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

Gene
Clones
gRNAs

Summary

Gene Symbol	vit
Entrez Gene ID	100489513
Full Name	vitrin
General protein information	Preferred Names vitrin Names vitrin
Gene Type	protein-coding
Organism	Xenopus tropicalis(tropical clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002934462.3	XP_002934508.2	vitrin
XM_002934462.4	XP_002934508.2	vitrin

Pathways from BioSystems

Homologies

	VIT	XP_001107747.2
Canis lupus familiaris (dog)	VIT	XP_005630390.1
Bos taurus (cattle)	VIT	NP_776396.1
Homo sapiens (human)	VIT	NP_444506.2
Mus musculus (house mouse)	Vit	NP_083089.1
Rattus norvegicus (Norway rat)	Vit	XP_233802.6
Gallus gallus (chicken)	VIT	NP_001019751.1
Xenopus tropicalis (tropical clawed frog)	LOC100489513	XP_002934508.2
Danio rerio (zebrafish)	ch1073-291c23.1	XP_005156538.1

Gene Ontology

The following vit gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the vit 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)
OXa10693	XM_002934462.4 Latest version!	Xenopus tropicalis vitrin (vit), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
View Old Accession Versions >>
OXa10693	XM_002934462.3	Xenopus tropicalis vitrin (vit), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$426.30 $609.00
Hide Old Accession Versions >>

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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)

vit ( XM_002934462.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002934508.2 Xenopus tropicalis vitrin (vit), mRNA.

Price & Availability↑

CloneID	OXa10693
Clone ID Related Accession (Same CDS sequence)	XM_002934462.3 , XM_002934462.4
Accession Version	XM_002934462.3	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2481bp) 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	vitrin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 23, 2015 this sequence version replaced XM_002934462.2. ##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##

