stard13 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	stard13
Entrez Gene ID	734093
Full Name	StAR related lipid transfer domain containing 13
Synonyms	dlc2,gt650
General protein information	Preferred Names StAR related lipid transfer domain containing 13 Names stAR-related lipid transfer protein 13 START domain containing 13 StAR-related lipid transfer (START) domain containing 13
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012957181.2	XP_012812635.1	stAR-related lipid transfer protein 13 isoform X2
XM_012957180.3	XP_012812634.2	stAR-related lipid transfer protein 13 isoform X2
NM_001045767.1	NP_001039232.1	stAR-related lipid transfer protein 13
XM_012957181.3	XP_012812635.2	stAR-related lipid transfer protein 13 isoform X3
XM_012957180.2	XP_012812634.1	stAR-related lipid transfer protein 13 isoform X1
XM_031896084.1	XP_031751944.1	stAR-related lipid transfer protein 13 isoform X1

Pathways from BioSystems

Homologies

	STARD13	XP_001102223.1
Canis lupus familiaris (dog)	STARD13	XP_849359.2
Bos taurus (cattle)	STARD13	NP_001178999.1
Mus musculus (house mouse)	Stard13	NP_666370.3
Gallus gallus (chicken)	STARD13	XP_004938815.1
Danio rerio (zebrafish)	stard13b	XP_001340114.1
Pan troglodytes (chimpanzee)	STARD13	XP_003314160.1
Homo sapiens (human)	STARD13	NP_821074.1
Rattus norvegicus (Norway rat)	Stard13	NP_001102530.1
Danio rerio (zebrafish)	stard13a	XP_683100.5
Xenopus tropicalis (tropical clawed frog)	stard13	NP_001039232.1

Gene Ontology
Bibliography

Related articles in PubMed

Genetic and genomic tools for Xenopus research: The NIH Xenopus initiative.
Klein SL, Strausberg RL, Wagner L, Pontius J, Clifton SW, Richardson P
Developmental dynamics : an official publication of the American Association of Anatomists225(4)384-91(2002 Dec)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

