TDRD1 cDNA ORF clone, Sus scrofa(pig)

Gene
Clones
gRNAs

Summary

Gene Symbol	TDRD1
Entrez Gene ID	100157555
Full Name	tudor domain containing 1
Gene Type	protein-coding
Organism	Sus scrofa(pig)
Genome	Chromosome: 14 Map Location: 14\|14

mRNA and Protein(s)

mRNA	Protein	Name
XM_013983746.1	XP_013839200.1	tudor domain-containing protein 1
XM_021073713.1	XP_020929372.1	LOW QUALITY PROTEIN: tudor domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following TDRD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OSe22859	XM_013983746.1 Latest version!	Sus scrofa tudor domain containing 1 (TDRD1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OSe238444	XM_021073713.1 Latest version!	Sus scrofa tudor domain containing 1 (TDRD1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

TDRD1 ( XM_013983746.1 ) cDNA ORF clone, Sus scrofa(pig) -> XP_013839200.1 Sus scrofa tudor domain containing 1 (TDRD1), mRNA.

Price & Availability↑

CloneID	OSe22859
Clone ID Related Accession (Same CDS sequence)	XM_013983746.1
Accession Version	XM_013983746.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3552bp) 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	tudor domain-containing protein 1
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003612088.1) 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##

ATGTCAAGAA ATAACTTGGA GGCATCTGCC TGTAAAATGA CAGAGCCATT TAATTTTGAG 
AAGAATGACA GCACGCTTCC GCCACATGAT GCTTTACGAA GTCCTGGAGG ACATCCTAAC 
CATCCTAATT TCAGGTTGAA AAGCCCAGAG ACTGGAAATA AGAAGAACAA TTTTTTGCTT 
TGTGAGCAAA CCAAACAGTA TTTGGTTAGT CAGGAAGACA GTTCAGTATC TTCCAACCCT 
AATGGCGTCA GTGGAGAAGC GGCTGGATCC AGAGGAGACA GGAAGATGTT GCCAACAGGT 
AATCCTGTGT CACCATTAAA TATTGGAAAT AATTCACCAC CCAAAGAAAT AAATAGTAAG 
CCTAGCAATA ATGTGCCTCC TGCAAAGTCA AAAAAAGGAG ACAAGTTGGT TGAGAATTCC 
TTGTCCATAA ACAACCCAGC GCTCTTCAGC TCCTTGGGAC CTCCTCTTAG GTCGACCACT 
TGCCATCGCT GTGGCCTGTT TGGGTCACTG AGATGCTCAC AGTGCAAACA GACGTACTAC 
TGCTCCACAG CGTGTCAGAG AAGGGACTGG TCGGCCCACA GCATCGTGTG CAAACCTGTT 
CAGCAAAATT TCCGCAAACT TGAAGATAAT AAATCACCTT TTGAAACAAA GAACTTGGAA 
GTGAAAAATG AGAGTGACTA TCCTCTTGGA GTTACTAAAG AAATAGCCGT TTGTGCTGGT 
AAAATAATGT TTTCTGATTT GAGAAGCCTA CAACTCAGGA AAACCATGGA AATAAAGGGT 
ACAGTTACTG AATTCAAACA CCCAAGCGAC TTTTATGTGC AGTTATATTC TTCAGAAGTT 
TCAGAATACA TGAACCAACT CTCTTCGAGC TTAAAGGAAA CATATGCAAA TAAGGCGCAT 
GAAGAGGATT ATATTCCTGT GAAGGGAGAA GTTTGTGTTG CCAAGTACAC TGTGGACCAG 
ACCTGGAACA GAGTACTGAT ACAAGACCTC GATGTGCTGC AGAAGAAGGC CCAAGTCTTG 
TATATTGATT ATGGAAATGA AGAAAGAATT CCAGTAAACA GGATTCACAA GCTGAGCAGA 
AACATTGACT TGTTTCCTCC TTGTGCCATA AAGTGCTTCG TGGCCAGTGT TATCCCAGCA 
GAGGGGAATT GGAGCAGTGA TTGTGTCCGA AGTATCAAGT CGCTGTTGCT GGAGCAGTGC 
