Hip1 cDNA ORF clone, Mus pahari(shrew mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Hip1
Entrez Gene ID	110313165
Full Name	huntingtin interacting protein 1
Gene Type	protein-coding
Organism	Mus pahari(shrew mouse)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021187188.1	XP_021042847.1	huntingtin-interacting protein 1
XM_029533875.1	XP_029389735.1	huntingtin-interacting protein 1

Pathways from BioSystems
Gene Ontology

The following Hip1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Hip1 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
OMv63611	XM_021187188.1 Latest version!	Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OMv83311	XM_029533875.1 Latest version!	Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

Hip1 ( XM_021187188.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_021042847.1 Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.

Price & Availability↑

CloneID	OMv63611
Clone ID Related Accession (Same CDS sequence)	XM_021187188.1
Accession Version	XM_021187188.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3039bp) 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	2017-05-18
Organism	Mus pahari(shrew mouse)
Product	huntingtin-interacting protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034612.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Mus pahari 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGACCGAA TGGCCAGCTC CATGAAGCAG GTACCAAACC CACTGCCCAA AGTGTTGAGC 
CGGCGCGGGG TTGGTGCTGG GATGGAGGCT GCAGAGCGCG AGAGCTTCGA GCGGACTCAG 
ACTGTCAGCG TCAATAAGGC CATTAACACG CAGGAAGTGG CCGTGAAGGA GAAGCATGCC 
AGGACGTGTA TTTTGGGCAC CCACCATGAG AAAGGAGCGC AGACCTTTTG GTCCGTGGTC 
AACCGACTGC CTCTCTCCAG CAACGCCATG CTGTGCTGGA AGTTCTGTCA CGTGTTCCAC 
AAACTTCTTC GCGACGGACA TCCAAACGTG CTGAAAGACT CTCTGAGATA CAAAAATGAG 
TTAAGCGACA TGAGCAGGAT GTGGGGCCAC CTGAGCGAGG GGTATGGACA GCTTTGCAGC 
ATCTACCTCA AATTGCTGAG AACAAGGATG GAGTACCACA CCAAAAATCC CAGGTTCCCG 
GGCAACCTCC AGATGAGCGA CCGACAGCTG GATGAGGCTG GAGAAAGTGA CGTTAACAAC 
TTTTTTCAGC TCACGGTGGA GATGTTTGAT TACCTGGAGT GTGAACTGAA CCTCTTCCAG 
ACTGTGTTCA ACTCCTTGGA CATGTCCCGC TCGGTGTCCG TGACCACGGC TGGCCAGTGC 
CGCCTCGCAC CGCTCATCCA GGTCATCCTG GACTGCAGTC ACCTCTATGA CTACACTGTC 
AAGCTGCTCT TCAAGCTCCA CTCCTGTCTT CCAGCTGACA CCCTGCAGGG CCACCGAGAC 
CGCTTCATGG AGCAGTTCAC AAAGTTGAAA GATCTGTTTC AGCGCTCCAG CAACCTACAG 
TACTTCAAGC GGCTCATTCA GATCCCCCAG CTGCCCGAGA ATCCACCCAA CTTCCTACGA 
