MCM9 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	MCM9
Entrez Gene ID	100466906
Full Name	minichromosome maintenance 9 homologous recombination repair factor
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002918500.3	XP_002918546.1	DNA helicase MCM9 isoform X1
XM_019798927.1	XP_019654486.1	DNA helicase MCM9 isoform X2

Pathways from BioSystems
Gene Ontology

The following MCM9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MCM9 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
OAc92320	XM_019798927.1 Latest version!	Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAc06026	XM_002918500.3 Latest version!	Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00

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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)

MCM9 ( XM_019798927.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654486.1 Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc92320
Clone ID Related Accession (Same CDS sequence)	XM_019798927.1
Accession Version	XM_019798927.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3225bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	DNA helicase MCM9 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217552.1) 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##

ATGAATAGTG AGCAAGTTAC ACTGGTTGGT CAAGTGTTTG AATCCTATGT TTCGGAATAC 
CATAAGAATG ATATTCTTCT AATCTTGAAG GAAAGTGATG AAGATGCCCA TTACCCAGTT 
GTGGTTAATG CCATGACCCT TTTTGAGACC AACATGGAAA TTGGGGAATA TTTCAACGCA 
TTCCCAAATG AAGTACTAAC AGTTTTTGAT AGTGCTCTGC GAAGATCAGC CTTGACAATT 
CTCCAGTCCC TTTCTCAACC TGAGGGTGCC TCTATGAAGC AGAATCTTCA TGCCAGGATA 
TCAGGTTTGC CTGTTTGTCC TGAGCTGGTG AGGGAGCACA TCCCTAAGAC CAAGGACGTG 
GGACACTTTT TATCTGTCAC TGGGACAGTG ATTCGAACAA GTCTGGTAAA GATCCTGGAG 
TTTGAGCGCG ATTACATGTG TAACAAATGC AAACATGTAT TTGTGGTCAA GGCTGACTTT 
GAGCAGTACT ATACCTTCTG CCGGCCATCC TCCTGTCCCA GCTTGGAGAG CTGTGATTCT 
TCAAAATTCA CTTGCCTCTC AGGCTTGTCT TCGACTCCAA CTAGGTGTAG AGATTATCAG 
GAAATCAAAA TTCAGGAACA GGTGCAAAGG CTATCTGTTG GAAGTATTCC ACGATCTATG 
AAGGTTATCC TGGAAGATGA CTTAGTAGAC AGTTGCAAAT CTGGAAGGAA TGAAATATTG 
GCCAGCTTGT GCCCACAAGT TTTTGGGATG TATCTAGTAA AGCTTGCTGT GGCCATGGTG 
CTGGCTGGTG GGATTCAAAG GACTGATGCT ACAGGAACAC GGGTCAGAGG TGAATCTCAT 
CTTTTATTGG TTGGGGATCC TGGCACAGGG AAATCTCAGT TCCTCAAGTA TGCAGCAAAG 
ATTACACCAC GATCTGTGCT CACCACAGGA ATTGGATCTA CTAGTGCAGG TCTGACAGTA 
ACTGCTGTGA AAGACTCAGG AGAATGGAAT TTGGAGGCTG GGGCATTAGT ACTTGCAGAT 