TGCTCTGTGA AGATTGTGGA CATCTTAGAA GAGGAGGTGG TTACCTTTGC TGTGGATGTG 
ATGCTGACGA GTTCGGGAAA ACTCTTAGAC CATGTGCTCA TTGAAATGGG ATATGGTTTG 
AAACCCAAGG GACAAAATTC TAAGAAGCAA AGCGCAGATT CAGGTGATCT TGACGATGTT 
GGAAAAATGA CAGCTGAAAA CAAAATTGTG GTAGACAGAA GTGATCTCAT CCCCAAAGTG 
CTGACTTTGA ATGTAGGTGA TGAGTTTCGT GGCGTGGTCG CCCACATTCA GACTCCAGAG 
GACTTCTTTT GTCAACAGCT GCAAAGTGGG CATAAGCTTG CTGAACTTCA GGCGTCCCTT 
AGCCAGTATT GCAGCCAGGT GCCGCCACGC TCGGATTTTT ACCCAGCCAT TGGTGATATC 
TGCTGCGCTC AGTTCTCCGA GGATGCCCAG TGGTACCGGG CCTCCGTTTT GGCCTATGCG 
TCTGAGGACT CTGTGTTGGT TGGCTATGTA GACTATGGAA ACTTTGAAAT CCTTAGTTTG 
ACGAGACTTT GTCCCATAAC TCCAAAGCTG TTGGAGTTAC CGATGCAAGC TATCAAGTGT 
GTGCTGGCAG GAGTAAAGCC ATCATTAGGA ATTTGGACTC CAGAAGCTAT TTGTCTGATG 
AAAAAAATTG TGCAGAACAA AATGATCACT GTGAGAGTGG CGGACAAATT GGAAAACAGT 
TCCCTGGTGG AGCTTACAGA TAGATCTGTG ACGCCCCACA TCAGTGTCAC CCAAGTGCTC 
ATCGATGCAG GCTTTGCCGA GGGGGACAAG GGGGTCGTGC CAGATAAGCC CAGTGACTTG 
AAAGAAGCCA GTGGTGTTCC CTTGGGTTTA GAAGCAAAAG TCAGTCGATT GGAGTGGACA 
TGGGTTGAAC TTGCTGTTGA TCAAACAGTA GATGTTGTGG TCTGTATGAT ATATAGCCCT 
GGAGAATTTT ACTGCCATGT GCTTAAAGAG GATGCTCTAA AGAAACTCAA TGACTTGAAC 
AAATCACTAG CAGAATATTG CCAGCAGAAG TTGCCTAACG ATTTTAAGGC AGAAATAGGG 
CAACCTTGTT GTGCTTTTTT TGTAGGTGAT GGTAATTGGT ATCGAGCTTT AGTTAAGGAA 
ATCTCACCAC ATGGAAACGT TAAAGTACAG TTTGTGGATT ATGGAAACAT TGAAGAAGTG 
ATTGCCGACG AACTCCAAAT GATCCCATCA AAATTTCTAA AACTTCCATT TCAAGGGCTG 
CACTGCTGGC TAGTAGATAT ACAGCCTAGA AACAAACATT GGACTAAAGA CGCCATAGCA 
AGATTTCAGA CATGTGTCTC AGGGAAAAAA CTCCAAGCCC GAGTGGTTGA AATCTCTGAA 
AATGGAGTGG GAATTGAACT CACCGATCTT TCCAGTTCTT ACCCCAGAAT AATTAGTGAT 
ATTCTGATTG ATGAACATCT GGTTTTAAAA GTCAGTTCAC CATGTAAAGT CTTAGTAAAA 
AACAGACCTG TTAACAAACA CGATCTTCAA ACTGATGCCT CAGGACTTCA AGCCATTTCT 
TCAACTGAGC AGTGGAAGAC AGTAGAATTG CCAGTTAATA AAACTGTACA TGCAAGCGTA 
TTGGAAATCA TAAGCCCAAA CTTGTTTTAT GCTCTTCCAA ATGAAATACC AGAAGATCAG 
GAAAGACTGT GTGCATTGAC GGCTGAGTTG GTAGAATATT GCAATTCTCA GAAAAGTCCA 
TTGGCCTATA GACCGAAAAC TGGAGATGCA TGCTGTGCCA AATACACAGA TGATGATCTC 
TGGTACCGCG CTGTTGTTCT GGGGACCTCA GATGCTGATG TGAGAGTGCT CTATGCAGAC 
TATGGAAACA TTGAAACTCT GCCTCCTTGC AGAGTGCAGC CAATCTCTGC TAACCACCTG 
GAGCCCCCTT TCCAGATTAT TAAATGTTCC CTTGAAGGGA TAATAGAATT GAATGGAAGC 
TGTTCTCAAC TACTGCTAGA ACTACTGAAA AATTTCATGT TGAATCAGAA TGTAATGCTT 
TCTGTAAAAG GAGTGACCAA GAATGTCCAC GCCGTGTCTG TTGAGAAGTG TTCTGAGAAT 
GGTACCGTTA GTATAGCTGA TAAGCTGGTG ACATACGGTC TGGCAAAACA CATCACGTCT 
AAGAAGCAAA GTGCTTCACA GAAAGAAAAG ACAAACAGGA TGAATTGCTG CTGTACAGCA 
TTACAGAAAC AAGTTGAAAA ACATGAACAG ATTCTTCTTT TCCTCCTAAA CAATCCAACC 
AATCAGAATA AATTTATCGA AATGAAAAAA TTGTTAAAAA AAACAGTCTC TGTTGGAGAT 
AAACACTTAT GA

