WDR44 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	WDR44
Entrez Gene ID	103061798
Full Name	WD repeat domain 44
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025177661.1	XP_025033429.1	WD repeat-containing protein 44
XM_007422389.2	XP_007422451.2	WD repeat-containing protein 44

Pathways from BioSystems
Gene Ontology

The following WDR44 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the WDR44 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
OPy02268	XM_007422389.2 Latest version!	Python bivittatus WD repeat domain 44 (WDR44), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OPy123970	XM_025177661.1 Latest version!	Python bivittatus WD repeat domain 44 (WDR44), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
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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)

WDR44 ( XM_007422389.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007422451.2 Python bivittatus WD repeat domain 44 (WDR44), mRNA.

Price & Availability↑

CloneID	OPy02268
Clone ID Related Accession (Same CDS sequence)	XM_007422389.2
Accession Version	XM_007422389.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	WD repeat-containing protein 44
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532206.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 11, 2016 this sequence version replaced XM_007422389.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases ##RefSeq-Attributes-END##

ATGGGAATTG CCTTGTACCA TGTCAGACTA ACTCAATATG ATCTATATGA AGATGGTAGC 
AACCCTCAGG CTGGGCCATC AGGAGCCGTG TCACTTAAAG TGCAGAAGGG CGGGAGAAGG 
GATCTTGGAA TTCTTAAATG GCTGGTGGGT GTTTACCCTT CTGTCTTATC TGGTCCATGT 
GTTTGTCTGT TTTTCTCCAA TAGGTCACCA ACCAAAGTCA TTGGGCCGTC GGTACTGAAG 
GAGCTGGGCG GAAGTTCTCT GGTGGCTGAC CATGAAGGAA AAAGTCTGGA CATCAAGCAA 
GATGACCCCA GAGAGATCAT TGACAATATC ATAGAAGAAA GCCAGAAAGC CCACCAGCTT 
GAGGATGGCC CCTTGGCTCT CCCGAAAAAG GAACTGACCA ACCCCTCGTC ACACGCGAAC 
GCTTGGATTT CTGGAGCAGA TCTCCTCCAT CACATTCCCG AACTCCTGAT TGCGGAAGCC 
ACGCCGCAAG GGCCTCGTGA AGCCCCTGCC GGTCTGGCCA ACGGGGTGGC GTCCCCGGAG 
GCCCCGCCGC CTCCCAGCAG CGAGGGGGCA GATCACCCCA AAGGGGAAGA TGCTGCCGTC 
TCCGCAGGAA GCCCAGGCGA GAGCCAAGGG CGGAAAGCAG CAGCCGGAGG AGACCAGCCA 
GAGGAGGAGA GTGACGAAGT GGCCGACCTG AGGCAGGCAG ACGGATTTGA CCAGGCGCCA 