GTGGGCCTTT GCTGTATCGA TGAGTTTAAC AGCCTCAAAG AGCATGATAG AACCAGTATC 
CATGAGGCAA TGGAGCAACA AACCATAAGT GTTGCTAAGG CTGGCCTCGT GTGCAAGCTG 
AACACAAGGA CCACCATCCT GGCAGCCACT AACCCCAAAG GCCAGTATGA CCCCCACGAG 
TCCGTGTCTG TGAACATTGC CCTCGGCAGC CCCCTCTTAA GTCGATTTGA TCTGATCCTG 
GTTTTGCTTG ATACCAAGAA TGAAGACTGG GATCGTATAA TTTCCTCCTT TATCTTAGAA 
AACAAAGGTT ATCCAAGCAA ATCAGAGAAG CTCTGGAGCA TGGAAAAGAT GAAAACCTAC 
TTCTGCCTGG TTAGGAATCT ACAGCCCACG CTGTCTGACG TGGGTAATCA AGTCCTTCTC 
CGGTACTACC AGATGCAGAG GCAGAGTGAT TCCCGGAACG CTGCCCGGAC CACCATCCGC 
CTGTTGGAAA GCTTGATCCG ATTAGCAGAA GCTCATGCTC GTCTGATGTT TCGTGACACT 
GTGACTCTGG AAGATGCTGT TACAGCGGTG TCAGTCATGG AATCCTCAAT GCAGGGAGGT 
GCCCTGCTAG GAGGTGTGAA TGCACTCCAC ACTTCCTTTC CTGAAAACCC TCTGCAGCAG 
TACCGGAGGC AGTGTGAGCT TATTCTGGAA AAGCTGGAGC TGCACAACCT CTTGAGGGAA 
GAGCTAAGTA GACTTGAAAG GTTACAGAAT CAGAGTGTGC ACCAATCCCA GACGCAGGCA 
GTGGAGGCCG AGACTAACCC AGGACCCTCA AACAATGATC CAGGAGAAGC ATCAAAGTCC 
AGAATCTGGT CGGCACAGCA GGAAGTGAAC TCTAGAATGC TGACGTCCTC TCCTGGAGGC 
AGTCCCGAGG GAAGCCCACT TCCTGATCCC CCATCCCATC AGGGGCCTAA CGGATCGACA 
AATAGAAAAC ATTCTGCTGA GCACAAAAAT AGCAAAGATG ACAGTTTGGA CTGGTTTGAC 
TCCATAGCAA CTCATCAGCT TGAACCTAAA AACACTGTGC CTGTATCTCC CAAAACAACT 
GGGGGGAAAA TGGCTTTGCA AACCTTCAGG AACAAATCTC AGAGTAAAGA AAAGAGGGAG 
CCCGGCCAAA GGAGCAAACT GGAAACTGGA CAGCTTCCAG CACCAGGAGA GACAGAAGCT 
CCATGGAGGC CAGACCATGT TGAAGGTAAA GAGGCAAAAA AGGCAGCAGT CGTTTCGGAG 
ACGGCAGTGT CTGCTGCTGA ACCAGACTTG GTACTGACTC ACTGCGTCTC CAGGAAGCTG 
CACCAGCTGC GCAAGGCCAG CGCCCAGGAG TTGTGCAGAA ACCCCGCCAA GGTGCCTTTA 
CAGCCAGGCC TTTCTCATCC TCGGTCCAGT CCTGTCCGTG GCCCTGAAGA AACATTGCAA 
ACTCCCAAAA GAAAGAGACA GAAACCCCTT GCTCAGGTGG AAGAGCCTGA ACTTGGAAGT 
TTGGAGAGTC CAGTTCCCCC ACTGGCCAAA CTGGCAAAAT TTACTTTCAA ACAGAAGTCA 
AAACTGACCC ACTCCCCTGA AGACCACAGT CCTGTGTCTC CTGGCACAAC CAGAGTAGCA 
GTTCCAAGTC CTAGAACTCT CCAGAGAGCA AGAAGAAAAG CAGCTCTGTC TGGGAAGGGT 
CCACAAAAGT TGGCCTCCCC CTCAGGAAGC AGAAACTCAA GTCAGCCACA GGGTCAGACA 
AAGGAGGTAC CCCAGAAGGC ACCGGAGGAA GACAGATCAA GAGAAAAAAG TGAACATGGC 
CCTGAAGGAA GAGTTACCCG GCCTGAATTT GAGCTTGGGA ACCAGACTGG GCATTCTCTT 
CTTACTTGTC AAACAGACAG AAAGGAAGAG GTCTCATGCA GTAACAAAAG CAGCAAGGTT 
CATGCTTGCA CATTAGCCAG ATTGGCAAAC TTCTCCTTTA CTTCCTCCTC TGAATCCAAA 
TCAGGATCCC CTCCTCCCCC TGAAAGTAAG AACCAGGGGG AGAGAGGCCC CAGCCCTCCT 
CCCGGGGCCG CAGCTACAGT GCTTGGCAGG AAAAGGAAAA CTTTTCAGCT GGAGGGGTCC 
ACTGAGAGAT TGCTTCTTTC CAAAAAATCT CTCTTTACTT TATCAGAACT AGATGACGAA 
GCATTGGATT TTGATTGGGA TGAAGAAATG AGAAAGAAGC CATAA

