STARD13 cDNA ORF clone, Erinaceus europaeus(western European hedgehog)

Gene
Clones
gRNAs

Summary

Gene Symbol	STARD13
Entrez Gene ID	103111059
Full Name	StAR related lipid transfer domain containing 13
Gene Type	protein-coding
Organism	Erinaceus europaeus(western European hedgehog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007520284.2	XP_007520346.1	stAR-related lipid transfer protein 13 isoform X1
XM_016186926.1	XP_016042412.1	stAR-related lipid transfer protein 13 isoform X2

Pathways from BioSystems
Gene Ontology

The following STARD13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the STARD13 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
OEr08124	XM_007520284.2 Latest version!	Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OEr08125	XM_016186926.1 Latest version!	Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

STARD13 ( XM_007520284.2 ) cDNA ORF clone, Erinaceus europaeus(western European hedgehog) -> XP_007520346.1 Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OEr08124
Clone ID Related Accession (Same CDS sequence)	XM_007520284.2
Accession Version	XM_007520284.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3378bp) 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	2016-04-10
Organism	Erinaceus europaeus(western European hedgehog)
Product	stAR-related lipid transfer protein 13 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006804044.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Apr 11, 2016 this sequence version replaced XM_007520284.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Erinaceus europaeus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTCAGTC AGGGACCCAG GACCCCAGCT TCAGGCTGCT ACTATCTAAA TTCCATGACA 
CCCGAGGGCC AGGAGATGTA CTTGCGGTTT GATCAGACTG CGAGACGCTC TCCTTACAGG 
ATGAGCCGGA TTCTAGCACG CCATCAGCTA GTGACTAAAA TTCAACAAGA AATTGAAGCA 
AAGGAAGCAT GTGACTGGCT CCGAGCTGCT GGCTTCCCAC AATACGCTCA GTTGTATGAG 
GATTCCCAAT TTCCCATCAA CATTGTGGCT GTTAAGAATG ATCATGATTT TCTTGAAAAG 
GACCTTGTAG AACCTCTTTA CAGACGACTA AATACATTGA ACAAGTGTGC CTCAATGAAA 
CTTGATGTGA ACTTCCAAAG AAAAAAGGGT GACAACTCAG ATGAGGAAGA CCTCTGCCTC 
AGTAGCAAAT GGACTTTCCA GAGAGCCAGC CGCCGGTGGT CTCGGGTGGA CGACCTCCAC 
ACACTGTTTC CTGGAGGAGA CAGAAATGGG TCATCGGGAG ACATTCGGAT GAGAAACACA 
ACTAGCAGTG AGAGTGTCCT CACAGACCTA AGCGAACCAG AGGTCTGCTC CCTTCACAGT 
GAAAGTAGCG GGGGCAGCGA CAGCCGGGGG CAGGCGGTCA GCCACAGCCC CAGCCGAGAG 
GCCTTGGAGG GCTGTGGGCC TCACTTTGGG GACAGCCCGG TCATGCTGGA TGCCACGCTC 
ATCAGCAGCC TCCCGCAGTT CCCCAAAGAC AGTCTCAACT ACCCCTTCCA CCCAAAGAAT 
GAGAAACCCA CCAGGGCCAG AGCCAAATCA TTTTTGAAAC GCATGGAGAC GCTCCGGGCA 
AAAGGAACAC ACGGGAGGCA CAAGGGGCTG GGGCGGACAG GTGGTTTGGT GATCAGTGGG 
CCTGTGCTGC AGCAAGAGCC AGAGTCCTTC AAGGCCATGC AGTGCATCCA GATCCCAAAC 