CCCTCGGATC TCTTGCCTCC CCAAGGCGGC TCAGCCGCTG ACGAGATGCC TCCAGCCAAA 
CCCCCCCGGC AGCTCACTGC GGAGCCGGAC ATCGTCGCCA GCACAAAGAA ATCTGGCCCG 
GCCCGGCCTA TCCCCAGCCT GGAAGTTCCT CGGGAGCCTT TTTCCCTGGG GGGCCTTCTG 
TCTCCAAACG CCTCCCTGGA CTCCATAGCC AAAGACTCAC AGCCTTCCCT GGACTTGGCG 
AGCGCAACCA GCGGAGACAA GATTGTCACG GCTCAGGAAA ATGGGAAATC GGCAGATGGC 
CAGGTGGTGT CGAGTGAAGT GATCGGACCC CAGAGACCCA GATCGAACTC GGGCAGAGAA 
CTCACCGATG AGGAGATCTT GGCGAGTGTC ATGATCAAGA ACCTGGACAC GGGAGAGGAG 
ATACCCCTGA GTTTGGCCGA GGAAAAGCTG CCCACAGGCA TTAATCCCCT GACGCTGCAT 
ATCATGCGGC GGACAAAGGA ATACGTCAGT AACGACGGGG CCCAGTCGGA CGATGAAGAC 
AAAATGCAGT TGCAGCAGAG TGACACCGAC GGGGGTCGCT TGAAACAGAA AACGACGCAA 
CTGAAAAAAT TCTTGGGCAA ATCGGTCAAG AGGGCCCGGC ATCTGGCCGA AGAGTACGGA 
GAGCGTGCCG TCAATAAAGT GAAGAGTGTC CGAGACGAAG TCTTCCATAC CGATCAAGAC 
GACCCGTCGT CGAGCGACGA TGAAGGGATG CCCTACACCC GGCCCGTGAA ATTCAAAGCC 
GCGCACGGCT TCAAGGGTCC ATACGACTTC GAGCAAGTGA AAGTTGTGCA GGATCTCAGT 
GGGGAGCACA TGGGGGCCGT CTGGACCATG AAGTTTTCAC ACTGCGGCCG GCTGCTCGCC 
TCGGCGGGCC AGGACAACCT CGTGAGGATT TGGGTGCTGA AGACGGCCTT TGACTATTTC 
AATAACATGC GGATGAAGTA CAACACCGAA GGCCGCGTGT CCCCCTCCCC ATCTCAAGAG 
AGCCTGAACT CAGCCAAGTC AGATAACGAT ATGGGGGTTT GTAGTGGGAC CGACGAGGAC 
CCTGATGACA AAAGCACACC GTTTCGGCAG CGGCCATTCT GCAAATACAA AGGGCACACA 
GCAGATCTCC TGGATTTGTC CTGGTCTAAA AATTACTTCC TGCTCTCTTC ATCCATGGAT 
AAGACAGTCC GGCTCTGGCA TATATCCCGG CGGGAATGCC TGTGTTGTTT TCAGCACATC 
GATTTTGTCA CTGCAATTGC CTTCCATCCC AGGGATGACA GATACTTCTT AAGCGGCTCG 
CTGGATGGCA AGCTTCGACT CTGGAACATT CCTGACAAAA AGGTGGCACT CTGGAATGAA 
GTGGATGGGC AAACCAAGCT GATTACAGCC GCAAACTTTT GCCAGAATGG CAAATACGCC 
GTGATCGGCA CCTACGACGG CCGGTGTATC TTCTATGACA CAGAGCATCT GAAGTATCAT 
ACCCAGATCC ACGTGCGGTC AACTAGAGGA CGGAATCGAG TTGGGAGGAA GATCACTGGG 
ATCGAGCCCT TGCCGGGAGA AAACAAGATC CTCGTGACCT CCAACGACTC GCGAATCCGG 
CTGTACGATC TGCGGGACTT GTCTCTCTCG ATGAAGTACA AGGGCTACGT CAACAGCAGC 
AGCCAAATCA AAGCCAGCTT CAGCCACGAC TTCACGTACA TTGTCAGCGG CTCGGAAGAT 
AAGTACGTTT ACATCTGGAG CACCTACCAC GACCTGAGCA AATTCTCTTC CGTCAGGAGA 
GATCGCAACG ATTTCTGGGA GGGGGTCAAA GCGCACAATG CTGTTGTCAC CTCAGCCATT 
TTCGCCCCGA ACCCCAGCTT GATGGTATCC TCCGAAACAG CTGAGAAGCC CCCGGCCGAA 
AGCAAAAGCG AAGATTCGGT GTCTGCAGAC CCCATTCCTT CCGGAGCCTT GAAGGCGGAC 
CACGCGGAGG TCCTTCTCTC AGCTGATTTT ACTGGAGCCA TCAAAGTCTT TATCAACAAA 
AAGAAAAACC TGTCTTGA

