STARD13 cDNA ORF clone, Buceros rhinoceros silvestris

Gene
Clones
gRNAs

Summary

Gene Symbol	STARD13
Entrez Gene ID	104492437
Full Name	StAR related lipid transfer domain containing 13
Gene Type	protein-coding
Organism	Buceros rhinoceros silvestris

mRNA and Protein(s)

mRNA	Protein	Name
XM_010134999.1	XP_010133301.1	stAR-related lipid transfer protein 13 isoform X1
XM_010135000.1	XP_010133302.1	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
OBu37243	XM_010134999.1 Latest version!	Buceros rhinoceros silvestris StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OBu37244	XM_010135000.1 Latest version!	Buceros rhinoceros silvestris StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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)

STARD13 ( XM_010134999.1 ) cDNA ORF clone, Buceros rhinoceros silvestris -> XP_010133301.1 Buceros rhinoceros silvestris StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OBu37243
Clone ID Related Accession (Same CDS sequence)	XM_010134999.1
Accession Version	XM_010134999.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3357bp) 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	2014-11-05
Organism	Buceros rhinoceros silvestris
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_010408826.1) 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 :: Buceros rhinoceros silvestris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTAAGC AGGTGTCCAG GACTTCGGGC ACTGGCTGTT ACTACCTAAA CTCGGTGTCA 
CCTGAGGGCC AGGACATGTA TTTGCGATTC GATCAAACGG CCAGACGCCC TCCCTACAGG 
ATGAGCCGGA TTCTCGCCCG TCACCAGCTA CTGACGAAAA TTCAGCAAGA GATCGAAGCA 
AAGGAAGCGT GTGACTGGTT ACGTGCAGCT GGATTTCCCC AATATGCTCA GTTCTACGAG 
GATTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG 
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA 
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA CCTCTGTGCT 
ATCAGTAACA AATGGACTTT CCAAAGAACC AGCAGACGAT GGTCTCGAGT GGATGACATT 
GATGTTTTGC TTCACCGATC AGACAGGCAT GGATCTTCTG GGGACATTAA AATGAAAAAT 
ACAACAAGTA GTGAGAGTGT CCTTACAGAC CTGAGTGAAC CTGAGGTCTC ATCAATTCAC 
AGCGAGAGCA GTGGGGGAAG TGACAACAGG AGTCAGTCCG GCATCAGCAG CGCTGCCAGG 
GAGACCTGCA ACTGCTCTGG CCAGCATGAT GTAGAAAGCA CACTGCTGCA AGACTCCACT 
GCAATAAACA CCACCCTGTC CCCTAAGGAC AACCTAAAGA ATGAGAAACC AACACGAACC 
AAAGGAAAAA CCTTTCTAAA ACGCATGGAA ACACTAAAAG CAAAAGGTGT GCATGGGAAA 
ATAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATAAGTG GACCTGTTCT CCAGTATGAG 
CCAAAATCCT TGAAAGACAT GCACTGTGTG CAGATAGTCA ATGGTGATCT CCAAAACTTA 
GGACAAGATT CAGTCAAAAG AGGACTTTCC TTTTCTGTCA AATCCAACAG TGACAGCAGT 
CAGTCCGAAA ACAGCAGCAG TGGGGTGAGC ACACCATGTT TGAAGGAACG CAAATGCCAT 
