Qser1 cDNA ORF clone, Fukomys damarensis(Damara mole-rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Qser1
Entrez Gene ID	104854212
Full Name	glutamine and serine rich 1
Gene Type	protein-coding
Organism	Fukomys damarensis(Damara mole-rat)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010612649.2	XP_010610951.1	glutamine and serine-rich protein 1 isoform X1
XM_010612650.2	XP_010610952.1	glutamine and serine-rich protein 1 isoform X2

Pathways from BioSystems
Gene Ontology

The following Qser1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Qser1 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
OFu84997	XM_010612649.2 Latest version!	Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
OFu84998	XM_010612650.2 Latest version!	Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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)

Qser1 ( XM_010612649.2 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_010610951.1 Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OFu84997
Clone ID Related Accession (Same CDS sequence)	XM_010612649.2
Accession Version	XM_010612649.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5547bp) 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	2016-11-23
Organism	Fukomys damarensis(Damara mole-rat)
Product	glutamine and serine-rich 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_011047481.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 24, 2016 this sequence version replaced XM_010612649.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Fukomys damarensis Annotation Release 101 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##

ATGAAAGAAC CCCCGGGTGC GGGGCCGGGG AGGGGGCCTG GCGAGGTTCG AACGCCGAGC 
TGGGGCTGGG TGACATATGT TTGCAGCGGT GGCCAAGATG AAGCGATCTG TCTTCCACGC 
GTTCAAAGTT GCTTTTGGGT TCCCTCCCCT TTTAACAGCA GGAATTTAAG CTATGAAGAA 
GGACATCCCT CCCAGTCTGG ACCAGATCTC CAGAGACAGA CGGTTGCAGC CTCTCATCAG 
CTTCCTGCAT ATGCCCCTAC ACCTCAGCCA GCCGGACTTT CAGGAATATT TGAGACAAGT 
GTGAACAGTG CCAGCACCAA CACTAAAGAA TCTTCTGTGA TGAATTTTCT CTCCACTATT 
GAGTCTCGAA CTGCTCAGGC TGCTTCTTCA GGAACGAATC TTCTACCACA ATTCAGGGCT 
CCATCCTGGC AGACAGGCAT GCATTCCTCA GCACCAACTG AGTTTGTCAC TGGACCTTTG 
CCAACTACTG GAGCTCTTCC ACCATCTGCC CTCTCTGCTT ACCACCATCC TACCACCTTT 
AGCAATAGAA ACTTTGTTAC CACCTCACCT TTGGTGCTTC AAGACTCAAC TTTTAACACT 
ACATCAAATG GAATTTTAAA TCCTCATGAC CCTTTGCTAC AAATTAAGAC TTCCCAGGGA 
ACTATTCCAA CTGCTTTGGC ATTTGAGCGC CTAGGCAGTT CTGCATTAAG TAACAGTGTA 
CCACCTCAGT CTTCAACATA TCGTTCAGCT CAAGAGTCTG CACCCCATCT TTTACAACCT 
CAGTTTAGTT TGTTGCCTTC AGCACTGGGG GGTGCCCAGC AAACTCCTCA AGCTTACAGT 
TCAACTCTCT TCTCTAGTTC TGCTTCCATT GAAAGAGCTC TTCTTCGAGA ATGTAGTGTT 
ATTAAACACC ATCAGCGGCC TTCAGGTACC CAGTCTATTC AGGCACAACT GACTGGTTCA 
CAGCATTCCG TACATAGTTA TCTAGCAAAT ACAAATGTGG TTAATTTTCA GGAAACAACC 
AGGCAGTCGT CTTTACCTTG TAGCCCAATA GGAGATTCTA CTCAGGTAAG CAATGGAGGT 
TTGCAGCAGA AGACCCCACA GGTCTCTGTG GAAGTTGCTC AGTCTTACTC ATCTGCAATT 
CCATCATCAG GGTATCTTCC TGCTACAACA AAAGTAAACA GCTGTTCTAC AAAACAAGCA 
CTAACGTCAA CTAAGACCCC ACAACCTCAT AATATAATTC CTGCTGTGCA AACACTAAGC 
TATTCCAAAC CCTTACATAA CCAGAGTTCT GTAATATCAG GTCAAGCACA AATCTATTCT 
ACAGCACAGC TACCAAGCCT TTTATCTGTC AGTCAGTCAC AAAATTATGG TTTAGTACAG 
CCATATAATG TGCCATCTAT TGTTCATTCA CAAGTTTATA GGCCCAGCAA GGTTGAGAAA 
TTGCCATCCT TGTATAAAAC ATTGACTTTC TCTGGGTCAT CTCAGCCTAT AACTTCTGAA 
AATCAGACAC TTAGTTACTC ATCCACTCAG CAAGAAGTAT TATCTTCAGT TACAAATGAA 
AATTACCCTG CTCAAACAAG AGATCTTTCT TCAGTCAGTG AGTCTCAGAG TTATTCATCT 
GGTCACTCTC AGGGTTTATC ACCAGTTAGC CAGACACAGG TTAGTTTTTC ATCTCAATCA 
CAAGTTTTGT CAGTTGGTAG TCCTTCAGAA AGCTATGCTT CGGGACAGTC CCTGACATTA 
ACAGCCCCAT CGCTTTCTTA TTCTTCTGCC TCTCAGCCCC AGAATTTGTC AGATTCTAAC 
CCAAGCCAGA ATTACATTTC TGTGCATTCT TCCCAAAATG CCCAGACTCA AGGGTCATCA 
TCTCCTCAGC CCCAGAAGTT TTTGCCTGCT ATCCAGTCAT CATCTTTTGC ATCCTCTACA 
CATTGTCATG CATTACAGAA TAATATATCT TCCCCTGATT CAAAGTCTTA TGCTGAAGGA 
AAACTCAGCT TAAATGTGTA TACATCTTCA AAGCAAGAAG GTAACTTTCC AATGCAGGAG 
