Tert cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Tert
Entrez Gene ID	301965
Full Name	telomerase reverse transcriptase
General protein information	Preferred Names telomerase reverse transcriptase Names telomerase reverse transcriptase telomerase catalytic subunit
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 1 Map Location: 1p11

mRNA and Protein(s)

mRNA	Protein	Name
XM_008758684.2	XP_008756906.1	telomerase reverse transcriptase isoform X3
XM_017589078.1	XP_017444567.1	telomerase reverse transcriptase isoform X2
XM_008758683.2	XP_008756905.1	telomerase reverse transcriptase isoform X1
NM_053423.1	NP_445875.1	telomerase reverse transcriptase

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	TERT	NP_001026800.1
Gallus gallus (chicken)	TERT	NP_001026178.1
Mus musculus (house mouse)	Tert	NP_033380.1
Rattus norvegicus (Norway rat)	Tert	NP_445875.1
Xenopus tropicalis (tropical clawed frog)	tert	XP_004915405.1
Bos taurus (cattle)	TERT	NP_001039707.1
Danio rerio (zebrafish)	tert	NP_001077335.1
Homo sapiens (human)	TERT	NP_937983.2
Pan troglodytes (chimpanzee)	TERT	XP_003950543.1

Gene Ontology
Bibliography

Related articles in PubMed

Resistance to apoptosis in human cells conferred by telomerase function and telomere stability.
Holt SE, Glinsky VV, Ivanova AB, Glinsky GV
Molecular carcinogenesis25(4)241-8(1999 Aug)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

Proliferation rate, telomerase activity, telomere length, and differentiation to cholinergic neuron-like cells (CNLCs) were observed to increase. Though, the expression level of telomerase reverse transcriptase gene increased, but CTC1 and TEN1 genes from Ctc1-Stn1-Ten1 complex encoding proteins with regulatory function significantly decreased
Title: Stimulation of cell proliferation by glutathione monoethyl ester in aged bone marrow stromal cells is associated with the assistance of TERT gene expression and telomerase activity.

Histone deacetylase inhibition induces TERT transcription and promoter activation. At the protein level in contrast, HDAC inhibition decreases TERT protein abundance through enhanced degradation, which decreases telomerase activity and induces senescence.
Title: Differential Regulation of Telomerase Reverse Transcriptase Promoter Activation and Protein Degradation by Histone Deacetylase Inhibition.

These findings suggest that cardiac telomerase activity may play an important role in the maintenance of normal cardiac function.
Title: Calorie restriction increases telomerase activity, enhances autophagy, and improves diastolic dysfunction in diabetic rat hearts.

TERT is a genome-independent source of mature miRNA, and the changes in telomerase activity can significantly influence the level of miRNA in cardiomyocytes.
Title: Silencing of TERT decreases levels of miR-1, miR-21, miR-29a and miR-208a in cardiomyocytes.

Elevated Hcy but not hypertension was related to TERT DNA hypomethylation and reduced mRNA level, thus contributing to the shortening of LTL hypertension.
Title: DNA methylation of human telomerase reverse transcriptase associated with leukocyte telomere length shortening in hyperhomocysteinemia-type hypertension in humans and in a rat model.

The following Tert gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tert 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)
ORa45901	XM_008758684.2 Latest version!	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
ORa56546	XM_017589078.1 Latest version!	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
ORa09519	NM_053423.1 Latest version!	Rattus norvegicus telomerase reverse transcriptase (Tert), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
ORa45900	XM_008758683.2 Latest version!	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00

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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)

Tert ( XM_008758684.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008756906.1 Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ORa45901
Clone ID Related Accession (Same CDS sequence)	XM_008758684.2
Accession Version	XM_008758684.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	telomerase reverse transcriptase isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008758684.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCTTGCTT 
TTACGTTTTG TCGATGACTT TCTGTTGGTG ACACCTCACC TGGCCCATGC AAAAGCCTTT 
CTCAGCACCC TGGTCCATGG CGTGCCCGAG TATGGCTGCA TGATAAACTT GCAGAAGACA 
GTGGTGAACT TCCCTGTGGA GACCGGCGCC CTGGGAGGTG CAGCCCCGCA CCAGCTGCCT 
GCTCACTGCC TGTTTCCCTG GTGTGGCTTA CTGCTGGACA CTCGGACTTT GGAAGTATTC 
TGTGACTACT CAGGGGTGTC TCCAGGGCCG GGAAGACCAT GCGGTACAAG CTCTTGTCAG 
TCTTGCGGTT GA

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

RefSeq	XP_008756906.1
CDS	2855..5746
Translation	MPRAPRCPAVRSLLRSRYREVWPLATFVRRLGLEGSRLVQPGDPKVFRTLVAQCLVCVPWGSQPPPADLSFHQVGLQVSSLKELVSRVVQKLCERGERNVLAFGFALLNGARGGPPMAFTTSVHSYLPNSVTESLCVSGAWMLLLSRVGDDLLVYLLSHCALYLLVPPSCAYQVCGSPLYQICATTDTWSSVPAGYRPTRPVGGNFTNLGSAHQIKNSGHQEAPKPQALPSRGTKRLLSLTSTNVPSAKKARFEPALRVDKGPHRQVVPTPSGKTWAPSPAASPKVPPAAKNLSLKGKASDPSLSGSVCCKHKPSSSSLLSSPPQDAEKLRPFTETRHFLYSRGGGQEELNPSFLLNSLPPSLTGARRLVEIIFLGSRPRTSGPFCRTRRLPRRYWQMRPLFQQLLMNHAKCQYVRFLRSHCRFRTANQRVPDAMDTSPSHLTSLLRLHSSPWQVYGFLRACLRELVPAGLWGTRHNERRFLKNVKKFISLGKYAKLSLQELMWRVKVEDCHWLRSSPEKDTVPAAEHRLRERILAMFLFWLMDTYVVQLLRSFFYITETTFQKNRLFFYRKSVWSKLQSIGIRQQLERVQLRELSQEEVKHHQDTWLAMPICRLRFIPKLNGLRPIVNMSYGMDTRAFGKKKQTQCFTQSLKTLFSVLNYERTKHPNLMGASVLGTSDSYRIWRTFVLRVRALDQTPRMYFVKADVTGAYDAIPQDKLVEIVANIIRRSESMYCIRQYAVVQKDSQGQVHKSFRRQVSTLSDLQPYMGQFTKHLQDSDASALRNSVVIEQSISMNETGSSLLHFFLRFVRHSVVKIDGRFYVQCQGIPQGSSLSTLLCSLCFGDMENKLFAEVQQDGLLLRFVDDFLLVTPHLAHAKAFLSTLVHGVPEYGCMINLQKTVVNFPVETGALGGAAPHQLPAHCLFPWCGLLLDTRTLEVFCDYSGVSPGPGRPCGTSSCQSCG