GGGGATGTGC AGAACTTGTC CCCAGCTGAG GACAAAAGAA GACTCGAGTG CTCCAGCAAA 
TGGAGCAGTG AGAGCAGCCA GTCAGAAAAC AGCAGCAGTG GGTTGAGTAT CACTGGCCAG 
AAGGAGCAGA GATGTCAGGT GCCCAACAAG CGTGGGGGCA TGTACTTAGA AGACCTGGAT 
GTGCTGGCCG GGACAGCACT GCGGGACCCA GGTGACCAAA ACCACAGCCA CGAGTTTCAT 
TCCCAAGAGA ACTTGGTTGT TCATATCCCC AAGGATCACA AACCAGGAAC ATTCCCCAAG 
GCATTGTCTA TTGAGAGCCT GTCACCCACA GACGCAAGCA ATGGAGTTAA CTGGAGGACC 
GGGAGTATCT CCCTGAGCAG ACAGCAGGGC CCGGGCACCA GAGAGCCCAA GCTCATGGCA 
TCCTGCCACA GGGCAAGTCG AGTCAGTATC TATGACAACG TCCCAGGCTC CCATTTGTAT 
GCCAGCACTG GAGATCTTTT GGACTTGGAA AAGGAGGATC TCTTCCCACA CCTGGATGAC 
ATTTTGCACC ATGTGAATGG GCTCCGGGAG GTAGTGGATG ACTGGTCCAA AAATATCTTG 
CCTGAACTGC AAACCCAGGA CACATTGGTT GCAGAACCTG GTTTATGCCC TTTTCCATCT 
CCTAATCAGA TCACCTTCGA TTTTGAAGGC AACTCTGTGT CCGAAGGTCG GACCACACCC 
AGTGATGTGG AAAGAGACGG AACATCACTT AATGAGTCAG AAGCCACTGG GGTCAGAGAA 
AGGAGGGATT CTGGTGTAGG GGCCTCCCTG ACCAGGCCTA ACAGGCGCCT CAGGTGGAAC 
AGTTTCCAGC TCTCGCACCA GCCCCAGCTG TCCACAACAT CGCCCCACAT CAGCAACCAG 
ACAGCCGGCC AGCTGAACCT CCTGCAGCGC TTCTCGTTGC TCCGCCTGAC AGCCATCATG 
GAGAAGTACT CCATGTCCAA CAAACATGGC TGGACATGGT CAGTTCCAAA GTTCATGAAG 
AGGATGAAAG TTCCCGATTA CAAAGACAAG ACCGTCTTTG GTGTTCCTCT GATAGTTCAC 
GTCCAGAGAA CGGGCCAGCC TCTGCCTCAG AGTATTCAGC AGGCACTGAG ATACCTACGC 
AGCAACTGCC TGGATCAGGT GGGTCTTTTT CGAAAATCAG GCGTGAAGTC TCGAATCCAG 
GCCTTACGTC AGATGAATGA GAACTTCCCA GACAATGTCT GCTATGAAGA CCAGTCCGCT 
TATGATGTGG CAGATATGGT GAAACAGTTC TTCCGAGACC TGCCGGAGCC ACTTTTCACC 
AACAAGCTCT GCGAGACCTT CCTCCACATT TATCAGTATG TCCCCAAGGA GCAGCGGTTG 
CAGGCAGCAC AGGCTGCCAT CTTGCTGCTG GCTGATGAGA GCAGGGAGGT CCTGCAGACG 
TTGCTGTGCT TTCTACATGA CGTGGTCAGC TTGGTGGAAG AGAATCAGAT GACTCCCATG 
AACCTGGCTG TGTGCCTGGC CCCCTCTCTC TTTCATCTCA ATTTATTGAA GAAAGAAAGC 
TCCCCCAGAG TCATACAGAA GAAATATGCC ACTGGGAAAC CAGATCAAAA GGACCTCAAT 
GAGAATCTGG CTGCTGCTCA GGGACTGGCC CACATGATCA TGGAATGCAA CAGACTTTTT 
GAGGTGCCAC TTGAGATGGT AGCCCAGTCT CATAGCTCAT ATGTGGAAGC AGAGGTCCAT 
GCTCCAACAC TGGAAGAGCT GGGGATGCAG CTAGAGGAGA GCGGGGCGAC GTTCCACACT 
TACCTGGAGC AGCTCATCCA GGGCCTGCAG AAGGAAGCCA AGGAGAAGTT CAAGGGATGG 
GTGTCGTGTT CCAGCACAGA CAACACAGAG CTTGCTTTCA AAAAGGTGGA AGACAGGAAT 
CCACTGAAGC TGTGGAAGGC GTCTGTGGAG GTGGAAGCGC CCCCCTCTGT GGTTTTGAAC 
CGGGTGCTGA GAGAGCGCCA CCTGTGGGAT GAGGATTTTG TGCAGTGGAA GATTGTGGAA 
AATCTGGACA AGCAAACAGA AATCTATCAG TACGTGTTGA ATAGCATGGC CCCCCATCCT 
TCCCGAGACT TCGTGGTTCT CCGGACCTGG AAGACAGACC TCCCCAAAGG CATGTGCACA 
CTGGTATCCC TGTCTGTGGA GCACGAGGAC GCCCAGCTCA TGGGTGGCGT GCGAGCCGTG 
GTGTTGGACT CTCAGTACTT AATCGAACCC TGTGGTTCTG GCAAGTCCAG GCTGACCCAC 
ATCTGCAGGA TAGACCTGAA AGGTCACTCC CCAGAATGGT ACAGCAAAGG CTTCGGACAT 
CTATGTGCGG CGGAAGTTGC CAGGATTAGA AACTCTTTTC AACCCCTCAT CGCTGAGGGT 
CCGGAAACCA AAATCTGA

