| Gene Symbol | HIP1R |
| Entrez Gene ID | 100231441 |
| Full Name | huntingtin interacting protein 1 related |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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HIP1R cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following HIP1R gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HIP1R 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.
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Reference Sequences (Refseq)
CloneID OTd20057 Clone ID Related Accession (Same CDS sequence) XM_012577961.1 Accession Version XM_012577961.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3147bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product huntingtin-interacting protein 1-related protein Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197394.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 15% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGGGCATCT ACGCATCCCT GCCTAGCCCC GGCCCCACCG ACACCGGGGA TGTTTCGCAC
CGGGGCTGGA TCCACCCCTA CCCCGCGGCT CCTGGTCACC CGCGGGTCAC CCTGCGGGGA
TCGGGGTGTT TGGACCCACG GACGTGGCAG AGTGGAAACA AAGCCCAAAG GCGTTCGTGC
TCCATCGTGT CCGCCTCGGC GGGGGTGTCC GTGCTCCTGT GGCCCCCACG GGGCTGTGCA
TTCATCGCAG ATGTTTTCCC CTCTGTCCCT TTGCTTTGCG GTTCCTTCCT CAGGCCCTGG
GCTGGTTTGG CCCCGGAGAG CGCCAGTGGA GGCAGTGCCC CGCTGGGCAC CGCTGCTGAA
CGTGCCCGGT ACGAACGGGG CCCTGCTCCC CCCGGCCTTC CAGGGCACTT CGGGCTTTTC
ACTGGGATTC GTGCTCTGGA GATCCGCGTC CTCACAGGGA TGCTTGGTGC TTCAGCCATC
AGCATCAGCA AAGCCATAAA CACACAGGAA GCACCAGTGA AGGAGAAACA TGCCCGCCGG
ATCATCCTGG GGACACACCA CGAGAAGGGA GCGTTCACCT TCTGGTCCTA CGCCATCGGG
CTGCCCCTGC CCAGCAGTGC CATCCTCAGC TGGAAGTTCT GCCACGTCCT GCACAAGGTC
CTGCGTGATG GCCACCCCAA CGTTCTCCAG GACTGCCAGA GGTACCGCAG CAACATCCGA
GAGACGGGGG ACCTGTGGGG CCATTTGCAC GACAGGTACG GGCAGCTGGT GAGCATCTAC
ACACGACTCC TGCTCACCAA GATCTCCTTC CATGTCAAGC ATCCCGAGTT CCCCCCAGGC
CTCGAAGTGT CGGATGAGGT GCTGGAAAAG ACTGCAGGGA CGGACGTGAA CAACATCTTC
CAGCTGACGG TCGAGCTGTT TGACTACCTG GACTGTGAGC TGAAGCTGTC GGAGTCAGTT
