AGL cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	AGL
Entrez Gene ID	100478160
Full Name	amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011226927.2	XP_011225229.1	glycogen debranching enzyme
XM_019801294.1	XP_019656853.1	glycogen debranching enzyme

Pathways from BioSystems
Gene Ontology

The following AGL gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AGL 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
OAc08198	XM_011226927.2 Latest version!	Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OAc08198	XM_019801294.1 Latest version!	Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

AGL ( XM_011226927.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011225229.1 Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc08198
Clone ID Related Accession (Same CDS sequence)	XM_011226927.2 , XM_019801294.1
Accession Version	XM_011226927.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4602bp) 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	glycogen debranching enzyme
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217736.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011226927.1. ##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##

ATGGGACACA GTAAACAGAT TAGAATTTTA ATTCTGAACG AAATGGAAAA GCTGGAAAAG 
ACCCTCTTCA GACTTGAACA AGGATTTGAA CTACAGTTCC GGTTAGGCCC CACTTTACAG 
GGAAAAGCAG TTACTGTTTA TACAAATTAC CCATTTCCTG GAGAAGCATT TAATCGAGAA 
AAATTCCGTT CCCTGGAATG GGAAAATCCA ACAGAAAGAG AAGATGATTC TGATAAATAC 
TGTAAAGTTA ATCTTCAGCA AGCTGGATCA TTTCAGTATT ACTTCCTTCA AGGAAATGAG 
AAAAGTGGTG GGGGTTACAT AGTTGTGGAT CCTATTTTAC ATGTTGGTGC TGATAATCAC 
GTGCTACCCT TGGACTGTGT TACTCTCCAG ACATTTTTAG CCAAATGTCT GGGACCCTTT 
GATGAATGGG AAAGCAGACT TCGGGTTGCA AAAGAATCAG GTTACAACAT GATTCATTTT 
ACCCCATTAC AAACTCTTGG ACTATCTAGA TCGTGCTACT CCCTTGCCAA CCAGTTAGAA 
TTAAATCCTG ACTTTTCAAG ACCTAATAAA AAGTATACCT GGAATGATGT TGGACAGCTA 
GTGGAAAAAT TGAAAAAAGA ATGGAATATT CTTTGTATTA CTGATGTTGT CTACAACCAT 
ACTGCTGCTA ATAGTAGATG GATCCAGGAA CATCCAGAAA GTGCATATAA CCTTGTAAAT 
TCTCCACACT TAAAACCTGC CTGGGTCTTA GACAGAGCAC TGTGCCATTT ATCCTGTGAC 
GTTGCAGAAG GGAAATACAA AGAAAAAGGA GTACCTGCTT TGATTGAAAA TGATCATCAA 
ATGAATTGCA TTCGAAAAAT AATTTGGGAG GATATTTTTC CGAAGATTCA GCTCTGGGAA 
TTTTTCCAAG TAGATGTTTA CAAAGCAGTT GAGCAATTTA GAGGACTTCT TACACAAGAA 
AATAGGAAAA TAACAACCAA GCCTGATCCA AAGGAACACC TTAAGATTAT TCAGGATCCT 
GAATACAGAA GACTTGGCTG TACTGTAGAT ATGAACATTG CACTAGAAAC TTTCATACCA 
CATGACAAGG GCCCAGCTGC AATTGATGAA TGCTGTAATT GGTTCCGTAA GAGAATTGAG 
GAGTTAAATT CAGAGAAGCA TCAACTCGTG AACTATCATC AGGAACAGGC AGTTAATTGC 
CTTTTGGGAA ATGTGTTTTA TGAACGACTG GCTGGCCATG GTCCTAAATT AGGACCTGTC 
ACTAGAAAAC ATCCTTTAGT TACCAGATAT TTTACGTTCC CATTTGAAGA AATGACCCCC 
TCCGCAGAAG AATCTATGAT TCATATCCCC AATAAAGCTT GTTTTCTGAT GGCACATAAT 
GGATGGGTAA TGGGAGATGA TCCACTTCGA AACTTTGCTG AACCAGGCTC AGAAGTTTAT 
CTAAGAAGAG AACTTATTTG CTGGGGAGAC AGTGTTAAAT TACGCTATGG GAATAAACCA 
GAGGACTGTC CTTTTCTCTG GGCACACATG AAAAAATACA CTGAAATAAC CGCAACTTAT 
TTCCAGGGAG TGCGTCTTGA TAACTGCCAC TCAACACCTC TTCATGTAGC CGAGTACATG 
TTGGATGCTG CTAGGAAATT GCAACCCAAT TTGTATGTAG TAGCTGAACT GTTCACAGGA 
AGCGAAGACC TGGACAATGT CTTTGTTACT AGACTGGGCA TTAGTTCCCT AATAAGAGAG 