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

RefSeq	XP_019654486.1
CDS	98..3322
Translation	MNSEQVTLVGQVFESYVSEYHKNDILLILKESDEDAHYPVVVNAMTLFETNMEIGEYFNAFPNEVLTVFDSALRRSALTILQSLSQPEGASMKQNLHARISGLPVCPELVREHIPKTKDVGHFLSVTGTVIRTSLVKILEFERDYMCNKCKHVFVVKADFEQYYTFCRPSSCPSLESCDSSKFTCLSGLSSTPTRCRDYQEIKIQEQVQRLSVGSIPRSMKVILEDDLVDSCKSGRNEILASLCPQVFGMYLVKLAVAMVLAGGIQRTDATGTRVRGESHLLLVGDPGTGKSQFLKYAAKITPRSVLTTGIGSTSAGLTVTAVKDSGEWNLEAGALVLADVGLCCIDEFNSLKEHDRTSIHEAMEQQTISVAKAGLVCKLNTRTTILAATNPKGQYDPHESVSVNIALGSPLLSRFDLILVLLDTKNEDWDRIISSFILENKGYPSKSEKLWSMEKMKTYFCLVRNLQPTLSDVGNQVLLRYYQMQRQSDSRNAARTTIRLLESLIRLAEAHARLMFRDTVTLEDAVTAVSVMESSMQGGALLGGVNALHTSFPENPLQQYRRQCELILEKLELHNLLREELSRLERLQNQSVHQSQTQAVEAETNPGPSNNDPGEASKSRIWSAQQEVNSRMLTSSPGGSPEGSPLPDPPSHQGPNGSTNRKHSAEHKNSKDDSLDWFDSIATHQLEPKNTVPVSPKTTGGKMALQTFRNKSQSKEKREPGQRSKLETGQLPAPGETEAPWRPDHVEGKEAKKAAVVSETAVSAAEPDLVLTHCVSRKLHQLRKASAQELCRNPAKVPLQPGLSHPRSSPVRGPEETLQTPKRKRQKPLAQVEEPELGSLESPVPPLAKLAKFTFKQKSKLTHSPEDHSPVSPGTTRVAVPSPRTLQRARRKAALSGKGPQKLASPSGSRNSSQPQGQTKEVPQKAPEEDRSREKSEHGPEGRVTRPEFELGNQTGHSLLTCQTDRKEEVSCSNKSSKVHACTLARLANFSFTSSSESKSGSPPPPESKNQGERGPSPPPGAAATVLGRKRKTFQLEGSTERLLLSKKSLFTLSELDDEALDFDWDEEMRKKP

Target ORF information:

RefSeq Version	XM_019798927.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X2, mRNA.

Target ORF information:

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

XM_019798927.1

ORF Insert Sequence:

ATGAATAGTG AGCAAGTTAC ACTGGTTGGT CAAGTGTTTG AATCCTATGT TTCGGAATAC 
CATAAGAATG ATATTCTTCT AATCTTGAAG GAAAGTGATG AAGATGCCCA TTACCCAGTT 
GTGGTTAATG CCATGACCCT TTTTGAGACC AACATGGAAA TTGGGGAATA TTTCAACGCA 
TTCCCAAATG AAGTACTAAC AGTTTTTGAT AGTGCTCTGC GAAGATCAGC CTTGACAATT 
CTCCAGTCCC TTTCTCAACC TGAGGGTGCC TCTATGAAGC AGAATCTTCA TGCCAGGATA 
TCAGGTTTGC CTGTTTGTCC TGAGCTGGTG AGGGAGCACA TCCCTAAGAC CAAGGACGTG 
GGACACTTTT TATCTGTCAC TGGGACAGTG ATTCGAACAA GTCTGGTAAA GATCCTGGAG 
TTTGAGCGCG ATTACATGTG TAACAAATGC AAACATGTAT TTGTGGTCAA GGCTGACTTT 
GAGCAGTACT ATACCTTCTG CCGGCCATCC TCCTGTCCCA GCTTGGAGAG CTGTGATTCT 
TCAAAATTCA CTTGCCTCTC AGGCTTGTCT TCGACTCCAA CTAGGTGTAG AGATTATCAG 
GAAATCAAAA TTCAGGAACA GGTGCAAAGG CTATCTGTTG GAAGTATTCC ACGATCTATG 
AAGGTTATCC TGGAAGATGA CTTAGTAGAC AGTTGCAAAT CTGGAAGGAA TGAAATATTG 
GCCAGCTTGT GCCCACAAGT TTTTGGGATG TATCTAGTAA AGCTTGCTGT GGCCATGGTG 
CTGGCTGGTG GGATTCAAAG GACTGATGCT ACAGGAACAC GGGTCAGAGG TGAATCTCAT 
CTTTTATTGG TTGGGGATCC TGGCACAGGG AAATCTCAGT TCCTCAAGTA TGCAGCAAAG 
ATTACACCAC GATCTGTGCT CACCACAGGA ATTGGATCTA CTAGTGCAGG TCTGACAGTA 
ACTGCTGTGA AAGACTCAGG AGAATGGAAT TTGGAGGCTG GGGCATTAGT ACTTGCAGAT 
GTGGGCCTTT GCTGTATCGA TGAGTTTAAC AGCCTCAAAG AGCATGATAG AACCAGTATC 
CATGAGGCAA TGGAGCAACA AACCATAAGT GTTGCTAAGG CTGGCCTCGT GTGCAAGCTG 
AACACAAGGA CCACCATCCT GGCAGCCACT AACCCCAAAG GCCAGTATGA CCCCCACGAG 
TCCGTGTCTG TGAACATTGC CCTCGGCAGC CCCCTCTTAA GTCGATTTGA TCTGATCCTG 
GTTTTGCTTG ATACCAAGAA TGAAGACTGG GATCGTATAA TTTCCTCCTT TATCTTAGAA 
AACAAAGGTT ATCCAAGCAA ATCAGAGAAG CTCTGGAGCA TGGAAAAGAT GAAAACCTAC 
TTCTGCCTGG TTAGGAATCT ACAGCCCACG CTGTCTGACG TGGGTAATCA AGTCCTTCTC 
CGGTACTACC AGATGCAGAG GCAGAGTGAT TCCCGGAACG CTGCCCGGAC CACCATCCGC 
CTGTTGGAAA GCTTGATCCG ATTAGCAGAA GCTCATGCTC GTCTGATGTT TCGTGACACT 
GTGACTCTGG AAGATGCTGT TACAGCGGTG TCAGTCATGG AATCCTCAAT GCAGGGAGGT 
GCCCTGCTAG GAGGTGTGAA TGCACTCCAC ACTTCCTTTC CTGAAAACCC TCTGCAGCAG 
TACCGGAGGC AGTGTGAGCT TATTCTGGAA AAGCTGGAGC TGCACAACCT CTTGAGGGAA 
GAGCTAAGTA GACTTGAAAG GTTACAGAAT CAGAGTGTGC ACCAATCCCA GACGCAGGCA 
GTGGAGGCCG AGACTAACCC AGGACCCTCA AACAATGATC CAGGAGAAGC ATCAAAGTCC 
AGAATCTGGT CGGCACAGCA GGAAGTGAAC TCTAGAATGC TGACGTCCTC TCCTGGAGGC 
AGTCCCGAGG GAAGCCCACT TCCTGATCCC CCATCCCATC AGGGGCCTAA CGGATCGACA 
AATAGAAAAC ATTCTGCTGA GCACAAAAAT AGCAAAGATG ACAGTTTGGA CTGGTTTGAC 
TCCATAGCAA CTCATCAGCT TGAACCTAAA AACACTGTGC CTGTATCTCC CAAAACAACT 
GGGGGGAAAA TGGCTTTGCA AACCTTCAGG AACAAATCTC AGAGTAAAGA AAAGAGGGAG 
CCCGGCCAAA GGAGCAAACT GGAAACTGGA CAGCTTCCAG CACCAGGAGA GACAGAAGCT 
CCATGGAGGC CAGACCATGT TGAAGGTAAA GAGGCAAAAA AGGCAGCAGT CGTTTCGGAG 
ACGGCAGTGT CTGCTGCTGA ACCAGACTTG GTACTGACTC ACTGCGTCTC CAGGAAGCTG 
CACCAGCTGC GCAAGGCCAG CGCCCAGGAG TTGTGCAGAA ACCCCGCCAA GGTGCCTTTA 
CAGCCAGGCC TTTCTCATCC TCGGTCCAGT CCTGTCCGTG GCCCTGAAGA AACATTGCAA 
ACTCCCAAAA GAAAGAGACA GAAACCCCTT GCTCAGGTGG AAGAGCCTGA ACTTGGAAGT 
TTGGAGAGTC CAGTTCCCCC ACTGGCCAAA CTGGCAAAAT TTACTTTCAA ACAGAAGTCA 
AAACTGACCC ACTCCCCTGA AGACCACAGT CCTGTGTCTC CTGGCACAAC CAGAGTAGCA 
GTTCCAAGTC CTAGAACTCT CCAGAGAGCA AGAAGAAAAG CAGCTCTGTC TGGGAAGGGT 
CCACAAAAGT TGGCCTCCCC CTCAGGAAGC AGAAACTCAA GTCAGCCACA GGGTCAGACA 
AAGGAGGTAC CCCAGAAGGC ACCGGAGGAA GACAGATCAA GAGAAAAAAG TGAACATGGC 
CCTGAAGGAA GAGTTACCCG GCCTGAATTT GAGCTTGGGA ACCAGACTGG GCATTCTCTT 
CTTACTTGTC AAACAGACAG AAAGGAAGAG GTCTCATGCA GTAACAAAAG CAGCAAGGTT 
CATGCTTGCA CATTAGCCAG ATTGGCAAAC TTCTCCTTTA CTTCCTCCTC TGAATCCAAA 
TCAGGATCCC CTCCTCCCCC TGAAAGTAAG AACCAGGGGG AGAGAGGCCC CAGCCCTCCT 
CCCGGGGCCG CAGCTACAGT GCTTGGCAGG AAAAGGAAAA CTTTTCAGCT GGAGGGGTCC 
ACTGAGAGAT TGCTTCTTTC CAAAAAATCT CTCTTTACTT TATCAGAACT AGATGACGAA 
GCATTGGATT TTGATTGGGA TGAAGAAATG AGAAAGAAGC CATAA

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

MCM9 ( XM_002918500.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002918546.1 Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc06026
Clone ID Related Accession (Same CDS sequence)	XM_002918500.3
Accession Version	XM_002918500.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3426bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	DNA helicase MCM9 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217552.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002918500.2. ##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##