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

RefSeq	XP_007520346.1
CDS	137..3514
Translation	MFSQGPRTPASGCYYLNSMTPEGQEMYLRFDQTARRSPYRMSRILARHQLVTKIQQEIEAKEACDWLRAAGFPQYAQLYEDSQFPINIVAVKNDHDFLEKDLVEPLYRRLNTLNKCASMKLDVNFQRKKGDNSDEEDLCLSSKWTFQRASRRWSRVDDLHTLFPGGDRNGSSGDIRMRNTTSSESVLTDLSEPEVCSLHSESSGGSDSRGQAVSHSPSREALEGCGPHFGDSPVMLDATLISSLPQFPKDSLNYPFHPKNEKPTRARAKSFLKRMETLRAKGTHGRHKGLGRTGGLVISGPVLQQEPESFKAMQCIQIPNGDVQNLSPAEDKRRLECSSKWSSESSQSENSSSGLSITGQKEQRCQVPNKRGGMYLEDLDVLAGTALRDPGDQNHSHEFHSQENLVVHIPKDHKPGTFPKALSIESLSPTDASNGVNWRTGSISLSRQQGPGTREPKLMASCHRASRVSIYDNVPGSHLYASTGDLLDLEKEDLFPHLDDILHHVNGLREVVDDWSKNILPELQTQDTLVAEPGLCPFPSPNQITFDFEGNSVSEGRTTPSDVERDGTSLNESEATGVRERRDSGVGASLTRPNRRLRWNSFQLSHQPQLSTTSPHISNQTAGQLNLLQRFSLLRLTAIMEKYSMSNKHGWTWSVPKFMKRMKVPDYKDKTVFGVPLIVHVQRTGQPLPQSIQQALRYLRSNCLDQVGLFRKSGVKSRIQALRQMNENFPDNVCYEDQSAYDVADMVKQFFRDLPEPLFTNKLCETFLHIYQYVPKEQRLQAAQAAILLLADESREVLQTLLCFLHDVVSLVEENQMTPMNLAVCLAPSLFHLNLLKKESSPRVIQKKYATGKPDQKDLNENLAAAQGLAHMIMECNRLFEVPLEMVAQSHSSYVEAEVHAPTLEELGMQLEESGATFHTYLEQLIQGLQKEAKEKFKGWVSCSSTDNTELAFKKVEDRNPLKLWKASVEVEAPPSVVLNRVLRERHLWDEDFVQWKIVENLDKQTEIYQYVLNSMAPHPSRDFVVLRTWKTDLPKGMCTLVSLSVEHEDAQLMGGVRAVVLDSQYLIEPCGSGKSRLTHICRIDLKGHSPEWYSKGFGHLCAAEVARIRNSFQPLIAEGPETKI

Target ORF information:

RefSeq Version	XM_007520284.2
Organism	Erinaceus europaeus(western European hedgehog)
Definition	Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X1, mRNA.

Target ORF information:

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

XM_007520284.2

ORF Insert Sequence:

ATGTTCAGTC AGGGACCCAG GACCCCAGCT TCAGGCTGCT ACTATCTAAA TTCCATGACA 
CCCGAGGGCC AGGAGATGTA CTTGCGGTTT GATCAGACTG CGAGACGCTC TCCTTACAGG 
ATGAGCCGGA TTCTAGCACG CCATCAGCTA GTGACTAAAA TTCAACAAGA AATTGAAGCA 
AAGGAAGCAT GTGACTGGCT CCGAGCTGCT GGCTTCCCAC AATACGCTCA GTTGTATGAG 
GATTCCCAAT TTCCCATCAA CATTGTGGCT GTTAAGAATG ATCATGATTT TCTTGAAAAG 
GACCTTGTAG AACCTCTTTA CAGACGACTA AATACATTGA ACAAGTGTGC CTCAATGAAA 
CTTGATGTGA ACTTCCAAAG AAAAAAGGGT GACAACTCAG ATGAGGAAGA CCTCTGCCTC 
AGTAGCAAAT GGACTTTCCA GAGAGCCAGC CGCCGGTGGT CTCGGGTGGA CGACCTCCAC 
ACACTGTTTC CTGGAGGAGA CAGAAATGGG TCATCGGGAG ACATTCGGAT GAGAAACACA 
ACTAGCAGTG AGAGTGTCCT CACAGACCTA AGCGAACCAG AGGTCTGCTC CCTTCACAGT 
GAAAGTAGCG GGGGCAGCGA CAGCCGGGGG CAGGCGGTCA GCCACAGCCC CAGCCGAGAG 
GCCTTGGAGG GCTGTGGGCC TCACTTTGGG GACAGCCCGG TCATGCTGGA TGCCACGCTC 
ATCAGCAGCC TCCCGCAGTT CCCCAAAGAC AGTCTCAACT ACCCCTTCCA CCCAAAGAAT 
GAGAAACCCA CCAGGGCCAG AGCCAAATCA TTTTTGAAAC GCATGGAGAC GCTCCGGGCA 
AAAGGAACAC ACGGGAGGCA CAAGGGGCTG GGGCGGACAG GTGGTTTGGT GATCAGTGGG 
CCTGTGCTGC AGCAAGAGCC AGAGTCCTTC AAGGCCATGC AGTGCATCCA GATCCCAAAC 
GGGGATGTGC AGAACTTGTC CCCAGCTGAG GACAAAAGAA GACTCGAGTG CTCCAGCAAA 
TGGAGCAGTG AGAGCAGCCA GTCAGAAAAC AGCAGCAGTG GGTTGAGTAT CACTGGCCAG 
AAGGAGCAGA GATGTCAGGT GCCCAACAAG CGTGGGGGCA TGTACTTAGA AGACCTGGAT 
GTGCTGGCCG GGACAGCACT GCGGGACCCA GGTGACCAAA ACCACAGCCA CGAGTTTCAT 
TCCCAAGAGA ACTTGGTTGT TCATATCCCC AAGGATCACA AACCAGGAAC ATTCCCCAAG 
GCATTGTCTA TTGAGAGCCT GTCACCCACA GACGCAAGCA ATGGAGTTAA CTGGAGGACC 
GGGAGTATCT CCCTGAGCAG ACAGCAGGGC CCGGGCACCA GAGAGCCCAA GCTCATGGCA 
TCCTGCCACA GGGCAAGTCG AGTCAGTATC TATGACAACG TCCCAGGCTC CCATTTGTAT 
GCCAGCACTG GAGATCTTTT GGACTTGGAA AAGGAGGATC TCTTCCCACA CCTGGATGAC 
ATTTTGCACC ATGTGAATGG GCTCCGGGAG GTAGTGGATG ACTGGTCCAA AAATATCTTG 
CCTGAACTGC AAACCCAGGA CACATTGGTT GCAGAACCTG GTTTATGCCC TTTTCCATCT 
CCTAATCAGA TCACCTTCGA TTTTGAAGGC AACTCTGTGT CCGAAGGTCG GACCACACCC 
AGTGATGTGG AAAGAGACGG AACATCACTT AATGAGTCAG AAGCCACTGG GGTCAGAGAA 
AGGAGGGATT CTGGTGTAGG GGCCTCCCTG ACCAGGCCTA ACAGGCGCCT CAGGTGGAAC 
AGTTTCCAGC TCTCGCACCA GCCCCAGCTG TCCACAACAT CGCCCCACAT CAGCAACCAG 
ACAGCCGGCC AGCTGAACCT CCTGCAGCGC TTCTCGTTGC TCCGCCTGAC AGCCATCATG 
GAGAAGTACT CCATGTCCAA CAAACATGGC TGGACATGGT CAGTTCCAAA GTTCATGAAG 
AGGATGAAAG TTCCCGATTA CAAAGACAAG ACCGTCTTTG GTGTTCCTCT GATAGTTCAC 
GTCCAGAGAA CGGGCCAGCC TCTGCCTCAG AGTATTCAGC AGGCACTGAG ATACCTACGC 
AGCAACTGCC TGGATCAGGT GGGTCTTTTT CGAAAATCAG GCGTGAAGTC TCGAATCCAG 
GCCTTACGTC AGATGAATGA GAACTTCCCA GACAATGTCT GCTATGAAGA CCAGTCCGCT 
TATGATGTGG CAGATATGGT GAAACAGTTC TTCCGAGACC TGCCGGAGCC ACTTTTCACC 
AACAAGCTCT GCGAGACCTT CCTCCACATT TATCAGTATG TCCCCAAGGA GCAGCGGTTG 
CAGGCAGCAC AGGCTGCCAT CTTGCTGCTG GCTGATGAGA GCAGGGAGGT CCTGCAGACG 
TTGCTGTGCT TTCTACATGA CGTGGTCAGC TTGGTGGAAG AGAATCAGAT GACTCCCATG 
AACCTGGCTG TGTGCCTGGC CCCCTCTCTC TTTCATCTCA ATTTATTGAA GAAAGAAAGC 
TCCCCCAGAG TCATACAGAA GAAATATGCC ACTGGGAAAC CAGATCAAAA GGACCTCAAT 
GAGAATCTGG CTGCTGCTCA GGGACTGGCC CACATGATCA TGGAATGCAA CAGACTTTTT 
GAGGTGCCAC TTGAGATGGT AGCCCAGTCT CATAGCTCAT ATGTGGAAGC AGAGGTCCAT 
GCTCCAACAC TGGAAGAGCT GGGGATGCAG CTAGAGGAGA GCGGGGCGAC GTTCCACACT 
TACCTGGAGC AGCTCATCCA GGGCCTGCAG AAGGAAGCCA AGGAGAAGTT CAAGGGATGG 
GTGTCGTGTT CCAGCACAGA CAACACAGAG CTTGCTTTCA AAAAGGTGGA AGACAGGAAT 
CCACTGAAGC TGTGGAAGGC GTCTGTGGAG GTGGAAGCGC CCCCCTCTGT GGTTTTGAAC 
CGGGTGCTGA GAGAGCGCCA CCTGTGGGAT GAGGATTTTG TGCAGTGGAA GATTGTGGAA 
AATCTGGACA AGCAAACAGA AATCTATCAG TACGTGTTGA ATAGCATGGC CCCCCATCCT 
TCCCGAGACT TCGTGGTTCT CCGGACCTGG AAGACAGACC TCCCCAAAGG CATGTGCACA 
CTGGTATCCC TGTCTGTGGA GCACGAGGAC GCCCAGCTCA TGGGTGGCGT GCGAGCCGTG 
GTGTTGGACT CTCAGTACTT AATCGAACCC TGTGGTTCTG GCAAGTCCAG GCTGACCCAC 
ATCTGCAGGA TAGACCTGAA AGGTCACTCC CCAGAATGGT ACAGCAAAGG CTTCGGACAT 
CTATGTGCGG CGGAAGTTGC CAGGATTAGA AACTCTTTTC AACCCCTCAT CGCTGAGGGT 
CCGGAAACCA AAATCTGA

