TEX10 cDNA ORF clone, Sus scrofa(Pig)

Gene
Clones
gRNAs

Summary

Gene Symbol	TEX10
Entrez Gene ID	100157099
Full Name	testis expressed 10
Gene Type	protein-coding
Organism	Sus scrofa(Pig)
Genome	Chromosome: 1 Map Location: 1\|1

mRNA and Protein(s)

mRNA	Protein	Name
XM_001925941.6	XP_001925976.2	testis-expressed protein 10
XM_013993710.1	XP_013849164.1	testis-expressed sequence 10 protein isoform X1
XM_001925941.5	XP_001925976.2	testis-expressed sequence 10 protein isoform X2

Pathways from BioSystems
Gene Ontology

The following TEX10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TEX10 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)
OSe03196	XM_013993710.1 Latest version!	Sus scrofa testis expressed 10 (TEX10), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OSe03197	XM_001925941.6 Latest version!	Sus scrofa testis expressed 10 (TEX10), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
View Old Accession Versions >>
OSe03197	XM_001925941.5	Sus scrofa testis expressed 10 (TEX10), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
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)

TEX10 ( XM_013993710.1 ) cDNA ORF clone, Sus scrofa(Pig) -> XP_013849164.1 Sus scrofa testis expressed 10 (TEX10), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OSe03196
Clone ID Related Accession (Same CDS sequence)	XM_013993710.1
Accession Version	XM_013993710.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2832bp) 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	1441814400000
Organism	Sus scrofa(Pig)
Product	testis-expressed sequence 10 protein isoform X1
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003609432.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCTGTTGT GCATAATGCA TCTATTATGC TTGCACTCAA GAATGACCAA AAAAAGAAAA 
CGCCAAGATG ATTTTCAAAA AGTAAAACTA AAAGTTGGTA AAAAGAAGCC CAGGTTAGAA 
AATGCTACTG TTACAAACTT TAAAACGAAG ACCATACATC TGCCCGAGCA ACTCAAAGAG 
GATGGAACAC TTCCAACAAA CAATAGAAAA CTTAACATAA AGGATTTGCT GTCACAGATG 
CATCATTACA ATGCTGGGGT TAAACAAAGT GCTCTTCTTG GACTTAAAGA TCTTTTGTCT 
CAATACCCAT TTATAATTGA TGCACACCTT TCAAACATAT TAAGTGAAGT GACTGCTGTG 
TTTACAGATA AAGATGCTAA TGTACGATTA GCAGCAGTTC AACTTCTTCA ATTCCTGGCC 
CCCAAAATAC GAGCTGAACA AATTTCTCCA TTTTTTCCTT TGGTAAGTGC CCATCTCTCT 
AGTGCCATGA CTCACATTAC TGAAGGAATT CAGGAGGACT CTTTAAAAGT TCTGGACATT 
CTGCTGGAAC AGTACCCAGC TCTAATTACT GGCCGTAGCA GTATATTGCT TAAGAATTTT 
GTAGAACTTA TTTCTCATCA GCAGCTGTCC AAAGGACTGG TAAATAGAGA CAGATCCCAG 
TCCTGGATAC TTTCTGTAAA TCCTAATCGG AGACTCACTT CTCAGCAGTG GAGGCTGAAA 
GTCTTAGTGA GACTCAGTAA ATTCCTTCAG GCCTTGGCAG ATGGATCCAG TAGGTTGAGA 
GAAAGTGAAG GACTTCAGGA ACAAAAAGAA AATCCCCATG CCACTAGCAA CTCCATTTTT 
ATCAACTGGA AGGAACATGC CAACGACCAG CAACACATCC AGGTTTATGA ACATGGGGGT 
TCACAGCCAA ATGTCAGTTC ACAGTTCAGG CTACGGTACC TGGTTGGAGG ACTAGGCAAT 
GTGGATGAAG GTCTGTCATC TACTGAAAAC TTGAAAGGAT TTATTGAGAT AATAATTCCA 
TTGCTAATTG AGTGCTGGAT TGAAGCTGTG CCTCCACACC TAGCTGCTTC TGTTGGAAAT 
GGTATAGAAC GGGAGCCTCT GCAGGTTATG CAGCAAGTTC TTAATATTAT TTCCCTTCTG 
TGGAAACTCT CGAAACAACA TGATGAAACC CATAAATTGG AGTCATGGCT TCGAAAGAAT 
TATCTTATTG ATTTCAAACA CCATTTTATG AATAATTTTC CATATGCCTT AAAAGAAATA 
AGCAAGCACA GAAGGAAAGA GACAAATAAA AGCATCAAGC ATTGCACAGT GCTCTCCAAT 
AATGTAGATC ATCTCTTACT GAATTTAACA TTGTCTGATA TCATGGTCTC CCTGGCAAAT 
GCCTCAACTT TGCAGAAGGA TTCCAATTGG ATAGAAATGA TAAGGAAATT TATAACAGAG 
ACCCTTGAAG ATGGCTCTAG GCTAAATAGT AAACAGCTGA ACAGATTGCT TGGGGTATCC 
TGGAGGTTAA TGCAGATACA ACCAAACAGA GAGGCCACGG AGTCTCTCAT TAAGGCAGTT 
TATACATTGT ATCAGCAGAG ATGCCTTTCC CTTCCAGTTC GGACTTTGTT ACTGAAGTTT 
TTCAGTAAAA TTTATCAGAA AGAAGAACTG AGATCTTATA GAGTCAGGTA TCGTAGTAAA 
GTGTTATCCC GTTGGTTGGC TGGTTTACCA TTGCAACTTG CTCATCTTGG CTCTAGAAAC 
CCTGAGCTCT CAACACAGCT TATTGATATT ATCCATACTG CTGCAGCACG AGCAAATAAA 
GAATTACTAA GAAGTTTACA AGTTACTGCT CTCCGAATCT ATGATCCACA AGAAGGCACT 
GTCGTGGTTC TCCCAGCAGA ATCTCAGCAG CTTTTGGTTC AGCTTGTATA TTTTCTACCC 
AGTCTGCCTG CTGATTTGCT TTCTCGGTTA AGTCGTTGCT GTATTATGGG AAGACTAAGT 
TCAAGTTTGG CTGCCATGCT TATCGGGATA CTGCACATGA GATCATCATT TTCTGGATGG 
AAGTCTTCAG TTAAAGAGTG GTTGATGAGT GATGTGGACT ATTTCAGCTT CTTATTTTCA 
ACACTTACAG GGTTTTCAAA AGAGGAGTTG ACTTGGCTTC AGAGCCTTCG AGGAGTTCCT 
CATGTCATCC AGACACAGCT TTCACCTGTG CTGCTTTACC TTACTGACTT GGATCAATTT 
TTACACCATT GGGACGTAAC AGAGACAGTT TGTCACAATT TATTGGTTAT CCCTGCCCGA 
AGCCAAAGCT TTGACGTCCT GCAAAGTGCC ATCAGTAAGC ATTTGGTTGG GTTGACTGTA 
ATTCCTGACA GCACGGCTGG CTGTGTTTTG GGTGTTATCT GTAAGCTCCT GGATCATACA 
TGTGTACTTA GTGAGACGCT ACTGCCATTT CTGGCTTCTT GTTGCTACAG TCTTCTTTAT 
TTTCTGCTCA CTTTAGAGAA AGGAGAAGCA GAACATCTAA GAAAGAGGGA CAAGCTGTGG 
GGGGTCTGTG TCTCCATCCT GGCTCTCCTG CCTCGAGTCC TCAGGTTGAT GCTGCAGAGT 
CTGCGAGTGA GCAGAGCTGG GCCTGAGGAG CTGCCTGTCG TGGGCCAGCT GCTTCGTCTG 
CTGCTTCAGC ATGCACCCCT CAGGACCCAC ATGTTGAGCA ATGCCATCTT GGTGCAGCAG 
ATCATCAAGA ACATCACAAC ATTGAAGAGT GGAGGTGCTC AGGAGCAGTG GCTCACAGAC 
TTACATTATT GCTTCAACGT GTACATTACT GGGCACCCCC AGGGGCCCAG TGCGTTGAGT 
ACAGTGTATT GA

