Efl1 cDNA ORF clone, Heterocephalus glaber(naked mole-rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Efl1
Entrez Gene ID	101697880
Full Name	elongation factor like GTPase 1
Synonyms	EFTUD1
Gene Type	protein-coding
Organism	Heterocephalus glaber(naked mole-rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_004852912.1	XP_004852969.1	elongation factor Tu GTP-binding domain-containing protein 1
XM_021264896.1	XP_021120555.1	elongation factor-like GTPase 1

Pathways from BioSystems
Gene Ontology

The following Efl1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Efl1 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
OHe235136	XM_021264896.1 Latest version!	Heterocephalus glaber elongation factor like GTPase 1 (Efl1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OHe46451	XM_004852912.1 Latest version!	Heterocephalus glaber elongation factor Tu GTP binding domain containing 1 (Eftud1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

ORF Online Only Promotion

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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)

Efl1 ( XM_021264896.1 ) cDNA ORF clone, Heterocephalus glaber(naked mole-rat) -> XP_021120555.1 Heterocephalus glaber elongation factor like GTPase 1 (Efl1), mRNA.

Price & Availability↑

CloneID	OHe235136
Clone ID Related Accession (Same CDS sequence)	XM_021264896.1
Accession Version	XM_021264896.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3384bp) 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	2017-05-22
Organism	Heterocephalus glaber(naked mole-rat)
Product	elongation factor-like GTPase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004624768.1) and transcript sequence (GEBF01002199.1) 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 :: Heterocephalus glaber Annotation Release 102 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## assembly gap :: added 124 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGTGCTCA ATAGTTTGGA TAAGATGATT GAACTCCAGA AGAACACTGC CAACATCAGG 
AACATCTGTG TTTTGGCTCA CGTTGACCAT GGAAAAACTA CTCTTGCTGA TTGTCTCATA 
TCTAGTAATG GAATCATCTC CAGCCGACTT GCAGGCAAGT TAAGGTACAT GGACAGCCGA 
GAAGATGAAC AGATCCGAGG GATCACTATG AAATCCAGTG CCATTTCACT ACATTATACA 
AAAGATAATG AGGAGTACCT GATTAATCTC ATAGACTCTC CGGGACATGT GGACTTCTCC 
TCGGAAGTGT CAACAGCTGT TCGAATTTGT GATGGGTGCA TCATTGTGGT AGATGCTGTG 
GAAGGGGTCT GTCCACAGAC ACAGGCAGTT CTGCGACAAG CGTGGCTGGA AAACATACGT 
CCAGTTTTAG TGATTAATAA GATAGATCGT TTGATAGTGG AACTAAAATT CACCCCACAG 
GAGGCATATT CTCACCTCAA GAATATTTTG GAACAGATTA ACGCACTGAC AGGAACACTT 
TTTACTTCTA AAGTCTTAGA AGAAAGAGCA GAGAGAGAAA CTGACTCCCA AGTAAATCCA 
AATTCTGAAC AAGGAGAGCA GGTGTATGAC TGGAGCACTG GCTTGGAGGA CACAGATGAT 
TCTCACCTTT ACTTCTCCCC AGAACAAGGG AATGTGGTGT TTGCCAGTGC CATAGATGGG 
TGGGGCTTTG GAATTGAACA TTTTGCCAAA ATCTATAGTA AAAAAATTGG TATCAAAAAG 
GAAGTTCTTT TGAAAACCCT ATGGGGAGAT TATTATATAA ATATGAAGGC TAAGAAGATT 