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

RefSeq	XP_013839200.1
CDS	100..3651
Translation	MSRNNLEASACKMTEPFNFEKNDSTLPPHDALRSPGGHPNHPNFRLKSPETGNKKNNFLLCEQTKQYLVSQEDSSVSSNPNGVSGEAAGSRGDRKMLPTGNPVSPLNIGNNSPPKEINSKPSNNVPPAKSKKGDKLVENSLSINNPALFSSLGPPLRSTTCHRCGLFGSLRCSQCKQTYYCSTACQRRDWSAHSIVCKPVQQNFRKLEDNKSPFETKNLEVKNESDYPLGVTKEIAVCAGKIMFSDLRSLQLRKTMEIKGTVTEFKHPSDFYVQLYSSEVSEYMNQLSSSLKETYANKAHEEDYIPVKGEVCVAKYTVDQTWNRVLIQDLDVLQKKAQVLYIDYGNEERIPVNRIHKLSRNIDLFPPCAIKCFVASVIPAEGNWSSDCVRSIKSLLLEQCCSVKIVDILEEEVVTFAVDVMLTSSGKLLDHVLIEMGYGLKPKGQNSKKQSADSGDLDDVGKMTAENKIVVDRSDLIPKVLTLNVGDEFRGVVAHIQTPEDFFCQQLQSGHKLAELQASLSQYCSQVPPRSDFYPAIGDICCAQFSEDAQWYRASVLAYASEDSVLVGYVDYGNFEILSLTRLCPITPKLLELPMQAIKCVLAGVKPSLGIWTPEAICLMKKIVQNKMITVRVADKLENSSLVELTDRSVTPHISVTQVLIDAGFAEGDKGVVPDKPSDLKEASGVPLGLEAKVSRLEWTWVELAVDQTVDVVVCMIYSPGEFYCHVLKEDALKKLNDLNKSLAEYCQQKLPNDFKAEIGQPCCAFFVGDGNWYRALVKEISPHGNVKVQFVDYGNIEEVIADELQMIPSKFLKLPFQGLHCWLVDIQPRNKHWTKDAIARFQTCVSGKKLQARVVEISENGVGIELTDLSSSYPRIISDILIDEHLVLKVSSPCKVLVKNRPVNKHDLQTDASGLQAISSTEQWKTVELPVNKTVHASVLEIISPNLFYALPNEIPEDQERLCALTAELVEYCNSQKSPLAYRPKTGDACCAKYTDDDLWYRAVVLGTSDADVRVLYADYGNIETLPPCRVQPISANHLEPPFQIIKCSLEGIIELNGSCSQLLLELLKNFMLNQNVMLSVKGVTKNVHAVSVEKCSENGTVSIADKLVTYGLAKHITSKKQSASQKEKTNRMNCCCTALQKQVEKHEQILLFLLNNPTNQNKFIEMKKLLKKTVSVGDKHL

Target ORF information:

RefSeq Version	XM_013983746.1
Organism	Sus scrofa(Pig)
Definition	Sus scrofa tudor domain containing 1 (TDRD1), mRNA.

Target ORF information:

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

XM_013983746.1

ORF Insert Sequence:

ATGTCAAGAA ATAACTTGGA GGCATCTGCC TGTAAAATGA CAGAGCCATT TAATTTTGAG 
AAGAATGACA GCACGCTTCC GCCACATGAT GCTTTACGAA GTCCTGGAGG ACATCCTAAC 
CATCCTAATT TCAGGTTGAA AAGCCCAGAG ACTGGAAATA AGAAGAACAA TTTTTTGCTT 
TGTGAGCAAA CCAAACAGTA TTTGGTTAGT CAGGAAGACA GTTCAGTATC TTCCAACCCT 
AATGGCGTCA GTGGAGAAGC GGCTGGATCC AGAGGAGACA GGAAGATGTT GCCAACAGGT 
AATCCTGTGT CACCATTAAA TATTGGAAAT AATTCACCAC CCAAAGAAAT AAATAGTAAG 
CCTAGCAATA ATGTGCCTCC TGCAAAGTCA AAAAAAGGAG ACAAGTTGGT TGAGAATTCC 
TTGTCCATAA ACAACCCAGC GCTCTTCAGC TCCTTGGGAC CTCCTCTTAG GTCGACCACT 
TGCCATCGCT GTGGCCTGTT TGGGTCACTG AGATGCTCAC AGTGCAAACA GACGTACTAC 
TGCTCCACAG CGTGTCAGAG AAGGGACTGG TCGGCCCACA GCATCGTGTG CAAACCTGTT 
CAGCAAAATT TCCGCAAACT TGAAGATAAT AAATCACCTT TTGAAACAAA GAACTTGGAA 
GTGAAAAATG AGAGTGACTA TCCTCTTGGA GTTACTAAAG AAATAGCCGT TTGTGCTGGT 
AAAATAATGT TTTCTGATTT GAGAAGCCTA CAACTCAGGA AAACCATGGA AATAAAGGGT 
ACAGTTACTG AATTCAAACA CCCAAGCGAC TTTTATGTGC AGTTATATTC TTCAGAAGTT 
TCAGAATACA TGAACCAACT CTCTTCGAGC TTAAAGGAAA CATATGCAAA TAAGGCGCAT 
GAAGAGGATT ATATTCCTGT GAAGGGAGAA GTTTGTGTTG CCAAGTACAC TGTGGACCAG 
ACCTGGAACA GAGTACTGAT ACAAGACCTC GATGTGCTGC AGAAGAAGGC CCAAGTCTTG 
TATATTGATT ATGGAAATGA AGAAAGAATT CCAGTAAACA GGATTCACAA GCTGAGCAGA 
AACATTGACT TGTTTCCTCC TTGTGCCATA AAGTGCTTCG TGGCCAGTGT TATCCCAGCA 
GAGGGGAATT GGAGCAGTGA TTGTGTCCGA AGTATCAAGT CGCTGTTGCT GGAGCAGTGC 
TGCTCTGTGA AGATTGTGGA CATCTTAGAA GAGGAGGTGG TTACCTTTGC TGTGGATGTG 
ATGCTGACGA GTTCGGGAAA ACTCTTAGAC CATGTGCTCA TTGAAATGGG ATATGGTTTG 
AAACCCAAGG GACAAAATTC TAAGAAGCAA AGCGCAGATT CAGGTGATCT TGACGATGTT 
GGAAAAATGA CAGCTGAAAA CAAAATTGTG GTAGACAGAA GTGATCTCAT CCCCAAAGTG 
CTGACTTTGA ATGTAGGTGA TGAGTTTCGT GGCGTGGTCG CCCACATTCA GACTCCAGAG 
GACTTCTTTT GTCAACAGCT GCAAAGTGGG CATAAGCTTG CTGAACTTCA GGCGTCCCTT 
AGCCAGTATT GCAGCCAGGT GCCGCCACGC TCGGATTTTT ACCCAGCCAT TGGTGATATC 
TGCTGCGCTC AGTTCTCCGA GGATGCCCAG TGGTACCGGG CCTCCGTTTT GGCCTATGCG 
TCTGAGGACT CTGTGTTGGT TGGCTATGTA GACTATGGAA ACTTTGAAAT CCTTAGTTTG 
ACGAGACTTT GTCCCATAAC TCCAAAGCTG TTGGAGTTAC CGATGCAAGC TATCAAGTGT 
GTGCTGGCAG GAGTAAAGCC ATCATTAGGA ATTTGGACTC CAGAAGCTAT TTGTCTGATG 
AAAAAAATTG TGCAGAACAA AATGATCACT GTGAGAGTGG CGGACAAATT GGAAAACAGT 
TCCCTGGTGG AGCTTACAGA TAGATCTGTG ACGCCCCACA TCAGTGTCAC CCAAGTGCTC 
ATCGATGCAG GCTTTGCCGA GGGGGACAAG GGGGTCGTGC CAGATAAGCC CAGTGACTTG 
AAAGAAGCCA GTGGTGTTCC CTTGGGTTTA GAAGCAAAAG TCAGTCGATT GGAGTGGACA 
TGGGTTGAAC TTGCTGTTGA TCAAACAGTA GATGTTGTGG TCTGTATGAT ATATAGCCCT 
GGAGAATTTT ACTGCCATGT GCTTAAAGAG GATGCTCTAA AGAAACTCAA TGACTTGAAC 
AAATCACTAG CAGAATATTG CCAGCAGAAG TTGCCTAACG ATTTTAAGGC AGAAATAGGG 
CAACCTTGTT GTGCTTTTTT TGTAGGTGAT GGTAATTGGT ATCGAGCTTT AGTTAAGGAA 
ATCTCACCAC ATGGAAACGT TAAAGTACAG TTTGTGGATT ATGGAAACAT TGAAGAAGTG 
ATTGCCGACG AACTCCAAAT GATCCCATCA AAATTTCTAA AACTTCCATT TCAAGGGCTG 
CACTGCTGGC TAGTAGATAT ACAGCCTAGA AACAAACATT GGACTAAAGA CGCCATAGCA 
AGATTTCAGA CATGTGTCTC AGGGAAAAAA CTCCAAGCCC GAGTGGTTGA AATCTCTGAA 
AATGGAGTGG GAATTGAACT CACCGATCTT TCCAGTTCTT ACCCCAGAAT AATTAGTGAT 
ATTCTGATTG ATGAACATCT GGTTTTAAAA GTCAGTTCAC CATGTAAAGT CTTAGTAAAA 
AACAGACCTG TTAACAAACA CGATCTTCAA ACTGATGCCT CAGGACTTCA AGCCATTTCT 
TCAACTGAGC AGTGGAAGAC AGTAGAATTG CCAGTTAATA AAACTGTACA TGCAAGCGTA 
TTGGAAATCA TAAGCCCAAA CTTGTTTTAT GCTCTTCCAA ATGAAATACC AGAAGATCAG 
GAAAGACTGT GTGCATTGAC GGCTGAGTTG GTAGAATATT GCAATTCTCA GAAAAGTCCA 
TTGGCCTATA GACCGAAAAC TGGAGATGCA TGCTGTGCCA AATACACAGA TGATGATCTC 
TGGTACCGCG CTGTTGTTCT GGGGACCTCA GATGCTGATG TGAGAGTGCT CTATGCAGAC 
TATGGAAACA TTGAAACTCT GCCTCCTTGC AGAGTGCAGC CAATCTCTGC TAACCACCTG 
GAGCCCCCTT TCCAGATTAT TAAATGTTCC CTTGAAGGGA TAATAGAATT GAATGGAAGC 
TGTTCTCAAC TACTGCTAGA ACTACTGAAA AATTTCATGT TGAATCAGAA TGTAATGCTT 
TCTGTAAAAG GAGTGACCAA GAATGTCCAC GCCGTGTCTG TTGAGAAGTG TTCTGAGAAT 
GGTACCGTTA GTATAGCTGA TAAGCTGGTG ACATACGGTC TGGCAAAACA CATCACGTCT 
AAGAAGCAAA GTGCTTCACA GAAAGAAAAG ACAAACAGGA TGAATTGCTG CTGTACAGCA 
TTACAGAAAC AAGTTGAAAA ACATGAACAG ATTCTTCTTT TCCTCCTAAA CAATCCAACC 
AATCAGAATA AATTTATCGA AATGAAAAAA TTGTTAAAAA AAACAGTCTC TGTTGGAGAT 
AAACACTTAT GA

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

TDRD1 ( XM_021073713.1 ) cDNA ORF clone, Sus scrofa(pig) -> XP_020929372.1 Sus scrofa tudor domain containing 1 (TDRD1), mRNA.

