IL31RA cDNA ORF clone,

Gene
Clones
gRNAs

The following IL31RA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IL31RA 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)	Select
OEm53451	XM_026120908.1 Latest version!	Dromaius novaehollandiae interleukin 31 receptor A (IL31RA), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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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)

IL31RA ( XM_026120908.1 ) cDNA ORF clone, -> XP_025976693.1 Dromaius novaehollandiae interleukin 31 receptor A (IL31RA), mRNA.

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CloneID	OEm53451
Clone ID Related Accession (Same CDS sequence)	XM_026120908.1
Accession Version	XM_026120908.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2622bp) 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	2018-08-08
Organism	Dromaius novaehollandiae(emu)
Product	interleukin-31 receptor subunit alpha
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020453871.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Dromaius novaehollandiae Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCTACT ATTTGATTTG GATGCTTGTC CTRCTCTCCA GCAGCTCTGC AACAGATGAA 
AACTCTGTCA GAGATGCTGA CATTTTCCCT TCATCTCCTG AAATTGAAAG AGGATCCACC 
CTGAAACTAT TTTGTGTTCT TGGAAAACAC TACATGCCTC ACAGAAATGC AAGCCACATC 
ATCTGGAAAT TGAATCATGA ACTGATTGCT CAGGAAAACT ATAATGTTGT CAACGAGACT 
GTATCTAGCG TAACCATCCA TAATTTCACT TACAACAAAG CACATGTGAA ATGTTTTATT 
AAGTATCTAG GCAAAGAACA ACTTTTGGTT CACACTGAAG TTAAATCTGG CTTTCCGCCG 
GACACACCAG GAAATATTTC CTGCATTTAT TACTTCAATG TTGAACTTGC TTGTAGCTGG 
ACTTCAGGAA GACAAACGAA TCTTACAACA AACTATACTC TTTATAGAAA AATGATGAGA 
GAACAAGGTG TGACTATTCC AAATATGGTT GGCTCCAGCT GCCAAAGCAA AACTGAGTCA 
TGTTCATTTT ATTACCCAAA TACCCCATAT AGCAGTTCTT TTTGTTTTCA GGTGAAAGCT 
GAAAATGTTT TGGGTGAAGC ATCATCAGAT TGTGTTCCTA TAGCTTTGGA AAAAATAGAG 
AAATTTAAAT TTCCGCCTGA AATACTTTCA GTAAAAAAAA TTGCTGGTGT AAAGCAGTTG 
CTCGCAGTAA CCTGGAAAAA ACCTGAGAAG ATTATACCTT CTCAAGACTT AAACTGCCGG 
