GTF2IRD1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	GTF2IRD1
Entrez Gene ID	100473117
Full Name	GTF2I repeat domain containing 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019800545.1	XP_019656104.1	general transcription factor II-I repeat domain-containing protein 1 isoform X3
XM_011226030.2	XP_011224332.1	general transcription factor II-I repeat domain-containing protein 1 isoform X1
XM_019800546.1	XP_019656105.1	general transcription factor II-I repeat domain-containing protein 1 isoform X4
XM_019800544.1	XP_019656103.1	general transcription factor II-I repeat domain-containing protein 1 isoform X2

Pathways from BioSystems
Gene Ontology

The following GTF2IRD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the GTF2IRD1 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)
OAc07535	XM_019800544.1 Latest version!	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc24899	XM_011226030.2 Latest version!	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc24901	XM_019800545.1 Latest version!	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc93413	XM_019800546.1 Latest version!	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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)

GTF2IRD1 ( XM_019800544.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019656103.1 Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc07535
Clone ID Related Accession (Same CDS sequence)	XM_019800544.1
Accession Version	XM_019800544.1 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	general transcription factor II-I repeat domain-containing protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217678.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGGT 
GAGGCCCTGG GCCTCAACCG GCCTGTGCTG GTCCCTTACA AACTGATCCG GGACAGCCCG 
GACGCCGTGG AGGTCACGGG CCTGCCCGAC GACATCCCTT TCCGGAACCC CAACACATAT 
GACATCCACC GGCTGGAGAA AATCCTGAAG GCCCGAGAGC ATGTACGCAT GGTCATCATC 
AACCAGCTCC AACCCTTTGC AGAAATCTGC AATGACGCCA AGGTGCCAGC CAAAGACAGC 
AGCATTCCCA AGCGCAAGAG AAAGCGGGTC TCTGAAGGGA ACTCCTTCTC CTCCTCCTCG 
TCTTCCTCCT CCTCGTCCTC TAACCCGGAG TCCGTGGCGT CCACCAACCA GATCTCACTC 
GTGCAATGGC CAATGTACAT GGTGGACTAT GCCGGCCTGA ACGTGCAGCT CCCGGGACCT 
CTGAATTACT AG

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

RefSeq	XP_019656103.1
CDS	12..2843
Translation	MALLGKRCDIPANGCGPDRWSSAFTRKDEIITSLVSALDSMCSALSKLNAEVACVAVHDESAFVVGTEKGRMFLNARKELQSDFLRFCRGAPWKEPEAEHPKKVSRGEGGGRNVPRSSLEHGSDVYLLRKMVEEVFDVLYSEALGRASVVPLPYERLLREPGLLAVQGLPEGLAFRRPADYDPKALMAILEHSHRIRFKLKRPLEDGGRDSKALVELNGVSLIAKGSRDCGLHGQAPKGPPQDLPPTATSSSVASFLYSTALPNHTTRELKQEAPACPLAPSDLGLGRPGPEPKASGAQDFPDCCGQKPPGPGGPLIQNVHASKRILFSIVHDKSEKWDAFIKETEDINTLRECVQILFNSRYAEALGLDHMVPVPYRKIACDPEAVEIVGIPDKIPFKRPCTYGVPKLKRILEERHSIHFIIKRMFDERIFTGNKFTKDPTKLEPASPPEDTSAEISRAAVLDLPGTARSDKNGVSEDCSPGTSGELSGLRPIKMEPEDLDIIQVTVPDPSPTSEEMTDSMPGHLPSEDSGYGMEMLTEKGPSEDPRPEERPVEDSHGDVIRPLRKQVELLFNTRYAKAIGISEPVKVPYSKFLMYPEELFVVGLPEGISLRRPNCFGIAKLRKILEASNSIQFVIKRPELLTEGVKEPITDSQERDSGDPLVDESLKRQGFQENYDARLSRIDIANTLREQVQDLFNKKYGEALGIKYPVQVPYKRIKSNPGSVIIEGLPPGIPFRKPCTFGSQNLERILAVADKIKFTVTRPFQGLIPKPDEDDANRLGEKVILREQVKELFNEKYGEALGLNRPVLVPYKLIRDSPDAVEVTGLPDDIPFRNPNTYDIHRLEKILKAREHVRMVIINQLQPFAEICNDAKVPAKDSSIPKRKRKRVSEGNSFSSSSSSSSSSSNPESVASTNQISLVQWPMYMVDYAGLNVQLPGPLNY

