QSER1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	QSER1
Entrez Gene ID	100480071
Full Name	glutamine and serine rich 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011222749.2	XP_011221051.1	glutamine and serine-rich protein 1

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
OAc29995	XM_011222749.2 Latest version!	Ailuropoda melanoleuca glutamine and serine rich 1 (QSER1), 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_011222749.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011221051.1 Ailuropoda melanoleuca glutamine and serine rich 1 (QSER1), mRNA.

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CloneID	OAc29995
Clone ID Related Accession (Same CDS sequence)	XM_011222749.2
Accession Version	XM_011222749.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5199bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	glutamine and serine-rich protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217489.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011222749.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATTTTC TCTCTGCTGT TGAATCCCGA ACCGCTCAGG CTGCTTCTTC AGGAACTACT 
CTTTTACCAC AATTCAGGGC TCCATCCTGG CAGACAGGTA TGCATTCCTC AGCAGCAACT 
GAGCTGTTTG TTACTGGACC TTTGCCAACC ACTGGAACAC TTCCACCCTC TGCCCTCTCT 
GCTTATCAGC ATCCCACCAC CTTCAGCAAT AGAAACTTTG CTACCACCTC ACCTCTGGTG 
CTTCAGGATT CATCTTTTAA CACTACATCC AATGGAATTT TAAATCCTCA TGACCCTTTG 
CTACAAATCA AGACTTCCCA GGGAACTGTT CCAACTGCTT TGGCATTTGA GCGCCTGGGC 
ACTTCTGCGT TAAGTAACAG CATACCACCT CAGTCTTCAA CATATCGCTC AGCTCAAGAG 
TCTGCACCCC ATCTTTTACA ACCTCAATTT AGTTTGTTGC CTTCAGCACT TGGGGGAGCC 
CAGCAAACTC CTCAAGCCTA CAGTTCAACT CTCTTTACTA GTTCTACTTC TTCCATTGAA 
AGAGCTCTTC TTCGAGAATG TAGTGTTATT AAACACCATC AGCGGCCTTC AGGTACCCAG 
TCTGTTCAGG CACAACTGAC TGGTTCACAG CATTCCTTAC ATAGCTATCT ATCAAATGCA 
AGTGTAGTTA CTTTTCAGGA ACCAAGCAGG CAGTCATCTT TATCCTGTAG CCCCGTCGGA 
GAGTCTACTC AGGTGAGCAG TGGAGGGTTA CAACAGAAGA CCTCCCAGGT GTCAGTGGGA 
CTCGCTCAGT CTTACTCATC TGCAGTTCCG TCATCAGGGT TTCCTCCTTC TACTACAAAA 
GTAAAAAGCT GTTCTACAAA ACAACCACTA ACATCAACTA AGACCCCCAA ACCTCAAAGT 
ATAATTCCTC CTGTGCAAAC ATTAAGCTAT TCCAAACCTT TACATAATCA GAGTTCTGTC 
ATATCGGGCC AAGCACAAAT TTATTCTACG GCACAGCTAC CCAGCCTTTT ATCAGTTAGT 
CAGTCCCAGA ATTATGGTTT AGTGCAGCCA CATAATGTGC CATCTATTGT TCATTCACAG 