TTCAGGCAGC TCAACACCTC GATGGCCGTG TCGCAGATGT CGGCGGTGCA GTGCCGCCTG
GCCCCCCTCA TCCAGGTCAT CCAGGACTGC AGCCACCTCT ACCACTACTC CGTCAAGTTA
ATGTTCAAGC TGCACTCCTG TGACCCCCTT TCATCTCCCC CTTGTTTTTC CCTCCTCTGC
AGCCTTAAAA ACTTCTTTAG GAAGGCATCT GACATGCTGT ATTTCAAGCG GCTCATCCAG
ATCCCCCGGC TGCCGGAGAG CCCCCCAAAC TTCCTGCGGG CGTCCGCGCT GGCCGAGCAC
GTGAAGCCGG TCGTTGTCAT CCCCGAGGAG GCCCCCGAGG ATGAGGAGCC AGAGAACCTC
ATTGAGATCA GCACAACTTC CACCACAGAG CCACAGATCA CCTCGGATCT GTTTGAGCAA
ACCTTCGGGC CGCCCAACGG CGTTTGGGAT GACAGGGATG CACAGATCGA GAGCCTGAAG
AAGGAGGTGG AAACGCTCCG TGCAGAGATG GAGAAGATTA AACTGGAGGC ACAGCGCTAC
ATCACCCAGC TGAAGGCACA GGTGAACAGC CTGGAGGGAG AGGTGGAGGA GCAGCGCAAG
CAGAAGCAGA AGGCGCTGGT GGACAACGAG CAGCTGCGGG ATGAGCTGGA GAGGCTGCAG
AGGGTGAAGC AGGACAGTGA CAGGTCACAG CGACTCTGCG CCGAGGCCGA GAAGAAAGCC
AACGCCACTG AAATCCGCTA CACGAAGCTG AAGGAGAAGC ACAGCGAGCT CATCAACACC
CACGCCGAGC TCCTGAGGAA GAACGCTGAC ACTGCCAAGC AGCTGACGGT GACACAGCAG
AGCCAGGAGG AGGTGGCACG TGTCAAGGAG CAGCTGGCAT TTCAGGTGGA GCAGGTCAAG
CGAGAGGCCG AGATGAAGCT GGAGGACCAG AGCGTGCAGC TGGAGCAGCT GAGGCAGGAG
CTGGACGCCC GCCGGGAGGA GCTGGAGCAG GCGCAGCGCT CGCTCAGCCA CGCCAAGCAG
GCAGGTGTGG AGCTCAGTGC CCAGGTGGAT GCTCTGCACG CCGAGAAGGA GGTGCTGAGG
CGGTCTGTGA GCGAGAAGGA GTGCGAGCTG CTGTCCACAC GGGGCCTCAT CCAGGAGAAG
GAGCTGCAGC TGGGCCAGGA GGCCGATAAG GCCACGAGGG AGATCCGAGA GCTCCAGGGC
AGGCTCCTGG AGAAGAGCAA CCAGGAGCAG AGCCTGCAGC AGAAGCTGCT GGATGAGCAG
TTTGGAGTCC TGCAGGAGAC AGTGAGAGAA GCCCAAGCCA TCCTCCGTGA TGCCATGGCC
AAGCTGGATG ACCCCCTGCA CCTCCGCTGC ACCAGCTCCC CAGATTACCT GCTGAGCCGG
GCGCAGGCGG CGCTGGAGTC CACGGATGCC CTGGAGAAGG GGCACGCGCA GTACGTGGCC
TCCATGGCAG ATGCTGCGGG GCTGGTGGGG GCTCTGGCCC TCTTTGCACA CCTGACAGGT
GACACCATCG TCAACGGCAG CGCCACCTCC CACCTGGCCC CCACGGACCA CGCTGACCGG
CTGACGGAGA CGTGCCGGGA GTGTGGCCAG CGGAGCCTGG ACTACCTGGA GCAGCTGAAG
GACAGGCAGA GGCTGGGCAG TGCCCAGCTG GGGGACGTGC AGGAGGCACT GCGAGGGGTC
CTGCAGCTGG CCCAGGAGCT GAGACCCAAG AGCCTGGACA TCAAGCAGGA GGAGCTGGGG
GACATGGTGG AGAAGGAGAT GGCCTCCACC TCCGAGGCCA TTGAGGATGC TGTCAGGAGG
ATAGAGGAGA TGATGAACCA GGCCAGGAAC GAGAGCTCTG GGGTGAAGCT GGAAGTGAAT