Target ORF information:

RefSeq Version	XM_019800544.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X2, mRNA.

Target ORF information:

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

XM_019800544.1

ORF Insert Sequence:

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGGT 
GAGGCCCTGG GCCTCAACCG GCCTGTGCTG GTCCCTTACA AACTGATCCG GGACAGCCCG 
GACGCCGTGG AGGTCACGGG CCTGCCCGAC GACATCCCTT TCCGGAACCC CAACACATAT 
GACATCCACC GGCTGGAGAA AATCCTGAAG GCCCGAGAGC ATGTACGCAT GGTCATCATC 
AACCAGCTCC AACCCTTTGC AGAAATCTGC AATGACGCCA AGGTGCCAGC CAAAGACAGC 
AGCATTCCCA AGCGCAAGAG AAAGCGGGTC TCTGAAGGGA ACTCCTTCTC CTCCTCCTCG 
TCTTCCTCCT CCTCGTCCTC TAACCCGGAG TCCGTGGCGT CCACCAACCA GATCTCACTC 
GTGCAATGGC CAATGTACAT GGTGGACTAT GCCGGCCTGA ACGTGCAGCT CCCGGGACCT 
CTGAATTACT AG

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

GTF2IRD1 ( XM_011226030.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011224332.1 Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc24899
Clone ID Related Accession (Same CDS sequence)	XM_011226030.2
Accession Version	XM_011226030.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2880bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	general transcription factor II-I repeat domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217678.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011226030.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGGT 
GAGGCCCTGG GCCTCAACCG GCCTGTGCTG GTCCCTTACA AACTGATCCG GGACAGCCCG 
GACGCCGTGG AGGTCACGGG CCTGCCCGAC GACATCCCTT TCCGGAACCC CAACACATAT 
GACATCCACC GGCTGGAGAA AATCCTGAAG GCCCGAGAGC ATGTACGCAT GGTCATCATC 
AACCAGCTCC AACCCTTTGC AGAAATCTGC AATGACGCCA AGGTGCCAGC CAAAGACAGC 
AGCATTCCCA AGCGCAAGAG AAAGCGGGTC TCTGAAGGGA ACTCCTTCTC CTCCTCCTCG 
TCTTCCTCCT CCTCGTCCTC TAACCCGGAG TCCGTGGCGT CCACCAACCA GATCTCACTC 
GTGGTAAAGT TGCACAGATC CGGACCTGAC CACTCGGCTC TCTGGCCTTC ACCCCGCACG 
CGGGCAGGGC CGTCTACTCT GGGGCGTGGG TTGGGGGTGC AGGGAGGCAC TGGGCTCTGA