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

RefSeq	XP_007422451.2
CDS	1..2778
Translation	MGIALYHVRLTQYDLYEDGSNPQAGPSGAVSLKVQKGGRRDLGILKWLVGVYPSVLSGPCVCLFFSNRSPTKVIGPSVLKELGGSSLVADHEGKSLDIKQDDPREIIDNIIEESQKAHQLEDGPLALPKKELTNPSSHANAWISGADLLHHIPELLIAEATPQGPREAPAGLANGVASPEAPPPPSSEGADHPKGEDAAVSAGSPGESQGRKAAAGGDQPEEESDEVADLRQADGFDQAPPSDLLPPQGGSAADEMPPAKPPRQLTAEPDIVASTKKSGPARPIPSLEVPREPFSLGGLLSPNASLDSIAKDSQPSLDLASATSGDKIVTAQENGKSADGQVVSSEVIGPQRPRSNSGRELTDEEILASVMIKNLDTGEEIPLSLAEEKLPTGINPLTLHIMRRTKEYVSNDGAQSDDEDKMQLQQSDTDGGRLKQKTTQLKKFLGKSVKRARHLAEEYGERAVNKVKSVRDEVFHTDQDDPSSSDDEGMPYTRPVKFKAAHGFKGPYDFEQVKVVQDLSGEHMGAVWTMKFSHCGRLLASAGQDNLVRIWVLKTAFDYFNNMRMKYNTEGRVSPSPSQESLNSAKSDNDMGVCSGTDEDPDDKSTPFRQRPFCKYKGHTADLLDLSWSKNYFLLSSSMDKTVRLWHISRRECLCCFQHIDFVTAIAFHPRDDRYFLSGSLDGKLRLWNIPDKKVALWNEVDGQTKLITAANFCQNGKYAVIGTYDGRCIFYDTEHLKYHTQIHVRSTRGRNRVGRKITGIEPLPGENKILVTSNDSRIRLYDLRDLSLSMKYKGYVNSSSQIKASFSHDFTYIVSGSEDKYVYIWSTYHDLSKFSSVRRDRNDFWEGVKAHNAVVTSAIFAPNPSLMVSSETAEKPPAESKSEDSVSADPIPSGALKADHAEVLLSADFTGAIKVFINKKKNLS

Target ORF information:

RefSeq Version	XM_007422389.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus WD repeat domain 44 (WDR44), mRNA.

Target ORF information:

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

XM_007422389.2

ORF Insert Sequence:

ATGGGAATTG CCTTGTACCA TGTCAGACTA ACTCAATATG ATCTATATGA AGATGGTAGC 
AACCCTCAGG CTGGGCCATC AGGAGCCGTG TCACTTAAAG TGCAGAAGGG CGGGAGAAGG 
GATCTTGGAA TTCTTAAATG GCTGGTGGGT GTTTACCCTT CTGTCTTATC TGGTCCATGT 
GTTTGTCTGT TTTTCTCCAA TAGGTCACCA ACCAAAGTCA TTGGGCCGTC GGTACTGAAG 
GAGCTGGGCG GAAGTTCTCT GGTGGCTGAC CATGAAGGAA AAAGTCTGGA CATCAAGCAA 
GATGACCCCA GAGAGATCAT TGACAATATC ATAGAAGAAA GCCAGAAAGC CCACCAGCTT 
GAGGATGGCC CCTTGGCTCT CCCGAAAAAG GAACTGACCA ACCCCTCGTC ACACGCGAAC 
GCTTGGATTT CTGGAGCAGA TCTCCTCCAT CACATTCCCG AACTCCTGAT TGCGGAAGCC 
ACGCCGCAAG GGCCTCGTGA AGCCCCTGCC GGTCTGGCCA ACGGGGTGGC GTCCCCGGAG 
GCCCCGCCGC CTCCCAGCAG CGAGGGGGCA GATCACCCCA AAGGGGAAGA TGCTGCCGTC 
TCCGCAGGAA GCCCAGGCGA GAGCCAAGGG CGGAAAGCAG CAGCCGGAGG AGACCAGCCA 
GAGGAGGAGA GTGACGAAGT GGCCGACCTG AGGCAGGCAG ACGGATTTGA CCAGGCGCCA 
CCCTCGGATC TCTTGCCTCC CCAAGGCGGC TCAGCCGCTG ACGAGATGCC TCCAGCCAAA 
CCCCCCCGGC AGCTCACTGC GGAGCCGGAC ATCGTCGCCA GCACAAAGAA ATCTGGCCCG 
GCCCGGCCTA TCCCCAGCCT GGAAGTTCCT CGGGAGCCTT TTTCCCTGGG GGGCCTTCTG 
TCTCCAAACG CCTCCCTGGA CTCCATAGCC AAAGACTCAC AGCCTTCCCT GGACTTGGCG 
AGCGCAACCA GCGGAGACAA GATTGTCACG GCTCAGGAAA ATGGGAAATC GGCAGATGGC 
CAGGTGGTGT CGAGTGAAGT GATCGGACCC CAGAGACCCA GATCGAACTC GGGCAGAGAA 
CTCACCGATG AGGAGATCTT GGCGAGTGTC ATGATCAAGA ACCTGGACAC GGGAGAGGAG 
ATACCCCTGA GTTTGGCCGA GGAAAAGCTG CCCACAGGCA TTAATCCCCT GACGCTGCAT 
ATCATGCGGC GGACAAAGGA ATACGTCAGT AACGACGGGG CCCAGTCGGA CGATGAAGAC 
AAAATGCAGT TGCAGCAGAG TGACACCGAC GGGGGTCGCT TGAAACAGAA AACGACGCAA 
CTGAAAAAAT TCTTGGGCAA ATCGGTCAAG AGGGCCCGGC ATCTGGCCGA AGAGTACGGA 
GAGCGTGCCG TCAATAAAGT GAAGAGTGTC CGAGACGAAG TCTTCCATAC CGATCAAGAC 
GACCCGTCGT CGAGCGACGA TGAAGGGATG CCCTACACCC GGCCCGTGAA ATTCAAAGCC 
GCGCACGGCT TCAAGGGTCC ATACGACTTC GAGCAAGTGA AAGTTGTGCA GGATCTCAGT 
GGGGAGCACA TGGGGGCCGT CTGGACCATG AAGTTTTCAC ACTGCGGCCG GCTGCTCGCC 
TCGGCGGGCC AGGACAACCT CGTGAGGATT TGGGTGCTGA AGACGGCCTT TGACTATTTC 
AATAACATGC GGATGAAGTA CAACACCGAA GGCCGCGTGT CCCCCTCCCC ATCTCAAGAG 
AGCCTGAACT CAGCCAAGTC AGATAACGAT ATGGGGGTTT GTAGTGGGAC CGACGAGGAC 
CCTGATGACA AAAGCACACC GTTTCGGCAG CGGCCATTCT GCAAATACAA AGGGCACACA 
GCAGATCTCC TGGATTTGTC CTGGTCTAAA AATTACTTCC TGCTCTCTTC ATCCATGGAT 
AAGACAGTCC GGCTCTGGCA TATATCCCGG CGGGAATGCC TGTGTTGTTT TCAGCACATC 
GATTTTGTCA CTGCAATTGC CTTCCATCCC AGGGATGACA GATACTTCTT AAGCGGCTCG 
CTGGATGGCA AGCTTCGACT CTGGAACATT CCTGACAAAA AGGTGGCACT CTGGAATGAA 
GTGGATGGGC AAACCAAGCT GATTACAGCC GCAAACTTTT GCCAGAATGG CAAATACGCC 
GTGATCGGCA CCTACGACGG CCGGTGTATC TTCTATGACA CAGAGCATCT GAAGTATCAT 
ACCCAGATCC ACGTGCGGTC AACTAGAGGA CGGAATCGAG TTGGGAGGAA GATCACTGGG 
ATCGAGCCCT TGCCGGGAGA AAACAAGATC CTCGTGACCT CCAACGACTC GCGAATCCGG 
CTGTACGATC TGCGGGACTT GTCTCTCTCG ATGAAGTACA AGGGCTACGT CAACAGCAGC 
AGCCAAATCA AAGCCAGCTT CAGCCACGAC TTCACGTACA TTGTCAGCGG CTCGGAAGAT 
AAGTACGTTT ACATCTGGAG CACCTACCAC GACCTGAGCA AATTCTCTTC CGTCAGGAGA 
GATCGCAACG ATTTCTGGGA GGGGGTCAAA GCGCACAATG CTGTTGTCAC CTCAGCCATT 
TTCGCCCCGA ACCCCAGCTT GATGGTATCC TCCGAAACAG CTGAGAAGCC CCCGGCCGAA 
AGCAAAAGCG AAGATTCGGT GTCTGCAGAC CCCATTCCTT CCGGAGCCTT GAAGGCGGAC 
CACGCGGAGG TCCTTCTCTC AGCTGATTTT ACTGGAGCCA TCAAAGTCTT TATCAACAAA 
AAGAAAAACC TGTCTTGA

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

WDR44 ( XM_025177661.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025033429.1 Python bivittatus WD repeat domain 44 (WDR44), mRNA.