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)
OXa51476	XM_031896084.1 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OXa51477	XM_012957180.3 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa51478	XM_012957181.3 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa01981	NM_001045767.1 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
OXa28842	XM_012957180.2 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
OXa28843	XM_012957181.2 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$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_031896084.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031751944.1 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa51476
Clone ID Related Accession (Same CDS sequence)	XM_031896084.1
Accession Version	XM_031896084.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4050bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
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 (NC_030678.2) 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 :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAAGGTC TTTTAGAAGA TGAAGACAAT TCATTTTATT CTATGAGTTA CATGCACTTC 
TTAACAGCAG AAAACATGCC ATATCAGTTC CCAGCGGGAA GGAATGAATA CAGTAGGCAA 
ATGGAGATTA ATGACAATAT ACTGGCAATG GGGACTAAAA TTGCAAATTT GCCTCCTATA 
AAAGAACACC ACGTGACACT GACAGAGACT GAGGAAAGGC CGTGCTGTGT TATGGTTGGT 
AAGGAATTTA AAAGTGAAGA AGTAGGCGGG GCTATATTAT ACCCACCATT AGCAGAAACC 
AATCACTTCC TAGCAGCCAA CGCTAATGCA AAGACCCGGT ATATCCAAGT GGTTGAACAT 
GAACCGAGTG CAATCCTGTT TCGGGATTTT TCATTAGATA GCTCCATACC TGGGGCCATA 
GCACCCAATA TTTTAAACTC TGAAACCTCA GAGGACAAGG AAGTTTATGA TGAGGACGAG 
GAAGAAGAGT CTGATGAAAA TGGTGATGTC TTCACAGAAT TACCGCACTA TGAGTCTATG 
TTTCCAGGAC TTAGAAGGAA TCAGTGTCAT CCAATAAGCC TAAATGGCAA CATCATATTT 
AATTTTGAGG ATGTTTGTCA GATACTCAGC AGTACCCAGA GTGGTGCCGA ACAAACTTTG 
AATGAAGGTG AAGGGAATAA TCTCATGGAA GAAAGATATC GGTGGTCAGA ATCTATGACA 
TGTCTGATGA TGAAGCTGGA GCAGCTAAAT GTAGACATTG AAGATGCGGT CATGGCTGGT 
GTTTCTTCAT TAAATTTGAG CCCAACAGAC TGTTCCACCC AACTGGCAAA TTCACTGGTG 
ACAGACAGAG GATCTCCTGA ACTCGAAGCA AAAGAAGCAT GCGATTGGCT ACGTGCAGCT 
GGATTCCCTC AATACGCTCA GCTTTATGAA GATTCCCAAT TCCCAATTGA TATCGCATCT 
GTAAAGCGGG ACCATGATTT CCTTGACAGA GACCATGTAG AACCACTTTG CAGGCGACTG 
AAGACGTTGA ATAAGTGTGC CTCAATGAAA CTCGATGTCA GCTTCCAAAG GAAGAAGAGT 
GAAGATTCAG ATGAAGAAGA CCTGTGTGCC ATCAGTGACA AATGGAGGTT CCAAAGACTC 
AGCCGCCAAT GGTCTCGGGT AGATGACATT GATTCGCTGT TTGAGCGATC GGAGAGACTT 
GGTTCATCTG GGGAAATGAA AAACACGACT AGCAGTGAAA GTGTCTTGAC TGATCTCAGT 
GAGCCAGAAA TATGTTCTAT CCACAGTGGA AGTAGCGGTG GAAGTGACTG CAGATGTTCC 
TATGTTGGTA ACAGTGCTTC CAGGGAAACA TTTGAGTGTG CGGACACAAT GTGTATTCAT 
GATCCCAATT CCATGACCAT ATTACCTCCA TGGCCTAAAG ATGTTTCAGA CGGTAAGCTG 
AATGCCAAGA ATGAAAAGCC TGCACACAAT AAAACAAAAA CTTTTCTAAA ATGCATGGGG 
ACTCTTAGAT CTAAAGGGAC CTATGGTAAA TCAAAAGGCC TCCAAAGAAC TGGAGCGATA 
GTAATTAGTG AGCCCATTCT GCAACTGGAG CCTGAACCTC TGAAACCAAT TCCACAGCTG 
GAGCCTGACC CCCTTAAAAC AATGAGCTGT GTTGGCAATG GCCAAGTCCA AGACTCCTCT 
ATGAACTTTA CAGCAACTGG AAATCTAAAT TCGGTATCTG AAATACAAAC TAGCACTGAG 
AGCTCTCCTT GCTTAAAAGA AATGCAAGCT CTTGAGCCCA ACAAACGAGG AGGCATGTAC 
CTAGAGGACA TTGATGTCTT TACAGATTTA GGGACAGCAA AAGCCGGTCA TAATCACAAC 
CATGACTTCC ATTCGCAAGA AGACTTGGTT GTACATATTC CAAAGGATCA CAAACCTGGA 
ACGTTTCCAA AAGCACTTTC TATTGAAAGC CTCTCTCCCA CAGAGAACTT CTATGGTGTC 
AACTGGCGGA GTGGAGGGAT TCCTCTTAGC AGGCAGAAAG GTATTCGTGC TAAAGAACCA 
AGAATTATGT CTTCCAGGTG CTCCAGAGGT AGCAGGCTTA GTGTTTATGA TAACGTGCCC 
GGATCCCACT TGTATGCCAG CACCGGGGAT CTCATGGATT TAGATAGGGA TGATTTATTT 
CCTCACTTAG ATGATGTTTT GCAGCACATT AATGGACTCC AACAGTCTGT GTACCACTGG 
TCAAAAGACA TAATGCCAGA TCTTCAAGAT GACGATTTCT CTGTTGGGGA GTCTGGAACC 
TCAAACTTTC ATTTGCCTAA CCCAATGAGC ATGGACTTTG AAGGCAATTC TATTTCTGAT 
GGTAGGACTA CCCCGAGTGA CATGGAGAGA GACGCTACAT CGCTTAATGA CTCTGATACT 
ACTGGAACCA GAGAAAGAAG GGATTCTGGG GTTGGAGCCT CCCTCACCAG AACAAACAGG 
CGGTTTCGGT GGAGCAGTTT CCAGCTCTCC CATCAGCAAA GCAGCTCTGG GGCATCACTT 
CAGATCAGCA ATCAGTCTGC AGGCCAGCTC AATCTGTTGC AGAAATTCTC CTTGCTTCGC 
CTGACAGCCA TCATGGAGAA ATATTCCTTG TCAAACAAGC ACGGATGGAC ATGGTCTGTG 
CCGAAGTTTA TGAAGAGGAT GAAGGGACCT GATTTCAAGG ATAAGACTAT TTTTGGTGTG 
CCTTTAATGG TTCATGTACA GAGAACTGGA CAGCCTCTTC CCCAGAGTAT CCAGCAAGCA 
TTGCGTTTCC TCCGCAGTCA CTGCCTCGAT CAGGTTGGTT TGTTCAGAAA GTCGGGTGTT 
AAATCTCGAA TCCAGGCTCT GCGCCAGATG AACGAGACTG CATCAGAGAA TGTGAGCTAT 
GAAGATCAGT GCGCCTACGA TGTGGCAGAT ATGATGAAAC AGTTCTTCAG GGATCTCCCT 
GAACCTCTTC TCACCAGTAA ATTAGGGGAG ACCTTTCTCC ATATATACCA GTATGTCCCC 
AAAGACCAGA GGCTCCAGGC TGTGCAGTCG GCTATCATGC TGATGTCAGA TGAAAACCGA 
GAGGTCTTGC AGACCCTTCT GTGCTTTCTC AGTGATGTCA CCTCGGTGGA AGAGAATCAG 
ATGACCCCGA TGAATCTCGC TGTATGTTTG GCGCCATCAC TGTTCCATCT CAATTTATTA 
AAGAAGGACA ACTCTCCAAG AGCAATACAG AAAAAATATG CAACAGGAAG ACCGGATCAG 
AAGGACCTAA ATGAGAATTT TGCAGCTACT CAGGGCCTGG CACACATGAT AATGGAGTGC 
AACAGGTTAT TTGAGATTCC ACATGACGTT ATAGCCCAGT CCCGCAATTC CTATGTCGAA 
GCTGATGTGC ACGTCCTCAC AATGGAGGAA TTAGGAAAGC AACTGGAAGA GGAAGGGGGG 
AGCGTGAGCA CGTACTTTGA GAGTACAATT CAGGGCCTAC AGAAGGAAGC TAAGGAGAAG 
TTCAAGGGAT GGATGTCCCT CTCCAGCGCA GAGAACACTG ACCTTGCTTA CAAAAAGGTT 
GGTGATGGAA ATTCATTGAG AGTGTGGAAG GTTTCGGTGG AAGTGGAGGC CCCGCCATCT 
GTGGTTCTTA ATCGCATTTT GAGAGAACGA CAACTTTGGG ATGATGACTT GTTGCAGTCG 
AAAGTGATAG AAAGTCTGGA TAACCAAACA GAAGTGTACC AGTATGTGCT GAACAGCATG 
GCTCCGCACC CCTCCAGGGA CTTTGTTGTT TTGAGGTCCT GGAGAACAGA CTTGCCAAAA 
GGAATCTGCG CGCTGGCAGC CGTATCAGTA GAACATGACG AGGCCCATCT CATAGGAGGA 
GTGAGAGCGG CAGTTCTGGA TACTCGCTAT CTCATTGAAC CCTGTGGCTC TGGCAAATCA 
AAGCTGACGC ATATTTCCAG AGTTGATCTC AAGGGCCACA GTCCTGAGTG GTACAATAAA 
TGTTTTGGAC ATCTTTGCGC ATCAGAGGCT TTAAGGATCC GAAATTCTTT CCAGCCAATT 
TCCACCGAGG GTCCTGAAAC AAAAATCTGA

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

RefSeq	XP_031751944.1
CDS	304..4353
Translation	MEGLLEDEDNSFYSMSYMHFLTAENMPYQFPAGRNEYSRQMEINDNILAMGTKIANLPPIKEHHVTLTETEERPCCVMVGKEFKSEEVGGAILYPPLAETNHFLAANANAKTRYIQVVEHEPSAILFRDFSLDSSIPGAIAPNILNSETSEDKEVYDEDEEEESDENGDVFTELPHYESMFPGLRRNQCHPISLNGNIIFNFEDVCQILSSTQSGAEQTLNEGEGNNLMEERYRWSESMTCLMMKLEQLNVDIEDAVMAGVSSLNLSPTDCSTQLANSLVTDRGSPELEAKEACDWLRAAGFPQYAQLYEDSQFPIDIASVKRDHDFLDRDHVEPLCRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICALAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	XM_031896084.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis 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_031896084.1