GTTTATAGGT CCAACAAAGT GGAGAAGTTG CCATCCTTAT ATAAAACATT GACTTTTTCT 
GGATCATCTC AGACTATAAC TTCTGAAAAT CAGACACTTA ATTATTCTTC TAATCAACAG 
GAAGTATTAT CTTCAGTTAC AAATGAGAGC TATCCTGCTC AAACGAGAGA TCTGTCTTCA 
GTTAGTCAGT CTCAGAGTTA TTCATCTAGT CATTCTCAGG GTTTATCACC AGTTAGCCAG 
ACACAGGTTA GTTATTCATC TCAGTCACAA GTGTTGTCAG TTGTTAGTCC TTCAGAAAAC 
TATGCTTCGG GGCAGTCCCT AACATTAACA GCCCCTTCTC TTTCTTATTC TTCCGCCTCT 
CGGGCTCAGA ATTTATCAGA TTCTAGCCCA ACCCAGAATT ATATTTCTAT GCATTCTTCC 
CAAAATGCTC AGACTCAAGG GTCGTCATCG CCCCAGTCCC AAAAGTTTTT GCCTGCTGTC 
CAGTCATCAT CTTTTGCATC CCCTACTCAC TGTCAGACTT TACAGAACAA CATACCTTCC 
CCTGATCCAA AGTCTTATGC CGAAAGAAAA CTTGACTCAA ATGTGTATAC ATCTTCAAAA 
CAAGAAGAGG ATTTTCCAAT GCAGGAGTTA CAGGTGTTAC AGCCACAAGT ATCTCTTGAG 
TCATCCACCC AAAGGCTATC TGATGGAGAA GTTAATGTTC AAGAATCAGC TTATAAGGTG 
TCAAAGGCAG AGGACAGATA TTCTCAGAGC GTGATCAGAA GTAATTCTCG TCTTGAGGAT 
CAAGTTGTTG GGATTGCCCT ACAAGGGTCA AAAAAAGAAG AAAGCATGGT TGGTTCAGTG 
ACACAACTTA CCCAACAAAT TGGCCAAGTC AGCGCACCAA CCCTTGATAT TAAGAAGGCA 
ACTAATTTAA TGCAAACTCC ACAAATAAGA TTGAATGCTA AAGACCTCAA CCAGCAGCAT 
GCTCTTACAC ACAAGGTACA TGAAACCAAG GTCCAGGAGC AACATGATCA AATAATTAAT 
GCTTCATCTC AGATTCAAAT TCCAAATCAT TCTTTAGGGC ATGGCCATCA GGCATCTCTT 
CCTAATACAC AGGTTCTTTT AGATTCTACC TGTGATCTGC AAATTCTTCA GCAATCAATA 
CTGCAGGCAG GTTTAGGACA AGTAAAGGCA TCTTTACAAG TACAGCGTGT TCAAAGTCCT 
CAACAAATAG TCCATCCTTT CCTTCAAATG GATGGCCATA TTATTCAGAG CAATGGGGAT 
CATTCTCAGC AGCAACTCCA TCCTCAAACT TCTGAAATCA TGAAAATGGA CCTCTCTGAG 
TCTTCAAAAC CATTACAACA ACATCTAACA ACAAAGGGCC ATTTCAGTGA AACAAATCAA 
CATGATTCAA AGAATCATTT TGTTTCTCTT GGATCAATAT GTTTCCCAGA GGCAATGCTT 
CTCAGTGATG AGAGAAATAT TTTATCAAAT GTAGATGATA TCTTAGCAGC TACAGCAGCA 
GCTTGTGGGG TTACTCCTTC TGATTTTTCC AAGTCAACTT CAAATGAAAC CATTCCAGCA 
GTTGAAGATG GTGATTCTAA ATCTCATTTT CAGCAGTCAT TAGATGTTGG GCACGTGACT 
TCAGATTTTA ACCCCATAAC AGCTGCGGTA GGAAAGCCAC AGAATATAAG TGATATTTCC 
TTAAATGGAA ATCAAGTCGC TGTAAACCTT TCACCAGTAC CTACCCTCCA GTCAAAAATG 
ACTCTCAATC AACAGCATAT TGAAACTGGT CAAAATAAAG CATCTAAAGT AATTTCACCA 
GTGGTTGGAC CAAGTCATGA AGCCCAGGAG CAAAGTTCTG GCTCATTCAA GAAACAGCCT 
GCTACCAATC ATGAATCTGA AGAGGATAGC GAAGTTCCTA TTGATAATAC TTTAAATAAT 
AACAGAAGCC AGGAGTTTGT TTCTAGTAGA AGTGTAAGTG GAGAGAGTGC CGCATCGGAG 
AGTGAGCTCA CCTTAGGGGG TGATGACAGC GGTGTGTCGG TGAACCCAAC TAGAAGTGCT 