GAAGCAAACA AGAGAGGTGG AATGTACCTG GAGGACCTAG ATGTTCTGGC AGGAATGGCC 
TTACGGCAAG TAGTGGACCA AAACCGCAAA AATGAGTTTC ATTCACAAGA GAATTTGGTT 
GTGCATATTC CCAAGGATCA CAAACCAGGG ACCTTCCCAA AGGCGCTTTC TATTGAAAGC 
CTCTCACCTA CAGACAACAG TAACAGTGTA AACTGGAGGA CAGGCAGCAT CTCTCTGGGA 
AAGCAGAACT GCTCTACTCC AAAAGAATCG GGATTGATGG CTTGCTGTCC TAAAGAGAGC 
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC 
CTGGACTTAG AGAAAGATGT CCTTTTTCCT CATTTAGATG ACATTTTGCA ACATGTCAAT 
GGACTCCAGG AGGTGGTAGA TGGCTGGTCA AAGAATGTGT TGCCAGACCT GCCAGTTGAC 
GATGTGTCTG TCAGGGAATC TCCATCATTG CCTTTCCAGT CCCCAACACA GATCACACTT 
GATTTTGAAG GAAACTCTGT CTCTGATGGC CGGACCACAC CAAGTGACAT GGACAGAGAT 
GGAACATCCT TGAATGAATC CGAAGCTACT GGTGTTAGAG ACAGGAGAGA CTCTGGGGTA 
GGAGCATCAC TCACAAGGCC AAACAGGCGT TTGCGGTGGC ATAGTTTCCA AATCTCACAT 
CACCTGAGCC ACTCCGTCGC ATCACTTCAC ATCAGCAATC AGTCAGCAGC CCAACTGAAT 
CTGCTGCAAA AATTCTCTCT GCTTCGTCTT ACTGCCATCA TGGAAAAGTA CTCCATGTCA 
AACAAACATG GCTGGACCTG GTCTGTGCCG AAGTTCATGA AGAGGATGAA AGTCCCTGAC 
TACAAGGACA AGAATGTCTT TGGTGTGCCT CTGATAGTCC ATGTCCAGAG AACAGGACAG 
CCTCTTCCCC AGAGCATACA GCAAGCGCTA CGCTACTTAC AGAGCAACTG TCTAGATCAG 
GTGGGTCTGT TTCGAAAATC TGGGGTGAAA TCCCGAATCC AGGCTCTGCG TCAGATGAAT 
GAGAGCTCCC CAGAAAACGT CAACTATGAA GACCAGTCGG CATATGATGT GGCAGATATG 
GTAAAGCAAT TCTTCAGGGA CTTGCCGGAA CCTCTTCTCA CAAGCAAGCT CGGAGAGACT 
TTTCTACACA TCTACCAATA CGTCCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCC 
ATCATGCTGA TGTCTGATGA GAACCGGGAG GTTTTGCAGA CTCTGCTGTG CTTCTTGAGC 
GATGTCACCT CTGTGGAGGA GAATCAGATG ACCCCTATGA ACATAGCTGT TTGTCTGGCC 
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCGAGAGT AATACAGAAA 
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG 
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA TGAGATGGTC 
GCCCAGTCCC GAAACTCCTA TGTTGATGCA GAAGTGCATT CTCCCACCCT GGATGAGCTT 
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAG TCTCATGCAA 
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTCCAGAG 
AACACAGAAC TTGCCTACAA AAAGGTTGGG GATGGGAACC CGCTAAGGCT TTGGAAAGCC 
TCGGTGGAGG TTGAAGCCCC CCCATCAGTT GTCCTGAATC GAGTGCTGAG AGAACGTCAC 
CTTTGGGATG AGGATTTCTT GCAGTGGAAG GTGGTCGAGA GCTTGGACAA GCAGACAGAA 
GTTTACCAGT ATGTTTTGAA CAGCATGGCT CCTCACCCGG TCCGAGACTT TGTCATTCTA 
AGGACATGGA GGACGGATTT GCCGAAGGGG ATGTGCATGC TAGTTGCCAC CTCTGTGGAG 
CATGAAGAGG CTGCTCTTAT GGGAGCTGTG CGAGCCATCG TGATGGACTC TCAGTACTTG 
ATAGAGCCAT GTGGCTCAGG AAAATCCAGG CTGACACACA TCTGCAGAAT TGACCTAAAA 
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC 
AGGATCAGAA ACTCATTTCA GCCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGA

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

RefSeq	XP_010133301.1
CDS	1..3357
Translation	MFKQVSRTSGTGCYYLNSVSPEGQDMYLRFDQTARRPPYRMSRILARHQLLTKIQQEIEAKEACDWLRAAGFPQYAQFYEDSQFPIDIAAVKKDHDFLDKDLVEPLCRRLNTLNKCASMKLDVNFQRKKSEDSDEEDLCAISNKWTFQRTSRRWSRVDDIDVLLHRSDRHGSSGDIKMKNTTSSESVLTDLSEPEVSSIHSESSGGSDNRSQSGISSAARETCNCSGQHDVESTLLQDSTAINTTLSPKDNLKNEKPTRTKGKTFLKRMETLKAKGVHGKIKGSGRTGPLEISGPVLQYEPKSLKDMHCVQIVNGDLQNLGQDSVKRGLSFSVKSNSDSSQSENSSSGVSTPCLKERKCHEANKRGGMYLEDLDVLAGMALRQVVDQNRKNEFHSQENLVVHIPKDHKPGTFPKALSIESLSPTDNSNSVNWRTGSISLGKQNCSTPKESGLMACCPKESRISIYDNVPGSHLYASTGDLLDLEKDVLFPHLDDILQHVNGLQEVVDGWSKNVLPDLPVDDVSVRESPSLPFQSPTQITLDFEGNSVSDGRTTPSDMDRDGTSLNESEATGVRDRRDSGVGASLTRPNRRLRWHSFQISHHLSHSVASLHISNQSAAQLNLLQKFSLLRLTAIMEKYSMSNKHGWTWSVPKFMKRMKVPDYKDKNVFGVPLIVHVQRTGQPLPQSIQQALRYLQSNCLDQVGLFRKSGVKSRIQALRQMNESSPENVNYEDQSAYDVADMVKQFFRDLPEPLLTSKLGETFLHIYQYVPKEQRLQAVQAAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNIAVCLAPSLFHLNIVKKESSPRVIQKKYATGKPDQKDLSENLAATQGLAHMIMECNKLFEVPHEMVAQSRNSYVDAEVHSPTLDELGKQVDEEGGNYQMYLESLMQNLQKEAKEKFKGWVTCSSPENTELAYKKVGDGNPLRLWKASVEVEAPPSVVLNRVLRERHLWDEDFLQWKVVESLDKQTEVYQYVLNSMAPHPVRDFVILRTWRTDLPKGMCMLVATSVEHEEAALMGAVRAIVMDSQYLIEPCGSGKSRLTHICRIDLKGHSPEWYNKGFGHLCAAEVARIRNSFQPLIAEGPETKI

Target ORF information:

RefSeq Version	XM_010134999.1
Organism	Buceros rhinoceros silvestris
Definition	Buceros rhinoceros silvestris StAR-related lipid transfer (START) 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_010134999.1

ORF Insert Sequence:

ATGTTTAAGC AGGTGTCCAG GACTTCGGGC ACTGGCTGTT ACTACCTAAA CTCGGTGTCA 
CCTGAGGGCC AGGACATGTA TTTGCGATTC GATCAAACGG CCAGACGCCC TCCCTACAGG 
ATGAGCCGGA TTCTCGCCCG TCACCAGCTA CTGACGAAAA TTCAGCAAGA GATCGAAGCA 
AAGGAAGCGT GTGACTGGTT ACGTGCAGCT GGATTTCCCC AATATGCTCA GTTCTACGAG 
GATTCCCAGT TTCCCATTGA CATTGCTGCA GTAAAGAAAG ATCATGATTT TCTTGACAAG 
GACCTTGTAG AACCTCTTTG CAGACGACTG AACACACTGA ACAAGTGCGC CTCAATGAAA 
CTCGATGTGA ACTTCCAAAG AAAAAAGAGT GAAGATTCAG ATGAAGAAGA CCTCTGTGCT 
ATCAGTAACA AATGGACTTT CCAAAGAACC AGCAGACGAT GGTCTCGAGT GGATGACATT 
GATGTTTTGC TTCACCGATC AGACAGGCAT GGATCTTCTG GGGACATTAA AATGAAAAAT 
ACAACAAGTA GTGAGAGTGT CCTTACAGAC CTGAGTGAAC CTGAGGTCTC ATCAATTCAC 
AGCGAGAGCA GTGGGGGAAG TGACAACAGG AGTCAGTCCG GCATCAGCAG CGCTGCCAGG 
GAGACCTGCA ACTGCTCTGG CCAGCATGAT GTAGAAAGCA CACTGCTGCA AGACTCCACT 
GCAATAAACA CCACCCTGTC CCCTAAGGAC AACCTAAAGA ATGAGAAACC AACACGAACC 
AAAGGAAAAA CCTTTCTAAA ACGCATGGAA ACACTAAAAG CAAAAGGTGT GCATGGGAAA 
ATAAAAGGCT CGGGAAGAAC AGGTCCTTTA GAGATAAGTG GACCTGTTCT CCAGTATGAG 
CCAAAATCCT TGAAAGACAT GCACTGTGTG CAGATAGTCA ATGGTGATCT CCAAAACTTA 
GGACAAGATT CAGTCAAAAG AGGACTTTCC TTTTCTGTCA AATCCAACAG TGACAGCAGT 
CAGTCCGAAA ACAGCAGCAG TGGGGTGAGC ACACCATGTT TGAAGGAACG CAAATGCCAT 
GAAGCAAACA AGAGAGGTGG AATGTACCTG GAGGACCTAG ATGTTCTGGC AGGAATGGCC 
TTACGGCAAG TAGTGGACCA AAACCGCAAA AATGAGTTTC ATTCACAAGA GAATTTGGTT 
GTGCATATTC CCAAGGATCA CAAACCAGGG ACCTTCCCAA AGGCGCTTTC TATTGAAAGC 
CTCTCACCTA CAGACAACAG TAACAGTGTA AACTGGAGGA CAGGCAGCAT CTCTCTGGGA 
AAGCAGAACT GCTCTACTCC AAAAGAATCG GGATTGATGG CTTGCTGTCC TAAAGAGAGC 
AGAATTAGTA TTTATGACAA TGTGCCAGGT TCCCACTTGT ATGCTAGTAC TGGGGACCTC 
CTGGACTTAG AGAAAGATGT CCTTTTTCCT CATTTAGATG ACATTTTGCA ACATGTCAAT 
GGACTCCAGG AGGTGGTAGA TGGCTGGTCA AAGAATGTGT TGCCAGACCT GCCAGTTGAC 
GATGTGTCTG TCAGGGAATC TCCATCATTG CCTTTCCAGT CCCCAACACA GATCACACTT 
GATTTTGAAG GAAACTCTGT CTCTGATGGC CGGACCACAC CAAGTGACAT GGACAGAGAT 