ATGAAGGAAA AGTTGTTTGC AGTACTACTC GTTTTGCTCT TGGCTTGTAT GTTTGCATCA 
TCAAAAAAGA ACAGAAAGAA CAAACAGCAT GCGCCTCACA TAGACTGTGA TATCAAAGCA 
GGGAAGATCG TTAATCCAGA ATTCCTTGCA AAGTGCCCAG CTGGGTGCCA GGATGGGAAA 
CATCGTGTAT ATGGCACTGA TATTTATGCA TCGTTCTCCA GTATATGCAC AGCTGCTATC 
CACAGTGGTG TAATTGATAA CAATGGAGGC AAAATCTTTA TTCGAAAGGT TGCTGGTCAG 
TCAGGCTACA AGGGAAGCTA CTCAAATGGT ATACGATCCT TGTCTCTGCC CCGCTGGAAA 
GAGTCCTTTG TTATTGCAGG TAAAGGAAAA AAAGGTGTTA GCTACCCTTC AGTTCTCGAA 
TATGTTGAGG TCAGAGTAGA AACAGTGCAA AGAATTATCC CAACTCCCTC TATAACCACA 
ACGTCTGCTA CTACTACCCC TACCACCACA ACTCCAGAAC CTACAACTAC CAGCACCACA 
CCAGAGCCTA CCACTACCAC TCCAAAGCCA ACAACCACCC TTCTCATAAC AAGCAGCCCA 
ACAACTACCA CCACAACAGA TACAAAAGTG AGACCGCCAC TGGTTCGCAC AAGGGATACA 
GGTTCCACTA ACATCCATCC TGCATACAGA TCCATTGTTG CTGCAGCATC CAGGCAAATG 
CAAGCGGCTC AAGGATCAGG ACAAAATCAA GTTTTTAGGT CGCCTCCAAC TTACCCAAAC 
AACCGAAATA TTCCACGCAT TAATGCAGGT GCACCGCGGC AACAACCAGT AGTGGCCATA 
CGCAAACCTA CTGGAAGTCT TCAGCCATCT ACTGGTTTTG GCTACAGCAG AATTCAGCAA 
ATTTTATCAG AAAAGAACAG TGCTCCTCAA CAAAGCCCAA CATTACCAAG ACGTGACTGG 
CAAAATCCAA GTCAAAGAGT AAATGTCCAG ACAATCCATC GCAAGCCAAC AGTACCTGAA 
AGCAGTAATA GTGCACCTAA TGTTGGGGCT GTCTGGCCTG TAGAAACTCG GGACACACAA 
GTGCACAATT CTAAGACTAG CGTTTCAGAA ACTGACAGGT GGAAATCGGG ATTTTCACAA 
ACCAATTCCA AGAACAGTGA ATCAGATACA GTGTTGAAGG CTGTGCAAGA AACATCAGTA 
CCAAAATTTA ATGAAGATTT ATGGAGATAT GGCTTTTCTG AAACAGCAAT CAATGCAAGG 
GAAGAAGTCA TCACAAAGCC ACCGGAAACA GCAGTCCTTG GAGGAACAAA CTGCAAAATC 
GATCTTGTGT TCCTTATTGA TGGAAGCTGG AGTATAGGAA AAAGGCGTTT CAAGATACAA 
AAGTTTTTCT TGAACGAAAT GGCGGAAGCT CTTGATGTTG GCCTCTCTGG GCCTCTTATG 
GGTGTTGTTC AGTATGGAGA TGACCCTTCA ACAGAATTTG GTCTTGGGGC ACATTTCAAT 
GTTGGCGATC TCAAAAATGC CATTGAAAAA ATTCCACAAA AAGGGGGACA TTCCAATGTT 
GGAAAGGCTC TCTCCTACGT GAACAAGAAT TACTTTTCTG ATTCCAGCGG GAATAGAGGA 
AGTGCTCCAA ATGTGGCTGT TGTGCTGGTG GATGGATGGC CCACAGATAA GGTTGAAGAA 
GCTTCTCGTC TTGCTCGCGA GTCTGGAATA AATATTTTTT TTGTCACCAT AGAAGGTGCT 
GATGACAATG AGAGGTCAAG TGTTGTCGAA CCAAACTTTG TTGATAAGGC GGTGTGTAGG 
ACTAATGGAC ATTTTTCTAT CAATGTGCCA AGCTGGTTTG GACTCCACAA AGTAGTCAAT 
CCTCTGGTAA ATCGTATGTG TGACATCGAC AAACTAGTCT GTAGCAAGAC ATGTCTCAAT 
GCTGCCGACA TTGGTTTTGT TATTGATGGC TCCAGCAGTG TTGGCACCGG CAATTTCCGC 
ACAGTGCTTC AGTTCATAGC CAACATTACC AATGAATTTG AGATTTCTGA TACGGATACG 
AGAATAGGAG CAGTGCAATA CACTTATGAA CAGAGGCTGG AATTTGGATT TGATAAGTAT 
AGTACAAAGC AAGATGTAAT GAATGCCATC ATGAGAATAG GCTATTGGAG TGGAGGAACA 
AGCACTGGCG CTGCCATCAC CTACGCCTCC GAGCAACTGT TCAGTAAATC AAAGCCAAAC 
AAGAGGAAGA TATTAATTGT CATTACAGAT GGTCGATCTT ATGATGATGT TCGAGCACCT 
GCTGCAGCTG TACATCGGAA TGGGGTAATT GCCTATGCTG TTGGGATTGC CTGGGCTGCC 
CAAGACGAGC TGGAATCCAT TGCAACTGAC CCTGACAAGG ACCATTCATT TTTCGTGGAA 
GACTTTGACA GTCTCTACAA GTTTGTTGGG AAGATCTTCC AGAACATTTG TACAGAATAT 
AATTCTCAAC CACGAAACTA A