Price & Availability↑

CloneID	OSe238444
Clone ID Related Accession (Same CDS sequence)	XM_021073713.1
Accession Version	XM_021073713.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3852bp) 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	LOW QUALITY PROTEIN: tudor domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_010456.5) 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 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## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGTGGAGTA CACATGCAGA CAAGATTGAC CGAAAATTTA TACTGTTGAA ACTGGGAGAT 
GGGTATATAA GGCTTTGCAA TCAGCTCTGG AGCACAGAGT TGCGCCATTG GCGCCAGAGC 
AGGGCTTCCT GCGCACGCGG CAGGTGCACG TGGGCGCTGA CTGCGCAGGC GCTACGCTGG 
CGCGGGAGGA CGGGCTGGGC TCTTGGGAGC GAGGTGAGCA CAGGGTGCTC ATCTGGGCGG 
CAGGGCTTCC ACGCAAAGGC AGAAGTCACC CAGGCCAGGC TTCAGAGACA GACATCTGTG 
AATGTTGCAT TGCCGCTTAA TAGGATGTCA AGAAATAACT TGGAGGCATC TGCCTGTAAA 
ATGACAGAGC CATTTAATTT TGAGAAGAAT GACAGCACGC TTCCGCCACA TGATGCTTTA 
CGAAGTCCTG GAGGACATCC TAACCATCCT AATTTCAGGT TGAAAAGCCC AGAGACTGGA 
AATAAGAAGA ACAATTTTTT GCTTTGTGAG CAAACCAAAC AGTATTTGGT TAGTCAGGAA 
GACAGTTCAG TATCTTCCAA CCCTAATGGC GTCAGTGGAG AAGCGGCTGG ATCCAGAGGA 
GACAGGAAGA TGTTGCCAAC AGGTAATCCT GTGTCACCAT TAAATATTGG AAATAATTCA 
CCACCCAAAG AAATAAATAG TAAGCCTAGC AATAATGTGC CTCCTGCAAA GTCAAAAAAA 
GGAGACAAGT TGGTTGAGAA TTCCTTGTCC ATAAACAACC CAGCGCTCTT CAGCTCCTTG 
GGACCTCCTC TTAGGTCGAC CACTTGCCAT CGCTGTGGCC TGTTTGGGTC ACTGAGATGC 
TCACAGTGCA AACAGACGTA CTACTGCTCC ACAGCGTGTC AGAGAAGGGA CTGGTCGGCC 
CACAGCATCG TGTGCAAACC TGTTCAGCAA AATTTCCGCA AACTTGAAGA TAATAAATCA 
CCTTTTGAAA CAAAGAACTT GGAAGTGAAA AATGAGAGTG ACTATCCTCT TGGAGTTACT 
AAAGAAATAG CCGTTTGTGC TGGTAAAATA ATGTTTTCTG ATTTGAGAAG CCTACAACTC 
AGGAAAACCA TGGAAATAAA GGGTACAGTT ACTGAATTCA AACACCCAAG CGACTTTTAT 
GTGCAGTTAT ATTCTTCAGA AGTTTCAGAA TACATGAACC AACTCTCTTC GAGCTTAAAG 
GAAACATATG CAAATAAGGC GCATGAAGAG GATTATATTC CTGTGAAGGG AGAAGTTTGT 
GTTGCCAAGT ACACTGTGGA CCAGACCTGG AACAGAGTAC TGATACAAGA CCTCGATGTG 
CTGCAGAAGA AGGCCCAAGT CTTGTATATT GATTATGGAA ATGAAGAAAG AATTCCAGTA 
AACAGGATTC ACAAGCTGAG CAGAAACATT GACTTGTTTC CTCCTTGTGC CATAAAGTGC 
TTCGTGGCCA GTGTTATCCC AGCAGAGGGG AATTGGAGCA GTGATTGTGT CCGAAGTATC 
AAGTCGCTGT TGCTGGAGCA GTGCTGCTCT GTGAAGATTG TGGACATCTT AGAAGAGGAG 
GTGGTTACCT TTGCTGTGGA TGTGATGCTG ACGAGTTCGG GAAAACTCTT AGACCATGTG 
CTCATTGAAA TGGGATATGG TTTGAAACCC AAGGGACAAA ATTCTAAGAA GCAAAGCGCA 
GATTCAGGTG ATCTTGACGA TGTTGGAAAA ATGACAGCTG AAAACAAAAT TGTGGTAGAC 
AGAAGTGATC TCATCCCCAA AGTGCTGACT TTGAATGTAG GTGATGAGTT TCGTGGCGTG 
GTCGCCCACA TTCAGACTCC AGAAGACTTC TTTTGTCAAC AGCTGCAAAG TGGGCATAAG 
CTTGCTGAAC TTCAGGCGTC CCTTAGCCAG TATTGCAGCC AGGTGCCGCC ACGCTCGGAT 
TTTTACCCAG CCATTGGTGA TATCTGCTGC GCTCAGTTCT CCGAGGATGC CCAGTGGTAC 
CGGGCCTCCG TTTTGGCCTA TGCGTCTGAG GACTCTGTGT TGGTTGGCTA TGTAGACTAT 
GGAAACTTTG AAATCCTTAG TTTGACGAGA CTTTGTCCCA TAACTCCAAA GCTGTTGGAG 
TTACCGATGC AAGCTATCAA GTGTGTGCTG GCAGGAGTAA AGCCATCATT AGGAATTTGG 
ACTCCAGAAG CTATTTGTCT GATGAAAAAA ATTGTGCAGA ACAAAATGAT CACTGTGAGA 
GTGGCGGACA AATTGGAAAA CAGTTCCCTG GTGGAGCTTA CAGATAGATC TGTGACGCCC 
CACATCAGTG TCACCCAAGT GCTCATCGAT GCAGGCTTTG CCGAGGGGGA CAAAGGGGTC 
GTGCCAGATA AGCCCAGTGA CTTGAAAGAA GCCAGTGGTG TTCCCTTGGG TTTAGAAGCA 
AAAGTCAGTC GATTGGAGTG GACATGGGTT GAACTTGCTG TTGATCAAAC AGTAGATGTT 
GTGGTCTGTA TGATATATAG CCCTGGAGAA TTTTACTGCC ATGTGCTTAA AGAGGATGCT 
CTAAAGAAAC TCAATGACTT GAACAAATCA CTAGCAGAAT ATTGCCAGCA GAAGTTGCCT 
AACGATTTTA AGGCAGAAAT AGGGCAACCT TGTTGTGCTT TTTTTGTAGG TGATGGTAAT 
TGGTATCGAG CTTTAGTTAA GGAAATCTCA CCACATGGAA ACGTTAAAGT ACAGTTTGTG 
GATTATGGAA ACATTGAAGA AGTGATTGCC GACGAACTCC AAATGATCCC ATCAAAATTT 
CTAAAACTTC CATTTCAAGG GCTGCACTGC TGGCTAGTAG ATATACAGCC TAGAAACAAA 
CATTGGACTA AAGACGCCAT AGCAAGATTT CAGACATGTG TCTCAGGGAA AAAACTCCAA 
GCCCGAGTGG TTGAAATCTC TGAAAATGGA GTGGGAATTG AACTCACCGA TCTTTCCAGT 
TCTTACCCCA GAATAATTAG TGATATTCTG ATTGATGAAC ATCTGGTTTT AAAAGTCAGT 
TCACCATGTA AAGTCTTAGT AAAAAACAGA CCTGTTAACA AACACGATCT TCAAACTGAT 
GCCTCAGGAC TTCAAGCCAT TTCTTCAACT GAGCAGTGGN AGACAGTAGA ATTGCCAGTT 
AATAAAACTG TACATGCAAG CGTATTGGAA ATCATAAGCC CAAACTTGTT TTATGCTCTC 
CAAATGAAAT ACCAGGTAAG AAACCAAGCC AAACTGTGTG CATTGACGGC TGAGTTGGTA 
GAATATTGCA ATTCTCAGAA AAGTCCATTG GCCTATAGAC CGAAAACTGG AGATGCATGC 
TGTGCCAAAT ACACAGATGA TGATCTCTGG TACCGCGCTG TTGTTCTGGG GACCTCAGAT 
GCTGATGTGA GAGTGCTCTA TGCAGACTAT GGAAACATTG AAACTCTGCC TCCTTGCAGA 
GTGCAGCCAA TCTCTGCTAA CCACCTGGAG CCCCCTTTCC AGATTATTAA ATGTTCCCTT 
GAAGGGATAA TAGAATTGAA TGGAAGCTGT TCTCAACTAC TGCTAGAACT ACTGAAAAAT 
TTCATGTTGA ATCAGAATGT AATGCTTTCT GTAAAAGGAG TGACCAAGAA TGTCCACGCC 
GTGTCTGTTG AGAAGTGTTC TGAGAATGGT ACCGTTAGTA TAGCTGATAA GCTGGTGACA 
TACGGTCTGG CAAAACACAT CACGTCTAAG AAGCAAAGTG CTTCACAGAA AGAAAAGACA 
AACAGGATGA ATTGCTGCTG TACAGCATTA CAGAAACAAG TTGAAAAACA TGAACAGATT 
CTTCTTTTCC TCCTAAACAA TCCAACCAAT CAGAATAAAT TTATCGAAAT GAAAAAATTG 
TTAAAAAGTT AA