GCCTCAGCCC TGTCAGAGCA CATCAGTCCT GTGGTGGTGA TCCCAGCTGA GGTGTCATCC 
CCAGACAGTG AACCTGTCCT GGAGAAGGAT GACCTCATGG ACATGGACGC CTCCCAGCAG 
ATCAGCAACT GTGAATCTTG TGGGGACCAC TTGATTGACC GCCTATACAG AGAGATCAGT 
GGACTGACAG GGCAGCTGGA CAACATGAAG ATTGAGAGCC AGCGGGCCAT GCTGCAGTTG 
AAGGGTCGAG TGAGTGAGCT GGAGGCAGAG CTGGCAGAGC AGCAGCACTT GGGCCGGCAG 
GCTACGGATG ACTGCGAGTT CCTGCGTACG GAGCTGGATG AACTGAAGAG GCAGCGAGAG 
GACACCGAGA AGGCGCAGCG CAGCCTGACT GAGATAGAAA GAAAGGCCCA GGCCAACGAA 
CAGAGGTATA GCAAGTTAAA AGAGAAGTAC AGTGAACTGG TGCAGAACCA TGCTGACCTG 
CTGCGGAAGA ACGCAGAGGT GACCAAACAG GTGTCCGTGG CCCGGCAAGC CCAGGTGGAT 
TTGGAAAGAG AGAAAAAAGA GCTAGCAGAT TCCTTTGCAC GTGTCAGTGA CCAGGCCCAA 
CGGAAGACTC AAGAGCAACA GGATGTTCTA GAAAACCTAA AGCATGAGCT GGCCTCCAGC 
AGACAAGAGC TGCAGGTCCT CCACAGTAGC CTGGAAACCT CTGCCCAGTC AGAAGCGAAA 
TGGCTGACAC AGATCGCCGC GTTGGAGAAG GAGCAGGGCA GCTTAGTGAC TGTCGCGGCT 
CAGAGAGAGG AAGAGTTATC ATTCCTCCGA GACCAGCTGG AAAGCACCCA GATCAAGCTG 
GCCGGGGCCC AGGAATCCAT GTGCCAGCAG GTTAAGGATC AGAGGAAACT CCTCTTGGCG 
GGGATCAGGA AAGCTGCAGA GCGTGAAATA CAGGAGGCGC TGAGCCAGCT TGAGGAGCCC 
GCCCTCATCA GCTGTGCAGG ATCCACAGAT CACCTTCTCT CCAAAGTCAA CTCTGTTTCC 
AGCTGCCTCG AGCAACTGGA AAAGAACCGC AGCCAGTATC TGGCCTGCCC AGAAGACATG 
AGTGAGCTTC TGCACTCGAT CACCCTGCTC ACCCACTTGA CCGGTGACAC TATCATCCAG 
GGGAGTGCCA CCAGCCTCCG GGCCCCACCG GAGCCGGCCG ACTCTCTGAC GGAGGCCTGC 
AGGCAGTACG GCAGAGAAAC CCTGGCCTAT CTGTCCTCCC TGGAGGACGA GGGAGCCGTG 
GAGAGAGCTG ACGTCACAGT CCTTAGGAAC TGCCTCAGCA GGATCAAGAC CATTGGCGAG 
GAGCTGCTGC CCAGGGGCCT GGACATCAAG CAGGAAGAGC TGGGTGACCT GGTGGACAAG 
GAGATGGCAG CCACTTCAGC TGCCATCGAA GCTGCCACCA CCCGGATAGA GGAAATTCTC 
AGTAAGTCCC GAGCAGGAGA CACGGGAGTC AAGCTGGAGG TGAATGAGAG GATCCTGGGT 
TCCTGTACCA ACCTGATGCA GGCCATCAAG GTGCTCGTTG TGGCCTCCAA GGACCTCCAG 
AAGGAGATAG TGGAGAGCGG CAGGGGTACT GCGTCCCCTA AGGAATTTTA TGCCAAGAAC 
TCTCGGTGGA CAGAAGGGCT TATATCTGCC TCCAAAGCTG TTGGTTGGGG AGCTACCATC 
ATGGTGGATG CTGCTGATCT TATGGTTCAA GGCAAAGGGA AGTTCGAGGA GCTGATGGTG 
TGCTCACGGG AGATTGCTGC CAGCACCGCC CAGCTCGTGG CTGCATCCAA GGTGAAAGCG 
AACAAGGGCA GCTCCAATCT GACCCAGCTG CAGCAGGCCT CTCGCGGGGT AAACCAGGCC 
ACAGCTGCTG TGGTGGCCTC AACCATTTCT GGCAAATCTC AGATTGAGGA AACAGACAAT 
ATGGACTTCT CAAGCATGAC TCTGACCCAG ATCAAGCGCC AAGAGATGGA TTCCCAGGTC 
AGGGTGCTGG AGCTGGAAAA CGACCTGCAG AAGGAGCGTC AGAAACTAGG AGAGCTACGG 
AAGAAACACT ACGAGCTGGC TGGCGTTGCT GAGGGCTGGG AGGAAGGGAC AGAAGCATCT 
CCTTCCACTG TTCAAGAAGC AATACCGGAC AAAGAGTAG