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

RefSeq	XP_013849164.1
CDS	122..2953
Translation	MLLCIMHLLCLHSRMTKKRKRQDDFQKVKLKVGKKKPRLENATVTNFKTKTIHLPEQLKEDGTLPTNNRKLNIKDLLSQMHHYNAGVKQSALLGLKDLLSQYPFIIDAHLSNILSEVTAVFTDKDANVRLAAVQLLQFLAPKIRAEQISPFFPLVSAHLSSAMTHITEGIQEDSLKVLDILLEQYPALITGRSSILLKNFVELISHQQLSKGLVNRDRSQSWILSVNPNRRLTSQQWRLKVLVRLSKFLQALADGSSRLRESEGLQEQKENPHATSNSIFINWKEHANDQQHIQVYEHGGSQPNVSSQFRLRYLVGGLGNVDEGLSSTENLKGFIEIIIPLLIECWIEAVPPHLAASVGNGIEREPLQVMQQVLNIISLLWKLSKQHDETHKLESWLRKNYLIDFKHHFMNNFPYALKEISKHRRKETNKSIKHCTVLSNNVDHLLLNLTLSDIMVSLANASTLQKDSNWIEMIRKFITETLEDGSRLNSKQLNRLLGVSWRLMQIQPNREATESLIKAVYTLYQQRCLSLPVRTLLLKFFSKIYQKEELRSYRVRYRSKVLSRWLAGLPLQLAHLGSRNPELSTQLIDIIHTAAARANKELLRSLQVTALRIYDPQEGTVVVLPAESQQLLVQLVYFLPSLPADLLSRLSRCCIMGRLSSSLAAMLIGILHMRSSFSGWKSSVKEWLMSDVDYFSFLFSTLTGFSKEELTWLQSLRGVPHVIQTQLSPVLLYLTDLDQFLHHWDVTETVCHNLLVIPARSQSFDVLQSAISKHLVGLTVIPDSTAGCVLGVICKLLDHTCVLSETLLPFLASCCYSLLYFLLTLEKGEAEHLRKRDKLWGVCVSILALLPRVLRLMLQSLRVSRAGPEELPVVGQLLRLLLQHAPLRTHMLSNAILVQQIIKNITTLKSGGAQEQWLTDLHYCFNVYITGHPQGPSALSTVY

Target ORF information:

RefSeq Version	XM_013993710.1
Organism	Sus scrofa(Pig)
Definition	Sus scrofa testis expressed 10 (TEX10), transcript variant X1, mRNA.

Target ORF information:

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

XM_013993710.1

ORF Insert Sequence:

ATGCTGTTGT GCATAATGCA TCTATTATGC TTGCACTCAA GAATGACCAA AAAAAGAAAA 
CGCCAAGATG ATTTTCAAAA AGTAAAACTA AAAGTTGGTA AAAAGAAGCC CAGGTTAGAA 
AATGCTACTG TTACAAACTT TAAAACGAAG ACCATACATC TGCCCGAGCA ACTCAAAGAG 
GATGGAACAC TTCCAACAAA CAATAGAAAA CTTAACATAA AGGATTTGCT GTCACAGATG 
CATCATTACA ATGCTGGGGT TAAACAAAGT GCTCTTCTTG GACTTAAAGA TCTTTTGTCT 
CAATACCCAT TTATAATTGA TGCACACCTT TCAAACATAT TAAGTGAAGT GACTGCTGTG 
TTTACAGATA AAGATGCTAA TGTACGATTA GCAGCAGTTC AACTTCTTCA ATTCCTGGCC 
CCCAAAATAC GAGCTGAACA AATTTCTCCA TTTTTTCCTT TGGTAAGTGC CCATCTCTCT 
AGTGCCATGA CTCACATTAC TGAAGGAATT CAGGAGGACT CTTTAAAAGT TCTGGACATT 
CTGCTGGAAC AGTACCCAGC TCTAATTACT GGCCGTAGCA GTATATTGCT TAAGAATTTT 
GTAGAACTTA TTTCTCATCA GCAGCTGTCC AAAGGACTGG TAAATAGAGA CAGATCCCAG 
TCCTGGATAC TTTCTGTAAA TCCTAATCGG AGACTCACTT CTCAGCAGTG GAGGCTGAAA 
GTCTTAGTGA GACTCAGTAA ATTCCTTCAG GCCTTGGCAG ATGGATCCAG TAGGTTGAGA 
GAAAGTGAAG GACTTCAGGA ACAAAAAGAA AATCCCCATG CCACTAGCAA CTCCATTTTT 
ATCAACTGGA AGGAACATGC CAACGACCAG CAACACATCC AGGTTTATGA ACATGGGGGT 
TCACAGCCAA ATGTCAGTTC ACAGTTCAGG CTACGGTACC TGGTTGGAGG ACTAGGCAAT 
GTGGATGAAG GTCTGTCATC TACTGAAAAC TTGAAAGGAT TTATTGAGAT AATAATTCCA 
TTGCTAATTG AGTGCTGGAT TGAAGCTGTG CCTCCACACC TAGCTGCTTC TGTTGGAAAT 
GGTATAGAAC GGGAGCCTCT GCAGGTTATG CAGCAAGTTC TTAATATTAT TTCCCTTCTG 
TGGAAACTCT CGAAACAACA TGATGAAACC CATAAATTGG AGTCATGGCT TCGAAAGAAT 
TATCTTATTG ATTTCAAACA CCATTTTATG AATAATTTTC CATATGCCTT AAAAGAAATA 
AGCAAGCACA GAAGGAAAGA GACAAATAAA AGCATCAAGC ATTGCACAGT GCTCTCCAAT 
AATGTAGATC ATCTCTTACT GAATTTAACA TTGTCTGATA TCATGGTCTC CCTGGCAAAT 
GCCTCAACTT TGCAGAAGGA TTCCAATTGG ATAGAAATGA TAAGGAAATT TATAACAGAG 
ACCCTTGAAG ATGGCTCTAG GCTAAATAGT AAACAGCTGA ACAGATTGCT TGGGGTATCC 
TGGAGGTTAA TGCAGATACA ACCAAACAGA GAGGCCACGG AGTCTCTCAT TAAGGCAGTT 
TATACATTGT ATCAGCAGAG ATGCCTTTCC CTTCCAGTTC GGACTTTGTT ACTGAAGTTT 
TTCAGTAAAA TTTATCAGAA AGAAGAACTG AGATCTTATA GAGTCAGGTA TCGTAGTAAA 
GTGTTATCCC GTTGGTTGGC TGGTTTACCA TTGCAACTTG CTCATCTTGG CTCTAGAAAC 
CCTGAGCTCT CAACACAGCT TATTGATATT ATCCATACTG CTGCAGCACG AGCAAATAAA 
GAATTACTAA GAAGTTTACA AGTTACTGCT CTCCGAATCT ATGATCCACA AGAAGGCACT 
GTCGTGGTTC TCCCAGCAGA ATCTCAGCAG CTTTTGGTTC AGCTTGTATA TTTTCTACCC 
AGTCTGCCTG CTGATTTGCT TTCTCGGTTA AGTCGTTGCT GTATTATGGG AAGACTAAGT 
TCAAGTTTGG CTGCCATGCT TATCGGGATA CTGCACATGA GATCATCATT TTCTGGATGG 
AAGTCTTCAG TTAAAGAGTG GTTGATGAGT GATGTGGACT ATTTCAGCTT CTTATTTTCA 
ACACTTACAG GGTTTTCAAA AGAGGAGTTG ACTTGGCTTC AGAGCCTTCG AGGAGTTCCT 
CATGTCATCC AGACACAGCT TTCACCTGTG CTGCTTTACC TTACTGACTT GGATCAATTT 
TTACACCATT GGGACGTAAC AGAGACAGTT TGTCACAATT TATTGGTTAT CCCTGCCCGA 
AGCCAAAGCT TTGACGTCCT GCAAAGTGCC ATCAGTAAGC ATTTGGTTGG GTTGACTGTA 
ATTCCTGACA GCACGGCTGG CTGTGTTTTG GGTGTTATCT GTAAGCTCCT GGATCATACA 
TGTGTACTTA GTGAGACGCT ACTGCCATTT CTGGCTTCTT GTTGCTACAG TCTTCTTTAT 
TTTCTGCTCA CTTTAGAGAA AGGAGAAGCA GAACATCTAA GAAAGAGGGA CAAGCTGTGG 
GGGGTCTGTG TCTCCATCCT GGCTCTCCTG CCTCGAGTCC TCAGGTTGAT GCTGCAGAGT 
CTGCGAGTGA GCAGAGCTGG GCCTGAGGAG CTGCCTGTCG TGGGCCAGCT GCTTCGTCTG 
CTGCTTCAGC ATGCACCCCT CAGGACCCAC ATGTTGAGCA ATGCCATCTT GGTGCAGCAG 
ATCATCAAGA ACATCACAAC ATTGAAGAGT GGAGGTGCTC AGGAGCAGTG GCTCACAGAC 
TTACATTATT GCTTCAACGT GTACATTACT GGGCACCCCC AGGGGCCCAG TGCGTTGAGT 
ACAGTGTATT GA

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

TEX10 ( XM_001925941.6 ) cDNA ORF clone, Sus scrofa(Pig) -> XP_001925976.2 Sus scrofa testis expressed 10 (TEX10), mRNA.