Target ORF information:

RefSeq Version	XM_008758684.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X3, mRNA.

Target ORF information:

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

XM_008758684.2

ORF Insert Sequence:

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCTTGCTT 
TTACGTTTTG TCGATGACTT TCTGTTGGTG ACACCTCACC TGGCCCATGC AAAAGCCTTT 
CTCAGCACCC TGGTCCATGG CGTGCCCGAG TATGGCTGCA TGATAAACTT GCAGAAGACA 
GTGGTGAACT TCCCTGTGGA GACCGGCGCC CTGGGAGGTG CAGCCCCGCA CCAGCTGCCT 
GCTCACTGCC TGTTTCCCTG GTGTGGCTTA CTGCTGGACA CTCGGACTTT GGAAGTATTC 
TGTGACTACT CAGGGGTGTC TCCAGGGCCG GGAAGACCAT GCGGTACAAG CTCTTGTCAG 
TCTTGCGGTT GA

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

Tert ( XM_017589078.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017444567.1 Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORa56546
Clone ID Related Accession (Same CDS sequence)	XM_017589078.1
Accession Version	XM_017589078.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	telomerase reverse transcriptase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCACCCTG 
GTCCATGGCG TGCCCGAGTA TGGCTGCATG ATAAACTTGC AGAAGACAGT GGTGAACTTC 
CCTGTGGAGA CCGGCGCCCT GGGAGGTGCA GCCCCGCACC AGCTGCCTGC TCACTGCCTG 
TTTCCCTGGT GTGGCTTACT GCTGGACACT CGGACTTTGG AAGTATTCTG TGACTACTCA 
GGTTACGGAC GGACCTCAAT TAAGATGAGC CTCACCTTCC AGGGTGTCTC CAGGGCCGGG 
AAGACCATGC GGTACAAGCT CTTGTCAGTC TTGCGGTTGA AGTGTCATGG TCTGTTTCTA 
GACTTGCAGG TGAACAGCCT GCAGACAGTC TGCATCAATA TATACAAGAT CTTCCTGCTT 
CAGGCCTACA GGTTCCATGC ATGTGTGATT CGGCTTCCCT TTGGCCAGCA TGTTAGGAAG 
AACCATGCAT TCTTTCTGGG CATCATCTCC AACCTAGCAT CCTGCTGCTA CGCCATCCTG 
AAGGTCAAGA ATCCAGGAGT GTCACTAAGG GCCAAGGGTG CCCCTGGCTC CTTTCCGCCC 
GAGGCCACAC GTTGGCTCTG CTACCAAGCC TTCCTGCTCA AGCTGGCTGC TCATTCTGTC 
ACCTACAAGT GTCTCCTGGG ACCTCTTAGG ACAGCCCAAA AACAGCTGTG CCGGAAGCTC 
CCAGAGGCAA CAATGACCCT CCTTAAGACT GCAGCTGACC CAGCCCTAAG CACAGATTTT 
CAGACCATTT TGGACTAA

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

RefSeq	XP_017444567.1
CDS	2855..6172
Translation	MPRAPRCPAVRSLLRSRYREVWPLATFVRRLGLEGSRLVQPGDPKVFRTLVAQCLVCVPWGSQPPPADLSFHQVGLQVSSLKELVSRVVQKLCERGERNVLAFGFALLNGARGGPPMAFTTSVHSYLPNSVTESLCVSGAWMLLLSRVGDDLLVYLLSHCALYLLVPPSCAYQVCGSPLYQICATTDTWSSVPAGYRPTRPVGGNFTNLGSAHQIKNSGHQEAPKPQALPSRGTKRLLSLTSTNVPSAKKARFEPALRVDKGPHRQVVPTPSGKTWAPSPAASPKVPPAAKNLSLKGKASDPSLSGSVCCKHKPSSSSLLSSPPQDAEKLRPFTETRHFLYSRGGGQEELNPSFLLNSLPPSLTGARRLVEIIFLGSRPRTSGPFCRTRRLPRRYWQMRPLFQQLLMNHAKCQYVRFLRSHCRFRTANQRVPDAMDTSPSHLTSLLRLHSSPWQVYGFLRACLRELVPAGLWGTRHNERRFLKNVKKFISLGKYAKLSLQELMWRVKVEDCHWLRSSPEKDTVPAAEHRLRERILAMFLFWLMDTYVVQLLRSFFYITETTFQKNRLFFYRKSVWSKLQSIGIRQQLERVQLRELSQEEVKHHQDTWLAMPICRLRFIPKLNGLRPIVNMSYGMDTRAFGKKKQTQCFTQSLKTLFSVLNYERTKHPNLMGASVLGTSDSYRIWRTFVLRVRALDQTPRMYFVKADVTGAYDAIPQDKLVEIVANIIRRSESMYCIRQYAVVQKDSQGQVHKSFRRQVSTLSDLQPYMGQFTKHLQDSDASALRNSVVIEQSISMNETGSSLLHFFLRFVRHSVVKIDGRFYVQCQGIPQGSSLSTLLCSLCFGDMENKLFAEVQQDGTLVHGVPEYGCMINLQKTVVNFPVETGALGGAAPHQLPAHCLFPWCGLLLDTRTLEVFCDYSGYGRTSIKMSLTFQGVSRAGKTMRYKLLSVLRLKCHGLFLDLQVNSLQTVCINIYKIFLLQAYRFHACVIRLPFGQHVRKNHAFFLGIISNLASCCYAILKVKNPGVSLRAKGAPGSFPPEATRWLCYQAFLLKLAAHSVTYKCLLGPLRTAQKQLCRKLPEATMTLLKTAADPALSTDFQTILD