GCAATGAGTG CATATAATAG CCATGAAGAG GGCAGATTGG TTTATAGATA TGGAGGAGAA 
CCTGTTGGAT CCTTTGTTCA GCCCTGTTTG AGGCCGTTAA TGCCAGCCAT TGCACATGCC 
CTGTTTATGG ATATTACCCA TGATAATGAG TGTCCTATTG TGCATAGGTC AGAATATGAT 
GCTCTCCCAA GTACCACGAT TGTTTCTATG GCATGTTGTG CTAGTGGAAG TACTAAAGGC 
TATGATGAAT TAGTGCCTCA TCAGATTTCA GTGGTTTCTG AAGAACGGTT TTATACTAAG 
TGGAATCCTG AAGCATCTCC ATCAAATACA GGCGAAGTTA ATTTCCAAAG TGGAATTATT 
GCAGCCAGAT GTGCTATCAA TAAACTTCAT CAAGAACTTG GGGCTCAGGG TTTCATTCAG 
GTCTATGTGG ATCAGGTTGA TGAGGACATA GTGGCAGTAA CAAGACATTC ACCCAGTATT 
CATCAGTCTG TTGTGTCTGT GTCTAGAACT GCTTTCAGGA ATCCTAAGAC TTCATTTTAC 
AGCAAGGAAG TACCTCAAAT GTGCATCCCT GGCAAAATTG AAGAAGTAGT TCTTGAAGCT 
AGAACTATTG AGAGAAATAC AAAACCTTAT CAGAAGGATG AGAATTCGAT CAATGGAATG 
CCAAATATCA CAGTAGAAAT TAGAGAACAT ATTCAGCTTA GTGAAAGTAA AATTGTTAAA 
CAAGCTGGAG TTGCCATAAA AGGACCCAAT GAATATATTC AAGAAATAGA ATTTGAAAAC 
TTGTCTCCAG GAAGTGTTAT TATATTCAGA GTTAGTCTTG ATCCACACGC GCAAGTCGCT 
GTTGGAATTC TTCGAAATCA CCTGATACAG TTCAGTCCTC ATTTTAAATC TGGGAGCCTT 
ACTGTTGACA ATTCAGATCC TATATTAAAA ATTCCTTTTG CTTTCATTGC CTCAAAATTA 
ACTTTGGCTG AACTGAATCA GGTACTTTAC CGATGTGAAG CAGAAGAACA AGAAGATGGT 
GGAGGCTGTT ATGACATACC AAACTGGTCA TCTCTTAAAT ATGCGGGTCT TCAAGGATTA 
ATGTCCGTCT TGGCAGAAAT AAGACCAAAG AATGACTTGG GGCATCCCTT TTGTGATAAT 
TTGAGATCTG GAGATTGGAT GATTGACTAT GTCAGTAACC GACTTATTTC ACGATCAGGA 
ACTATTGCTG AAGTTGGTAA ATGGTTGCAG GCTATGTTCT TCTACCTGAA GCAGATCCCA 
CGTTATCTTA TCCCATGTTA CTTCGATGCT ATATTAATTG GTGCATACAC CACTCTTCTG 
GATATAGCAT GGAAGCAGAT GTCAAGCTTT GTTCAGAATG GCTCTACCTT TGTGAAACAC 
CTTTCACTGG GATCAGTGCA AATGTGTGGA GTAGGAAAGT GCCCTTCTCT GCCACTTCTT 
TCACCTTCAC TTATGGATGT ACCATACAGG CTAAATGAGA TCACAAAAGA AAAGGAGCAA 
TGTTGTGTAT CTCTAGCTGC AGGCTTACCT CATTTTTCTT CTGGTATTTT TCGCTGCTGG 
GGAAGGGATA CTTTTATTGC ACTGAGAGGT CTACTGCTGA TTACTGGACG CTACTTAGAG 
GCCAGGAATA TTATTTTAGC ATTTGCTGGT ACCCTGAGAC ACGGTCTCAT TCCTAATCTC 
CTGGGTGAAG GAACTTATGC CAGATACAAT TGCCGGGATG CTGTGTGGTG GTGGCTACAG 
TGTATTCAGG ATTACTGTAA AATGGTTCCA AATGGCCTAG ACATTCTCAA GTGCCCAGTT 
TCCAGAATGT ATCCTACAGA TGATTCTGTT CCTTTGTCTG CCGGCACACT GGATCAACCA 
TTGTTTGAAG TAATACAGGA AGTAATGCAA AGACACATGC AGGGCATACA ATTCCGAGAA 
AGGAATGCTG GTCCACAGAT AGATCGAAAC ATGAAGGATG AAGGTTTTAA TATAACTGCA 
GGGGTTGACG AAGAAACAGG ATTTGTTTAT GGAGGAAATC GCTTAAATTG TGGCACATGG 
ATGGATAAAA TGGGAGAAAG TGACAGAGCT AGAAACAGAG GAATCCCAGC TACTCCAAGA 
GATGGGTCTG CTGTGGAAAT TGTGGGTCTG AGTAAATCTG CTGTCCGTTG GTTGCTGGAA 
TTATCCAAAA AAAGAATTTT CCCTTATCAT GAAGTCACAG TAAAAAAACA TGGAAAGGTT 
GTGACAGTCT CATATGATGA GTGGAACAGA AAAATACAAG ACAACTTCGA AAAGCTATTT 
CATGTGTCAG AAGACCCTTC AGATTCTAAT GAAAAGCATC CTAATCTGGT TCACAAACGT 
GGCATATACA AAGATAGTTA TGGAGCTTCA AGCCCTTGGT GTGACTATCA GCTCAGGCCT 
AATTTTACGA TAGCAATGGT TGTAGCCCCT GAGCTCTTTA CTGCAGAAAA AGCGTGGAAA 
GCTCTGGAGA TTGCAGAAAA AAAATTACTT GGTCCCCTTG GCATGAAAAC TTTGGATCCA 
GATGATATGG TTTACTGTGG AATTTATGAC AATGCCTTAG ACAATGACAA CTACAATCTT 
GCTAAAGGTT TCAATTATCA CCAAGGACCT GAGTGGCTGT GGCCCGTTGG GTATTTTCTT 
CGTGCGAAAT TATATTTTTC CAAATTGATG GGTCCAGAGG CTAATGCCAA GACTGTGTTT 
TTGGTTAAAA ACATTCTTTC CCGACACTAT GTTCATCTTG AGAGATCCCC TTGGAAAGGA 
CTTCCTGAAC TGACCAATGA GAATGGCCAA TACTGTCCTT TCAGCTGTGA AACACAAGCC 
TGGTCAATCG CTACTGTTCT TGAAACACTC TATGACTTAT AG