CTTGCACTGT TGGCCATGGC CCAACCTGGG GAGGCCGTTG GTGTCAAGAT TGAAGAAGAA 
AACCACGATT TAATGCATTT TCACCTGCAG AAGAAAAAAC CCGGAAAGGG GCAAATGAAA 
GAGGAAGACA ACAGTAATCA GAAACAGCCG AAAAGAAGTG CCCAGGGCAA ACGCCAGAAT 
CCGAGGGGAA CAGATGTGTA TTTGCCATAT ACCCCTCCTT CCTCAGAAAG CTGCCATGAT 
GGTTATCAGC ATCAAGAAAA AATGAGACAG AAGATCAAAG AGGTAGAGGA AAAACAGCCA 
GAAGTCAAAA CAGGATTTAT TGCCTCTTTC TTAGATTTTC TGAAATCCGG GCCCAAGCAG 
CAGTTTTCCA CTCTTGCCGT CCGAATGCCC AACAGGACTA GACGACCAGG GACCCAGACT 
GTTCGTACAT TGTGTCCCCC GCCACTTCCA AAGACTTCTA CGACACCCAC ACCTTTAGTG 
TCTGAAACTG GGGGTAACAG CCCGTCAGAA AAAGTTGAGA ATGAACTTAA AAACTTAGAC 
CATTTATCTT CATTCTCTTC TGATGAAGAA GATCCTGGAG CGTGCAGTCG TGATATTTAC 
AAAAGCGCCT CCACTACGTT AACTACATTG GATGCTACTT CTGATAAAAA GAAGAAAATA 
GTTTCAGAAG CCCTACGGGT GGCACCTGCT AGCCCAACTG CCAGTACTAC TGCTACTCCT 
TCCTCCACCG CTGTGGGCGC AGTTAAGCAA GAACCTCCCT ACTCTACTTC ATCTGCAGTA 
CATATCCTGG AAAATATAAA CTCTACAGAA CCCCCAAAAC CCTGCGAACT TGATGGTCTT 
CCTTCAGACC AGTTTGCAAA AGGACAGGAC ACTGTTGCCA TAGAAGGTTT TACAGATGAG 
GAAAACACAG AAAGTGGAGG AGAAGGCCAA TACAGAGAGC GTGATGAATT TGTGGTAAAG 
ATAGAAGACA TAGAGACTTT TAAGGAGGCT TTAAAAACAG GAAAAGAACC CCCAGCTATT 
TGGAAAGTAC AAAAAGCTTT ATTACAGAAA TTTGTTCCTG AAATTCGAGA TGGACAAAGA 
GAATTCGCTG CTACCAATAG TTACCTTGGG TATTTTGGAG ATGCAAAGAG TAAATACAAA 
AAGATATATG TGAAATTCAT TGAAAACACA AACAAAAAGG AATATGTCAG AGTGTGTTCC 
AAAAAGCCAA GAAGTAAGCC TTCACAAACT ATCAGAACTG TTCAGACGAA GCCAAGTAGT 
AGCAGTAAAG CTTCTGATCC TCCAGCCCCA AAAACTACGA CTACAAAAGC CCCTTCCGTG 
AAACCCAAAG TTAAACAGCT GAAAGTAAAG GCTGAGCCAC CACCAAAGAA ACGGAAGAAA 
TGGAAAGAAG AGTTTTCATC ATCCCAATCG GATTCCTCTC CTGAGGTCCA TTCCAGTAGT 
AGTGATGATG AGGAATTTGA TCCTCCAGCT CCCTTTGTCA CTCGTTTTTT GAACACAAGA 
GCGATGAAGG AAACCTTTAA GAGCTACATG GAACTGCTTG TTAGCATTGC TTTGGACCCT 
GACACAATGC AAGCCTTAGA GAAGAGCAAT GATGAGCTAC TTTTGCCTCA TATGAAAAAA 
ATAGATAGCA TGCTGAATGA TAACCGGAAG AGACTTCTTT TGAATCTTCA TTTGGATCAG 
TCATTCAAGA ATGCTTTGGA AAGCTTTCCC GAACTAACAA TAATTACTCG AGACTCTAAA 
GCAAAAAGTG GGGGTTCTGC TATTTCTAAA ATCAAAATGA ATGGCAAAAC TTATAATAAG 
AAAACTCTAA GGACTTCTAA AACAACTACC AAATCTGCAC AAGAGTTTGC TGTTGACCCA 
GAGAAAATAC AGCTGTATTC TTTGTATCAT TCACTCCATC ATTATAAATA TCATGTTTAT 
CTGATATGTA AAGATGAGAT TTCTTCTGTG CAGAAAAGAA ATGAAGACTT AGGACAGGAA 
GAAATTGTTC AACTTTGTAT GAAAAATGTA AAATGGGTGG AAGACCTATT TGAAAAATTC 
GGAGAACTTC TAAATCATGT GCAGCAGAAG TGTCCCTAA