ATGAATAGTG AGCAAGTTAC ACTGGTTGGT CAAGTGTTTG AATCCTATGT TTCGGAATAC 
CATAAGAATG ATATTCTTCT AATCTTGAAG GAAAGTGATG AAGATGCCCA TTACCCAGTT 
GTGGTTAATG CCATGACCCT TTTTGAGACC AACATGGAAA TTGGGGAATA TTTCAACGCA 
TTCCCAAATG AAGTACTAAC AGTTTTTGAT AGTGCTCTGC GAAGATCAGC CTTGACAATT 
CTCCAGTCCC TTTCTCAACC TGAGGGTGCC TCTATGAAGC AGAATCTTCA TGCCAGGATA 
TCAGGTTTGC CTGTTTGTCC TGAGCTGGTG AGGGAGCACA TCCCTAAGAC CAAGGACGTG 
GGACACTTTT TATCTGTCAC TGGGACAGTG ATTCGAACAA GTCTGGTAAA GATCCTGGAG 
TTTGAGCGCG ATTACATGTG TAACAAATGC AAACATGTAT TTGTGGTCAA GGCTGACTTT 
GAGCAGTACT ATACCTTCTG CCGGCCATCC TCCTGTCCCA GCTTGGAGAG CTGTGATTCT 
TCAAAATTCA CTTGCCTCTC AGGCTTGTCT TCGACTCCAA CTAGGTGTAG AGATTATCAG 
GAAATCAAAA TTCAGGAACA GGTGCAAAGG CTATCTGTTG GAAGTATTCC ACGATCTATG 
AAGGTTATCC TGGAAGATGA CTTAGTAGAC AGTTGCAAAT CTGGTGATGA CCTCACTGTT 
TACGGAGTTG TAATGCAACG GTGGAAGCCC TTTCAGCAAG GTGTGCGCTG TGAAGTGGAG 
ATAGTCCTGA AAGCCAATTA TGTCCAAGTA AATAATGAGC AGTCTGCAGG GATCATCATG 
GATGAGGAGA TCCAAAAGGA ATTTGAAGAT TTTTGGGAGT CCTATAAGAG TGATCCCTTT 
GCAGGAAGGA ATGAAATATT GGCCAGCTTG TGCCCACAAG TTTTTGGGAT GTATCTAGTA 
AAGCTTGCTG TGGCCATGGT GCTGGCTGGT GGGATTCAAA GGACTGATGC TACAGGAACA 
CGGGTCAGAG GTGAATCTCA TCTTTTATTG GTTGGGGATC CTGGCACAGG GAAATCTCAG 
TTCCTCAAGT ATGCAGCAAA GATTACACCA CGATCTGTGC TCACCACAGG AATTGGATCT 
ACTAGTGCAG GTCTGACAGT AACTGCTGTG AAAGACTCAG GAGAATGGAA TTTGGAGGCT 
GGGGCATTAG TACTTGCAGA TGTGGGCCTT TGCTGTATCG ATGAGTTTAA CAGCCTCAAA 
GAGCATGATA GAACCAGTAT CCATGAGGCA ATGGAGCAAC AAACCATAAG TGTTGCTAAG 
GCTGGCCTCG TGTGCAAGCT GAACACAAGG ACCACCATCC TGGCAGCCAC TAACCCCAAA 
GGCCAGTATG ACCCCCACGA GTCCGTGTCT GTGAACATTG CCCTCGGCAG CCCCCTCTTA 
AGTCGATTTG ATCTGATCCT GGTTTTGCTT GATACCAAGA ATGAAGACTG GGATCGTATA 
ATTTCCTCCT TTATCTTAGA AAACAAAGGT TATCCAAGCA AATCAGAGAA GCTCTGGAGC 
ATGGAAAAGA TGAAAACCTA CTTCTGCCTG GTTAGGAATC TACAGCCCAC GCTGTCTGAC 
GTGGGTAATC AAGTCCTTCT CCGGTACTAC CAGATGCAGA GGCAGAGTGA TTCCCGGAAC 
GCTGCCCGGA CCACCATCCG CCTGTTGGAA AGCTTGATCC GATTAGCAGA AGCTCATGCT 
CGTCTGATGT TTCGTGACAC TGTGACTCTG GAAGATGCTG TTACAGCGGT GTCAGTCATG 
GAATCCTCAA TGCAGGGAGG TGCCCTGCTA GGAGGTGTGA ATGCACTCCA CACTTCCTTT 
CCTGAAAACC CTCTGCAGCA GTACCGGAGG CAGTGTGAGC TTATTCTGGA AAAGCTGGAG 
CTGCACAACC TCTTGAGGGA AGAGCTAAGT AGACTTGAAA GGTTACAGAA TCAGAGTGTG 
CACCAATCCC AGACGCAGGC AGTGGAGGCC GAGACTAACC CAGGACCCTC AAACAATGAT 
CCAGGAGAAG CATCAAAGTC CAGAATCTGG TCGGCACAGC AGGAAGTGAA CTCTAGAATG 
CTGACGTCCT CTCCTGGAGG CAGTCCCGAG GGAAGCCCAC TTCCTGATCC CCCATCCCAT 
CAGGGGCCTA ACGGATCGAC AAATAGAAAA CATTCTGCTG AGCACAAAAA TAGCAAAGAT 
GACAGTTTGG ACTGGTTTGA CTCCATAGCA ACTCATCAGC TTGAACCTAA AAACACTGTG 
CCTGTATCTC CCAAAACAAC TGGGGGGAAA ATGGCTTTGC AAACCTTCAG GAACAAATCT 
CAGAGTAAAG AAAAGAGGGA GCCCGGCCAA AGGAGCAAAC TGGAAACTGG ACAGCTTCCA 
GCACCAGGAG AGACAGAAGC TCCATGGAGG CCAGACCATG TTGAAGGTAA AGAGGCAAAA 
AAGGCAGCAG TCGTTTCGGA GACGGCAGTG TCTGCTGCTG AACCAGACTT GGTACTGACT 
CACTGCGTCT CCAGGAAGCT GCACCAGCTG CGCAAGGCCA GCGCCCAGGA GTTGTGCAGA 
AACCCCGCCA AGGTGCCTTT ACAGCCAGGC CTTTCTCATC CTCGGTCCAG TCCTGTCCGT 
GGCCCTGAAG AAACATTGCA AACTCCCAAA AGAAAGAGAC AGAAACCCCT TGCTCAGGTG 
GAAGAGCCTG AACTTGGAAG TTTGGAGAGT CCAGTTCCCC CACTGGCCAA ACTGGCAAAA 
TTTACTTTCA AACAGAAGTC AAAACTGACC CACTCCCCTG AAGACCACAG TCCTGTGTCT 
CCTGGCACAA CCAGAGTAGC AGTTCCAAGT CCTAGAACTC TCCAGAGAGC AAGAAGAAAA 
GCAGCTCTGT CTGGGAAGGG TCCACAAAAG TTGGCCTCCC CCTCAGGAAG CAGAAACTCA 
AGTCAGCCAC AGGGTCAGAC AAAGGAGGTA CCCCAGAAGG CACCGGAGGA AGACAGATCA 
AGAGAAAAAA GTGAACATGG CCCTGAAGGA AGAGTTACCC GGCCTGAATT TGAGCTTGGG 
AACCAGACTG GGCATTCTCT TCTTACTTGT CAAACAGACA GAAAGGAAGA GGTCTCATGC 
AGTAACAAAA GCAGCAAGGT TCATGCTTGC ACATTAGCCA GATTGGCAAA CTTCTCCTTT 
ACTTCCTCCT CTGAATCCAA ATCAGGATCC CCTCCTCCCC CTGAAAGTAA GAACCAGGGG 
GAGAGAGGCC CCAGCCCTCC TCCCGGGGCC GCAGCTACAG TGCTTGGCAG GAAAAGGAAA 
ACTTTTCAGC TGGAGGGGTC CACTGAGAGA TTGCTTCTTT CCAAAAAATC TCTCTTTACT 
TTATCAGAAC TAGATGACGA AGCATTGGAT TTTGATTGGG ATGAAGAAAT GAGAAAGAAG 
CCATAA