ORF Insert Sequence:

ATGGAAGGTC TTTTAGAAGA TGAAGACAAT TCATTTTATT CTATGAGTTA CATGCACTTC 
TTAACAGCAG AAAACATGCC ATATCAGTTC CCAGCGGGAA GGAATGAATA CAGTAGGCAA 
ATGGAGATTA ATGACAATAT ACTGGCAATG GGGACTAAAA TTGCAAATTT GCCTCCTATA 
AAAGAACACC ACGTGACACT GACAGAGACT GAGGAAAGGC CGTGCTGTGT TATGGTTGGT 
AAGGAATTTA AAAGTGAAGA AGTAGGCGGG GCTATATTAT ACCCACCATT AGCAGAAACC 
AATCACTTCC TAGCAGCCAA CGCTAATGCA AAGACCCGGT ATATCCAAGT GGTTGAACAT 
GAACCGAGTG CAATCCTGTT TCGGGATTTT TCATTAGATA GCTCCATACC TGGGGCCATA 
GCACCCAATA TTTTAAACTC TGAAACCTCA GAGGACAAGG AAGTTTATGA TGAGGACGAG 
GAAGAAGAGT CTGATGAAAA TGGTGATGTC TTCACAGAAT TACCGCACTA TGAGTCTATG 
TTTCCAGGAC TTAGAAGGAA TCAGTGTCAT CCAATAAGCC TAAATGGCAA CATCATATTT 
AATTTTGAGG ATGTTTGTCA GATACTCAGC AGTACCCAGA GTGGTGCCGA ACAAACTTTG 
AATGAAGGTG AAGGGAATAA TCTCATGGAA GAAAGATATC GGTGGTCAGA ATCTATGACA 
TGTCTGATGA TGAAGCTGGA GCAGCTAAAT GTAGACATTG AAGATGCGGT CATGGCTGGT 
GTTTCTTCAT TAAATTTGAG CCCAACAGAC TGTTCCACCC AACTGGCAAA TTCACTGGTG 
ACAGACAGAG GATCTCCTGA ACTCGAAGCA AAAGAAGCAT GCGATTGGCT ACGTGCAGCT 
GGATTCCCTC AATACGCTCA GCTTTATGAA GATTCCCAAT TCCCAATTGA TATCGCATCT 
GTAAAGCGGG ACCATGATTT CCTTGACAGA GACCATGTAG AACCACTTTG CAGGCGACTG 
AAGACGTTGA ATAAGTGTGC CTCAATGAAA CTCGATGTCA GCTTCCAAAG GAAGAAGAGT 
GAAGATTCAG ATGAAGAAGA CCTGTGTGCC ATCAGTGACA AATGGAGGTT CCAAAGACTC 
AGCCGCCAAT GGTCTCGGGT AGATGACATT GATTCGCTGT TTGAGCGATC GGAGAGACTT 
GGTTCATCTG GGGAAATGAA AAACACGACT AGCAGTGAAA GTGTCTTGAC TGATCTCAGT 
GAGCCAGAAA TATGTTCTAT CCACAGTGGA AGTAGCGGTG GAAGTGACTG CAGATGTTCC 
TATGTTGGTA ACAGTGCTTC CAGGGAAACA TTTGAGTGTG CGGACACAAT GTGTATTCAT 
GATCCCAATT CCATGACCAT ATTACCTCCA TGGCCTAAAG ATGTTTCAGA CGGTAAGCTG 
AATGCCAAGA ATGAAAAGCC TGCACACAAT AAAACAAAAA CTTTTCTAAA ATGCATGGGG 
ACTCTTAGAT CTAAAGGGAC CTATGGTAAA TCAAAAGGCC TCCAAAGAAC TGGAGCGATA 
GTAATTAGTG AGCCCATTCT GCAACTGGAG CCTGAACCTC TGAAACCAAT TCCACAGCTG 
GAGCCTGACC CCCTTAAAAC AATGAGCTGT GTTGGCAATG GCCAAGTCCA AGACTCCTCT 
ATGAACTTTA CAGCAACTGG AAATCTAAAT TCGGTATCTG AAATACAAAC TAGCACTGAG 
AGCTCTCCTT GCTTAAAAGA AATGCAAGCT CTTGAGCCCA ACAAACGAGG AGGCATGTAC 
CTAGAGGACA TTGATGTCTT TACAGATTTA GGGACAGCAA AAGCCGGTCA TAATCACAAC 
CATGACTTCC ATTCGCAAGA AGACTTGGTT GTACATATTC CAAAGGATCA CAAACCTGGA 
ACGTTTCCAA AAGCACTTTC TATTGAAAGC CTCTCTCCCA CAGAGAACTT CTATGGTGTC 
AACTGGCGGA GTGGAGGGAT TCCTCTTAGC AGGCAGAAAG GTATTCGTGC TAAAGAACCA 
AGAATTATGT CTTCCAGGTG CTCCAGAGGT AGCAGGCTTA GTGTTTATGA TAACGTGCCC 
GGATCCCACT TGTATGCCAG CACCGGGGAT CTCATGGATT TAGATAGGGA TGATTTATTT 
CCTCACTTAG ATGATGTTTT GCAGCACATT AATGGACTCC AACAGTCTGT GTACCACTGG 
TCAAAAGACA TAATGCCAGA TCTTCAAGAT GACGATTTCT CTGTTGGGGA GTCTGGAACC 
TCAAACTTTC ATTTGCCTAA CCCAATGAGC ATGGACTTTG AAGGCAATTC TATTTCTGAT 
GGTAGGACTA CCCCGAGTGA CATGGAGAGA GACGCTACAT CGCTTAATGA CTCTGATACT 
ACTGGAACCA GAGAAAGAAG GGATTCTGGG GTTGGAGCCT CCCTCACCAG AACAAACAGG 
CGGTTTCGGT GGAGCAGTTT CCAGCTCTCC CATCAGCAAA GCAGCTCTGG GGCATCACTT 
CAGATCAGCA ATCAGTCTGC AGGCCAGCTC AATCTGTTGC AGAAATTCTC CTTGCTTCGC 
CTGACAGCCA TCATGGAGAA ATATTCCTTG TCAAACAAGC ACGGATGGAC ATGGTCTGTG 
CCGAAGTTTA TGAAGAGGAT GAAGGGACCT GATTTCAAGG ATAAGACTAT TTTTGGTGTG 
CCTTTAATGG TTCATGTACA GAGAACTGGA CAGCCTCTTC CCCAGAGTAT CCAGCAAGCA 
TTGCGTTTCC TCCGCAGTCA CTGCCTCGAT CAGGTTGGTT TGTTCAGAAA GTCGGGTGTT 
AAATCTCGAA TCCAGGCTCT GCGCCAGATG AACGAGACTG CATCAGAGAA TGTGAGCTAT 
GAAGATCAGT GCGCCTACGA TGTGGCAGAT ATGATGAAAC AGTTCTTCAG GGATCTCCCT 
GAACCTCTTC TCACCAGTAA ATTAGGGGAG ACCTTTCTCC ATATATACCA GTATGTCCCC 
AAAGACCAGA GGCTCCAGGC TGTGCAGTCG GCTATCATGC TGATGTCAGA TGAAAACCGA 
GAGGTCTTGC AGACCCTTCT GTGCTTTCTC AGTGATGTCA CCTCGGTGGA AGAGAATCAG 
ATGACCCCGA TGAATCTCGC TGTATGTTTG GCGCCATCAC TGTTCCATCT CAATTTATTA 
AAGAAGGACA ACTCTCCAAG AGCAATACAG AAAAAATATG CAACAGGAAG ACCGGATCAG 
AAGGACCTAA ATGAGAATTT TGCAGCTACT CAGGGCCTGG CACACATGAT AATGGAGTGC 
AACAGGTTAT TTGAGATTCC ACATGACGTT ATAGCCCAGT CCCGCAATTC CTATGTCGAA 
GCTGATGTGC ACGTCCTCAC AATGGAGGAA TTAGGAAAGC AACTGGAAGA GGAAGGGGGG 
AGCGTGAGCA CGTACTTTGA GAGTACAATT CAGGGCCTAC AGAAGGAAGC TAAGGAGAAG 
TTCAAGGGAT GGATGTCCCT CTCCAGCGCA GAGAACACTG ACCTTGCTTA CAAAAAGGTT 
GGTGATGGAA ATTCATTGAG AGTGTGGAAG GTTTCGGTGG AAGTGGAGGC CCCGCCATCT 
GTGGTTCTTA ATCGCATTTT GAGAGAACGA CAACTTTGGG ATGATGACTT GTTGCAGTCG 
AAAGTGATAG AAAGTCTGGA TAACCAAACA GAAGTGTACC AGTATGTGCT GAACAGCATG 
GCTCCGCACC CCTCCAGGGA CTTTGTTGTT TTGAGGTCCT GGAGAACAGA CTTGCCAAAA 
GGAATCTGCG CGCTGGCAGC CGTATCAGTA GAACATGACG AGGCCCATCT CATAGGAGGA 
GTGAGAGCGG CAGTTCTGGA TACTCGCTAT CTCATTGAAC CCTGTGGCTC TGGCAAATCA 
AAGCTGACGC ATATTTCCAG AGTTGATCTC AAGGGCCACA GTCCTGAGTG GTACAATAAA 
TGTTTTGGAC ATCTTTGCGC ATCAGAGGCT TTAAGGATCC GAAATTCTTT CCAGCCAATT 
TCCACCGAGG GTCCTGAAAC AAAAATCTGA