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

RefSeq	XP_002934508.2
CDS	228..2708
Translation	MKEKLFAVLLVLLLACMFASSKKNRKNKQHAPHIDCDIKAGKIVNPEFLAKCPAGCQDGKHRVYGTDIYASFSSICTAAIHSGVIDNNGGKIFIRKVAGQSGYKGSYSNGIRSLSLPRWKESFVIAGKGKKGVSYPSVLEYVEVRVETVQRIIPTPSITTTSATTTPTTTTPEPTTTSTTPEPTTTTPKPTTTLLITSSPTTTTTTDTKVRPPLVRTRDTGSTNIHPAYRSIVAAASRQMQAAQGSGQNQVFRSPPTYPNNRNIPRINAGAPRQQPVVAIRKPTGSLQPSTGFGYSRIQQILSEKNSAPQQSPTLPRRDWQNPSQRVNVQTIHRKPTVPESSNSAPNVGAVWPVETRDTQVHNSKTSVSETDRWKSGFSQTNSKNSESDTVLKAVQETSVPKFNEDLWRYGFSETAINAREEVITKPPETAVLGGTNCKIDLVFLIDGSWSIGKRRFKIQKFFLNEMAEALDVGLSGPLMGVVQYGDDPSTEFGLGAHFNVGDLKNAIEKIPQKGGHSNVGKALSYVNKNYFSDSSGNRGSAPNVAVVLVDGWPTDKVEEASRLARESGINIFFVTIEGADDNERSSVVEPNFVDKAVCRTNGHFSINVPSWFGLHKVVNPLVNRMCDIDKLVCSKTCLNAADIGFVIDGSSSVGTGNFRTVLQFIANITNEFEISDTDTRIGAVQYTYEQRLEFGFDKYSTKQDVMNAIMRIGYWSGGTSTGAAITYASEQLFSKSKPNKRKILIVITDGRSYDDVRAPAAAVHRNGVIAYAVGIAWAAQDELESIATDPDKDHSFFVEDFDSLYKFVGKIFQNICTEYNSQPRN

Target ORF information:

RefSeq Version	XM_002934462.3
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis vitrin (vit), mRNA.

Target ORF information:

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

XM_002934462.3

ORF Insert Sequence:

ATGAAGGAAA AGTTGTTTGC AGTACTACTC GTTTTGCTCT TGGCTTGTAT GTTTGCATCA 
TCAAAAAAGA ACAGAAAGAA CAAACAGCAT GCGCCTCACA TAGACTGTGA TATCAAAGCA 
GGGAAGATCG TTAATCCAGA ATTCCTTGCA AAGTGCCCAG CTGGGTGCCA GGATGGGAAA 
CATCGTGTAT ATGGCACTGA TATTTATGCA TCGTTCTCCA GTATATGCAC AGCTGCTATC 
CACAGTGGTG TAATTGATAA CAATGGAGGC AAAATCTTTA TTCGAAAGGT TGCTGGTCAG 
TCAGGCTACA AGGGAAGCTA CTCAAATGGT ATACGATCCT TGTCTCTGCC CCGCTGGAAA 
GAGTCCTTTG TTATTGCAGG TAAAGGAAAA AAAGGTGTTA GCTACCCTTC AGTTCTCGAA 
TATGTTGAGG TCAGAGTAGA AACAGTGCAA AGAATTATCC CAACTCCCTC TATAACCACA 
ACGTCTGCTA CTACTACCCC TACCACCACA ACTCCAGAAC CTACAACTAC CAGCACCACA 
CCAGAGCCTA CCACTACCAC TCCAAAGCCA ACAACCACCC TTCTCATAAC AAGCAGCCCA 
ACAACTACCA CCACAACAGA TACAAAAGTG AGACCGCCAC TGGTTCGCAC AAGGGATACA 
GGTTCCACTA ACATCCATCC TGCATACAGA TCCATTGTTG CTGCAGCATC CAGGCAAATG 