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

RefSeq	XP_002918546.1
CDS	98..3523
Translation	MNSEQVTLVGQVFESYVSEYHKNDILLILKESDEDAHYPVVVNAMTLFETNMEIGEYFNAFPNEVLTVFDSALRRSALTILQSLSQPEGASMKQNLHARISGLPVCPELVREHIPKTKDVGHFLSVTGTVIRTSLVKILEFERDYMCNKCKHVFVVKADFEQYYTFCRPSSCPSLESCDSSKFTCLSGLSSTPTRCRDYQEIKIQEQVQRLSVGSIPRSMKVILEDDLVDSCKSGDDLTVYGVVMQRWKPFQQGVRCEVEIVLKANYVQVNNEQSAGIIMDEEIQKEFEDFWESYKSDPFAGRNEILASLCPQVFGMYLVKLAVAMVLAGGIQRTDATGTRVRGESHLLLVGDPGTGKSQFLKYAAKITPRSVLTTGIGSTSAGLTVTAVKDSGEWNLEAGALVLADVGLCCIDEFNSLKEHDRTSIHEAMEQQTISVAKAGLVCKLNTRTTILAATNPKGQYDPHESVSVNIALGSPLLSRFDLILVLLDTKNEDWDRIISSFILENKGYPSKSEKLWSMEKMKTYFCLVRNLQPTLSDVGNQVLLRYYQMQRQSDSRNAARTTIRLLESLIRLAEAHARLMFRDTVTLEDAVTAVSVMESSMQGGALLGGVNALHTSFPENPLQQYRRQCELILEKLELHNLLREELSRLERLQNQSVHQSQTQAVEAETNPGPSNNDPGEASKSRIWSAQQEVNSRMLTSSPGGSPEGSPLPDPPSHQGPNGSTNRKHSAEHKNSKDDSLDWFDSIATHQLEPKNTVPVSPKTTGGKMALQTFRNKSQSKEKREPGQRSKLETGQLPAPGETEAPWRPDHVEGKEAKKAAVVSETAVSAAEPDLVLTHCVSRKLHQLRKASAQELCRNPAKVPLQPGLSHPRSSPVRGPEETLQTPKRKRQKPLAQVEEPELGSLESPVPPLAKLAKFTFKQKSKLTHSPEDHSPVSPGTTRVAVPSPRTLQRARRKAALSGKGPQKLASPSGSRNSSQPQGQTKEVPQKAPEEDRSREKSEHGPEGRVTRPEFELGNQTGHSLLTCQTDRKEEVSCSNKSSKVHACTLARLANFSFTSSSESKSGSPPPPESKNQGERGPSPPPGAAATVLGRKRKTFQLEGSTERLLLSKKSLFTLSELDDEALDFDWDEEMRKKP