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

stard13 ( XM_012957180.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812634.2 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa51477
Clone ID Related Accession (Same CDS sequence)	XM_012957180.3
Accession Version	XM_012957180.3 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
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 (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957180.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG 
AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA 
GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT 
TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC 
CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC 
GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC 
AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT 
TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC 
AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT 
AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT 
GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG 
CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA 
ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA 
AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT 
GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT 
GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG 
GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT 
GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG 
ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA 
CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC 
TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG 
CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC 
AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC 
ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT 
GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC 
GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG 
GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC 
GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT 
GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT 
CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT 
CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA 
AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT 
TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG 
CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG 
GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC 
GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG 
ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC 
TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT 
ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT 
GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG 
CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA 
AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG 
GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA 
GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA 
GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG 
GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG 
AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT 
TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA 
CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA 
GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG 
AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCGCGC TGGCAGCCGT ATCAGTAGAA 
CATGACGAGG CCCATCTCAT AGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC 
ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG 
GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC AGAGGCTTTA 
AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGTC CTGAAACAAA AATCTGA

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

RefSeq	XP_012812634.2
CDS	223..3579
Translation	MWKQEPQSTAAGCKRLNSVSPDGQEYYMYFDKRRRSPYRMSRILARQQLLTKIQQELEAKEACDWLRAAGFPQYAQLYEDSQFPIDIASVKRDHDFLDRDHVEPLCRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICALAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	XM_012957180.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis 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_012957180.3

ORF Insert Sequence:

ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG 
AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA 
GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT 
TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC 
CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC 
GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC 
AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT 
TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC 
AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT 
AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT 
GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG 
CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA 
ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA 
AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT 
GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT 
GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG 
GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT 
GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG 
ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA 
CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC 
TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG 
CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC 
AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC 
ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT 
GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC 
GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG 
GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC 
GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT 
GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT 
CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT 
CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA 
AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT 
TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG 
CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG 
GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC 
GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG 
ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC 
TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT 
ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT 
GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG 
CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA 
AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG 
GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA 
GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA 
GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG 
GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG 
AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT 
TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA 
CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA 
GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG 
AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCGCGC TGGCAGCCGT ATCAGTAGAA 
CATGACGAGG CCCATCTCAT AGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC 
ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG 
GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC AGAGGCTTTA 
AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGTC CTGAAACAAA AATCTGA

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

stard13 ( XM_012957181.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812635.2 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X3, mRNA.