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

RefSeq	XP_020929372.1
CDS	1..3852
Translation	MWSTHADKIDRKFILLKLGDGYIRLCNQLWSTELRHWRQSRASCARGRCTWALTAQALRWRGRTGWALGSEVSTGCSSGRQGFHAKAEVTQARLQRQTSVNVALPLNRMSRNNLEASACKMTEPFNFEKNDSTLPPHDALRSPGGHPNHPNFRLKSPETGNKKNNFLLCEQTKQYLVSQEDSSVSSNPNGVSGEAAGSRGDRKMLPTGNPVSPLNIGNNSPPKEINSKPSNNVPPAKSKKGDKLVENSLSINNPALFSSLGPPLRSTTCHRCGLFGSLRCSQCKQTYYCSTACQRRDWSAHSIVCKPVQQNFRKLEDNKSPFETKNLEVKNESDYPLGVTKEIAVCAGKIMFSDLRSLQLRKTMEIKGTVTEFKHPSDFYVQLYSSEVSEYMNQLSSSLKETYANKAHEEDYIPVKGEVCVAKYTVDQTWNRVLIQDLDVLQKKAQVLYIDYGNEERIPVNRIHKLSRNIDLFPPCAIKCFVASVIPAEGNWSSDCVRSIKSLLLEQCCSVKIVDILEEEVVTFAVDVMLTSSGKLLDHVLIEMGYGLKPKGQNSKKQSADSGDLDDVGKMTAENKIVVDRSDLIPKVLTLNVGDEFRGVVAHIQTPEDFFCQQLQSGHKLAELQASLSQYCSQVPPRSDFYPAIGDICCAQFSEDAQWYRASVLAYASEDSVLVGYVDYGNFEILSLTRLCPITPKLLELPMQAIKCVLAGVKPSLGIWTPEAICLMKKIVQNKMITVRVADKLENSSLVELTDRSVTPHISVTQVLIDAGFAEGDKGVVPDKPSDLKEASGVPLGLEAKVSRLEWTWVELAVDQTVDVVVCMIYSPGEFYCHVLKEDALKKLNDLNKSLAEYCQQKLPNDFKAEIGQPCCAFFVGDGNWYRALVKEISPHGNVKVQFVDYGNIEEVIADELQMIPSKFLKLPFQGLHCWLVDIQPRNKHWTKDAIARFQTCVSGKKLQARVVEISENGVGIELTDLSSSYPRIISDILIDEHLVLKVSSPCKVLVKNRPVNKHDLQTDASGLQAISSTEQWnullTVELPVNKTVHASVLEIISPNLFYALQMKYQVRNQAKLCALTAELVEYCNSQKSPLAYRPKTGDACCAKYTDDDLWYRAVVLGTSDADVRVLYADYGNIETLPPCRVQPISANHLEPPFQIIKCSLEGIIELNGSCSQLLLELLKNFMLNQNVMLSVKGVTKNVHAVSVEKCSENGTVSIADKLVTYGLAKHITSKKQSASQKEKTNRMNCCCTALQKQVEKHEQILLFLLNNPTNQNKFIEMKKLLKS