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

RefSeq	XP_021042847.1
CDS	73..3111
Translation	MDRMASSMKQVPNPLPKVLSRRGVGAGMEAAERESFERTQTVSVNKAINTQEVAVKEKHARTCILGTHHEKGAQTFWSVVNRLPLSSNAMLCWKFCHVFHKLLRDGHPNVLKDSLRYKNELSDMSRMWGHLSEGYGQLCSIYLKLLRTRMEYHTKNPRFPGNLQMSDRQLDEAGESDVNNFFQLTVEMFDYLECELNLFQTVFNSLDMSRSVSVTTAGQCRLAPLIQVILDCSHLYDYTVKLLFKLHSCLPADTLQGHRDRFMEQFTKLKDLFQRSSNLQYFKRLIQIPQLPENPPNFLRASALSEHISPVVVIPAEVSSPDSEPVLEKDDLMDMDASQQISNCESCGDHLIDRLYREISGLTGQLDNMKIESQRAMLQLKGRVSELEAELAEQQHLGRQATDDCEFLRTELDELKRQREDTEKAQRSLTEIERKAQANEQRYSKLKEKYSELVQNHADLLRKNAEVTKQVSVARQAQVDLEREKKELADSFARVSDQAQRKTQEQQDVLENLKHELASSRQELQVLHSSLETSAQSEAKWLTQIAALEKEQGSLVTVAAQREEELSFLRDQLESTQIKLAGAQESMCQQVKDQRKLLLAGIRKAAEREIQEALSQLEEPALISCAGSTDHLLSKVNSVSSCLEQLEKNRSQYLACPEDMSELLHSITLLTHLTGDTIIQGSATSLRAPPEPADSLTEACRQYGRETLAYLSSLEDEGAVERADVTVLRNCLSRIKTIGEELLPRGLDIKQEELGDLVDKEMAATSAAIEAATTRIEEILSKSRAGDTGVKLEVNERILGSCTNLMQAIKVLVVASKDLQKEIVESGRGTASPKEFYAKNSRWTEGLISASKAVGWGATIMVDAADLMVQGKGKFEELMVCSREIAASTAQLVAASKVKANKGSSNLTQLQQASRGVNQATAAVVASTISGKSQIEETDNMDFSSMTLTQIKRQEMDSQVRVLELENDLQKERQKLGELRKKHYELAGVAEGWEEGTEASPSTVQEAIPDKE

Target ORF information:

RefSeq Version	XM_021187188.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.

Target ORF information:

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

XM_021187188.1

ORF Insert Sequence:

ATGGACCGAA TGGCCAGCTC CATGAAGCAG GTACCAAACC CACTGCCCAA AGTGTTGAGC 
CGGCGCGGGG TTGGTGCTGG GATGGAGGCT GCAGAGCGCG AGAGCTTCGA GCGGACTCAG 
ACTGTCAGCG TCAATAAGGC CATTAACACG CAGGAAGTGG CCGTGAAGGA GAAGCATGCC 
AGGACGTGTA TTTTGGGCAC CCACCATGAG AAAGGAGCGC AGACCTTTTG GTCCGTGGTC 
AACCGACTGC CTCTCTCCAG CAACGCCATG CTGTGCTGGA AGTTCTGTCA CGTGTTCCAC 
AAACTTCTTC GCGACGGACA TCCAAACGTG CTGAAAGACT CTCTGAGATA CAAAAATGAG 
TTAAGCGACA TGAGCAGGAT GTGGGGCCAC CTGAGCGAGG GGTATGGACA GCTTTGCAGC 
ATCTACCTCA AATTGCTGAG AACAAGGATG GAGTACCACA CCAAAAATCC CAGGTTCCCG 
GGCAACCTCC AGATGAGCGA CCGACAGCTG GATGAGGCTG GAGAAAGTGA CGTTAACAAC 
TTTTTTCAGC TCACGGTGGA GATGTTTGAT TACCTGGAGT GTGAACTGAA CCTCTTCCAG 
ACTGTGTTCA ACTCCTTGGA CATGTCCCGC TCGGTGTCCG TGACCACGGC TGGCCAGTGC 
CGCCTCGCAC CGCTCATCCA GGTCATCCTG GACTGCAGTC ACCTCTATGA CTACACTGTC 
AAGCTGCTCT TCAAGCTCCA CTCCTGTCTT CCAGCTGACA CCCTGCAGGG CCACCGAGAC 
CGCTTCATGG AGCAGTTCAC AAAGTTGAAA GATCTGTTTC AGCGCTCCAG CAACCTACAG 
TACTTCAAGC GGCTCATTCA GATCCCCCAG CTGCCCGAGA ATCCACCCAA CTTCCTACGA 
GCCTCAGCCC TGTCAGAGCA CATCAGTCCT GTGGTGGTGA TCCCAGCTGA GGTGTCATCC 
CCAGACAGTG AACCTGTCCT GGAGAAGGAT GACCTCATGG ACATGGACGC CTCCCAGCAG 
ATCAGCAACT GTGAATCTTG TGGGGACCAC TTGATTGACC GCCTATACAG AGAGATCAGT 
GGACTGACAG GGCAGCTGGA CAACATGAAG ATTGAGAGCC AGCGGGCCAT GCTGCAGTTG 
AAGGGTCGAG TGAGTGAGCT GGAGGCAGAG CTGGCAGAGC AGCAGCACTT GGGCCGGCAG 
GCTACGGATG ACTGCGAGTT CCTGCGTACG GAGCTGGATG AACTGAAGAG GCAGCGAGAG 
GACACCGAGA AGGCGCAGCG CAGCCTGACT GAGATAGAAA GAAAGGCCCA GGCCAACGAA 
CAGAGGTATA GCAAGTTAAA AGAGAAGTAC AGTGAACTGG TGCAGAACCA TGCTGACCTG 
CTGCGGAAGA ACGCAGAGGT GACCAAACAG GTGTCCGTGG CCCGGCAAGC CCAGGTGGAT 
TTGGAAAGAG AGAAAAAAGA GCTAGCAGAT TCCTTTGCAC GTGTCAGTGA CCAGGCCCAA 
CGGAAGACTC AAGAGCAACA GGATGTTCTA GAAAACCTAA AGCATGAGCT GGCCTCCAGC 
AGACAAGAGC TGCAGGTCCT CCACAGTAGC CTGGAAACCT CTGCCCAGTC AGAAGCGAAA 
TGGCTGACAC AGATCGCCGC GTTGGAGAAG GAGCAGGGCA GCTTAGTGAC TGTCGCGGCT 
CAGAGAGAGG AAGAGTTATC ATTCCTCCGA GACCAGCTGG AAAGCACCCA GATCAAGCTG 
GCCGGGGCCC AGGAATCCAT GTGCCAGCAG GTTAAGGATC AGAGGAAACT CCTCTTGGCG 
GGGATCAGGA AAGCTGCAGA GCGTGAAATA CAGGAGGCGC TGAGCCAGCT TGAGGAGCCC 
GCCCTCATCA GCTGTGCAGG ATCCACAGAT CACCTTCTCT CCAAAGTCAA CTCTGTTTCC 
AGCTGCCTCG AGCAACTGGA AAAGAACCGC AGCCAGTATC TGGCCTGCCC AGAAGACATG 
AGTGAGCTTC TGCACTCGAT CACCCTGCTC ACCCACTTGA CCGGTGACAC TATCATCCAG 
GGGAGTGCCA CCAGCCTCCG GGCCCCACCG GAGCCGGCCG ACTCTCTGAC GGAGGCCTGC 
AGGCAGTACG GCAGAGAAAC CCTGGCCTAT CTGTCCTCCC TGGAGGACGA GGGAGCCGTG 
GAGAGAGCTG ACGTCACAGT CCTTAGGAAC TGCCTCAGCA GGATCAAGAC CATTGGCGAG 
GAGCTGCTGC CCAGGGGCCT GGACATCAAG CAGGAAGAGC TGGGTGACCT GGTGGACAAG 
GAGATGGCAG CCACTTCAGC TGCCATCGAA GCTGCCACCA CCCGGATAGA GGAAATTCTC 
AGTAAGTCCC GAGCAGGAGA CACGGGAGTC AAGCTGGAGG TGAATGAGAG GATCCTGGGT 
TCCTGTACCA ACCTGATGCA GGCCATCAAG GTGCTCGTTG TGGCCTCCAA GGACCTCCAG 
AAGGAGATAG TGGAGAGCGG CAGGGGTACT GCGTCCCCTA AGGAATTTTA TGCCAAGAAC 
TCTCGGTGGA CAGAAGGGCT TATATCTGCC TCCAAAGCTG TTGGTTGGGG AGCTACCATC 
ATGGTGGATG CTGCTGATCT TATGGTTCAA GGCAAAGGGA AGTTCGAGGA GCTGATGGTG 
TGCTCACGGG AGATTGCTGC CAGCACCGCC CAGCTCGTGG CTGCATCCAA GGTGAAAGCG 
AACAAGGGCA GCTCCAATCT GACCCAGCTG CAGCAGGCCT CTCGCGGGGT AAACCAGGCC 
ACAGCTGCTG TGGTGGCCTC AACCATTTCT GGCAAATCTC AGATTGAGGA AACAGACAAT 
ATGGACTTCT CAAGCATGAC TCTGACCCAG ATCAAGCGCC AAGAGATGGA TTCCCAGGTC 
AGGGTGCTGG AGCTGGAAAA CGACCTGCAG AAGGAGCGTC AGAAACTAGG AGAGCTACGG 
AAGAAACACT ACGAGCTGGC TGGCGTTGCT GAGGGCTGGG AGGAAGGGAC AGAAGCATCT 
CCTTCCACTG TTCAAGAAGC AATACCGGAC AAAGAGTAG

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

Hip1 ( XM_029533875.1 ) cDNA ORF clone, Mus pahari(shrew mouse) -> XP_029389735.1 Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.