Price & Availability↑

CloneID	OSe03197
Clone ID Related Accession (Same CDS sequence)	XM_001925941.6 , XM_001925941.5
Accession Version	XM_001925941.6 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2790bp) 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	1494518400000
Organism	Sus scrofa(pig)
Product	testis-expressed protein 10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010443.5) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 13, 2017 this sequence version replaced XM_001925941.5. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACCAAAA AAAGAAAACG CCAAGATGAT TTTCAAAAAG TAAAACTAAA AGTTGGTAAA 
AAGAAGCCCA GGTTAGAAAA TGCTACTGTT ACAAACTTTA AAACGAAGAC CATACATCTG 
CCCGAGCAAC TCAAAGAGGA TGGAACACTT CCAACAAACA ATAGAAAACT TAACATAAAG 
GATTTGCTGT CACAGATGCA TCATTACAAT GCTGGGGTTA AACAAAGTGC TCTTCTTGGA 
CTTAAAGATC TTTTGTCTCA ATACCCATTT ATAATTGATG CACACCTTTC AAACATATTA 
AGTGAAGTGA CTGCTGTGTT TACAGATAAA GATGCTAATG TACGATTAGC AGCAGTTCAA 
CTTCTTCAAT TCCTGGCCCC CAAAATACGA GCTGAACAAA TTTCTCCATT TTTTCCTTTG 
GTAAGTGCCC ATCTCTCTAG TGCCATGACT CACATTACTG AAGGAATTCA GGAGGACTCT 
TTAAAAGTTC TGGACATTCT GCTGGAACAG TACCCAGCTC TAATTACTGG CCGTAGCAGT 
ATATTGCTTA AGAATTTTGT AGAACTTATT TCTCATCAGC AGCTGTCCAA AGGACTGGTA 
AATAGAGACA GATCCCAGTC CTGGATACTT TCTGTAAATC CTAATCGGAG ACTCACTTCT 
CAGCAGTGGA GGCTGAAAGT CTTAGTGAGA CTCAGTAAAT TCCTTCAGGC CTTGGCAGAT 
GGATCCAGTA GGTTGAGAGA AAGTGAAGGA CTTCAGGAAC AAAAAGAAAA TCCCCATGCC 
ACTAGCAACT CCATTTTTAT CAACTGGAAG GAACATGCCA ACGACCAGCA ACACATCCAG 
GTTTATGAAC ATGGGGGTTC ACAGCCAAAT GTCAGTTCAC AGTTCAGGCT ACGGTACCTG 
GTTGGAGGAC TAGGCAATGT GGATGAAGGT CTGTCATCTA CTGAAAACTT GAAAGGATTT 
ATTGAGATAA TAATTCCATT GCTAATTGAG TGCTGGATTG AAGCTGTGCC TCCACACCTA 
GCTGCTTCTG TTGGAAATGG TATAGAACGG GAGCCTCTGC AGGTTATGCA GCAAGTTCTT 
AATATTATTT CCCTTCTGTG GAAACTCTCG AAACAACATG ATGAAACCCA TAAATTGGAG 
TCATGGCTTC GAAAGAATTA TCTTATTGAT TTCAAACACC ATTTTATGAA TAATTTTCCA 
TATGCCTTAA AAGAAATAAG CAAGCACAGA AGGAAAGAGA CAAATAAAAG CATCAAGCAT 
TGCACAGTGC TCTCCAATAA TGTAGATCAT CTCTTACTGA ATTTAACATT GTCTGATATC 
ATGGTCTCCC TGGCAAATGC CTCAACTTTG CAGAAGGATT CCAATTGGAT AGAAATGATA 
AGGAAATTTA TAACAGAGAC CCTTGAAGAT GGCTCTAGGC TAAATAGTAA ACAGCTGAAC 
AGATTGCTTG GGGTATCCTG GAGGTTAATG CAGATACAAC CAAACAGAGA GGCCACGGAG 
TCTCTCATTA AGGCAGTTTA TACATTGTAT CAGCAGAGAT GCCTTTCCCT TCCAGTTCGG 
ACTTTGTTAC TGAAGTTTTT CAGTAAAATT TATCAGAAAG AAGAACTGAG ATCTTATAGA 
GTCAGGTATC GTAGTAAAGT GTTATCCCGT TGGTTGGCTG GTTTACCATT GCAACTTGCT 
CATCTTGGCT CTAGAAACCC TGAGCTCTCA ACACAGCTTA TTGATATTAT CCATACTGCT 
GCAGCACGAG CAAATAAAGA ATTACTAAGA AGTTTACAAG TTACTGCTCT CCGAATCTAT 
GATCCACAAG AAGGCACTGT CGTGGTTCTC CCAGCAGAAT CTCAGCAGCT TTTGGTTCAG 
CTTGTATATT TTCTACCCAG TCTGCCTGCT GATTTGCTTT CTCGGTTAAG TCGTTGCTGT 
ATTATGGGAA GACTAAGTTC AAGTTTGGCT GCCATGCTTA TCGGGATACT GCACATGAGA 
TCATCATTTT CTGGATGGAA GTCTTCAGTT AAAGAGTGGT TGATGAGTGA TGTGGACTAT 
TTCAGCTTCT TATTTTCAAC ACTTACAGGG TTTTCAAAAG AGGAGTTGAC TTGGCTTCAG 
AGCCTTCGAG GAGTTCCTCA TGTCATCCAG ACACAGCTTT CACCTGTGCT GCTTTACCTT 
ACTGACTTGG ATCAATTTTT ACACCATTGG GACGTAACAG AGACAGTTTG TCACAATTTA 
TTGGTTATCC CTGCCCGAAG CCAAAGCTTT GACGTCCTGC AAAGTGCCAT CAGTAAGCAT 
TTGGTTGGGT TGACTGTAAT TCCTGACAGC ACGGCTGGCT GTGTTTTGGG TGTTATCTGT 
AAGCTCCTGG ATCATACATG TGTACTTAGT GAGACGCTAC TGCCATTTCT GGCTTCTTGT 
TGCTACAGTC TTCTTTATTT TCTGCTCACT TTAGAGAAAG GAGAAGCAGA ACATCTAAGA 
AAGAGGGACA AGCTGTGGGG GGTCTGTGTC TCCATCCTGG CTCTCCTGCC TCGAGTCCTC 
AGGTTGATGC TGCAGAGTCT GCGAGTGAGC AGAGCTGGGC CTGAGGAGCT GCCTGTCGTG 
GGCCAGCTGC TTCGTCTGCT GCTTCAGCAT GCACCCCTCA GGACCCACAT GTTGAGCAAT 
GCCATCTTGG TGCAGCAGAT CATCAAGAAC ATCACAACAT TGAAGAGTGG AGGTGCTCAG 
GAGCAGTGGC TCACAGACTT ACATTATTGC TTCAACGTGT ACATTACTGG GCACCCCCAG 
GGGCCCAGTG CGTTGAGTAC AGTGTATTGA