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

RefSeq	XP_011224332.1
CDS	12..2891
Translation	MALLGKRCDIPANGCGPDRWSSAFTRKDEIITSLVSALDSMCSALSKLNAEVACVAVHDESAFVVGTEKGRMFLNARKELQSDFLRFCRGAPWKEPEAEHPKKVSRGEGGGRNVPRSSLEHGSDVYLLRKMVEEVFDVLYSEALGRASVVPLPYERLLREPGLLAVQGLPEGLAFRRPADYDPKALMAILEHSHRIRFKLKRPLEDGGRDSKALVELNGVSLIAKGSRDCGLHGQAPKGPPQDLPPTATSSSVASFLYSTALPNHTTRELKQEAPACPLAPSDLGLGRPGPEPKASGAQDFPDCCGQKPPGPGGPLIQNVHASKRILFSIVHDKSEKWDAFIKETEDINTLRECVQILFNSRYAEALGLDHMVPVPYRKIACDPEAVEIVGIPDKIPFKRPCTYGVPKLKRILEERHSIHFIIKRMFDERIFTGNKFTKDPTKLEPASPPEDTSAEISRAAVLDLPGTARSDKNGVSEDCSPGTSGELSGLRPIKMEPEDLDIIQVTVPDPSPTSEEMTDSMPGHLPSEDSGYGMEMLTEKGPSEDPRPEERPVEDSHGDVIRPLRKQVELLFNTRYAKAIGISEPVKVPYSKFLMYPEELFVVGLPEGISLRRPNCFGIAKLRKILEASNSIQFVIKRPELLTEGVKEPITDSQERDSGDPLVDESLKRQGFQENYDARLSRIDIANTLREQVQDLFNKKYGEALGIKYPVQVPYKRIKSNPGSVIIEGLPPGIPFRKPCTFGSQNLERILAVADKIKFTVTRPFQGLIPKPDEDDANRLGEKVILREQVKELFNEKYGEALGLNRPVLVPYKLIRDSPDAVEVTGLPDDIPFRNPNTYDIHRLEKILKAREHVRMVIINQLQPFAEICNDAKVPAKDSSIPKRKRKRVSEGNSFSSSSSSSSSSSNPESVASTNQISLVVKLHRSGPDHSALWPSPRTRAGPSTLGRGLGVQGGTGL

Target ORF information:

RefSeq Version	XM_011226030.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X1, mRNA.

Target ORF information:

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

XM_011226030.2

ORF Insert Sequence:

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGGT 
GAGGCCCTGG GCCTCAACCG GCCTGTGCTG GTCCCTTACA AACTGATCCG GGACAGCCCG 
GACGCCGTGG AGGTCACGGG CCTGCCCGAC GACATCCCTT TCCGGAACCC CAACACATAT 
GACATCCACC GGCTGGAGAA AATCCTGAAG GCCCGAGAGC ATGTACGCAT GGTCATCATC 
AACCAGCTCC AACCCTTTGC AGAAATCTGC AATGACGCCA AGGTGCCAGC CAAAGACAGC 
AGCATTCCCA AGCGCAAGAG AAAGCGGGTC TCTGAAGGGA ACTCCTTCTC CTCCTCCTCG 
TCTTCCTCCT CCTCGTCCTC TAACCCGGAG TCCGTGGCGT CCACCAACCA GATCTCACTC 
GTGGTAAAGT TGCACAGATC CGGACCTGAC CACTCGGCTC TCTGGCCTTC ACCCCGCACG 
CGGGCAGGGC CGTCTACTCT GGGGCGTGGG TTGGGGGTGC AGGGAGGCAC TGGGCTCTGA