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

RefSeq	XP_011221051.1
CDS	1052..6250
Translation	MNFLSAVESRTAQAASSGTTLLPQFRAPSWQTGMHSSAATELFVTGPLPTTGTLPPSALSAYQHPTTFSNRNFATTSPLVLQDSSFNTTSNGILNPHDPLLQIKTSQGTVPTALAFERLGTSALSNSIPPQSSTYRSAQESAPHLLQPQFSLLPSALGGAQQTPQAYSSTLFTSSTSSIERALLRECSVIKHHQRPSGTQSVQAQLTGSQHSLHSYLSNASVVTFQEPSRQSSLSCSPVGESTQVSSGGLQQKTSQVSVGLAQSYSSAVPSSGFPPSTTKVKSCSTKQPLTSTKTPKPQSIIPPVQTLSYSKPLHNQSSVISGQAQIYSTAQLPSLLSVSQSQNYGLVQPHNVPSIVHSQVYRSNKVEKLPSLYKTLTFSGSSQTITSENQTLNYSSNQQEVLSSVTNESYPAQTRDLSSVSQSQSYSSSHSQGLSPVSQTQVSYSSQSQVLSVVSPSENYASGQSLTLTAPSLSYSSASRAQNLSDSSPTQNYISMHSSQNAQTQGSSSPQSQKFLPAVQSSSFASPTHCQTLQNNIPSPDPKSYAERKLDSNVYTSSKQEEDFPMQELQVLQPQVSLESSTQRLSDGEVNVQESAYKVSKAEDRYSQSVIRSNSRLEDQVVGIALQGSKKEESMVGSVTQLTQQIGQVSAPTLDIKKATNLMQTPQIRLNAKDLNQQHALTHKVHETKVQEQHDQIINASSQIQIPNHSLGHGHQASLPNTQVLLDSTCDLQILQQSILQAGLGQVKASLQVQRVQSPQQIVHPFLQMDGHIIQSNGDHSQQQLHPQTSEIMKMDLSESSKPLQQHLTTKGHFSETNQHDSKNHFVSLGSICFPEAMLLSDERNILSNVDDILAATAAACGVTPSDFSKSTSNETIPAVEDGDSKSHFQQSLDVGHVTSDFNPITAAVGKPQNISDISLNGNQVAVNLSPVPTLQSKMTLNQQHIETGQNKASKVISPVVGPSHEAQEQSSGSFKKQPATNHESEEDSEVPIDNTLNNNRSQEFVSSRSVSGESAASESELTLGGDDSGVSVNPTRSALALLAMAQPGEAVGVKIEEENHDLMHFHLQKKKPGKGQMKEEDNSNQKQPKRSAQGKRQNPRGTDVYLPYTPPSSESCHDGYQHQEKMRQKIKEVEEKQPEVKTGFIASFLDFLKSGPKQQFSTLAVRMPNRTRRPGTQTVRTLCPPPLPKTSTTPTPLVSETGGNSPSEKVENELKNLDHLSSFSSDEEDPGACSRDIYKSASTTLTTLDATSDKKKKIVSEALRVAPASPTASTTATPSSTAVGAVKQEPPYSTSSAVHILENINSTEPPKPCELDGLPSDQFAKGQDTVAIEGFTDEENTESGGEGQYRERDEFVVKIEDIETFKEALKTGKEPPAIWKVQKALLQKFVPEIRDGQREFAATNSYLGYFGDAKSKYKKIYVKFIENTNKKEYVRVCSKKPRSKPSQTIRTVQTKPSSSSKASDPPAPKTTTTKAPSVKPKVKQLKVKAEPPPKKRKKWKEEFSSSQSDSSPEVHSSSSDDEEFDPPAPFVTRFLNTRAMKETFKSYMELLVSIALDPDTMQALEKSNDELLLPHMKKIDSMLNDNRKRLLLNLHLDQSFKNALESFPELTIITRDSKAKSGGSAISKIKMNGKTYNKKTLRTSKTTTKSAQEFAVDPEKIQLYSLYHSLHHYKYHVYLICKDEISSVQKRNEDLGQEEIVQLCMKNVKWVEDLFEKFGELLNHVQQKCP

Target ORF information:

RefSeq Version	XM_011222749.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca glutamine and serine rich 1 (QSER1), mRNA.