TTACAGGCGT TGCAATCACA GGCATCTCTT GAATCTTCAG CCCAAAGGCT ATCAGATGGG 
GAAATTAATG CTCCAGAATC AACTTACAAG GTGTCCAAGG CGGATGACAG ATACTCCCAG 
AGTGTAATCA GAAGTAATTC CCATCTTGAA GATCAAGTTG TTGGGATTCC TATACCAGGG 
CCAAAGAAAG AAGAAAACAT AGTCGGTTCA GTGACACAAC TTAGCCAACA AATTGGTCAA 
GCTAATAATG GAACATCCCT TGATCTTAAG GCAACTAATT TAATACAAAG TCCACAAATA 
AGTTTGAATA CTAAAGATTT AAACCAACAG CATCCTCTTA TACATAAAAT ACATGAAGCC 
AAGGTCCAGG AACAGCATGA TCAAGTAATT AATGCCTCAT CTCAGATTCA GATTCCAAAT 
CATACATTAG GGCCTGGACA TCAGGCCCCT CATACTAATA ATACACAGGT CCTTTTAGAT 
TCTACCTGTG ATTTACAGAT TCTTCAGCAG TCAATACTGC AGGCAAGTTT AGGACAAGTA 
AAGACATCTT TACAAGTGCA GCGTGTCCAG AGTCCTCAAC AAATTGTACA TCCTTTCCTT 
CAAATGGATG GTCATATTAT TCAGAACAAT GGTGATCATT CTCAGCAGCA ACTCCATCCT 
CAAAATTCTG AAATTATGAA AATGGACCTC TCTGAATCTT CGAAACCATT GCAACAACAT 
TTGACAACGA AGGGCAATTT CAATCAAACA GATCAACAAG ATTCAAAGAA TCAGTTTGTT 
TCTCTTGGAT CAATATGTTT CCCAGAAGCA ATGCTTCTCA GTGATGAACG AAATATTTTA 
TCAAATGTAG ATGACATCTT GGCAGCTACA GCAGCAGTTT GTGGGGTTAC ACCTTCTGAT 
TTTTCCAAGT CATCTCCAAA TGAAACCATG CAAACTGTTG AAGATGGTGA TTCTAAATCT 
CATTTTCCAC AGCCATTAGA TATGAGGCAT GTGACATCAG ATTTTAATTC CATAACAGCT 
ACAGTAGGAA AACCACAGAA TCTAAATGAT ATTCCCCTAG ATGGAAATCA GGTTACTGTA 
AACATTTCAC CAGTACCAAC CCTTCAGTCA AAAATGACCC TTGATCAACA GCACATGGAT 
ACACCTGGTC AAAGTCTACC AACTAAAGTA ACTTCAGCAG GAGTTCGACC AAATCATGAA 
GTCCAGGAGC AAAGTTGTGG CCCATTCAAG AAGCAGTCTG CTACCAGTCA TGAATCTGAG 
GAAGACAGTG AAGTTCCTGT TGATCATACA TTAAATAATA ACAGAAACCA AGAGTTTGTT 
TCCAGTAGTA GAAGCATGAG TGGAGAGAGT GCTACGTCAG AGAGTGAATT TACTTTAGGG 
GGTGATGAAA GCAGTGTGTC AATGGACCCT ACTAGAAGTG TACTTGCACT GTTGGCTGTG 
GCCCAGCCTG GGGATACAAT CAGTGTCAAG CTTGAAGAAA ACCAAGATTT AATACATCTT 
AACCTTCCAA AGAAAAAGGT GAAAGGGAAA GGGCAAATTA AAGAGGAAGA CATCAGTAAT 
CAGAAACAGC TGAAAAGACC TGCCCAGGGC AAACGCCAGA ATCCCAGGGG AACAGATATG 
TATCTACCAT ATACTCCTCC TCCCTCTGAA AGCTGCCATG ATGATGATCA GCATCAAGAG 
AAAATGAGAC AGAAGATCAA AGAAGTAGAG GAAAAACAGC CAGAAGTCAA AACAGGATTT 
ATCGCTTCTT TCTTGGATTT TCTGAAATCT GGCCCCAAAC AGCAGTTTTC TACTCTTGCC 
ATCCGAATGC CTAACAGGAC CAGACGCCCA ACGACCCAGA TTATGCGTAC ATTTTGCCCC 
CCTCCATTTC CAAAAATTTC ATCTACAACA CCCACACCTT TAGTGACGGA AACTAGGGCT 
AACAGTCCTT CGGAAAAAGT TGATAAACTT AAAAGCTTGG AACATTCATC TTCATTTTCT 
TCCGATGAAG ATGATCCTGG AGTGTGCAGT CAGGATGTTT ATAAAACCAT CTCTGCTTCC 
TTAACTGTGC TGGATGCTAC TTCTAATAAA AGGAAGAAAA CAGTTTCAGA AGCCCTACAG 
GTGGCAACTC CTAGCCCATC TGCCATTACA ACTGGTACTG CTACGACTTC TTCCACCACT 
GTGTGTGCAG CTAAGCAAGA ACCTCTCCAC TCTACTTCCT CTGCAGTAAA CAGCATGGAA 
AATATAAATG CCACTGAAAC CCCAAAACCC ATCGAACTTG GTAGTCTTCC TTCAGACCAA 
TTGGCAAAAG GACAGGACAC TGTTGCCATA GAAGGTTTTA CAGATGAGGA AAACACAGAG 
AGCGGAGGAG AAGGCCAATA CAGAGAGCGT GATGAATTTG TGATAAAGAT AGAAGACATA 
GAGACTTTTA AGGAGGCTTT AAAAACAGGT ATGGAACCCC CAGCTATTTG GAAAGTACAG 
AAAGCTTTAT TACAGAAATT TGTTCCTGAA ATTCGAGATG GACAAAGAGA ATTTGCAGCT 
ACAAACAGTT ACCTAGGATA TTTTGGAGAT GCGAAGAACA AATACAAAAG GATATATGCA 
AAGTTCATTG AAAATGCAAA CAAAAAGGAG TATGTCAGAG TATGTTCCAA AAAGCCAAGA 
AATAAGCCTT CACACACTAT CAGAACTGTT CAGGCCAAAC AAAGTACTAG CAGTAAAACT 
ACAGATCCTC CATCATCAAA AACTACAAGT ACAAAAGTCC CTGCCATGAA ACCCAAAGTT 
AAACAGCTAA AAATAAAGGC TGAGCCACCA CCAAAGAAGC GGAAGAAATG GAAAGAAGAA 
TTTTCATCAT CGCATTCTGA GTCATCTCCT GATTTTCAGT CTAGTAGTAC CGAGGACGAG 
GAATTTGATC CTCCAGCTCC TTTTGTCACT CGGTTTTTGA ACACAAGAGC AATGAAAGAA 
ACTTTCAAGA GTTATATGGA ACTGCTTGTT AGTATTGCCT TGGACCCAGA CACTATGCAA 
GCCTTAGAGA AGAGCAATGA TGAGCTACTT TTACCTCATA TGAAAAAAAT AGATGGCATG 
CTGAATGATA ATCGAAAAAG ACTTCTTTTG AATCTTCATT TAGATCAGCC ATTCAAGAAT 
GCTTTGGAGA GTTTTCCTGA ACTAACAGTA ATTACTCGAG ACTCTAAAGC AAAAAGTGGA 
GGATCTGCTA TTTCTAAAAT CAAAATGAAT GGCAAAGCTT ATAATAAGAA AACTCTGAGG 
ACTTCTAAAA CAACCACTAA ATCTGCACAG GAGTTTGCCG TTGATCCAGA GAAAATACAG 
CTGTATTCTT TGTACCATTC ACTCCATCAT TATAAATATC ATGTTTACCT GATGTGTAAA 
GATGAGATTT CTTCTGTGCA GAAAAAAAAT GAAGACTTAG GACAAGAGGA AATTGTTCAA 
CTTTGTATGA AAAATGTAAA ATGGGTGGAG GACCTATTTG AAAAATTTGG AGAACTTCTA 
AATCATGTTC AGCAGAAATG TTCCTAA