Target ORF information:

RefSeq Version	XM_002918500.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca minichromosome maintenance 9 homologous recombination repair factor (MCM9), transcript variant X1, mRNA.

Target ORF information:

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

XM_002918500.3

ORF Insert Sequence:

ATGAATAGTG AGCAAGTTAC ACTGGTTGGT CAAGTGTTTG AATCCTATGT TTCGGAATAC 
CATAAGAATG ATATTCTTCT AATCTTGAAG GAAAGTGATG AAGATGCCCA TTACCCAGTT 
GTGGTTAATG CCATGACCCT TTTTGAGACC AACATGGAAA TTGGGGAATA TTTCAACGCA 
TTCCCAAATG AAGTACTAAC AGTTTTTGAT AGTGCTCTGC GAAGATCAGC CTTGACAATT 
CTCCAGTCCC TTTCTCAACC TGAGGGTGCC TCTATGAAGC AGAATCTTCA TGCCAGGATA 
TCAGGTTTGC CTGTTTGTCC TGAGCTGGTG AGGGAGCACA TCCCTAAGAC CAAGGACGTG 
GGACACTTTT TATCTGTCAC TGGGACAGTG ATTCGAACAA GTCTGGTAAA GATCCTGGAG 
TTTGAGCGCG ATTACATGTG TAACAAATGC AAACATGTAT TTGTGGTCAA GGCTGACTTT 
GAGCAGTACT ATACCTTCTG CCGGCCATCC TCCTGTCCCA GCTTGGAGAG CTGTGATTCT 
TCAAAATTCA CTTGCCTCTC AGGCTTGTCT TCGACTCCAA CTAGGTGTAG AGATTATCAG 
GAAATCAAAA TTCAGGAACA GGTGCAAAGG CTATCTGTTG GAAGTATTCC ACGATCTATG 
AAGGTTATCC TGGAAGATGA CTTAGTAGAC AGTTGCAAAT CTGGTGATGA CCTCACTGTT 
TACGGAGTTG TAATGCAACG GTGGAAGCCC TTTCAGCAAG GTGTGCGCTG TGAAGTGGAG 
ATAGTCCTGA AAGCCAATTA TGTCCAAGTA AATAATGAGC AGTCTGCAGG GATCATCATG 
GATGAGGAGA TCCAAAAGGA ATTTGAAGAT TTTTGGGAGT CCTATAAGAG TGATCCCTTT 
GCAGGAAGGA ATGAAATATT GGCCAGCTTG TGCCCACAAG TTTTTGGGAT GTATCTAGTA 
AAGCTTGCTG TGGCCATGGT GCTGGCTGGT GGGATTCAAA GGACTGATGC TACAGGAACA 
CGGGTCAGAG GTGAATCTCA TCTTTTATTG GTTGGGGATC CTGGCACAGG GAAATCTCAG 
TTCCTCAAGT ATGCAGCAAA GATTACACCA CGATCTGTGC TCACCACAGG AATTGGATCT 
ACTAGTGCAG GTCTGACAGT AACTGCTGTG AAAGACTCAG GAGAATGGAA TTTGGAGGCT 
GGGGCATTAG TACTTGCAGA TGTGGGCCTT TGCTGTATCG ATGAGTTTAA CAGCCTCAAA 
GAGCATGATA GAACCAGTAT CCATGAGGCA ATGGAGCAAC AAACCATAAG TGTTGCTAAG 
GCTGGCCTCG TGTGCAAGCT GAACACAAGG ACCACCATCC TGGCAGCCAC TAACCCCAAA 
GGCCAGTATG ACCCCCACGA GTCCGTGTCT GTGAACATTG CCCTCGGCAG CCCCCTCTTA 
AGTCGATTTG ATCTGATCCT GGTTTTGCTT GATACCAAGA ATGAAGACTG GGATCGTATA 
ATTTCCTCCT TTATCTTAGA AAACAAAGGT TATCCAAGCA AATCAGAGAA GCTCTGGAGC 
ATGGAAAAGA TGAAAACCTA CTTCTGCCTG GTTAGGAATC TACAGCCCAC GCTGTCTGAC 
GTGGGTAATC AAGTCCTTCT CCGGTACTAC CAGATGCAGA GGCAGAGTGA TTCCCGGAAC 