Target ORF information:

RefSeq Version	XM_017589078.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X2, mRNA.

Target ORF information:

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

XM_017589078.1

ORF Insert Sequence:

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCACCCTG 
GTCCATGGCG TGCCCGAGTA TGGCTGCATG ATAAACTTGC AGAAGACAGT GGTGAACTTC 
CCTGTGGAGA CCGGCGCCCT GGGAGGTGCA GCCCCGCACC AGCTGCCTGC TCACTGCCTG 
TTTCCCTGGT GTGGCTTACT GCTGGACACT CGGACTTTGG AAGTATTCTG TGACTACTCA 
GGTTACGGAC GGACCTCAAT TAAGATGAGC CTCACCTTCC AGGGTGTCTC CAGGGCCGGG 
AAGACCATGC GGTACAAGCT CTTGTCAGTC TTGCGGTTGA AGTGTCATGG TCTGTTTCTA 
GACTTGCAGG TGAACAGCCT GCAGACAGTC TGCATCAATA TATACAAGAT CTTCCTGCTT 
CAGGCCTACA GGTTCCATGC ATGTGTGATT CGGCTTCCCT TTGGCCAGCA TGTTAGGAAG 
AACCATGCAT TCTTTCTGGG CATCATCTCC AACCTAGCAT CCTGCTGCTA CGCCATCCTG 
AAGGTCAAGA ATCCAGGAGT GTCACTAAGG GCCAAGGGTG CCCCTGGCTC CTTTCCGCCC 
GAGGCCACAC GTTGGCTCTG CTACCAAGCC TTCCTGCTCA AGCTGGCTGC TCATTCTGTC 
ACCTACAAGT GTCTCCTGGG ACCTCTTAGG ACAGCCCAAA AACAGCTGTG CCGGAAGCTC 
CCAGAGGCAA CAATGACCCT CCTTAAGACT GCAGCTGACC CAGCCCTAAG CACAGATTTT 
CAGACCATTT TGGACTAA

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

Tert ( NM_053423.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_445875.1 Rattus norvegicus telomerase reverse transcriptase (Tert), mRNA.

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CloneID	ORa09519
Clone ID Related Accession (Same CDS sequence)	NM_053423.1
Accession Version	NM_053423.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3378bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-15
Organism	Rattus norvegicus(Norway rat)
Product	telomerase reverse transcriptase
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AY539717.1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AY539717.1, BK000660.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN01906357 [ECO:0000348] ##Evidence-Data-END##