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

RefSeq	XP_010610951.1
CDS	99..5645
Translation	MKEPPGAGPGRGPGEVRTPSWGWVTYVCSGGQDEAICLPRVQSCFWVPSPFNSRNLSYEEGHPSQSGPDLQRQTVAASHQLPAYAPTPQPAGLSGIFETSVNSASTNTKESSVMNFLSTIESRTAQAASSGTNLLPQFRAPSWQTGMHSSAPTEFVTGPLPTTGALPPSALSAYHHPTTFSNRNFVTTSPLVLQDSTFNTTSNGILNPHDPLLQIKTSQGTIPTALAFERLGSSALSNSVPPQSSTYRSAQESAPHLLQPQFSLLPSALGGAQQTPQAYSSTLFSSSASIERALLRECSVIKHHQRPSGTQSIQAQLTGSQHSVHSYLANTNVVNFQETTRQSSLPCSPIGDSTQVSNGGLQQKTPQVSVEVAQSYSSAIPSSGYLPATTKVNSCSTKQALTSTKTPQPHNIIPAVQTLSYSKPLHNQSSVISGQAQIYSTAQLPSLLSVSQSQNYGLVQPYNVPSIVHSQVYRPSKVEKLPSLYKTLTFSGSSQPITSENQTLSYSSTQQEVLSSVTNENYPAQTRDLSSVSESQSYSSGHSQGLSPVSQTQVSFSSQSQVLSVGSPSESYASGQSLTLTAPSLSYSSASQPQNLSDSNPSQNYISVHSSQNAQTQGSSSPQPQKFLPAIQSSSFASSTHCHALQNNISSPDSKSYAEGKLSLNVYTSSKQEGNFPMQELQALQSQASLESSAQRLSDGEINAPESTYKVSKADDRYSQSVIRSNSHLEDQVVGIPIPGPKKEENIVGSVTQLSQQIGQANNGTSLDLKATNLIQSPQISLNTKDLNQQHPLIHKIHEAKVQEQHDQVINASSQIQIPNHTLGPGHQAPHTNNTQVLLDSTCDLQILQQSILQASLGQVKTSLQVQRVQSPQQIVHPFLQMDGHIIQNNGDHSQQQLHPQNSEIMKMDLSESSKPLQQHLTTKGNFNQTDQQDSKNQFVSLGSICFPEAMLLSDERNILSNVDDILAATAAVCGVTPSDFSKSSPNETMQTVEDGDSKSHFPQPLDMRHVTSDFNSITATVGKPQNLNDIPLDGNQVTVNISPVPTLQSKMTLDQQHMDTPGQSLPTKVTSAGVRPNHEVQEQSCGPFKKQSATSHESEEDSEVPVDHTLNNNRNQEFVSSSRSMSGESATSESEFTLGGDESSVSMDPTRSVLALLAVAQPGDTISVKLEENQDLIHLNLPKKKVKGKGQIKEEDISNQKQLKRPAQGKRQNPRGTDMYLPYTPPPSESCHDDDQHQEKMRQKIKEVEEKQPEVKTGFIASFLDFLKSGPKQQFSTLAIRMPNRTRRPTTQIMRTFCPPPFPKISSTTPTPLVTETRANSPSEKVDKLKSLEHSSSFSSDEDDPGVCSQDVYKTISASLTVLDATSNKRKKTVSEALQVATPSPSAITTGTATTSSTTVCAAKQEPLHSTSSAVNSMENINATETPKPIELGSLPSDQLAKGQDTVAIEGFTDEENTESGGEGQYRERDEFVIKIEDIETFKEALKTGMEPPAIWKVQKALLQKFVPEIRDGQREFAATNSYLGYFGDAKNKYKRIYAKFIENANKKEYVRVCSKKPRNKPSHTIRTVQAKQSTSSKTTDPPSSKTTSTKVPAMKPKVKQLKIKAEPPPKKRKKWKEEFSSSHSESSPDFQSSSTEDEEFDPPAPFVTRFLNTRAMKETFKSYMELLVSIALDPDTMQALEKSNDELLLPHMKKIDGMLNDNRKRLLLNLHLDQPFKNALESFPELTVITRDSKAKSGGSAISKIKMNGKAYNKKTLRTSKTTTKSAQEFAVDPEKIQLYSLYHSLHHYKYHVYLMCKDEISSVQKKNEDLGQEEIVQLCMKNVKWVEDLFEKFGELLNHVQQKCS

Target ORF information:

RefSeq Version	XM_010612649.2
Organism	Fukomys damarensis(Damara mole-rat)
Definition	Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X1, mRNA.

Target ORF information:

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

XM_010612649.2

ORF Insert Sequence:

ATGAAAGAAC CCCCGGGTGC GGGGCCGGGG AGGGGGCCTG GCGAGGTTCG AACGCCGAGC 
TGGGGCTGGG TGACATATGT TTGCAGCGGT GGCCAAGATG AAGCGATCTG TCTTCCACGC 
GTTCAAAGTT GCTTTTGGGT TCCCTCCCCT TTTAACAGCA GGAATTTAAG CTATGAAGAA 
GGACATCCCT CCCAGTCTGG ACCAGATCTC CAGAGACAGA CGGTTGCAGC CTCTCATCAG 
CTTCCTGCAT ATGCCCCTAC ACCTCAGCCA GCCGGACTTT CAGGAATATT TGAGACAAGT 
GTGAACAGTG CCAGCACCAA CACTAAAGAA TCTTCTGTGA TGAATTTTCT CTCCACTATT 
GAGTCTCGAA CTGCTCAGGC TGCTTCTTCA GGAACGAATC TTCTACCACA ATTCAGGGCT 
CCATCCTGGC AGACAGGCAT GCATTCCTCA GCACCAACTG AGTTTGTCAC TGGACCTTTG 
CCAACTACTG GAGCTCTTCC ACCATCTGCC CTCTCTGCTT ACCACCATCC TACCACCTTT 
AGCAATAGAA ACTTTGTTAC CACCTCACCT TTGGTGCTTC AAGACTCAAC TTTTAACACT 
ACATCAAATG GAATTTTAAA TCCTCATGAC CCTTTGCTAC AAATTAAGAC TTCCCAGGGA 
ACTATTCCAA CTGCTTTGGC ATTTGAGCGC CTAGGCAGTT CTGCATTAAG TAACAGTGTA 
CCACCTCAGT CTTCAACATA TCGTTCAGCT CAAGAGTCTG CACCCCATCT TTTACAACCT 
CAGTTTAGTT TGTTGCCTTC AGCACTGGGG GGTGCCCAGC AAACTCCTCA AGCTTACAGT 
TCAACTCTCT TCTCTAGTTC TGCTTCCATT GAAAGAGCTC TTCTTCGAGA ATGTAGTGTT 
ATTAAACACC ATCAGCGGCC TTCAGGTACC CAGTCTATTC AGGCACAACT GACTGGTTCA 
CAGCATTCCG TACATAGTTA TCTAGCAAAT ACAAATGTGG TTAATTTTCA GGAAACAACC 
AGGCAGTCGT CTTTACCTTG TAGCCCAATA GGAGATTCTA CTCAGGTAAG CAATGGAGGT 
TTGCAGCAGA AGACCCCACA GGTCTCTGTG GAAGTTGCTC AGTCTTACTC ATCTGCAATT 
CCATCATCAG GGTATCTTCC TGCTACAACA AAAGTAAACA GCTGTTCTAC AAAACAAGCA 
CTAACGTCAA CTAAGACCCC ACAACCTCAT AATATAATTC CTGCTGTGCA AACACTAAGC 
TATTCCAAAC CCTTACATAA CCAGAGTTCT GTAATATCAG GTCAAGCACA AATCTATTCT 
ACAGCACAGC TACCAAGCCT TTTATCTGTC AGTCAGTCAC AAAATTATGG TTTAGTACAG 
CCATATAATG TGCCATCTAT TGTTCATTCA CAAGTTTATA GGCCCAGCAA GGTTGAGAAA 
TTGCCATCCT TGTATAAAAC ATTGACTTTC TCTGGGTCAT CTCAGCCTAT AACTTCTGAA 
AATCAGACAC TTAGTTACTC ATCCACTCAG CAAGAAGTAT TATCTTCAGT TACAAATGAA 
AATTACCCTG CTCAAACAAG AGATCTTTCT TCAGTCAGTG AGTCTCAGAG TTATTCATCT 
GGTCACTCTC AGGGTTTATC ACCAGTTAGC CAGACACAGG TTAGTTTTTC ATCTCAATCA 
CAAGTTTTGT CAGTTGGTAG TCCTTCAGAA AGCTATGCTT CGGGACAGTC CCTGACATTA 
ACAGCCCCAT CGCTTTCTTA TTCTTCTGCC TCTCAGCCCC AGAATTTGTC AGATTCTAAC 
CCAAGCCAGA ATTACATTTC TGTGCATTCT TCCCAAAATG CCCAGACTCA AGGGTCATCA 
TCTCCTCAGC CCCAGAAGTT TTTGCCTGCT ATCCAGTCAT CATCTTTTGC ATCCTCTACA 
CATTGTCATG CATTACAGAA TAATATATCT TCCCCTGATT CAAAGTCTTA TGCTGAAGGA 
AAACTCAGCT TAAATGTGTA TACATCTTCA AAGCAAGAAG GTAACTTTCC AATGCAGGAG 
TTACAGGCGT TGCAATCACA GGCATCTCTT GAATCTTCAG CCCAAAGGCT ATCAGATGGG 
GAAATTAATG CTCCAGAATC AACTTACAAG GTGTCCAAGG CGGATGACAG ATACTCCCAG 
AGTGTAATCA GAAGTAATTC CCATCTTGAA GATCAAGTTG TTGGGATTCC TATACCAGGG 
CCAAAGAAAG AAGAAAACAT AGTCGGTTCA GTGACACAAC TTAGCCAACA AATTGGTCAA 
GCTAATAATG GAACATCCCT TGATCTTAAG GCAACTAATT TAATACAAAG TCCACAAATA 
AGTTTGAATA CTAAAGATTT AAACCAACAG CATCCTCTTA TACATAAAAT ACATGAAGCC 
AAGGTCCAGG AACAGCATGA TCAAGTAATT AATGCCTCAT CTCAGATTCA GATTCCAAAT 
CATACATTAG GGCCTGGACA TCAGGCCCCT CATACTAATA ATACACAGGT CCTTTTAGAT 
TCTACCTGTG ATTTACAGAT TCTTCAGCAG TCAATACTGC AGGCAAGTTT AGGACAAGTA 
AAGACATCTT TACAAGTGCA GCGTGTCCAG AGTCCTCAAC AAATTGTACA TCCTTTCCTT 
CAAATGGATG GTCATATTAT TCAGAACAAT GGTGATCATT CTCAGCAGCA ACTCCATCCT 
CAAAATTCTG AAATTATGAA AATGGACCTC TCTGAATCTT CGAAACCATT GCAACAACAT 
TTGACAACGA AGGGCAATTT CAATCAAACA GATCAACAAG ATTCAAAGAA TCAGTTTGTT 
TCTCTTGGAT CAATATGTTT CCCAGAAGCA ATGCTTCTCA GTGATGAACG AAATATTTTA 