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CloneID	OXa51478
Clone ID Related Accession (Same CDS sequence)	XM_012957181.3
Accession Version	XM_012957181.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3315bp) 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	2019-12-17
Organism	Xenopus tropicalis(tropical clawed frog)
Product	stAR-related lipid transfer protein 13 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957181.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG 
GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC 
GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT 
GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG 
TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA 
GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT 
CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA 
ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT 
TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT 
GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG 
ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA 
AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA 
GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC 
ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT 
AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA 
ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA 
AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT 
GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG 
CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA 
CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA 
GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC 
AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT 
GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT 
GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG 
CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG 
CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG 
AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA 
AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC 
AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG 
TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG 
GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG 
AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT 
GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC 
AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG 
GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC 
TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC 
AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC 
CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC 
CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT 
CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT 
CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG 
AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG 
ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC 
CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC 
TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG 
TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA 
TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC 
ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT 
CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC 
AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCGCGCTG 
GCAGCCGTAT CAGTAGAACA TGACGAGGCC CATCTCATAG GAGGAGTGAG AGCGGCAGTT 
CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT 
TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT 
TGCGCATCAG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGTCCT 
GAAACAAAAA TCTGA

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

RefSeq	XP_012812635.2
CDS	352..3666
Translation	MSGKKRSAKFLLRRSLSEQLKDSTSKAWDLLWKNVREKRLAELEAKEACDWLRAAGFPQYAQLYEDSQFPIDIASVKRDHDFLDRDHVEPLCRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICALAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	XM_012957181.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X3, mRNA.

Target ORF information:

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

XM_012957181.3

ORF Insert Sequence:

ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG 
GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC 
GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT 
GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG 
TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA 
GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT 
CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA 
ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT 
TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT 
GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG 
ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA 
AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA 
GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC 
ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT 
AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA 
ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA 
AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT 
GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG 
CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA 
CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA 
GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC 
AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT 
GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT 
GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG 
CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG 
CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG 
AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA 
AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC 
AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG 
TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG 
GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG 
AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT 
GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC 
AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG 
GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC 
TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC 
AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC 
CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC 
CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT 
CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT 
CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG 
AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG 
ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC 
CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC 
TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG 
TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA 
TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC 
ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT 
CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC 
AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCGCGCTG 
GCAGCCGTAT CAGTAGAACA TGACGAGGCC CATCTCATAG GAGGAGTGAG AGCGGCAGTT 
CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT 
TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT 
TGCGCATCAG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGTCCT 
GAAACAAAAA TCTGA

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

stard13 ( NM_001045767.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> NP_001039232.1 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), mRNA.

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CloneID	OXa01981
Clone ID Related Accession (Same CDS sequence)	NM_001045767.1
Accession Version	NM_001045767.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3138bp) 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	2019-12-21
Organism	Xenopus tropicalis(tropical clawed frog)
Product	stAR-related lipid transfer protein 13
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CR942686.2. ##Evidence-Data-START## Transcript exon combination :: CR942686.2, BC161604.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028290, SAMD00028291 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## gene product(s) localized to mito. :: inferred from homology ##RefSeq-Attributes-END##