GTTCGATACA GGAACTTGTA TTCGAACTCT TCGGAAACTG TTCCTGTCAC CCTGACTTCT 
GGAGAGAAAA TAGCATCACT TAATCTCACA GGTCTGTGGG ATTCCACAGA GTATGCAGTT 
GCCATTCAGT GTATCAGTGT TGAATCAAAA TTCTGGAGTG AATGGAGTAG AGAGAAAATG 
GCAAGCACAG AAGAGAAAGC TCCCTCAGAA AAAGTGGATT TGTGGAGGGT AATTGAATCT 
TCATGCTCAG CTGGAAATAG ATCTGTACAT CTTATGTGGA AGCTATTAAA TCACTTTCCA 
CCACCTGGGA GAATTCTAGG CTACAGAATA CAGTATTTTC CAGAAAACAA TGCTTCTCTT 
AWGATGATGA ACATCACTAC TAATAAGAAA ATTACTTTAC TTTTAAATGA TGAGGCGTAT 
ATAATATCTG TTATTGCCTA TAATTCTGCT GGAGATTCTC CTGAAGCTAC TTTGAGGATT 
CCATCTACTG ATGAAAAAAC TGCTCAGATT ATTGAGGCAG CGAGGACCTT TACAGCAAAT 
GAAGAAGTGG TTGTGGAATG GATGGCCTCC AGATCAGAAG TAACCAGATA TGTTGTTGAG 
TGGTATGAGG ACCTGGAGAT GGATCCTTTT TGTAGATCAT GGCTATATAT ATCAAATTCT 
ACAAACTGGA GAACTAACAA GAAAACCTTT AAACCATTTA TATGCTATAA CATCTCAGTG 
TATCCTCTCT ATGGAAATAA AGTAGGAGCT CCATATTCCA TGCAAACTTA TGTTCAAGAA 
AAAAAACCAT CAGAAGGACC TGTGGCTGAC ACAGGCATTC CAGGCAAAAA TGAAATTACA 
ATTAAATGGA AGGAAATTTC AAAGGATAAA CGAAATGGCT TTATCAGTAA CTATACAATA 
TTTTATAAAC CTGAAGGTGG AAAAGAATTG AATGAAACGG TGAACCCTGA TGTTCTGCAA 
TACAGACTGA AGTCCTTACA AGCGAATACC CAATATACAG TTCATATCAT GGCAACCAAT 
GAAGCTGGCG GAACCATGGG AGAACCAAAA ACCTTCAAGA CTTTGAAATT CAATGAAGAC 
GACATTATTT TCATTGCTGT ACTAGTTGGA TTAAGTATGT TGGTTTTGTT AGTCCTTTGG 
ATAACATGTA TTCTTAAAAA GCATGTGTTG AAAAAAGTTT GTTGGCCTGA CGTACCTAAT 
CCTGCAGAGA GCATTGCAGT AGAATGGCCT CTTGATGCAT CTATGAATAA TTCATTCCTG 
AAGGAAGTAA TGTCTGAGGA TAAAACCATA GGTGGCTTGG AAGATGTAAG TGTTTTGGAA 
CCCTGTTTTC CTGAAGAACA TGAAGACTCA CTACTAATGA ATCGTGAAAA CCATGTTTCA 
GAATATACTG ATACTAATAC AAAAGACATG ATTAATGGAG ATAAAACGAT ACCATATAAT 
GAAGAACATG AAGCTGCCAA GCATCTTTCA CCATCCATGC CTTATACAAT TTCTGACCAA 
GATTTCAGAA GTCAAGTGCT TTCAAATTTG ATACCAGCCA AGCAAATTCA ACCCATAGAA 
ATGCTGGAAG ATGATTTACA TGAATCCCAA CATACTTCAC ATCAAAATGA AGAAAATAAG 
GAAGAAGCTT TAAACCTCTC AGATCTCAAT GAAAAAGCAG TGTTCAATCC ATACCTTAAA 
AATTCTGTTA ATACAAGGGA ATTTCTCGTT TCTGAGAACT TGCCAGAACA CAGTAAGAAT 
GAACCCAAAA GCCAGTCAAC TGCCATATCT CCTTTTCAAC AAAATGTTGT AGGACAATCC 
TATGTAACAC TGGACGTGGT TAGGCTGGCC ACAGCTCATT AG