TCAAATGTAG ATGACATCTT GGCAGCTACA GCAGCAGTTT GTGGGGTTAC ACCTTCTGAT 
TTTTCCAAGT CATCTCCAAA TGAAACCATG CAAACTGTTG AAGATGGTGA TTCTAAATCT 
CATTTTCCAC AGCCATTAGA TATGAGGCAT GTGACATCAG ATTTTAATTC CATAACAGCT 
ACAGTAGGAA AACCACAGAA TCTAAATGAT ATTCCCCTAG ATGGAAATCA GGTTACTGTA 
AACATTTCAC CAGTACCAAC CCTTCAGTCA AAAATGACCC TTGATCAACA GCACATGGAT 
ACACCTGGTC AAAGTCTACC AACTAAAGTA ACTTCAGCAG GAGTTCGACC AAATCATGAA 
GTCCAGGAGC AAAGTTGTGG CCCATTCAAG AAGCAGTCTG CTACCAGTCA TGAATCTGAG 
GAAGACAGTG AAGTTCCTGT TGATCATACA TTAAATAATA ACAGAAACCA AGAGTTTGTT 
TCCAGTAGTA GAAGCATGAG TGGAGAGAGT GCTACGTCAG AGAGTGAATT TACTTTAGGG 
GGTGATGAAA GCAGTGTGTC AATGGACCCT ACTAGAAGTG TACTTGCACT GTTGGCTGTG 
GCCCAGCCTG GGGATACAAT CAGTGTCAAG CTTGAAGAAA ACCAAGATTT AATACATCTT 
AACCTTCCAA AGAAAAAGGT GAAAGGGAAA GGGCAAATTA AAGAGGAAGA CATCAGTAAT 
CAGAAACAGC TGAAAAGACC TGCCCAGGGC AAACGCCAGA ATCCCAGGGG AACAGATATG 
TATCTACCAT ATACTCCTCC TCCCTCTGAA AGCTGCCATG ATGATGATCA GCATCAAGAG 
AAAATGAGAC AGAAGATCAA AGAAGTAGAG GAAAAACAGC CAGAAGTCAA AACAGGATTT 
ATCGCTTCTT TCTTGGATTT TCTGAAATCT GGCCCCAAAC AGCAGTTTTC TACTCTTGCC 
ATCCGAATGC CTAACAGGAC CAGACGCCCA ACGACCCAGA TTATGCGTAC ATTTTGCCCC 
CCTCCATTTC CAAAAATTTC ATCTACAACA CCCACACCTT TAGTGACGGA AACTAGGGCT 
AACAGTCCTT CGGAAAAAGT TGATAAACTT AAAAGCTTGG AACATTCATC TTCATTTTCT 
TCCGATGAAG ATGATCCTGG AGTGTGCAGT CAGGATGTTT ATAAAACCAT CTCTGCTTCC 
TTAACTGTGC TGGATGCTAC TTCTAATAAA AGGAAGAAAA CAGTTTCAGA AGCCCTACAG 
GTGGCAACTC CTAGCCCATC TGCCATTACA ACTGGTACTG CTACGACTTC TTCCACCACT 
GTGTGTGCAG CTAAGCAAGA ACCTCTCCAC TCTACTTCCT CTGCAGTAAA CAGCATGGAA 
AATATAAATG CCACTGAAAC CCCAAAACCC ATCGAACTTG GTAGTCTTCC TTCAGACCAA 
TTGGCAAAAG GACAGGACAC TGTTGCCATA GAAGGTTTTA CAGATGAGGA AAACACAGAG 
AGCGGAGGAG AAGGCCAATA CAGAGAGCGT GATGAATTTG TGATAAAGAT AGAAGACATA 
GAGACTTTTA AGGAGGCTTT AAAAACAGGT ATGGAACCCC CAGCTATTTG GAAAGTACAG 
AAAGCTTTAT TACAGAAATT TGTTCCTGAA ATTCGAGATG GACAAAGAGA ATTTGCAGCT 
ACAAACAGTT ACCTAGGATA TTTTGGAGAT GCGAAGAACA AATACAAAAG GATATATGCA 
AAGTTCATTG AAAATGCAAA CAAAAAGGAG TATGTCAGAG TATGTTCCAA AAAGCCAAGA 
AATAAGCCTT CACACACTAT CAGAACTGTT CAGGCCAAAC AAAGTACTAG CAGTAAAACT 
ACAGATCCTC CATCATCAAA AACTACAAGT ACAAAAGTCC CTGCCATGAA ACCCAAAGTT 
AAACAGCTAA AAATAAAGGC TGAGCCACCA CCAAAGAAGC GGAAGAAATG GAAAGAAGAA 
TTTTCATCAT CGCATTCTGA GTCATCTCCT GATTTTCAGT CTAGTAGTAC CGAGGACGAG 
GAATTTGATC CTCCAGCTCC TTTTGTCACT CGGTTTTTGA ACACAAGAGC AATGAAAGAA 
ACTTTCAAGA GTTATATGGA ACTGCTTGTT AGTATTGCCT TGGACCCAGA CACTATGCAA 
GCCTTAGAGA AGAGCAATGA TGAGCTACTT TTACCTCATA TGAAAAAAAT AGATGGCATG 
CTGAATGATA ATCGAAAAAG ACTTCTTTTG AATCTTCATT TAGATCAGCC ATTCAAGAAT 
GCTTTGGAGA GTTTTCCTGA ACTAACAGTA ATTACTCGAG ACTCTAAAGC AAAAAGTGGA 
GGATCTGCTA TTTCTAAAAT CAAAATGAAT GGCAAAGCTT ATAATAAGAA AACTCTGAGG 
ACTTCTAAAA CAACCACTAA ATCTGCACAG GAGTTTGCCG TTGATCCAGA GAAAATACAG 
CTGTATTCTT TGTACCATTC ACTCCATCAT TATAAATATC ATGTTTACCT GATGTGTAAA 
GATGAGATTT CTTCTGTGCA GAAAAAAAAT GAAGACTTAG GACAAGAGGA AATTGTTCAA 
CTTTGTATGA AAAATGTAAA ATGGGTGGAG GACCTATTTG AAAAATTTGG AGAACTTCTA 
AATCATGTTC AGCAGAAATG TTCCTAA

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

Qser1 ( XM_010612650.2 ) cDNA ORF clone, Fukomys damarensis(Damara mole-rat) -> XP_010610952.1 Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X2, mRNA.