CAAGCGGCTC AAGGATCAGG ACAAAATCAA GTTTTTAGGT CGCCTCCAAC TTACCCAAAC 
AACCGAAATA TTCCACGCAT TAATGCAGGT GCACCGCGGC AACAACCAGT AGTGGCCATA 
CGCAAACCTA CTGGAAGTCT TCAGCCATCT ACTGGTTTTG GCTACAGCAG AATTCAGCAA 
ATTTTATCAG AAAAGAACAG TGCTCCTCAA CAAAGCCCAA CATTACCAAG ACGTGACTGG 
CAAAATCCAA GTCAAAGAGT AAATGTCCAG ACAATCCATC GCAAGCCAAC AGTACCTGAA 
AGCAGTAATA GTGCACCTAA TGTTGGGGCT GTCTGGCCTG TAGAAACTCG GGACACACAA 
GTGCACAATT CTAAGACTAG CGTTTCAGAA ACTGACAGGT GGAAATCGGG ATTTTCACAA 
ACCAATTCCA AGAACAGTGA ATCAGATACA GTGTTGAAGG CTGTGCAAGA AACATCAGTA 
CCAAAATTTA ATGAAGATTT ATGGAGATAT GGCTTTTCTG AAACAGCAAT CAATGCAAGG 
GAAGAAGTCA TCACAAAGCC ACCGGAAACA GCAGTCCTTG GAGGAACAAA CTGCAAAATC 
GATCTTGTGT TCCTTATTGA TGGAAGCTGG AGTATAGGAA AAAGGCGTTT CAAGATACAA 
AAGTTTTTCT TGAACGAAAT GGCGGAAGCT CTTGATGTTG GCCTCTCTGG GCCTCTTATG 
GGTGTTGTTC AGTATGGAGA TGACCCTTCA ACAGAATTTG GTCTTGGGGC ACATTTCAAT 
GTTGGCGATC TCAAAAATGC CATTGAAAAA ATTCCACAAA AAGGGGGACA TTCCAATGTT 
GGAAAGGCTC TCTCCTACGT GAACAAGAAT TACTTTTCTG ATTCCAGCGG GAATAGAGGA 
AGTGCTCCAA ATGTGGCTGT TGTGCTGGTG GATGGATGGC CCACAGATAA GGTTGAAGAA 
GCTTCTCGTC TTGCTCGCGA GTCTGGAATA AATATTTTTT TTGTCACCAT AGAAGGTGCT 
GATGACAATG AGAGGTCAAG TGTTGTCGAA CCAAACTTTG TTGATAAGGC GGTGTGTAGG 
ACTAATGGAC ATTTTTCTAT CAATGTGCCA AGCTGGTTTG GACTCCACAA AGTAGTCAAT 
CCTCTGGTAA ATCGTATGTG TGACATCGAC AAACTAGTCT GTAGCAAGAC ATGTCTCAAT 
GCTGCCGACA TTGGTTTTGT TATTGATGGC TCCAGCAGTG TTGGCACCGG CAATTTCCGC 
ACAGTGCTTC AGTTCATAGC CAACATTACC AATGAATTTG AGATTTCTGA TACGGATACG 
AGAATAGGAG CAGTGCAATA CACTTATGAA CAGAGGCTGG AATTTGGATT TGATAAGTAT 
AGTACAAAGC AAGATGTAAT GAATGCCATC ATGAGAATAG GCTATTGGAG TGGAGGAACA 
AGCACTGGCG CTGCCATCAC CTACGCCTCC GAGCAACTGT TCAGTAAATC AAAGCCAAAC 
AAGAGGAAGA TATTAATTGT CATTACAGAT GGTCGATCTT ATGATGATGT TCGAGCACCT 
GCTGCAGCTG TACATCGGAA TGGGGTAATT GCCTATGCTG TTGGGATTGC CTGGGCTGCC 
CAAGACGAGC TGGAATCCAT TGCAACTGAC CCTGACAAGG ACCATTCATT TTTCGTGGAA 
GACTTTGACA GTCTCTACAA GTTTGTTGGG AAGATCTTCC AGAACATTTG TACAGAATAT 
AATTCTCAAC CACGAAACTA A