GAGCGGATTC TGAACTCCTG CACAGATCTA ATGAAGGCTA TCAGACTTCT TGTAACAACA
TCTACGAACC TACAGAAGGA GATAGTGGAA AGTGGCCGGG GGGCAGCAAC AACTCAGGAG
TTTTACGCCA AGAACTCGCG CTGGACCGAA GGGCTGATCT CTGCCTCCAA GGCCGTGGGC
TGGGGAGCCA CACAGCTCGT GGAGTCTGCA GACAGGGTTG TCCTGCACAC AGGGAAGTAC
GAGGAGCTGA TCGTCTGCTC CCACGAAATC GCCGCCAGCA CAGCCCAGCT GGTGGCTGCC
TCCAAGAAGG CAAACCAAGC CAAATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433415.1 CDS 1..3147 Translation 
Target ORF information:
RefSeq Version XM_012577961.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata huntingtin interacting protein 1 related (HIP1R), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012577961.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGGGCATCT ACGCATCCCT GCCTAGCCCC GGCCCCACCG ACACCGGGGA TGTTTCGCAC
CGGGGCTGGA TCCACCCCTA CCCCGCGGCT CCTGGTCACC CGCGGGTCAC CCTGCGGGGA
TCGGGGTGTT TGGACCCACG GACGTGGCAG AGTGGAAACA AAGCCCAAAG GCGTTCGTGC
TCCATCGTGT CCGCCTCGGC GGGGGTGTCC GTGCTCCTGT GGCCCCCACG GGGCTGTGCA
TTCATCGCAG ATGTTTTCCC CTCTGTCCCT TTGCTTTGCG GTTCCTTCCT CAGGCCCTGG
GCTGGTTTGG CCCCGGAGAG CGCCAGTGGA GGCAGTGCCC CGCTGGGCAC CGCTGCTGAA
CGTGCCCGGT ACGAACGGGG CCCTGCTCCC CCCGGCCTTC CAGGGCACTT CGGGCTTTTC
ACTGGGATTC GTGCTCTGGA GATCCGCGTC CTCACAGGGA TGCTTGGTGC TTCAGCCATC
AGCATCAGCA AAGCCATAAA CACACAGGAA GCACCAGTGA AGGAGAAACA TGCCCGCCGG
ATCATCCTGG GGACACACCA CGAGAAGGGA GCGTTCACCT TCTGGTCCTA CGCCATCGGG
CTGCCCCTGC CCAGCAGTGC CATCCTCAGC TGGAAGTTCT GCCACGTCCT GCACAAGGTC
CTGCGTGATG GCCACCCCAA CGTTCTCCAG GACTGCCAGA GGTACCGCAG CAACATCCGA
GAGACGGGGG ACCTGTGGGG CCATTTGCAC GACAGGTACG GGCAGCTGGT GAGCATCTAC
ACACGACTCC TGCTCACCAA GATCTCCTTC CATGTCAAGC ATCCCGAGTT CCCCCCAGGC
CTCGAAGTGT CGGATGAGGT GCTGGAAAAG ACTGCAGGGA CGGACGTGAA CAACATCTTC
CAGCTGACGG TCGAGCTGTT TGACTACCTG GACTGTGAGC TGAAGCTGTC GGAGTCAGTT
TTCAGGCAGC TCAACACCTC GATGGCCGTG TCGCAGATGT CGGCGGTGCA GTGCCGCCTG
GCCCCCCTCA TCCAGGTCAT CCAGGACTGC AGCCACCTCT ACCACTACTC CGTCAAGTTA
ATGTTCAAGC TGCACTCCTG TGACCCCCTT TCATCTCCCC CTTGTTTTTC CCTCCTCTGC