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

GTF2IRD1 ( XM_019800545.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019656104.1 Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc24901
Clone ID Related Accession (Same CDS sequence)	XM_019800545.1
Accession Version	XM_019800545.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2775bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	general transcription factor II-I repeat domain-containing protein 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217678.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAAAA TTATGACGCT 
CGACTGTCAC GCATCGACAT CGCCAACACG CTGAGGGAGC AAGTCCAGGA TCTGTTCAAT 
AAGAAATACG GAGAAGCCCT GGGCATCAAG TACCCCGTCC AGGTCCCCTA CAAGCGGATC 
AAGAGCAACC CCGGCTCGGT GATCATTGAG GGGCTCCCCC CGGGAATCCC GTTCCGAAAG 
CCCTGCACCT TTGGCTCTCA GAACCTGGAG AGGATCCTTG CCGTGGCTGA CAAGATCAAG 
TTCACGGTCA CCAGGCCTTT TCAAGGACTC ATCCCAAAGC CTGATGAAGA TGACGCCAAC 
AGACTAGGGG AGAAGGTGAT CCTCCGCGAG CAGGTGAAGG AGCTCTTCAA TGAGAAATAC 
GGTGAGGCCC TGGGCCTCAA CCGGCCTGTG CTGGTCCCTT ACAAACTGAT CCGGGACAGC 
CCGGACGCCG TGGAGGTCAC GGGCCTGCCC GACGACATCC CTTTCCGGAA CCCCAACACA 
TATGACATCC ACCGGCTGGA GAAAATCCTG AAGGCCCGAG AGCATGTACG CATGGTCATC 
ATCAACCAGC TCCAACCCTT TGCAGAAATC TGCAATGACG CCAAGGTGCC AGCCAAAGAC 
AGCAGCATTC CCAAGCGCAA GAGAAAGCGG GTCTCTGAAG GGAACTCCTT CTCCTCCTCC 
TCGTCTTCCT CCTCCTCGTC CTCTAACCCG GAGTCCGTGG CGTCCACCAA CCAGATCTCA 
CTCGTGCAAT GGCCAATGTA CATGGTGGAC TATGCCGGCC TGAACGTGCA GCTCCCGGGA 
CCTCTGAATT ACTAG

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

RefSeq	XP_019656104.1
CDS	12..2786
Translation	MALLGKRCDIPANGCGPDRWSSAFTRKDEIITSLVSALDSMCSALSKLNAEVACVAVHDESAFVVGTEKGRMFLNARKELQSDFLRFCRGAPWKEPEAEHPKKVSRGEGGGRNVPRSSLEHGSDVYLLRKMVEEVFDVLYSEALGRASVVPLPYERLLREPGLLAVQGLPEGLAFRRPADYDPKALMAILEHSHRIRFKLKRPLEDGGRDSKALVELNGVSLIAKGSRDCGLHGQAPKGPPQDLPPTATSSSVASFLYSTALPNHTTRELKQEAPACPLAPSDLGLGRPGPEPKASGAQDFPDCCGQKPPGPGGPLIQNVHASKRILFSIVHDKSEKWDAFIKETEDINTLRECVQILFNSRYAEALGLDHMVPVPYRKIACDPEAVEIVGIPDKIPFKRPCTYGVPKLKRILEERHSIHFIIKRMFDERIFTGNKFTKDPTKLEPASPPEDTSAEISRAAVLDLPGTARSDKNGVSEDCSPGTSGELSGLRPIKMEPEDLDIIQVTVPDPSPTSEEMTDSMPGHLPSEDSGYGMEMLTEKGPSEDPRPEERPVEDSHGDVIRPLRKQVELLFNTRYAKAIGISEPVKVPYSKFLMYPEELFVVGLPEGISLRRPNCFGIAKLRKILEASNSIQFVIKRPELLTEGVKEPITDSQENYDARLSRIDIANTLREQVQDLFNKKYGEALGIKYPVQVPYKRIKSNPGSVIIEGLPPGIPFRKPCTFGSQNLERILAVADKIKFTVTRPFQGLIPKPDEDDANRLGEKVILREQVKELFNEKYGEALGLNRPVLVPYKLIRDSPDAVEVTGLPDDIPFRNPNTYDIHRLEKILKAREHVRMVIINQLQPFAEICNDAKVPAKDSSIPKRKRKRVSEGNSFSSSSSSSSSSSNPESVASTNQISLVQWPMYMVDYAGLNVQLPGPLNY

Target ORF information:

RefSeq Version	XM_019800545.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X3, mRNA.