ATGAAAGGCG ATCAGGCCAA AGGAAAGAAA CCTTTATTTG TACAGTTGAT CTTGGAAAAT 
ATATGGAGTT TATATGATGC TGTCTTGAAG AAGGACAAAG AAAAAATTGA GAAAATAATG 
ACTTCTTTAG GATTAAAGAT TGGAGCTCGA GAGGCCCGGC ATTCGGACCC TAAGGTTCAG 
ATCAACGCCA TTTGCAGCCA GTGGCTGCCC ATCTCCCATG CTGTCCTTTC CATGGTGTGC 
CAGAAACTTC CCAGTCCCCT GGACATTGCA TCTGAGAGAG TGGAGAAACT GATGTGCACA 
GGATCTCAAA CATTTGACTC TCTTCCCCTG GAAACACAAG CCCTAAAAGG AGCTTTTATG 
AAATGTGAAA GTGAAGATAC TGCTCCAGTT ATTATCTTTG TTTCCAAAAT GTTTGCAGTT 
GATGCTAAGG CCTTGCCTCA GAATAAGCCA AGGCCTCTCA CTCAAGATGA GATTGCTCAG 
AGACGAGAGC GTGCACGACA GAGGCATGCG GAGAAGCTGG CAGTGGCTCA GGGGCAGGGC 
CGTGTGGAGC CCAACCTCAA TGGGGGCATC CTTGAAACAA GTCCACAAGA AGAGCCAAGA 
GGTGATAAAC AGCAGGTGGA GAGTGGGGCC CCTAACCCTG CACCCCAGGA GGAAGACAGC 
CAAGAGTCCT TCATTGCATT TGCTCGTGTG TTCAGTGGTG TGGCTCGAAG AGGAAGGAAA 
ATTTTTGTCT TGGGACCCAA GTACAGTCCT GTTGAATTTT TGCAACGGGT ACCATCAGGC 
TTCTCAACTT CCCCTGACAA CCTCCCCACC GTGCCCCACA TGGCGTGCTG TACATTGGAA 
AACCTGTATC TTCTGATGGG AAGGGAACTG GAAGAGCTAG AGGAGGTGCC TCCAGGAAAT 
GTGCTAGGAA TAGGAGGTCT TCAAGACTTT GTGCTGAAAT CTGCGACCCT GTGTAGCTTG 
CCATCTTGCC CACCTTTCAT ACCACTTAGC TTTGAAGCCA CCCCTATTGT GAGAGTTGCT 
GTTGAGCCGA AACACCCAAG TGAAATGCCT CAGCTTGTGA AAGGAATGAA GCTCTTGAAC 
CAAGCTGATC CCTGTGTCCA GATTTTAATT CAGGAAACAG GAGAGCACGT TTTGGTGACA 
GCAGGGGAAG TTCATCTTCA GCGATGCTTG GATGACTTAA AAGAAAGGTT TGCAAAGATT 
CATATCAGTG TATCTGAACC CATTATTCCA TTTAGAGAAA CAATCACAAA ACCCCCAAAA 
GTTGACATGG TCAATGAAGA AATAGGCAAA CAACAGAAAG TTGCAGTCAT ACACCAAACA 
AGAGAAGATC AGAGCAAAAT CCCTGAAGGA GTCCAGGTTG ACTCTGATGG GCTGATCACC 
ATCACAACCC CCAATAAACT CGCCACACTC AGTGTTCGTG CCATCCCTCT TCCAGAAGAA 
GTCACTCAGA TTCTGGAAGA AAACAGTGAT TTGATTCGTT CTGTGGAACA ACTGACATCT 
TCTTTGGATG ATGGCAAAAA TACTCAGATG ATTCATCAGA AGACCCAAGA GAAAATGTGG 
GAATTCAAAA GAAAACTAGA ACAACATCTA ACAGGGAGAA AATGGAGGAA CACCATTGAC 
CAAATTTGGT CGTTCGGCCC AAGAAAGTGT GGGCCCAACA TACTGGTCAG TAGAAGTGTG 
GACTTCCAGA ACTCGGTGTG GACTGGAGCA GCTGGCAGAG CTTCCCAAGC AGCAAGTAGA 
TACCGAGACC TGGGCAATAG CATCGTGAGT GGCTTCCAGC TGGCAACTCT CTCTGGCCCC 
ATGTGTGAAG AGCCCCTCAT GGGTGTCTGT TTTGTTCTGG AAAAGTGGGA CATAAGTAAA 
CTTGAGGAAC AAGGAGCAAG TGATAACCAG AATCGTGAAC ATAATTATGT GGTAGAAGAG 
GGTCAGGAGG GAGACAGACG CTGTCCCAGT GGAGATGAAA ACCAAGAGTT ACCAGATGGC 
TGCTCAGAGG TCTCTGAGAA GAGGACTTCC CAGAAAGGAG AACCTTCAGT CACTGACTGC 
TATGGGCCCT TTTCAGGACA GCTGATTGCC ACCATGAAGG AAGCATGTCG CTATGCCCTG 
CAGGTGAAAC CACAGCGCCT GATGGCAGCT ATGTACACCT GTGACATCAT GGCCACCAGT 
GACGTTCTTG GTCGAGTCTA TGCTGTCTTG TCAAAGAGAG AAGGCCGGGT GCTTCAAGAA 
GAAATGAAAG AAGGGACGGA CATGTTCATC ATCAAGGCAG TGCTGCCTGT AGCCGAAAGC 
TTTGGCTTTG CTGATGAGAT TAGAAAGAGG ACAAGTGGCC TGGCTAGCCC GCAGCTGGTG 
TTCAGCCACT GGGAGATTAT CCCCAGTGAT CCCTTCTGGG TCCCCACCAC AGAGGAGGAG 
TACCTGCACT TTGGGGAAAA GGCAGATTCT GAGAACCAGG CCCGGAAGTA CATGAATGCT 
GTGCGGAAGC GGAAGGGGCT CCACGTGGAG GAGAAGATTG TGGAACATGC GGAGAAGCAG 
AGGACACTCA GCAAAAACAA GTAG