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

RefSeq	XP_001925976.2
CDS	208..2997
Translation	MTKKRKRQDDFQKVKLKVGKKKPRLENATVTNFKTKTIHLPEQLKEDGTLPTNNRKLNIKDLLSQMHHYNAGVKQSALLGLKDLLSQYPFIIDAHLSNILSEVTAVFTDKDANVRLAAVQLLQFLAPKIRAEQISPFFPLVSAHLSSAMTHITEGIQEDSLKVLDILLEQYPALITGRSSILLKNFVELISHQQLSKGLVNRDRSQSWILSVNPNRRLTSQQWRLKVLVRLSKFLQALADGSSRLRESEGLQEQKENPHATSNSIFINWKEHANDQQHIQVYEHGGSQPNVSSQFRLRYLVGGLGNVDEGLSSTENLKGFIEIIIPLLIECWIEAVPPHLAASVGNGIEREPLQVMQQVLNIISLLWKLSKQHDETHKLESWLRKNYLIDFKHHFMNNFPYALKEISKHRRKETNKSIKHCTVLSNNVDHLLLNLTLSDIMVSLANASTLQKDSNWIEMIRKFITETLEDGSRLNSKQLNRLLGVSWRLMQIQPNREATESLIKAVYTLYQQRCLSLPVRTLLLKFFSKIYQKEELRSYRVRYRSKVLSRWLAGLPLQLAHLGSRNPELSTQLIDIIHTAAARANKELLRSLQVTALRIYDPQEGTVVVLPAESQQLLVQLVYFLPSLPADLLSRLSRCCIMGRLSSSLAAMLIGILHMRSSFSGWKSSVKEWLMSDVDYFSFLFSTLTGFSKEELTWLQSLRGVPHVIQTQLSPVLLYLTDLDQFLHHWDVTETVCHNLLVIPARSQSFDVLQSAISKHLVGLTVIPDSTAGCVLGVICKLLDHTCVLSETLLPFLASCCYSLLYFLLTLEKGEAEHLRKRDKLWGVCVSILALLPRVLRLMLQSLRVSRAGPEELPVVGQLLRLLLQHAPLRTHMLSNAILVQQIIKNITTLKSGGAQEQWLTDLHYCFNVYITGHPQGPSALSTVY

Target ORF information:

RefSeq Version	XM_001925941.6
Organism	Sus scrofa(pig)
Definition	Sus scrofa testis expressed 10 (TEX10), mRNA.

Target ORF information:

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

XM_001925941.6

ORF Insert Sequence:

ATGACCAAAA AAAGAAAACG CCAAGATGAT TTTCAAAAAG TAAAACTAAA AGTTGGTAAA 
AAGAAGCCCA GGTTAGAAAA TGCTACTGTT ACAAACTTTA AAACGAAGAC CATACATCTG 
CCCGAGCAAC TCAAAGAGGA TGGAACACTT CCAACAAACA ATAGAAAACT TAACATAAAG 
GATTTGCTGT CACAGATGCA TCATTACAAT GCTGGGGTTA AACAAAGTGC TCTTCTTGGA 
CTTAAAGATC TTTTGTCTCA ATACCCATTT ATAATTGATG CACACCTTTC AAACATATTA 
AGTGAAGTGA CTGCTGTGTT TACAGATAAA GATGCTAATG TACGATTAGC AGCAGTTCAA 
CTTCTTCAAT TCCTGGCCCC CAAAATACGA GCTGAACAAA TTTCTCCATT TTTTCCTTTG 
GTAAGTGCCC ATCTCTCTAG TGCCATGACT CACATTACTG AAGGAATTCA GGAGGACTCT 
TTAAAAGTTC TGGACATTCT GCTGGAACAG TACCCAGCTC TAATTACTGG CCGTAGCAGT 
ATATTGCTTA AGAATTTTGT AGAACTTATT TCTCATCAGC AGCTGTCCAA AGGACTGGTA 
AATAGAGACA GATCCCAGTC CTGGATACTT TCTGTAAATC CTAATCGGAG ACTCACTTCT 
CAGCAGTGGA GGCTGAAAGT CTTAGTGAGA CTCAGTAAAT TCCTTCAGGC CTTGGCAGAT 
GGATCCAGTA GGTTGAGAGA AAGTGAAGGA CTTCAGGAAC AAAAAGAAAA TCCCCATGCC 
ACTAGCAACT CCATTTTTAT CAACTGGAAG GAACATGCCA ACGACCAGCA ACACATCCAG 
GTTTATGAAC ATGGGGGTTC ACAGCCAAAT GTCAGTTCAC AGTTCAGGCT ACGGTACCTG 
GTTGGAGGAC TAGGCAATGT GGATGAAGGT CTGTCATCTA CTGAAAACTT GAAAGGATTT 
ATTGAGATAA TAATTCCATT GCTAATTGAG TGCTGGATTG AAGCTGTGCC TCCACACCTA 
GCTGCTTCTG TTGGAAATGG TATAGAACGG GAGCCTCTGC AGGTTATGCA GCAAGTTCTT 
AATATTATTT CCCTTCTGTG GAAACTCTCG AAACAACATG ATGAAACCCA TAAATTGGAG 
TCATGGCTTC GAAAGAATTA TCTTATTGAT TTCAAACACC ATTTTATGAA TAATTTTCCA 
TATGCCTTAA AAGAAATAAG CAAGCACAGA AGGAAAGAGA CAAATAAAAG CATCAAGCAT 
TGCACAGTGC TCTCCAATAA TGTAGATCAT CTCTTACTGA ATTTAACATT GTCTGATATC 
ATGGTCTCCC TGGCAAATGC CTCAACTTTG CAGAAGGATT CCAATTGGAT AGAAATGATA 
AGGAAATTTA TAACAGAGAC CCTTGAAGAT GGCTCTAGGC TAAATAGTAA ACAGCTGAAC 
AGATTGCTTG GGGTATCCTG GAGGTTAATG CAGATACAAC CAAACAGAGA GGCCACGGAG 
TCTCTCATTA AGGCAGTTTA TACATTGTAT CAGCAGAGAT GCCTTTCCCT TCCAGTTCGG 
ACTTTGTTAC TGAAGTTTTT CAGTAAAATT TATCAGAAAG AAGAACTGAG ATCTTATAGA 
GTCAGGTATC GTAGTAAAGT GTTATCCCGT TGGTTGGCTG GTTTACCATT GCAACTTGCT 
CATCTTGGCT CTAGAAACCC TGAGCTCTCA ACACAGCTTA TTGATATTAT CCATACTGCT 
GCAGCACGAG CAAATAAAGA ATTACTAAGA AGTTTACAAG TTACTGCTCT CCGAATCTAT 
GATCCACAAG AAGGCACTGT CGTGGTTCTC CCAGCAGAAT CTCAGCAGCT TTTGGTTCAG 
CTTGTATATT TTCTACCCAG TCTGCCTGCT GATTTGCTTT CTCGGTTAAG TCGTTGCTGT 
ATTATGGGAA GACTAAGTTC AAGTTTGGCT GCCATGCTTA TCGGGATACT GCACATGAGA 
TCATCATTTT CTGGATGGAA GTCTTCAGTT AAAGAGTGGT TGATGAGTGA TGTGGACTAT 
TTCAGCTTCT TATTTTCAAC ACTTACAGGG TTTTCAAAAG AGGAGTTGAC TTGGCTTCAG 
AGCCTTCGAG GAGTTCCTCA TGTCATCCAG ACACAGCTTT CACCTGTGCT GCTTTACCTT 
ACTGACTTGG ATCAATTTTT ACACCATTGG GACGTAACAG AGACAGTTTG TCACAATTTA 
TTGGTTATCC CTGCCCGAAG CCAAAGCTTT GACGTCCTGC AAAGTGCCAT CAGTAAGCAT 
TTGGTTGGGT TGACTGTAAT TCCTGACAGC ACGGCTGGCT GTGTTTTGGG TGTTATCTGT 
AAGCTCCTGG ATCATACATG TGTACTTAGT GAGACGCTAC TGCCATTTCT GGCTTCTTGT 
TGCTACAGTC TTCTTTATTT TCTGCTCACT TTAGAGAAAG GAGAAGCAGA ACATCTAAGA 
AAGAGGGACA AGCTGTGGGG GGTCTGTGTC TCCATCCTGG CTCTCCTGCC TCGAGTCCTC 
AGGTTGATGC TGCAGAGTCT GCGAGTGAGC AGAGCTGGGC CTGAGGAGCT GCCTGTCGTG 
GGCCAGCTGC TTCGTCTGCT GCTTCAGCAT GCACCCCTCA GGACCCACAT GTTGAGCAAT 
GCCATCTTGG TGCAGCAGAT CATCAAGAAC ATCACAACAT TGAAGAGTGG AGGTGCTCAG 
GAGCAGTGGC TCACAGACTT ACATTATTGC TTCAACGTGT ACATTACTGG GCACCCCCAG 
GGGCCCAGTG CGTTGAGTAC AGTGTATTGA