GCTGCCCGGA CCACCATCCG CCTGTTGGAA AGCTTGATCC GATTAGCAGA AGCTCATGCT 
CGTCTGATGT TTCGTGACAC TGTGACTCTG GAAGATGCTG TTACAGCGGT GTCAGTCATG 
GAATCCTCAA TGCAGGGAGG TGCCCTGCTA GGAGGTGTGA ATGCACTCCA CACTTCCTTT 
CCTGAAAACC CTCTGCAGCA GTACCGGAGG CAGTGTGAGC TTATTCTGGA AAAGCTGGAG 
CTGCACAACC TCTTGAGGGA AGAGCTAAGT AGACTTGAAA GGTTACAGAA TCAGAGTGTG 
CACCAATCCC AGACGCAGGC AGTGGAGGCC GAGACTAACC CAGGACCCTC AAACAATGAT 
CCAGGAGAAG CATCAAAGTC CAGAATCTGG TCGGCACAGC AGGAAGTGAA CTCTAGAATG 
CTGACGTCCT CTCCTGGAGG CAGTCCCGAG GGAAGCCCAC TTCCTGATCC CCCATCCCAT 
CAGGGGCCTA ACGGATCGAC AAATAGAAAA CATTCTGCTG AGCACAAAAA TAGCAAAGAT 
GACAGTTTGG ACTGGTTTGA CTCCATAGCA ACTCATCAGC TTGAACCTAA AAACACTGTG 
CCTGTATCTC CCAAAACAAC TGGGGGGAAA ATGGCTTTGC AAACCTTCAG GAACAAATCT 
CAGAGTAAAG AAAAGAGGGA GCCCGGCCAA AGGAGCAAAC TGGAAACTGG ACAGCTTCCA 
GCACCAGGAG AGACAGAAGC TCCATGGAGG CCAGACCATG TTGAAGGTAA AGAGGCAAAA 
AAGGCAGCAG TCGTTTCGGA GACGGCAGTG TCTGCTGCTG AACCAGACTT GGTACTGACT 
CACTGCGTCT CCAGGAAGCT GCACCAGCTG CGCAAGGCCA GCGCCCAGGA GTTGTGCAGA 
AACCCCGCCA AGGTGCCTTT ACAGCCAGGC CTTTCTCATC CTCGGTCCAG TCCTGTCCGT 
GGCCCTGAAG AAACATTGCA AACTCCCAAA AGAAAGAGAC AGAAACCCCT TGCTCAGGTG 
GAAGAGCCTG AACTTGGAAG TTTGGAGAGT CCAGTTCCCC CACTGGCCAA ACTGGCAAAA 
TTTACTTTCA AACAGAAGTC AAAACTGACC CACTCCCCTG AAGACCACAG TCCTGTGTCT 
CCTGGCACAA CCAGAGTAGC AGTTCCAAGT CCTAGAACTC TCCAGAGAGC AAGAAGAAAA 
GCAGCTCTGT CTGGGAAGGG TCCACAAAAG TTGGCCTCCC CCTCAGGAAG CAGAAACTCA 
AGTCAGCCAC AGGGTCAGAC AAAGGAGGTA CCCCAGAAGG CACCGGAGGA AGACAGATCA 
AGAGAAAAAA GTGAACATGG CCCTGAAGGA AGAGTTACCC GGCCTGAATT TGAGCTTGGG 
AACCAGACTG GGCATTCTCT TCTTACTTGT CAAACAGACA GAAAGGAAGA GGTCTCATGC 
AGTAACAAAA GCAGCAAGGT TCATGCTTGC ACATTAGCCA GATTGGCAAA CTTCTCCTTT 
ACTTCCTCCT CTGAATCCAA ATCAGGATCC CCTCCTCCCC CTGAAAGTAA GAACCAGGGG 
GAGAGAGGCC CCAGCCCTCC TCCCGGGGCC GCAGCTACAG TGCTTGGCAG GAAAAGGAAA 
ACTTTTCAGC TGGAGGGGTC CACTGAGAGA TTGCTTCTTT CCAAAAAATC TCTCTTTACT 
TTATCAGAAC TAGATGACGA AGCATTGGAT TTTGATTGGG ATGAAGAAAT GAGAAAGAAG 
CCATAA

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

PubMed

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MCM9 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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