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

RefSeq	XP_021120555.1
CDS	271..3654
Translation	MVLNSLDKMIELQKNTANIRNICVLAHVDHGKTTLADCLISSNGIISSRLAGKLRYMDSREDEQIRGITMKSSAISLHYTKDNEEYLINLIDSPGHVDFSSEVSTAVRICDGCIIVVDAVEGVCPQTQAVLRQAWLENIRPVLVINKIDRLIVELKFTPQEAYSHLKNILEQINALTGTLFTSKVLEERAERETDSQVNPNSEQGEQVYDWSTGLEDTDDSHLYFSPEQGNVVFASAIDGWGFGIEHFAKIYSKKIGIKKEVLLKTLWGDYYINMKAKKIMKGDQAKGKKPLFVQLILENIWSLYDAVLKKDKEKIEKIMTSLGLKIGAREARHSDPKVQINAICSQWLPISHAVLSMVCQKLPSPLDIASERVEKLMCTGSQTFDSLPLETQALKGAFMKCESEDTAPVIIFVSKMFAVDAKALPQNKPRPLTQDEIAQRRERARQRHAEKLAVAQGQGRVEPNLNGGILETSPQEEPRGDKQQVESGAPNPAPQEEDSQESFIAFARVFSGVARRGRKIFVLGPKYSPVEFLQRVPSGFSTSPDNLPTVPHMACCTLENLYLLMGRELEELEEVPPGNVLGIGGLQDFVLKSATLCSLPSCPPFIPLSFEATPIVRVAVEPKHPSEMPQLVKGMKLLNQADPCVQILIQETGEHVLVTAGEVHLQRCLDDLKERFAKIHISVSEPIIPFRETITKPPKVDMVNEEIGKQQKVAVIHQTREDQSKIPEGVQVDSDGLITITTPNKLATLSVRAIPLPEEVTQILEENSDLIRSVEQLTSSLDDGKNTQMIHQKTQEKMWEFKRKLEQHLTGRKWRNTIDQIWSFGPRKCGPNILVSRSVDFQNSVWTGAAGRASQAASRYRDLGNSIVSGFQLATLSGPMCEEPLMGVCFVLEKWDISKLEEQGASDNQNREHNYVVEEGQEGDRRCPSGDENQELPDGCSEVSEKRTSQKGEPSVTDCYGPFSGQLIATMKEACRYALQVKPQRLMAAMYTCDIMATSDVLGRVYAVLSKREGRVLQEEMKEGTDMFIIKAVLPVAESFGFADEIRKRTSGLASPQLVFSHWEIIPSDPFWVPTTEEEYLHFGEKADSENQARKYMNAVRKRKGLHVEEKIVEHAEKQRTLSKNK

Target ORF information:

RefSeq Version	XM_021264896.1
Organism	Heterocephalus glaber(naked mole-rat)
Definition	Heterocephalus glaber elongation factor like GTPase 1 (Efl1), mRNA.

Target ORF information:

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

XM_021264896.1

ORF Insert Sequence:

ATGGTGCTCA ATAGTTTGGA TAAGATGATT GAACTCCAGA AGAACACTGC CAACATCAGG 
AACATCTGTG TTTTGGCTCA CGTTGACCAT GGAAAAACTA CTCTTGCTGA TTGTCTCATA 
TCTAGTAATG GAATCATCTC CAGCCGACTT GCAGGCAAGT TAAGGTACAT GGACAGCCGA 
GAAGATGAAC AGATCCGAGG GATCACTATG AAATCCAGTG CCATTTCACT ACATTATACA 
AAAGATAATG AGGAGTACCT GATTAATCTC ATAGACTCTC CGGGACATGT GGACTTCTCC 
TCGGAAGTGT CAACAGCTGT TCGAATTTGT GATGGGTGCA TCATTGTGGT AGATGCTGTG 
GAAGGGGTCT GTCCACAGAC ACAGGCAGTT CTGCGACAAG CGTGGCTGGA AAACATACGT 
CCAGTTTTAG TGATTAATAA GATAGATCGT TTGATAGTGG AACTAAAATT CACCCCACAG 
GAGGCATATT CTCACCTCAA GAATATTTTG GAACAGATTA ACGCACTGAC AGGAACACTT 
TTTACTTCTA AAGTCTTAGA AGAAAGAGCA GAGAGAGAAA CTGACTCCCA AGTAAATCCA 
AATTCTGAAC AAGGAGAGCA GGTGTATGAC TGGAGCACTG GCTTGGAGGA CACAGATGAT 
TCTCACCTTT ACTTCTCCCC AGAACAAGGG AATGTGGTGT TTGCCAGTGC CATAGATGGG 
TGGGGCTTTG GAATTGAACA TTTTGCCAAA ATCTATAGTA AAAAAATTGG TATCAAAAAG 
GAAGTTCTTT TGAAAACCCT ATGGGGAGAT TATTATATAA ATATGAAGGC TAAGAAGATT 
ATGAAAGGCG ATCAGGCCAA AGGAAAGAAA CCTTTATTTG TACAGTTGAT CTTGGAAAAT 
ATATGGAGTT TATATGATGC TGTCTTGAAG AAGGACAAAG AAAAAATTGA GAAAATAATG 
ACTTCTTTAG GATTAAAGAT TGGAGCTCGA GAGGCCCGGC ATTCGGACCC TAAGGTTCAG 
ATCAACGCCA TTTGCAGCCA GTGGCTGCCC ATCTCCCATG CTGTCCTTTC CATGGTGTGC 
CAGAAACTTC CCAGTCCCCT GGACATTGCA TCTGAGAGAG TGGAGAAACT GATGTGCACA 
GGATCTCAAA CATTTGACTC TCTTCCCCTG GAAACACAAG CCCTAAAAGG AGCTTTTATG 
AAATGTGAAA GTGAAGATAC TGCTCCAGTT ATTATCTTTG TTTCCAAAAT GTTTGCAGTT 
GATGCTAAGG CCTTGCCTCA GAATAAGCCA AGGCCTCTCA CTCAAGATGA GATTGCTCAG 
AGACGAGAGC GTGCACGACA GAGGCATGCG GAGAAGCTGG CAGTGGCTCA GGGGCAGGGC 
CGTGTGGAGC CCAACCTCAA TGGGGGCATC CTTGAAACAA GTCCACAAGA AGAGCCAAGA 
GGTGATAAAC AGCAGGTGGA GAGTGGGGCC CCTAACCCTG CACCCCAGGA GGAAGACAGC 
CAAGAGTCCT TCATTGCATT TGCTCGTGTG TTCAGTGGTG TGGCTCGAAG AGGAAGGAAA 
ATTTTTGTCT TGGGACCCAA GTACAGTCCT GTTGAATTTT TGCAACGGGT ACCATCAGGC 
TTCTCAACTT CCCCTGACAA CCTCCCCACC GTGCCCCACA TGGCGTGCTG TACATTGGAA 
AACCTGTATC TTCTGATGGG AAGGGAACTG GAAGAGCTAG AGGAGGTGCC TCCAGGAAAT 
GTGCTAGGAA TAGGAGGTCT TCAAGACTTT GTGCTGAAAT CTGCGACCCT GTGTAGCTTG 
CCATCTTGCC CACCTTTCAT ACCACTTAGC TTTGAAGCCA CCCCTATTGT GAGAGTTGCT 
GTTGAGCCGA AACACCCAAG TGAAATGCCT CAGCTTGTGA AAGGAATGAA GCTCTTGAAC 
CAAGCTGATC CCTGTGTCCA GATTTTAATT CAGGAAACAG GAGAGCACGT TTTGGTGACA 
GCAGGGGAAG TTCATCTTCA GCGATGCTTG GATGACTTAA AAGAAAGGTT TGCAAAGATT 
CATATCAGTG TATCTGAACC CATTATTCCA TTTAGAGAAA CAATCACAAA ACCCCCAAAA 
GTTGACATGG TCAATGAAGA AATAGGCAAA CAACAGAAAG TTGCAGTCAT ACACCAAACA 
AGAGAAGATC AGAGCAAAAT CCCTGAAGGA GTCCAGGTTG ACTCTGATGG GCTGATCACC 
ATCACAACCC CCAATAAACT CGCCACACTC AGTGTTCGTG CCATCCCTCT TCCAGAAGAA 
GTCACTCAGA TTCTGGAAGA AAACAGTGAT TTGATTCGTT CTGTGGAACA ACTGACATCT 
TCTTTGGATG ATGGCAAAAA TACTCAGATG ATTCATCAGA AGACCCAAGA GAAAATGTGG 
GAATTCAAAA GAAAACTAGA ACAACATCTA ACAGGGAGAA AATGGAGGAA CACCATTGAC 
CAAATTTGGT CGTTCGGCCC AAGAAAGTGT GGGCCCAACA TACTGGTCAG TAGAAGTGTG 
GACTTCCAGA ACTCGGTGTG GACTGGAGCA GCTGGCAGAG CTTCCCAAGC AGCAAGTAGA 
TACCGAGACC TGGGCAATAG CATCGTGAGT GGCTTCCAGC TGGCAACTCT CTCTGGCCCC 
ATGTGTGAAG AGCCCCTCAT GGGTGTCTGT TTTGTTCTGG AAAAGTGGGA CATAAGTAAA 
CTTGAGGAAC AAGGAGCAAG TGATAACCAG AATCGTGAAC ATAATTATGT GGTAGAAGAG 
GGTCAGGAGG GAGACAGACG CTGTCCCAGT GGAGATGAAA ACCAAGAGTT ACCAGATGGC 
TGCTCAGAGG TCTCTGAGAA GAGGACTTCC CAGAAAGGAG AACCTTCAGT CACTGACTGC 
TATGGGCCCT TTTCAGGACA GCTGATTGCC ACCATGAAGG AAGCATGTCG CTATGCCCTG 
CAGGTGAAAC CACAGCGCCT GATGGCAGCT ATGTACACCT GTGACATCAT GGCCACCAGT 
GACGTTCTTG GTCGAGTCTA TGCTGTCTTG TCAAAGAGAG AAGGCCGGGT GCTTCAAGAA 
GAAATGAAAG AAGGGACGGA CATGTTCATC ATCAAGGCAG TGCTGCCTGT AGCCGAAAGC 
TTTGGCTTTG CTGATGAGAT TAGAAAGAGG ACAAGTGGCC TGGCTAGCCC GCAGCTGGTG 
TTCAGCCACT GGGAGATTAT CCCCAGTGAT CCCTTCTGGG TCCCCACCAC AGAGGAGGAG 
TACCTGCACT TTGGGGAAAA GGCAGATTCT GAGAACCAGG CCCGGAAGTA CATGAATGCT 
GTGCGGAAGC GGAAGGGGCT CCACGTGGAG GAGAAGATTG TGGAACATGC GGAGAAGCAG 
AGGACACTCA GCAAAAACAA GTAG