AGCCTTAAAA ACTTCTTTAG GAAGGCATCT GACATGCTGT ATTTCAAGCG GCTCATCCAG
ATCCCCCGGC TGCCGGAGAG CCCCCCAAAC TTCCTGCGGG CGTCCGCGCT GGCCGAGCAC
GTGAAGCCGG TCGTTGTCAT CCCCGAGGAG GCCCCCGAGG ATGAGGAGCC AGAGAACCTC
ATTGAGATCA GCACAACTTC CACCACAGAG CCACAGATCA CCTCGGATCT GTTTGAGCAA
ACCTTCGGGC CGCCCAACGG CGTTTGGGAT GACAGGGATG CACAGATCGA GAGCCTGAAG
AAGGAGGTGG AAACGCTCCG TGCAGAGATG GAGAAGATTA AACTGGAGGC ACAGCGCTAC
ATCACCCAGC TGAAGGCACA GGTGAACAGC CTGGAGGGAG AGGTGGAGGA GCAGCGCAAG
CAGAAGCAGA AGGCGCTGGT GGACAACGAG CAGCTGCGGG ATGAGCTGGA GAGGCTGCAG
AGGGTGAAGC AGGACAGTGA CAGGTCACAG CGACTCTGCG CCGAGGCCGA GAAGAAAGCC
AACGCCACTG AAATCCGCTA CACGAAGCTG AAGGAGAAGC ACAGCGAGCT CATCAACACC
CACGCCGAGC TCCTGAGGAA GAACGCTGAC ACTGCCAAGC AGCTGACGGT GACACAGCAG
AGCCAGGAGG AGGTGGCACG TGTCAAGGAG CAGCTGGCAT TTCAGGTGGA GCAGGTCAAG
CGAGAGGCCG AGATGAAGCT GGAGGACCAG AGCGTGCAGC TGGAGCAGCT GAGGCAGGAG
CTGGACGCCC GCCGGGAGGA GCTGGAGCAG GCGCAGCGCT CGCTCAGCCA CGCCAAGCAG
GCAGGTGTGG AGCTCAGTGC CCAGGTGGAT GCTCTGCACG CCGAGAAGGA GGTGCTGAGG
CGGTCTGTGA GCGAGAAGGA GTGCGAGCTG CTGTCCACAC GGGGCCTCAT CCAGGAGAAG
GAGCTGCAGC TGGGCCAGGA GGCCGATAAG GCCACGAGGG AGATCCGAGA GCTCCAGGGC
AGGCTCCTGG AGAAGAGCAA CCAGGAGCAG AGCCTGCAGC AGAAGCTGCT GGATGAGCAG
TTTGGAGTCC TGCAGGAGAC AGTGAGAGAA GCCCAAGCCA TCCTCCGTGA TGCCATGGCC
AAGCTGGATG ACCCCCTGCA CCTCCGCTGC ACCAGCTCCC CAGATTACCT GCTGAGCCGG
GCGCAGGCGG CGCTGGAGTC CACGGATGCC CTGGAGAAGG GGCACGCGCA GTACGTGGCC
TCCATGGCAG ATGCTGCGGG GCTGGTGGGG GCTCTGGCCC TCTTTGCACA CCTGACAGGT
GACACCATCG TCAACGGCAG CGCCACCTCC CACCTGGCCC CCACGGACCA CGCTGACCGG
CTGACGGAGA CGTGCCGGGA GTGTGGCCAG CGGAGCCTGG ACTACCTGGA GCAGCTGAAG
GACAGGCAGA GGCTGGGCAG TGCCCAGCTG GGGGACGTGC AGGAGGCACT GCGAGGGGTC
CTGCAGCTGG CCCAGGAGCT GAGACCCAAG AGCCTGGACA TCAAGCAGGA GGAGCTGGGG
GACATGGTGG AGAAGGAGAT GGCCTCCACC TCCGAGGCCA TTGAGGATGC TGTCAGGAGG
ATAGAGGAGA TGATGAACCA GGCCAGGAAC GAGAGCTCTG GGGTGAAGCT GGAAGTGAAT
GAGCGGATTC TGAACTCCTG CACAGATCTA ATGAAGGCTA TCAGACTTCT TGTAACAACA
TCTACGAACC TACAGAAGGA GATAGTGGAA AGTGGCCGGG GGGCAGCAAC AACTCAGGAG