Price & Availability↑

CloneID	OPy123970
Clone ID Related Accession (Same CDS sequence)	XM_025177661.1
Accession Version	XM_025177661.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2877bp) 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	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	WD repeat-containing protein 44
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532206.1) 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 Name :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGCAGACTC TGCAGAGAGT TGAACTGCTG GTGGTTTGGG GGGCATGTTG GCGTCACATT 
TGCCTTGAAG CAGTTCCTGC TGGCATCAAA TTTTGTTTCC TGATCATGCC CTGCAGGAGC 
CCTGGTGGTC TTAGGCGGCA GAAGGAGCGG GCACTGAAAA GTCTGCCTTT GTTTTCTGAA 
GAACAAGACC GCCCCTCCCT TGCCCTTTGC CTTCATGAAC TGCCTGGGAT CCCGGATGCC 
AGGATGGAGG CAGGACCACT GGAGAGGCTG CCAGACTTGC TTCAGAGCGG CCCGAATCAC 
ACGTCACCAA CCAAAGTCAT TGGGCCGTCG GTACTGAAGG AGCTGGGCGG AAGTTCTCTG 
GTGGCTGACC ATGAAGGAAA AAGTCTGGAC ATCAAGCAAG ATGACCCCAG AGAGATCATT 
GACAATATCA TAGAAGAAAG CCAGAAAGCC CACCAGCTTG AGGATGGCCC CTTGGCTCTC 
CCGAAAAAGG AACTGACCAA CCCCTCGTCA CACGCGAACG CTTGGATTTC TGGAGCAGAT 
CTCCTCCATC ACATTCCCGA ACTCCTGATT GCGGAAGCCA CGCCGCAAGG GCCTCGTGAA 
GCCCCTGCCG GTCTGGCCAA CGGGGTGGCG TCCCCGGAGG CCCCGCCGCC TCCCAGCAGC 
GAGGGGGCAG ATCACCCCAA AGGGGAAGAT GCTGCCGTCT CCGCAGGAAG CCCAGGCGAG 
AGCCAAGGGC GGAAAGCAGC AGCCGGAGGA GACCAGCCAG AGGAGGAGAG TGACGAAGTG 
GCCGACCTGA GGCAGGCAGA CGGATTTGAC CAGGCGCCAC CCTCGGATCT CTTGCCTCCC 
CAAGGCGGCT CAGCCGCTGA CGAGATGCCT CCAGCCAAAC CCCCCCGGCA GCTCACTGCG 
GAGCCGGACA TCGTCGCCAG CACAAAGAAA TCTGGCCCGG CCCGGCCTAT CCCCAGCCTG 
GAAGTTCCTC GGGAGCCTTT TTCCCTGGGG GGCCTTCTGT CTCCAAACGC CTCCCTGGAC 
TCCATAGCCA AAGACTCACA GCCTTCCCTG GACTTGGCGA GCGCAACCAG CGGAGACAAG 
ATTGTCACGG CTCAGGAAAA TGGGAAATCG GCAGATGGCC AGGTGGTGTC GAGTGAAGTG 
ATCGGACCCC AGAGACCCAG ATCGAACTCG GGCAGAGAAC TCACCGATGA GGAGATCTTG 