Target ORF information:

RefSeq Version	XM_021073713.1
Organism	Sus scrofa(pig)
Definition	Sus scrofa tudor domain containing 1 (TDRD1), mRNA.

Target ORF information:

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

XM_021073713.1

ORF Insert Sequence:

ATGTGGAGTA CACATGCAGA CAAGATTGAC CGAAAATTTA TACTGTTGAA ACTGGGAGAT 
GGGTATATAA GGCTTTGCAA TCAGCTCTGG AGCACAGAGT TGCGCCATTG GCGCCAGAGC 
AGGGCTTCCT GCGCACGCGG CAGGTGCACG TGGGCGCTGA CTGCGCAGGC GCTACGCTGG 
CGCGGGAGGA CGGGCTGGGC TCTTGGGAGC GAGGTGAGCA CAGGGTGCTC ATCTGGGCGG 
CAGGGCTTCC ACGCAAAGGC AGAAGTCACC CAGGCCAGGC TTCAGAGACA GACATCTGTG 
AATGTTGCAT TGCCGCTTAA TAGGATGTCA AGAAATAACT TGGAGGCATC TGCCTGTAAA 
ATGACAGAGC CATTTAATTT TGAGAAGAAT GACAGCACGC TTCCGCCACA TGATGCTTTA 
CGAAGTCCTG GAGGACATCC TAACCATCCT AATTTCAGGT TGAAAAGCCC AGAGACTGGA 
AATAAGAAGA ACAATTTTTT GCTTTGTGAG CAAACCAAAC AGTATTTGGT TAGTCAGGAA 
GACAGTTCAG TATCTTCCAA CCCTAATGGC GTCAGTGGAG AAGCGGCTGG ATCCAGAGGA 
GACAGGAAGA TGTTGCCAAC AGGTAATCCT GTGTCACCAT TAAATATTGG AAATAATTCA 
CCACCCAAAG AAATAAATAG TAAGCCTAGC AATAATGTGC CTCCTGCAAA GTCAAAAAAA 
GGAGACAAGT TGGTTGAGAA TTCCTTGTCC ATAAACAACC CAGCGCTCTT CAGCTCCTTG 
GGACCTCCTC TTAGGTCGAC CACTTGCCAT CGCTGTGGCC TGTTTGGGTC ACTGAGATGC 
TCACAGTGCA AACAGACGTA CTACTGCTCC ACAGCGTGTC AGAGAAGGGA CTGGTCGGCC 
CACAGCATCG TGTGCAAACC TGTTCAGCAA AATTTCCGCA AACTTGAAGA TAATAAATCA 
CCTTTTGAAA CAAAGAACTT GGAAGTGAAA AATGAGAGTG ACTATCCTCT TGGAGTTACT 
AAAGAAATAG CCGTTTGTGC TGGTAAAATA ATGTTTTCTG ATTTGAGAAG CCTACAACTC 
AGGAAAACCA TGGAAATAAA GGGTACAGTT ACTGAATTCA AACACCCAAG CGACTTTTAT 
GTGCAGTTAT ATTCTTCAGA AGTTTCAGAA TACATGAACC AACTCTCTTC GAGCTTAAAG 
GAAACATATG CAAATAAGGC GCATGAAGAG GATTATATTC CTGTGAAGGG AGAAGTTTGT 
GTTGCCAAGT ACACTGTGGA CCAGACCTGG AACAGAGTAC TGATACAAGA CCTCGATGTG 
CTGCAGAAGA AGGCCCAAGT CTTGTATATT GATTATGGAA ATGAAGAAAG AATTCCAGTA 
AACAGGATTC ACAAGCTGAG CAGAAACATT GACTTGTTTC CTCCTTGTGC CATAAAGTGC 
TTCGTGGCCA GTGTTATCCC AGCAGAGGGG AATTGGAGCA GTGATTGTGT CCGAAGTATC 
AAGTCGCTGT TGCTGGAGCA GTGCTGCTCT GTGAAGATTG TGGACATCTT AGAAGAGGAG 
GTGGTTACCT TTGCTGTGGA TGTGATGCTG ACGAGTTCGG GAAAACTCTT AGACCATGTG 
CTCATTGAAA TGGGATATGG TTTGAAACCC AAGGGACAAA ATTCTAAGAA GCAAAGCGCA 
GATTCAGGTG ATCTTGACGA TGTTGGAAAA ATGACAGCTG AAAACAAAAT TGTGGTAGAC 
AGAAGTGATC TCATCCCCAA AGTGCTGACT TTGAATGTAG GTGATGAGTT TCGTGGCGTG 
GTCGCCCACA TTCAGACTCC AGAAGACTTC TTTTGTCAAC AGCTGCAAAG TGGGCATAAG 
CTTGCTGAAC TTCAGGCGTC CCTTAGCCAG TATTGCAGCC AGGTGCCGCC ACGCTCGGAT 