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

Efl1 ( XM_004852912.1 ) cDNA ORF clone, Heterocephalus glaber(naked mole-rat) -> XP_004852969.1 Heterocephalus glaber elongation factor Tu GTP binding domain containing 1 (Eftud1), mRNA.

Price & Availability↑

CloneID	OHe46451
Clone ID Related Accession (Same CDS sequence)	XM_004852912.1
Accession Version	XM_004852912.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3330bp) 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	2015-07-01
Organism	Heterocephalus glaber(Naked mole-rat)
Product	elongation factor Tu GTP-binding domain-containing protein 1
Comment	MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004624768.1) 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 :: Heterocephalus glaber Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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 ##RefSeq-Attributes-END##

ATGGTGCTCA ATAGTTTGGA TAAGATGATT GAACTCCAGA AGAACACTGC CAACATCAGG 
AACATCTGTG TTTTGGCTCA CGTTGACCAT GGAAAAACTA CTCTTGCTGA TTGTCTCATA 
TCTAGTAATG GAATCATCTC CAGCCGACTT GCAGGCAAGT TAAGGTACAT GGACAGCCGA 
GAAGATGAAC AGATCCGAGG GATCACTATG AAATCCAGTG CCATTTCACT ACATTATACA 
AAAGATAATG AGGAGTACCT GATTAATCTC ATAGACTCTC CGGGACATGT GGACTTCTCC 
TCGGAAGTGT CAACAGCTGT TCGAATTTGT GATGGGTGCA TCATTGTGGT AGATGCTGTG 
GAAGGGGTCT GTCCACAGAC ACAGGCAGTT CTGCGACAAG CGTGGCTGGA AAACATACGT 
CCAGTTTTAG TGATTAATAA GATAGATCGT TTGATAGTGG AACTAAAATT CACCCCACAG 
GAGGCATATT CTCACCTCAA GAATATTTTG GAACAGATTA ACGCACTGAC AGGAACACTT 
TTTACTTCTA AAGTCTTAGA AGAAAGAGCA GAGAGAGAAA CTGACTCCCA AGTAAATCCA 
AATTCTGAAC AAGGAGAGCA GGTGTATGAC TGGAGCACTG GCTTGGAGGA CACAGATGAT 
TCTCACCTTT ACTTCTCCCC AGAACAAGGG AATGTGGTGT TTGCCAGTGC CATAGATGGG 
TGGGGCTTTG GGTTGCTGAA CCACCAGAAA CCAGGAGTAG GCAGCTGTTT CTTTGTGAAG 
CATAGCAGTT CTACCCAGGG AGCCAAAGGA AAGAAACCTT TATTTGTACA GTTGATCTTG 
GAAAATATAT GGAGTTTATA TGATGCTGTC TTGAAGAAGG ACAAAGAAAA AATTGAGAAA 
ATAATGACTT CTTTAGGATT AAAGATTGGA GCTCGAGAGG CCCGGCATTC GGACCCTAAG 
GTTCAGATCA ACGCCATTTG CAGCCAGTGG CTGCCCATCT CCCATGCTGT CCTTTCCATG 
GTGTGCCAGA AACTTCCCAG TCCCCTGGAC ATTGCATCTG AGAGAGTGGA GAAACTGATG 
TGCACAGGAT CTCAAACATT TGACTCTCTT CCCCTGGAAA CACAAGCCCT AAAAGGAGCT 
TTTATGAAAT GTGAAAGTGA AGATACTGCT CCAGTTATTA TCTTTGTTTC CAAAATGTTT 
GCAGTTGATG CTAAGGCCTT GCCTCAGAAT AAGCCAAGGC CTCTCACTCA AGATGAGATT 