GGAACATCCT TGAATGAATC CGAAGCTACT GGTGTTAGAG ACAGGAGAGA CTCTGGGGTA 
GGAGCATCAC TCACAAGGCC AAACAGGCGT TTGCGGTGGC ATAGTTTCCA AATCTCACAT 
CACCTGAGCC ACTCCGTCGC ATCACTTCAC ATCAGCAATC AGTCAGCAGC CCAACTGAAT 
CTGCTGCAAA AATTCTCTCT GCTTCGTCTT ACTGCCATCA TGGAAAAGTA CTCCATGTCA 
AACAAACATG GCTGGACCTG GTCTGTGCCG AAGTTCATGA AGAGGATGAA AGTCCCTGAC 
TACAAGGACA AGAATGTCTT TGGTGTGCCT CTGATAGTCC ATGTCCAGAG AACAGGACAG 
CCTCTTCCCC AGAGCATACA GCAAGCGCTA CGCTACTTAC AGAGCAACTG TCTAGATCAG 
GTGGGTCTGT TTCGAAAATC TGGGGTGAAA TCCCGAATCC AGGCTCTGCG TCAGATGAAT 
GAGAGCTCCC CAGAAAACGT CAACTATGAA GACCAGTCGG CATATGATGT GGCAGATATG 
GTAAAGCAAT TCTTCAGGGA CTTGCCGGAA CCTCTTCTCA CAAGCAAGCT CGGAGAGACT 
TTTCTACACA TCTACCAATA CGTCCCCAAG GAGCAGCGGC TGCAGGCGGT GCAGGCAGCC 
ATCATGCTGA TGTCTGATGA GAACCGGGAG GTTTTGCAGA CTCTGCTGTG CTTCTTGAGC 
GATGTCACCT CTGTGGAGGA GAATCAGATG ACCCCTATGA ACATAGCTGT TTGTCTGGCC 
CCTTCCCTCT TCCATCTCAA TATAGTGAAG AAAGAAAGCT CACCGAGAGT AATACAGAAA 
AAATATGCAA CAGGGAAGCC AGATCAGAAG GACCTCAGTG AAAACCTGGC AGCTACTCAG 
GGACTTGCTC ACATGATAAT GGAATGCAAC AAACTTTTTG AGGTCCCACA TGAGATGGTC 
GCCCAGTCCC GAAACTCCTA TGTTGATGCA GAAGTGCATT CTCCCACCCT GGATGAGCTT 
GGGAAACAAG TGGATGAGGA AGGAGGGAAC TATCAGATGT ACCTGGAAAG TCTCATGCAA 
AATCTCCAGA AAGAAGCAAA AGAGAAATTC AAAGGATGGG TCACATGTTC CAGTCCAGAG 
AACACAGAAC TTGCCTACAA AAAGGTTGGG GATGGGAACC CGCTAAGGCT TTGGAAAGCC 
TCGGTGGAGG TTGAAGCCCC CCCATCAGTT GTCCTGAATC GAGTGCTGAG AGAACGTCAC 
CTTTGGGATG AGGATTTCTT GCAGTGGAAG GTGGTCGAGA GCTTGGACAA GCAGACAGAA 
GTTTACCAGT ATGTTTTGAA CAGCATGGCT CCTCACCCGG TCCGAGACTT TGTCATTCTA 
AGGACATGGA GGACGGATTT GCCGAAGGGG ATGTGCATGC TAGTTGCCAC CTCTGTGGAG 
CATGAAGAGG CTGCTCTTAT GGGAGCTGTG CGAGCCATCG TGATGGACTC TCAGTACTTG 
ATAGAGCCAT GTGGCTCAGG AAAATCCAGG CTGACACACA TCTGCAGAAT TGACCTAAAA 
GGACATTCCC CAGAGTGGTA CAACAAAGGC TTTGGACATC TGTGTGCAGC AGAAGTTGCC 
AGGATCAGAA ACTCATTTCA GCCTCTGATT GCTGAGGGAC CAGAAACAAA AATCTGA