TTTTACGCCA AGAACTCGCG CTGGACCGAA GGGCTGATCT CTGCCTCCAA GGCCGTGGGC
TGGGGAGCCA CACAGCTCGT GGAGTCTGCA GACAGGGTTG TCCTGCACAC AGGGAAGTAC
GAGGAGCTGA TCGTCTGCTC CCACGAAATC GCCGCCAGCA CAGCCCAGCT GGTGGCTGCC
TCCAAGAAGG CAAACCAAGC CAAATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd30006 Clone ID Related Accession (Same CDS sequence) XM_030285628.1 Accession Version XM_030285628.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3144bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product huntingtin-interacting protein 1-related protein Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044227.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGAACAGCA TCAAGAGCGT GCCGGCGCGG GTGCTGAGCC GCCGCGGCGG GCACAGCCTG
GAGGCGGAGC GGGAACAGTT CGACAAGAGC CAGGCCATCA GCATCAGCAA AGCCATAAAC
ACACAGGAGG CACCAGTGAA GGAGAAACAT GCCCGCCGGA TCATCCTGGG GACACACCAC
GAGAAGGGAG CGTTCACCTT CTGGTCCTAC GCCATCGGGC TGCCCCTGCC CAGCAGTGCC
ATCCTCAGCT GGAAGTTCTG CCACGTCCTG CACAAGGTCC TGCGTGATGG CCACCCCAAC
GTTCTCCAGG ACTGCCAGAG GTACCGCAGC AACATCCGAG AGACGGGGGA CCTGTGGGGC
CATTTGCACG ACAGGTACGG GCAGCTGGTG AGCATCTACA CACGACTCCT GCTCACCAAG
ATCTCCTTCC ATGTCAAGCA TCCCGAGTTC CCCCCAGGCC TCGAAGTGTC GGATGAGGTG
CTGGAAAAGA CTGCAGGGAC GGACGTGAAC AACATCTTCC AGCTGACGGT CGAGCTGTTT
GACTACCTGG ACTGTGAGCT GAAGCTGTCG GAGTCAGTTT TCAGGCAGCT CAACACCTCG
ATGGCCGTGT CGCAGATGTC GGCGGTGCAG TGCCGCCTGG CCCCCCTCAT CCAGGTCATC
CAGGACTGCA GCCACCTCTA CCACTACTCC GTCAAGTTAA TGTTCAAGCT GCACTCCTGT
CTGCCAGCTG ACACCCTGCA GGGCCACCGG GACCGCTTCC ACGAGCAGTT CCGCAGCCTT
AAAAACTTCT TTAGGAAGGC ATCTGACATG CTGTATTTCA AGCGGCTCAT CCAGATCCCC
CGGCTGCCGG AGAGCCCCCC AAACTTCCTG CGGGCGTCCG CGCTGGCCGA GCACGTGAAG
CCGGTCGTTG TCATCCCCGA GGAGGCCCCC GAGGATGAGG AGCCAGAGAA CCTCATTGAG
ATCAGCACAA CTTCCACCAC AGAGCCACAG ATCACCTCGG ATCTGTTTGA GCAAACCTTT
GGGCCGCCCA ACGGCGTTTG GGATGACAGG GATGCACAGA TCGAGAGCCT GAAGAAGGAG
GTGGAAACGC TCCGTGCAGA GATGGAGAAG ATTAAACTGG AGGCACAGCG CTACATCACC
CAGCTGAAGG CACAGGTGAA CAGCCTGGAG GGAGAGGTGG AGGAGCAGCG CAAGCAGAAG
CAGAAGGCGC TGGTGGACAA CGAGCAGCTG CGGGATGAGC TGGAGAGGCT GCAGAGGGTG