GCTCAGAGAC GAGAGCGTGC ACGACAGAGG CATGCGGAGA AGCTGGCAGT GGCTCAGGGG 
CAGGGCCGTG TGGAGCCCAA CCTCAATGGG GGCATCCTTG AAACAAGTCC ACAAGAAGAG 
CCAAGAGGTG ATAAACAGCA GGTGGAGAGT GGGGCCCCTA ACCCTGCACC CCAGGAGGAA 
GACAGCCAAG AGTCCTTCAT TGCATTTGCT CGTGTGTTCA GTGGTGTGGC TCGAAGAGGA 
AGGAAAATTT TTGTCTTGGG ACCCAAGTAC AGTCCTGTTG AATTTTTGCA ACGGGTACCA 
TCAGGCTTCT CAACTTCCCC TGACAACCTC CCCACCGTGC CCCACATGGC GTGCTGTACA 
TTGGAAAACC TGTATCTTCT GATGGGAAGG GAACTGGAAG AGCTAGAGGA GGTGCCTCCA 
GGAAATGTGC TAGGAATAGG AGGTCTTCAA GACTTTGTGC TGAAATCTGC GACCCTGTGT 
AGCTTGCCAT CTTGCCCACC TTTCATACCA CTTAGCTTTG AAGCCACCCC TATTGTGAGA 
GTTGCTGTTG AGCCGAAACA CCCAAGTGAA ATGCCTCAGC TTGTGAAAGG AATGAAGCTC 
TTGAACCAAG CTGATCCCTG TGTCCAGATT TTAATTCAGG AAACAGGAGA GCACGTTTTG 
GTGACAGCAG GGGAAGTTCA TCTTCAGCGA TGCTTGGATG ACTTAAAAGA AAGGTTTGCA 
AAGATTCATA TCAGTGTATC TGAACCCATT ATTCCATTTA GAGAAACAAT CACAAAACCC 
CCAAAAGTTG ACATGGTCAA TGAAGAAATA GGCAAACAAC AGAAAGTTGC AGTCATACAC 
CAAACAAGAG AAGATCAGAG CAAAATCCCT GAAGGAGTCC AGGTTGACTC TGATGGGCTG 
ATCACCATCA CAACCCCCAA TAAACTCGCC ACACTCAGTG TTCGTGCCAT CCCTCTTCCA 
GAAGAAGTCA CTCAGATTCT GGAAGAAAAC AGTGATTTGA TTCGTTCTGT GGAACAACTG 
ACATCTTCTT TGGATGATGG CAAAAATACT CAGATGATTC ATCAGAAGAC CCAAGAGAAA 
ATGTGGGAAT TCAAAAGAAA ACTAGAACAA CATCTAACAG GGAGAAAATG GAGGAACACC 
ATTGACCAAA TTTGGTCGTT CGGCCCAAGA AAGTGTGGGC CCAACATACT GGTCAGTAGA 
AGTGTGGACT TCCAGAACTC GGTGTGGACT GGAGCAGCTG GCAGAGCTTC CCAAGCAGCA 
AGTAGATACC GAGACCTGGG CAATAGCATC GTGAGTGGCT TCCAGCTGGC AACTCTCTCT 
GGCCCCATGT GTGAAGAGCC CCTCATGGGT GTCTGTTTTG TTCTGGAAAA GTGGGACATA 
AGTAAACTTG AGGAACAAGG AGCAAGTGAT AACCAGAATC GTGAACATAA TTATGTGGTA 
GAAGAGGGTC AGGAGGGAGA CAGACGCTGT CCCAGTGGAG ATGAAAACCA AGAGTTACCA 
GATGGCTGCT CAGAGGTCTC TGAGAAGAGG ACTTCCCAGA AAGGAGAACC TTCAGTCACT 
GACTGCTATG GGCCCTTTTC AGGACAGCTG ATTGCCACCA TGAAGGAAGC ATGTCGCTAT 
GCCCTGCAGG TGAAACCACA GCGCCTGATG GCAGCTATGT ACACCTGTGA CATCATGGCC 
ACCAGTGACG TTCTTGGTCG AGTCTATGCT GTCTTGTCAA AGAGAGAAGG CCGGGTGCTT 
CAAGAAGAAA TGAAAGAAGG GACGGACATG TTCATCATCA AGGCAGTGCT GCCTGTAGCC 
GAAAGCTTTG GCTTTGCTGA TGAGATTAGA AAGAGGACAA GTGGCCTGGC TAGCCCGCAG 
CTGGTGTTCA GCCACTGGGA GATTATCCCC AGTGATCCCT TCTGGGTCCC CACCACAGAG 
GAGGAGTACC TGCACTTTGG GGAAAAGGCA GATTCTGAGA ACCAGGCCCG GAAGTACATG 
AATGCTGTGC GGAAGCGGAA GGGGCTCCAC GTGGAGGAGA AGATTGTGGA ACATGCGGAG 
AAGCAGAGGA CACTCAGCAA AAACAAGTAG