Target ORF information:

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

XM_011222749.2

ORF Insert Sequence:

ATGAATTTTC TCTCTGCTGT TGAATCCCGA ACCGCTCAGG CTGCTTCTTC AGGAACTACT 
CTTTTACCAC AATTCAGGGC TCCATCCTGG CAGACAGGTA TGCATTCCTC AGCAGCAACT 
GAGCTGTTTG TTACTGGACC TTTGCCAACC ACTGGAACAC TTCCACCCTC TGCCCTCTCT 
GCTTATCAGC ATCCCACCAC CTTCAGCAAT AGAAACTTTG CTACCACCTC ACCTCTGGTG 
CTTCAGGATT CATCTTTTAA CACTACATCC AATGGAATTT TAAATCCTCA TGACCCTTTG 
CTACAAATCA AGACTTCCCA GGGAACTGTT CCAACTGCTT TGGCATTTGA GCGCCTGGGC 
ACTTCTGCGT TAAGTAACAG CATACCACCT CAGTCTTCAA CATATCGCTC AGCTCAAGAG 
TCTGCACCCC ATCTTTTACA ACCTCAATTT AGTTTGTTGC CTTCAGCACT TGGGGGAGCC 
CAGCAAACTC CTCAAGCCTA CAGTTCAACT CTCTTTACTA GTTCTACTTC TTCCATTGAA 
AGAGCTCTTC TTCGAGAATG TAGTGTTATT AAACACCATC AGCGGCCTTC AGGTACCCAG 
TCTGTTCAGG CACAACTGAC TGGTTCACAG CATTCCTTAC ATAGCTATCT ATCAAATGCA 
AGTGTAGTTA CTTTTCAGGA ACCAAGCAGG CAGTCATCTT TATCCTGTAG CCCCGTCGGA 
GAGTCTACTC AGGTGAGCAG TGGAGGGTTA CAACAGAAGA CCTCCCAGGT GTCAGTGGGA 
CTCGCTCAGT CTTACTCATC TGCAGTTCCG TCATCAGGGT TTCCTCCTTC TACTACAAAA 
GTAAAAAGCT GTTCTACAAA ACAACCACTA ACATCAACTA AGACCCCCAA ACCTCAAAGT 
ATAATTCCTC CTGTGCAAAC ATTAAGCTAT TCCAAACCTT TACATAATCA GAGTTCTGTC 
ATATCGGGCC AAGCACAAAT TTATTCTACG GCACAGCTAC CCAGCCTTTT ATCAGTTAGT 
CAGTCCCAGA ATTATGGTTT AGTGCAGCCA CATAATGTGC CATCTATTGT TCATTCACAG 
GTTTATAGGT CCAACAAAGT GGAGAAGTTG CCATCCTTAT ATAAAACATT GACTTTTTCT 
GGATCATCTC AGACTATAAC TTCTGAAAAT CAGACACTTA ATTATTCTTC TAATCAACAG 
GAAGTATTAT CTTCAGTTAC AAATGAGAGC TATCCTGCTC AAACGAGAGA TCTGTCTTCA 
GTTAGTCAGT CTCAGAGTTA TTCATCTAGT CATTCTCAGG GTTTATCACC AGTTAGCCAG 
ACACAGGTTA GTTATTCATC TCAGTCACAA GTGTTGTCAG TTGTTAGTCC TTCAGAAAAC 
TATGCTTCGG GGCAGTCCCT AACATTAACA GCCCCTTCTC TTTCTTATTC TTCCGCCTCT 
CGGGCTCAGA ATTTATCAGA TTCTAGCCCA ACCCAGAATT ATATTTCTAT GCATTCTTCC 
CAAAATGCTC AGACTCAAGG GTCGTCATCG CCCCAGTCCC AAAAGTTTTT GCCTGCTGTC 
CAGTCATCAT CTTTTGCATC CCCTACTCAC TGTCAGACTT TACAGAACAA CATACCTTCC 
CCTGATCCAA AGTCTTATGC CGAAAGAAAA CTTGACTCAA ATGTGTATAC ATCTTCAAAA 
CAAGAAGAGG ATTTTCCAAT GCAGGAGTTA CAGGTGTTAC AGCCACAAGT ATCTCTTGAG 
