGGATGCT 
CCTACTAACC TCTTGACCAG AGAAGTAACC GAGGATACAG CCGATGTGTC GTGGGACAGA 
CCTCTAGCGG ACATCGACGG CTACATGATC AGCTACACCT CTGCTGAGGG CTCCAGTGGG 
GAGATCACTG TGGGAGCAGA CAGCAGCTCC TACAGGCTGA CTGGGCTGAG GCCTGGAGTC 
ATCTACACAG TCTACATCTG GGCTGTCAAG GGCTCCCGGG TCAGCAGGAA GAGCTCCACA 
CCAGCTGAGA CAGAAATTGA TTCGCCTAAG AACCTAAAAG TGTCAGATGT TAAGCTGGAC 
GCTGCGACCC TGACCTGGAC TGCTCCCTTA GCCAGAATCG ATGGCTACAT CCTCACATTC 
AGAGCTGAGG ATGGCACATT GAAGACTTTG GAGAAGAAGC TGAGGGAAGG AGAGAGCAGG 
TTTGCCATGT CAGGCCTGGA GATGGGAAAG AACTATATTG TTACCCTCCT CGCTTACAGA 
GGAGCAAAGA GGAGCAGAGT GATAGAGACC ACATTCAAAA CAGTGGGTTT GTTGCACCCG 
TTCCCCATGG ACTGTAATCA GATTAAGACG AATGGTAACA TGGCAAGTGG AATCTACACG 
ATTTATATCA ACAGTGATCG CACCAAGCCC ATGGAAGTGT ACTGTGACAT GGACACTGAT 
GGCGGTGGAT GGGTGGTGTT ACAAAGACGC AACAATGGAC AGATGGACTT CATGAAGCGC 
TGGAGACCAT ACATGGCCGG CTTTGGGAAC ATGACTGATG AGTTCTGGCT CGGTCTGGAC 
AATATCTATG AGCTGACCAA TACTCCTACC CAGTATGAGT TGCGAGTGGA CCTGGGTGTG 
GGTTCAGAGA AGGCCTATGC TGTCTATGAC AACTTCAAGA TAGCCCCGGC AAAGCAGAAG 
TTCAAGCTGA CCATCGGCAA ATACAGAGGA ACAGCAGGTG ATGCCATGAA CTACCATCAA 
GGTCGCCCTT TCTCTACTGT TGACAATGAC AATGACATTG CTCTTGGTAA CTGCGCCCTG 
ACTCATCGTG GCGCTTGGTG GTACAAGAAC TGTCACCTTG CCAACCTGAA CGGCAAATTC 
GGAGACAACA GACACAGCAT GGGTGTGAAC TGGGAGCCAT GGAAAGGCCA CCTGATGTCT 
CTTGATTTCA CTGAGATGAA GATCCGGCCA GTGGGCGCCG CCAGGAAGAG GAGGTCGCTT 
AGCAGCAGAA CAGCTCCCAG AAAATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

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tnn cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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