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

RefSeq	XP_011225229.1
CDS	406..5007
Translation	MGHSKQIRILILNEMEKLEKTLFRLEQGFELQFRLGPTLQGKAVTVYTNYPFPGEAFNREKFRSLEWENPTEREDDSDKYCKVNLQQAGSFQYYFLQGNEKSGGGYIVVDPILHVGADNHVLPLDCVTLQTFLAKCLGPFDEWESRLRVAKESGYNMIHFTPLQTLGLSRSCYSLANQLELNPDFSRPNKKYTWNDVGQLVEKLKKEWNILCITDVVYNHTAANSRWIQEHPESAYNLVNSPHLKPAWVLDRALCHLSCDVAEGKYKEKGVPALIENDHQMNCIRKIIWEDIFPKIQLWEFFQVDVYKAVEQFRGLLTQENRKITTKPDPKEHLKIIQDPEYRRLGCTVDMNIALETFIPHDKGPAAIDECCNWFRKRIEELNSEKHQLVNYHQEQAVNCLLGNVFYERLAGHGPKLGPVTRKHPLVTRYFTFPFEEMTPSAEESMIHIPNKACFLMAHNGWVMGDDPLRNFAEPGSEVYLRRELICWGDSVKLRYGNKPEDCPFLWAHMKKYTEITATYFQGVRLDNCHSTPLHVAEYMLDAARKLQPNLYVVAELFTGSEDLDNVFVTRLGISSLIREAMSAYNSHEEGRLVYRYGGEPVGSFVQPCLRPLMPAIAHALFMDITHDNECPIVHRSEYDALPSTTIVSMACCASGSTKGYDELVPHQISVVSEERFYTKWNPEASPSNTGEVNFQSGIIAARCAINKLHQELGAQGFIQVYVDQVDEDIVAVTRHSPSIHQSVVSVSRTAFRNPKTSFYSKEVPQMCIPGKIEEVVLEARTIERNTKPYQKDENSINGMPNITVEIREHIQLSESKIVKQAGVAIKGPNEYIQEIEFENLSPGSVIIFRVSLDPHAQVAVGILRNHLIQFSPHFKSGSLTVDNSDPILKIPFAFIASKLTLAELNQVLYRCEAEEQEDGGGCYDIPNWSSLKYAGLQGLMSVLAEIRPKNDLGHPFCDNLRSGDWMIDYVSNRLISRSGTIAEVGKWLQAMFFYLKQIPRYLIPCYFDAILIGAYTTLLDIAWKQMSSFVQNGSTFVKHLSLGSVQMCGVGKCPSLPLLSPSLMDVPYRLNEITKEKEQCCVSLAAGLPHFSSGIFRCWGRDTFIALRGLLLITGRYLEARNIILAFAGTLRHGLIPNLLGEGTYARYNCRDAVWWWLQCIQDYCKMVPNGLDILKCPVSRMYPTDDSVPLSAGTLDQPLFEVIQEVMQRHMQGIQFRERNAGPQIDRNMKDEGFNITAGVDEETGFVYGGNRLNCGTWMDKMGESDRARNRGIPATPRDGSAVEIVGLSKSAVRWLLELSKKRIFPYHEVTVKKHGKVVTVSYDEWNRKIQDNFEKLFHVSEDPSDSNEKHPNLVHKRGIYKDSYGASSPWCDYQLRPNFTIAMVVAPELFTAEKAWKALEIAEKKLLGPLGMKTLDPDDMVYCGIYDNALDNDNYNLAKGFNYHQGPEWLWPVGYFLRAKLYFSKLMGPEANAKTVFLVKNILSRHYVHLERSPWKGLPELTNENGQYCPFSCETQAWSIATVLETLYDL

Target ORF information:

RefSeq Version	XM_011226927.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X1, mRNA.

Target ORF information:

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

XM_011226927.2

ORF Insert Sequence:

ATGGGACACA GTAAACAGAT TAGAATTTTA ATTCTGAACG AAATGGAAAA GCTGGAAAAG 
ACCCTCTTCA GACTTGAACA AGGATTTGAA CTACAGTTCC GGTTAGGCCC CACTTTACAG 
GGAAAAGCAG TTACTGTTTA TACAAATTAC CCATTTCCTG GAGAAGCATT TAATCGAGAA 
AAATTCCGTT CCCTGGAATG GGAAAATCCA ACAGAAAGAG AAGATGATTC TGATAAATAC 
TGTAAAGTTA ATCTTCAGCA AGCTGGATCA TTTCAGTATT ACTTCCTTCA AGGAAATGAG 
AAAAGTGGTG GGGGTTACAT AGTTGTGGAT CCTATTTTAC ATGTTGGTGC TGATAATCAC 
GTGCTACCCT TGGACTGTGT TACTCTCCAG ACATTTTTAG CCAAATGTCT GGGACCCTTT 
GATGAATGGG AAAGCAGACT TCGGGTTGCA AAAGAATCAG GTTACAACAT GATTCATTTT 
ACCCCATTAC AAACTCTTGG ACTATCTAGA TCGTGCTACT CCCTTGCCAA CCAGTTAGAA 
TTAAATCCTG ACTTTTCAAG ACCTAATAAA AAGTATACCT GGAATGATGT TGGACAGCTA 
GTGGAAAAAT TGAAAAAAGA ATGGAATATT CTTTGTATTA CTGATGTTGT CTACAACCAT 
ACTGCTGCTA ATAGTAGATG GATCCAGGAA CATCCAGAAA GTGCATATAA CCTTGTAAAT 
TCTCCACACT TAAAACCTGC CTGGGTCTTA GACAGAGCAC TGTGCCATTT ATCCTGTGAC 
GTTGCAGAAG GGAAATACAA AGAAAAAGGA GTACCTGCTT TGATTGAAAA TGATCATCAA 
ATGAATTGCA TTCGAAAAAT AATTTGGGAG GATATTTTTC CGAAGATTCA GCTCTGGGAA 
TTTTTCCAAG TAGATGTTTA CAAAGCAGTT GAGCAATTTA GAGGACTTCT TACACAAGAA 
AATAGGAAAA TAACAACCAA GCCTGATCCA AAGGAACACC TTAAGATTAT TCAGGATCCT 
GAATACAGAA GACTTGGCTG TACTGTAGAT ATGAACATTG CACTAGAAAC TTTCATACCA 
CATGACAAGG GCCCAGCTGC AATTGATGAA TGCTGTAATT GGTTCCGTAA GAGAATTGAG 
GAGTTAAATT CAGAGAAGCA TCAACTCGTG AACTATCATC AGGAACAGGC AGTTAATTGC 
CTTTTGGGAA ATGTGTTTTA TGAACGACTG GCTGGCCATG GTCCTAAATT AGGACCTGTC 
ACTAGAAAAC ATCCTTTAGT TACCAGATAT TTTACGTTCC CATTTGAAGA AATGACCCCC 
TCCGCAGAAG AATCTATGAT TCATATCCCC AATAAAGCTT GTTTTCTGAT GGCACATAAT 
GGATGGGTAA TGGGAGATGA TCCACTTCGA AACTTTGCTG AACCAGGCTC AGAAGTTTAT 
CTAAGAAGAG AACTTATTTG CTGGGGAGAC AGTGTTAAAT TACGCTATGG GAATAAACCA 
GAGGACTGTC CTTTTCTCTG GGCACACATG AAAAAATACA CTGAAATAAC CGCAACTTAT 
TTCCAGGGAG TGCGTCTTGA TAACTGCCAC TCAACACCTC TTCATGTAGC CGAGTACATG 
TTGGATGCTG CTAGGAAATT GCAACCCAAT TTGTATGTAG TAGCTGAACT GTTCACAGGA 
AGCGAAGACC TGGACAATGT CTTTGTTACT AGACTGGGCA TTAGTTCCCT AATAAGAGAG 
GCAATGAGTG CATATAATAG CCATGAAGAG GGCAGATTGG TTTATAGATA TGGAGGAGAA 
CCTGTTGGAT CCTTTGTTCA GCCCTGTTTG AGGCCGTTAA TGCCAGCCAT TGCACATGCC 
CTGTTTATGG ATATTACCCA TGATAATGAG TGTCCTATTG TGCATAGGTC AGAATATGAT 
GCTCTCCCAA GTACCACGAT TGTTTCTATG GCATGTTGTG CTAGTGGAAG TACTAAAGGC 
TATGATGAAT TAGTGCCTCA TCAGATTTCA GTGGTTTCTG AAGAACGGTT TTATACTAAG 
TGGAATCCTG AAGCATCTCC ATCAAATACA GGCGAAGTTA ATTTCCAAAG TGGAATTATT 
GCAGCCAGAT GTGCTATCAA TAAACTTCAT CAAGAACTTG GGGCTCAGGG TTTCATTCAG 
GTCTATGTGG ATCAGGTTGA TGAGGACATA GTGGCAGTAA CAAGACATTC ACCCAGTATT 
CATCAGTCTG TTGTGTCTGT GTCTAGAACT GCTTTCAGGA ATCCTAAGAC TTCATTTTAC 
AGCAAGGAAG TACCTCAAAT GTGCATCCCT GGCAAAATTG AAGAAGTAGT TCTTGAAGCT 
AGAACTATTG AGAGAAATAC AAAACCTTAT CAGAAGGATG AGAATTCGAT CAATGGAATG 
CCAAATATCA CAGTAGAAAT TAGAGAACAT ATTCAGCTTA GTGAAAGTAA AATTGTTAAA 
CAAGCTGGAG TTGCCATAAA AGGACCCAAT GAATATATTC AAGAAATAGA ATTTGAAAAC 
TTGTCTCCAG GAAGTGTTAT TATATTCAGA GTTAGTCTTG ATCCACACGC GCAAGTCGCT 
GTTGGAATTC TTCGAAATCA CCTGATACAG TTCAGTCCTC ATTTTAAATC TGGGAGCCTT 
ACTGTTGACA ATTCAGATCC TATATTAAAA ATTCCTTTTG CTTTCATTGC CTCAAAATTA 
ACTTTGGCTG AACTGAATCA GGTACTTTAC CGATGTGAAG CAGAAGAACA AGAAGATGGT 
GGAGGCTGTT ATGACATACC AAACTGGTCA TCTCTTAAAT ATGCGGGTCT TCAAGGATTA 
ATGTCCGTCT TGGCAGAAAT AAGACCAAAG AATGACTTGG GGCATCCCTT TTGTGATAAT 
TTGAGATCTG GAGATTGGAT GATTGACTAT GTCAGTAACC GACTTATTTC ACGATCAGGA 
ACTATTGCTG AAGTTGGTAA ATGGTTGCAG GCTATGTTCT TCTACCTGAA GCAGATCCCA 
CGTTATCTTA TCCCATGTTA CTTCGATGCT ATATTAATTG GTGCATACAC CACTCTTCTG 
GATATAGCAT GGAAGCAGAT GTCAAGCTTT GTTCAGAATG GCTCTACCTT TGTGAAACAC 
CTTTCACTGG GATCAGTGCA AATGTGTGGA GTAGGAAAGT GCCCTTCTCT GCCACTTCTT 
TCACCTTCAC TTATGGATGT ACCATACAGG CTAAATGAGA TCACAAAAGA AAAGGAGCAA 
TGTTGTGTAT CTCTAGCTGC AGGCTTACCT CATTTTTCTT CTGGTATTTT TCGCTGCTGG 
GGAAGGGATA CTTTTATTGC ACTGAGAGGT CTACTGCTGA TTACTGGACG CTACTTAGAG 
GCCAGGAATA TTATTTTAGC ATTTGCTGGT ACCCTGAGAC ACGGTCTCAT TCCTAATCTC 
CTGGGTGAAG GAACTTATGC CAGATACAAT TGCCGGGATG CTGTGTGGTG GTGGCTACAG 
TGTATTCAGG ATTACTGTAA AATGGTTCCA AATGGCCTAG ACATTCTCAA GTGCCCAGTT 
TCCAGAATGT ATCCTACAGA TGATTCTGTT CCTTTGTCTG CCGGCACACT GGATCAACCA 
TTGTTTGAAG TAATACAGGA AGTAATGCAA AGACACATGC AGGGCATACA ATTCCGAGAA 
AGGAATGCTG GTCCACAGAT AGATCGAAAC ATGAAGGATG AAGGTTTTAA TATAACTGCA 
GGGGTTGACG AAGAAACAGG ATTTGTTTAT GGAGGAAATC GCTTAAATTG TGGCACATGG 
ATGGATAAAA TGGGAGAAAG TGACAGAGCT AGAAACAGAG GAATCCCAGC TACTCCAAGA 
GATGGGTCTG CTGTGGAAAT TGTGGGTCTG AGTAAATCTG CTGTCCGTTG GTTGCTGGAA 
TTATCCAAAA AAAGAATTTT CCCTTATCAT GAAGTCACAG TAAAAAAACA TGGAAAGGTT 
GTGACAGTCT CATATGATGA GTGGAACAGA AAAATACAAG ACAACTTCGA AAAGCTATTT 
CATGTGTCAG AAGACCCTTC AGATTCTAAT GAAAAGCATC CTAATCTGGT TCACAAACGT 
GGCATATACA AAGATAGTTA TGGAGCTTCA AGCCCTTGGT GTGACTATCA GCTCAGGCCT 
AATTTTACGA TAGCAATGGT TGTAGCCCCT GAGCTCTTTA CTGCAGAAAA AGCGTGGAAA 
GCTCTGGAGA TTGCAGAAAA AAAATTACTT GGTCCCCTTG GCATGAAAAC TTTGGATCCA 
GATGATATGG TTTACTGTGG AATTTATGAC AATGCCTTAG ACAATGACAA CTACAATCTT 
GCTAAAGGTT TCAATTATCA CCAAGGACCT GAGTGGCTGT GGCCCGTTGG GTATTTTCTT 
CGTGCGAAAT TATATTTTTC CAAATTGATG GGTCCAGAGG CTAATGCCAA GACTGTGTTT 
TTGGTTAAAA ACATTCTTTC CCGACACTAT GTTCATCTTG AGAGATCCCC TTGGAAAGGA 
CTTCCTGAAC TGACCAATGA GAATGGCCAA TACTGTCCTT TCAGCTGTGA AACACAAGCC 
TGGTCAATCG CTACTGTTCT TGAAACACTC TATGACTTAT AG