TCATCCACCC AAAGGCTATC TGATGGAGAA GTTAATGTTC AAGAATCAGC TTATAAGGTG 
TCAAAGGCAG AGGACAGATA TTCTCAGAGC GTGATCAGAA GTAATTCTCG TCTTGAGGAT 
CAAGTTGTTG GGATTGCCCT ACAAGGGTCA AAAAAAGAAG AAAGCATGGT TGGTTCAGTG 
ACACAACTTA CCCAACAAAT TGGCCAAGTC AGCGCACCAA CCCTTGATAT TAAGAAGGCA 
ACTAATTTAA TGCAAACTCC ACAAATAAGA TTGAATGCTA AAGACCTCAA CCAGCAGCAT 
GCTCTTACAC ACAAGGTACA TGAAACCAAG GTCCAGGAGC AACATGATCA AATAATTAAT 
GCTTCATCTC AGATTCAAAT TCCAAATCAT TCTTTAGGGC ATGGCCATCA GGCATCTCTT 
CCTAATACAC AGGTTCTTTT AGATTCTACC TGTGATCTGC AAATTCTTCA GCAATCAATA 
CTGCAGGCAG GTTTAGGACA AGTAAAGGCA TCTTTACAAG TACAGCGTGT TCAAAGTCCT 
CAACAAATAG TCCATCCTTT CCTTCAAATG GATGGCCATA TTATTCAGAG CAATGGGGAT 
CATTCTCAGC AGCAACTCCA TCCTCAAACT TCTGAAATCA TGAAAATGGA CCTCTCTGAG 
TCTTCAAAAC CATTACAACA ACATCTAACA ACAAAGGGCC ATTTCAGTGA AACAAATCAA 
CATGATTCAA AGAATCATTT TGTTTCTCTT GGATCAATAT GTTTCCCAGA GGCAATGCTT 
CTCAGTGATG AGAGAAATAT TTTATCAAAT GTAGATGATA TCTTAGCAGC TACAGCAGCA 
GCTTGTGGGG TTACTCCTTC TGATTTTTCC AAGTCAACTT CAAATGAAAC CATTCCAGCA 
GTTGAAGATG GTGATTCTAA ATCTCATTTT CAGCAGTCAT TAGATGTTGG GCACGTGACT 
TCAGATTTTA ACCCCATAAC AGCTGCGGTA GGAAAGCCAC AGAATATAAG TGATATTTCC 
TTAAATGGAA ATCAAGTCGC TGTAAACCTT TCACCAGTAC CTACCCTCCA GTCAAAAATG 
ACTCTCAATC AACAGCATAT TGAAACTGGT CAAAATAAAG CATCTAAAGT AATTTCACCA 
GTGGTTGGAC CAAGTCATGA AGCCCAGGAG CAAAGTTCTG GCTCATTCAA GAAACAGCCT 
GCTACCAATC ATGAATCTGA AGAGGATAGC GAAGTTCCTA TTGATAATAC TTTAAATAAT 
AACAGAAGCC AGGAGTTTGT TTCTAGTAGA AGTGTAAGTG GAGAGAGTGC CGCATCGGAG 
AGTGAGCTCA CCTTAGGGGG TGATGACAGC GGTGTGTCGG TGAACCCAAC TAGAAGTGCT 
CTTGCACTGT TGGCCATGGC CCAACCTGGG GAGGCCGTTG GTGTCAAGAT TGAAGAAGAA 
AACCACGATT TAATGCATTT TCACCTGCAG AAGAAAAAAC CCGGAAAGGG GCAAATGAAA 
GAGGAAGACA ACAGTAATCA GAAACAGCCG AAAAGAAGTG CCCAGGGCAA ACGCCAGAAT 
CCGAGGGGAA CAGATGTGTA TTTGCCATAT ACCCCTCCTT CCTCAGAAAG CTGCCATGAT 
GGTTATCAGC ATCAAGAAAA AATGAGACAG AAGATCAAAG AGGTAGAGGA AAAACAGCCA 
GAAGTCAAAA CAGGATTTAT TGCCTCTTTC TTAGATTTTC TGAAATCCGG GCCCAAGCAG 
CAGTTTTCCA CTCTTGCCGT CCGAATGCCC AACAGGACTA GACGACCAGG GACCCAGACT 