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

RefSeq	XP_025976693.1
CDS	560..3181
Translation	MFYYLIWMLVnullLSSSSATDENSVRDADIFPSSPEIERGSTLKLFCVLGKHYMPHRNASHIIWKLNHELIAQENYNVVNETVSSVTIHNFTYNKAHVKCFIKYLGKEQLLVHTEVKSGFPPDTPGNISCIYYFNVELACSWTSGRQTNLTTNYTLYRKMMREQGVTIPNMVGSSCQSKTESCSFYYPNTPYSSSFCFQVKAENVLGEASSDCVPIALEKIEKFKFPPEILSVKKIAGVKQLLAVTWKKPEKIIPSQDLNCRVRYRNLYSNSSETVPVTLTSGEKIASLNLTGLWDSTEYAVAIQCISVESKFWSEWSREKMASTEEKAPSEKVDLWRVIESSCSAGNRSVHLMWKLLNHFPPPGRILGYRIQYFPENNASLnullMMNITTNKKITLLLNDEAYIISVIAYNSAGDSPEATLRIPSTDEKTAQIIEAARTFTANEEVVVEWMASRSEVTRYVVEWYEDLEMDPFCRSWLYISNSTNWRTNKKTFKPFICYNISVYPLYGNKVGAPYSMQTYVQEKKPSEGPVADTGIPGKNEITIKWKEISKDKRNGFISNYTIFYKPEGGKELNETVNPDVLQYRLKSLQANTQYTVHIMATNEAGGTMGEPKTFKTLKFNEDDIIFIAVLVGLSMLVLLVLWITCILKKHVLKKVCWPDVPNPAESIAVEWPLDASMNNSFLKEVMSEDKTIGGLEDVSVLEPCFPEEHEDSLLMNRENHVSEYTDTNTKDMINGDKTIPYNEEHEAAKHLSPSMPYTISDQDFRSQVLSNLIPAKQIQPIEMLEDDLHESQHTSHQNEENKEEALNLSDLNEKAVFNPYLKNSVNTREFLVSENLPEHSKNEPKSQSTAISPFQQNVVGQSYVTLDVVRLATAH

Target ORF information:

RefSeq Version	XM_026120908.1
Organism	Dromaius novaehollandiae(emu)
Definition	Dromaius novaehollandiae interleukin 31 receptor A (IL31RA), mRNA.

Target ORF information:

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

XM_026120908.1

ORF Insert Sequence:

ATGTTCTACT ATTTGATTTG GATGCTTGTC CTRCTCTCCA GCAGCTCTGC AACAGATGAA 
AACTCTGTCA GAGATGCTGA CATTTTCCCT TCATCTCCTG AAATTGAAAG AGGATCCACC 
CTGAAACTAT TTTGTGTTCT TGGAAAACAC TACATGCCTC ACAGAAATGC AAGCCACATC 
ATCTGGAAAT TGAATCATGA ACTGATTGCT CAGGAAAACT ATAATGTTGT CAACGAGACT 
GTATCTAGCG TAACCATCCA TAATTTCACT TACAACAAAG CACATGTGAA ATGTTTTATT 
AAGTATCTAG GCAAAGAACA ACTTTTGGTT CACACTGAAG TTAAATCTGG CTTTCCGCCG 
GACACACCAG GAAATATTTC CTGCATTTAT TACTTCAATG TTGAACTTGC TTGTAGCTGG 
ACTTCAGGAA GACAAACGAA TCTTACAACA AACTATACTC TTTATAGAAA AATGATGAGA 
GAACAAGGTG TGACTATTCC AAATATGGTT GGCTCCAGCT GCCAAAGCAA AACTGAGTCA 
TGTTCATTTT ATTACCCAAA TACCCCATAT AGCAGTTCTT TTTGTTTTCA GGTGAAAGCT 
GAAAATGTTT TGGGTGAAGC ATCATCAGAT TGTGTTCCTA TAGCTTTGGA AAAAATAGAG 
AAATTTAAAT TTCCGCCTGA AATACTTTCA GTAAAAAAAA TTGCTGGTGT AAAGCAGTTG 
CTCGCAGTAA CCTGGAAAAA ACCTGAGAAG ATTATACCTT CTCAAGACTT AAACTGCCGG 
GTTCGATACA GGAACTTGTA TTCGAACTCT TCGGAAACTG TTCCTGTCAC CCTGACTTCT 
GGAGAGAAAA TAGCATCACT TAATCTCACA GGTCTGTGGG ATTCCACAGA GTATGCAGTT 
GCCATTCAGT GTATCAGTGT TGAATCAAAA TTCTGGAGTG AATGGAGTAG AGAGAAAATG 
GCAAGCACAG AAGAGAAAGC TCCCTCAGAA AAAGTGGATT TGTGGAGGGT AATTGAATCT 
TCATGCTCAG CTGGAAATAG ATCTGTACAT CTTATGTGGA AGCTATTAAA TCACTTTCCA 
CCACCTGGGA GAATTCTAGG CTACAGAATA CAGTATTTTC CAGAAAACAA TGCTTCTCTT 
AWGATGATGA ACATCACTAC TAATAAGAAA ATTACTTTAC TTTTAAATGA TGAGGCGTAT 
ATAATATCTG TTATTGCCTA TAATTCTGCT GGAGATTCTC CTGAAGCTAC TTTGAGGATT 
CCATCTACTG ATGAAAAAAC TGCTCAGATT ATTGAGGCAG CGAGGACCTT TACAGCAAAT 
GAAGAAGTGG TTGTGGAATG GATGGCCTCC AGATCAGAAG TAACCAGATA TGTTGTTGAG 
TGGTATGAGG ACCTGGAGAT GGATCCTTTT TGTAGATCAT GGCTATATAT ATCAAATTCT 
ACAAACTGGA GAACTAACAA GAAAACCTTT AAACCATTTA TATGCTATAA CATCTCAGTG 
TATCCTCTCT ATGGAAATAA AGTAGGAGCT CCATATTCCA TGCAAACTTA TGTTCAAGAA 
AAAAAACCAT CAGAAGGACC TGTGGCTGAC ACAGGCATTC CAGGCAAAAA TGAAATTACA 
ATTAAATGGA AGGAAATTTC AAAGGATAAA CGAAATGGCT TTATCAGTAA CTATACAATA 
TTTTATAAAC CTGAAGGTGG AAAAGAATTG AATGAAACGG TGAACCCTGA TGTTCTGCAA 
TACAGACTGA AGTCCTTACA AGCGAATACC CAATATACAG TTCATATCAT GGCAACCAAT 
GAAGCTGGCG GAACCATGGG AGAACCAAAA ACCTTCAAGA CTTTGAAATT CAATGAAGAC 
GACATTATTT TCATTGCTGT ACTAGTTGGA TTAAGTATGT TGGTTTTGTT AGTCCTTTGG 
ATAACATGTA TTCTTAAAAA GCATGTGTTG AAAAAAGTTT GTTGGCCTGA CGTACCTAAT 
CCTGCAGAGA GCATTGCAGT AGAATGGCCT CTTGATGCAT CTATGAATAA TTCATTCCTG 
AAGGAAGTAA TGTCTGAGGA TAAAACCATA GGTGGCTTGG AAGATGTAAG TGTTTTGGAA 
CCCTGTTTTC CTGAAGAACA TGAAGACTCA CTACTAATGA ATCGTGAAAA CCATGTTTCA 
GAATATACTG ATACTAATAC AAAAGACATG ATTAATGGAG ATAAAACGAT ACCATATAAT 
GAAGAACATG AAGCTGCCAA GCATCTTTCA CCATCCATGC CTTATACAAT TTCTGACCAA 
GATTTCAGAA GTCAAGTGCT TTCAAATTTG ATACCAGCCA AGCAAATTCA ACCCATAGAA 
ATGCTGGAAG ATGATTTACA TGAATCCCAA CATACTTCAC ATCAAAATGA AGAAAATAAG 
GAAGAAGCTT TAAACCTCTC AGATCTCAAT GAAAAAGCAG TGTTCAATCC ATACCTTAAA 
AATTCTGTTA ATACAAGGGA ATTTCTCGTT TCTGAGAACT TGCCAGAACA CAGTAAGAAT 
GAACCCAAAA GCCAGTCAAC TGCCATATCT CCTTTTCAAC AAAATGTTGT AGGACAATCC 
TATGTAACAC TGGACGTGGT TAGGCTGGCC ACAGCTCATT AG