stard8 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	stard8
Entrez Gene ID	100494346
Full Name	StAR related lipid transfer domain containing 8
General protein information	Preferred Names StAR related lipid transfer domain containing 8 Names stAR-related lipid transfer protein 8 StAR-related lipid transfer (START) domain containing 8
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002938917.4	XP_002938963.2	stAR-related lipid transfer protein 8 isoform X2
XM_004916807.3	XP_004916864.1	stAR-related lipid transfer protein 8 isoform X1
XM_004916807.4	XP_004916864.1	stAR-related lipid transfer protein 8 isoform X1
XM_002938917.5	XP_002938963.2	stAR-related lipid transfer protein 8 isoform X3
XM_031892355.1	XP_031748215.1	stAR-related lipid transfer protein 8 isoform X2

Pathways from BioSystems
Gene Ontology

The following stard8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the stard8 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)
OXa14290	XM_004916807.3 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa14292	XM_002938917.4 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa65699	XM_004916807.4 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa65700	XM_031892355.1 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OXa65701	XM_002938917.5 Latest version!	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

stard8 ( XM_004916807.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004916864.1 Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa14290
Clone ID Related Accession (Same CDS sequence)	XM_004916807.3
Accession Version	XM_004916807.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) 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 8 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) 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_004916807.2. ##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##

ATGCAGGAAG GAAGCAGGCT AAATCGTTCT TATTTTAAAG ACAGGGCATC CAAAACCTGG 
CAACGTCTGA GGAGGAGATT GTCTGCTCCC CTGGAGCTGG ACCTCGAGGC TAAGAAAGCG 
TGTGATTGGC TGCGGGCCGC TGGGTTTCCT CAGTATGCCC AGCTTTATGA AGATTCCCAG 
TTCCCAGTTG ATATCTCCTG TGTGAAGAGA GACCACAGCT TCTTAGACGA GGATTCCCTC 
AAATCCCTGT GCAGGCGGCT AATGACACTT AATTCATGTG CTCCTATGAA GCTGGAAGTT 
CATTATCGAA AGCAAAATGA AGACTCTGAT GAGGATGACC AGTGTGCAAT CAGTGACCGC 
TGGGCCTTCC AGAGGGACCA GGGACGCTGG TCTCGCCTGG ACTCTGTTGA ACTGCTGTCT 
CCGACATATG CTGGACCACC AACCATAAAG AGCACCTCTA GCCGTGACAG TATCCTGACA 
GACCTCAGCA CAGAATTAGA GGCCACCTCA TTGCAGAGTG CAGGAAGCAG TCGGGGTGGC 
TTGGACATTG TGGTAATTCC CCCACAGGGT ATGTCATCTG TGTCCAGCTC TCCTGCACCT 
TCCAAACCAT GTAGGAGCCT TAGTGATCAG TCTTTGGCTC CTCAGCGCCG AGGACTTAAG 
GAGAAAACCA AAAAGAGGAA GACCAGGGGG TTCCTGAAGC GCATGGAATC CCTGCGCAGA 
AGAGAAAAAG ACAAAGGCAA AAAGGAGGTG CCGTCAGATA GTGCTCTTGA TGACTCTGGA 
AGGGAAACCC TGAGCTATGC CAACCACTGT GCAGATGATG GAGATTTCCC AGTTTTTGAG 
AAGGACTTTC TCCATCCCGG TTATAGGACT AAATGTGCAT CTAGTGGCAG CATTAGAAAG 
CCTCACCTGG ATGGGCAGTG CAGGGGGGTT TACTTGGAAG ACTTTGAGAT GGTCAGAAAA 
GATGGCATAC GGCAAAGAAA CTCTCAAAAA TCTGACCGTC TTGTGTGCAT CCCTACAGAC 
CATAAGCCTG GCACATTTCC TAGGGCTTTG TCCATTGAGA GCCTGTGTCC AGCCAGTCGA 
GTACCACTGG AGAGCTGGAA AATGGGCAGT AAATCATTGG GACAATCAGT TTGTAGCAGT 
ATGGACTCCC ATGGCCTAGA GGGAAGGCCA AGGAGGGGTT CCTACAGTTC CATAGGTAGT 
CGTTCAAGTA TTTATGACAA TGTTCCTTGC TCGCTTTCTG GTAGTGGGGA TCACTTAGAA 
TTGGGAGGAA GTAGTGATCT GTTTGGCCAC TTGGATGATG TTCTTAATCA TGTTCGGGGT 
CTCCAGCGGA TGGTGGAGCT GTGGTCACGG ACTGTATGTC CAGAGCTCGA TGAGGGCACT 
GACTCTGGGG GTGAGCAGGC TGGGCATCTG GCCTATGAGG AGAGATCCAT ATCAGATGTG 
GGGACATCAG CCAGTGACTT TGACAGTACT GGAAACTCTC TTAACGAGAC TGAGGAGAAC 
GAGATGAGGG AGAGGAGAGA CTCTGGAGTT GGAGCATCAT TAACCAGGCC TTGCAGGAAA 
CTACGCTGGC ATAGCTTTCA GAACTCGCAC CGGCCAAGCC TCAGCTCTGC ATCGCTGGAG 
ATTAACAGGC AGTCAGCTGC ACAGCTCAAC CTCCTGCAGA AGCTCTCTCT GCTCAGACTC 
ACCGCCATCA TGGAGAAGCA TTCGGTGCCC AGCAAGCAGG GTTGGGCATG GACAGTGCCC 
AAATTCATGA AGAGAAGCAA AGTCCCTGAC TACCGAGGTA GAGCTGTGTT TAGTGTCCCC 
CCAATAATCA ATGTGCAGAG GACAGGCCAG CCACTACCAC AGAGCATCCA GCAGGCAATG 
CGCTATATTC GCAGCCAGTG CCTGGACCAG GTGGGAATCT TCAGGAAATC CGGGGTGAAA 
TCCCGCATCC AGGCCCTGCG ACAAATGAAT GAGTCTTCTC CAGACCATGT CAGTTATGTG 
GGCCAATCTG CCTATGACGT GGCTGACCTG CTGAAGCAGT ACTTCCGAGA TCTGCCCGAG 
CCCATCTTCA CTAGCAAACT GACCGACACA TTCCTGCAAA TCTATCAGTA TGTGCCCAAG 
GAACAGAGGC TGCGGGCAGT CCAGGCTGCT ATCCTGCTCA TGCCAGATGA AAACCGGGAA 
GTTCTGCAGA CGTTACTGTA TTTCCTGAGT GATATCTCCT CCGCTCAGAT AAACCAAATG 
ACACCTGGGA ACCTGGCTGT TTGCTTGGCA CCCTCTCTAT TCCATCTCAA TATCTCCAAG 
AAAGAGACCT CATCCCCCAG GGTCATGCAC AGAAGAGGAA CATCTGGGAA GCCTGGGCAT 
AAGGACCTTA GTGAGAACCT GGCAGCCACT CAAGGGTTGT TGCATATGAT AACTGAATGC 
AAGAAACTTT TCCAGATTCC TCATGACATG ATGCTGCAGT CGCGCAATTC GTACGTAGCT 
GCGGATGCTC ATCCTTTGTC CTTGGAAGAA CTTGCTGGGG TCTCAGAGGG GGAACCCCAA 
GAGTTATCAT CTGTCCTGGA TAACAGTATT CAGAGTCTCC TTCAGGAGTC TGTAGAGCGC 
TTCAAAGGGT GGGTGACCAT GTCCAGCCCA GAGAATACAG AATTGTCTTG TAAGAAGCTT 
GGGGACGGAA ACCCTCTGCG TGTGTGGAAG GTGTCAACCG AAGTGGAAGC TCCTCCCAGT 
TCTCTGCTGC ACCGCGTGCT ACGAGAGAGA CACCTTTGGG ATGATGATCT CCTTCAGGGG 
AAGGTGTTGG AGACCCTGGG GCAAAACACT GAGATCTTTC ATTACGTTAC TGACACTATG 
GCCCCTCATC CACGGAGGCA GTTTCTCGTA CTCAGGAAGT GGCGGACTGA CCTACCTAGA 
GGAGGCTGCC TGCTTGTGTC CACATCTATT GACCACAGCA CCAGGCAGCT GGATGAAGGA 
GTACAAGCTG TCATATTGAG CTCCCAGTAT CTTATGGAGC CATGTGGAAT GGGGAGATCT 
AAGCTAACGT ACATCTGCCG GACTGACCTA CGGGGCCGAT CCCCCGATTG GTACAACAAA 
GTCTTTGGAC ACCTGTGTGC CATGGAAATT GCACGGATTC GGAACTCTTT CCCTCCACTT 
AATCCATGTG GGCCGGAGAC ACAACTGTGA

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

RefSeq	XP_004916864.1
CDS	479..3628
Translation	MQEGSRLNRSYFKDRASKTWQRLRRRLSAPLELDLEAKKACDWLRAAGFPQYAQLYEDSQFPVDISCVKRDHSFLDEDSLKSLCRRLMTLNSCAPMKLEVHYRKQNEDSDEDDQCAISDRWAFQRDQGRWSRLDSVELLSPTYAGPPTIKSTSSRDSILTDLSTELEATSLQSAGSSRGGLDIVVIPPQGMSSVSSSPAPSKPCRSLSDQSLAPQRRGLKEKTKKRKTRGFLKRMESLRRREKDKGKKEVPSDSALDDSGRETLSYANHCADDGDFPVFEKDFLHPGYRTKCASSGSIRKPHLDGQCRGVYLEDFEMVRKDGIRQRNSQKSDRLVCIPTDHKPGTFPRALSIESLCPASRVPLESWKMGSKSLGQSVCSSMDSHGLEGRPRRGSYSSIGSRSSIYDNVPCSLSGSGDHLELGGSSDLFGHLDDVLNHVRGLQRMVELWSRTVCPELDEGTDSGGEQAGHLAYEERSISDVGTSASDFDSTGNSLNETEENEMRERRDSGVGASLTRPCRKLRWHSFQNSHRPSLSSASLEINRQSAAQLNLLQKLSLLRLTAIMEKHSVPSKQGWAWTVPKFMKRSKVPDYRGRAVFSVPPIINVQRTGQPLPQSIQQAMRYIRSQCLDQVGIFRKSGVKSRIQALRQMNESSPDHVSYVGQSAYDVADLLKQYFRDLPEPIFTSKLTDTFLQIYQYVPKEQRLRAVQAAILLMPDENREVLQTLLYFLSDISSAQINQMTPGNLAVCLAPSLFHLNISKKETSSPRVMHRRGTSGKPGHKDLSENLAATQGLLHMITECKKLFQIPHDMMLQSRNSYVAADAHPLSLEELAGVSEGEPQELSSVLDNSIQSLLQESVERFKGWVTMSSPENTELSCKKLGDGNPLRVWKVSTEVEAPPSSLLHRVLRERHLWDDDLLQGKVLETLGQNTEIFHYVTDTMAPHPRRQFLVLRKWRTDLPRGGCLLVSTSIDHSTRQLDEGVQAVILSSQYLMEPCGMGRSKLTYICRTDLRGRSPDWYNKVFGHLCAMEIARIRNSFPPLNPCGPETQL

Target ORF information:

RefSeq Version	XM_004916807.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.