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

STARD13 ( XM_016186926.1 ) cDNA ORF clone, Erinaceus europaeus(western European hedgehog) -> XP_016042412.1 Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OEr08125
Clone ID Related Accession (Same CDS sequence)	XM_016186926.1
Accession Version	XM_016186926.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3333bp) 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	2016-04-10
Organism	Erinaceus europaeus(western European hedgehog)
Product	stAR-related lipid transfer protein 13 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006804044.1) 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 :: Erinaceus europaeus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCAGCA AACGGAAACC TTTGCAGAGG CAGCTCAGGC GGTCCATCAG CGAACAGTTG 
CGGGACTCCA CTACCAGAGC CTGGGAGCTG CTGTGGAAAA ACGTCCGGGA AAGACGGCTG 
GCAGAAATTG AAGCAAAGGA AGCATGTGAC TGGCTCCGAG CTGCTGGCTT CCCACAATAC 
GCTCAGTTGT ATGAGGATTC CCAATTTCCC ATCAACATTG TGGCTGTTAA GAATGATCAT 
GATTTTCTTG AAAAGGACCT TGTAGAACCT CTTTACAGAC GACTAAATAC ATTGAACAAG 
TGTGCCTCAA TGAAACTTGA TGTGAACTTC CAAAGAAAAA AGGGTGACAA CTCAGATGAG 
GAAGACCTCT GCCTCAGTAG CAAATGGACT TTCCAGAGAG CCAGCCGCCG GTGGTCTCGG 
GTGGACGACC TCCACACACT GTTTCCTGGA GGAGACAGAA ATGGGTCATC GGGAGACATT 
CGGATGAGAA ACACAACTAG CAGTGAGAGT GTCCTCACAG ACCTAAGCGA ACCAGAGGTC 
TGCTCCCTTC ACAGTGAAAG TAGCGGGGGC AGCGACAGCC GGGGGCAGGC GGTCAGCCAC 
AGCCCCAGCC GAGAGGCCTT GGAGGGCTGT GGGCCTCACT TTGGGGACAG CCCGGTCATG 
CTGGATGCCA CGCTCATCAG CAGCCTCCCG CAGTTCCCCA AAGACAGTCT CAACTACCCC 
TTCCACCCAA AGAATGAGAA ACCCACCAGG GCCAGAGCCA AATCATTTTT GAAACGCATG 
GAGACGCTCC GGGCAAAAGG AACACACGGG AGGCACAAGG GGCTGGGGCG GACAGGTGGT 
TTGGTGATCA GTGGGCCTGT GCTGCAGCAA GAGCCAGAGT CCTTCAAGGC CATGCAGTGC 
ATCCAGATCC CAAACGGGGA TGTGCAGAAC TTGTCCCCAG CTGAGGACAA AAGAAGACTC 
GAGTGCTCCA GCAAATGGAG CAGTGAGAGC AGCCAGTCAG AAAACAGCAG CAGTGGGTTG 
AGTATCACTG GCCAGAAGGA GCAGAGATGT CAGGTGCCCA ACAAGCGTGG GGGCATGTAC 
TTAGAAGACC TGGATGTGCT GGCCGGGACA GCACTGCGGG ACCCAGGTGA CCAAAACCAC 
AGCCACGAGT TTCATTCCCA AGAGAACTTG GTTGTTCATA TCCCCAAGGA TCACAAACCA 
GGAACATTCC CCAAGGCATT GTCTATTGAG AGCCTGTCAC CCACAGACGC AAGCAATGGA 
GTTAACTGGA GGACCGGGAG TATCTCCCTG AGCAGACAGC AGGGCCCGGG CACCAGAGAG 