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGTCATCCCT GAAAGAGCTG 
GTGTCCAGGG TTGTGCAGAA ACTTTGCGAG CGCGGTGAGA GGAATGTGCT GGCTTTTGGC 
TTTGCACTGC TTAACGGGGC CAGAGGTGGG CCTCCCATGG CCTTCACGAC CAGCGTGCAT 
AGCTACTTGC CCAACTCGGT TACTGAGTCC CTGTGTGTCA GTGGTGCATG GATGCTACTG 
TTGAGCCGAG TGGGCGACGA CCTGCTGGTC TACCTGCTGT CGCACTGTGC GCTCTACCTG 
CTGGTGCCCC CCAGCTGTGC CTACCAGGTG TGCGGGTCAC CCCTGTACCA AATTTGTGCC 
ACCACGGATA CCTGGTCCTC TGTGCCCGCT GGTTACAGGC CCACTCGACC CGTGGGCGGG 
AATTTCACTA ACCTTGGGTC CGCACACCAG ATCAAAAACA GTGGTCACCA GGAAGCACCA 
AAACCCCAGG CCTTGCCATC ACGAGGTACG AAGAGGCTTC TGAGTCTCAC CAGTACAAAC 
GTGCCTTCAG CTAAGAAGGC CAGGTTTGAA CCTGCCCTGA GAGTGGATAA GGGACCCCAC 
AGGCAGGTGG TACCAACCCC ATCAGGCAAA ACATGGGCGC CAAGTCCTGC TGCGTCCCCC 
AAGGTGCCTC CTGCAGCGAA AAACTTGTCT TTGAAAGGAA AGGCATCTGA CCCGAGTCTC 
TCTGGGTCGG TGTGCTGTAA ACACAAGCCC AGCTCCTCGT CCCTGCTGTC ATCACCACCC 
CAAGATGCTG AAAAGCTCAG GCCATTCACT GAGACCAGAC ATTTCCTTTA CTCCAGGGGA 
GGTGGCCAAG AGGAGCTAAA TCCCTCATTC CTACTCAACA GCCTCCCGCC TAGCTTGACC 
GGGGCCAGGA GACTGGTGGA GATCATCTTT CTGGGCTCAA GGCCTAGGAC ATCAGGACCA 
TTCTGCAGGA CCCGCCGCCT GCCCCGTCGA TACTGGCAGA TGCGACCCCT ATTCCAGCAG 
CTGCTCATGA ACCACGCAAA GTGCCAATAT GTCAGATTCC TCCGGTCGCA CTGCAGATTT 
CGAACAGCAA ACCAGCGGGT GCCGGATGCC ATGGACACCA GCCCATCCCA CCTCACGAGT 
TTGCTCCGGT TACACAGCAG CCCCTGGCAG GTATACGGCT TTCTTCGGGC CTGCCTCCGC 
GAGCTGGTGC CTGCCGGTCT CTGGGGCACC AGGCACAATG AGCGCCGCTT CTTAAAGAAC 
GTGAAGAAGT TCATCTCGTT GGGGAAGTAC GCCAAGCTAT CCCTGCAGGA ACTGATGTGG 
AGGGTGAAAG TGGAGGACTG CCACTGGCTC CGCAGCAGCC CAGAGAAGGA CACTGTCCCT 
GCCGCAGAGC ACCGTCTGAG GGAGAGGATC CTTGCCATGT TCCTGTTCTG GCTAATGGAC 
ACATATGTGG TACAGCTGCT GAGGTCATTC TTCTACATCA CAGAGACCAC GTTCCAGAAG 
AACCGCCTTT TCTTCTACCG TAAGAGTGTG TGGAGCAAGC TGCAGAGCAT TGGAATCAGG 
CAACAGCTTG AGAGAGTTCA GCTACGGGAA CTGTCACAAG AGGAGGTCAA GCATCACCAG 
GACACTTGGC TGGCCATGCC TATCTGCAGA TTGCGCTTCA TCCCCAAGCT CAATGGTCTC 
CGGCCCATTG TGAACATGAG TTATGGCATG GACACCAGAG CTTTTGGCAA AAAGAAGCAG 
ACCCAGTGTT TCACTCAGAG TCTCAAGACT TTGTTCAGCG TGCTCAACTA CGAGCGGACC 
AAACATCCTA ACCTTATGGG TGCTTCAGTA CTGGGTACGA GTGACAGCTA CAGGATCTGG 
CGGACCTTCG TGCTGCGTGT GCGTGCTCTG GACCAGACAC CCAGGATGTA CTTTGTTAAG 
GCAGATGTGA CAGGGGCCTA TGATGCCATC CCCCAGGACA AGCTCGTGGA AATTGTCGCC 
AATATAATCA GGCGCTCAGA GAGCATGTAC TGTATCCGCC AGTATGCAGT GGTTCAGAAA 
GATAGCCAAG GCCAAGTCCA CAAGTCCTTC AGGAGACAGG TCTCCACCCT CTCTGACCTC 
CAGCCATACA TGGGCCAGTT CACCAAGCAT CTGCAGGACT CAGATGCCAG TGCACTGAGG 
AACTCTGTTG TCATCGAGCA GAGCATCTCC ATGAATGAGA CTGGCAGTAG CCTGCTCCAC 
TTCTTCCTGC GCTTTGTCCG TCACAGTGTC GTGAAGATCG ATGGCAGGTT CTATGTGCAA 
TGCCAGGGCA TCCCCCAGGG CTCCAGCCTG TCCACCCTGC TCTGCAGTCT GTGTTTCGGA 
GACATGGAGA ACAAGCTGTT TGCCGAGGTG CAGCAGGACG GCTTGCTTTT ACGTTTTGTC 
GATGACTTTC TGTTGGTGAC ACCTCACCTG GCCCATGCAA AAGCCTTTCT CAGCACCCTG 
GTCCATGGCG TGCCCGAGTA TGGCTGCATG ATAAACTTGC AGAAGACAGT GGTGAACTTC 
CCTGTGGAGA CCGGCGCCCT GGGAGGTGCA GCCCCGCACC AGCTGCCTGC TCACTGCCTG 
TTTCCCTGGT GTGGCTTACT GCTGGACACT CGGACTTTGG AAGTATTCTG TGACTACTCA 
GGTTACGGAC GGACCTCAAT TAAGATGAGC CTCACCTTCC AGGGTGTCTC CAGGGCCGGG 
AAGACCATGC GGTACAAGCT CTTGTCAGTC TTGCGGTTGA AGTGTCATGG TCTGTTTCTA 
GACTTGCAGG TGAACAGCCT GCAGACAGTC TGCATCAATA TATACAAGAT CTTCCTGCTT 
CAGGCCTACA GGTTCCATGC ATGTGTGATT CGGCTTCCCT TTGGCCAGCA TGTTAGGAAG 
AACCATGCAT TCTTTCTGGG CATCATCTCC AACCTAGCAT CCTGCTGCTA CGCCATCCTG 
AAGGTCAAGA ATCCAGGAGT GTCACTAAGG GCCAAGGGTG CCCCTGGCTC CTTTCCGCCC 
GAGGCCACAC GTTGGCTCTG CTACCAAGCC TTCCTGCTCA AGCTGGCTGC TCATTCTGTC 
ACCTACAAGT GTCTCCTGGG ACCTCTTAGG ACAGCCCAAA AACAGCTGTG CCGGAAGCTC 
CCAGAGGCAA CAATGACCCT CCTTAAGACT GCAGCTGACC CAGCCCTAAG CACAGATTTT 
CAGACCATTT TGGACTAA