Target ORF information:

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

XM_004916807.3

ORF Insert Sequence:

ATGCAGGAAG GAAGCAGGCT AAATCGTTCT TATTTTAAAG ACAGGGCATC CAAAACCTGG 
CAACGTCTGA GGAGGAGATT GTCTGCTCCC CTGGAGCTGG ACCTCGAGGC TAAGAAAGCG 
TGTGATTGGC TGCGGGCCGC TGGGTTTCCT CAGTATGCCC AGCTTTATGA AGATTCCCAG 
TTCCCAGTTG ATATCTCCTG TGTGAAGAGA GACCACAGCT TCTTAGACGA GGATTCCCTC 
AAATCCCTGT GCAGGCGGCT AATGACACTT AATTCATGTG CTCCTATGAA GCTGGAAGTT 
CATTATCGAA AGCAAAATGA AGACTCTGAT GAGGATGACC AGTGTGCAAT CAGTGACCGC 
TGGGCCTTCC AGAGGGACCA GGGACGCTGG TCTCGCCTGG ACTCTGTTGA ACTGCTGTCT 
CCGACATATG CTGGACCACC AACCATAAAG AGCACCTCTA GCCGTGACAG TATCCTGACA 
GACCTCAGCA CAGAATTAGA GGCCACCTCA TTGCAGAGTG CAGGAAGCAG TCGGGGTGGC 
TTGGACATTG TGGTAATTCC CCCACAGGGT ATGTCATCTG TGTCCAGCTC TCCTGCACCT 
TCCAAACCAT GTAGGAGCCT TAGTGATCAG TCTTTGGCTC CTCAGCGCCG AGGACTTAAG 
GAGAAAACCA AAAAGAGGAA GACCAGGGGG TTCCTGAAGC GCATGGAATC CCTGCGCAGA 
AGAGAAAAAG ACAAAGGCAA AAAGGAGGTG CCGTCAGATA GTGCTCTTGA TGACTCTGGA 
AGGGAAACCC TGAGCTATGC CAACCACTGT GCAGATGATG GAGATTTCCC AGTTTTTGAG 
AAGGACTTTC TCCATCCCGG TTATAGGACT AAATGTGCAT CTAGTGGCAG CATTAGAAAG 
CCTCACCTGG ATGGGCAGTG CAGGGGGGTT TACTTGGAAG ACTTTGAGAT GGTCAGAAAA 
GATGGCATAC GGCAAAGAAA CTCTCAAAAA TCTGACCGTC TTGTGTGCAT CCCTACAGAC 
CATAAGCCTG GCACATTTCC TAGGGCTTTG TCCATTGAGA GCCTGTGTCC AGCCAGTCGA 
GTACCACTGG AGAGCTGGAA AATGGGCAGT AAATCATTGG GACAATCAGT TTGTAGCAGT 
ATGGACTCCC ATGGCCTAGA GGGAAGGCCA AGGAGGGGTT CCTACAGTTC CATAGGTAGT 
CGTTCAAGTA TTTATGACAA TGTTCCTTGC TCGCTTTCTG GTAGTGGGGA TCACTTAGAA 
TTGGGAGGAA GTAGTGATCT GTTTGGCCAC TTGGATGATG TTCTTAATCA TGTTCGGGGT 
CTCCAGCGGA TGGTGGAGCT GTGGTCACGG ACTGTATGTC CAGAGCTCGA TGAGGGCACT 
GACTCTGGGG GTGAGCAGGC TGGGCATCTG GCCTATGAGG AGAGATCCAT ATCAGATGTG 
GGGACATCAG CCAGTGACTT TGACAGTACT GGAAACTCTC TTAACGAGAC TGAGGAGAAC 
GAGATGAGGG AGAGGAGAGA CTCTGGAGTT GGAGCATCAT TAACCAGGCC TTGCAGGAAA 
CTACGCTGGC ATAGCTTTCA GAACTCGCAC CGGCCAAGCC TCAGCTCTGC ATCGCTGGAG 
ATTAACAGGC AGTCAGCTGC ACAGCTCAAC CTCCTGCAGA AGCTCTCTCT GCTCAGACTC 
ACCGCCATCA TGGAGAAGCA TTCGGTGCCC AGCAAGCAGG GTTGGGCATG GACAGTGCCC 
AAATTCATGA AGAGAAGCAA AGTCCCTGAC TACCGAGGTA GAGCTGTGTT TAGTGTCCCC 
CCAATAATCA ATGTGCAGAG GACAGGCCAG CCACTACCAC AGAGCATCCA GCAGGCAATG 
CGCTATATTC GCAGCCAGTG CCTGGACCAG GTGGGAATCT TCAGGAAATC CGGGGTGAAA 
TCCCGCATCC AGGCCCTGCG ACAAATGAAT GAGTCTTCTC CAGACCATGT CAGTTATGTG 
GGCCAATCTG CCTATGACGT GGCTGACCTG CTGAAGCAGT ACTTCCGAGA TCTGCCCGAG 
CCCATCTTCA CTAGCAAACT GACCGACACA TTCCTGCAAA TCTATCAGTA TGTGCCCAAG 
GAACAGAGGC TGCGGGCAGT CCAGGCTGCT ATCCTGCTCA TGCCAGATGA AAACCGGGAA 
GTTCTGCAGA CGTTACTGTA TTTCCTGAGT GATATCTCCT CCGCTCAGAT AAACCAAATG 
ACACCTGGGA ACCTGGCTGT TTGCTTGGCA CCCTCTCTAT TCCATCTCAA TATCTCCAAG 
AAAGAGACCT CATCCCCCAG GGTCATGCAC AGAAGAGGAA CATCTGGGAA GCCTGGGCAT 
AAGGACCTTA GTGAGAACCT GGCAGCCACT CAAGGGTTGT TGCATATGAT AACTGAATGC 
AAGAAACTTT TCCAGATTCC TCATGACATG ATGCTGCAGT CGCGCAATTC GTACGTAGCT 
GCGGATGCTC ATCCTTTGTC CTTGGAAGAA CTTGCTGGGG TCTCAGAGGG GGAACCCCAA 
GAGTTATCAT CTGTCCTGGA TAACAGTATT CAGAGTCTCC TTCAGGAGTC TGTAGAGCGC 
TTCAAAGGGT GGGTGACCAT GTCCAGCCCA GAGAATACAG AATTGTCTTG TAAGAAGCTT 
GGGGACGGAA ACCCTCTGCG TGTGTGGAAG GTGTCAACCG AAGTGGAAGC TCCTCCCAGT 
TCTCTGCTGC ACCGCGTGCT ACGAGAGAGA CACCTTTGGG ATGATGATCT CCTTCAGGGG 
AAGGTGTTGG AGACCCTGGG GCAAAACACT GAGATCTTTC ATTACGTTAC TGACACTATG 
GCCCCTCATC CACGGAGGCA GTTTCTCGTA CTCAGGAAGT GGCGGACTGA CCTACCTAGA 
GGAGGCTGCC TGCTTGTGTC CACATCTATT GACCACAGCA CCAGGCAGCT GGATGAAGGA 
GTACAAGCTG TCATATTGAG CTCCCAGTAT CTTATGGAGC CATGTGGAAT GGGGAGATCT 
AAGCTAACGT ACATCTGCCG GACTGACCTA CGGGGCCGAT CCCCCGATTG GTACAACAAA 
GTCTTTGGAC ACCTGTGTGC CATGGAAATT GCACGGATTC GGAACTCTTT CCCTCCACTT 
AATCCATGTG GGCCGGAGAC ACAACTGTGA

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

stard8 ( XM_002938917.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002938963.2 Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa14292
Clone ID Related Accession (Same CDS sequence)	XM_002938917.4
Accession Version	XM_002938917.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3084bp) 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 8 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.1) 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_002938917.3. ##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##