Target ORF information:

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

XM_019800545.1

ORF Insert Sequence:

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAAAA TTATGACGCT 
CGACTGTCAC GCATCGACAT CGCCAACACG CTGAGGGAGC AAGTCCAGGA TCTGTTCAAT 
AAGAAATACG GAGAAGCCCT GGGCATCAAG TACCCCGTCC AGGTCCCCTA CAAGCGGATC 
AAGAGCAACC CCGGCTCGGT GATCATTGAG GGGCTCCCCC CGGGAATCCC GTTCCGAAAG 
CCCTGCACCT TTGGCTCTCA GAACCTGGAG AGGATCCTTG CCGTGGCTGA CAAGATCAAG 
TTCACGGTCA CCAGGCCTTT TCAAGGACTC ATCCCAAAGC CTGATGAAGA TGACGCCAAC 
AGACTAGGGG AGAAGGTGAT CCTCCGCGAG CAGGTGAAGG AGCTCTTCAA TGAGAAATAC 
GGTGAGGCCC TGGGCCTCAA CCGGCCTGTG CTGGTCCCTT ACAAACTGAT CCGGGACAGC 
CCGGACGCCG TGGAGGTCAC GGGCCTGCCC GACGACATCC CTTTCCGGAA CCCCAACACA 
TATGACATCC ACCGGCTGGA GAAAATCCTG AAGGCCCGAG AGCATGTACG CATGGTCATC 
ATCAACCAGC TCCAACCCTT TGCAGAAATC TGCAATGACG CCAAGGTGCC AGCCAAAGAC 
AGCAGCATTC CCAAGCGCAA GAGAAAGCGG GTCTCTGAAG GGAACTCCTT CTCCTCCTCC 
TCGTCTTCCT CCTCCTCGTC CTCTAACCCG GAGTCCGTGG CGTCCACCAA CCAGATCTCA 
CTCGTGCAAT GGCCAATGTA CATGGTGGAC TATGCCGGCC TGAACGTGCA GCTCCCGGGA 
CCTCTGAATT ACTAG

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

GTF2IRD1 ( XM_019800546.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019656105.1 Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc93413
Clone ID Related Accession (Same CDS sequence)	XM_019800546.1
Accession Version	XM_019800546.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2607bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	general transcription factor II-I repeat domain-containing protein 1 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217678.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGAC 
CCTTTGCAGA AATCTGCAAT GACGCCAAGG TGCCAGCCAA AGACAGCAGC ATTCCCAAGC 
GCAAGAGAAA GCGGGTCTCT GAAGGGAACT CCTTCTCCTC CTCCTCGTCT TCCTCCTCCT 
CGTCCTCTAA CCCGGAGTCC GTGGCGTCCA CCAACCAGAT CTCACTCGTG CAATGGCCAA 
TGTACATGGT GGACTATGCC GGCCTGA

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

RefSeq	XP_019656105.1
CDS	12..2618
Translation	MALLGKRCDIPANGCGPDRWSSAFTRKDEIITSLVSALDSMCSALSKLNAEVACVAVHDESAFVVGTEKGRMFLNARKELQSDFLRFCRGAPWKEPEAEHPKKVSRGEGGGRNVPRSSLEHGSDVYLLRKMVEEVFDVLYSEALGRASVVPLPYERLLREPGLLAVQGLPEGLAFRRPADYDPKALMAILEHSHRIRFKLKRPLEDGGRDSKALVELNGVSLIAKGSRDCGLHGQAPKGPPQDLPPTATSSSVASFLYSTALPNHTTRELKQEAPACPLAPSDLGLGRPGPEPKASGAQDFPDCCGQKPPGPGGPLIQNVHASKRILFSIVHDKSEKWDAFIKETEDINTLRECVQILFNSRYAEALGLDHMVPVPYRKIACDPEAVEIVGIPDKIPFKRPCTYGVPKLKRILEERHSIHFIIKRMFDERIFTGNKFTKDPTKLEPASPPEDTSAEISRAAVLDLPGTARSDKNGVSEDCSPGTSGELSGLRPIKMEPEDLDIIQVTVPDPSPTSEEMTDSMPGHLPSEDSGYGMEMLTEKGPSEDPRPEERPVEDSHGDVIRPLRKQVELLFNTRYAKAIGISEPVKVPYSKFLMYPEELFVVGLPEGISLRRPNCFGIAKLRKILEASNSIQFVIKRPELLTEGVKEPITDSQERDSGDPLVDESLKRQGFQENYDARLSRIDIANTLREQVQDLFNKKYGEALGIKYPVQVPYKRIKSNPGSVIIEGLPPGIPFRKPCTFGSQNLERILAVADKIKFTVTRPFQGLIPKPDEDDANRLGEKVILREQVKELFNEKYDPLQKSAMTPRCQPKTAAFPSARESGSLKGTPSPPPRLPPPRPLTRSPWRPPTRSHSCNGQCTWWTMPA