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

STARD13 ( XM_010135000.1 ) cDNA ORF clone, Buceros rhinoceros silvestris -> XP_010133302.1 Buceros rhinoceros silvestris StAR-related lipid transfer (START) domain containing 13 (STARD13), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OBu37244
Clone ID Related Accession (Same CDS sequence)	XM_010135000.1
Accession Version	XM_010135000.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3003bp) 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	2014-11-05
Organism	Buceros rhinoceros silvestris
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_010408826.1) 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 :: Buceros rhinoceros silvestris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGACCTC 
TGTGCTATCA GTAACAAATG GACTTTCCAA AGAACCAGCA GACGATGGTC TCGAGTGGAT 
GACATTGATG TTTTGCTTCA CCGATCAGAC AGGCATGGAT CTTCTGGGGA CATTAAAATG 
AAAAATACAA CAAGTAGTGA GAGTGTCCTT ACAGACCTGA GTGAACCTGA GGTCTCATCA 
ATTCACAGCG AGAGCAGTGG GGGAAGTGAC AACAGGAGTC AGTCCGGCAT CAGCAGCGCT 
GCCAGGGAGA CCTGCAACTG CTCTGGCCAG CATGATGTAG AAAGCACACT GCTGCAAGAC 
TCCACTGCAA TAAACACCAC CCTGTCCCCT AAGGACAACC TAAAGAATGA GAAACCAACA 
CGAACCAAAG GAAAAACCTT TCTAAAACGC ATGGAAACAC TAAAAGCAAA AGGTGTGCAT 
GGGAAAATAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TAAGTGGACC TGTTCTCCAG 
TATGAGCCAA AATCCTTGAA AGACATGCAC TGTGTGCAGA TAGTCAATGG TGATCTCCAA 
AACTTAGGAC AAGATTCAGT CAAAAGAGGA CTTTCCTTTT CTGTCAAATC CAACAGTGAC 
AGCAGTCAGT CCGAAAACAG CAGCAGTGGG GTGAGCACAC CATGTTTGAA GGAACGCAAA 
TGCCATGAAG CAAACAAGAG AGGTGGAATG TACCTGGAGG ACCTAGATGT TCTGGCAGGA 
ATGGCCTTAC GGCAAGTAGT GGACCAAAAC CGCAAAAATG AGTTTCATTC ACAAGAGAAT 
TTGGTTGTGC ATATTCCCAA GGATCACAAA CCAGGGACCT TCCCAAAGGC GCTTTCTATT 
GAAAGCCTCT CACCTACAGA CAACAGTAAC AGTGTAAACT GGAGGACAGG CAGCATCTCT 
CTGGGAAAGC AGAACTGCTC TACTCCAAAA GAATCGGGAT TGATGGCTTG CTGTCCTAAA 
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG 
GACCTCCTGG ACTTAGAGAA AGATGTCCTT TTTCCTCATT TAGATGACAT TTTGCAACAT 
GTCAATGGAC TCCAGGAGGT GGTAGATGGC TGGTCAAAGA ATGTGTTGCC AGACCTGCCA 
GTTGACGATG TGTCTGTCAG GGAATCTCCA TCATTGCCTT TCCAGTCCCC AACACAGATC 
ACACTTGATT TTGAAGGAAA CTCTGTCTCT GATGGCCGGA CCACACCAAG TGACATGGAC 
AGAGATGGAA CATCCTTGAA TGAATCCGAA GCTACTGGTG TTAGAGACAG GAGAGACTCT 
GGGGTAGGAG CATCACTCAC AAGGCCAAAC AGGCGTTTGC GGTGGCATAG TTTCCAAATC 
TCACATCACC TGAGCCACTC CGTCGCATCA CTTCACATCA GCAATCAGTC AGCAGCCCAA 
CTGAATCTGC TGCAAAAATT CTCTCTGCTT CGTCTTACTG CCATCATGGA AAAGTACTCC 
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCGAAGT TCATGAAGAG GATGAAAGTC 
CCTGACTACA AGGACAAGAA TGTCTTTGGT GTGCCTCTGA TAGTCCATGT CCAGAGAACA 
GGACAGCCTC TTCCCCAGAG CATACAGCAA GCGCTACGCT ACTTACAGAG CAACTGTCTA 
GATCAGGTGG GTCTGTTTCG AAAATCTGGG GTGAAATCCC GAATCCAGGC TCTGCGTCAG 
ATGAATGAGA GCTCCCCAGA AAACGTCAAC TATGAAGACC AGTCGGCATA TGATGTGGCA 
GATATGGTAA AGCAATTCTT CAGGGACTTG CCGGAACCTC TTCTCACAAG CAAGCTCGGA 
GAGACTTTTC TACACATCTA CCAATACGTC CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG 
GCAGCCATCA TGCTGATGTC TGATGAGAAC CGGGAGGTTT TGCAGACTCT GCTGTGCTTC 
TTGAGCGATG TCACCTCTGT GGAGGAGAAT CAGATGACCC CTATGAACAT AGCTGTTTGT 
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC GAGAGTAATA 
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT 
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACATGAG 
ATGGTCGCCC AGTCCCGAAA CTCCTATGTT GATGCAGAAG TGCATTCTCC CACCCTGGAT 
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAAGTCTC 
ATGCAAAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT 
CCAGAGAACA CAGAACTTGC CTACAAAAAG GTTGGGGATG GGAACCCGCT AAGGCTTTGG 
AAAGCCTCGG TGGAGGTTGA AGCCCCCCCA TCAGTTGTCC TGAATCGAGT GCTGAGAGAA 
CGTCACCTTT GGGATGAGGA TTTCTTGCAG TGGAAGGTGG TCGAGAGCTT GGACAAGCAG 
ACAGAAGTTT ACCAGTATGT TTTGAACAGC ATGGCTCCTC ACCCGGTCCG AGACTTTGTC 
ATTCTAAGGA CATGGAGGAC GGATTTGCCG AAGGGGATGT GCATGCTAGT TGCCACCTCT 
GTGGAGCATG AAGAGGCTGC TCTTATGGGA GCTGTGCGAG CCATCGTGAT GGACTCTCAG 
TACTTGATAG AGCCATGTGG CTCAGGAAAA TCCAGGCTGA CACACATCTG CAGAATTGAC 
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA 
GTTGCCAGGA TCAGAAACTC ATTTCAGCCT CTGATTGCTG AGGGACCAGA AACAAAAATC 
TGA