TTTTACCCAG CCATTGGTGA TATCTGCTGC GCTCAGTTCT CCGAGGATGC CCAGTGGTAC 
CGGGCCTCCG TTTTGGCCTA TGCGTCTGAG GACTCTGTGT TGGTTGGCTA TGTAGACTAT 
GGAAACTTTG AAATCCTTAG TTTGACGAGA CTTTGTCCCA TAACTCCAAA GCTGTTGGAG 
TTACCGATGC AAGCTATCAA GTGTGTGCTG GCAGGAGTAA AGCCATCATT AGGAATTTGG 
ACTCCAGAAG CTATTTGTCT GATGAAAAAA ATTGTGCAGA ACAAAATGAT CACTGTGAGA 
GTGGCGGACA AATTGGAAAA CAGTTCCCTG GTGGAGCTTA CAGATAGATC TGTGACGCCC 
CACATCAGTG TCACCCAAGT GCTCATCGAT GCAGGCTTTG CCGAGGGGGA CAAAGGGGTC 
GTGCCAGATA AGCCCAGTGA CTTGAAAGAA GCCAGTGGTG TTCCCTTGGG TTTAGAAGCA 
AAAGTCAGTC GATTGGAGTG GACATGGGTT GAACTTGCTG TTGATCAAAC AGTAGATGTT 
GTGGTCTGTA TGATATATAG CCCTGGAGAA TTTTACTGCC ATGTGCTTAA AGAGGATGCT 
CTAAAGAAAC TCAATGACTT GAACAAATCA CTAGCAGAAT ATTGCCAGCA GAAGTTGCCT 
AACGATTTTA AGGCAGAAAT AGGGCAACCT TGTTGTGCTT TTTTTGTAGG TGATGGTAAT 
TGGTATCGAG CTTTAGTTAA GGAAATCTCA CCACATGGAA ACGTTAAAGT ACAGTTTGTG 
GATTATGGAA ACATTGAAGA AGTGATTGCC GACGAACTCC AAATGATCCC ATCAAAATTT 
CTAAAACTTC CATTTCAAGG GCTGCACTGC TGGCTAGTAG ATATACAGCC TAGAAACAAA 
CATTGGACTA AAGACGCCAT AGCAAGATTT CAGACATGTG TCTCAGGGAA AAAACTCCAA 
GCCCGAGTGG TTGAAATCTC TGAAAATGGA GTGGGAATTG AACTCACCGA TCTTTCCAGT 
TCTTACCCCA GAATAATTAG TGATATTCTG ATTGATGAAC ATCTGGTTTT AAAAGTCAGT 
TCACCATGTA AAGTCTTAGT AAAAAACAGA CCTGTTAACA AACACGATCT TCAAACTGAT 
GCCTCAGGAC TTCAAGCCAT TTCTTCAACT GAGCAGTGGN AGACAGTAGA ATTGCCAGTT 
AATAAAACTG TACATGCAAG CGTATTGGAA ATCATAAGCC CAAACTTGTT TTATGCTCTC 
CAAATGAAAT ACCAGGTAAG AAACCAAGCC AAACTGTGTG CATTGACGGC TGAGTTGGTA 
GAATATTGCA ATTCTCAGAA AAGTCCATTG GCCTATAGAC CGAAAACTGG AGATGCATGC 
TGTGCCAAAT ACACAGATGA TGATCTCTGG TACCGCGCTG TTGTTCTGGG GACCTCAGAT 
GCTGATGTGA GAGTGCTCTA TGCAGACTAT GGAAACATTG AAACTCTGCC TCCTTGCAGA 
GTGCAGCCAA TCTCTGCTAA CCACCTGGAG CCCCCTTTCC AGATTATTAA ATGTTCCCTT 
GAAGGGATAA TAGAATTGAA TGGAAGCTGT TCTCAACTAC TGCTAGAACT ACTGAAAAAT 
TTCATGTTGA ATCAGAATGT AATGCTTTCT GTAAAAGGAG TGACCAAGAA TGTCCACGCC 
GTGTCTGTTG AGAAGTGTTC TGAGAATGGT ACCGTTAGTA TAGCTGATAA GCTGGTGACA 
TACGGTCTGG CAAAACACAT CACGTCTAAG AAGCAAAGTG CTTCACAGAA AGAAAAGACA 
AACAGGATGA ATTGCTGCTG TACAGCATTA CAGAAACAAG TTGAAAAACA TGAACAGATT 
CTTCTTTTCC TCCTAAACAA TCCAACCAAT CAGAATAAAT TTATCGAAAT GAAAAAATTG 
TTAAAAAGTT AA

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

PubMed

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission

TDRD1 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:

Most Popular Services

Services & Products

News & Blogs

REQUEST A QUOTE

EMAIL

PHONE

ONLINE FORM

ONLINE FORM