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

AGL ( XM_019801294.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019656853.1 Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc08198
Clone ID Related Accession (Same CDS sequence)	XM_011226927.2 , XM_019801294.1
Accession Version	XM_019801294.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4602bp) 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	glycogen debranching enzyme
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217736.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGACACA GTAAACAGAT TAGAATTTTA ATTCTGAACG AAATGGAAAA GCTGGAAAAG 
ACCCTCTTCA GACTTGAACA AGGATTTGAA CTACAGTTCC GGTTAGGCCC CACTTTACAG 
GGAAAAGCAG TTACTGTTTA TACAAATTAC CCATTTCCTG GAGAAGCATT TAATCGAGAA 
AAATTCCGTT CCCTGGAATG GGAAAATCCA ACAGAAAGAG AAGATGATTC TGATAAATAC 
TGTAAAGTTA ATCTTCAGCA AGCTGGATCA TTTCAGTATT ACTTCCTTCA AGGAAATGAG 
AAAAGTGGTG GGGGTTACAT AGTTGTGGAT CCTATTTTAC ATGTTGGTGC TGATAATCAC 
GTGCTACCCT TGGACTGTGT TACTCTCCAG ACATTTTTAG CCAAATGTCT GGGACCCTTT 
GATGAATGGG AAAGCAGACT TCGGGTTGCA AAAGAATCAG GTTACAACAT GATTCATTTT 
ACCCCATTAC AAACTCTTGG ACTATCTAGA TCGTGCTACT CCCTTGCCAA CCAGTTAGAA 
TTAAATCCTG ACTTTTCAAG ACCTAATAAA AAGTATACCT GGAATGATGT TGGACAGCTA 
GTGGAAAAAT TGAAAAAAGA ATGGAATATT CTTTGTATTA CTGATGTTGT CTACAACCAT 
ACTGCTGCTA ATAGTAGATG GATCCAGGAA CATCCAGAAA GTGCATATAA CCTTGTAAAT 
TCTCCACACT TAAAACCTGC CTGGGTCTTA GACAGAGCAC TGTGCCATTT ATCCTGTGAC 
GTTGCAGAAG GGAAATACAA AGAAAAAGGA GTACCTGCTT TGATTGAAAA TGATCATCAA 
ATGAATTGCA TTCGAAAAAT AATTTGGGAG GATATTTTTC CGAAGATTCA GCTCTGGGAA 
TTTTTCCAAG TAGATGTTTA CAAAGCAGTT GAGCAATTTA GAGGACTTCT TACACAAGAA 
AATAGGAAAA TAACAACCAA GCCTGATCCA AAGGAACACC TTAAGATTAT TCAGGATCCT 
GAATACAGAA GACTTGGCTG TACTGTAGAT ATGAACATTG CACTAGAAAC TTTCATACCA 
CATGACAAGG GCCCAGCTGC AATTGATGAA TGCTGTAATT GGTTCCGTAA GAGAATTGAG 
GAGTTAAATT CAGAGAAGCA TCAACTCGTG AACTATCATC AGGAACAGGC AGTTAATTGC 
CTTTTGGGAA ATGTGTTTTA TGAACGACTG GCTGGCCATG GTCCTAAATT AGGACCTGTC 
ACTAGAAAAC ATCCTTTAGT TACCAGATAT TTTACGTTCC CATTTGAAGA AATGACCCCC 
TCCGCAGAAG AATCTATGAT TCATATCCCC AATAAAGCTT GTTTTCTGAT GGCACATAAT 
GGATGGGTAA TGGGAGATGA TCCACTTCGA AACTTTGCTG AACCAGGCTC AGAAGTTTAT 
CTAAGAAGAG AACTTATTTG CTGGGGAGAC AGTGTTAAAT TACGCTATGG GAATAAACCA 
GAGGACTGTC CTTTTCTCTG GGCACACATG AAAAAATACA CTGAAATAAC CGCAACTTAT 
TTCCAGGGAG TGCGTCTTGA TAACTGCCAC TCAACACCTC TTCATGTAGC CGAGTACATG 
TTGGATGCTG CTAGGAAATT GCAACCCAAT TTGTATGTAG TAGCTGAACT GTTCACAGGA 
AGCGAAGACC TGGACAATGT CTTTGTTACT AGACTGGGCA TTAGTTCCCT AATAAGAGAG 
GCAATGAGTG CATATAATAG CCATGAAGAG GGCAGATTGG TTTATAGATA TGGAGGAGAA 
CCTGTTGGAT CCTTTGTTCA GCCCTGTTTG AGGCCGTTAA TGCCAGCCAT TGCACATGCC 
CTGTTTATGG ATATTACCCA TGATAATGAG TGTCCTATTG TGCATAGGTC AGAATATGAT 
GCTCTCCCAA GTACCACGAT TGTTTCTATG GCATGTTGTG CTAGTGGAAG TACTAAAGGC 
TATGATGAAT TAGTGCCTCA TCAGATTTCA GTGGTTTCTG AAGAACGGTT TTATACTAAG 