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CloneID	OFu84998
Clone ID Related Accession (Same CDS sequence)	XM_010612650.2
Accession Version	XM_010612650.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5424bp) 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	2016-11-23
Organism	Fukomys damarensis(Damara mole-rat)
Product	glutamine and serine-rich 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_011047481.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 24, 2016 this sequence version replaced XM_010612650.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Fukomys damarensis Annotation Release 101 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##

ATGAAAGAAC CCCCGGGTGC GGGGCCGGGG AGGGGGCCTG GCGAGGTTCG AACGCCGAGC 
TGGGGCTGGG TGACATATGT TTGCAGCGGT GGCCAAGATG AAGCGATCTG TCTTCCACGC 
GTTCAAAGTT GCTTTTGGGT TCCCTCCCCT TTTAACAGCA GGAATTTAAG CTATGAAGAA 
GGACATCCCT CCCAGTCTGG ACCAGATCTC CAGAGACAGA CGGTTGCAGC CTCTCATCAG 
CTTCCTGCAT ATGCCCCTAC ACCTCAGCCA GCCGGACTTT CAGGAATATT TGAGACAAGT 
GTGAACAGTG CCAGCACCAA CACTAAAGAA TCTTCTGTGA TGAATTTTCT CTCCACTATT 
GAGTCTCGAA CTGCTCAGGC TGCTTCTTCA GGAACGAATC TTCTACCACA ATTCAGGGCT 
CCATCCTGGC AGACAGGCAT GCATTCCTCA GCACCAACTG AGTTTGTCAC TGGACCTTTG 
CCAACTACTG GAGCTCTTCC ACCATCTGCC CTCTCTGCTT ACCACCATCC TACCACCTTT 
AGCAATAGAA ACTTTGTTAC CACCTCACCT TTGGTGCTTC AAGACTCAAC TTTTAACACT 
ACATCAAATG GAATTTTAAA TCCTCATGAC CCTTTGCTAC AAATTAAGAC TTCCCAGGGA 
ACTATTCCAA CTGCTTTGGC ATTTGAGCGC CTAGGCAGTT CTGCATTAAG TAACAGTGTA 
CCACCTCAGT CTTCAACATA TCGTTCAGCT CAAGAGTCTG CACCCCATCT TTTACAACCT 
CAGTTTAGTT TGTTGCCTTC AGCACTGGGG GGTGCCCAGC AAACTCCTCA AGCTTACAGT 
TCAACTCTCT TCTCTAGTTC TGCTTCCATT GAAAGAGCTC TTCTTCGAGA ATGTAGTGTT 
ATTAAACACC ATCAGCGGCC TTCAGGTACC CAGTCTATTC AGGCACAACT GACTGGTTCA 
CAGCATTCCG TACATAGTTA TCTAGCAAAT ACAAATGTGG TTAATTTTCA GGAAACAACC 
AGGCAGTCGT CTTTACCTTG TAGCCCAATA GGAGATTCTA CTCAGGTAAG CAATGGAGGT 
TTGCAGCAGA AGACCCCACA GGTCTCTGTG GAAGTTGCTC AGTCTTACTC ATCTGCAATT 
CCATCATCAG GGTATCTTCC TGCTACAACA AAAGTAAACA GCTGTTCTAC AAAACAAGCA 
CTAACGTCAA CTAAGACCCC ACAACCTCAT AATATAATTC CTGCTGTGCA AACACTAAGC 
TATTCCAAAC CCTTACATAA CCAGAGTTCT GTAATATCAG GTCAAGCACA AATCTATTCT 
ACAGCACAGC TACCAAGCCT TTTATCTGTC AGTCAGTCAC AAAATTATGG TTTAGTACAG 
CCATATAATG TGCCATCTAT TGTTCATTCA CAAGTTTATA GGCCCAGCAA GGTTGAGAAA 
TTGCCATCCT TGTATAAAAC ATTGACTTTC TCTGGGTCAT CTCAGCCTAT AACTTCTGAA 
AATCAGACAC TTAGTTACTC ATCCACTCAG CAAGAAGTAT TATCTTCAGT TACAAATGAA 
AATTACCCTG CTCAAACAAG AGATCTTTCT TCAGTCAGTG AGTCTCAGAG TTATTCATCT 
GGTCACTCTC AGGGTTTATC ACCAGTTAGC CAGACACAGG TTAGTTTTTC ATCTCAATCA 
CAAGTTTTGT CAGTTGGTAG TCCTTCAGAA AGCTATGCTT CGGGACAGTC CCTGACATTA 
ACAGCCCCAT CGCTTTCTTA TTCTTCTGCC TCTCAGCCCC AGAATTTGTC AGATTCTAAC 
CCAAGCCAGA ATTACATTTC TGTGCATTCT TCCCAAAATG CCCAGACTCA AGGGTCATCA 
TCTCCTCAGC CCCAGAAGTT TTTGCCTGCT ATCCAGTCAT CATCTTTTGC ATCCTCTACA 
CATTGTCATG CATTACAGAA TAATATATCT TCCCCTGATT CAAAGTCTTA TGCTGAAGGA 
AAACTCAGCT TAAATGTGTA TACATCTTCA AAGCAAGAAG GTAACTTTCC AATGCAGGAG 
TTACAGGCGT TGCAATCACA GGCATCTCTT GAATCTTCAG CCCAAAGGCT ATCAGATGGG 
GAAATTAATG CTCCAGAATC AACTTACAAG GTGTCCAAGG CGGATGACAG ATACTCCCAG 
AGTGTAATCA GAAGTAATTC CCATCTTGAA GATCAAGTTG TTGGGATTCC TATACCAGGG 
CCAAAGAAAG AAGAAAACAT AGTCGGTTCA GTGACACAAC TTAGCCAACA AATTGGTCAA 
GCTAATAATG GAACATCCCT TGATCTTAAG GCAACTAATT TAATACAAAG TCCACAAATA 
AGTTTGAATA CTAAAGATTT AAACCAACAG CATCCTCTTA TACATAAAAT ACATGAAGCC 
AAGGTCCAGG AACAGCATGA TCAAGTAATT AATGCCTCAT CTCAGATTCA GATTCCAAAT 
CATACATTAG GGCCTGGACA TCAGGCCCCT CATACTAATA ATACACAGGT CCTTTTAGAT 
TCTACCTGTG ATTTACAGAT TCTTCAGCAG TCAATACTGC AGGCAAGTTT AGGACAAGTA 
AAGACATCTT TACAAGTGCA GCGTGTCCAG AGTCCTCAAC AAATTGTACA TCCTTTCCTT 
CAAATGGATG GTCATATTAT TCAGAACAAT GGTGATCATT CTCAGCAGCA ACTCCATCCT 
CAAAATTCTG AAATTATGAA AATGGACCTC TCTGAATCTT CGAAACCATT GCAACAACAT 
TTGACAACGA AGGGCAATTT CAATCAAACA GATCAACAAG ATTCAAAGAA TCAGTTTGTT 
TCTCTTGGAT CAATATGTTT CCCAGAAGCA ATGCTTCTCA GTGATGAACG AAATATTTTA 
TCAAATGTAG ATGACATCTT GGCAGCTACA GCAGCAGTTT GTGGGGTTAC ACCTTCTGAT 
TTTTCCAAGT CATCTCCAAA TGAAACCATG CAAACTGTTG AAGATGGTGA TTCTAAATCT 
CATTTTCCAC AGCCATTAGA TATGAGGCAT GTGACATCAG ATTTTAATTC CATAACAGCT 
ACAGTAGGAA AACCACAGAA TCTAAATGAT ATTCCCCTAG ATGGAAATCA GGTTACTGTA 
AACATTTCAC CAGTACCAAC CCTTCAGTCA AAAATGACCC TTGATCAACA GCACATGGAT 
ACACCTGGTC AAAGTCTACC AACTAAAGTA ACTTCAGCAG GAGTTCGACC AAATCATGAA 
GTCCAGGAGC AAAGTTGTGG CCCATTCAAG AAGCAGTCTG CTACCAGTCA TGAATCTGAG 
GAAGACAGTG AAGTTCCTGT TGATCATACA TTAAATAATA ACAGAAACCA AGAGTTTGTT 
TCCAGTAGTA GAAGCATGAG TGGAGAGAGT GCTACGTCAG AGAGTGAATT TACTTTAGGG 
GGTGATGAAA GCAGTGTGTC AATGGACCCT ACTAGAAGTG TACTTGCACT GTTGGCTGTG 
GCCCAGCCTG GGGATACAAT CAGTGTCAAG CTTGAAGAAA ACCAAGATTT AATACATCTT 
AACCTTCCAA AGAAAAAGGT GAAAGGGAAA GGGCAAATTA AAGAGGAAGA CATCAGTAAT 
CAGAAACAGC TGAAAAGACC TGCCCAGGGC AAACGCCAGA ATCCCAGGGG AACAGATATG 
TATCTACCAT ATACTCCTCC TCCCTCTGAA AGCTGCCATG ATGATGATCA GCATCAAGAG 
AAAATGAGAC AGAAGATCAA AGAAGTAGAG GAAAAACAGC CAGAAGTCAA AACAGGATTT 
ATCGCTTCTT TCTTGGATTT TCTGAAATCT GGCCCCAAAC AGCAGTTTTC TACTCTTGCC 
ATCCGAATGC CTAACAGGAC CAGACGCCCA ACGACCCAGA TTATGCGTAC ATTTTGCCCC 
CCTCCATTTC CAAAAATTTC ATCTACAACA CCCACACCTT TAGTGACGGA AACTAGGGCT 
AACAGTCCTT CGGAAAAAGT TGATAAACTT AAAAGCTTGG AACATTCATC TTCATTTTCT 
TCCGATGAAG ATGATCCTGG AGTGTGCAGT CAGGATGTTT ATAAAACCAT CTCTGCTTCC 
TTAACTGTGC TGGATGCTAC TTCTAATAAA AGGAAGAAAA CAGTAAACAG CATGGAAAAT 
ATAAATGCCA CTGAAACCCC AAAACCCATC GAACTTGGTA GTCTTCCTTC AGACCAATTG 
GCAAAAGGAC AGGACACTGT TGCCATAGAA GGTTTTACAG ATGAGGAAAA CACAGAGAGC 
GGAGGAGAAG GCCAATACAG AGAGCGTGAT GAATTTGTGA TAAAGATAGA AGACATAGAG 
ACTTTTAAGG AGGCTTTAAA AACAGGTATG GAACCCCCAG CTATTTGGAA AGTACAGAAA 
GCTTTATTAC AGAAATTTGT TCCTGAAATT CGAGATGGAC AAAGAGAATT TGCAGCTACA 
AACAGTTACC TAGGATATTT TGGAGATGCG AAGAACAAAT ACAAAAGGAT ATATGCAAAG 
TTCATTGAAA ATGCAAACAA AAAGGAGTAT GTCAGAGTAT GTTCCAAAAA GCCAAGAAAT 
AAGCCTTCAC ACACTATCAG AACTGTTCAG GCCAAACAAA GTACTAGCAG TAAAACTACA 
GATCCTCCAT CATCAAAAAC TACAAGTACA AAAGTCCCTG CCATGAAACC CAAAGTTAAA 
CAGCTAAAAA TAAAGGCTGA GCCACCACCA AAGAAGCGGA AGAAATGGAA AGAAGAATTT 
TCATCATCGC ATTCTGAGTC ATCTCCTGAT TTTCAGTCTA GTAGTACCGA GGACGAGGAA 
TTTGATCCTC CAGCTCCTTT TGTCACTCGG TTTTTGAACA CAAGAGCAAT GAAAGAAACT 
TTCAAGAGTT ATATGGAACT GCTTGTTAGT ATTGCCTTGG ACCCAGACAC TATGCAAGCC 
TTAGAGAAGA GCAATGATGA GCTACTTTTA CCTCATATGA AAAAAATAGA TGGCATGCTG 
AATGATAATC GAAAAAGACT TCTTTTGAAT CTTCATTTAG ATCAGCCATT CAAGAATGCT 
TTGGAGAGTT TTCCTGAACT AACAGTAATT ACTCGAGACT CTAAAGCAAA AAGTGGAGGA 
TCTGCTATTT CTAAAATCAA AATGAATGGC AAAGCTTATA ATAAGAAAAC TCTGAGGACT 
TCTAAAACAA CCACTAAATC TGCACAGGAG TTTGCCGTTG ATCCAGAGAA AATACAGCTG 
TATTCTTTGT ACCATTCACT CCATCATTAT AAATATCATG TTTACCTGAT GTGTAAAGAT 
GAGATTTCTT CTGTGCAGAA AAAAAATGAA GACTTAGGAC AAGAGGAAAT TGTTCAACTT 
TGTATGAAAA ATGTAAAATG GGTGGAGGAC CTATTTGAAA AATTTGGAGA ACTTCTAAAT 
CATGTTCAGC AGAAATGTTC CTAA