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

RefSeq	NP_445875.1
CDS	1..3378
Translation	MPRAPRCPAVRSLLRSRYREVWPLATFVRRLGLEGSRLVQPGDPKVFRTLVAQCLVCVPWGSQPPPADLSFHQVSSLKELVSRVVQKLCERGERNVLAFGFALLNGARGGPPMAFTTSVHSYLPNSVTESLCVSGAWMLLLSRVGDDLLVYLLSHCALYLLVPPSCAYQVCGSPLYQICATTDTWSSVPAGYRPTRPVGGNFTNLGSAHQIKNSGHQEAPKPQALPSRGTKRLLSLTSTNVPSAKKARFEPALRVDKGPHRQVVPTPSGKTWAPSPAASPKVPPAAKNLSLKGKASDPSLSGSVCCKHKPSSSSLLSSPPQDAEKLRPFTETRHFLYSRGGGQEELNPSFLLNSLPPSLTGARRLVEIIFLGSRPRTSGPFCRTRRLPRRYWQMRPLFQQLLMNHAKCQYVRFLRSHCRFRTANQRVPDAMDTSPSHLTSLLRLHSSPWQVYGFLRACLRELVPAGLWGTRHNERRFLKNVKKFISLGKYAKLSLQELMWRVKVEDCHWLRSSPEKDTVPAAEHRLRERILAMFLFWLMDTYVVQLLRSFFYITETTFQKNRLFFYRKSVWSKLQSIGIRQQLERVQLRELSQEEVKHHQDTWLAMPICRLRFIPKLNGLRPIVNMSYGMDTRAFGKKKQTQCFTQSLKTLFSVLNYERTKHPNLMGASVLGTSDSYRIWRTFVLRVRALDQTPRMYFVKADVTGAYDAIPQDKLVEIVANIIRRSESMYCIRQYAVVQKDSQGQVHKSFRRQVSTLSDLQPYMGQFTKHLQDSDASALRNSVVIEQSISMNETGSSLLHFFLRFVRHSVVKIDGRFYVQCQGIPQGSSLSTLLCSLCFGDMENKLFAEVQQDGLLLRFVDDFLLVTPHLAHAKAFLSTLVHGVPEYGCMINLQKTVVNFPVETGALGGAAPHQLPAHCLFPWCGLLLDTRTLEVFCDYSGYGRTSIKMSLTFQGVSRAGKTMRYKLLSVLRLKCHGLFLDLQVNSLQTVCINIYKIFLLQAYRFHACVIRLPFGQHVRKNHAFFLGIISNLASCCYAILKVKNPGVSLRAKGAPGSFPPEATRWLCYQAFLLKLAAHSVTYKCLLGPLRTAQKQLCRKLPEATMTLLKTAADPALSTDFQTILD

Target ORF information:

RefSeq Version	NM_053423.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus telomerase reverse transcriptase (Tert), mRNA.

Target ORF information:

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

NM_053423.1

ORF Insert Sequence:

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGTCATCCCT GAAAGAGCTG 
GTGTCCAGGG TTGTGCAGAA ACTTTGCGAG CGCGGTGAGA GGAATGTGCT GGCTTTTGGC 
TTTGCACTGC TTAACGGGGC CAGAGGTGGG CCTCCCATGG CCTTCACGAC CAGCGTGCAT 
AGCTACTTGC CCAACTCGGT TACTGAGTCC CTGTGTGTCA GTGGTGCATG GATGCTACTG 
TTGAGCCGAG TGGGCGACGA CCTGCTGGTC TACCTGCTGT CGCACTGTGC GCTCTACCTG 
CTGGTGCCCC CCAGCTGTGC CTACCAGGTG TGCGGGTCAC CCCTGTACCA AATTTGTGCC 
ACCACGGATA CCTGGTCCTC TGTGCCCGCT GGTTACAGGC CCACTCGACC CGTGGGCGGG 
AATTTCACTA ACCTTGGGTC CGCACACCAG ATCAAAAACA GTGGTCACCA GGAAGCACCA 
AAACCCCAGG CCTTGCCATC ACGAGGTACG AAGAGGCTTC TGAGTCTCAC CAGTACAAAC 
GTGCCTTCAG CTAAGAAGGC CAGGTTTGAA CCTGCCCTGA GAGTGGATAA GGGACCCCAC 
AGGCAGGTGG TACCAACCCC ATCAGGCAAA ACATGGGCGC CAAGTCCTGC TGCGTCCCCC 
AAGGTGCCTC CTGCAGCGAA AAACTTGTCT TTGAAAGGAA AGGCATCTGA CCCGAGTCTC 
TCTGGGTCGG TGTGCTGTAA ACACAAGCCC AGCTCCTCGT CCCTGCTGTC ATCACCACCC 
CAAGATGCTG AAAAGCTCAG GCCATTCACT GAGACCAGAC ATTTCCTTTA CTCCAGGGGA 
GGTGGCCAAG AGGAGCTAAA TCCCTCATTC CTACTCAACA GCCTCCCGCC TAGCTTGACC 
GGGGCCAGGA GACTGGTGGA GATCATCTTT CTGGGCTCAA GGCCTAGGAC ATCAGGACCA 
TTCTGCAGGA CCCGCCGCCT GCCCCGTCGA TACTGGCAGA TGCGACCCCT ATTCCAGCAG 
CTGCTCATGA ACCACGCAAA GTGCCAATAT GTCAGATTCC TCCGGTCGCA CTGCAGATTT 
CGAACAGCAA ACCAGCGGGT GCCGGATGCC ATGGACACCA GCCCATCCCA CCTCACGAGT 
TTGCTCCGGT TACACAGCAG CCCCTGGCAG GTATACGGCT TTCTTCGGGC CTGCCTCCGC 
GAGCTGGTGC CTGCCGGTCT CTGGGGCACC AGGCACAATG AGCGCCGCTT CTTAAAGAAC 
GTGAAGAAGT TCATCTCGTT GGGGAAGTAC GCCAAGCTAT CCCTGCAGGA ACTGATGTGG 
AGGGTGAAAG TGGAGGACTG CCACTGGCTC CGCAGCAGCC CAGAGAAGGA CACTGTCCCT 
GCCGCAGAGC ACCGTCTGAG GGAGAGGATC CTTGCCATGT TCCTGTTCTG GCTAATGGAC 
ACATATGTGG TACAGCTGCT GAGGTCATTC TTCTACATCA CAGAGACCAC GTTCCAGAAG 
AACCGCCTTT TCTTCTACCG TAAGAGTGTG TGGAGCAAGC TGCAGAGCAT TGGAATCAGG 
CAACAGCTTG AGAGAGTTCA GCTACGGGAA CTGTCACAAG AGGAGGTCAA GCATCACCAG 
GACACTTGGC TGGCCATGCC TATCTGCAGA TTGCGCTTCA TCCCCAAGCT CAATGGTCTC 
CGGCCCATTG TGAACATGAG TTATGGCATG GACACCAGAG CTTTTGGCAA AAAGAAGCAG 
ACCCAGTGTT TCACTCAGAG TCTCAAGACT TTGTTCAGCG TGCTCAACTA CGAGCGGACC 
AAACATCCTA ACCTTATGGG TGCTTCAGTA CTGGGTACGA GTGACAGCTA CAGGATCTGG 
CGGACCTTCG TGCTGCGTGT GCGTGCTCTG GACCAGACAC CCAGGATGTA CTTTGTTAAG 
GCAGATGTGA CAGGGGCCTA TGATGCCATC CCCCAGGACA AGCTCGTGGA AATTGTCGCC 
AATATAATCA GGCGCTCAGA GAGCATGTAC TGTATCCGCC AGTATGCAGT GGTTCAGAAA 
GATAGCCAAG GCCAAGTCCA CAAGTCCTTC AGGAGACAGG TCTCCACCCT CTCTGACCTC 
CAGCCATACA TGGGCCAGTT CACCAAGCAT CTGCAGGACT CAGATGCCAG TGCACTGAGG 
AACTCTGTTG TCATCGAGCA GAGCATCTCC ATGAATGAGA CTGGCAGTAG CCTGCTCCAC 
TTCTTCCTGC GCTTTGTCCG TCACAGTGTC GTGAAGATCG ATGGCAGGTT CTATGTGCAA 
TGCCAGGGCA TCCCCCAGGG CTCCAGCCTG TCCACCCTGC TCTGCAGTCT GTGTTTCGGA 
GACATGGAGA ACAAGCTGTT TGCCGAGGTG CAGCAGGACG GCTTGCTTTT ACGTTTTGTC 
GATGACTTTC TGTTGGTGAC ACCTCACCTG GCCCATGCAA AAGCCTTTCT CAGCACCCTG 
GTCCATGGCG TGCCCGAGTA TGGCTGCATG ATAAACTTGC AGAAGACAGT GGTGAACTTC 
CCTGTGGAGA CCGGCGCCCT GGGAGGTGCA GCCCCGCACC AGCTGCCTGC TCACTGCCTG 
TTTCCCTGGT GTGGCTTACT GCTGGACACT CGGACTTTGG AAGTATTCTG TGACTACTCA 
GGTTACGGAC GGACCTCAAT TAAGATGAGC CTCACCTTCC AGGGTGTCTC CAGGGCCGGG 
AAGACCATGC GGTACAAGCT CTTGTCAGTC TTGCGGTTGA AGTGTCATGG TCTGTTTCTA 
GACTTGCAGG TGAACAGCCT GCAGACAGTC TGCATCAATA TATACAAGAT CTTCCTGCTT 
CAGGCCTACA GGTTCCATGC ATGTGTGATT CGGCTTCCCT TTGGCCAGCA TGTTAGGAAG 
AACCATGCAT TCTTTCTGGG CATCATCTCC AACCTAGCAT CCTGCTGCTA CGCCATCCTG 
AAGGTCAAGA ATCCAGGAGT GTCACTAAGG GCCAAGGGTG CCCCTGGCTC CTTTCCGCCC 
GAGGCCACAC GTTGGCTCTG CTACCAAGCC TTCCTGCTCA AGCTGGCTGC TCATTCTGTC 
ACCTACAAGT GTCTCCTGGG ACCTCTTAGG ACAGCCCAAA AACAGCTGTG CCGGAAGCTC 
CCAGAGGCAA CAATGACCCT CCTTAAGACT GCAGCTGACC CAGCCCTAAG CACAGATTTT 
CAGACCATTT TGGACTAA

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

Tert ( XM_008758683.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008756905.1 Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X1, mRNA.

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CloneID	ORa45900
Clone ID Related Accession (Same CDS sequence)	XM_008758683.2
Accession Version	XM_008758683.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3390bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	telomerase reverse transcriptase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008758683.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCTTGCTT 
TTACGTTTTG TCGATGACTT TCTGTTGGTG ACACCTCACC TGGCCCATGC AAAAGCCTTT 
CTCAGCACCC TGGTCCATGG CGTGCCCGAG TATGGCTGCA TGATAAACTT GCAGAAGACA 
GTGGTGAACT TCCCTGTGGA GACCGGCGCC CTGGGAGGTG CAGCCCCGCA CCAGCTGCCT 
GCTCACTGCC TGTTTCCCTG GTGTGGCTTA CTGCTGGACA CTCGGACTTT GGAAGTATTC 
TGTGACTACT CAGGTTACGG ACGGACCTCA ATTAAGATGA GCCTCACCTT CCAGGGTGTC 
TCCAGGGCCG GGAAGACCAT GCGGTACAAG CTCTTGTCAG TCTTGCGGTT GAAGTGTCAT 
GGTCTGTTTC TAGACTTGCA GGTGAACAGC CTGCAGACAG TCTGCATCAA TATATACAAG 
ATCTTCCTGC TTCAGGCCTA CAGGTTCCAT GCATGTGTGA TTCGGCTTCC CTTTGGCCAG 
CATGTTAGGA AGAACCATGC ATTCTTTCTG GGCATCATCT CCAACCTAGC ATCCTGCTGC 
TACGCCATCC TGAAGGTCAA GAATCCAGGA GTGTCACTAA GGGCCAAGGG TGCCCCTGGC 
TCCTTTCCGC CCGAGGCCAC ACGTTGGCTC TGCTACCAAG CCTTCCTGCT CAAGCTGGCT 
GCTCATTCTG TCACCTACAA GTGTCTCCTG GGACCTCTTA GGACAGCCCA AAAACAGCTG 
TGCCGGAAGC TCCCAGAGGC AACAATGACC CTCCTTAAGA CTGCAGCTGA CCCAGCCCTA 
AGCACAGATT TTCAGACCAT TTTGGACTAA