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

vit ( XM_002934462.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002934508.2 Xenopus tropicalis vitrin (vit), mRNA.

Price & Availability↑

CloneID	OXa10693
Clone ID Related Accession (Same CDS sequence)	XM_002934462.3 , XM_002934462.4
Accession Version	XM_002934462.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2481bp) 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	vitrin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) 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_002934462.3. ##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##

ATGAAGGAAA AGTTGTTTGC AGTACTACTC GTTTTGCTCT TGGCTTGTAT GTTTGCATCA 
TCAAAAAAGA ACAGAAAGAA CAAACAGCAT GCGCCTCACA TAGACTGTGA TATCAAAGCA 
GGGAAGATCG TTAATCCAGA ATTCCTTGCA AAGTGCCCAG CTGGGTGCCA GGATGGGAAA 
CATCGTGTAT ATGGCACTGA TATTTATGCA TCGTTCTCCA GTATATGCAC AGCTGCTATC 
CACAGTGGTG TAATTGATAA CAATGGAGGC AAAATCTTTA TTCGAAAGGT TGCTGGTCAG 
TCAGGCTACA AGGGAAGCTA CTCAAATGGT ATACGATCCT TGTCTCTGCC CCGCTGGAAA 
GAGTCCTTTG TTATTGCAGG TAAAGGAAAA AAAGGTGTTA GCTACCCTTC AGTTCTCGAA 
TATGTTGAGG TCAGAGTAGA AACAGTGCAA AGAATTATCC CAACTCCCTC TATAACCACA 
ACGTCTGCTA CTACTACCCC TACCACCACA ACTCCAGAAC CTACAACTAC CAGCACCACA 
CCAGAGCCTA CCACTACCAC TCCAAAGCCA ACAACCACCC TTCTCATAAC AAGCAGCCCA 
ACAACTACCA CCACAACAGA TACAAAAGTG AGACCGCCAC TGGTTCGCAC AAGGGATACA 
GGTTCCACTA ACATCCATCC TGCATACAGA TCCATTGTTG CTGCAGCATC CAGGCAAATG 
CAAGCGGCTC AAGGATCAGG ACAAAATCAA GTTTTTAGGT CGCCTCCAAC TTACCCAAAC 
AACCGAAATA TTCCACGCAT TAATGCAGGT GCACCGCGGC AACAACCAGT AGTGGCCATA 
CGCAAACCTA CTGGAAGTCT TCAGCCATCT ACTGGTTTTG GCTACAGCAG AATTCAGCAA 
ATTTTATCAG AAAAGAACAG TGCTCCTCAA CAAAGCCCAA CATTACCAAG ACGTGACTGG 
CAAAATCCAA GTCAAAGAGT AAATGTCCAG ACAATCCATC GCAAGCCAAC AGTACCTGAA 
AGCAGTAATA GTGCACCTAA TGTTGGGGCT GTCTGGCCTG TAGAAACTCG GGACACACAA 
GTGCACAATT CTAAGACTAG CGTTTCAGAA ACTGACAGGT GGAAATCGGG ATTTTCACAA 
ACCAATTCCA AGAACAGTGA ATCAGATACA GTGTTGAAGG CTGTGCAAGA AACATCAGTA 
CCAAAATTTA ATGAAGATTT ATGGAGATAT GGCTTTTCTG AAACAGCAAT CAATGCAAGG 
GAAGAAGTCA TCACAAAGCC ACCGGAAACA GCAGTCCTTG GAGGAACAAA CTGCAAAATC 
GATCTTGTGT TCCTTATTGA TGGAAGCTGG AGTATAGGAA AAAGGCGTTT CAAGATACAA 
AAGTTTTTCT TGAACGAAAT GGCGGAAGCT CTTGATGTTG GCCTCTCTGG GCCTCTTATG 
GGTGTTGTTC AGTATGGAGA TGACCCTTCA ACAGAATTTG GTCTTGGGGC ACATTTCAAT 
GTTGGCGATC TCAAAAATGC CATTGAAAAA ATTCCACAAA AAGGGGGACA TTCCAATGTT 
GGAAAGGCTC TCTCCTACGT GAACAAGAAT TACTTTTCTG ATTCCAGCGG GAATAGAGGA 
AGTGCTCCAA ATGTGGCTGT TGTGCTGGTG GATGGATGGC CCACAGATAA GGTTGAAGAA 
GCTTCTCGTC TTGCTCGCGA GTCTGGAATA AATATTTTTT TTGTCACCAT AGAAGGTGCT 
GATGACAATG AGAGGTCAAG TGTTGTCGAA CCAAACTTTG TTGATAAGGC GGTGTGTAGG 
ACTAATGGAC ATTTTTCTAT CAATGTGCCA AGCTGGTTTG GACTCCACAA AGTAGTCAAT 
CCTCTGGTAA ATCGTATGTG TGACATCGAC AAACTAGTCT GTAGCAAGAC ATGTCTCAAT 
GCTGCCGACA TTGGTTTTGT TATTGATGGC TCCAGCAGTG TTGGCACCGG CAATTTCCGC 
ACAGTGCTTC AGTTCATAGC CAACATTACC AATGAATTTG AGATTTCTGA TACGGATACG 
AGAATAGGAG CAGTGCAATA CACTTATGAA CAGAGGCTGG AATTTGGATT TGATAAGTAT 
AGTACAAAGC AAGATGTAAT GAATGCCATC ATGAGAATAG GCTATTGGAG TGGAGGAACA 
AGCACTGGCG CTGCCATCAC CTACGCCTCC GAGCAACTGT TCAGTAAATC AAAGCCAAAC 
AAGAGGAAGA TATTAATTGT CATTACAGAT GGTCGATCTT ATGATGATGT TCGAGCACCT 
GCTGCAGCTG TACATCGGAA TGGGGTAATT GCCTATGCTG TTGGGATTGC CTGGGCTGCC 
CAAGACGAGC TGGAATCCAT TGCAACTGAC CCTGACAAGG ACCATTCATT TTTCGTGGAA 
GACTTTGACA GTCTCTACAA GTTTGTTGGG AAGATCTTCC AGAACATTTG TACAGAATAT 
AATTCTCAAC CACGAAACTA A