Price & Availability↑

CloneID	OMv83311
Clone ID Related Accession (Same CDS sequence)	XM_029533875.1
Accession Version	XM_029533875.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3060bp) 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	2019-06-17
Organism	Mus pahari(shrew mouse)
Product	huntingtin-interacting protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034612.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus pahari Annotation Release 101 Annotation Version :: 101 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGACCGAA TGGCCAGCTC CATGAAGCAG GTACCAAACC CACTGCCCAA AGTGTTGAGC 
CGGCGCGGGG TTGGTGCTGG GATGGAGGCT GCAGAGCGCG AGAGCTTCGA GCGGACTCAG 
ACTGTCAGCG TCAATAAGGC CATTAACACG CAGGAAGTGG CCGTGAAGGA GAAGCATGCC 
AGGACGTGTA TTTTGGGCAC CCACCATGAG AAAGGAGCGC AGACCTTTTG GTCCGTGGTC 
AACCGACTGC CTCTCTCCAG CAACGCCATG CTGTGCTGGA AGTTCTGTCA CGTGTTCCAC 
AAACTTCTTC GCGACGGACA TCCAAACGTG CTGAAAGACT CTCTGAGATA CAAAAATGAG 
TTAAGCGACA TGAGCAGGAT GTGGGGCCAC CTGAGCGAGG GGTATGGACA GCTTTGCAGC 
ATCTACCTCA AATTGCTGAG AACAAGGATG GAGTACCACA CCAAAAATCC CAGGTTCCCG 
GGCAACCTCC AGATGAGCGA CCGACAGCTG GATGAGGCTG GAGAAAGTGA CGTTAACAAC 
TTTTTTCAGC TCACGGTGGA GATGTTTGAT TACCTGGAGT GTGAACTGAA CCTCTTCCAG 
ACTGTGTTCA ACTCCTTGGA CATGTCCCGC TCGGTGTCCG TGACCACGGC TGGCCAGTGC 
CGCCTCGCAC CGCTCATCCA GGTCATCCTG GACTGCAGTC ACCTCTATGA CTACACTGTC 
AAGCTGCTCT TCAAGCTCCA CTCCTGTCTT CCAGCTGACA CCCTGCAGGG CCACCGAGAC 
CGCTTCATGG AGCAGTTCAC AAAGTTGAAA GATCTGTTTC AGCGCTCCAG CAACCTACAG 
TACTTCAAGC GGCTCATTCA GATCCCCCAG CTGCCCGAGA ATCCACCCAA CTTCCTACGA 
GCCTCAGCCC TGTCAGAGCA CATCAGTCCT GTGGTGGTGA TCCCAGCTGA GGTGTCATCC 
CCAGACAGTG AACCTGTCCT GGAGAAGGAT GACCTCATGG ACATGGACGC CTCCCAGCAG 
GTAGAGATCC TTGCGAGAGG AACTTGGCCC TTCCAGAACA GACAGGACCA CTTGATTGAC 
CGCCTATACA GAGAGATCAG TGGACTGACA GGGCAGCTGG ACAACATGAA GATTGAGAGC 
CAGCGGGCCA TGCTGCAGTT GAAGGGTCGA GTGAGTGAGC TGGAGGCAGA GCTGGCAGAG 
CAGCAGCACT TGGGCCGGCA GGCTACGGAT GACTGCGAGT TCCTGCGTAC GGAGCTGGAT 