GCGAGTGTCA TGATCAAGAA CCTGGACACG GGAGAGGAGA TACCCCTGAG TTTGGCCGAG 
GAAAAGCTGC CCACAGGCAT TAATCCCCTG ACGCTGCATA TCATGCGGCG GACAAAGGAA 
TACGTCAGTA ACGACGGGGC CCAGTCGGAC GATGAAGACA AAATGCAGTT GCAGCAGAGT 
GACACCGACG GGGGTCGCTT GAAACAGAAA ACGACGCAAC TGAAAAAATT CTTGGGCAAA 
TCGGTCAAGA GGGCCCGGCA TCTGGCCGAA GAGTACGGAG AGCGTGCCGT CAATAAAGTG 
AAGAGTGTCC GAGACGAAGT CTTCCATACC GATCAAGACG ACCCGTCGTC GAGCGACGAT 
GAAGGGATGC CCTACACCCG GCCCGTGAAA TTCAAAGCCG CGCACGGCTT CAAGGGTCCA 
TACGACTTCG AGCAAGTGAA AGTTGTGCAG GATCTCAGTG GGGAGCACAT GGGGGCCGTC 
TGGACCATGA AGTTTTCACA CTGCGGCCGG CTGCTCGCCT CGGCGGGCCA GGACAACCTC 
GTGAGGATTT GGGTGCTGAA GACGGCCTTT GACTATTTCA ATAACATGCG GATGAAGTAC 
AACACCGAAG GCCGCGTGTC CCCCTCCCCA TCTCAAGAGA GCCTGAACTC AGCCAAGTCA 
GATAACGATA TGGGGGTTTG TAGTGGGACC GACGAGGACC CTGATGACAA AAGCACACCG 
TTTCGGCAGC GGCCATTCTG CAAATACAAA GGGCACACAG CAGATCTCCT GGATTTGTCC 
TGGTCTAAAA ATTACTTCCT GCTCTCTTCA TCCATGGATA AGACAGTCCG GCTCTGGCAT 
ATATCCCGGC GGGAATGCCT GTGTTGTTTT CAGCACATCG ATTTTGTCAC TGCAATTGCC 
TTCCATCCCA GGGATGACAG ATACTTCTTA AGCGGCTCGC TGGATGGCAA GCTTCGACTC 
TGGAACATTC CTGACAAAAA GGTGGCACTC TGGAATGAAG TGGATGGGCA AACCAAGCTG 
ATTACAGCCG CAAACTTTTG CCAGAATGGC AAATACGCCG TGATCGGCAC CTACGACGGC 
CGGTGTATCT TCTATGACAC AGAGCATCTG AAGTATCATA CCCAGATCCA CGTGCGGTCA 
ACTAGAGGAC GGAATCGAGT TGGGAGGAAG ATCACTGGGA TCGAGCCCTT GCCGGGAGAA 
AACAAGATCC TCGTGACCTC CAACGACTCG CGAATCCGGC TGTACGATCT GCGGGACTTG 
TCTCTCTCGA TGAAGTACAA GGGCTACGTC AACAGCAGCA GCCAAATCAA AGCCAGCTTC 
AGCCACGACT TCACGTACAT TGTCAGCGGC TCGGAAGATA AGTACGTTTA CATCTGGAGC 
ACCTACCACG ACCTGAGCAA ATTCTCTTCC GTCAGGAGAG ATCGCAACGA TTTCTGGGAG 
GGGGTCAAAG CGCACAATGC TGTTGTCACC TCAGCCATTT TCGCCCCGAA CCCCAGCTTG 
ATGGTATCCT CCGAAACAGC TGAGAAGCCC CCGGCCGAAA GCAAAAGCGA AGATTCGGTG 
TCTGCAGACC CCATTCCTTC CGGAGCCTTG AAGGCGGACC ACGCGGAGGT CCTTCTCTCA 
GCTGATTTTA CTGGAGCCAT CAAAGTCTTT ATCAACAAAA AGAAAAACCT GTCTTGA