ATGGGAGGCC AGCCTTGGAA AAAGCAGCGG ATTGAGAAAC GGAGAAGTTC CTTGTCCTTG 
GTGGGCCAGC TATTCATACA AAGTTGTGTG TTTACTTCCA GGCGACTGAA GACGTTGAAT 
AAGTGTGCCT CAATGAAACT CGATGTCAGC TTCCAAAGGA AGAAGAGTGA AGATTCAGAT 
GAAGAAGACC TGTGTGCCAT CAGTGACAAA TGGAGGTTCC AAAGACTCAG CCGCCAATGG 
TCTCGGGTAG ATGACATTGA TTCGCTGTTT GAGCGATCGG AGAGACTTGG TTCATCTGGG 
GAAATGAAAA ACACGACTAG CAGTGAAAGT GTCTTGACTG ATCTCAGTGA GCCAGAAATA 
TGTTCTATCC ACAGTGGAAG TAGCGGTGGA AGTGACTGCA GATGTTCCTA TGTTGGTAAC 
AGTGCTTCCA GGGAAACATT TGAGTGTGCG GACACAATGT GTATTCATGA TCCCAATTCC 
ATGACCATAT TACCTCCATG GCCTAAAGAT GTTTCAGACG GTAAGCTGAA TGCCAAGAAT 
GAAAAGCCTG CACACAATAA AACAAAAACT TTTCTAAAAT GCATGGGGAC TCTTAGATCT 
AAAGGGACCT ATGGTAAATC AAAAGGCCTC CAAAGAACTG GAGCGATAGT AATTAGTGAG 
CCCATTCTGC AACTGGAGCC TGAACCTCTG AAACCAATTC CACAGCTGGA GCCTGACCCC 
CTTAAAACAA TGAGCTGTGT TGGCAATGGC CAAGTCCAAG ACTCCTCTAT GAACTTTACA 
GCAACTGGAA ATCTAAATTC GGTATCTGAA ATACAAACTA GCACTGAGAG CTCTCCTTGC 
TTAAAAGAAA TGCAAGCTCT TGAGCCCAAC AAACGAGGAG GCATGTACCT AGAGGACATT 
GATGTCTTTA CAGATTTAGG GACAGCAAAA GCCGGTCATA ATCACAACCA TGACTTCCAT 
TCGCAAGAAG ACTTGGTTGT ACATATTCCA AAGGATCACA AACCTGGAAC GTTTCCAAAA 
GCACTTTCTA TTGAAAGCCT CTCTCCCACA GAGAACTTCT ATGGTGTCAA CTGGCGGAGT 
GGAGGGATTC CTCTTAGCAG GCAGAAAGGT ATTCGTGCTA AAGAACCAAG AATTATGTCT 
TCCAGGTGCT CCAGAGGTAG CAGGCTTAGT GTTTATGATA ACGTGCCCGG ATCCCACTTG 
TATGCCAGCA CCGGGGATCT CATGGATTTA GATAGGGATG ATTTATTTCC TCACTTAGAT 
GATGTTTTGC AGCACATTAA TGGACTCCAA CAGTCTGTGT ACCACTGGTC AAAAGACATA 
ATGCCAGATC TTCAAGATGA CGATTTCTCT GTTGGGGAGT CTGGAACCTC AAACTTTCAT 
TTGCCTAACC CAATGAGCAT GGACTTTGAA GGCAATTCTA TTTCTGATGG TAGGACTACC 
CCGAGTGACA TGGAGAGAGA CGCTACATCG CTTAATGACT CTGATACTAC TGGAACCAGA 
GAAAGAAGGG ATTCTGGGGT TGGAGCCTCC CTCACCAGAA CAAACAGGCG GTTTCGGTGG 
AGCAGTTTCC AGCTCTCCCA TCAGCAAAGC AGCTCTGGGG CATCACTTCA GATCAGCAAT 
CAGTCTGCAG GCCAGCTCAA TCTGTTGCAG AAATTCTCCT TGCTTCGCCT GACAGCCATC 
ATGGAGAAAT ATTCCTTGTC AAACAAGCAC GGATGGACAT GGTCTGTGCC GAAGTTTATG 
AAGAGGATGA AGGGACCTGA TTTCAAGGAT AAGACTATTT TTGGTGTGCC TTTAATGGTT 
CATGTACAGA GAACTGGACA GCCTCTTCCC CAGAGTATCC AGCAAGCATT GCGTTTCCTC 
CGCAGTCACT GCCTCGATCA GGTTGGTTTG TTCAGAAAGT CGGGTGTTAA ATCTCGAATC 
CAGGCTCTGC GCCAGATGAA CGAGACTGCA TCAGAGAATG TGAGCTATGA AGATCAGTGC 
GCCTACGATG TGGCAGATAT GATGAAACAG TTCTTCAGGG ATCTCCCTGA ACCTCTTCTC 
ACCAGTAAAT TAGGGGAGAC CTTTCTCCAT ATATACCAGT ATGTCCCCAA AGACCAGAGG 
CTCCAGGCTG TGCAGTCGGC TATCATGCTG ATGTCAGATG AAAACCGAGA GGTCTTGCAG 
ACCCTTCTGT GCTTTCTCAG TGATGTCACC TCGGTGGAAG AGAATCAGAT GACCCCGATG 
AATCTCGCTG TATGTTTGGC GCCATCACTG TTCCATCTCA ATTTATTAAA GAAGGACAAC 
TCTCCAAGAG CAATACAGAA AAAATATGCA ACAGGAAGAC CGGATCAGAA GGACCTAAAT 
GAGAATTTTG CAGCTACTCA GGGCCTGGCA CACATGATAA TGGAGTGCAA CAGGTTATTT 
GAGATTCCAC ATGACGTTAT AGCCCAGTCC CGCAATTCCT ATGTCGAAGC TGATGTGCAC 
GTCCTCACAA TGGAGGAATT AGGAAAGCAA CTGGAAGAGG AAGGGGGGAG CGTGAGCACG 
TACTTTGAGA GTACAATTCA GGGCCTACAG AAGGAAGCTA AGGAGAAGTT CAAGGGATGG 
ATGTCCCTCT CCAGCGCAGA GAACACTGAC CTTGCTTACA AAAAGGTTGG TGATGGAAAT 
TCATTGAGAG TGTGGAAGGT TTCGGTGGAA GTGGAGGCCC CGCCATCTGT GGTTCTTAAT 
CGCATTTTGA GAGAACGACA ACTTTGGGAT GATGACTTGT TGCAGTCGAA AGTGATAGAA 
AGTCTGGATA ACCAAACAGA AGTGTACCAG TATGTGCTGA ACAGCATGGC TCCGCACCCC 
TCCAGGGACT TTGTTGTTTT GAGGTCCTGG AGAACAGACT TGCCAAAAGG AATCTGCGCG 
CTGGCAGCCG TATCAGTAGA ACATGACGAG GCCCATCTCA TAGGAGGAGT GAGAGCGGCA 
GTTCTGGATA CTCGCTATCT CATTGAACCC TGTGGCTCTG GCAAATCAAA GCTGACGCAT 
ATTTCCAGAG TTGATCTCAA GGGCCACAGT CCTGAGTGGT ACAATAAATG TTTTGGACAT 
CTTTGCGCAT CAGAGGCTTT AAGGATCCGA AATTCTTTCC AGCCAATTTC CACCGAGGGT 
CCTGAAACAA AAATCTGA

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

RefSeq	NP_001039232.1
CDS	95..3232
Translation	MGGQPWKKQRIEKRRSSLSLVGQLFIQSCVFTSRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICALAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	NM_001045767.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), mRNA.

Target ORF information:

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

NM_001045767.1

ORF Insert Sequence:

ATGGGAGGCC AGCCTTGGAA AAAGCAGCGG ATTGAGAAAC GGAGAAGTTC CTTGTCCTTG 
GTGGGCCAGC TATTCATACA AAGTTGTGTG TTTACTTCCA GGCGACTGAA GACGTTGAAT 
AAGTGTGCCT CAATGAAACT CGATGTCAGC TTCCAAAGGA AGAAGAGTGA AGATTCAGAT 
GAAGAAGACC TGTGTGCCAT CAGTGACAAA TGGAGGTTCC AAAGACTCAG CCGCCAATGG 
TCTCGGGTAG ATGACATTGA TTCGCTGTTT GAGCGATCGG AGAGACTTGG TTCATCTGGG 
GAAATGAAAA ACACGACTAG CAGTGAAAGT GTCTTGACTG ATCTCAGTGA GCCAGAAATA 
TGTTCTATCC ACAGTGGAAG TAGCGGTGGA AGTGACTGCA GATGTTCCTA TGTTGGTAAC 
AGTGCTTCCA GGGAAACATT TGAGTGTGCG GACACAATGT GTATTCATGA TCCCAATTCC 
ATGACCATAT TACCTCCATG GCCTAAAGAT GTTTCAGACG GTAAGCTGAA TGCCAAGAAT 
GAAAAGCCTG CACACAATAA AACAAAAACT TTTCTAAAAT GCATGGGGAC TCTTAGATCT 
AAAGGGACCT ATGGTAAATC AAAAGGCCTC CAAAGAACTG GAGCGATAGT AATTAGTGAG 
CCCATTCTGC AACTGGAGCC TGAACCTCTG AAACCAATTC CACAGCTGGA GCCTGACCCC 
CTTAAAACAA TGAGCTGTGT TGGCAATGGC CAAGTCCAAG ACTCCTCTAT GAACTTTACA 
GCAACTGGAA ATCTAAATTC GGTATCTGAA ATACAAACTA GCACTGAGAG CTCTCCTTGC 
TTAAAAGAAA TGCAAGCTCT TGAGCCCAAC AAACGAGGAG GCATGTACCT AGAGGACATT 
GATGTCTTTA CAGATTTAGG GACAGCAAAA GCCGGTCATA ATCACAACCA TGACTTCCAT 
TCGCAAGAAG ACTTGGTTGT ACATATTCCA AAGGATCACA AACCTGGAAC GTTTCCAAAA 
GCACTTTCTA TTGAAAGCCT CTCTCCCACA GAGAACTTCT ATGGTGTCAA CTGGCGGAGT 
GGAGGGATTC CTCTTAGCAG GCAGAAAGGT ATTCGTGCTA AAGAACCAAG AATTATGTCT 
TCCAGGTGCT CCAGAGGTAG CAGGCTTAGT GTTTATGATA ACGTGCCCGG ATCCCACTTG 
TATGCCAGCA CCGGGGATCT CATGGATTTA GATAGGGATG ATTTATTTCC TCACTTAGAT 
GATGTTTTGC AGCACATTAA TGGACTCCAA CAGTCTGTGT ACCACTGGTC AAAAGACATA 
ATGCCAGATC TTCAAGATGA CGATTTCTCT GTTGGGGAGT CTGGAACCTC AAACTTTCAT 
TTGCCTAACC CAATGAGCAT GGACTTTGAA GGCAATTCTA TTTCTGATGG TAGGACTACC 
CCGAGTGACA TGGAGAGAGA CGCTACATCG CTTAATGACT CTGATACTAC TGGAACCAGA 
GAAAGAAGGG ATTCTGGGGT TGGAGCCTCC CTCACCAGAA CAAACAGGCG GTTTCGGTGG 
AGCAGTTTCC AGCTCTCCCA TCAGCAAAGC AGCTCTGGGG CATCACTTCA GATCAGCAAT 
CAGTCTGCAG GCCAGCTCAA TCTGTTGCAG AAATTCTCCT TGCTTCGCCT GACAGCCATC 
ATGGAGAAAT ATTCCTTGTC AAACAAGCAC GGATGGACAT GGTCTGTGCC GAAGTTTATG 
AAGAGGATGA AGGGACCTGA TTTCAAGGAT AAGACTATTT TTGGTGTGCC TTTAATGGTT 
CATGTACAGA GAACTGGACA GCCTCTTCCC CAGAGTATCC AGCAAGCATT GCGTTTCCTC 
CGCAGTCACT GCCTCGATCA GGTTGGTTTG TTCAGAAAGT CGGGTGTTAA ATCTCGAATC 
CAGGCTCTGC GCCAGATGAA CGAGACTGCA TCAGAGAATG TGAGCTATGA AGATCAGTGC 
GCCTACGATG TGGCAGATAT GATGAAACAG TTCTTCAGGG ATCTCCCTGA ACCTCTTCTC 
ACCAGTAAAT TAGGGGAGAC CTTTCTCCAT ATATACCAGT ATGTCCCCAA AGACCAGAGG 
CTCCAGGCTG TGCAGTCGGC TATCATGCTG ATGTCAGATG AAAACCGAGA GGTCTTGCAG 
ACCCTTCTGT GCTTTCTCAG TGATGTCACC TCGGTGGAAG AGAATCAGAT GACCCCGATG 
AATCTCGCTG TATGTTTGGC GCCATCACTG TTCCATCTCA ATTTATTAAA GAAGGACAAC 
TCTCCAAGAG CAATACAGAA AAAATATGCA ACAGGAAGAC CGGATCAGAA GGACCTAAAT 
GAGAATTTTG CAGCTACTCA GGGCCTGGCA CACATGATAA TGGAGTGCAA CAGGTTATTT 
GAGATTCCAC ATGACGTTAT AGCCCAGTCC CGCAATTCCT ATGTCGAAGC TGATGTGCAC 
GTCCTCACAA TGGAGGAATT AGGAAAGCAA CTGGAAGAGG AAGGGGGGAG CGTGAGCACG 
TACTTTGAGA GTACAATTCA GGGCCTACAG AAGGAAGCTA AGGAGAAGTT CAAGGGATGG 
ATGTCCCTCT CCAGCGCAGA GAACACTGAC CTTGCTTACA AAAAGGTTGG TGATGGAAAT 
TCATTGAGAG TGTGGAAGGT TTCGGTGGAA GTGGAGGCCC CGCCATCTGT GGTTCTTAAT 
CGCATTTTGA GAGAACGACA ACTTTGGGAT GATGACTTGT TGCAGTCGAA AGTGATAGAA 
AGTCTGGATA ACCAAACAGA AGTGTACCAG TATGTGCTGA ACAGCATGGC TCCGCACCCC 
TCCAGGGACT TTGTTGTTTT GAGGTCCTGG AGAACAGACT TGCCAAAAGG AATCTGCGCG 
CTGGCAGCCG TATCAGTAGA ACATGACGAG GCCCATCTCA TAGGAGGAGT GAGAGCGGCA 
GTTCTGGATA CTCGCTATCT CATTGAACCC TGTGGCTCTG GCAAATCAAA GCTGACGCAT 
ATTTCCAGAG TTGATCTCAA GGGCCACAGT CCTGAGTGGT ACAATAAATG TTTTGGACAT 
CTTTGCGCAT CAGAGGCTTT AAGGATCCGA AATTCTTTCC AGCCAATTTC CACCGAGGGT 
CCTGAAACAA AAATCTGA

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

stard13 ( XM_012957180.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812634.1 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.

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CloneID	OXa28842
Clone ID Related Accession (Same CDS sequence)	XM_012957180.2
Accession Version	XM_012957180.2 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	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
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 (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957180.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG 
AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA 
GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT 
TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC 
CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC 
GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC 
AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT 
TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC 
AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT 
AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT 
GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG 
CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA 
ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA 
AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT 
GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT 
GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG 
GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT 
GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG 
ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA 
CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC 
TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG 
CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC 
AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC 
ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT 
GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC 
GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG 
GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC 
GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT 
GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT 
CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT 
CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA 
AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT 
TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG 
CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG 
GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC 
GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG 
ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC 
TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT 
ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT 
GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG 
CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA 
AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG 
GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA 
GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA 
GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG 
GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG 
AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT 
TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA 
CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA 
GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG 
AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCACGC TGGCAGCCGT ATCAGTAGAG 
CATGACGAGG CCCATCTCAT TGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC 
ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG 
GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC CGAGGCTTTA 
AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGAC CTGAAACAAA AATCTGA