ATGAACAGGA TCAGGACTAA GAGGATCAAG TATGACCTCG AGGCTAAGAA AGCGTGTGAT 
TGGCTGCGGG CCGCTGGGTT TCCTCAGTAT GCCCAGCTTT ATGAAGATTC CCAGTTCCCA 
GTTGATATCT CCTGTGTGAA GAGAGACCAC AGCTTCTTAG ACGAGGATTC CCTCAAATCC 
CTGTGCAGGC GGCTAATGAC ACTTAATTCA TGTGCTCCTA TGAAGCTGGA AGTTCATTAT 
CGAAAGCAAA ATGAAGACTC TGATGAGGAT GACCAGTGTG CAATCAGTGA CCGCTGGGCC 
TTCCAGAGGG ACCAGGGACG CTGGTCTCGC CTGGACTCTG TTGAACTGCT GTCTCCGACA 
TATGCTGGAC CACCAACCAT AAAGAGCACC TCTAGCCGTG ACAGTATCCT GACAGACCTC 
AGCACAGAAT TAGAGGCCAC CTCATTGCAG AGTGCAGGAA GCAGTCGGGG TGGCTTGGAC 
ATTGTGGTAA TTCCCCCACA GGGTATGTCA TCTGTGTCCA GCTCTCCTGC ACCTTCCAAA 
CCATGTAGGA GCCTTAGTGA TCAGTCTTTG GCTCCTCAGC GCCGAGGACT TAAGGAGAAA 
ACCAAAAAGA GGAAGACCAG GGGGTTCCTG AAGCGCATGG AATCCCTGCG CAGAAGAGAA 
AAAGACAAAG GCAAAAAGGA GGTGCCGTCA GATAGTGCTC TTGATGACTC TGGAAGGGAA 
ACCCTGAGCT ATGCCAACCA CTGTGCAGAT GATGGAGATT TCCCAGTTTT TGAGAAGGAC 
TTTCTCCATC CCGGTTATAG GACTAAATGT GCATCTAGTG GCAGCATTAG AAAGCCTCAC 
CTGGATGGGC AGTGCAGGGG GGTTTACTTG GAAGACTTTG AGATGGTCAG AAAAGATGGC 
ATACGGCAAA GAAACTCTCA AAAATCTGAC CGTCTTGTGT GCATCCCTAC AGACCATAAG 
CCTGGCACAT TTCCTAGGGC TTTGTCCATT GAGAGCCTGT GTCCAGCCAG TCGAGTACCA 
CTGGAGAGCT GGAAAATGGG CAGTAAATCA TTGGGACAAT CAGTTTGTAG CAGTATGGAC 
TCCCATGGCC TAGAGGGAAG GCCAAGGAGG GGTTCCTACA GTTCCATAGG TAGTCGTTCA 
AGTATTTATG ACAATGTTCC TTGCTCGCTT TCTGGTAGTG GGGATCACTT AGAATTGGGA 
GGAAGTAGTG ATCTGTTTGG CCACTTGGAT GATGTTCTTA ATCATGTTCG GGGTCTCCAG 
CGGATGGTGG AGCTGTGGTC ACGGACTGTA TGTCCAGAGC TCGATGAGGG CACTGACTCT 
GGGGGTGAGC AGGCTGGGCA TCTGGCCTAT GAGGAGAGAT CCATATCAGA TGTGGGGACA 
TCAGCCAGTG ACTTTGACAG TACTGGAAAC TCTCTTAACG AGACTGAGGA GAACGAGATG 
AGGGAGAGGA GAGACTCTGG AGTTGGAGCA TCATTAACCA GGCCTTGCAG GAAACTACGC 
TGGCATAGCT TTCAGAACTC GCACCGGCCA AGCCTCAGCT CTGCATCGCT GGAGATTAAC 
AGGCAGTCAG CTGCACAGCT CAACCTCCTG CAGAAGCTCT CTCTGCTCAG ACTCACCGCC 
ATCATGGAGA AGCATTCGGT GCCCAGCAAG CAGGGTTGGG CATGGACAGT GCCCAAATTC 
ATGAAGAGAA GCAAAGTCCC TGACTACCGA GGTAGAGCTG TGTTTAGTGT CCCCCCAATA 
ATCAATGTGC AGAGGACAGG CCAGCCACTA CCACAGAGCA TCCAGCAGGC AATGCGCTAT 
ATTCGCAGCC AGTGCCTGGA CCAGGTGGGA ATCTTCAGGA AATCCGGGGT GAAATCCCGC 
ATCCAGGCCC TGCGACAAAT GAATGAGTCT TCTCCAGACC ATGTCAGTTA TGTGGGCCAA 
TCTGCCTATG ACGTGGCTGA CCTGCTGAAG CAGTACTTCC GAGATCTGCC CGAGCCCATC 
TTCACTAGCA AACTGACCGA CACATTCCTG CAAATCTATC AGTATGTGCC CAAGGAACAG 
AGGCTGCGGG CAGTCCAGGC TGCTATCCTG CTCATGCCAG ATGAAAACCG GGAAGTTCTG 
CAGACGTTAC TGTATTTCCT GAGTGATATC TCCTCCGCTC AGATAAACCA AATGACACCT 
GGGAACCTGG CTGTTTGCTT GGCACCCTCT CTATTCCATC TCAATATCTC CAAGAAAGAG 
ACCTCATCCC CCAGGGTCAT GCACAGAAGA GGAACATCTG GGAAGCCTGG GCATAAGGAC 
CTTAGTGAGA ACCTGGCAGC CACTCAAGGG TTGTTGCATA TGATAACTGA ATGCAAGAAA 
CTTTTCCAGA TTCCTCATGA CATGATGCTG CAGTCGCGCA ATTCGTACGT AGCTGCGGAT 
GCTCATCCTT TGTCCTTGGA AGAACTTGCT GGGGTCTCAG AGGGGGAACC CCAAGAGTTA 
TCATCTGTCC TGGATAACAG TATTCAGAGT CTCCTTCAGG AGTCTGTAGA GCGCTTCAAA 
GGGTGGGTGA CCATGTCCAG CCCAGAGAAT ACAGAATTGT CTTGTAAGAA GCTTGGGGAC 
GGAAACCCTC TGCGTGTGTG GAAGGTGTCA ACCGAAGTGG AAGCTCCTCC CAGTTCTCTG 
CTGCACCGCG TGCTACGAGA GAGACACCTT TGGGATGATG ATCTCCTTCA GGGGAAGGTG 
TTGGAGACCC TGGGGCAAAA CACTGAGATC TTTCATTACG TTACTGACAC TATGGCCCCT 
CATCCACGGA GGCAGTTTCT CGTACTCAGG AAGTGGCGGA CTGACCTACC TAGAGGAGGC 
TGCCTGCTTG TGTCCACATC TATTGACCAC AGCACCAGGC AGCTGGATGA AGGAGTACAA 
GCTGTCATAT TGAGCTCCCA GTATCTTATG GAGCCATGTG GAATGGGGAG ATCTAAGCTA 
ACGTACATCT GCCGGACTGA CCTACGGGGC CGATCCCCCG ATTGGTACAA CAAAGTCTTT 
GGACACCTGT GTGCCATGGA AATTGCACGG ATTCGGAACT CTTTCCCTCC ACTTAATCCA 
TGTGGGCCGG AGACACAACT GTGA

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

RefSeq	XP_002938963.2
CDS	147..3230
Translation	MNRIRTKRIKYDLEAKKACDWLRAAGFPQYAQLYEDSQFPVDISCVKRDHSFLDEDSLKSLCRRLMTLNSCAPMKLEVHYRKQNEDSDEDDQCAISDRWAFQRDQGRWSRLDSVELLSPTYAGPPTIKSTSSRDSILTDLSTELEATSLQSAGSSRGGLDIVVIPPQGMSSVSSSPAPSKPCRSLSDQSLAPQRRGLKEKTKKRKTRGFLKRMESLRRREKDKGKKEVPSDSALDDSGRETLSYANHCADDGDFPVFEKDFLHPGYRTKCASSGSIRKPHLDGQCRGVYLEDFEMVRKDGIRQRNSQKSDRLVCIPTDHKPGTFPRALSIESLCPASRVPLESWKMGSKSLGQSVCSSMDSHGLEGRPRRGSYSSIGSRSSIYDNVPCSLSGSGDHLELGGSSDLFGHLDDVLNHVRGLQRMVELWSRTVCPELDEGTDSGGEQAGHLAYEERSISDVGTSASDFDSTGNSLNETEENEMRERRDSGVGASLTRPCRKLRWHSFQNSHRPSLSSASLEINRQSAAQLNLLQKLSLLRLTAIMEKHSVPSKQGWAWTVPKFMKRSKVPDYRGRAVFSVPPIINVQRTGQPLPQSIQQAMRYIRSQCLDQVGIFRKSGVKSRIQALRQMNESSPDHVSYVGQSAYDVADLLKQYFRDLPEPIFTSKLTDTFLQIYQYVPKEQRLRAVQAAILLMPDENREVLQTLLYFLSDISSAQINQMTPGNLAVCLAPSLFHLNISKKETSSPRVMHRRGTSGKPGHKDLSENLAATQGLLHMITECKKLFQIPHDMMLQSRNSYVAADAHPLSLEELAGVSEGEPQELSSVLDNSIQSLLQESVERFKGWVTMSSPENTELSCKKLGDGNPLRVWKVSTEVEAPPSSLLHRVLRERHLWDDDLLQGKVLETLGQNTEIFHYVTDTMAPHPRRQFLVLRKWRTDLPRGGCLLVSTSIDHSTRQLDEGVQAVILSSQYLMEPCGMGRSKLTYICRTDLRGRSPDWYNKVFGHLCAMEIARIRNSFPPLNPCGPETQL

Target ORF information:

RefSeq Version	XM_002938917.4
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.

Target ORF information:

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

XM_002938917.4

ORF Insert Sequence:

ATGAACAGGA TCAGGACTAA GAGGATCAAG TATGACCTCG AGGCTAAGAA AGCGTGTGAT 
TGGCTGCGGG CCGCTGGGTT TCCTCAGTAT GCCCAGCTTT ATGAAGATTC CCAGTTCCCA 
GTTGATATCT CCTGTGTGAA GAGAGACCAC AGCTTCTTAG ACGAGGATTC CCTCAAATCC 
CTGTGCAGGC GGCTAATGAC ACTTAATTCA TGTGCTCCTA TGAAGCTGGA AGTTCATTAT 
CGAAAGCAAA ATGAAGACTC TGATGAGGAT GACCAGTGTG CAATCAGTGA CCGCTGGGCC 
TTCCAGAGGG ACCAGGGACG CTGGTCTCGC CTGGACTCTG TTGAACTGCT GTCTCCGACA 
TATGCTGGAC CACCAACCAT AAAGAGCACC TCTAGCCGTG ACAGTATCCT GACAGACCTC 
AGCACAGAAT TAGAGGCCAC CTCATTGCAG AGTGCAGGAA GCAGTCGGGG TGGCTTGGAC 
ATTGTGGTAA TTCCCCCACA GGGTATGTCA TCTGTGTCCA GCTCTCCTGC ACCTTCCAAA 
CCATGTAGGA GCCTTAGTGA TCAGTCTTTG GCTCCTCAGC GCCGAGGACT TAAGGAGAAA 
ACCAAAAAGA GGAAGACCAG GGGGTTCCTG AAGCGCATGG AATCCCTGCG CAGAAGAGAA 
AAAGACAAAG GCAAAAAGGA GGTGCCGTCA GATAGTGCTC TTGATGACTC TGGAAGGGAA 
ACCCTGAGCT ATGCCAACCA CTGTGCAGAT GATGGAGATT TCCCAGTTTT TGAGAAGGAC 
TTTCTCCATC CCGGTTATAG GACTAAATGT GCATCTAGTG GCAGCATTAG AAAGCCTCAC 
CTGGATGGGC AGTGCAGGGG GGTTTACTTG GAAGACTTTG AGATGGTCAG AAAAGATGGC 
ATACGGCAAA GAAACTCTCA AAAATCTGAC CGTCTTGTGT GCATCCCTAC AGACCATAAG 
CCTGGCACAT TTCCTAGGGC TTTGTCCATT GAGAGCCTGT GTCCAGCCAG TCGAGTACCA 
CTGGAGAGCT GGAAAATGGG CAGTAAATCA TTGGGACAAT CAGTTTGTAG CAGTATGGAC 
TCCCATGGCC TAGAGGGAAG GCCAAGGAGG GGTTCCTACA GTTCCATAGG TAGTCGTTCA 
AGTATTTATG ACAATGTTCC TTGCTCGCTT TCTGGTAGTG GGGATCACTT AGAATTGGGA 
GGAAGTAGTG ATCTGTTTGG CCACTTGGAT GATGTTCTTA ATCATGTTCG GGGTCTCCAG 
CGGATGGTGG AGCTGTGGTC ACGGACTGTA TGTCCAGAGC TCGATGAGGG CACTGACTCT 
GGGGGTGAGC AGGCTGGGCA TCTGGCCTAT GAGGAGAGAT CCATATCAGA TGTGGGGACA 
TCAGCCAGTG ACTTTGACAG TACTGGAAAC TCTCTTAACG AGACTGAGGA GAACGAGATG 
AGGGAGAGGA GAGACTCTGG AGTTGGAGCA TCATTAACCA GGCCTTGCAG GAAACTACGC 
TGGCATAGCT TTCAGAACTC GCACCGGCCA AGCCTCAGCT CTGCATCGCT GGAGATTAAC 
AGGCAGTCAG CTGCACAGCT CAACCTCCTG CAGAAGCTCT CTCTGCTCAG ACTCACCGCC 
ATCATGGAGA AGCATTCGGT GCCCAGCAAG CAGGGTTGGG CATGGACAGT GCCCAAATTC 
ATGAAGAGAA GCAAAGTCCC TGACTACCGA GGTAGAGCTG TGTTTAGTGT CCCCCCAATA 
ATCAATGTGC AGAGGACAGG CCAGCCACTA CCACAGAGCA TCCAGCAGGC AATGCGCTAT 
ATTCGCAGCC AGTGCCTGGA CCAGGTGGGA ATCTTCAGGA AATCCGGGGT GAAATCCCGC 
ATCCAGGCCC TGCGACAAAT GAATGAGTCT TCTCCAGACC ATGTCAGTTA TGTGGGCCAA 
TCTGCCTATG ACGTGGCTGA CCTGCTGAAG CAGTACTTCC GAGATCTGCC CGAGCCCATC 
TTCACTAGCA AACTGACCGA CACATTCCTG CAAATCTATC AGTATGTGCC CAAGGAACAG 
AGGCTGCGGG CAGTCCAGGC TGCTATCCTG CTCATGCCAG ATGAAAACCG GGAAGTTCTG 
CAGACGTTAC TGTATTTCCT GAGTGATATC TCCTCCGCTC AGATAAACCA AATGACACCT 
GGGAACCTGG CTGTTTGCTT GGCACCCTCT CTATTCCATC TCAATATCTC CAAGAAAGAG 
ACCTCATCCC CCAGGGTCAT GCACAGAAGA GGAACATCTG GGAAGCCTGG GCATAAGGAC 
CTTAGTGAGA ACCTGGCAGC CACTCAAGGG TTGTTGCATA TGATAACTGA ATGCAAGAAA 
CTTTTCCAGA TTCCTCATGA CATGATGCTG CAGTCGCGCA ATTCGTACGT AGCTGCGGAT 
GCTCATCCTT TGTCCTTGGA AGAACTTGCT GGGGTCTCAG AGGGGGAACC CCAAGAGTTA 
TCATCTGTCC TGGATAACAG TATTCAGAGT CTCCTTCAGG AGTCTGTAGA GCGCTTCAAA 
GGGTGGGTGA CCATGTCCAG CCCAGAGAAT ACAGAATTGT CTTGTAAGAA GCTTGGGGAC 
GGAAACCCTC TGCGTGTGTG GAAGGTGTCA ACCGAAGTGG AAGCTCCTCC CAGTTCTCTG 
CTGCACCGCG TGCTACGAGA GAGACACCTT TGGGATGATG ATCTCCTTCA GGGGAAGGTG 
TTGGAGACCC TGGGGCAAAA CACTGAGATC TTTCATTACG TTACTGACAC TATGGCCCCT 
CATCCACGGA GGCAGTTTCT CGTACTCAGG AAGTGGCGGA CTGACCTACC TAGAGGAGGC 
TGCCTGCTTG TGTCCACATC TATTGACCAC AGCACCAGGC AGCTGGATGA AGGAGTACAA 
GCTGTCATAT TGAGCTCCCA GTATCTTATG GAGCCATGTG GAATGGGGAG ATCTAAGCTA 
ACGTACATCT GCCGGACTGA CCTACGGGGC CGATCCCCCG ATTGGTACAA CAAAGTCTTT 
GGACACCTGT GTGCCATGGA AATTGCACGG ATTCGGAACT CTTTCCCTCC ACTTAATCCA 
TGTGGGCCGG AGACACAACT GTGA