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

RefSeq	XP_004852969.1
CDS	271..3600
Translation	MVLNSLDKMIELQKNTANIRNICVLAHVDHGKTTLADCLISSNGIISSRLAGKLRYMDSREDEQIRGITMKSSAISLHYTKDNEEYLINLIDSPGHVDFSSEVSTAVRICDGCIIVVDAVEGVCPQTQAVLRQAWLENIRPVLVINKIDRLIVELKFTPQEAYSHLKNILEQINALTGTLFTSKVLEERAERETDSQVNPNSEQGEQVYDWSTGLEDTDDSHLYFSPEQGNVVFASAIDGWGFGLLNHQKPGVGSCFFVKHSSSTQGAKGKKPLFVQLILENIWSLYDAVLKKDKEKIEKIMTSLGLKIGAREARHSDPKVQINAICSQWLPISHAVLSMVCQKLPSPLDIASERVEKLMCTGSQTFDSLPLETQALKGAFMKCESEDTAPVIIFVSKMFAVDAKALPQNKPRPLTQDEIAQRRERARQRHAEKLAVAQGQGRVEPNLNGGILETSPQEEPRGDKQQVESGAPNPAPQEEDSQESFIAFARVFSGVARRGRKIFVLGPKYSPVEFLQRVPSGFSTSPDNLPTVPHMACCTLENLYLLMGRELEELEEVPPGNVLGIGGLQDFVLKSATLCSLPSCPPFIPLSFEATPIVRVAVEPKHPSEMPQLVKGMKLLNQADPCVQILIQETGEHVLVTAGEVHLQRCLDDLKERFAKIHISVSEPIIPFRETITKPPKVDMVNEEIGKQQKVAVIHQTREDQSKIPEGVQVDSDGLITITTPNKLATLSVRAIPLPEEVTQILEENSDLIRSVEQLTSSLDDGKNTQMIHQKTQEKMWEFKRKLEQHLTGRKWRNTIDQIWSFGPRKCGPNILVSRSVDFQNSVWTGAAGRASQAASRYRDLGNSIVSGFQLATLSGPMCEEPLMGVCFVLEKWDISKLEEQGASDNQNREHNYVVEEGQEGDRRCPSGDENQELPDGCSEVSEKRTSQKGEPSVTDCYGPFSGQLIATMKEACRYALQVKPQRLMAAMYTCDIMATSDVLGRVYAVLSKREGRVLQEEMKEGTDMFIIKAVLPVAESFGFADEIRKRTSGLASPQLVFSHWEIIPSDPFWVPTTEEEYLHFGEKADSENQARKYMNAVRKRKGLHVEEKIVEHAEKQRTLSKNK

Target ORF information:

RefSeq Version	XM_004852912.1
Organism	Heterocephalus glaber(Naked mole-rat)
Definition	Heterocephalus glaber elongation factor Tu GTP binding domain containing 1 (Eftud1), mRNA.

Target ORF information:

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

XM_004852912.1

ORF Insert Sequence:

ATGGTGCTCA ATAGTTTGGA TAAGATGATT GAACTCCAGA AGAACACTGC CAACATCAGG 
AACATCTGTG TTTTGGCTCA CGTTGACCAT GGAAAAACTA CTCTTGCTGA TTGTCTCATA 
TCTAGTAATG GAATCATCTC CAGCCGACTT GCAGGCAAGT TAAGGTACAT GGACAGCCGA 
GAAGATGAAC AGATCCGAGG GATCACTATG AAATCCAGTG CCATTTCACT ACATTATACA 
AAAGATAATG AGGAGTACCT GATTAATCTC ATAGACTCTC CGGGACATGT GGACTTCTCC 
TCGGAAGTGT CAACAGCTGT TCGAATTTGT GATGGGTGCA TCATTGTGGT AGATGCTGTG 
GAAGGGGTCT GTCCACAGAC ACAGGCAGTT CTGCGACAAG CGTGGCTGGA AAACATACGT 
CCAGTTTTAG TGATTAATAA GATAGATCGT TTGATAGTGG AACTAAAATT CACCCCACAG 
GAGGCATATT CTCACCTCAA GAATATTTTG GAACAGATTA ACGCACTGAC AGGAACACTT 
TTTACTTCTA AAGTCTTAGA AGAAAGAGCA GAGAGAGAAA CTGACTCCCA AGTAAATCCA 
AATTCTGAAC AAGGAGAGCA GGTGTATGAC TGGAGCACTG GCTTGGAGGA CACAGATGAT 
TCTCACCTTT ACTTCTCCCC AGAACAAGGG AATGTGGTGT TTGCCAGTGC CATAGATGGG 
TGGGGCTTTG GGTTGCTGAA CCACCAGAAA CCAGGAGTAG GCAGCTGTTT CTTTGTGAAG 
CATAGCAGTT CTACCCAGGG AGCCAAAGGA AAGAAACCTT TATTTGTACA GTTGATCTTG 
GAAAATATAT GGAGTTTATA TGATGCTGTC TTGAAGAAGG ACAAAGAAAA AATTGAGAAA 
ATAATGACTT CTTTAGGATT AAAGATTGGA GCTCGAGAGG CCCGGCATTC GGACCCTAAG 
GTTCAGATCA ACGCCATTTG CAGCCAGTGG CTGCCCATCT CCCATGCTGT CCTTTCCATG 
GTGTGCCAGA AACTTCCCAG TCCCCTGGAC ATTGCATCTG AGAGAGTGGA GAAACTGATG 
TGCACAGGAT CTCAAACATT TGACTCTCTT CCCCTGGAAA CACAAGCCCT AAAAGGAGCT 
TTTATGAAAT GTGAAAGTGA AGATACTGCT CCAGTTATTA TCTTTGTTTC CAAAATGTTT 
GCAGTTGATG CTAAGGCCTT GCCTCAGAAT AAGCCAAGGC CTCTCACTCA AGATGAGATT 
GCTCAGAGAC GAGAGCGTGC ACGACAGAGG CATGCGGAGA AGCTGGCAGT GGCTCAGGGG 
CAGGGCCGTG TGGAGCCCAA CCTCAATGGG GGCATCCTTG AAACAAGTCC ACAAGAAGAG 
CCAAGAGGTG ATAAACAGCA GGTGGAGAGT GGGGCCCCTA ACCCTGCACC CCAGGAGGAA 
GACAGCCAAG AGTCCTTCAT TGCATTTGCT CGTGTGTTCA GTGGTGTGGC TCGAAGAGGA 
AGGAAAATTT TTGTCTTGGG ACCCAAGTAC AGTCCTGTTG AATTTTTGCA ACGGGTACCA 
TCAGGCTTCT CAACTTCCCC TGACAACCTC CCCACCGTGC CCCACATGGC GTGCTGTACA 
TTGGAAAACC TGTATCTTCT GATGGGAAGG GAACTGGAAG AGCTAGAGGA GGTGCCTCCA 
GGAAATGTGC TAGGAATAGG AGGTCTTCAA GACTTTGTGC TGAAATCTGC GACCCTGTGT 
AGCTTGCCAT CTTGCCCACC TTTCATACCA CTTAGCTTTG AAGCCACCCC TATTGTGAGA 
GTTGCTGTTG AGCCGAAACA CCCAAGTGAA ATGCCTCAGC TTGTGAAAGG AATGAAGCTC 
TTGAACCAAG CTGATCCCTG TGTCCAGATT TTAATTCAGG AAACAGGAGA GCACGTTTTG 
GTGACAGCAG GGGAAGTTCA TCTTCAGCGA TGCTTGGATG ACTTAAAAGA AAGGTTTGCA 
AAGATTCATA TCAGTGTATC TGAACCCATT ATTCCATTTA GAGAAACAAT CACAAAACCC 
CCAAAAGTTG ACATGGTCAA TGAAGAAATA GGCAAACAAC AGAAAGTTGC AGTCATACAC 
CAAACAAGAG AAGATCAGAG CAAAATCCCT GAAGGAGTCC AGGTTGACTC TGATGGGCTG 
ATCACCATCA CAACCCCCAA TAAACTCGCC ACACTCAGTG TTCGTGCCAT CCCTCTTCCA 
GAAGAAGTCA CTCAGATTCT GGAAGAAAAC AGTGATTTGA TTCGTTCTGT GGAACAACTG 
ACATCTTCTT TGGATGATGG CAAAAATACT CAGATGATTC ATCAGAAGAC CCAAGAGAAA 
ATGTGGGAAT TCAAAAGAAA ACTAGAACAA CATCTAACAG GGAGAAAATG GAGGAACACC 
ATTGACCAAA TTTGGTCGTT CGGCCCAAGA AAGTGTGGGC CCAACATACT GGTCAGTAGA 
AGTGTGGACT TCCAGAACTC GGTGTGGACT GGAGCAGCTG GCAGAGCTTC CCAAGCAGCA 
AGTAGATACC GAGACCTGGG CAATAGCATC GTGAGTGGCT TCCAGCTGGC AACTCTCTCT 
GGCCCCATGT GTGAAGAGCC CCTCATGGGT GTCTGTTTTG TTCTGGAAAA GTGGGACATA 
AGTAAACTTG AGGAACAAGG AGCAAGTGAT AACCAGAATC GTGAACATAA TTATGTGGTA 
GAAGAGGGTC AGGAGGGAGA CAGACGCTGT CCCAGTGGAG ATGAAAACCA AGAGTTACCA 
GATGGCTGCT CAGAGGTCTC TGAGAAGAGG ACTTCCCAGA AAGGAGAACC TTCAGTCACT 
GACTGCTATG GGCCCTTTTC AGGACAGCTG ATTGCCACCA TGAAGGAAGC ATGTCGCTAT 
GCCCTGCAGG TGAAACCACA GCGCCTGATG GCAGCTATGT ACACCTGTGA CATCATGGCC 
ACCAGTGACG TTCTTGGTCG AGTCTATGCT GTCTTGTCAA AGAGAGAAGG CCGGGTGCTT 
CAAGAAGAAA TGAAAGAAGG GACGGACATG TTCATCATCA AGGCAGTGCT GCCTGTAGCC 
GAAAGCTTTG GCTTTGCTGA TGAGATTAGA AAGAGGACAA GTGGCCTGGC TAGCCCGCAG 
CTGGTGTTCA GCCACTGGGA GATTATCCCC AGTGATCCCT TCTGGGTCCC CACCACAGAG 
GAGGAGTACC TGCACTTTGG GGAAAAGGCA GATTCTGAGA ACCAGGCCCG GAAGTACATG 
AATGCTGTGC GGAAGCGGAA GGGGCTCCAC GTGGAGGAGA AGATTGTGGA ACATGCGGAG 
AAGCAGAGGA CACTCAGCAA AAACAAGTAG