CCCAAGCTCA TGGCATCCTG CCACAGGGCA AGTCGAGTCA GTATCTATGA CAACGTCCCA 
GGCTCCCATT TGTATGCCAG CACTGGAGAT CTTTTGGACT TGGAAAAGGA GGATCTCTTC 
CCACACCTGG ATGACATTTT GCACCATGTG AATGGGCTCC GGGAGGTAGT GGATGACTGG 
TCCAAAAATA TCTTGCCTGA ACTGCAAACC CAGGACACAT TGGTTGCAGA ACCTGGTTTA 
TGCCCTTTTC CATCTCCTAA TCAGATCACC TTCGATTTTG AAGGCAACTC TGTGTCCGAA 
GGTCGGACCA CACCCAGTGA TGTGGAAAGA GACGGAACAT CACTTAATGA GTCAGAAGCC 
ACTGGGGTCA GAGAAAGGAG GGATTCTGGT GTAGGGGCCT CCCTGACCAG GCCTAACAGG 
CGCCTCAGGT GGAACAGTTT CCAGCTCTCG CACCAGCCCC AGCTGTCCAC AACATCGCCC 
CACATCAGCA ACCAGACAGC CGGCCAGCTG AACCTCCTGC AGCGCTTCTC GTTGCTCCGC 
CTGACAGCCA TCATGGAGAA GTACTCCATG TCCAACAAAC ATGGCTGGAC ATGGTCAGTT 
CCAAAGTTCA TGAAGAGGAT GAAAGTTCCC GATTACAAAG ACAAGACCGT CTTTGGTGTT 
CCTCTGATAG TTCACGTCCA GAGAACGGGC CAGCCTCTGC CTCAGAGTAT TCAGCAGGCA 
CTGAGATACC TACGCAGCAA CTGCCTGGAT CAGGTGGGTC TTTTTCGAAA ATCAGGCGTG 
AAGTCTCGAA TCCAGGCCTT ACGTCAGATG AATGAGAACT TCCCAGACAA TGTCTGCTAT 
GAAGACCAGT CCGCTTATGA TGTGGCAGAT ATGGTGAAAC AGTTCTTCCG AGACCTGCCG 
GAGCCACTTT TCACCAACAA GCTCTGCGAG ACCTTCCTCC ACATTTATCA GTATGTCCCC 
AAGGAGCAGC GGTTGCAGGC AGCACAGGCT GCCATCTTGC TGCTGGCTGA TGAGAGCAGG 
GAGGTCCTGC AGACGTTGCT GTGCTTTCTA CATGACGTGG TCAGCTTGGT GGAAGAGAAT 
CAGATGACTC CCATGAACCT GGCTGTGTGC CTGGCCCCCT CTCTCTTTCA TCTCAATTTA 
TTGAAGAAAG AAAGCTCCCC CAGAGTCATA CAGAAGAAAT ATGCCACTGG GAAACCAGAT 
CAAAAGGACC TCAATGAGAA TCTGGCTGCT GCTCAGGGAC TGGCCCACAT GATCATGGAA 
TGCAACAGAC TTTTTGAGGT GCCACTTGAG ATGGTAGCCC AGTCTCATAG CTCATATGTG 
GAAGCAGAGG TCCATGCTCC AACACTGGAA GAGCTGGGGA TGCAGCTAGA GGAGAGCGGG 
GCGACGTTCC ACACTTACCT GGAGCAGCTC ATCCAGGGCC TGCAGAAGGA AGCCAAGGAG 
AAGTTCAAGG GATGGGTGTC GTGTTCCAGC ACAGACAACA CAGAGCTTGC TTTCAAAAAG 
GTGGAAGACA GGAATCCACT GAAGCTGTGG AAGGCGTCTG TGGAGGTGGA AGCGCCCCCC 
TCTGTGGTTT TGAACCGGGT GCTGAGAGAG CGCCACCTGT GGGATGAGGA TTTTGTGCAG 
TGGAAGATTG TGGAAAATCT GGACAAGCAA ACAGAAATCT ATCAGTACGT GTTGAATAGC 
ATGGCCCCCC ATCCTTCCCG AGACTTCGTG GTTCTCCGGA CCTGGAAGAC AGACCTCCCC 
AAAGGCATGT GCACACTGGT ATCCCTGTCT GTGGAGCACG AGGACGCCCA GCTCATGGGT 
GGCGTGCGAG CCGTGGTGTT GGACTCTCAG TACTTAATCG AACCCTGTGG TTCTGGCAAG 
TCCAGGCTGA CCCACATCTG CAGGATAGAC CTGAAAGGTC ACTCCCCAGA ATGGTACAGC 
AAAGGCTTCG GACATCTATG TGCGGCGGAA GTTGCCAGGA TTAGAAACTC TTTTCAACCC 
CTCATCGCTG AGGGTCCGGA AACCAAAATC TGA