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

stard8 ( XM_004916807.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004916864.1 Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OXa65699
Clone ID Related Accession (Same CDS sequence)	XM_004916807.4
Accession Version	XM_004916807.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) 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 8 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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_004916807.3. ##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##

ATGCAGGAAG GAAGCAGGCT AAATCGTTCT TATTTTAAAG ACAGGGCATC CAAAACCTGG 
CAACGTCTGA GGAGGAGATT GTCTGCTCCC CTGGAGCTGG ACCTCGAGGC TAAGAAAGCG 
TGTGATTGGC TGCGGGCCGC TGGGTTTCCT CAGTATGCCC AGCTTTATGA AGATTCCCAG 
TTCCCAGTTG ATATCTCCTG TGTGAAGAGA GACCACAGCT TCTTAGACGA GGATTCCCTC 
AAATCCCTGT GCAGGCGGCT AATGACACTT AATTCATGTG CTCCTATGAA GCTGGAAGTT 
CATTATCGAA AGCAAAATGA AGACTCTGAT GAGGATGACC AGTGTGCAAT CAGTGACCGC 
TGGGCCTTCC AGAGGGACCA GGGACGCTGG TCTCGCCTGG ACTCTGTTGA ACTGCTGTCT 
CCGACATATG CTGGACCACC AACCATAAAG AGCACCTCTA GCCGTGACAG TATCCTGACA 
GACCTCAGCA CAGAATTAGA GGCCACCTCA TTGCAGAGTG CAGGAAGCAG TCGGGGTGGC 
TTGGACATTG TGGTAATTCC CCCACAGGGT ATGTCATCTG TGTCCAGCTC TCCTGCACCT 
TCCAAACCAT GTAGGAGCCT TAGTGATCAG TCTTTGGCTC CTCAGCGCCG AGGACTTAAG 
GAGAAAACCA AAAAGAGGAA GACCAGGGGG TTCCTGAAGC GCATGGAATC CCTGCGCAGA 
AGAGAAAAAG ACAAAGGCAA AAAGGAGGTG CCGTCAGATA GTGCTCTTGA TGACTCTGGA 
AGGGAAACCC TGAGCTATGC CAACCACTGT GCAGATGATG GAGATTTCCC AGTTTTTGAG 
AAGGACTTTC TCCATCCCGG TTATAGGACT AAATGTGCAT CTAGTGGCAG CATTAGAAAG 
CCTCACCTGG ATGGGCAGTG CAGGGGGGTT TACTTGGAAG ACTTTGAGAT GGTCAGAAAA 
GATGGCATAC GGCAAAGAAA CTCTCAAAAA TCTGACCGTC TTGTGTGCAT CCCTACAGAC 
CATAAGCCTG GCACATTTCC TAGGGCTTTG TCCATTGAGA GCCTGTGTCC AGCCAGTCGA 
GTACCACTGG AGAGCTGGAA AATGGGCAGT AAATCATTGG GACAATCAGT TTGTAGCAGT 
ATGGACTCCC ATGGCCTAGA GGGAAGGCCA AGGAGGGGTT CCTACAGTTC CATAGGTAGT 
CGTTCAAGTA TTTATGACAA TGTTCCTTGC TCGCTTTCTG GTAGTGGGGA TCACTTAGAA 
TTGGGAGGAA GTAGTGATCT GTTTGGCCAC TTGGATGATG TTCTTAATCA TGTTCGGGGT 
CTCCAGCGGA TGGTGGAGCT GTGGTCACGG ACTGTATGTC CAGAGCTCGA TGAGGGCACT 
GACTCTGGGG GTGAGCAGGC TGGGCATCTG GCCTATGAGG AGAGATCCAT ATCAGATGTG 
GGGACATCAG CCAGTGACTT TGACAGTACT GGAAACTCTC TTAACGAGAC TGAGGAGAAC 
GAGATGAGGG AGAGGAGAGA CTCTGGAGTT GGAGCATCAT TAACCAGGCC TTGCAGGAAA 
CTACGCTGGC ATAGCTTTCA GAACTCGCAC CGGCCAAGCC TCAGCTCTGC ATCGCTGGAG 
ATTAACAGGC AGTCAGCTGC ACAGCTCAAC CTCCTGCAGA AGCTCTCTCT GCTCAGACTC 
ACCGCCATCA TGGAGAAGCA TTCGGTGCCC AGCAAGCAGG GTTGGGCATG GACAGTGCCC 
AAATTCATGA AGAGAAGTAA AGTCCCTGAC TACCGAGGTA GAGCTGTGTT TAGTGTCCCC 
CCAATAATCA ATGTGCAGAG GACAGGCCAG CCACTACCAC AGAGCATCCA GCAGGCAATG 
CGCTATATTC GCAGCCAGTG CCTGGACCAG GTGGGAATCT TCAGGAAATC CGGGGTGAAA 
TCCCGCATCC AGGCCCTGCG ACAAATGAAT GAGTCTTCTC CAGACCATGT CAGTTATGTG 
GGCCAATCTG CCTATGACGT GGCTGACCTG CTGAAGCAGT ACTTCCGAGA TCTGCCCGAG 
CCCATCTTCA CTAGCAAACT GACCGACACA TTCCTGCAAA TCTATCAGTA TGTGCCCAAG 
GAACAGAGGC TGCGGGCAGT CCAGGCTGCT ATCCTGCTCA TGCCAGATGA AAACCGGGAA 
GTTCTGCAGA CGTTACTGTA TTTCCTGAGT GATATCTCCT CCGCTCAGAT AAACCAAATG 
ACACCTGGGA ACCTGGCTGT TTGCTTGGCA CCCTCTCTAT TCCATCTCAA TATCTCCAAG 
AAAGAGACCT CATCCCCCAG GGTCATGCAC AGAAGAGGAA CATCTGGGAA GCCTGGGCAT 
AAGGACCTTA GTGAGAACCT GGCAGCCACT CAAGGGTTGT TGCATATGAT AACTGAATGC 
AAGAAACTTT TCCAGATTCC TCATGACATG ATGCTGCAGT CGCGCAATTC GTACGTAGCT 
GCGGATGCTC ATCCTTTGTC CTTGGAAGAA CTTGCTGGGG TCTCAGAGGG GGAACCCCAA 
GAGTTATCAT CTGTCCTGGA TAACAGTATT CAGAGTCTCC TTCAGGAGTC TGTAGAGCGC 
TTCAAAGGGT GGGTGACCAT GTCCAGCCCA GAGAATACAG AATTGTCTTG TAAGAAGCTT 
GGGGACGGAA ACCCTCTGCG TGTGTGGAAG GTGTCAACCG AAGTGGAAGC TCCTCCCAGT 
TCTCTGCTGC ACCGCGTGCT ACGAGAGAGA CACCTTTGGG ATGATGATCT CCTTCAGGGG 
AAGGTGTTGG AGACCCTGGG GCAAAACACT GAGATCTTTC ATTACGTTAC TGACACTATG 
GCCCCTCATC CACGGAGGCA GTTTCTCGTA CTCAGGAAGT GGCGGACTGA CCTACCTAGA 
GGAGGCTGCC TGCTTGTGTC CACATCTATT GACCACAGCA CCAGGCAGCT GGATGAAGGA 
GTACAAGCTG TCATATTGAG CTCCCAGTAT CTTATGGAGC CATGTGGAAT GGGGAGATCT 
AAGCTAACGT ACATCTGCCG GACTGACCTA CGGGGCCGAT CCCCCGATTG GTACAACAAA 
GTCTTTGGAC ACCTGTGTGC CATGGAAATT GCACGGATTC GGAACTCTTT CCCTCCACTT 
AATCCATGTG GGCCGGAGAC ACAACTGTGA