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

RefSeq	XP_010133302.1
CDS	49..3051
Translation	MKLDVNFQRKKSEDSDEEDLCAISNKWTFQRTSRRWSRVDDIDVLLHRSDRHGSSGDIKMKNTTSSESVLTDLSEPEVSSIHSESSGGSDNRSQSGISSAARETCNCSGQHDVESTLLQDSTAINTTLSPKDNLKNEKPTRTKGKTFLKRMETLKAKGVHGKIKGSGRTGPLEISGPVLQYEPKSLKDMHCVQIVNGDLQNLGQDSVKRGLSFSVKSNSDSSQSENSSSGVSTPCLKERKCHEANKRGGMYLEDLDVLAGMALRQVVDQNRKNEFHSQENLVVHIPKDHKPGTFPKALSIESLSPTDNSNSVNWRTGSISLGKQNCSTPKESGLMACCPKESRISIYDNVPGSHLYASTGDLLDLEKDVLFPHLDDILQHVNGLQEVVDGWSKNVLPDLPVDDVSVRESPSLPFQSPTQITLDFEGNSVSDGRTTPSDMDRDGTSLNESEATGVRDRRDSGVGASLTRPNRRLRWHSFQISHHLSHSVASLHISNQSAAQLNLLQKFSLLRLTAIMEKYSMSNKHGWTWSVPKFMKRMKVPDYKDKNVFGVPLIVHVQRTGQPLPQSIQQALRYLQSNCLDQVGLFRKSGVKSRIQALRQMNESSPENVNYEDQSAYDVADMVKQFFRDLPEPLLTSKLGETFLHIYQYVPKEQRLQAVQAAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNIAVCLAPSLFHLNIVKKESSPRVIQKKYATGKPDQKDLSENLAATQGLAHMIMECNKLFEVPHEMVAQSRNSYVDAEVHSPTLDELGKQVDEEGGNYQMYLESLMQNLQKEAKEKFKGWVTCSSPENTELAYKKVGDGNPLRLWKASVEVEAPPSVVLNRVLRERHLWDEDFLQWKVVESLDKQTEVYQYVLNSMAPHPVRDFVILRTWRTDLPKGMCMLVATSVEHEEAALMGAVRAIVMDSQYLIEPCGSGKSRLTHICRIDLKGHSPEWYNKGFGHLCAAEVARIRNSFQPLIAEGPETKI

Target ORF information:

RefSeq Version	XM_010135000.1
Organism	Buceros rhinoceros silvestris
Definition	Buceros rhinoceros silvestris StAR-related lipid transfer (START) 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_010135000.1

ORF Insert Sequence:

ATGAAACTCG ATGTGAACTT CCAAAGAAAA AAGAGTGAAG ATTCAGATGA AGAAGACCTC 
TGTGCTATCA GTAACAAATG GACTTTCCAA AGAACCAGCA GACGATGGTC TCGAGTGGAT 
GACATTGATG TTTTGCTTCA CCGATCAGAC AGGCATGGAT CTTCTGGGGA CATTAAAATG 
AAAAATACAA CAAGTAGTGA GAGTGTCCTT ACAGACCTGA GTGAACCTGA GGTCTCATCA 
ATTCACAGCG AGAGCAGTGG GGGAAGTGAC AACAGGAGTC AGTCCGGCAT CAGCAGCGCT 
GCCAGGGAGA CCTGCAACTG CTCTGGCCAG CATGATGTAG AAAGCACACT GCTGCAAGAC 
TCCACTGCAA TAAACACCAC CCTGTCCCCT AAGGACAACC TAAAGAATGA GAAACCAACA 
CGAACCAAAG GAAAAACCTT TCTAAAACGC ATGGAAACAC TAAAAGCAAA AGGTGTGCAT 
GGGAAAATAA AAGGCTCGGG AAGAACAGGT CCTTTAGAGA TAAGTGGACC TGTTCTCCAG 
TATGAGCCAA AATCCTTGAA AGACATGCAC TGTGTGCAGA TAGTCAATGG TGATCTCCAA 
AACTTAGGAC AAGATTCAGT CAAAAGAGGA CTTTCCTTTT CTGTCAAATC CAACAGTGAC 
AGCAGTCAGT CCGAAAACAG CAGCAGTGGG GTGAGCACAC CATGTTTGAA GGAACGCAAA 
TGCCATGAAG CAAACAAGAG AGGTGGAATG TACCTGGAGG ACCTAGATGT TCTGGCAGGA 
ATGGCCTTAC GGCAAGTAGT GGACCAAAAC CGCAAAAATG AGTTTCATTC ACAAGAGAAT 
TTGGTTGTGC ATATTCCCAA GGATCACAAA CCAGGGACCT TCCCAAAGGC GCTTTCTATT 
GAAAGCCTCT CACCTACAGA CAACAGTAAC AGTGTAAACT GGAGGACAGG CAGCATCTCT 
CTGGGAAAGC AGAACTGCTC TACTCCAAAA GAATCGGGAT TGATGGCTTG CTGTCCTAAA 
GAGAGCAGAA TTAGTATTTA TGACAATGTG CCAGGTTCCC ACTTGTATGC TAGTACTGGG 
GACCTCCTGG ACTTAGAGAA AGATGTCCTT TTTCCTCATT TAGATGACAT TTTGCAACAT 
GTCAATGGAC TCCAGGAGGT GGTAGATGGC TGGTCAAAGA ATGTGTTGCC AGACCTGCCA 
GTTGACGATG TGTCTGTCAG GGAATCTCCA TCATTGCCTT TCCAGTCCCC AACACAGATC 
ACACTTGATT TTGAAGGAAA CTCTGTCTCT GATGGCCGGA CCACACCAAG TGACATGGAC 
AGAGATGGAA CATCCTTGAA TGAATCCGAA GCTACTGGTG TTAGAGACAG GAGAGACTCT 
GGGGTAGGAG CATCACTCAC AAGGCCAAAC AGGCGTTTGC GGTGGCATAG TTTCCAAATC 
TCACATCACC TGAGCCACTC CGTCGCATCA CTTCACATCA GCAATCAGTC AGCAGCCCAA 
CTGAATCTGC TGCAAAAATT CTCTCTGCTT CGTCTTACTG CCATCATGGA AAAGTACTCC 
ATGTCAAACA AACATGGCTG GACCTGGTCT GTGCCGAAGT TCATGAAGAG GATGAAAGTC 
CCTGACTACA AGGACAAGAA TGTCTTTGGT GTGCCTCTGA TAGTCCATGT CCAGAGAACA 
GGACAGCCTC TTCCCCAGAG CATACAGCAA GCGCTACGCT ACTTACAGAG CAACTGTCTA 
GATCAGGTGG GTCTGTTTCG AAAATCTGGG GTGAAATCCC GAATCCAGGC TCTGCGTCAG 
ATGAATGAGA GCTCCCCAGA AAACGTCAAC TATGAAGACC AGTCGGCATA TGATGTGGCA 
GATATGGTAA AGCAATTCTT CAGGGACTTG CCGGAACCTC TTCTCACAAG CAAGCTCGGA 
GAGACTTTTC TACACATCTA CCAATACGTC CCCAAGGAGC AGCGGCTGCA GGCGGTGCAG 
GCAGCCATCA TGCTGATGTC TGATGAGAAC CGGGAGGTTT TGCAGACTCT GCTGTGCTTC 
TTGAGCGATG TCACCTCTGT GGAGGAGAAT CAGATGACCC CTATGAACAT AGCTGTTTGT 
CTGGCCCCTT CCCTCTTCCA TCTCAATATA GTGAAGAAAG AAAGCTCACC GAGAGTAATA 
CAGAAAAAAT ATGCAACAGG GAAGCCAGAT CAGAAGGACC TCAGTGAAAA CCTGGCAGCT 
ACTCAGGGAC TTGCTCACAT GATAATGGAA TGCAACAAAC TTTTTGAGGT CCCACATGAG 
ATGGTCGCCC AGTCCCGAAA CTCCTATGTT GATGCAGAAG TGCATTCTCC CACCCTGGAT 
GAGCTTGGGA AACAAGTGGA TGAGGAAGGA GGGAACTATC AGATGTACCT GGAAAGTCTC 
ATGCAAAATC TCCAGAAAGA AGCAAAAGAG AAATTCAAAG GATGGGTCAC ATGTTCCAGT 
CCAGAGAACA CAGAACTTGC CTACAAAAAG GTTGGGGATG GGAACCCGCT AAGGCTTTGG 
AAAGCCTCGG TGGAGGTTGA AGCCCCCCCA TCAGTTGTCC TGAATCGAGT GCTGAGAGAA 
CGTCACCTTT GGGATGAGGA TTTCTTGCAG TGGAAGGTGG TCGAGAGCTT GGACAAGCAG 
ACAGAAGTTT ACCAGTATGT TTTGAACAGC ATGGCTCCTC ACCCGGTCCG AGACTTTGTC 
ATTCTAAGGA CATGGAGGAC GGATTTGCCG AAGGGGATGT GCATGCTAGT TGCCACCTCT 
GTGGAGCATG AAGAGGCTGC TCTTATGGGA GCTGTGCGAG CCATCGTGAT GGACTCTCAG 
TACTTGATAG AGCCATGTGG CTCAGGAAAA TCCAGGCTGA CACACATCTG CAGAATTGAC 
CTAAAAGGAC ATTCCCCAGA GTGGTACAAC AAAGGCTTTG GACATCTGTG TGCAGCAGAA 
GTTGCCAGGA TCAGAAACTC ATTTCAGCCT CTGATTGCTG AGGGACCAGA AACAAAAATC 
TGA