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

RefSeq	XP_016042412.1
CDS	8..3340
Translation	MSSKRKPLQRQLRRSISEQLRDSTTRAWELLWKNVRERRLAEIEAKEACDWLRAAGFPQYAQLYEDSQFPINIVAVKNDHDFLEKDLVEPLYRRLNTLNKCASMKLDVNFQRKKGDNSDEEDLCLSSKWTFQRASRRWSRVDDLHTLFPGGDRNGSSGDIRMRNTTSSESVLTDLSEPEVCSLHSESSGGSDSRGQAVSHSPSREALEGCGPHFGDSPVMLDATLISSLPQFPKDSLNYPFHPKNEKPTRARAKSFLKRMETLRAKGTHGRHKGLGRTGGLVISGPVLQQEPESFKAMQCIQIPNGDVQNLSPAEDKRRLECSSKWSSESSQSENSSSGLSITGQKEQRCQVPNKRGGMYLEDLDVLAGTALRDPGDQNHSHEFHSQENLVVHIPKDHKPGTFPKALSIESLSPTDASNGVNWRTGSISLSRQQGPGTREPKLMASCHRASRVSIYDNVPGSHLYASTGDLLDLEKEDLFPHLDDILHHVNGLREVVDDWSKNILPELQTQDTLVAEPGLCPFPSPNQITFDFEGNSVSEGRTTPSDVERDGTSLNESEATGVRERRDSGVGASLTRPNRRLRWNSFQLSHQPQLSTTSPHISNQTAGQLNLLQRFSLLRLTAIMEKYSMSNKHGWTWSVPKFMKRMKVPDYKDKTVFGVPLIVHVQRTGQPLPQSIQQALRYLRSNCLDQVGLFRKSGVKSRIQALRQMNENFPDNVCYEDQSAYDVADMVKQFFRDLPEPLFTNKLCETFLHIYQYVPKEQRLQAAQAAILLLADESREVLQTLLCFLHDVVSLVEENQMTPMNLAVCLAPSLFHLNLLKKESSPRVIQKKYATGKPDQKDLNENLAAAQGLAHMIMECNRLFEVPLEMVAQSHSSYVEAEVHAPTLEELGMQLEESGATFHTYLEQLIQGLQKEAKEKFKGWVSCSSTDNTELAFKKVEDRNPLKLWKASVEVEAPPSVVLNRVLRERHLWDEDFVQWKIVENLDKQTEIYQYVLNSMAPHPSRDFVVLRTWKTDLPKGMCTLVSLSVEHEDAQLMGGVRAVVLDSQYLIEPCGSGKSRLTHICRIDLKGHSPEWYSKGFGHLCAAEVARIRNSFQPLIAEGPETKI

Target ORF information:

RefSeq Version	XM_016186926.1
Organism	Erinaceus europaeus(western European hedgehog)
Definition	Erinaceus europaeus StAR related lipid transfer domain containing 13 (STARD13), transcript variant X2, mRNA.

Target ORF information:

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

XM_016186926.1

ORF Insert Sequence:

ATGAGCAGCA AACGGAAACC TTTGCAGAGG CAGCTCAGGC GGTCCATCAG CGAACAGTTG 
CGGGACTCCA CTACCAGAGC CTGGGAGCTG CTGTGGAAAA ACGTCCGGGA AAGACGGCTG 
GCAGAAATTG AAGCAAAGGA AGCATGTGAC TGGCTCCGAG CTGCTGGCTT CCCACAATAC 
GCTCAGTTGT ATGAGGATTC CCAATTTCCC ATCAACATTG TGGCTGTTAA GAATGATCAT 
GATTTTCTTG AAAAGGACCT TGTAGAACCT CTTTACAGAC GACTAAATAC ATTGAACAAG 
TGTGCCTCAA TGAAACTTGA TGTGAACTTC CAAAGAAAAA AGGGTGACAA CTCAGATGAG 
GAAGACCTCT GCCTCAGTAG CAAATGGACT TTCCAGAGAG CCAGCCGCCG GTGGTCTCGG 
GTGGACGACC TCCACACACT GTTTCCTGGA GGAGACAGAA ATGGGTCATC GGGAGACATT 
CGGATGAGAA ACACAACTAG CAGTGAGAGT GTCCTCACAG ACCTAAGCGA ACCAGAGGTC 
TGCTCCCTTC ACAGTGAAAG TAGCGGGGGC AGCGACAGCC GGGGGCAGGC GGTCAGCCAC 
AGCCCCAGCC GAGAGGCCTT GGAGGGCTGT GGGCCTCACT TTGGGGACAG CCCGGTCATG 
CTGGATGCCA CGCTCATCAG CAGCCTCCCG CAGTTCCCCA AAGACAGTCT CAACTACCCC 
TTCCACCCAA AGAATGAGAA ACCCACCAGG GCCAGAGCCA AATCATTTTT GAAACGCATG 
GAGACGCTCC GGGCAAAAGG AACACACGGG AGGCACAAGG GGCTGGGGCG GACAGGTGGT 
TTGGTGATCA GTGGGCCTGT GCTGCAGCAA GAGCCAGAGT CCTTCAAGGC CATGCAGTGC 
ATCCAGATCC CAAACGGGGA TGTGCAGAAC TTGTCCCCAG CTGAGGACAA AAGAAGACTC 
GAGTGCTCCA GCAAATGGAG CAGTGAGAGC AGCCAGTCAG AAAACAGCAG CAGTGGGTTG 
AGTATCACTG GCCAGAAGGA GCAGAGATGT CAGGTGCCCA ACAAGCGTGG GGGCATGTAC 
TTAGAAGACC TGGATGTGCT GGCCGGGACA GCACTGCGGG ACCCAGGTGA CCAAAACCAC 
AGCCACGAGT TTCATTCCCA AGAGAACTTG GTTGTTCATA TCCCCAAGGA TCACAAACCA 
GGAACATTCC CCAAGGCATT GTCTATTGAG AGCCTGTCAC CCACAGACGC AAGCAATGGA 
GTTAACTGGA GGACCGGGAG TATCTCCCTG AGCAGACAGC AGGGCCCGGG CACCAGAGAG 
CCCAAGCTCA TGGCATCCTG CCACAGGGCA AGTCGAGTCA GTATCTATGA CAACGTCCCA 
GGCTCCCATT TGTATGCCAG CACTGGAGAT CTTTTGGACT TGGAAAAGGA GGATCTCTTC 
CCACACCTGG ATGACATTTT GCACCATGTG AATGGGCTCC GGGAGGTAGT GGATGACTGG 
TCCAAAAATA TCTTGCCTGA ACTGCAAACC CAGGACACAT TGGTTGCAGA ACCTGGTTTA 
TGCCCTTTTC CATCTCCTAA TCAGATCACC TTCGATTTTG AAGGCAACTC TGTGTCCGAA 
GGTCGGACCA CACCCAGTGA TGTGGAAAGA GACGGAACAT CACTTAATGA GTCAGAAGCC 
ACTGGGGTCA GAGAAAGGAG GGATTCTGGT GTAGGGGCCT CCCTGACCAG GCCTAACAGG 
CGCCTCAGGT GGAACAGTTT CCAGCTCTCG CACCAGCCCC AGCTGTCCAC AACATCGCCC 
CACATCAGCA ACCAGACAGC CGGCCAGCTG AACCTCCTGC AGCGCTTCTC GTTGCTCCGC 
CTGACAGCCA TCATGGAGAA GTACTCCATG TCCAACAAAC ATGGCTGGAC ATGGTCAGTT 
CCAAAGTTCA TGAAGAGGAT GAAAGTTCCC GATTACAAAG ACAAGACCGT CTTTGGTGTT 
CCTCTGATAG TTCACGTCCA GAGAACGGGC CAGCCTCTGC CTCAGAGTAT TCAGCAGGCA 
CTGAGATACC TACGCAGCAA CTGCCTGGAT CAGGTGGGTC TTTTTCGAAA ATCAGGCGTG 
AAGTCTCGAA TCCAGGCCTT ACGTCAGATG AATGAGAACT TCCCAGACAA TGTCTGCTAT 
GAAGACCAGT CCGCTTATGA TGTGGCAGAT ATGGTGAAAC AGTTCTTCCG AGACCTGCCG 
GAGCCACTTT TCACCAACAA GCTCTGCGAG ACCTTCCTCC ACATTTATCA GTATGTCCCC 
AAGGAGCAGC GGTTGCAGGC AGCACAGGCT GCCATCTTGC TGCTGGCTGA TGAGAGCAGG 
GAGGTCCTGC AGACGTTGCT GTGCTTTCTA CATGACGTGG TCAGCTTGGT GGAAGAGAAT 
CAGATGACTC CCATGAACCT GGCTGTGTGC CTGGCCCCCT CTCTCTTTCA TCTCAATTTA 
TTGAAGAAAG AAAGCTCCCC CAGAGTCATA CAGAAGAAAT ATGCCACTGG GAAACCAGAT 
CAAAAGGACC TCAATGAGAA TCTGGCTGCT GCTCAGGGAC TGGCCCACAT GATCATGGAA 
TGCAACAGAC TTTTTGAGGT GCCACTTGAG ATGGTAGCCC AGTCTCATAG CTCATATGTG 
GAAGCAGAGG TCCATGCTCC AACACTGGAA GAGCTGGGGA TGCAGCTAGA GGAGAGCGGG 
GCGACGTTCC ACACTTACCT GGAGCAGCTC ATCCAGGGCC TGCAGAAGGA AGCCAAGGAG 
AAGTTCAAGG GATGGGTGTC GTGTTCCAGC ACAGACAACA CAGAGCTTGC TTTCAAAAAG 
GTGGAAGACA GGAATCCACT GAAGCTGTGG AAGGCGTCTG TGGAGGTGGA AGCGCCCCCC 
TCTGTGGTTT TGAACCGGGT GCTGAGAGAG CGCCACCTGT GGGATGAGGA TTTTGTGCAG 
TGGAAGATTG TGGAAAATCT GGACAAGCAA ACAGAAATCT ATCAGTACGT GTTGAATAGC 
ATGGCCCCCC ATCCTTCCCG AGACTTCGTG GTTCTCCGGA CCTGGAAGAC AGACCTCCCC 
AAAGGCATGT GCACACTGGT ATCCCTGTCT GTGGAGCACG AGGACGCCCA GCTCATGGGT 
GGCGTGCGAG CCGTGGTGTT GGACTCTCAG TACTTAATCG AACCCTGTGG TTCTGGCAAG 
TCCAGGCTGA CCCACATCTG CAGGATAGAC CTGAAAGGTC ACTCCCCAGA ATGGTACAGC 
AAAGGCTTCG GACATCTATG TGCGGCGGAA GTTGCCAGGA TTAGAAACTC TTTTCAACCC 
CTCATCGCTG AGGGTCCGGA AACCAAAATC TGA