AAGCAGGACA GTGACAGGTC ACAGCGACTC TGCGCCGAGG CCGAGAAGAA AGCCAACGCC
ACTGAGATCC GCTACACGAA GCTGAAGGAG AAGCACAGCG AGCTCATCAA CACCCACGCT
GAGCTCCTGA GGAAGAACGC TGACACTGCC AAGCAGCTGA CGGTGACACA GCAGAGCCAG
GAGGAGGTGG CACGTGTCAA GGAGCAGCTG GCATTTCAGG TGGAGCAGGT CAAGCGAGAG
GCCGAGATGA AGCTGGAGGA CCAGAGCGTG CAGCTGGAGC AGCTGAGGCA GGAGCTGGAC
GCCCGCCGGG AGGAGCTGGA GCAGGCGCAG CGCTCGCTCA GCCACGCCAA GCAGGCAGGT
GTGGAGCTCA GTGCCCAGGT GGATGCTCTG CACGCCGAGA AGGAGGTGCT GAGGCGGTCT
GTGAGCGAGA AGGAGTGCGA GCTGCTGTCC ACACGGGGCC TCATCCAGGA GAAGGAGCTG
CAGCTGGGCC AGGAGGCCGA TAAGGCCACG AGGGAGATCC GAGAGCTCCA GGGCAGGCTC
CTGGAGAAGA GCAACCAGGA GCAGAGCCTG CAGCAGAAGC TGCTGGATGA GCAGTTTGGA
GTCCTGCAGG AGACAGTGAG AGAAGCCCAA GCCATCCTCC GTGATGCCAT GGCCAAGCTG
GATGACCCCC TGCACCTCCG CTGCACCAGC TCCCCAGATT ACCTGCTGAG CCGGGCGCAG
GCGGCGCTGG AGTCCACGGA TGCCCTGGAG AAGGGGCACG CGCAGTACGT GGCCTCCATG
GCAGATGCTG CGGGGCTGGT GGGGGCTCTG GCCCTCTTTG CACACCTGAC AGGTGACACC
ATCGTCAACG GCAGCGCCAC CTCCCACCTG GCCCCCACGG ACCACGCTGA CCGGCTGACG
GAGACGTGCC GGGAGTGTGG CCAGCGGAGC CTGGACTACC TGGAGCAGCT GAAGGACAGG
CAGAGGCTGG GCAGTGCCCA GCTGGGGGAC GTGCAGGAGG CACTGCGAGG GGTCCTGCAG
CTGGCCCAGG AGCTGAGACC CAAGAGCCTG GACATCAAGC AGGAGGAGCT GGGGGACATG
GTGGAGAAGG AGATGGCCTC CACCTCCGAG GCCATTGAGG ATGCTGTCAG GAGGATAGAG
GAGATGATGA ACCAGGCCAG GAACGAGAGC TCTGGGGTGA AGCTGGAAGT GAATGAGCGG
ATTCTGAACT CCTGCACAGA TCTAATGAAG GCTATCAGAC TTCTTGTAAC AACATCTACG
AACCTACAGA AGGAGATAGT GGAAAGTGGC CGGGGGGCAG CAACAACTCA GGAGTTTTAC
GCCAAGAACT CGCGCTGGAC CGAAGGGCTG ATCTCTGCCT CCAAGGCCGT GGGCTGGGGA
GCCACACAGC TCGTGGAGTC TGCAGACAGG GTTGTCCTGC ACACAGGGAA GTACGAGGAG
CTGATCGTCT GCTCCCACGA AATCGCCGCC AGCACAGCCC AGCTGGTGGC TGCCTCCAAG
GTGAAGGCTG AGAAGAGCAG CAGGAACCTG GCCAGGCTCC AGGAGTGCTC ACGCAACGTC
AACGAGATGG CAGCAAACGT GGTGGCTTCC ACCAAGTCGG GGCAAGAGCA GATAGAGGAG
AAAGACACCA TGGACTTCTC GGGCATGTCC CTCATCAAGC TGAAGAAGGA AGAGATGGAA
ACACAGGTGA AGGTGCTGGA GCTGGAGAAG CGGCTGGAGG GCGAGCGGGT GCGCCTGGGC
GAGCTGAGGA AGCAGCACTA CGTCCTGGCC GGGGGCTGCG AGGACGCGCC GGAGGACGGG