GTTCGTACAT TGTGTCCCCC GCCACTTCCA AAGACTTCTA CGACACCCAC ACCTTTAGTG 
TCTGAAACTG GGGGTAACAG CCCGTCAGAA AAAGTTGAGA ATGAACTTAA AAACTTAGAC 
CATTTATCTT CATTCTCTTC TGATGAAGAA GATCCTGGAG CGTGCAGTCG TGATATTTAC 
AAAAGCGCCT CCACTACGTT AACTACATTG GATGCTACTT CTGATAAAAA GAAGAAAATA 
GTTTCAGAAG CCCTACGGGT GGCACCTGCT AGCCCAACTG CCAGTACTAC TGCTACTCCT 
TCCTCCACCG CTGTGGGCGC AGTTAAGCAA GAACCTCCCT ACTCTACTTC ATCTGCAGTA 
CATATCCTGG AAAATATAAA CTCTACAGAA CCCCCAAAAC CCTGCGAACT TGATGGTCTT 
CCTTCAGACC AGTTTGCAAA AGGACAGGAC ACTGTTGCCA TAGAAGGTTT TACAGATGAG 
GAAAACACAG AAAGTGGAGG AGAAGGCCAA TACAGAGAGC GTGATGAATT TGTGGTAAAG 
ATAGAAGACA TAGAGACTTT TAAGGAGGCT TTAAAAACAG GAAAAGAACC CCCAGCTATT 
TGGAAAGTAC AAAAAGCTTT ATTACAGAAA TTTGTTCCTG AAATTCGAGA TGGACAAAGA 
GAATTCGCTG CTACCAATAG TTACCTTGGG TATTTTGGAG ATGCAAAGAG TAAATACAAA 
AAGATATATG TGAAATTCAT TGAAAACACA AACAAAAAGG AATATGTCAG AGTGTGTTCC 
AAAAAGCCAA GAAGTAAGCC TTCACAAACT ATCAGAACTG TTCAGACGAA GCCAAGTAGT 
AGCAGTAAAG CTTCTGATCC TCCAGCCCCA AAAACTACGA CTACAAAAGC CCCTTCCGTG 
AAACCCAAAG TTAAACAGCT GAAAGTAAAG GCTGAGCCAC CACCAAAGAA ACGGAAGAAA 
TGGAAAGAAG AGTTTTCATC ATCCCAATCG GATTCCTCTC CTGAGGTCCA TTCCAGTAGT 
AGTGATGATG AGGAATTTGA TCCTCCAGCT CCCTTTGTCA CTCGTTTTTT GAACACAAGA 
GCGATGAAGG AAACCTTTAA GAGCTACATG GAACTGCTTG TTAGCATTGC TTTGGACCCT 
GACACAATGC AAGCCTTAGA GAAGAGCAAT GATGAGCTAC TTTTGCCTCA TATGAAAAAA 
ATAGATAGCA TGCTGAATGA TAACCGGAAG AGACTTCTTT TGAATCTTCA TTTGGATCAG 
TCATTCAAGA ATGCTTTGGA AAGCTTTCCC GAACTAACAA TAATTACTCG AGACTCTAAA 
GCAAAAAGTG GGGGTTCTGC TATTTCTAAA ATCAAAATGA ATGGCAAAAC TTATAATAAG 
AAAACTCTAA GGACTTCTAA AACAACTACC AAATCTGCAC AAGAGTTTGC TGTTGACCCA 
GAGAAAATAC AGCTGTATTC TTTGTATCAT TCACTCCATC ATTATAAATA TCATGTTTAT 
CTGATATGTA AAGATGAGAT TTCTTCTGTG CAGAAAAGAA ATGAAGACTT AGGACAGGAA 
GAAATTGTTC AACTTTGTAT GAAAAATGTA AAATGGGTGG AAGACCTATT TGAAAAATTC 
GGAGAACTTC TAAATCATGT GCAGCAGAAG TGTCCCTAA

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

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QSER1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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