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

RefSeq	XP_002934508.2
CDS	251..2731
Translation	MKEKLFAVLLVLLLACMFASSKKNRKNKQHAPHIDCDIKAGKIVNPEFLAKCPAGCQDGKHRVYGTDIYASFSSICTAAIHSGVIDNNGGKIFIRKVAGQSGYKGSYSNGIRSLSLPRWKESFVIAGKGKKGVSYPSVLEYVEVRVETVQRIIPTPSITTTSATTTPTTTTPEPTTTSTTPEPTTTTPKPTTTLLITSSPTTTTTTDTKVRPPLVRTRDTGSTNIHPAYRSIVAAASRQMQAAQGSGQNQVFRSPPTYPNNRNIPRINAGAPRQQPVVAIRKPTGSLQPSTGFGYSRIQQILSEKNSAPQQSPTLPRRDWQNPSQRVNVQTIHRKPTVPESSNSAPNVGAVWPVETRDTQVHNSKTSVSETDRWKSGFSQTNSKNSESDTVLKAVQETSVPKFNEDLWRYGFSETAINAREEVITKPPETAVLGGTNCKIDLVFLIDGSWSIGKRRFKIQKFFLNEMAEALDVGLSGPLMGVVQYGDDPSTEFGLGAHFNVGDLKNAIEKIPQKGGHSNVGKALSYVNKNYFSDSSGNRGSAPNVAVVLVDGWPTDKVEEASRLARESGINIFFVTIEGADDNERSSVVEPNFVDKAVCRTNGHFSINVPSWFGLHKVVNPLVNRMCDIDKLVCSKTCLNAADIGFVIDGSSSVGTGNFRTVLQFIANITNEFEISDTDTRIGAVQYTYEQRLEFGFDKYSTKQDVMNAIMRIGYWSGGTSTGAAITYASEQLFSKSKPNKRKILIVITDGRSYDDVRAPAAAVHRNGVIAYAVGIAWAAQDELESIATDPDKDHSFFVEDFDSLYKFVGKIFQNICTEYNSQPRN

Target ORF information:

RefSeq Version	XM_002934462.4
Organism	Xenopus tropicalis(tropical clawed frog)
Definition	Xenopus tropicalis vitrin (vit), mRNA.

Target ORF information:

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

XM_002934462.4

ORF Insert Sequence:

ATGAAGGAAA AGTTGTTTGC AGTACTACTC GTTTTGCTCT TGGCTTGTAT GTTTGCATCA 
TCAAAAAAGA ACAGAAAGAA CAAACAGCAT GCGCCTCACA TAGACTGTGA TATCAAAGCA 
GGGAAGATCG TTAATCCAGA ATTCCTTGCA AAGTGCCCAG CTGGGTGCCA GGATGGGAAA 
CATCGTGTAT ATGGCACTGA TATTTATGCA TCGTTCTCCA GTATATGCAC AGCTGCTATC 
CACAGTGGTG TAATTGATAA CAATGGAGGC AAAATCTTTA TTCGAAAGGT TGCTGGTCAG 
TCAGGCTACA AGGGAAGCTA CTCAAATGGT ATACGATCCT TGTCTCTGCC CCGCTGGAAA 
GAGTCCTTTG TTATTGCAGG TAAAGGAAAA AAAGGTGTTA GCTACCCTTC AGTTCTCGAA 
TATGTTGAGG TCAGAGTAGA AACAGTGCAA AGAATTATCC CAACTCCCTC TATAACCACA 
ACGTCTGCTA CTACTACCCC TACCACCACA ACTCCAGAAC CTACAACTAC CAGCACCACA 
CCAGAGCCTA CCACTACCAC TCCAAAGCCA ACAACCACCC TTCTCATAAC AAGCAGCCCA 
ACAACTACCA CCACAACAGA TACAAAAGTG AGACCGCCAC TGGTTCGCAC AAGGGATACA 
GGTTCCACTA ACATCCATCC TGCATACAGA TCCATTGTTG CTGCAGCATC CAGGCAAATG 
CAAGCGGCTC AAGGATCAGG ACAAAATCAA GTTTTTAGGT CGCCTCCAAC TTACCCAAAC 
AACCGAAATA TTCCACGCAT TAATGCAGGT GCACCGCGGC AACAACCAGT AGTGGCCATA 
CGCAAACCTA CTGGAAGTCT TCAGCCATCT ACTGGTTTTG GCTACAGCAG AATTCAGCAA 
ATTTTATCAG AAAAGAACAG TGCTCCTCAA CAAAGCCCAA CATTACCAAG ACGTGACTGG 
CAAAATCCAA GTCAAAGAGT AAATGTCCAG ACAATCCATC GCAAGCCAAC AGTACCTGAA 
AGCAGTAATA GTGCACCTAA TGTTGGGGCT GTCTGGCCTG TAGAAACTCG GGACACACAA 
GTGCACAATT CTAAGACTAG CGTTTCAGAA ACTGACAGGT GGAAATCGGG ATTTTCACAA 
ACCAATTCCA AGAACAGTGA ATCAGATACA GTGTTGAAGG CTGTGCAAGA AACATCAGTA 
CCAAAATTTA ATGAAGATTT ATGGAGATAT GGCTTTTCTG AAACAGCAAT CAATGCAAGG 
GAAGAAGTCA TCACAAAGCC ACCGGAAACA GCAGTCCTTG GAGGAACAAA CTGCAAAATC 
GATCTTGTGT TCCTTATTGA TGGAAGCTGG AGTATAGGAA AAAGGCGTTT CAAGATACAA 
AAGTTTTTCT TGAACGAAAT GGCGGAAGCT CTTGATGTTG GCCTCTCTGG GCCTCTTATG 
GGTGTTGTTC AGTATGGAGA TGACCCTTCA ACAGAATTTG GTCTTGGGGC ACATTTCAAT 
GTTGGCGATC TCAAAAATGC CATTGAAAAA ATTCCACAAA AAGGGGGACA TTCCAATGTT 
GGAAAGGCTC TCTCCTACGT GAACAAGAAT TACTTTTCTG ATTCCAGCGG GAATAGAGGA 
AGTGCTCCAA ATGTGGCTGT TGTGCTGGTG GATGGATGGC CCACAGATAA GGTTGAAGAA 
GCTTCTCGTC TTGCTCGCGA GTCTGGAATA AATATTTTTT TTGTCACCAT AGAAGGTGCT 
GATGACAATG AGAGGTCAAG TGTTGTCGAA CCAAACTTTG TTGATAAGGC GGTGTGTAGG 
ACTAATGGAC ATTTTTCTAT CAATGTGCCA AGCTGGTTTG GACTCCACAA AGTAGTCAAT 
CCTCTGGTAA ATCGTATGTG TGACATCGAC AAACTAGTCT GTAGCAAGAC ATGTCTCAAT 
GCTGCCGACA TTGGTTTTGT TATTGATGGC TCCAGCAGTG TTGGCACCGG CAATTTCCGC 
ACAGTGCTTC AGTTCATAGC CAACATTACC AATGAATTTG AGATTTCTGA TACGGATACG 
AGAATAGGAG CAGTGCAATA CACTTATGAA CAGAGGCTGG AATTTGGATT TGATAAGTAT 
AGTACAAAGC AAGATGTAAT GAATGCCATC ATGAGAATAG GCTATTGGAG TGGAGGAACA 
AGCACTGGCG CTGCCATCAC CTACGCCTCC GAGCAACTGT TCAGTAAATC AAAGCCAAAC 
AAGAGGAAGA TATTAATTGT CATTACAGAT GGTCGATCTT ATGATGATGT TCGAGCACCT 
GCTGCAGCTG TACATCGGAA TGGGGTAATT GCCTATGCTG TTGGGATTGC CTGGGCTGCC 
CAAGACGAGC TGGAATCCAT TGCAACTGAC CCTGACAAGG ACCATTCATT TTTCGTGGAA 
GACTTTGACA GTCTCTACAA GTTTGTTGGG AAGATCTTCC AGAACATTTG TACAGAATAT 
AATTCTCAAC CACGAAACTA A