GAGGCCCGGC CGGCGCCGGC ACCGCGGAGA GGGATCCTGA AGAAACCCCC CATTGCCCAG
AAACCCGGCC TGGGCGAGCC CTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030141488.1 CDS 112..3255 Translation
Target ORF information:
RefSeq Version XM_030285628.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata huntingtin interacting protein 1 related (HIP1R), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030285628.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGAACAGCA TCAAGAGCGT GCCGGCGCGG GTGCTGAGCC GCCGCGGCGG GCACAGCCTG
GAGGCGGAGC GGGAACAGTT CGACAAGAGC CAGGCCATCA GCATCAGCAA AGCCATAAAC
ACACAGGAGG CACCAGTGAA GGAGAAACAT GCCCGCCGGA TCATCCTGGG GACACACCAC
GAGAAGGGAG CGTTCACCTT CTGGTCCTAC GCCATCGGGC TGCCCCTGCC CAGCAGTGCC
ATCCTCAGCT GGAAGTTCTG CCACGTCCTG CACAAGGTCC TGCGTGATGG CCACCCCAAC
GTTCTCCAGG ACTGCCAGAG GTACCGCAGC AACATCCGAG AGACGGGGGA CCTGTGGGGC
CATTTGCACG ACAGGTACGG GCAGCTGGTG AGCATCTACA CACGACTCCT GCTCACCAAG
ATCTCCTTCC ATGTCAAGCA TCCCGAGTTC CCCCCAGGCC TCGAAGTGTC GGATGAGGTG
CTGGAAAAGA CTGCAGGGAC GGACGTGAAC AACATCTTCC AGCTGACGGT CGAGCTGTTT
GACTACCTGG ACTGTGAGCT GAAGCTGTCG GAGTCAGTTT TCAGGCAGCT CAACACCTCG
ATGGCCGTGT CGCAGATGTC GGCGGTGCAG TGCCGCCTGG CCCCCCTCAT CCAGGTCATC
CAGGACTGCA GCCACCTCTA CCACTACTCC GTCAAGTTAA TGTTCAAGCT GCACTCCTGT
CTGCCAGCTG ACACCCTGCA GGGCCACCGG GACCGCTTCC ACGAGCAGTT CCGCAGCCTT
AAAAACTTCT TTAGGAAGGC ATCTGACATG CTGTATTTCA AGCGGCTCAT CCAGATCCCC
CGGCTGCCGG AGAGCCCCCC AAACTTCCTG CGGGCGTCCG CGCTGGCCGA GCACGTGAAG
CCGGTCGTTG TCATCCCCGA GGAGGCCCCC GAGGATGAGG AGCCAGAGAA CCTCATTGAG
ATCAGCACAA CTTCCACCAC AGAGCCACAG ATCACCTCGG ATCTGTTTGA GCAAACCTTT
GGGCCGCCCA ACGGCGTTTG GGATGACAGG GATGCACAGA TCGAGAGCCT GAAGAAGGAG
GTGGAAACGC TCCGTGCAGA GATGGAGAAG ATTAAACTGG AGGCACAGCG CTACATCACC
CAGCTGAAGG CACAGGTGAA CAGCCTGGAG GGAGAGGTGG AGGAGCAGCG CAAGCAGAAG
CAGAAGGCGC TGGTGGACAA CGAGCAGCTG CGGGATGAGC TGGAGAGGCT GCAGAGGGTG
AAGCAGGACA GTGACAGGTC ACAGCGACTC TGCGCCGAGG CCGAGAAGAA AGCCAACGCC
ACTGAGATCC GCTACACGAA GCTGAAGGAG AAGCACAGCG AGCTCATCAA CACCCACGCT
GAGCTCCTGA GGAAGAACGC TGACACTGCC AAGCAGCTGA CGGTGACACA GCAGAGCCAG