Target ORF information:

RefSeq Version	XM_019800546.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca GTF2I repeat domain containing 1 (GTF2IRD1), transcript variant X4, mRNA.

Target ORF information:

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

XM_019800546.1

ORF Insert Sequence:

ATGGCCTTGT TGGGGAAGCG CTGCGACATT CCCGCCAACG GCTGCGGGCC TGACCGCTGG 
AGCTCCGCCT TTACCCGCAA AGATGAGATC ATCACCAGCC TCGTGTCTGC CTTAGATTCC 
ATGTGCTCAG CGCTCTCCAA ACTGAATGCA GAGGTGGCCT GTGTCGCTGT GCATGATGAG 
AGTGCCTTCG TGGTGGGCAC CGAGAAGGGG AGAATGTTCC TGAACGCACG GAAGGAGCTG 
CAGTCAGATT TCCTCAGGTT CTGCCGAGGG GCCCCCTGGA AGGAGCCGGA GGCAGAGCAT 
CCCAAGAAGG TGTCGCGGGG CGAGGGTGGC GGCCGGAACG TCCCCCGGTC TTCCCTGGAG 
CATGGCTCGG ACGTGTACCT TCTGCGGAAG ATGGTAGAGG AGGTGTTCGA CGTTCTTTAC 
AGCGAGGCCC TGGGAAGGGC CAGTGTGGTA CCCCTGCCCT ACGAGAGGCT GCTCAGGGAG 
CCGGGGCTGC TGGCTGTGCA GGGGCTGCCC GAGGGCCTGG CCTTCCGGAG GCCGGCTGAC 
TATGACCCCA AGGCCCTCAT GGCCATCCTG GAGCATAGCC ACCGGATCCG CTTCAAGCTC 
AAGAGGCCGC TTGAGGATGG CGGGCGGGAC TCGAAGGCCC TAGTGGAGCT GAACGGTGTC 
TCCCTGATAG CCAAGGGGTC TCGGGACTGC GGCCTGCATG GCCAGGCCCC CAAGGGGCCA 
CCCCAGGACC TACCCCCCAC CGCCACCTCC TCCTCTGTGG CCAGCTTCCT GTATAGCACT 
GCACTCCCTA ACCATACCAC GAGAGAGCTC AAGCAGGAGG CACCCGCCTG CCCACTTGCC 
CCCAGCGACC TGGGCCTTGG CCGGCCTGGG CCTGAGCCCA AGGCCTCTGG TGCCCAAGAC 
TTCCCCGACT GCTGTGGACA GAAGCCCCCC GGGCCCGGTG GTCCTCTCAT CCAGAACGTC 
CATGCCTCCA AACGCATCCT CTTCTCCATC GTCCATGACA AGTCAGAGAA GTGGGACGCC 
TTCATAAAGG AAACCGAGGA CATCAACACG CTCCGGGAGT GCGTGCAGAT CCTGTTTAAC 
AGCAGATATG CGGAAGCCCT GGGCCTGGAC CACATGGTCC CCGTCCCCTA CAGGAAGATT 
GCCTGTGACC CGGAGGCTGT GGAAATTGTG GGCATCCCGG ATAAGATCCC CTTCAAGCGC 
CCCTGCACCT ACGGGGTCCC CAAGCTCAAG CGGATCCTGG AGGAGCGACA CAGCATCCAC 
TTCATCATTA AGAGGATGTT TGATGAGCGA ATTTTCACAG GGAACAAGTT TACCAAAGAC 