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

RefSeq	XP_012812634.1
CDS	144..3500
Translation	MWKQEPQSTAAGCKRLNSVSPDGQEYYMYFDKRRRSPYRMSRILARQQLLTKIQQELEAKEACDWLRAAGFPQYAQLYEDSQFPIDIASVKRDHDFLDRDHVEPLCRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICTLAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	XM_012957180.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis 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_012957180.2

ORF Insert Sequence:

ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG 
AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA 
GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT 
TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC 
CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC 
GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC 
AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT 
TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC 
AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT 
AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT 
GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG 
CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA 
ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA 
AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT 
GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT 
GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG 
GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT 
GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG 
ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA 
CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC 
TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG 
CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC 
AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC 
ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT 
GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC 
GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG 
GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC 
GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT 
GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT 
CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT 
CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA 
AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT 
TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG 
CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG 
GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC 
GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG 
ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC 
TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT 
ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT 
GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG 
CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA 
AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG 
GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA 
GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA 
GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG 
GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG 
AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT 
TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA 
CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA 
GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG 
AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCACGC TGGCAGCCGT ATCAGTAGAG 
CATGACGAGG CCCATCTCAT TGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC 
ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG 
GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC CGAGGCTTTA 
AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGAC CTGAAACAAA AATCTGA

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

stard13 ( XM_012957181.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812635.1 Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.

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CloneID	OXa28843
Clone ID Related Accession (Same CDS sequence)	XM_012957181.2
Accession Version	XM_012957181.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3315bp) 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	2016-09-07
Organism	Xenopus tropicalis(tropical clawed frog)
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 (NC_030678.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957181.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG 
GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC 
GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT 
GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG 
TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA 
GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT 
CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA 
ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT 
TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT 
GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG 
ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA 
AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA 
GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC 
ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT 
AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA 
ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA 
AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT 
GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG 
CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA 
CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA 
GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC 
AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT 
GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT 
GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG 
CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG 
CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG 
AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA 
AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC 
AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG 
TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG 
GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG 
AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT 
GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC 
AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG 
GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC 
TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC 
AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC 
CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC 
CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT 
CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT 
CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG 
AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG 
ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC 
CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC 
TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG 
TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA 
TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC 
ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT 
CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC 
AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCACGCTG 
GCAGCCGTAT CAGTAGAGCA TGACGAGGCC CATCTCATTG GAGGAGTGAG AGCGGCAGTT 
CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT 
TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT 
TGCGCATCCG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGACCT 
GAAACAAAAA TCTGA

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

RefSeq	XP_012812635.1
CDS	203..3517
Translation	MSGKKRSAKFLLRRSLSEQLKDSTSKAWDLLWKNVREKRLAELEAKEACDWLRAAGFPQYAQLYEDSQFPIDIASVKRDHDFLDRDHVEPLCRRLKTLNKCASMKLDVSFQRKKSEDSDEEDLCAISDKWRFQRLSRQWSRVDDIDSLFERSERLGSSGEMKNTTSSESVLTDLSEPEICSIHSGSSGGSDCRCSYVGNSASRETFECADTMCIHDPNSMTILPPWPKDVSDGKLNAKNEKPAHNKTKTFLKCMGTLRSKGTYGKSKGLQRTGAIVISEPILQLEPEPLKPIPQLEPDPLKTMSCVGNGQVQDSSMNFTATGNLNSVSEIQTSTESSPCLKEMQALEPNKRGGMYLEDIDVFTDLGTAKAGHNHNHDFHSQEDLVVHIPKDHKPGTFPKALSIESLSPTENFYGVNWRSGGIPLSRQKGIRAKEPRIMSSRCSRGSRLSVYDNVPGSHLYASTGDLMDLDRDDLFPHLDDVLQHINGLQQSVYHWSKDIMPDLQDDDFSVGESGTSNFHLPNPMSMDFEGNSISDGRTTPSDMERDATSLNDSDTTGTRERRDSGVGASLTRTNRRFRWSSFQLSHQQSSSGASLQISNQSAGQLNLLQKFSLLRLTAIMEKYSLSNKHGWTWSVPKFMKRMKGPDFKDKTIFGVPLMVHVQRTGQPLPQSIQQALRFLRSHCLDQVGLFRKSGVKSRIQALRQMNETASENVSYEDQCAYDVADMMKQFFRDLPEPLLTSKLGETFLHIYQYVPKDQRLQAVQSAIMLMSDENREVLQTLLCFLSDVTSVEENQMTPMNLAVCLAPSLFHLNLLKKDNSPRAIQKKYATGRPDQKDLNENFAATQGLAHMIMECNRLFEIPHDVIAQSRNSYVEADVHVLTMEELGKQLEEEGGSVSTYFESTIQGLQKEAKEKFKGWMSLSSAENTDLAYKKVGDGNSLRVWKVSVEVEAPPSVVLNRILRERQLWDDDLLQSKVIESLDNQTEVYQYVLNSMAPHPSRDFVVLRSWRTDLPKGICTLAAVSVEHDEAHLIGGVRAAVLDTRYLIEPCGSGKSKLTHISRVDLKGHSPEWYNKCFGHLCASEALRIRNSFQPISTEGPETKI

Target ORF information:

RefSeq Version	XM_012957181.2
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis 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_012957181.2

ORF Insert Sequence:

ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG 
GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC 
GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT 
GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG 
TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA 
GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT 
CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA 
ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT 
TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT 
GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG 
ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA 
AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA 
GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC 
ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT 
AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA 
ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA 
AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT 
GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG 
CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA 
CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA 
GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC 
AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT 
GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT 
GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG 
CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG 
CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG 
AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA 
AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC 
AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG 
TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG 
GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG 
AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT 
GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC 
AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG 
GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC 
TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC 
AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC 
CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC 
CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT 
CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT 
CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG 
AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG 
ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC 
CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC 
TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG 
TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA 
TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC 
ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT 
CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC 
AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCACGCTG 
GCAGCCGTAT CAGTAGAGCA TGACGAGGCC CATCTCATTG GAGGAGTGAG AGCGGCAGTT 
CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT 
TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT 
TGCGCATCCG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGACCT 
GAAACAAAAA TCTGA

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

PubMed

Genetic and genomic tools for Xenopus research: The NIH Xenopus initiative.
Developmental dynamics : an official publication of the American Association of Anatomists225(4)384-91(2002 Dec)
Klein SL,Strausberg RL,Wagner L,Pontius J,Clifton SW,Richardson P

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stard13 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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