GAGGAGGTGG CACGTGTCAA GGAGCAGCTG GCATTTCAGG TGGAGCAGGT CAAGCGAGAG
GCCGAGATGA AGCTGGAGGA CCAGAGCGTG CAGCTGGAGC AGCTGAGGCA GGAGCTGGAC
GCCCGCCGGG AGGAGCTGGA GCAGGCGCAG CGCTCGCTCA GCCACGCCAA GCAGGCAGGT
GTGGAGCTCA GTGCCCAGGT GGATGCTCTG CACGCCGAGA AGGAGGTGCT GAGGCGGTCT
GTGAGCGAGA AGGAGTGCGA GCTGCTGTCC ACACGGGGCC TCATCCAGGA GAAGGAGCTG
CAGCTGGGCC AGGAGGCCGA TAAGGCCACG AGGGAGATCC GAGAGCTCCA GGGCAGGCTC
CTGGAGAAGA GCAACCAGGA GCAGAGCCTG CAGCAGAAGC TGCTGGATGA GCAGTTTGGA
GTCCTGCAGG AGACAGTGAG AGAAGCCCAA GCCATCCTCC GTGATGCCAT GGCCAAGCTG
GATGACCCCC TGCACCTCCG CTGCACCAGC TCCCCAGATT ACCTGCTGAG CCGGGCGCAG
GCGGCGCTGG AGTCCACGGA TGCCCTGGAG AAGGGGCACG CGCAGTACGT GGCCTCCATG
GCAGATGCTG CGGGGCTGGT GGGGGCTCTG GCCCTCTTTG CACACCTGAC AGGTGACACC
ATCGTCAACG GCAGCGCCAC CTCCCACCTG GCCCCCACGG ACCACGCTGA CCGGCTGACG
GAGACGTGCC GGGAGTGTGG CCAGCGGAGC CTGGACTACC TGGAGCAGCT GAAGGACAGG
CAGAGGCTGG GCAGTGCCCA GCTGGGGGAC GTGCAGGAGG CACTGCGAGG GGTCCTGCAG
CTGGCCCAGG AGCTGAGACC CAAGAGCCTG GACATCAAGC AGGAGGAGCT GGGGGACATG
GTGGAGAAGG AGATGGCCTC CACCTCCGAG GCCATTGAGG ATGCTGTCAG GAGGATAGAG
GAGATGATGA ACCAGGCCAG GAACGAGAGC TCTGGGGTGA AGCTGGAAGT GAATGAGCGG
ATTCTGAACT CCTGCACAGA TCTAATGAAG GCTATCAGAC TTCTTGTAAC AACATCTACG
AACCTACAGA AGGAGATAGT GGAAAGTGGC CGGGGGGCAG CAACAACTCA GGAGTTTTAC
GCCAAGAACT CGCGCTGGAC CGAAGGGCTG ATCTCTGCCT CCAAGGCCGT GGGCTGGGGA
GCCACACAGC TCGTGGAGTC TGCAGACAGG GTTGTCCTGC ACACAGGGAA GTACGAGGAG
CTGATCGTCT GCTCCCACGA AATCGCCGCC AGCACAGCCC AGCTGGTGGC TGCCTCCAAG
GTGAAGGCTG AGAAGAGCAG CAGGAACCTG GCCAGGCTCC AGGAGTGCTC ACGCAACGTC
AACGAGATGG CAGCAAACGT GGTGGCTTCC ACCAAGTCGG GGCAAGAGCA GATAGAGGAG
AAAGACACCA TGGACTTCTC GGGCATGTCC CTCATCAAGC TGAAGAAGGA AGAGATGGAA
ACACAGGTGA AGGTGCTGGA GCTGGAGAAG CGGCTGGAGG GCGAGCGGGT GCGCCTGGGC
GAGCTGAGGA AGCAGCACTA CGTCCTGGCC GGGGGCTGCG AGGACGCGCC GGAGGACGGG
GAGGCCCGGC CGGCGCCGGC ACCGCGGAGA GGGATCCTGA AGAAACCCCC CATTGCCCAG
AAACCCGGCC TGGGCGAGCC CTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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