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

RefSeq	XP_004916864.1
CDS	245..3394
Translation	MQEGSRLNRSYFKDRASKTWQRLRRRLSAPLELDLEAKKACDWLRAAGFPQYAQLYEDSQFPVDISCVKRDHSFLDEDSLKSLCRRLMTLNSCAPMKLEVHYRKQNEDSDEDDQCAISDRWAFQRDQGRWSRLDSVELLSPTYAGPPTIKSTSSRDSILTDLSTELEATSLQSAGSSRGGLDIVVIPPQGMSSVSSSPAPSKPCRSLSDQSLAPQRRGLKEKTKKRKTRGFLKRMESLRRREKDKGKKEVPSDSALDDSGRETLSYANHCADDGDFPVFEKDFLHPGYRTKCASSGSIRKPHLDGQCRGVYLEDFEMVRKDGIRQRNSQKSDRLVCIPTDHKPGTFPRALSIESLCPASRVPLESWKMGSKSLGQSVCSSMDSHGLEGRPRRGSYSSIGSRSSIYDNVPCSLSGSGDHLELGGSSDLFGHLDDVLNHVRGLQRMVELWSRTVCPELDEGTDSGGEQAGHLAYEERSISDVGTSASDFDSTGNSLNETEENEMRERRDSGVGASLTRPCRKLRWHSFQNSHRPSLSSASLEINRQSAAQLNLLQKLSLLRLTAIMEKHSVPSKQGWAWTVPKFMKRSKVPDYRGRAVFSVPPIINVQRTGQPLPQSIQQAMRYIRSQCLDQVGIFRKSGVKSRIQALRQMNESSPDHVSYVGQSAYDVADLLKQYFRDLPEPIFTSKLTDTFLQIYQYVPKEQRLRAVQAAILLMPDENREVLQTLLYFLSDISSAQINQMTPGNLAVCLAPSLFHLNISKKETSSPRVMHRRGTSGKPGHKDLSENLAATQGLLHMITECKKLFQIPHDMMLQSRNSYVAADAHPLSLEELAGVSEGEPQELSSVLDNSIQSLLQESVERFKGWVTMSSPENTELSCKKLGDGNPLRVWKVSTEVEAPPSSLLHRVLRERHLWDDDLLQGKVLETLGQNTEIFHYVTDTMAPHPRRQFLVLRKWRTDLPRGGCLLVSTSIDHSTRQLDEGVQAVILSSQYLMEPCGMGRSKLTYICRTDLRGRSPDWYNKVFGHLCAMEIARIRNSFPPLNPCGPETQL

Target ORF information:

RefSeq Version	XM_004916807.4
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X1, mRNA.

Target ORF information:

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

XM_004916807.4

ORF Insert Sequence:

ATGCAGGAAG GAAGCAGGCT AAATCGTTCT TATTTTAAAG ACAGGGCATC CAAAACCTGG 
CAACGTCTGA GGAGGAGATT GTCTGCTCCC CTGGAGCTGG ACCTCGAGGC TAAGAAAGCG 
TGTGATTGGC TGCGGGCCGC TGGGTTTCCT CAGTATGCCC AGCTTTATGA AGATTCCCAG 
TTCCCAGTTG ATATCTCCTG TGTGAAGAGA GACCACAGCT TCTTAGACGA GGATTCCCTC 
AAATCCCTGT GCAGGCGGCT AATGACACTT AATTCATGTG CTCCTATGAA GCTGGAAGTT 
CATTATCGAA AGCAAAATGA AGACTCTGAT GAGGATGACC AGTGTGCAAT CAGTGACCGC 
TGGGCCTTCC AGAGGGACCA GGGACGCTGG TCTCGCCTGG ACTCTGTTGA ACTGCTGTCT 
CCGACATATG CTGGACCACC AACCATAAAG AGCACCTCTA GCCGTGACAG TATCCTGACA 
GACCTCAGCA CAGAATTAGA GGCCACCTCA TTGCAGAGTG CAGGAAGCAG TCGGGGTGGC 
TTGGACATTG TGGTAATTCC CCCACAGGGT ATGTCATCTG TGTCCAGCTC TCCTGCACCT 
TCCAAACCAT GTAGGAGCCT TAGTGATCAG TCTTTGGCTC CTCAGCGCCG AGGACTTAAG 
GAGAAAACCA AAAAGAGGAA GACCAGGGGG TTCCTGAAGC GCATGGAATC CCTGCGCAGA 
AGAGAAAAAG ACAAAGGCAA AAAGGAGGTG CCGTCAGATA GTGCTCTTGA TGACTCTGGA 
AGGGAAACCC TGAGCTATGC CAACCACTGT GCAGATGATG GAGATTTCCC AGTTTTTGAG 
AAGGACTTTC TCCATCCCGG TTATAGGACT AAATGTGCAT CTAGTGGCAG CATTAGAAAG 
CCTCACCTGG ATGGGCAGTG CAGGGGGGTT TACTTGGAAG ACTTTGAGAT GGTCAGAAAA 
GATGGCATAC GGCAAAGAAA CTCTCAAAAA TCTGACCGTC TTGTGTGCAT CCCTACAGAC 
CATAAGCCTG GCACATTTCC TAGGGCTTTG TCCATTGAGA GCCTGTGTCC AGCCAGTCGA 
GTACCACTGG AGAGCTGGAA AATGGGCAGT AAATCATTGG GACAATCAGT TTGTAGCAGT 
ATGGACTCCC ATGGCCTAGA GGGAAGGCCA AGGAGGGGTT CCTACAGTTC CATAGGTAGT 
CGTTCAAGTA TTTATGACAA TGTTCCTTGC TCGCTTTCTG GTAGTGGGGA TCACTTAGAA 
TTGGGAGGAA GTAGTGATCT GTTTGGCCAC TTGGATGATG TTCTTAATCA TGTTCGGGGT 
CTCCAGCGGA TGGTGGAGCT GTGGTCACGG ACTGTATGTC CAGAGCTCGA TGAGGGCACT 
GACTCTGGGG GTGAGCAGGC TGGGCATCTG GCCTATGAGG AGAGATCCAT ATCAGATGTG 
GGGACATCAG CCAGTGACTT TGACAGTACT GGAAACTCTC TTAACGAGAC TGAGGAGAAC 
GAGATGAGGG AGAGGAGAGA CTCTGGAGTT GGAGCATCAT TAACCAGGCC TTGCAGGAAA 
CTACGCTGGC ATAGCTTTCA GAACTCGCAC CGGCCAAGCC TCAGCTCTGC ATCGCTGGAG 
ATTAACAGGC AGTCAGCTGC ACAGCTCAAC CTCCTGCAGA AGCTCTCTCT GCTCAGACTC 
ACCGCCATCA TGGAGAAGCA TTCGGTGCCC AGCAAGCAGG GTTGGGCATG GACAGTGCCC 
AAATTCATGA AGAGAAGTAA AGTCCCTGAC TACCGAGGTA GAGCTGTGTT TAGTGTCCCC 
CCAATAATCA ATGTGCAGAG GACAGGCCAG CCACTACCAC AGAGCATCCA GCAGGCAATG 
CGCTATATTC GCAGCCAGTG CCTGGACCAG GTGGGAATCT TCAGGAAATC CGGGGTGAAA 
TCCCGCATCC AGGCCCTGCG ACAAATGAAT GAGTCTTCTC CAGACCATGT CAGTTATGTG 
GGCCAATCTG CCTATGACGT GGCTGACCTG CTGAAGCAGT ACTTCCGAGA TCTGCCCGAG 
CCCATCTTCA CTAGCAAACT GACCGACACA TTCCTGCAAA TCTATCAGTA TGTGCCCAAG 
GAACAGAGGC TGCGGGCAGT CCAGGCTGCT ATCCTGCTCA TGCCAGATGA AAACCGGGAA 
GTTCTGCAGA CGTTACTGTA TTTCCTGAGT GATATCTCCT CCGCTCAGAT AAACCAAATG 
ACACCTGGGA ACCTGGCTGT TTGCTTGGCA CCCTCTCTAT TCCATCTCAA TATCTCCAAG 
AAAGAGACCT CATCCCCCAG GGTCATGCAC AGAAGAGGAA CATCTGGGAA GCCTGGGCAT 
AAGGACCTTA GTGAGAACCT GGCAGCCACT CAAGGGTTGT TGCATATGAT AACTGAATGC 
AAGAAACTTT TCCAGATTCC TCATGACATG ATGCTGCAGT CGCGCAATTC GTACGTAGCT 
GCGGATGCTC ATCCTTTGTC CTTGGAAGAA CTTGCTGGGG TCTCAGAGGG GGAACCCCAA 
GAGTTATCAT CTGTCCTGGA TAACAGTATT CAGAGTCTCC TTCAGGAGTC TGTAGAGCGC 
TTCAAAGGGT GGGTGACCAT GTCCAGCCCA GAGAATACAG AATTGTCTTG TAAGAAGCTT 
GGGGACGGAA ACCCTCTGCG TGTGTGGAAG GTGTCAACCG AAGTGGAAGC TCCTCCCAGT 
TCTCTGCTGC ACCGCGTGCT ACGAGAGAGA CACCTTTGGG ATGATGATCT CCTTCAGGGG 
AAGGTGTTGG AGACCCTGGG GCAAAACACT GAGATCTTTC ATTACGTTAC TGACACTATG 
GCCCCTCATC CACGGAGGCA GTTTCTCGTA CTCAGGAAGT GGCGGACTGA CCTACCTAGA 
GGAGGCTGCC TGCTTGTGTC CACATCTATT GACCACAGCA CCAGGCAGCT GGATGAAGGA 
GTACAAGCTG TCATATTGAG CTCCCAGTAT CTTATGGAGC CATGTGGAAT GGGGAGATCT 
AAGCTAACGT ACATCTGCCG GACTGACCTA CGGGGCCGAT CCCCCGATTG GTACAACAAA 
GTCTTTGGAC ACCTGTGTGC CATGGAAATT GCACGGATTC GGAACTCTTT CCCTCCACTT 
AATCCATGTG GGCCGGAGAC ACAACTGTGA

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

stard8 ( XM_031892355.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031748215.1 Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OXa65700
Clone ID Related Accession (Same CDS sequence)	XM_031892355.1
Accession Version	XM_031892355.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3126bp) 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 8 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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##