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

RefSeq	XP_010610952.1
CDS	100..5523
Translation	MKEPPGAGPGRGPGEVRTPSWGWVTYVCSGGQDEAICLPRVQSCFWVPSPFNSRNLSYEEGHPSQSGPDLQRQTVAASHQLPAYAPTPQPAGLSGIFETSVNSASTNTKESSVMNFLSTIESRTAQAASSGTNLLPQFRAPSWQTGMHSSAPTEFVTGPLPTTGALPPSALSAYHHPTTFSNRNFVTTSPLVLQDSTFNTTSNGILNPHDPLLQIKTSQGTIPTALAFERLGSSALSNSVPPQSSTYRSAQESAPHLLQPQFSLLPSALGGAQQTPQAYSSTLFSSSASIERALLRECSVIKHHQRPSGTQSIQAQLTGSQHSVHSYLANTNVVNFQETTRQSSLPCSPIGDSTQVSNGGLQQKTPQVSVEVAQSYSSAIPSSGYLPATTKVNSCSTKQALTSTKTPQPHNIIPAVQTLSYSKPLHNQSSVISGQAQIYSTAQLPSLLSVSQSQNYGLVQPYNVPSIVHSQVYRPSKVEKLPSLYKTLTFSGSSQPITSENQTLSYSSTQQEVLSSVTNENYPAQTRDLSSVSESQSYSSGHSQGLSPVSQTQVSFSSQSQVLSVGSPSESYASGQSLTLTAPSLSYSSASQPQNLSDSNPSQNYISVHSSQNAQTQGSSSPQPQKFLPAIQSSSFASSTHCHALQNNISSPDSKSYAEGKLSLNVYTSSKQEGNFPMQELQALQSQASLESSAQRLSDGEINAPESTYKVSKADDRYSQSVIRSNSHLEDQVVGIPIPGPKKEENIVGSVTQLSQQIGQANNGTSLDLKATNLIQSPQISLNTKDLNQQHPLIHKIHEAKVQEQHDQVINASSQIQIPNHTLGPGHQAPHTNNTQVLLDSTCDLQILQQSILQASLGQVKTSLQVQRVQSPQQIVHPFLQMDGHIIQNNGDHSQQQLHPQNSEIMKMDLSESSKPLQQHLTTKGNFNQTDQQDSKNQFVSLGSICFPEAMLLSDERNILSNVDDILAATAAVCGVTPSDFSKSSPNETMQTVEDGDSKSHFPQPLDMRHVTSDFNSITATVGKPQNLNDIPLDGNQVTVNISPVPTLQSKMTLDQQHMDTPGQSLPTKVTSAGVRPNHEVQEQSCGPFKKQSATSHESEEDSEVPVDHTLNNNRNQEFVSSSRSMSGESATSESEFTLGGDESSVSMDPTRSVLALLAVAQPGDTISVKLEENQDLIHLNLPKKKVKGKGQIKEEDISNQKQLKRPAQGKRQNPRGTDMYLPYTPPPSESCHDDDQHQEKMRQKIKEVEEKQPEVKTGFIASFLDFLKSGPKQQFSTLAIRMPNRTRRPTTQIMRTFCPPPFPKISSTTPTPLVTETRANSPSEKVDKLKSLEHSSSFSSDEDDPGVCSQDVYKTISASLTVLDATSNKRKKTVNSMENINATETPKPIELGSLPSDQLAKGQDTVAIEGFTDEENTESGGEGQYRERDEFVIKIEDIETFKEALKTGMEPPAIWKVQKALLQKFVPEIRDGQREFAATNSYLGYFGDAKNKYKRIYAKFIENANKKEYVRVCSKKPRNKPSHTIRTVQAKQSTSSKTTDPPSSKTTSTKVPAMKPKVKQLKIKAEPPPKKRKKWKEEFSSSHSESSPDFQSSSTEDEEFDPPAPFVTRFLNTRAMKETFKSYMELLVSIALDPDTMQALEKSNDELLLPHMKKIDGMLNDNRKRLLLNLHLDQPFKNALESFPELTVITRDSKAKSGGSAISKIKMNGKAYNKKTLRTSKTTTKSAQEFAVDPEKIQLYSLYHSLHHYKYHVYLMCKDEISSVQKKNEDLGQEEIVQLCMKNVKWVEDLFEKFGELLNHVQQKCS

Target ORF information:

RefSeq Version	XM_010612650.2
Organism	Fukomys damarensis(Damara mole-rat)
Definition	Fukomys damarensis glutamine and serine rich 1 (Qser1), transcript variant X2, mRNA.

Target ORF information:

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

XM_010612650.2

ORF Insert Sequence:

ATGAAAGAAC CCCCGGGTGC GGGGCCGGGG AGGGGGCCTG GCGAGGTTCG AACGCCGAGC 
TGGGGCTGGG TGACATATGT TTGCAGCGGT GGCCAAGATG AAGCGATCTG TCTTCCACGC 
GTTCAAAGTT GCTTTTGGGT TCCCTCCCCT TTTAACAGCA GGAATTTAAG CTATGAAGAA 
GGACATCCCT CCCAGTCTGG ACCAGATCTC CAGAGACAGA CGGTTGCAGC CTCTCATCAG 
CTTCCTGCAT ATGCCCCTAC ACCTCAGCCA GCCGGACTTT CAGGAATATT TGAGACAAGT 
GTGAACAGTG CCAGCACCAA CACTAAAGAA TCTTCTGTGA TGAATTTTCT CTCCACTATT 
GAGTCTCGAA CTGCTCAGGC TGCTTCTTCA GGAACGAATC TTCTACCACA ATTCAGGGCT 
CCATCCTGGC AGACAGGCAT GCATTCCTCA GCACCAACTG AGTTTGTCAC TGGACCTTTG 
CCAACTACTG GAGCTCTTCC ACCATCTGCC CTCTCTGCTT ACCACCATCC TACCACCTTT 
AGCAATAGAA ACTTTGTTAC CACCTCACCT TTGGTGCTTC AAGACTCAAC TTTTAACACT 
ACATCAAATG GAATTTTAAA TCCTCATGAC CCTTTGCTAC AAATTAAGAC TTCCCAGGGA 
ACTATTCCAA CTGCTTTGGC ATTTGAGCGC CTAGGCAGTT CTGCATTAAG TAACAGTGTA 
CCACCTCAGT CTTCAACATA TCGTTCAGCT CAAGAGTCTG CACCCCATCT TTTACAACCT 
CAGTTTAGTT TGTTGCCTTC AGCACTGGGG GGTGCCCAGC AAACTCCTCA AGCTTACAGT 
TCAACTCTCT TCTCTAGTTC TGCTTCCATT GAAAGAGCTC TTCTTCGAGA ATGTAGTGTT 
ATTAAACACC ATCAGCGGCC TTCAGGTACC CAGTCTATTC AGGCACAACT GACTGGTTCA 
CAGCATTCCG TACATAGTTA TCTAGCAAAT ACAAATGTGG TTAATTTTCA GGAAACAACC 
AGGCAGTCGT CTTTACCTTG TAGCCCAATA GGAGATTCTA CTCAGGTAAG CAATGGAGGT 
TTGCAGCAGA AGACCCCACA GGTCTCTGTG GAAGTTGCTC AGTCTTACTC ATCTGCAATT 
CCATCATCAG GGTATCTTCC TGCTACAACA AAAGTAAACA GCTGTTCTAC AAAACAAGCA 
CTAACGTCAA CTAAGACCCC ACAACCTCAT AATATAATTC CTGCTGTGCA AACACTAAGC 
TATTCCAAAC CCTTACATAA CCAGAGTTCT GTAATATCAG GTCAAGCACA AATCTATTCT 
ACAGCACAGC TACCAAGCCT TTTATCTGTC AGTCAGTCAC AAAATTATGG TTTAGTACAG 
CCATATAATG TGCCATCTAT TGTTCATTCA CAAGTTTATA GGCCCAGCAA GGTTGAGAAA 
TTGCCATCCT TGTATAAAAC ATTGACTTTC TCTGGGTCAT CTCAGCCTAT AACTTCTGAA 
AATCAGACAC TTAGTTACTC ATCCACTCAG CAAGAAGTAT TATCTTCAGT TACAAATGAA 
AATTACCCTG CTCAAACAAG AGATCTTTCT TCAGTCAGTG AGTCTCAGAG TTATTCATCT 
GGTCACTCTC AGGGTTTATC ACCAGTTAGC CAGACACAGG TTAGTTTTTC ATCTCAATCA 
CAAGTTTTGT CAGTTGGTAG TCCTTCAGAA AGCTATGCTT CGGGACAGTC CCTGACATTA 
ACAGCCCCAT CGCTTTCTTA TTCTTCTGCC TCTCAGCCCC AGAATTTGTC AGATTCTAAC 
CCAAGCCAGA ATTACATTTC TGTGCATTCT TCCCAAAATG CCCAGACTCA AGGGTCATCA 
TCTCCTCAGC CCCAGAAGTT TTTGCCTGCT ATCCAGTCAT CATCTTTTGC ATCCTCTACA 
CATTGTCATG CATTACAGAA TAATATATCT TCCCCTGATT CAAAGTCTTA TGCTGAAGGA 
AAACTCAGCT TAAATGTGTA TACATCTTCA AAGCAAGAAG GTAACTTTCC AATGCAGGAG 
TTACAGGCGT TGCAATCACA GGCATCTCTT GAATCTTCAG CCCAAAGGCT ATCAGATGGG 
GAAATTAATG CTCCAGAATC AACTTACAAG GTGTCCAAGG CGGATGACAG ATACTCCCAG 
AGTGTAATCA GAAGTAATTC CCATCTTGAA GATCAAGTTG TTGGGATTCC TATACCAGGG 
CCAAAGAAAG AAGAAAACAT AGTCGGTTCA GTGACACAAC TTAGCCAACA AATTGGTCAA 
GCTAATAATG GAACATCCCT TGATCTTAAG GCAACTAATT TAATACAAAG TCCACAAATA 
AGTTTGAATA CTAAAGATTT AAACCAACAG CATCCTCTTA TACATAAAAT ACATGAAGCC 
AAGGTCCAGG AACAGCATGA TCAAGTAATT AATGCCTCAT CTCAGATTCA GATTCCAAAT 
CATACATTAG GGCCTGGACA TCAGGCCCCT CATACTAATA ATACACAGGT CCTTTTAGAT 
TCTACCTGTG ATTTACAGAT TCTTCAGCAG TCAATACTGC AGGCAAGTTT AGGACAAGTA 
AAGACATCTT TACAAGTGCA GCGTGTCCAG AGTCCTCAAC AAATTGTACA TCCTTTCCTT 
CAAATGGATG GTCATATTAT TCAGAACAAT GGTGATCATT CTCAGCAGCA ACTCCATCCT 
CAAAATTCTG AAATTATGAA AATGGACCTC TCTGAATCTT CGAAACCATT GCAACAACAT 
TTGACAACGA AGGGCAATTT CAATCAAACA GATCAACAAG ATTCAAAGAA TCAGTTTGTT 
TCTCTTGGAT CAATATGTTT CCCAGAAGCA ATGCTTCTCA GTGATGAACG AAATATTTTA 
TCAAATGTAG ATGACATCTT GGCAGCTACA GCAGCAGTTT GTGGGGTTAC ACCTTCTGAT 
TTTTCCAAGT CATCTCCAAA TGAAACCATG CAAACTGTTG AAGATGGTGA TTCTAAATCT 
CATTTTCCAC AGCCATTAGA TATGAGGCAT GTGACATCAG ATTTTAATTC CATAACAGCT 
ACAGTAGGAA AACCACAGAA TCTAAATGAT ATTCCCCTAG ATGGAAATCA GGTTACTGTA 
AACATTTCAC CAGTACCAAC CCTTCAGTCA AAAATGACCC TTGATCAACA GCACATGGAT 
ACACCTGGTC AAAGTCTACC AACTAAAGTA ACTTCAGCAG GAGTTCGACC AAATCATGAA 
GTCCAGGAGC AAAGTTGTGG CCCATTCAAG AAGCAGTCTG CTACCAGTCA TGAATCTGAG 
GAAGACAGTG AAGTTCCTGT TGATCATACA TTAAATAATA ACAGAAACCA AGAGTTTGTT 
TCCAGTAGTA GAAGCATGAG TGGAGAGAGT GCTACGTCAG AGAGTGAATT TACTTTAGGG 
GGTGATGAAA GCAGTGTGTC AATGGACCCT ACTAGAAGTG TACTTGCACT GTTGGCTGTG 
GCCCAGCCTG GGGATACAAT CAGTGTCAAG CTTGAAGAAA ACCAAGATTT AATACATCTT 
AACCTTCCAA AGAAAAAGGT GAAAGGGAAA GGGCAAATTA AAGAGGAAGA CATCAGTAAT 
CAGAAACAGC TGAAAAGACC TGCCCAGGGC AAACGCCAGA ATCCCAGGGG AACAGATATG 
TATCTACCAT ATACTCCTCC TCCCTCTGAA AGCTGCCATG ATGATGATCA GCATCAAGAG 
AAAATGAGAC AGAAGATCAA AGAAGTAGAG GAAAAACAGC CAGAAGTCAA AACAGGATTT 
ATCGCTTCTT TCTTGGATTT TCTGAAATCT GGCCCCAAAC AGCAGTTTTC TACTCTTGCC 
ATCCGAATGC CTAACAGGAC CAGACGCCCA ACGACCCAGA TTATGCGTAC ATTTTGCCCC 
CCTCCATTTC CAAAAATTTC ATCTACAACA CCCACACCTT TAGTGACGGA AACTAGGGCT 
AACAGTCCTT CGGAAAAAGT TGATAAACTT AAAAGCTTGG AACATTCATC TTCATTTTCT 
TCCGATGAAG ATGATCCTGG AGTGTGCAGT CAGGATGTTT ATAAAACCAT CTCTGCTTCC 
TTAACTGTGC TGGATGCTAC TTCTAATAAA AGGAAGAAAA CAGTAAACAG CATGGAAAAT 
ATAAATGCCA CTGAAACCCC AAAACCCATC GAACTTGGTA GTCTTCCTTC AGACCAATTG 
GCAAAAGGAC AGGACACTGT TGCCATAGAA GGTTTTACAG ATGAGGAAAA CACAGAGAGC 
GGAGGAGAAG GCCAATACAG AGAGCGTGAT GAATTTGTGA TAAAGATAGA AGACATAGAG 
ACTTTTAAGG AGGCTTTAAA AACAGGTATG GAACCCCCAG CTATTTGGAA AGTACAGAAA 
GCTTTATTAC AGAAATTTGT TCCTGAAATT CGAGATGGAC AAAGAGAATT TGCAGCTACA 
AACAGTTACC TAGGATATTT TGGAGATGCG AAGAACAAAT ACAAAAGGAT ATATGCAAAG 
TTCATTGAAA ATGCAAACAA AAAGGAGTAT GTCAGAGTAT GTTCCAAAAA GCCAAGAAAT 
AAGCCTTCAC ACACTATCAG AACTGTTCAG GCCAAACAAA GTACTAGCAG TAAAACTACA 
GATCCTCCAT CATCAAAAAC TACAAGTACA AAAGTCCCTG CCATGAAACC CAAAGTTAAA 
CAGCTAAAAA TAAAGGCTGA GCCACCACCA AAGAAGCGGA AGAAATGGAA AGAAGAATTT 
TCATCATCGC ATTCTGAGTC ATCTCCTGAT TTTCAGTCTA GTAGTACCGA GGACGAGGAA 
TTTGATCCTC CAGCTCCTTT TGTCACTCGG TTTTTGAACA CAAGAGCAAT GAAAGAAACT 
TTCAAGAGTT ATATGGAACT GCTTGTTAGT ATTGCCTTGG ACCCAGACAC TATGCAAGCC 
TTAGAGAAGA GCAATGATGA GCTACTTTTA CCTCATATGA AAAAAATAGA TGGCATGCTG 
AATGATAATC GAAAAAGACT TCTTTTGAAT CTTCATTTAG ATCAGCCATT CAAGAATGCT 
TTGGAGAGTT TTCCTGAACT AACAGTAATT ACTCGAGACT CTAAAGCAAA AAGTGGAGGA 
TCTGCTATTT CTAAAATCAA AATGAATGGC AAAGCTTATA ATAAGAAAAC TCTGAGGACT 
TCTAAAACAA CCACTAAATC TGCACAGGAG TTTGCCGTTG ATCCAGAGAA AATACAGCTG 
TATTCTTTGT ACCATTCACT CCATCATTAT AAATATCATG TTTACCTGAT GTGTAAAGAT 
GAGATTTCTT CTGTGCAGAA AAAAAATGAA GACTTAGGAC AAGAGGAAAT TGTTCAACTT 
TGTATGAAAA ATGTAAAATG GGTGGAGGAC CTATTTGAAA AATTTGGAGA ACTTCTAAAT 
CATGTTCAGC AGAAATGTTC CTAA