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

TEX10 ( XM_001925941.5 ) cDNA ORF clone, Sus scrofa(Pig) -> XP_001925976.2 Sus scrofa testis expressed 10 (TEX10), transcript variant X2, mRNA.

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CloneID	OSe03197
Clone ID Related Accession (Same CDS sequence)	XM_001925941.6 , XM_001925941.5
Accession Version	XM_001925941.5	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2790bp) 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	1441814400000
Organism	Sus scrofa(Pig)
Product	testis-expressed sequence 10 protein isoform X2
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003609432.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 11, 2015 this sequence version replaced XM_001925941.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Sus scrofa Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACCAAAA AAAGAAAACG CCAAGATGAT TTTCAAAAAG TAAAACTAAA AGTTGGTAAA 
AAGAAGCCCA GGTTAGAAAA TGCTACTGTT ACAAACTTTA AAACGAAGAC CATACATCTG 
CCCGAGCAAC TCAAAGAGGA TGGAACACTT CCAACAAACA ATAGAAAACT TAACATAAAG 
GATTTGCTGT CACAGATGCA TCATTACAAT GCTGGGGTTA AACAAAGTGC TCTTCTTGGA 
CTTAAAGATC TTTTGTCTCA ATACCCATTT ATAATTGATG CACACCTTTC AAACATATTA 
AGTGAAGTGA CTGCTGTGTT TACAGATAAA GATGCTAATG TACGATTAGC AGCAGTTCAA 
CTTCTTCAAT TCCTGGCCCC CAAAATACGA GCTGAACAAA TTTCTCCATT TTTTCCTTTG 
GTAAGTGCCC ATCTCTCTAG TGCCATGACT CACATTACTG AAGGAATTCA GGAGGACTCT 
TTAAAAGTTC TGGACATTCT GCTGGAACAG TACCCAGCTC TAATTACTGG CCGTAGCAGT 
ATATTGCTTA AGAATTTTGT AGAACTTATT TCTCATCAGC AGCTGTCCAA AGGACTGGTA 
AATAGAGACA GATCCCAGTC CTGGATACTT TCTGTAAATC CTAATCGGAG ACTCACTTCT 
CAGCAGTGGA GGCTGAAAGT CTTAGTGAGA CTCAGTAAAT TCCTTCAGGC CTTGGCAGAT 
GGATCCAGTA GGTTGAGAGA AAGTGAAGGA CTTCAGGAAC AAAAAGAAAA TCCCCATGCC 
ACTAGCAACT CCATTTTTAT CAACTGGAAG GAACATGCCA ACGACCAGCA ACACATCCAG 
GTTTATGAAC ATGGGGGTTC ACAGCCAAAT GTCAGTTCAC AGTTCAGGCT ACGGTACCTG 
GTTGGAGGAC TAGGCAATGT GGATGAAGGT CTGTCATCTA CTGAAAACTT GAAAGGATTT 
ATTGAGATAA TAATTCCATT GCTAATTGAG TGCTGGATTG AAGCTGTGCC TCCACACCTA 
GCTGCTTCTG TTGGAAATGG TATAGAACGG GAGCCTCTGC AGGTTATGCA GCAAGTTCTT 
AATATTATTT CCCTTCTGTG GAAACTCTCG AAACAACATG ATGAAACCCA TAAATTGGAG 
TCATGGCTTC GAAAGAATTA TCTTATTGAT TTCAAACACC ATTTTATGAA TAATTTTCCA 
TATGCCTTAA AAGAAATAAG CAAGCACAGA AGGAAAGAGA CAAATAAAAG CATCAAGCAT 
TGCACAGTGC TCTCCAATAA TGTAGATCAT CTCTTACTGA ATTTAACATT GTCTGATATC 
ATGGTCTCCC TGGCAAATGC CTCAACTTTG CAGAAGGATT CCAATTGGAT AGAAATGATA 
AGGAAATTTA TAACAGAGAC CCTTGAAGAT GGCTCTAGGC TAAATAGTAA ACAGCTGAAC 
AGATTGCTTG GGGTATCCTG GAGGTTAATG CAGATACAAC CAAACAGAGA GGCCACGGAG 
TCTCTCATTA AGGCAGTTTA TACATTGTAT CAGCAGAGAT GCCTTTCCCT TCCAGTTCGG 
ACTTTGTTAC TGAAGTTTTT CAGTAAAATT TATCAGAAAG AAGAACTGAG ATCTTATAGA 
GTCAGGTATC GTAGTAAAGT GTTATCCCGT TGGTTGGCTG GTTTACCATT GCAACTTGCT 
CATCTTGGCT CTAGAAACCC TGAGCTCTCA ACACAGCTTA TTGATATTAT CCATACTGCT 
GCAGCACGAG CAAATAAAGA ATTACTAAGA AGTTTACAAG TTACTGCTCT CCGAATCTAT 
GATCCACAAG AAGGCACTGT CGTGGTTCTC CCAGCAGAAT CTCAGCAGCT TTTGGTTCAG 
CTTGTATATT TTCTACCCAG TCTGCCTGCT GATTTGCTTT CTCGGTTAAG TCGTTGCTGT 
ATTATGGGAA GACTAAGTTC AAGTTTGGCT GCCATGCTTA TCGGGATACT GCACATGAGA 
TCATCATTTT CTGGATGGAA GTCTTCAGTT AAAGAGTGGT TGATGAGTGA TGTGGACTAT 
TTCAGCTTCT TATTTTCAAC ACTTACAGGG TTTTCAAAAG AGGAGTTGAC TTGGCTTCAG 
AGCCTTCGAG GAGTTCCTCA TGTCATCCAG ACACAGCTTT CACCTGTGCT GCTTTACCTT 
ACTGACTTGG ATCAATTTTT ACACCATTGG GACGTAACAG AGACAGTTTG TCACAATTTA 
TTGGTTATCC CTGCCCGAAG CCAAAGCTTT GACGTCCTGC AAAGTGCCAT CAGTAAGCAT 
TTGGTTGGGT TGACTGTAAT TCCTGACAGC ACGGCTGGCT GTGTTTTGGG TGTTATCTGT 
AAGCTCCTGG ATCATACATG TGTACTTAGT GAGACGCTAC TGCCATTTCT GGCTTCTTGT 
TGCTACAGTC TTCTTTATTT TCTGCTCACT TTAGAGAAAG GAGAAGCAGA ACATCTAAGA 
AAGAGGGACA AGCTGTGGGG GGTCTGTGTC TCCATCCTGG CTCTCCTGCC TCGAGTCCTC 
AGGTTGATGC TGCAGAGTCT GCGAGTGAGC AGAGCTGGGC CTGAGGAGCT GCCTGTCGTG 
GGCCAGCTGC TTCGTCTGCT GCTTCAGCAT GCACCCCTCA GGACCCACAT GTTGAGCAAT 
GCCATCTTGG TGCAGCAGAT CATCAAGAAC ATCACAACAT TGAAGAGTGG AGGTGCTCAG 
GAGCAGTGGC TCACAGACTT ACATTATTGC TTCAACGTGT ACATTACTGG GCACCCCCAG 
GGGCCCAGTG CGTTGAGTAC AGTGTATTGA