ATGCCACTGC TGGATATATT CAGGGCTTGT TTCAGGCGTG CAAAGGGTGC TATTAAAGGG 
GACGTAAAAA ATGCAGACCT CGAGGCTAAG AAAGCGTGTG ATTGGCTGCG GGCCGCTGGG 
TTTCCTCAGT ATGCCCAGCT TTATGAAGAT TCCCAGTTCC CAGTTGATAT CTCCTGTGTG 
AAGAGAGACC ACAGCTTCTT AGACGAGGAT TCCCTCAAAT CCCTGTGCAG GCGGCTAATG 
ACACTTAATT CATGTGCTCC TATGAAGCTG GAAGTTCATT ATCGAAAGCA AAATGAAGAC 
TCTGATGAGG ATGACCAGTG TGCAATCAGT GACCGCTGGG CCTTCCAGAG GGACCAGGGA 
CGCTGGTCTC GCCTGGACTC TGTTGAACTG CTGTCTCCGA CATATGCTGG ACCACCAACC 
ATAAAGAGCA CCTCTAGCCG TGACAGTATC CTGACAGACC TCAGCACAGA ATTAGAGGCC 
ACCTCATTGC AGAGTGCAGG AAGCAGTCGG GGTGGCTTGG ACATTGTGGT AATTCCCCCA 
CAGGGTATGT CATCTGTGTC CAGCTCTCCT GCACCTTCCA AACCATGTAG GAGCCTTAGT 
GATCAGTCTT TGGCTCCTCA GCGCCGAGGA CTTAAGGAGA AAACCAAAAA GAGGAAGACC 
AGGGGGTTCC TGAAGCGCAT GGAATCCCTG CGCAGAAGAG AAAAAGACAA AGGCAAAAAG 
GAGGTGCCGT CAGATAGTGC TCTTGATGAC TCTGGAAGGG AAACCCTGAG CTATGCCAAC 
CACTGTGCAG ATGATGGAGA TTTCCCAGTT TTTGAGAAGG ACTTTCTCCA TCCCGGTTAT 
AGGACTAAAT GTGCATCTAG TGGCAGCATT AGAAAGCCTC ACCTGGATGG GCAGTGCAGG 
GGGGTTTACT TGGAAGACTT TGAGATGGTC AGAAAAGATG GCATACGGCA AAGAAACTCT 
CAAAAATCTG ACCGTCTTGT GTGCATCCCT ACAGACCATA AGCCTGGCAC ATTTCCTAGG 
GCTTTGTCCA TTGAGAGCCT GTGTCCAGCC AGTCGAGTAC CACTGGAGAG CTGGAAAATG 
GGCAGTAAAT CATTGGGACA ATCAGTTTGT AGCAGTATGG ACTCCCATGG CCTAGAGGGA 
AGGCCAAGGA GGGGTTCCTA CAGTTCCATA GGTAGTCGTT CAAGTATTTA TGACAATGTT 
CCTTGCTCGC TTTCTGGTAG TGGGGATCAC TTAGAATTGG GAGGAAGTAG TGATCTGTTT 
GGCCACTTGG ATGATGTTCT TAATCATGTT CGGGGTCTCC AGCGGATGGT GGAGCTGTGG 
TCACGGACTG TATGTCCAGA GCTCGATGAG GGCACTGACT CTGGGGGTGA GCAGGCTGGG 
CATCTGGCCT ATGAGGAGAG ATCCATATCA GATGTGGGGA CATCAGCCAG TGACTTTGAC 
AGTACTGGAA ACTCTCTTAA CGAGACTGAG GAGAACGAGA TGAGGGAGAG GAGAGACTCT 
GGAGTTGGAG CATCATTAAC CAGGCCTTGC AGGAAACTAC GCTGGCATAG CTTTCAGAAC 
TCGCACCGGC CAAGCCTCAG CTCTGCATCG CTGGAGATTA ACAGGCAGTC AGCTGCACAG 
CTCAACCTCC TGCAGAAGCT CTCTCTGCTC AGACTCACCG CCATCATGGA GAAGCATTCG 
GTGCCCAGCA AGCAGGGTTG GGCATGGACA GTGCCCAAAT TCATGAAGAG AAGTAAAGTC 
CCTGACTACC GAGGTAGAGC TGTGTTTAGT GTCCCCCCAA TAATCAATGT GCAGAGGACA 
GGCCAGCCAC TACCACAGAG CATCCAGCAG GCAATGCGCT ATATTCGCAG CCAGTGCCTG 
GACCAGGTGG GAATCTTCAG GAAATCCGGG GTGAAATCCC GCATCCAGGC CCTGCGACAA 
ATGAATGAGT CTTCTCCAGA CCATGTCAGT TATGTGGGCC AATCTGCCTA TGACGTGGCT 
GACCTGCTGA AGCAGTACTT CCGAGATCTG CCCGAGCCCA TCTTCACTAG CAAACTGACC 
GACACATTCC TGCAAATCTA TCAGTATGTG CCCAAGGAAC AGAGGCTGCG GGCAGTCCAG 
GCTGCTATCC TGCTCATGCC AGATGAAAAC CGGGAAGTTC TGCAGACGTT ACTGTATTTC 
CTGAGTGATA TCTCCTCCGC TCAGATAAAC CAAATGACAC CTGGGAACCT GGCTGTTTGC 
TTGGCACCCT CTCTATTCCA TCTCAATATC TCCAAGAAAG AGACCTCATC CCCCAGGGTC 
ATGCACAGAA GAGGAACATC TGGGAAGCCT GGGCATAAGG ACCTTAGTGA GAACCTGGCA 
GCCACTCAAG GGTTGTTGCA TATGATAACT GAATGCAAGA AACTTTTCCA GATTCCTCAT 
GACATGATGC TGCAGTCGCG CAATTCGTAC GTAGCTGCGG ATGCTCATCC TTTGTCCTTG 
GAAGAACTTG CTGGGGTCTC AGAGGGGGAA CCCCAAGAGT TATCATCTGT CCTGGATAAC 
AGTATTCAGA GTCTCCTTCA GGAGTCTGTA GAGCGCTTCA AAGGGTGGGT GACCATGTCC 
AGCCCAGAGA ATACAGAATT GTCTTGTAAG AAGCTTGGGG ACGGAAACCC TCTGCGTGTG 
TGGAAGGTGT CAACCGAAGT GGAAGCTCCT CCCAGTTCTC TGCTGCACCG CGTGCTACGA 
GAGAGACACC TTTGGGATGA TGATCTCCTT CAGGGGAAGG TGTTGGAGAC CCTGGGGCAA 
AACACTGAGA TCTTTCATTA CGTTACTGAC ACTATGGCCC CTCATCCACG GAGGCAGTTT 
CTCGTACTCA GGAAGTGGCG GACTGACCTA CCTAGAGGAG GCTGCCTGCT TGTGTCCACA 
TCTATTGACC ACAGCACCAG GCAGCTGGAT GAAGGAGTAC AAGCTGTCAT ATTGAGCTCC 
CAGTATCTTA TGGAGCCATG TGGAATGGGG AGATCTAAGC TAACGTACAT CTGCCGGACT 
GACCTACGGG GCCGATCCCC CGATTGGTAC AACAAAGTCT TTGGACACCT GTGTGCCATG 
GAAATTGCAC GGATTCGGAA CTCTTTCCCT CCACTTAATC CATGTGGGCC GGAGACACAA 
CTGTGA

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

RefSeq	XP_031748215.1
CDS	58..3183
Translation	MPLLDIFRACFRRAKGAIKGDVKNADLEAKKACDWLRAAGFPQYAQLYEDSQFPVDISCVKRDHSFLDEDSLKSLCRRLMTLNSCAPMKLEVHYRKQNEDSDEDDQCAISDRWAFQRDQGRWSRLDSVELLSPTYAGPPTIKSTSSRDSILTDLSTELEATSLQSAGSSRGGLDIVVIPPQGMSSVSSSPAPSKPCRSLSDQSLAPQRRGLKEKTKKRKTRGFLKRMESLRRREKDKGKKEVPSDSALDDSGRETLSYANHCADDGDFPVFEKDFLHPGYRTKCASSGSIRKPHLDGQCRGVYLEDFEMVRKDGIRQRNSQKSDRLVCIPTDHKPGTFPRALSIESLCPASRVPLESWKMGSKSLGQSVCSSMDSHGLEGRPRRGSYSSIGSRSSIYDNVPCSLSGSGDHLELGGSSDLFGHLDDVLNHVRGLQRMVELWSRTVCPELDEGTDSGGEQAGHLAYEERSISDVGTSASDFDSTGNSLNETEENEMRERRDSGVGASLTRPCRKLRWHSFQNSHRPSLSSASLEINRQSAAQLNLLQKLSLLRLTAIMEKHSVPSKQGWAWTVPKFMKRSKVPDYRGRAVFSVPPIINVQRTGQPLPQSIQQAMRYIRSQCLDQVGIFRKSGVKSRIQALRQMNESSPDHVSYVGQSAYDVADLLKQYFRDLPEPIFTSKLTDTFLQIYQYVPKEQRLRAVQAAILLMPDENREVLQTLLYFLSDISSAQINQMTPGNLAVCLAPSLFHLNISKKETSSPRVMHRRGTSGKPGHKDLSENLAATQGLLHMITECKKLFQIPHDMMLQSRNSYVAADAHPLSLEELAGVSEGEPQELSSVLDNSIQSLLQESVERFKGWVTMSSPENTELSCKKLGDGNPLRVWKVSTEVEAPPSSLLHRVLRERHLWDDDLLQGKVLETLGQNTEIFHYVTDTMAPHPRRQFLVLRKWRTDLPRGGCLLVSTSIDHSTRQLDEGVQAVILSSQYLMEPCGMGRSKLTYICRTDLRGRSPDWYNKVFGHLCAMEIARIRNSFPPLNPCGPETQL

Target ORF information:

RefSeq Version	XM_031892355.1
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X2, mRNA.

Target ORF information:

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

XM_031892355.1

ORF Insert Sequence:

ATGCCACTGC TGGATATATT CAGGGCTTGT TTCAGGCGTG CAAAGGGTGC TATTAAAGGG 
GACGTAAAAA ATGCAGACCT CGAGGCTAAG AAAGCGTGTG ATTGGCTGCG GGCCGCTGGG 
TTTCCTCAGT ATGCCCAGCT TTATGAAGAT TCCCAGTTCC CAGTTGATAT CTCCTGTGTG 
AAGAGAGACC ACAGCTTCTT AGACGAGGAT TCCCTCAAAT CCCTGTGCAG GCGGCTAATG 
ACACTTAATT CATGTGCTCC TATGAAGCTG GAAGTTCATT ATCGAAAGCA AAATGAAGAC 
TCTGATGAGG ATGACCAGTG TGCAATCAGT GACCGCTGGG CCTTCCAGAG GGACCAGGGA 
CGCTGGTCTC GCCTGGACTC TGTTGAACTG CTGTCTCCGA CATATGCTGG ACCACCAACC 
ATAAAGAGCA CCTCTAGCCG TGACAGTATC CTGACAGACC TCAGCACAGA ATTAGAGGCC 
ACCTCATTGC AGAGTGCAGG AAGCAGTCGG GGTGGCTTGG ACATTGTGGT AATTCCCCCA 
CAGGGTATGT CATCTGTGTC CAGCTCTCCT GCACCTTCCA AACCATGTAG GAGCCTTAGT 
GATCAGTCTT TGGCTCCTCA GCGCCGAGGA CTTAAGGAGA AAACCAAAAA GAGGAAGACC 
AGGGGGTTCC TGAAGCGCAT GGAATCCCTG CGCAGAAGAG AAAAAGACAA AGGCAAAAAG 
GAGGTGCCGT CAGATAGTGC TCTTGATGAC TCTGGAAGGG AAACCCTGAG CTATGCCAAC 
CACTGTGCAG ATGATGGAGA TTTCCCAGTT TTTGAGAAGG ACTTTCTCCA TCCCGGTTAT 
AGGACTAAAT GTGCATCTAG TGGCAGCATT AGAAAGCCTC ACCTGGATGG GCAGTGCAGG 
GGGGTTTACT TGGAAGACTT TGAGATGGTC AGAAAAGATG GCATACGGCA AAGAAACTCT 
CAAAAATCTG ACCGTCTTGT GTGCATCCCT ACAGACCATA AGCCTGGCAC ATTTCCTAGG 
GCTTTGTCCA TTGAGAGCCT GTGTCCAGCC AGTCGAGTAC CACTGGAGAG CTGGAAAATG 
GGCAGTAAAT CATTGGGACA ATCAGTTTGT AGCAGTATGG ACTCCCATGG CCTAGAGGGA 
AGGCCAAGGA GGGGTTCCTA CAGTTCCATA GGTAGTCGTT CAAGTATTTA TGACAATGTT 
CCTTGCTCGC TTTCTGGTAG TGGGGATCAC TTAGAATTGG GAGGAAGTAG TGATCTGTTT 
GGCCACTTGG ATGATGTTCT TAATCATGTT CGGGGTCTCC AGCGGATGGT GGAGCTGTGG 
TCACGGACTG TATGTCCAGA GCTCGATGAG GGCACTGACT CTGGGGGTGA GCAGGCTGGG 
CATCTGGCCT ATGAGGAGAG ATCCATATCA GATGTGGGGA CATCAGCCAG TGACTTTGAC 
AGTACTGGAA ACTCTCTTAA CGAGACTGAG GAGAACGAGA TGAGGGAGAG GAGAGACTCT 
GGAGTTGGAG CATCATTAAC CAGGCCTTGC AGGAAACTAC GCTGGCATAG CTTTCAGAAC 
TCGCACCGGC CAAGCCTCAG CTCTGCATCG CTGGAGATTA ACAGGCAGTC AGCTGCACAG 
CTCAACCTCC TGCAGAAGCT CTCTCTGCTC AGACTCACCG CCATCATGGA GAAGCATTCG 
GTGCCCAGCA AGCAGGGTTG GGCATGGACA GTGCCCAAAT TCATGAAGAG AAGTAAAGTC 
CCTGACTACC GAGGTAGAGC TGTGTTTAGT GTCCCCCCAA TAATCAATGT GCAGAGGACA 
GGCCAGCCAC TACCACAGAG CATCCAGCAG GCAATGCGCT ATATTCGCAG CCAGTGCCTG 
GACCAGGTGG GAATCTTCAG GAAATCCGGG GTGAAATCCC GCATCCAGGC CCTGCGACAA 
ATGAATGAGT CTTCTCCAGA CCATGTCAGT TATGTGGGCC AATCTGCCTA TGACGTGGCT 
GACCTGCTGA AGCAGTACTT CCGAGATCTG CCCGAGCCCA TCTTCACTAG CAAACTGACC 
GACACATTCC TGCAAATCTA TCAGTATGTG CCCAAGGAAC AGAGGCTGCG GGCAGTCCAG 
GCTGCTATCC TGCTCATGCC AGATGAAAAC CGGGAAGTTC TGCAGACGTT ACTGTATTTC 
CTGAGTGATA TCTCCTCCGC TCAGATAAAC CAAATGACAC CTGGGAACCT GGCTGTTTGC 
TTGGCACCCT CTCTATTCCA TCTCAATATC TCCAAGAAAG AGACCTCATC CCCCAGGGTC 
ATGCACAGAA GAGGAACATC TGGGAAGCCT GGGCATAAGG ACCTTAGTGA GAACCTGGCA 
GCCACTCAAG GGTTGTTGCA TATGATAACT GAATGCAAGA AACTTTTCCA GATTCCTCAT 
GACATGATGC TGCAGTCGCG CAATTCGTAC GTAGCTGCGG ATGCTCATCC TTTGTCCTTG 
GAAGAACTTG CTGGGGTCTC AGAGGGGGAA CCCCAAGAGT TATCATCTGT CCTGGATAAC 
AGTATTCAGA GTCTCCTTCA GGAGTCTGTA GAGCGCTTCA AAGGGTGGGT GACCATGTCC 
AGCCCAGAGA ATACAGAATT GTCTTGTAAG AAGCTTGGGG ACGGAAACCC TCTGCGTGTG 
TGGAAGGTGT CAACCGAAGT GGAAGCTCCT CCCAGTTCTC TGCTGCACCG CGTGCTACGA 
GAGAGACACC TTTGGGATGA TGATCTCCTT CAGGGGAAGG TGTTGGAGAC CCTGGGGCAA 
AACACTGAGA TCTTTCATTA CGTTACTGAC ACTATGGCCC CTCATCCACG GAGGCAGTTT 
CTCGTACTCA GGAAGTGGCG GACTGACCTA CCTAGAGGAG GCTGCCTGCT TGTGTCCACA 
TCTATTGACC ACAGCACCAG GCAGCTGGAT GAAGGAGTAC AAGCTGTCAT ATTGAGCTCC 
CAGTATCTTA TGGAGCCATG TGGAATGGGG AGATCTAAGC TAACGTACAT CTGCCGGACT 
GACCTACGGG GCCGATCCCC CGATTGGTAC AACAAAGTCT TTGGACACCT GTGTGCCATG 
GAAATTGCAC GGATTCGGAA CTCTTTCCCT CCACTTAATC CATGTGGGCC GGAGACACAA 
CTGTGA

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

stard8 ( XM_002938917.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002938963.2 Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X3, mRNA.

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CloneID	OXa65701
Clone ID Related Accession (Same CDS sequence)	XM_002938917.5
Accession Version	XM_002938917.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3084bp) 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 8 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030684.2) 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_002938917.4. ##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##

ATGAACAGGA TCAGGACTAA GAGGATCAAG TATGACCTCG AGGCTAAGAA AGCGTGTGAT 
TGGCTGCGGG CCGCTGGGTT TCCTCAGTAT GCCCAGCTTT ATGAAGATTC CCAGTTCCCA 
GTTGATATCT CCTGTGTGAA GAGAGACCAC AGCTTCTTAG ACGAGGATTC CCTCAAATCC 
CTGTGCAGGC GGCTAATGAC ACTTAATTCA TGTGCTCCTA TGAAGCTGGA AGTTCATTAT 
CGAAAGCAAA ATGAAGACTC TGATGAGGAT GACCAGTGTG CAATCAGTGA CCGCTGGGCC 
TTCCAGAGGG ACCAGGGACG CTGGTCTCGC CTGGACTCTG TTGAACTGCT GTCTCCGACA 
TATGCTGGAC CACCAACCAT AAAGAGCACC TCTAGCCGTG ACAGTATCCT GACAGACCTC 
AGCACAGAAT TAGAGGCCAC CTCATTGCAG AGTGCAGGAA GCAGTCGGGG TGGCTTGGAC 
ATTGTGGTAA TTCCCCCACA GGGTATGTCA TCTGTGTCCA GCTCTCCTGC ACCTTCCAAA 
CCATGTAGGA GCCTTAGTGA TCAGTCTTTG GCTCCTCAGC GCCGAGGACT TAAGGAGAAA 
ACCAAAAAGA GGAAGACCAG GGGGTTCCTG AAGCGCATGG AATCCCTGCG CAGAAGAGAA 
AAAGACAAAG GCAAAAAGGA GGTGCCGTCA GATAGTGCTC TTGATGACTC TGGAAGGGAA 
ACCCTGAGCT ATGCCAACCA CTGTGCAGAT GATGGAGATT TCCCAGTTTT TGAGAAGGAC 
TTTCTCCATC CCGGTTATAG GACTAAATGT GCATCTAGTG GCAGCATTAG AAAGCCTCAC 
CTGGATGGGC AGTGCAGGGG GGTTTACTTG GAAGACTTTG AGATGGTCAG AAAAGATGGC 
ATACGGCAAA GAAACTCTCA AAAATCTGAC CGTCTTGTGT GCATCCCTAC AGACCATAAG 
CCTGGCACAT TTCCTAGGGC TTTGTCCATT GAGAGCCTGT GTCCAGCCAG TCGAGTACCA 
CTGGAGAGCT GGAAAATGGG CAGTAAATCA TTGGGACAAT CAGTTTGTAG CAGTATGGAC 
TCCCATGGCC TAGAGGGAAG GCCAAGGAGG GGTTCCTACA GTTCCATAGG TAGTCGTTCA 
AGTATTTATG ACAATGTTCC TTGCTCGCTT TCTGGTAGTG GGGATCACTT AGAATTGGGA 
GGAAGTAGTG ATCTGTTTGG CCACTTGGAT GATGTTCTTA ATCATGTTCG GGGTCTCCAG 
CGGATGGTGG AGCTGTGGTC ACGGACTGTA TGTCCAGAGC TCGATGAGGG CACTGACTCT 
GGGGGTGAGC AGGCTGGGCA TCTGGCCTAT GAGGAGAGAT CCATATCAGA TGTGGGGACA 
TCAGCCAGTG ACTTTGACAG TACTGGAAAC TCTCTTAACG AGACTGAGGA GAACGAGATG 
AGGGAGAGGA GAGACTCTGG AGTTGGAGCA TCATTAACCA GGCCTTGCAG GAAACTACGC 
TGGCATAGCT TTCAGAACTC GCACCGGCCA AGCCTCAGCT CTGCATCGCT GGAGATTAAC 
AGGCAGTCAG CTGCACAGCT CAACCTCCTG CAGAAGCTCT CTCTGCTCAG ACTCACCGCC 
ATCATGGAGA AGCATTCGGT GCCCAGCAAG CAGGGTTGGG CATGGACAGT GCCCAAATTC 
ATGAAGAGAA GTAAAGTCCC TGACTACCGA GGTAGAGCTG TGTTTAGTGT CCCCCCAATA 
ATCAATGTGC AGAGGACAGG CCAGCCACTA CCACAGAGCA TCCAGCAGGC AATGCGCTAT 
ATTCGCAGCC AGTGCCTGGA CCAGGTGGGA ATCTTCAGGA AATCCGGGGT GAAATCCCGC 
ATCCAGGCCC TGCGACAAAT GAATGAGTCT TCTCCAGACC ATGTCAGTTA TGTGGGCCAA 
TCTGCCTATG ACGTGGCTGA CCTGCTGAAG CAGTACTTCC GAGATCTGCC CGAGCCCATC 
TTCACTAGCA AACTGACCGA CACATTCCTG CAAATCTATC AGTATGTGCC CAAGGAACAG 
AGGCTGCGGG CAGTCCAGGC TGCTATCCTG CTCATGCCAG ATGAAAACCG GGAAGTTCTG 
CAGACGTTAC TGTATTTCCT GAGTGATATC TCCTCCGCTC AGATAAACCA AATGACACCT 
GGGAACCTGG CTGTTTGCTT GGCACCCTCT CTATTCCATC TCAATATCTC CAAGAAAGAG 
ACCTCATCCC CCAGGGTCAT GCACAGAAGA GGAACATCTG GGAAGCCTGG GCATAAGGAC 
CTTAGTGAGA ACCTGGCAGC CACTCAAGGG TTGTTGCATA TGATAACTGA ATGCAAGAAA 
CTTTTCCAGA TTCCTCATGA CATGATGCTG CAGTCGCGCA ATTCGTACGT AGCTGCGGAT 
GCTCATCCTT TGTCCTTGGA AGAACTTGCT GGGGTCTCAG AGGGGGAACC CCAAGAGTTA 
TCATCTGTCC TGGATAACAG TATTCAGAGT CTCCTTCAGG AGTCTGTAGA GCGCTTCAAA 
GGGTGGGTGA CCATGTCCAG CCCAGAGAAT ACAGAATTGT CTTGTAAGAA GCTTGGGGAC 
GGAAACCCTC TGCGTGTGTG GAAGGTGTCA ACCGAAGTGG AAGCTCCTCC CAGTTCTCTG 
CTGCACCGCG TGCTACGAGA GAGACACCTT TGGGATGATG ATCTCCTTCA GGGGAAGGTG 
TTGGAGACCC TGGGGCAAAA CACTGAGATC TTTCATTACG TTACTGACAC TATGGCCCCT 
CATCCACGGA GGCAGTTTCT CGTACTCAGG AAGTGGCGGA CTGACCTACC TAGAGGAGGC 
TGCCTGCTTG TGTCCACATC TATTGACCAC AGCACCAGGC AGCTGGATGA AGGAGTACAA 
GCTGTCATAT TGAGCTCCCA GTATCTTATG GAGCCATGTG GAATGGGGAG ATCTAAGCTA 
ACGTACATCT GCCGGACTGA CCTACGGGGC CGATCCCCCG ATTGGTACAA CAAAGTCTTT 
GGACACCTGT GTGCCATGGA AATTGCACGG ATTCGGAACT CTTTCCCTCC ACTTAATCCA 
TGTGGGCCGG AGACACAACT GTGA