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

RefSeq	XP_025033429.1
CDS	379..3255
Translation	MQTLQRVELLVVWGACWRHICLEAVPAGIKFCFLIMPCRSPGGLRRQKERALKSLPLFSEEQDRPSLALCLHELPGIPDARMEAGPLERLPDLLQSGPNHTSPTKVIGPSVLKELGGSSLVADHEGKSLDIKQDDPREIIDNIIEESQKAHQLEDGPLALPKKELTNPSSHANAWISGADLLHHIPELLIAEATPQGPREAPAGLANGVASPEAPPPPSSEGADHPKGEDAAVSAGSPGESQGRKAAAGGDQPEEESDEVADLRQADGFDQAPPSDLLPPQGGSAADEMPPAKPPRQLTAEPDIVASTKKSGPARPIPSLEVPREPFSLGGLLSPNASLDSIAKDSQPSLDLASATSGDKIVTAQENGKSADGQVVSSEVIGPQRPRSNSGRELTDEEILASVMIKNLDTGEEIPLSLAEEKLPTGINPLTLHIMRRTKEYVSNDGAQSDDEDKMQLQQSDTDGGRLKQKTTQLKKFLGKSVKRARHLAEEYGERAVNKVKSVRDEVFHTDQDDPSSSDDEGMPYTRPVKFKAAHGFKGPYDFEQVKVVQDLSGEHMGAVWTMKFSHCGRLLASAGQDNLVRIWVLKTAFDYFNNMRMKYNTEGRVSPSPSQESLNSAKSDNDMGVCSGTDEDPDDKSTPFRQRPFCKYKGHTADLLDLSWSKNYFLLSSSMDKTVRLWHISRRECLCCFQHIDFVTAIAFHPRDDRYFLSGSLDGKLRLWNIPDKKVALWNEVDGQTKLITAANFCQNGKYAVIGTYDGRCIFYDTEHLKYHTQIHVRSTRGRNRVGRKITGIEPLPGENKILVTSNDSRIRLYDLRDLSLSMKYKGYVNSSSQIKASFSHDFTYIVSGSEDKYVYIWSTYHDLSKFSSVRRDRNDFWEGVKAHNAVVTSAIFAPNPSLMVSSETAEKPPAESKSEDSVSADPIPSGALKADHAEVLLSADFTGAIKVFINKKKNLS

Target ORF information:

RefSeq Version	XM_025177661.1
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus WD repeat domain 44 (WDR44), mRNA.

Target ORF information:

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

XM_025177661.1

ORF Insert Sequence:

ATGCAGACTC TGCAGAGAGT TGAACTGCTG GTGGTTTGGG GGGCATGTTG GCGTCACATT 
TGCCTTGAAG CAGTTCCTGC TGGCATCAAA TTTTGTTTCC TGATCATGCC CTGCAGGAGC 
CCTGGTGGTC TTAGGCGGCA GAAGGAGCGG GCACTGAAAA GTCTGCCTTT GTTTTCTGAA 
GAACAAGACC GCCCCTCCCT TGCCCTTTGC CTTCATGAAC TGCCTGGGAT CCCGGATGCC 
AGGATGGAGG CAGGACCACT GGAGAGGCTG CCAGACTTGC TTCAGAGCGG CCCGAATCAC 
ACGTCACCAA CCAAAGTCAT TGGGCCGTCG GTACTGAAGG AGCTGGGCGG AAGTTCTCTG 
GTGGCTGACC ATGAAGGAAA AAGTCTGGAC ATCAAGCAAG ATGACCCCAG AGAGATCATT 
GACAATATCA TAGAAGAAAG CCAGAAAGCC CACCAGCTTG AGGATGGCCC CTTGGCTCTC 
CCGAAAAAGG AACTGACCAA CCCCTCGTCA CACGCGAACG CTTGGATTTC TGGAGCAGAT 
CTCCTCCATC ACATTCCCGA ACTCCTGATT GCGGAAGCCA CGCCGCAAGG GCCTCGTGAA 
GCCCCTGCCG GTCTGGCCAA CGGGGTGGCG TCCCCGGAGG CCCCGCCGCC TCCCAGCAGC 
GAGGGGGCAG ATCACCCCAA AGGGGAAGAT GCTGCCGTCT CCGCAGGAAG CCCAGGCGAG 
AGCCAAGGGC GGAAAGCAGC AGCCGGAGGA GACCAGCCAG AGGAGGAGAG TGACGAAGTG 
GCCGACCTGA GGCAGGCAGA CGGATTTGAC CAGGCGCCAC CCTCGGATCT CTTGCCTCCC 
CAAGGCGGCT CAGCCGCTGA CGAGATGCCT CCAGCCAAAC CCCCCCGGCA GCTCACTGCG 
GAGCCGGACA TCGTCGCCAG CACAAAGAAA TCTGGCCCGG CCCGGCCTAT CCCCAGCCTG 
GAAGTTCCTC GGGAGCCTTT TTCCCTGGGG GGCCTTCTGT CTCCAAACGC CTCCCTGGAC 
TCCATAGCCA AAGACTCACA GCCTTCCCTG GACTTGGCGA GCGCAACCAG CGGAGACAAG 
ATTGTCACGG CTCAGGAAAA TGGGAAATCG GCAGATGGCC AGGTGGTGTC GAGTGAAGTG 
ATCGGACCCC AGAGACCCAG ATCGAACTCG GGCAGAGAAC TCACCGATGA GGAGATCTTG 
GCGAGTGTCA TGATCAAGAA CCTGGACACG GGAGAGGAGA TACCCCTGAG TTTGGCCGAG 
GAAAAGCTGC CCACAGGCAT TAATCCCCTG ACGCTGCATA TCATGCGGCG GACAAAGGAA 
TACGTCAGTA ACGACGGGGC CCAGTCGGAC GATGAAGACA AAATGCAGTT GCAGCAGAGT 
GACACCGACG GGGGTCGCTT GAAACAGAAA ACGACGCAAC TGAAAAAATT CTTGGGCAAA 
TCGGTCAAGA GGGCCCGGCA TCTGGCCGAA GAGTACGGAG AGCGTGCCGT CAATAAAGTG 
AAGAGTGTCC GAGACGAAGT CTTCCATACC GATCAAGACG ACCCGTCGTC GAGCGACGAT 
GAAGGGATGC CCTACACCCG GCCCGTGAAA TTCAAAGCCG CGCACGGCTT CAAGGGTCCA 
TACGACTTCG AGCAAGTGAA AGTTGTGCAG GATCTCAGTG GGGAGCACAT GGGGGCCGTC 
TGGACCATGA AGTTTTCACA CTGCGGCCGG CTGCTCGCCT CGGCGGGCCA GGACAACCTC 
GTGAGGATTT GGGTGCTGAA GACGGCCTTT GACTATTTCA ATAACATGCG GATGAAGTAC 
AACACCGAAG GCCGCGTGTC CCCCTCCCCA TCTCAAGAGA GCCTGAACTC AGCCAAGTCA 
GATAACGATA TGGGGGTTTG TAGTGGGACC GACGAGGACC CTGATGACAA AAGCACACCG 
TTTCGGCAGC GGCCATTCTG CAAATACAAA GGGCACACAG CAGATCTCCT GGATTTGTCC 
TGGTCTAAAA ATTACTTCCT GCTCTCTTCA TCCATGGATA AGACAGTCCG GCTCTGGCAT 
ATATCCCGGC GGGAATGCCT GTGTTGTTTT CAGCACATCG ATTTTGTCAC TGCAATTGCC 
TTCCATCCCA GGGATGACAG ATACTTCTTA AGCGGCTCGC TGGATGGCAA GCTTCGACTC 
TGGAACATTC CTGACAAAAA GGTGGCACTC TGGAATGAAG TGGATGGGCA AACCAAGCTG 
ATTACAGCCG CAAACTTTTG CCAGAATGGC AAATACGCCG TGATCGGCAC CTACGACGGC 
CGGTGTATCT TCTATGACAC AGAGCATCTG AAGTATCATA CCCAGATCCA CGTGCGGTCA 
ACTAGAGGAC GGAATCGAGT TGGGAGGAAG ATCACTGGGA TCGAGCCCTT GCCGGGAGAA 
AACAAGATCC TCGTGACCTC CAACGACTCG CGAATCCGGC TGTACGATCT GCGGGACTTG 
TCTCTCTCGA TGAAGTACAA GGGCTACGTC AACAGCAGCA GCCAAATCAA AGCCAGCTTC 
AGCCACGACT TCACGTACAT TGTCAGCGGC TCGGAAGATA AGTACGTTTA CATCTGGAGC 
ACCTACCACG ACCTGAGCAA ATTCTCTTCC GTCAGGAGAG ATCGCAACGA TTTCTGGGAG 
GGGGTCAAAG CGCACAATGC TGTTGTCACC TCAGCCATTT TCGCCCCGAA CCCCAGCTTG 
ATGGTATCCT CCGAAACAGC TGAGAAGCCC CCGGCCGAAA GCAAAAGCGA AGATTCGGTG 
TCTGCAGACC CCATTCCTTC CGGAGCCTTG AAGGCGGACC ACGCGGAGGT CCTTCTCTCA 
GCTGATTTTA CTGGAGCCAT CAAAGTCTTT ATCAACAAAA AGAAAAACCT GTCTTGA