GAACTGAAGA GGCAGCGAGA GGACACCGAG AAGGCGCAGC GCAGCCTGAC TGAGATAGAA 
AGAAAGGCCC AGGCCAACGA ACAGAGGTAT AGCAAGTTAA AAGAGAAGTA CAGTGAACTG 
GTGCAGAACC ATGCTGACCT GCTGCGGAAG AACGCAGAGG TGACCAAACA GGTGTCCGTG 
GCCCGGCAAG CCCAGGTGGA TTTGGAAAGA GAGAAAAAAG AGCTAGCAGA TTCCTTTGCA 
CGTGTCAGTG ACCAGGCCCA ACGGAAGACT CAAGAGCAAC AGGATGTTCT AGAAAACCTA 
AAGCATGAGC TGGCCTCCAG CAGACAAGAG CTGCAGGTCC TCCACAGTAG CCTGGAAACC 
TCTGCCCAGT CAGAAGCGAA ATGGCTGACA CAGATCGCCG CGTTGGAGAA GGAGCAGGGC 
AGCTTAGTGA CTGTCGCGGC TCAGAGAGAG GAAGAGTTAT CATTCCTCCG AGACCAGCTG 
GAAAGCACCC AGATCAAGCT GGCCGGGGCC CAGGAATCCA TGTGCCAGCA GGTTAAGGAT 
CAGAGGAAAC TCCTCTTGGC GGGGATCAGG AAAGCTGCAG AGCGTGAAAT ACAGGAGGCG 
CTGAGCCAGC TTGAGGAGCC CGCCCTCATC AGCTGTGCAG GATCCACAGA TCACCTTCTC 
TCCAAAGTCA ACTCTGTTTC CAGCTGCCTC GAGCAACTGG AAAAGAACCG CAGCCAGTAT 
CTGGCCTGCC CAGAAGACAT GAGTGAGCTT CTGCACTCGA TCACCCTGCT CACCCACTTG 
ACCGGTGACA CTATCATCCA GGGGAGTGCC ACCAGCCTCC GGGCCCCACC GGAGCCGGCC 
GACTCTCTGA CGGAGGCCTG CAGGCAGTAC GGCAGAGAAA CCCTGGCCTA TCTGTCCTCC 
CTGGAGGACG AGGGAGCCGT GGAGAGAGCT GACGTCACAG TCCTTAGGAA CTGCCTCAGC 
AGGATCAAGA CCATTGGCGA GGAGCTGCTG CCCAGGGGCC TGGACATCAA GCAGGAAGAG 
CTGGGTGACC TGGTGGACAA GGAGATGGCA GCCACTTCAG CTGCCATCGA AGCTGCCACC 
ACCCGGATAG AGGAAATTCT CAGTAAGTCC CGAGCAGGAG ACACGGGAGT CAAGCTGGAG 
GTGAATGAGA GGATCCTGGG TTCCTGTACC AACCTGATGC AGGCCATCAA GGTGCTCGTT 
GTGGCCTCCA AGGACCTCCA GAAGGAGATA GTGGAGAGCG GCAGGGGTAC TGCGTCCCCT 
AAGGAATTTT ATGCCAAGAA CTCTCGGTGG ACAGAAGGGC TTATATCTGC CTCCAAAGCT 
GTTGGTTGGG GAGCTACCAT CATGGTGGAT GCTGCTGATC TTATGGTTCA AGGCAAAGGG 
AAGTTCGAGG AGCTGATGGT GTGCTCACGG GAGATTGCTG CCAGCACCGC CCAGCTCGTG 
GCTGCATCCA AGGTGAAAGC GAACAAGGGC AGCTCCAATC TGACCCAGCT GCAGCAGGCC 
TCTCGCGGGG TAAACCAGGC CACAGCTGCT GTGGTGGCCT CAACCATTTC TGGCAAATCT 
CAGATTGAGG AAACAGACAA TATGGACTTC TCAAGCATGA CTCTGACCCA GATCAAGCGC 
CAAGAGATGG ATTCCCAGGT CAGGGTGCTG GAGCTGGAAA ACGACCTGCA GAAGGAGCGT 
CAGAAACTAG GAGAGCTACG GAAGAAACAC TACGAGCTGG CTGGCGTTGC TGAGGGCTGG 
GAGGAAGGGA CAGAAGCATC TCCTTCCACT GTTCAAGAAG CAATACCGGA CAAAGAGTAG