TGGAATCCTG AAGCATCTCC ATCAAATACA GGCGAAGTTA ATTTCCAAAG TGGAATTATT 
GCAGCCAGAT GTGCTATCAA TAAACTTCAT CAAGAACTTG GGGCTCAGGG TTTCATTCAG 
GTCTATGTGG ATCAGGTTGA TGAGGACATA GTGGCAGTAA CAAGACATTC ACCCAGTATT 
CATCAGTCTG TTGTGTCTGT GTCTAGAACT GCTTTCAGGA ATCCTAAGAC TTCATTTTAC 
AGCAAGGAAG TACCTCAAAT GTGCATCCCT GGCAAAATTG AAGAAGTAGT TCTTGAAGCT 
AGAACTATTG AGAGAAATAC AAAACCTTAT CAGAAGGATG AGAATTCGAT CAATGGAATG 
CCAAATATCA CAGTAGAAAT TAGAGAACAT ATTCAGCTTA GTGAAAGTAA AATTGTTAAA 
CAAGCTGGAG TTGCCATAAA AGGACCCAAT GAATATATTC AAGAAATAGA ATTTGAAAAC 
TTGTCTCCAG GAAGTGTTAT TATATTCAGA GTTAGTCTTG ATCCACACGC GCAAGTCGCT 
GTTGGAATTC TTCGAAATCA CCTGATACAG TTCAGTCCTC ATTTTAAATC TGGGAGCCTT 
ACTGTTGACA ATTCAGATCC TATATTAAAA ATTCCTTTTG CTTTCATTGC CTCAAAATTA 
ACTTTGGCTG AACTGAATCA GGTACTTTAC CGATGTGAAG CAGAAGAACA AGAAGATGGT 
GGAGGCTGTT ATGACATACC AAACTGGTCA TCTCTTAAAT ATGCGGGTCT TCAAGGATTA 
ATGTCCGTCT TGGCAGAAAT AAGACCAAAG AATGACTTGG GGCATCCCTT TTGTGATAAT 
TTGAGATCTG GAGATTGGAT GATTGACTAT GTCAGTAACC GACTTATTTC ACGATCAGGA 
ACTATTGCTG AAGTTGGTAA ATGGTTGCAG GCTATGTTCT TCTACCTGAA GCAGATCCCA 
CGTTATCTTA TCCCATGTTA CTTCGATGCT ATATTAATTG GTGCATACAC CACTCTTCTG 
GATATAGCAT GGAAGCAGAT GTCAAGCTTT GTTCAGAATG GCTCTACCTT TGTGAAACAC 
CTTTCACTGG GATCAGTGCA AATGTGTGGA GTAGGAAAGT GCCCTTCTCT GCCACTTCTT 
TCACCTTCAC TTATGGATGT ACCATACAGG CTAAATGAGA TCACAAAAGA AAAGGAGCAA 
TGTTGTGTAT CTCTAGCTGC AGGCTTACCT CATTTTTCTT CTGGTATTTT TCGCTGCTGG 
GGAAGGGATA CTTTTATTGC ACTGAGAGGT CTACTGCTGA TTACTGGACG CTACTTAGAG 
GCCAGGAATA TTATTTTAGC ATTTGCTGGT ACCCTGAGAC ACGGTCTCAT TCCTAATCTC 
CTGGGTGAAG GAACTTATGC CAGATACAAT TGCCGGGATG CTGTGTGGTG GTGGCTACAG 
TGTATTCAGG ATTACTGTAA AATGGTTCCA AATGGCCTAG ACATTCTCAA GTGCCCAGTT 
TCCAGAATGT ATCCTACAGA TGATTCTGTT CCTTTGTCTG CCGGCACACT GGATCAACCA 
TTGTTTGAAG TAATACAGGA AGTAATGCAA AGACACATGC AGGGCATACA ATTCCGAGAA 
AGGAATGCTG GTCCACAGAT AGATCGAAAC ATGAAGGATG AAGGTTTTAA TATAACTGCA 
GGGGTTGACG AAGAAACAGG ATTTGTTTAT GGAGGAAATC GCTTAAATTG TGGCACATGG 
ATGGATAAAA TGGGAGAAAG TGACAGAGCT AGAAACAGAG GAATCCCAGC TACTCCAAGA 
GATGGGTCTG CTGTGGAAAT TGTGGGTCTG AGTAAATCTG CTGTCCGTTG GTTGCTGGAA 
TTATCCAAAA AAAGAATTTT CCCTTATCAT GAAGTCACAG TAAAAAAACA TGGAAAGGTT 
GTGACAGTCT CATATGATGA GTGGAACAGA AAAATACAAG ACAACTTCGA AAAGCTATTT 
CATGTGTCAG AAGACCCTTC AGATTCTAAT GAAAAGCATC CTAATCTGGT TCACAAACGT 
GGCATATACA AAGATAGTTA TGGAGCTTCA AGCCCTTGGT GTGACTATCA GCTCAGGCCT 
AATTTTACGA TAGCAATGGT TGTAGCCCCT GAGCTCTTTA CTGCAGAAAA AGCGTGGAAA 
GCTCTGGAGA TTGCAGAAAA AAAATTACTT GGTCCCCTTG GCATGAAAAC TTTGGATCCA 
GATGATATGG TTTACTGTGG AATTTATGAC AATGCCTTAG ACAATGACAA CTACAATCTT 
GCTAAAGGTT TCAATTATCA CCAAGGACCT GAGTGGCTGT GGCCCGTTGG GTATTTTCTT 
CGTGCGAAAT TATATTTTTC CAAATTGATG GGTCCAGAGG CTAATGCCAA GACTGTGTTT 
TTGGTTAAAA ACATTCTTTC CCGACACTAT GTTCATCTTG AGAGATCCCC TTGGAAAGGA 
CTTCCTGAAC TGACCAATGA GAATGGCCAA TACTGTCCTT TCAGCTGTGA AACACAAGCC 
TGGTCAATCG CTACTGTTCT TGAAACACTC TATGACTTAT AG