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

RefSeq	XP_008756905.1
CDS	2855..6244
Translation	MPRAPRCPAVRSLLRSRYREVWPLATFVRRLGLEGSRLVQPGDPKVFRTLVAQCLVCVPWGSQPPPADLSFHQVGLQVSSLKELVSRVVQKLCERGERNVLAFGFALLNGARGGPPMAFTTSVHSYLPNSVTESLCVSGAWMLLLSRVGDDLLVYLLSHCALYLLVPPSCAYQVCGSPLYQICATTDTWSSVPAGYRPTRPVGGNFTNLGSAHQIKNSGHQEAPKPQALPSRGTKRLLSLTSTNVPSAKKARFEPALRVDKGPHRQVVPTPSGKTWAPSPAASPKVPPAAKNLSLKGKASDPSLSGSVCCKHKPSSSSLLSSPPQDAEKLRPFTETRHFLYSRGGGQEELNPSFLLNSLPPSLTGARRLVEIIFLGSRPRTSGPFCRTRRLPRRYWQMRPLFQQLLMNHAKCQYVRFLRSHCRFRTANQRVPDAMDTSPSHLTSLLRLHSSPWQVYGFLRACLRELVPAGLWGTRHNERRFLKNVKKFISLGKYAKLSLQELMWRVKVEDCHWLRSSPEKDTVPAAEHRLRERILAMFLFWLMDTYVVQLLRSFFYITETTFQKNRLFFYRKSVWSKLQSIGIRQQLERVQLRELSQEEVKHHQDTWLAMPICRLRFIPKLNGLRPIVNMSYGMDTRAFGKKKQTQCFTQSLKTLFSVLNYERTKHPNLMGASVLGTSDSYRIWRTFVLRVRALDQTPRMYFVKADVTGAYDAIPQDKLVEIVANIIRRSESMYCIRQYAVVQKDSQGQVHKSFRRQVSTLSDLQPYMGQFTKHLQDSDASALRNSVVIEQSISMNETGSSLLHFFLRFVRHSVVKIDGRFYVQCQGIPQGSSLSTLLCSLCFGDMENKLFAEVQQDGLLLRFVDDFLLVTPHLAHAKAFLSTLVHGVPEYGCMINLQKTVVNFPVETGALGGAAPHQLPAHCLFPWCGLLLDTRTLEVFCDYSGYGRTSIKMSLTFQGVSRAGKTMRYKLLSVLRLKCHGLFLDLQVNSLQTVCINIYKIFLLQAYRFHACVIRLPFGQHVRKNHAFFLGIISNLASCCYAILKVKNPGVSLRAKGAPGSFPPEATRWLCYQAFLLKLAAHSVTYKCLLGPLRTAQKQLCRKLPEATMTLLKTAADPALSTDFQTILD

Target ORF information:

RefSeq Version	XM_008758683.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus telomerase reverse transcriptase (Tert), transcript variant X1, mRNA.

Target ORF information:

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

XM_008758683.2

ORF Insert Sequence:

ATGCCCCGCG CTCCTCGTTG CCCCGCCGTG CGCTCTCTAC TGCGCAGCCG ATATCGGGAG 
GTGTGGCCGC TGGCGACCTT TGTGCGGCGC CTGGGGCTTG AGGGCAGTCG GCTTGTGCAA 
CCCGGGGACC CGAAGGTCTT CCGCACGTTG GTTGCCCAGT GCCTAGTGTG CGTGCCCTGG 
GGCTCACAGC CGCCACCTGC TGACCTTTCC TTCCACCAGG TGGGCCTCCA GGTGTCATCC 
CTGAAAGAGC TGGTGTCCAG GGTTGTGCAG AAACTTTGCG AGCGCGGTGA GAGGAATGTG 
CTGGCTTTTG GCTTTGCACT GCTTAACGGG GCCAGAGGTG GGCCTCCCAT GGCCTTCACG 
ACCAGCGTGC ATAGCTACTT GCCCAACTCG GTTACTGAGT CCCTGTGTGT CAGTGGTGCA 
TGGATGCTAC TGTTGAGCCG AGTGGGCGAC GACCTGCTGG TCTACCTGCT GTCGCACTGT 
GCGCTCTACC TGCTGGTGCC CCCCAGCTGT GCCTACCAGG TGTGCGGGTC ACCCCTGTAC 
CAAATTTGTG CCACCACGGA TACCTGGTCC TCTGTGCCCG CTGGTTACAG GCCCACTCGA 
CCCGTGGGCG GGAATTTCAC TAACCTTGGG TCCGCACACC AGATCAAAAA CAGTGGTCAC 
CAGGAAGCAC CAAAACCCCA GGCCTTGCCA TCACGAGGTA CGAAGAGGCT TCTGAGTCTC 
ACCAGTACAA ACGTGCCTTC AGCTAAGAAG GCCAGGTTTG AACCTGCCCT GAGAGTGGAT 
AAGGGACCCC ACAGGCAGGT GGTACCAACC CCATCAGGCA AAACATGGGC GCCAAGTCCT 
GCTGCGTCCC CCAAGGTGCC TCCTGCAGCG AAAAACTTGT CTTTGAAAGG AAAGGCATCT 
GACCCGAGTC TCTCTGGGTC GGTGTGCTGT AAACACAAGC CCAGCTCCTC GTCCCTGCTG 
TCATCACCAC CCCAAGATGC TGAAAAGCTC AGGCCATTCA CTGAGACCAG ACATTTCCTT 
TACTCCAGGG GAGGTGGCCA AGAGGAGCTA AATCCCTCAT TCCTACTCAA CAGCCTCCCG 
CCTAGCTTGA CCGGGGCCAG GAGACTGGTG GAGATCATCT TTCTGGGCTC AAGGCCTAGG 
ACATCAGGAC CATTCTGCAG GACCCGCCGC CTGCCCCGTC GATACTGGCA GATGCGACCC 
CTATTCCAGC AGCTGCTCAT GAACCACGCA AAGTGCCAAT ATGTCAGATT CCTCCGGTCG 
CACTGCAGAT TTCGAACAGC AAACCAGCGG GTGCCGGATG CCATGGACAC CAGCCCATCC 
CACCTCACGA GTTTGCTCCG GTTACACAGC AGCCCCTGGC AGGTATACGG CTTTCTTCGG 
GCCTGCCTCC GCGAGCTGGT GCCTGCCGGT CTCTGGGGCA CCAGGCACAA TGAGCGCCGC 
TTCTTAAAGA ACGTGAAGAA GTTCATCTCG TTGGGGAAGT ACGCCAAGCT ATCCCTGCAG 
GAACTGATGT GGAGGGTGAA AGTGGAGGAC TGCCACTGGC TCCGCAGCAG CCCAGAGAAG 
GACACTGTCC CTGCCGCAGA GCACCGTCTG AGGGAGAGGA TCCTTGCCAT GTTCCTGTTC 
TGGCTAATGG ACACATATGT GGTACAGCTG CTGAGGTCAT TCTTCTACAT CACAGAGACC 
ACGTTCCAGA AGAACCGCCT TTTCTTCTAC CGTAAGAGTG TGTGGAGCAA GCTGCAGAGC 
ATTGGAATCA GGCAACAGCT TGAGAGAGTT CAGCTACGGG AACTGTCACA AGAGGAGGTC 
AAGCATCACC AGGACACTTG GCTGGCCATG CCTATCTGCA GATTGCGCTT CATCCCCAAG 
CTCAATGGTC TCCGGCCCAT TGTGAACATG AGTTATGGCA TGGACACCAG AGCTTTTGGC 
AAAAAGAAGC AGACCCAGTG TTTCACTCAG AGTCTCAAGA CTTTGTTCAG CGTGCTCAAC 
TACGAGCGGA CCAAACATCC TAACCTTATG GGTGCTTCAG TACTGGGTAC GAGTGACAGC 
TACAGGATCT GGCGGACCTT CGTGCTGCGT GTGCGTGCTC TGGACCAGAC ACCCAGGATG 
TACTTTGTTA AGGCAGATGT GACAGGGGCC TATGATGCCA TCCCCCAGGA CAAGCTCGTG 
GAAATTGTCG CCAATATAAT CAGGCGCTCA GAGAGCATGT ACTGTATCCG CCAGTATGCA 
GTGGTTCAGA AAGATAGCCA AGGCCAAGTC CACAAGTCCT TCAGGAGACA GGTCTCCACC 
CTCTCTGACC TCCAGCCATA CATGGGCCAG TTCACCAAGC ATCTGCAGGA CTCAGATGCC 
AGTGCACTGA GGAACTCTGT TGTCATCGAG CAGAGCATCT CCATGAATGA GACTGGCAGT 
AGCCTGCTCC ACTTCTTCCT GCGCTTTGTC CGTCACAGTG TCGTGAAGAT CGATGGCAGG 
TTCTATGTGC AATGCCAGGG CATCCCCCAG GGCTCCAGCC TGTCCACCCT GCTCTGCAGT 
CTGTGTTTCG GAGACATGGA GAACAAGCTG TTTGCCGAGG TGCAGCAGGA CGGCTTGCTT 
TTACGTTTTG TCGATGACTT TCTGTTGGTG ACACCTCACC TGGCCCATGC AAAAGCCTTT 
CTCAGCACCC TGGTCCATGG CGTGCCCGAG TATGGCTGCA TGATAAACTT GCAGAAGACA 
GTGGTGAACT TCCCTGTGGA GACCGGCGCC CTGGGAGGTG CAGCCCCGCA CCAGCTGCCT 
GCTCACTGCC TGTTTCCCTG GTGTGGCTTA CTGCTGGACA CTCGGACTTT GGAAGTATTC 
TGTGACTACT CAGGTTACGG ACGGACCTCA ATTAAGATGA GCCTCACCTT CCAGGGTGTC 
TCCAGGGCCG GGAAGACCAT GCGGTACAAG CTCTTGTCAG TCTTGCGGTT GAAGTGTCAT 
GGTCTGTTTC TAGACTTGCA GGTGAACAGC CTGCAGACAG TCTGCATCAA TATATACAAG 
ATCTTCCTGC TTCAGGCCTA CAGGTTCCAT GCATGTGTGA TTCGGCTTCC CTTTGGCCAG 
CATGTTAGGA AGAACCATGC ATTCTTTCTG GGCATCATCT CCAACCTAGC ATCCTGCTGC 
TACGCCATCC TGAAGGTCAA GAATCCAGGA GTGTCACTAA GGGCCAAGGG TGCCCCTGGC 
TCCTTTCCGC CCGAGGCCAC ACGTTGGCTC TGCTACCAAG CCTTCCTGCT CAAGCTGGCT 
GCTCATTCTG TCACCTACAA GTGTCTCCTG GGACCTCTTA GGACAGCCCA AAAACAGCTG 
TGCCGGAAGC TCCCAGAGGC AACAATGACC CTCCTTAAGA CTGCAGCTGA CCCAGCCCTA 
AGCACAGATT TTCAGACCAT TTTGGACTAA

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

PubMed

Resistance to apoptosis in human cells conferred by telomerase function and telomere stability.
Molecular carcinogenesis25(4)241-8(1999 Aug)
Holt SE,Glinsky VV,Ivanova AB,Glinsky GV

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Tert cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

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:

見積依頼

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