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

RefSeq	XP_002938963.2
CDS	152..3235
Translation	MNRIRTKRIKYDLEAKKACDWLRAAGFPQYAQLYEDSQFPVDISCVKRDHSFLDEDSLKSLCRRLMTLNSCAPMKLEVHYRKQNEDSDEDDQCAISDRWAFQRDQGRWSRLDSVELLSPTYAGPPTIKSTSSRDSILTDLSTELEATSLQSAGSSRGGLDIVVIPPQGMSSVSSSPAPSKPCRSLSDQSLAPQRRGLKEKTKKRKTRGFLKRMESLRRREKDKGKKEVPSDSALDDSGRETLSYANHCADDGDFPVFEKDFLHPGYRTKCASSGSIRKPHLDGQCRGVYLEDFEMVRKDGIRQRNSQKSDRLVCIPTDHKPGTFPRALSIESLCPASRVPLESWKMGSKSLGQSVCSSMDSHGLEGRPRRGSYSSIGSRSSIYDNVPCSLSGSGDHLELGGSSDLFGHLDDVLNHVRGLQRMVELWSRTVCPELDEGTDSGGEQAGHLAYEERSISDVGTSASDFDSTGNSLNETEENEMRERRDSGVGASLTRPCRKLRWHSFQNSHRPSLSSASLEINRQSAAQLNLLQKLSLLRLTAIMEKHSVPSKQGWAWTVPKFMKRSKVPDYRGRAVFSVPPIINVQRTGQPLPQSIQQAMRYIRSQCLDQVGIFRKSGVKSRIQALRQMNESSPDHVSYVGQSAYDVADLLKQYFRDLPEPIFTSKLTDTFLQIYQYVPKEQRLRAVQAAILLMPDENREVLQTLLYFLSDISSAQINQMTPGNLAVCLAPSLFHLNISKKETSSPRVMHRRGTSGKPGHKDLSENLAATQGLLHMITECKKLFQIPHDMMLQSRNSYVAADAHPLSLEELAGVSEGEPQELSSVLDNSIQSLLQESVERFKGWVTMSSPENTELSCKKLGDGNPLRVWKVSTEVEAPPSSLLHRVLRERHLWDDDLLQGKVLETLGQNTEIFHYVTDTMAPHPRRQFLVLRKWRTDLPRGGCLLVSTSIDHSTRQLDEGVQAVILSSQYLMEPCGMGRSKLTYICRTDLRGRSPDWYNKVFGHLCAMEIARIRNSFPPLNPCGPETQL

Target ORF information:

RefSeq Version	XM_002938917.5
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis StAR related lipid transfer domain containing 8 (stard8), transcript variant X3, mRNA.

Target ORF information:

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

XM_002938917.5

ORF Insert Sequence:

ATGAACAGGA TCAGGACTAA GAGGATCAAG TATGACCTCG AGGCTAAGAA AGCGTGTGAT 
TGGCTGCGGG CCGCTGGGTT TCCTCAGTAT GCCCAGCTTT ATGAAGATTC CCAGTTCCCA 
GTTGATATCT CCTGTGTGAA GAGAGACCAC AGCTTCTTAG ACGAGGATTC CCTCAAATCC 
CTGTGCAGGC GGCTAATGAC ACTTAATTCA TGTGCTCCTA TGAAGCTGGA AGTTCATTAT 
CGAAAGCAAA ATGAAGACTC TGATGAGGAT GACCAGTGTG CAATCAGTGA CCGCTGGGCC 
TTCCAGAGGG ACCAGGGACG CTGGTCTCGC CTGGACTCTG TTGAACTGCT GTCTCCGACA 
TATGCTGGAC CACCAACCAT AAAGAGCACC TCTAGCCGTG ACAGTATCCT GACAGACCTC 
AGCACAGAAT TAGAGGCCAC CTCATTGCAG AGTGCAGGAA GCAGTCGGGG TGGCTTGGAC 
ATTGTGGTAA TTCCCCCACA GGGTATGTCA TCTGTGTCCA GCTCTCCTGC ACCTTCCAAA 
CCATGTAGGA GCCTTAGTGA TCAGTCTTTG GCTCCTCAGC GCCGAGGACT TAAGGAGAAA 
ACCAAAAAGA GGAAGACCAG GGGGTTCCTG AAGCGCATGG AATCCCTGCG CAGAAGAGAA 
AAAGACAAAG GCAAAAAGGA GGTGCCGTCA GATAGTGCTC TTGATGACTC TGGAAGGGAA 
ACCCTGAGCT ATGCCAACCA CTGTGCAGAT GATGGAGATT TCCCAGTTTT TGAGAAGGAC 
TTTCTCCATC CCGGTTATAG GACTAAATGT GCATCTAGTG GCAGCATTAG AAAGCCTCAC 
CTGGATGGGC AGTGCAGGGG GGTTTACTTG GAAGACTTTG AGATGGTCAG AAAAGATGGC 
ATACGGCAAA GAAACTCTCA AAAATCTGAC CGTCTTGTGT GCATCCCTAC AGACCATAAG 
CCTGGCACAT TTCCTAGGGC TTTGTCCATT GAGAGCCTGT GTCCAGCCAG TCGAGTACCA 
CTGGAGAGCT GGAAAATGGG CAGTAAATCA TTGGGACAAT CAGTTTGTAG CAGTATGGAC 
TCCCATGGCC TAGAGGGAAG GCCAAGGAGG GGTTCCTACA GTTCCATAGG TAGTCGTTCA 
AGTATTTATG ACAATGTTCC TTGCTCGCTT TCTGGTAGTG GGGATCACTT AGAATTGGGA 
GGAAGTAGTG ATCTGTTTGG CCACTTGGAT GATGTTCTTA ATCATGTTCG GGGTCTCCAG 
CGGATGGTGG AGCTGTGGTC ACGGACTGTA TGTCCAGAGC TCGATGAGGG CACTGACTCT 
GGGGGTGAGC AGGCTGGGCA TCTGGCCTAT GAGGAGAGAT CCATATCAGA TGTGGGGACA 
TCAGCCAGTG ACTTTGACAG TACTGGAAAC TCTCTTAACG AGACTGAGGA GAACGAGATG 
AGGGAGAGGA GAGACTCTGG AGTTGGAGCA TCATTAACCA GGCCTTGCAG GAAACTACGC 
TGGCATAGCT TTCAGAACTC GCACCGGCCA AGCCTCAGCT CTGCATCGCT GGAGATTAAC 
AGGCAGTCAG CTGCACAGCT CAACCTCCTG CAGAAGCTCT CTCTGCTCAG ACTCACCGCC 
ATCATGGAGA AGCATTCGGT GCCCAGCAAG CAGGGTTGGG CATGGACAGT GCCCAAATTC 
ATGAAGAGAA GTAAAGTCCC TGACTACCGA GGTAGAGCTG TGTTTAGTGT CCCCCCAATA 
ATCAATGTGC AGAGGACAGG CCAGCCACTA CCACAGAGCA TCCAGCAGGC AATGCGCTAT 
ATTCGCAGCC AGTGCCTGGA CCAGGTGGGA ATCTTCAGGA AATCCGGGGT GAAATCCCGC 
ATCCAGGCCC TGCGACAAAT GAATGAGTCT TCTCCAGACC ATGTCAGTTA TGTGGGCCAA 
TCTGCCTATG ACGTGGCTGA CCTGCTGAAG CAGTACTTCC GAGATCTGCC CGAGCCCATC 
TTCACTAGCA AACTGACCGA CACATTCCTG CAAATCTATC AGTATGTGCC CAAGGAACAG 
AGGCTGCGGG CAGTCCAGGC TGCTATCCTG CTCATGCCAG ATGAAAACCG GGAAGTTCTG 
CAGACGTTAC TGTATTTCCT GAGTGATATC TCCTCCGCTC AGATAAACCA AATGACACCT 
GGGAACCTGG CTGTTTGCTT GGCACCCTCT CTATTCCATC TCAATATCTC CAAGAAAGAG 
ACCTCATCCC CCAGGGTCAT GCACAGAAGA GGAACATCTG GGAAGCCTGG GCATAAGGAC 
CTTAGTGAGA ACCTGGCAGC CACTCAAGGG TTGTTGCATA TGATAACTGA ATGCAAGAAA 
CTTTTCCAGA TTCCTCATGA CATGATGCTG CAGTCGCGCA ATTCGTACGT AGCTGCGGAT 
GCTCATCCTT TGTCCTTGGA AGAACTTGCT GGGGTCTCAG AGGGGGAACC CCAAGAGTTA 
TCATCTGTCC TGGATAACAG TATTCAGAGT CTCCTTCAGG AGTCTGTAGA GCGCTTCAAA 
GGGTGGGTGA CCATGTCCAG CCCAGAGAAT ACAGAATTGT CTTGTAAGAA GCTTGGGGAC 
GGAAACCCTC TGCGTGTGTG GAAGGTGTCA ACCGAAGTGG AAGCTCCTCC CAGTTCTCTG 
CTGCACCGCG TGCTACGAGA GAGACACCTT TGGGATGATG ATCTCCTTCA GGGGAAGGTG 
TTGGAGACCC TGGGGCAAAA CACTGAGATC TTTCATTACG TTACTGACAC TATGGCCCCT 
CATCCACGGA GGCAGTTTCT CGTACTCAGG AAGTGGCGGA CTGACCTACC TAGAGGAGGC 
TGCCTGCTTG TGTCCACATC TATTGACCAC AGCACCAGGC AGCTGGATGA AGGAGTACAA 
GCTGTCATAT TGAGCTCCCA GTATCTTATG GAGCCATGTG GAATGGGGAG ATCTAAGCTA 
ACGTACATCT GCCGGACTGA CCTACGGGGC CGATCCCCCG ATTGGTACAA CAAAGTCTTT 
GGACACCTGT GTGCCATGGA AATTGCACGG ATTCGGAACT CTTTCCCTCC ACTTAATCCA 
TGTGGGCCGG AGACACAACT GTGA

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

PubMed

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stard8 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

Gene

Clones

gRNAs

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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