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

RefSeq	XP_019656853.1
CDS	459..5060
Translation	MGHSKQIRILILNEMEKLEKTLFRLEQGFELQFRLGPTLQGKAVTVYTNYPFPGEAFNREKFRSLEWENPTEREDDSDKYCKVNLQQAGSFQYYFLQGNEKSGGGYIVVDPILHVGADNHVLPLDCVTLQTFLAKCLGPFDEWESRLRVAKESGYNMIHFTPLQTLGLSRSCYSLANQLELNPDFSRPNKKYTWNDVGQLVEKLKKEWNILCITDVVYNHTAANSRWIQEHPESAYNLVNSPHLKPAWVLDRALCHLSCDVAEGKYKEKGVPALIENDHQMNCIRKIIWEDIFPKIQLWEFFQVDVYKAVEQFRGLLTQENRKITTKPDPKEHLKIIQDPEYRRLGCTVDMNIALETFIPHDKGPAAIDECCNWFRKRIEELNSEKHQLVNYHQEQAVNCLLGNVFYERLAGHGPKLGPVTRKHPLVTRYFTFPFEEMTPSAEESMIHIPNKACFLMAHNGWVMGDDPLRNFAEPGSEVYLRRELICWGDSVKLRYGNKPEDCPFLWAHMKKYTEITATYFQGVRLDNCHSTPLHVAEYMLDAARKLQPNLYVVAELFTGSEDLDNVFVTRLGISSLIREAMSAYNSHEEGRLVYRYGGEPVGSFVQPCLRPLMPAIAHALFMDITHDNECPIVHRSEYDALPSTTIVSMACCASGSTKGYDELVPHQISVVSEERFYTKWNPEASPSNTGEVNFQSGIIAARCAINKLHQELGAQGFIQVYVDQVDEDIVAVTRHSPSIHQSVVSVSRTAFRNPKTSFYSKEVPQMCIPGKIEEVVLEARTIERNTKPYQKDENSINGMPNITVEIREHIQLSESKIVKQAGVAIKGPNEYIQEIEFENLSPGSVIIFRVSLDPHAQVAVGILRNHLIQFSPHFKSGSLTVDNSDPILKIPFAFIASKLTLAELNQVLYRCEAEEQEDGGGCYDIPNWSSLKYAGLQGLMSVLAEIRPKNDLGHPFCDNLRSGDWMIDYVSNRLISRSGTIAEVGKWLQAMFFYLKQIPRYLIPCYFDAILIGAYTTLLDIAWKQMSSFVQNGSTFVKHLSLGSVQMCGVGKCPSLPLLSPSLMDVPYRLNEITKEKEQCCVSLAAGLPHFSSGIFRCWGRDTFIALRGLLLITGRYLEARNIILAFAGTLRHGLIPNLLGEGTYARYNCRDAVWWWLQCIQDYCKMVPNGLDILKCPVSRMYPTDDSVPLSAGTLDQPLFEVIQEVMQRHMQGIQFRERNAGPQIDRNMKDEGFNITAGVDEETGFVYGGNRLNCGTWMDKMGESDRARNRGIPATPRDGSAVEIVGLSKSAVRWLLELSKKRIFPYHEVTVKKHGKVVTVSYDEWNRKIQDNFEKLFHVSEDPSDSNEKHPNLVHKRGIYKDSYGASSPWCDYQLRPNFTIAMVVAPELFTAEKAWKALEIAEKKLLGPLGMKTLDPDDMVYCGIYDNALDNDNYNLAKGFNYHQGPEWLWPVGYFLRAKLYFSKLMGPEANAKTVFLVKNILSRHYVHLERSPWKGLPELTNENGQYCPFSCETQAWSIATVLETLYDL

Target ORF information:

RefSeq Version	XM_019801294.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca amylo-alpha-1, 6-glucosidase, 4-alpha-glucanotransferase (AGL), transcript variant X2, mRNA.

Target ORF information:

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

XM_019801294.1

ORF Insert Sequence:

ATGGGACACA GTAAACAGAT TAGAATTTTA ATTCTGAACG AAATGGAAAA GCTGGAAAAG 
ACCCTCTTCA GACTTGAACA AGGATTTGAA CTACAGTTCC GGTTAGGCCC CACTTTACAG 
GGAAAAGCAG TTACTGTTTA TACAAATTAC CCATTTCCTG GAGAAGCATT TAATCGAGAA 
AAATTCCGTT CCCTGGAATG GGAAAATCCA ACAGAAAGAG AAGATGATTC TGATAAATAC 
TGTAAAGTTA ATCTTCAGCA AGCTGGATCA TTTCAGTATT ACTTCCTTCA AGGAAATGAG 
AAAAGTGGTG GGGGTTACAT AGTTGTGGAT CCTATTTTAC ATGTTGGTGC TGATAATCAC 
GTGCTACCCT TGGACTGTGT TACTCTCCAG ACATTTTTAG CCAAATGTCT GGGACCCTTT 
GATGAATGGG AAAGCAGACT TCGGGTTGCA AAAGAATCAG GTTACAACAT GATTCATTTT 
ACCCCATTAC AAACTCTTGG ACTATCTAGA TCGTGCTACT CCCTTGCCAA CCAGTTAGAA 
TTAAATCCTG ACTTTTCAAG ACCTAATAAA AAGTATACCT GGAATGATGT TGGACAGCTA 
GTGGAAAAAT TGAAAAAAGA ATGGAATATT CTTTGTATTA CTGATGTTGT CTACAACCAT 
ACTGCTGCTA ATAGTAGATG GATCCAGGAA CATCCAGAAA GTGCATATAA CCTTGTAAAT 
TCTCCACACT TAAAACCTGC CTGGGTCTTA GACAGAGCAC TGTGCCATTT ATCCTGTGAC 
GTTGCAGAAG GGAAATACAA AGAAAAAGGA GTACCTGCTT TGATTGAAAA TGATCATCAA 
ATGAATTGCA TTCGAAAAAT AATTTGGGAG GATATTTTTC CGAAGATTCA GCTCTGGGAA 
TTTTTCCAAG TAGATGTTTA CAAAGCAGTT GAGCAATTTA GAGGACTTCT TACACAAGAA 
AATAGGAAAA TAACAACCAA GCCTGATCCA AAGGAACACC TTAAGATTAT TCAGGATCCT 
GAATACAGAA GACTTGGCTG TACTGTAGAT ATGAACATTG CACTAGAAAC TTTCATACCA 
CATGACAAGG GCCCAGCTGC AATTGATGAA TGCTGTAATT GGTTCCGTAA GAGAATTGAG 
GAGTTAAATT CAGAGAAGCA TCAACTCGTG AACTATCATC AGGAACAGGC AGTTAATTGC 
CTTTTGGGAA ATGTGTTTTA TGAACGACTG GCTGGCCATG GTCCTAAATT AGGACCTGTC 
ACTAGAAAAC ATCCTTTAGT TACCAGATAT TTTACGTTCC CATTTGAAGA AATGACCCCC 
TCCGCAGAAG AATCTATGAT TCATATCCCC AATAAAGCTT GTTTTCTGAT GGCACATAAT 
GGATGGGTAA TGGGAGATGA TCCACTTCGA AACTTTGCTG AACCAGGCTC AGAAGTTTAT 
CTAAGAAGAG AACTTATTTG CTGGGGAGAC AGTGTTAAAT TACGCTATGG GAATAAACCA 
GAGGACTGTC CTTTTCTCTG GGCACACATG AAAAAATACA CTGAAATAAC CGCAACTTAT 
TTCCAGGGAG TGCGTCTTGA TAACTGCCAC TCAACACCTC TTCATGTAGC CGAGTACATG 
TTGGATGCTG CTAGGAAATT GCAACCCAAT TTGTATGTAG TAGCTGAACT GTTCACAGGA 
AGCGAAGACC TGGACAATGT CTTTGTTACT AGACTGGGCA TTAGTTCCCT AATAAGAGAG 
GCAATGAGTG CATATAATAG CCATGAAGAG GGCAGATTGG TTTATAGATA TGGAGGAGAA 
CCTGTTGGAT CCTTTGTTCA GCCCTGTTTG AGGCCGTTAA TGCCAGCCAT TGCACATGCC 
CTGTTTATGG ATATTACCCA TGATAATGAG TGTCCTATTG TGCATAGGTC AGAATATGAT 
GCTCTCCCAA GTACCACGAT TGTTTCTATG GCATGTTGTG CTAGTGGAAG TACTAAAGGC 
TATGATGAAT TAGTGCCTCA TCAGATTTCA GTGGTTTCTG AAGAACGGTT TTATACTAAG 
TGGAATCCTG AAGCATCTCC ATCAAATACA GGCGAAGTTA ATTTCCAAAG TGGAATTATT 
GCAGCCAGAT GTGCTATCAA TAAACTTCAT CAAGAACTTG GGGCTCAGGG TTTCATTCAG 
GTCTATGTGG ATCAGGTTGA TGAGGACATA GTGGCAGTAA CAAGACATTC ACCCAGTATT 
CATCAGTCTG TTGTGTCTGT GTCTAGAACT GCTTTCAGGA ATCCTAAGAC TTCATTTTAC 
AGCAAGGAAG TACCTCAAAT GTGCATCCCT GGCAAAATTG AAGAAGTAGT TCTTGAAGCT 
AGAACTATTG AGAGAAATAC AAAACCTTAT CAGAAGGATG AGAATTCGAT CAATGGAATG 
CCAAATATCA CAGTAGAAAT TAGAGAACAT ATTCAGCTTA GTGAAAGTAA AATTGTTAAA 
CAAGCTGGAG TTGCCATAAA AGGACCCAAT GAATATATTC AAGAAATAGA ATTTGAAAAC 
TTGTCTCCAG GAAGTGTTAT TATATTCAGA GTTAGTCTTG ATCCACACGC GCAAGTCGCT 
GTTGGAATTC TTCGAAATCA CCTGATACAG TTCAGTCCTC ATTTTAAATC TGGGAGCCTT 
ACTGTTGACA ATTCAGATCC TATATTAAAA ATTCCTTTTG CTTTCATTGC CTCAAAATTA 
ACTTTGGCTG AACTGAATCA GGTACTTTAC CGATGTGAAG CAGAAGAACA AGAAGATGGT 
GGAGGCTGTT ATGACATACC AAACTGGTCA TCTCTTAAAT ATGCGGGTCT TCAAGGATTA 
ATGTCCGTCT TGGCAGAAAT AAGACCAAAG AATGACTTGG GGCATCCCTT TTGTGATAAT 
TTGAGATCTG GAGATTGGAT GATTGACTAT GTCAGTAACC GACTTATTTC ACGATCAGGA 
ACTATTGCTG AAGTTGGTAA ATGGTTGCAG GCTATGTTCT TCTACCTGAA GCAGATCCCA 
CGTTATCTTA TCCCATGTTA CTTCGATGCT ATATTAATTG GTGCATACAC CACTCTTCTG 
GATATAGCAT GGAAGCAGAT GTCAAGCTTT GTTCAGAATG GCTCTACCTT TGTGAAACAC 
CTTTCACTGG GATCAGTGCA AATGTGTGGA GTAGGAAAGT GCCCTTCTCT GCCACTTCTT 
TCACCTTCAC TTATGGATGT ACCATACAGG CTAAATGAGA TCACAAAAGA AAAGGAGCAA 
TGTTGTGTAT CTCTAGCTGC AGGCTTACCT CATTTTTCTT CTGGTATTTT TCGCTGCTGG 
GGAAGGGATA CTTTTATTGC ACTGAGAGGT CTACTGCTGA TTACTGGACG CTACTTAGAG 
GCCAGGAATA TTATTTTAGC ATTTGCTGGT ACCCTGAGAC ACGGTCTCAT TCCTAATCTC 
CTGGGTGAAG GAACTTATGC CAGATACAAT TGCCGGGATG CTGTGTGGTG GTGGCTACAG 
TGTATTCAGG ATTACTGTAA AATGGTTCCA AATGGCCTAG ACATTCTCAA GTGCCCAGTT 
TCCAGAATGT ATCCTACAGA TGATTCTGTT CCTTTGTCTG CCGGCACACT GGATCAACCA 
TTGTTTGAAG TAATACAGGA AGTAATGCAA AGACACATGC AGGGCATACA ATTCCGAGAA 
AGGAATGCTG GTCCACAGAT AGATCGAAAC ATGAAGGATG AAGGTTTTAA TATAACTGCA 
GGGGTTGACG AAGAAACAGG ATTTGTTTAT GGAGGAAATC GCTTAAATTG TGGCACATGG 
ATGGATAAAA TGGGAGAAAG TGACAGAGCT AGAAACAGAG GAATCCCAGC TACTCCAAGA 
GATGGGTCTG CTGTGGAAAT TGTGGGTCTG AGTAAATCTG CTGTCCGTTG GTTGCTGGAA 
TTATCCAAAA AAAGAATTTT CCCTTATCAT GAAGTCACAG TAAAAAAACA TGGAAAGGTT 
GTGACAGTCT CATATGATGA GTGGAACAGA AAAATACAAG ACAACTTCGA AAAGCTATTT 
CATGTGTCAG AAGACCCTTC AGATTCTAAT GAAAAGCATC CTAATCTGGT TCACAAACGT 
GGCATATACA AAGATAGTTA TGGAGCTTCA AGCCCTTGGT GTGACTATCA GCTCAGGCCT 
AATTTTACGA TAGCAATGGT TGTAGCCCCT GAGCTCTTTA CTGCAGAAAA AGCGTGGAAA 
GCTCTGGAGA TTGCAGAAAA AAAATTACTT GGTCCCCTTG GCATGAAAAC TTTGGATCCA 
GATGATATGG TTTACTGTGG AATTTATGAC AATGCCTTAG ACAATGACAA CTACAATCTT 
GCTAAAGGTT TCAATTATCA CCAAGGACCT GAGTGGCTGT GGCCCGTTGG GTATTTTCTT 
CGTGCGAAAT TATATTTTTC CAAATTGATG GGTCCAGAGG CTAATGCCAA GACTGTGTTT 
TTGGTTAAAA ACATTCTTTC CCGACACTAT GTTCATCTTG AGAGATCCCC TTGGAAAGGA 
CTTCCTGAAC TGACCAATGA GAATGGCCAA TACTGTCCTT TCAGCTGTGA AACACAAGCC 
TGGTCAATCG CTACTGTTCT TGAAACACTC TATGACTTAT AG

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

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AGL cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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