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

RefSeq	XP_029389735.1
CDS	91..3150
Translation	MDRMASSMKQVPNPLPKVLSRRGVGAGMEAAERESFERTQTVSVNKAINTQEVAVKEKHARTCILGTHHEKGAQTFWSVVNRLPLSSNAMLCWKFCHVFHKLLRDGHPNVLKDSLRYKNELSDMSRMWGHLSEGYGQLCSIYLKLLRTRMEYHTKNPRFPGNLQMSDRQLDEAGESDVNNFFQLTVEMFDYLECELNLFQTVFNSLDMSRSVSVTTAGQCRLAPLIQVILDCSHLYDYTVKLLFKLHSCLPADTLQGHRDRFMEQFTKLKDLFQRSSNLQYFKRLIQIPQLPENPPNFLRASALSEHISPVVVIPAEVSSPDSEPVLEKDDLMDMDASQQVEILARGTWPFQNRQDHLIDRLYREISGLTGQLDNMKIESQRAMLQLKGRVSELEAELAEQQHLGRQATDDCEFLRTELDELKRQREDTEKAQRSLTEIERKAQANEQRYSKLKEKYSELVQNHADLLRKNAEVTKQVSVARQAQVDLEREKKELADSFARVSDQAQRKTQEQQDVLENLKHELASSRQELQVLHSSLETSAQSEAKWLTQIAALEKEQGSLVTVAAQREEELSFLRDQLESTQIKLAGAQESMCQQVKDQRKLLLAGIRKAAEREIQEALSQLEEPALISCAGSTDHLLSKVNSVSSCLEQLEKNRSQYLACPEDMSELLHSITLLTHLTGDTIIQGSATSLRAPPEPADSLTEACRQYGRETLAYLSSLEDEGAVERADVTVLRNCLSRIKTIGEELLPRGLDIKQEELGDLVDKEMAATSAAIEAATTRIEEILSKSRAGDTGVKLEVNERILGSCTNLMQAIKVLVVASKDLQKEIVESGRGTASPKEFYAKNSRWTEGLISASKAVGWGATIMVDAADLMVQGKGKFEELMVCSREIAASTAQLVAASKVKANKGSSNLTQLQQASRGVNQATAAVVASTISGKSQIEETDNMDFSSMTLTQIKRQEMDSQVRVLELENDLQKERQKLGELRKKHYELAGVAEGWEEGTEASPSTVQEAIPDKE

Target ORF information:

RefSeq Version	XM_029533875.1
Organism	Mus pahari(shrew mouse)
Definition	Mus pahari huntingtin interacting protein 1 (Hip1), mRNA.

Target ORF information:

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

XM_029533875.1

ORF Insert Sequence:

ATGGACCGAA TGGCCAGCTC CATGAAGCAG GTACCAAACC CACTGCCCAA AGTGTTGAGC 
CGGCGCGGGG TTGGTGCTGG GATGGAGGCT GCAGAGCGCG AGAGCTTCGA GCGGACTCAG 
ACTGTCAGCG TCAATAAGGC CATTAACACG CAGGAAGTGG CCGTGAAGGA GAAGCATGCC 
AGGACGTGTA TTTTGGGCAC CCACCATGAG AAAGGAGCGC AGACCTTTTG GTCCGTGGTC 
AACCGACTGC CTCTCTCCAG CAACGCCATG CTGTGCTGGA AGTTCTGTCA CGTGTTCCAC 
AAACTTCTTC GCGACGGACA TCCAAACGTG CTGAAAGACT CTCTGAGATA CAAAAATGAG 
TTAAGCGACA TGAGCAGGAT GTGGGGCCAC CTGAGCGAGG GGTATGGACA GCTTTGCAGC 
ATCTACCTCA AATTGCTGAG AACAAGGATG GAGTACCACA CCAAAAATCC CAGGTTCCCG 
GGCAACCTCC AGATGAGCGA CCGACAGCTG GATGAGGCTG GAGAAAGTGA CGTTAACAAC 
TTTTTTCAGC TCACGGTGGA GATGTTTGAT TACCTGGAGT GTGAACTGAA CCTCTTCCAG 
ACTGTGTTCA ACTCCTTGGA CATGTCCCGC TCGGTGTCCG TGACCACGGC TGGCCAGTGC 
CGCCTCGCAC CGCTCATCCA GGTCATCCTG GACTGCAGTC ACCTCTATGA CTACACTGTC 
AAGCTGCTCT TCAAGCTCCA CTCCTGTCTT CCAGCTGACA CCCTGCAGGG CCACCGAGAC 
CGCTTCATGG AGCAGTTCAC AAAGTTGAAA GATCTGTTTC AGCGCTCCAG CAACCTACAG 
TACTTCAAGC GGCTCATTCA GATCCCCCAG CTGCCCGAGA ATCCACCCAA CTTCCTACGA 
GCCTCAGCCC TGTCAGAGCA CATCAGTCCT GTGGTGGTGA TCCCAGCTGA GGTGTCATCC 
CCAGACAGTG AACCTGTCCT GGAGAAGGAT GACCTCATGG ACATGGACGC CTCCCAGCAG 
GTAGAGATCC TTGCGAGAGG AACTTGGCCC TTCCAGAACA GACAGGACCA CTTGATTGAC 
CGCCTATACA GAGAGATCAG TGGACTGACA GGGCAGCTGG ACAACATGAA GATTGAGAGC 
CAGCGGGCCA TGCTGCAGTT GAAGGGTCGA GTGAGTGAGC TGGAGGCAGA GCTGGCAGAG 
CAGCAGCACT TGGGCCGGCA GGCTACGGAT GACTGCGAGT TCCTGCGTAC GGAGCTGGAT 
GAACTGAAGA GGCAGCGAGA GGACACCGAG AAGGCGCAGC GCAGCCTGAC TGAGATAGAA 
AGAAAGGCCC AGGCCAACGA ACAGAGGTAT AGCAAGTTAA AAGAGAAGTA CAGTGAACTG 
GTGCAGAACC ATGCTGACCT GCTGCGGAAG AACGCAGAGG TGACCAAACA GGTGTCCGTG 
GCCCGGCAAG CCCAGGTGGA TTTGGAAAGA GAGAAAAAAG AGCTAGCAGA TTCCTTTGCA 
CGTGTCAGTG ACCAGGCCCA ACGGAAGACT CAAGAGCAAC AGGATGTTCT AGAAAACCTA 
AAGCATGAGC TGGCCTCCAG CAGACAAGAG CTGCAGGTCC TCCACAGTAG CCTGGAAACC 
TCTGCCCAGT CAGAAGCGAA ATGGCTGACA CAGATCGCCG CGTTGGAGAA GGAGCAGGGC 
AGCTTAGTGA CTGTCGCGGC TCAGAGAGAG GAAGAGTTAT CATTCCTCCG AGACCAGCTG 
GAAAGCACCC AGATCAAGCT GGCCGGGGCC CAGGAATCCA TGTGCCAGCA GGTTAAGGAT 
CAGAGGAAAC TCCTCTTGGC GGGGATCAGG AAAGCTGCAG AGCGTGAAAT ACAGGAGGCG 
CTGAGCCAGC TTGAGGAGCC CGCCCTCATC AGCTGTGCAG GATCCACAGA TCACCTTCTC 
TCCAAAGTCA ACTCTGTTTC CAGCTGCCTC GAGCAACTGG AAAAGAACCG CAGCCAGTAT 
CTGGCCTGCC CAGAAGACAT GAGTGAGCTT CTGCACTCGA TCACCCTGCT CACCCACTTG 
ACCGGTGACA CTATCATCCA GGGGAGTGCC ACCAGCCTCC GGGCCCCACC GGAGCCGGCC 
GACTCTCTGA CGGAGGCCTG CAGGCAGTAC GGCAGAGAAA CCCTGGCCTA TCTGTCCTCC 
CTGGAGGACG AGGGAGCCGT GGAGAGAGCT GACGTCACAG TCCTTAGGAA CTGCCTCAGC 
AGGATCAAGA CCATTGGCGA GGAGCTGCTG CCCAGGGGCC TGGACATCAA GCAGGAAGAG 
CTGGGTGACC TGGTGGACAA GGAGATGGCA GCCACTTCAG CTGCCATCGA AGCTGCCACC 
ACCCGGATAG AGGAAATTCT CAGTAAGTCC CGAGCAGGAG ACACGGGAGT CAAGCTGGAG 
GTGAATGAGA GGATCCTGGG TTCCTGTACC AACCTGATGC AGGCCATCAA GGTGCTCGTT 
GTGGCCTCCA AGGACCTCCA GAAGGAGATA GTGGAGAGCG GCAGGGGTAC TGCGTCCCCT 
AAGGAATTTT ATGCCAAGAA CTCTCGGTGG ACAGAAGGGC TTATATCTGC CTCCAAAGCT 
GTTGGTTGGG GAGCTACCAT CATGGTGGAT GCTGCTGATC TTATGGTTCA AGGCAAAGGG 
AAGTTCGAGG AGCTGATGGT GTGCTCACGG GAGATTGCTG CCAGCACCGC CCAGCTCGTG 
GCTGCATCCA AGGTGAAAGC GAACAAGGGC AGCTCCAATC TGACCCAGCT GCAGCAGGCC 
TCTCGCGGGG TAAACCAGGC CACAGCTGCT GTGGTGGCCT CAACCATTTC TGGCAAATCT 
CAGATTGAGG AAACAGACAA TATGGACTTC TCAAGCATGA CTCTGACCCA GATCAAGCGC 
CAAGAGATGG ATTCCCAGGT CAGGGTGCTG GAGCTGGAAA ACGACCTGCA GAAGGAGCGT 
CAGAAACTAG GAGAGCTACG GAAGAAACAC TACGAGCTGG CTGGCGTTGC TGAGGGCTGG 
GAGGAAGGGA CAGAAGCATC TCCTTCCACT GTTCAAGAAG CAATACCGGA CAAAGAGTAG