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

RefSeq	XP_001925976.2
CDS	206..2995
Translation	MTKKRKRQDDFQKVKLKVGKKKPRLENATVTNFKTKTIHLPEQLKEDGTLPTNNRKLNIKDLLSQMHHYNAGVKQSALLGLKDLLSQYPFIIDAHLSNILSEVTAVFTDKDANVRLAAVQLLQFLAPKIRAEQISPFFPLVSAHLSSAMTHITEGIQEDSLKVLDILLEQYPALITGRSSILLKNFVELISHQQLSKGLVNRDRSQSWILSVNPNRRLTSQQWRLKVLVRLSKFLQALADGSSRLRESEGLQEQKENPHATSNSIFINWKEHANDQQHIQVYEHGGSQPNVSSQFRLRYLVGGLGNVDEGLSSTENLKGFIEIIIPLLIECWIEAVPPHLAASVGNGIEREPLQVMQQVLNIISLLWKLSKQHDETHKLESWLRKNYLIDFKHHFMNNFPYALKEISKHRRKETNKSIKHCTVLSNNVDHLLLNLTLSDIMVSLANASTLQKDSNWIEMIRKFITETLEDGSRLNSKQLNRLLGVSWRLMQIQPNREATESLIKAVYTLYQQRCLSLPVRTLLLKFFSKIYQKEELRSYRVRYRSKVLSRWLAGLPLQLAHLGSRNPELSTQLIDIIHTAAARANKELLRSLQVTALRIYDPQEGTVVVLPAESQQLLVQLVYFLPSLPADLLSRLSRCCIMGRLSSSLAAMLIGILHMRSSFSGWKSSVKEWLMSDVDYFSFLFSTLTGFSKEELTWLQSLRGVPHVIQTQLSPVLLYLTDLDQFLHHWDVTETVCHNLLVIPARSQSFDVLQSAISKHLVGLTVIPDSTAGCVLGVICKLLDHTCVLSETLLPFLASCCYSLLYFLLTLEKGEAEHLRKRDKLWGVCVSILALLPRVLRLMLQSLRVSRAGPEELPVVGQLLRLLLQHAPLRTHMLSNAILVQQIIKNITTLKSGGAQEQWLTDLHYCFNVYITGHPQGPSALSTVY

Target ORF information:

RefSeq Version	XM_001925941.5
Organism	Sus scrofa(Pig)
Definition	Sus scrofa testis expressed 10 (TEX10), transcript variant X2, mRNA.