CCCACAAAGC TGGAGCCCGC CAGCCCGCCG GAGGATACCT CTGCAGAGAT CTCCCGTGCG 
GCTGTCCTCG ACCTGCCCGG GACCGCTCGG TCAGACAAGA ACGGTGTCTC TGAAGACTGT 
AGTCCAGGAA CTTCTGGGGA GCTGAGTGGG CTGAGGCCCA TTAAAATGGA GCCAGAAGAT 
CTAGATATTA TTCAGGTCAC CGTCCCAGAC CCTTCACCCA CCTCTGAGGA AATGACAGAC 
TCAATGCCCG GGCATCTGCC CTCAGAAGAT TCTGGTTACG GGATGGAGAT GCTAACTGAG 
AAAGGCCCCA GCGAGGACCC GCGGCCCGAG GAGAGGCCCG TAGAAGACAG CCACGGTGAC 
GTGATCCGGC CCCTGCGGAA GCAGGTGGAG CTGCTCTTCA ATACGCGATA CGCCAAGGCC 
ATTGGCATCT CGGAGCCCGT CAAGGTGCCC TACTCCAAGT TCCTGATGTA CCCAGAGGAG 
CTGTTTGTGG TGGGGCTGCC TGAAGGCATC TCCCTCCGCA GGCCCAACTG CTTCGGGATC 
GCCAAGCTCC GGAAGATCTT GGAAGCCAGC AATAGCATCC AGTTTGTCAT CAAGAGGCCT 
GAGCTGCTCA CCGAGGGAGT CAAAGAGCCC ATCACGGACA GCCAAGAGAG GGATTCCGGG 
GACCCTCTTG TGGACGAGAG CCTGAAGAGA CAGGGTTTTC AAGAAAATTA TGACGCTCGA 
CTGTCACGCA TCGACATCGC CAACACGCTG AGGGAGCAAG TCCAGGATCT GTTCAATAAG 
AAATACGGAG AAGCCCTGGG CATCAAGTAC CCCGTCCAGG TCCCCTACAA GCGGATCAAG 
AGCAACCCCG GCTCGGTGAT CATTGAGGGG CTCCCCCCGG GAATCCCGTT CCGAAAGCCC 
TGCACCTTTG GCTCTCAGAA CCTGGAGAGG ATCCTTGCCG TGGCTGACAA GATCAAGTTC 
ACGGTCACCA GGCCTTTTCA AGGACTCATC CCAAAGCCTG ATGAAGATGA CGCCAACAGA 
CTAGGGGAGA AGGTGATCCT CCGCGAGCAG GTGAAGGAGC TCTTCAATGA GAAATACGAC 
CCTTTGCAGA AATCTGCAAT GACGCCAAGG TGCCAGCCAA AGACAGCAGC ATTCCCAAGC 
GCAAGAGAAA GCGGGTCTCT GAAGGGAACT CCTTCTCCTC CTCCTCGTCT TCCTCCTCCT 
CGTCCTCTAA CCCGGAGTCC GTGGCGTCCA CCAACCAGAT CTCACTCGTG CAATGGCCAA 
TGTACATGGT GGACTATGCC GGCCTGA

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

GTF2IRD1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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:

Most Popular Services

Services & Products

News & Blogs

REQUEST A QUOTE

EMAIL

PHONE

ONLINE FORM

ONLINE FORM

SUPPORT

COMPANY

SUPPORT

COMPANY