Target ORF information:

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

XM_001925941.5

ORF Insert Sequence:

ATGACCAAAA AAAGAAAACG CCAAGATGAT TTTCAAAAAG TAAAACTAAA AGTTGGTAAA 
AAGAAGCCCA GGTTAGAAAA TGCTACTGTT ACAAACTTTA AAACGAAGAC CATACATCTG 
CCCGAGCAAC TCAAAGAGGA TGGAACACTT CCAACAAACA ATAGAAAACT TAACATAAAG 
GATTTGCTGT CACAGATGCA TCATTACAAT GCTGGGGTTA AACAAAGTGC TCTTCTTGGA 
CTTAAAGATC TTTTGTCTCA ATACCCATTT ATAATTGATG CACACCTTTC AAACATATTA 
AGTGAAGTGA CTGCTGTGTT TACAGATAAA GATGCTAATG TACGATTAGC AGCAGTTCAA 
CTTCTTCAAT TCCTGGCCCC CAAAATACGA GCTGAACAAA TTTCTCCATT TTTTCCTTTG 
GTAAGTGCCC ATCTCTCTAG TGCCATGACT CACATTACTG AAGGAATTCA GGAGGACTCT 
TTAAAAGTTC TGGACATTCT GCTGGAACAG TACCCAGCTC TAATTACTGG CCGTAGCAGT 
ATATTGCTTA AGAATTTTGT AGAACTTATT TCTCATCAGC AGCTGTCCAA AGGACTGGTA 
AATAGAGACA GATCCCAGTC CTGGATACTT TCTGTAAATC CTAATCGGAG ACTCACTTCT 
CAGCAGTGGA GGCTGAAAGT CTTAGTGAGA CTCAGTAAAT TCCTTCAGGC CTTGGCAGAT 
GGATCCAGTA GGTTGAGAGA AAGTGAAGGA CTTCAGGAAC AAAAAGAAAA TCCCCATGCC 
ACTAGCAACT CCATTTTTAT CAACTGGAAG GAACATGCCA ACGACCAGCA ACACATCCAG 
GTTTATGAAC ATGGGGGTTC ACAGCCAAAT GTCAGTTCAC AGTTCAGGCT ACGGTACCTG 
GTTGGAGGAC TAGGCAATGT GGATGAAGGT CTGTCATCTA CTGAAAACTT GAAAGGATTT 
ATTGAGATAA TAATTCCATT GCTAATTGAG TGCTGGATTG AAGCTGTGCC TCCACACCTA 
GCTGCTTCTG TTGGAAATGG TATAGAACGG GAGCCTCTGC AGGTTATGCA GCAAGTTCTT 
AATATTATTT CCCTTCTGTG GAAACTCTCG AAACAACATG ATGAAACCCA TAAATTGGAG 
TCATGGCTTC GAAAGAATTA TCTTATTGAT TTCAAACACC ATTTTATGAA TAATTTTCCA 
TATGCCTTAA AAGAAATAAG CAAGCACAGA AGGAAAGAGA CAAATAAAAG CATCAAGCAT 
TGCACAGTGC TCTCCAATAA TGTAGATCAT CTCTTACTGA ATTTAACATT GTCTGATATC 
ATGGTCTCCC TGGCAAATGC CTCAACTTTG CAGAAGGATT CCAATTGGAT AGAAATGATA 
AGGAAATTTA TAACAGAGAC CCTTGAAGAT GGCTCTAGGC TAAATAGTAA ACAGCTGAAC 
AGATTGCTTG GGGTATCCTG GAGGTTAATG CAGATACAAC CAAACAGAGA GGCCACGGAG 
TCTCTCATTA AGGCAGTTTA TACATTGTAT CAGCAGAGAT GCCTTTCCCT TCCAGTTCGG 
ACTTTGTTAC TGAAGTTTTT CAGTAAAATT TATCAGAAAG AAGAACTGAG ATCTTATAGA 
GTCAGGTATC GTAGTAAAGT GTTATCCCGT TGGTTGGCTG GTTTACCATT GCAACTTGCT 
CATCTTGGCT CTAGAAACCC TGAGCTCTCA ACACAGCTTA TTGATATTAT CCATACTGCT 
GCAGCACGAG CAAATAAAGA ATTACTAAGA AGTTTACAAG TTACTGCTCT CCGAATCTAT 
GATCCACAAG AAGGCACTGT CGTGGTTCTC CCAGCAGAAT CTCAGCAGCT TTTGGTTCAG 
CTTGTATATT TTCTACCCAG TCTGCCTGCT GATTTGCTTT CTCGGTTAAG TCGTTGCTGT 
ATTATGGGAA GACTAAGTTC AAGTTTGGCT GCCATGCTTA TCGGGATACT GCACATGAGA 
TCATCATTTT CTGGATGGAA GTCTTCAGTT AAAGAGTGGT TGATGAGTGA TGTGGACTAT 
TTCAGCTTCT TATTTTCAAC ACTTACAGGG TTTTCAAAAG AGGAGTTGAC TTGGCTTCAG 
AGCCTTCGAG GAGTTCCTCA TGTCATCCAG ACACAGCTTT CACCTGTGCT GCTTTACCTT 
ACTGACTTGG ATCAATTTTT ACACCATTGG GACGTAACAG AGACAGTTTG TCACAATTTA 
TTGGTTATCC CTGCCCGAAG CCAAAGCTTT GACGTCCTGC AAAGTGCCAT CAGTAAGCAT 
TTGGTTGGGT TGACTGTAAT TCCTGACAGC ACGGCTGGCT GTGTTTTGGG TGTTATCTGT 
AAGCTCCTGG ATCATACATG TGTACTTAGT GAGACGCTAC TGCCATTTCT GGCTTCTTGT 
TGCTACAGTC TTCTTTATTT TCTGCTCACT TTAGAGAAAG GAGAAGCAGA ACATCTAAGA 
AAGAGGGACA AGCTGTGGGG GGTCTGTGTC TCCATCCTGG CTCTCCTGCC TCGAGTCCTC 
AGGTTGATGC TGCAGAGTCT GCGAGTGAGC AGAGCTGGGC CTGAGGAGCT GCCTGTCGTG 
GGCCAGCTGC TTCGTCTGCT GCTTCAGCAT GCACCCCTCA GGACCCACAT GTTGAGCAAT 
GCCATCTTGG TGCAGCAGAT CATCAAGAAC ATCACAACAT TGAAGAGTGG AGGTGCTCAG 
GAGCAGTGGC TCACAGACTT ACATTATTGC TTCAACGTGT ACATTACTGG GCACCCCCAG 
GGGCCCAGTG CGTTGAGTAC AGTGTATTGA

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

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TEX10 cDNA ORF clone, Sus scrofa(Pig)

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:

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