ARHGAP44 cDNA ORF clone, Protobothrops mucrosquamatus

Gene
Clones
gRNAs

Summary

Gene Symbol	ARHGAP44
Entrez Gene ID	107286784
Full Name	Rho GTPase activating protein 44
Gene Type	protein-coding
Organism	Protobothrops mucrosquamatus

mRNA and Protein(s)

mRNA	Protein	Name
XM_029284005.1	XP_029139838.1	rho GTPase-activating protein 44
XM_015815209.1	XP_015670695.1	rho GTPase-activating protein 44

Pathways from BioSystems
Gene Ontology

The following ARHGAP44 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ARHGAP44 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
OPr198940	XM_029284005.1 Latest version!	Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OPr29581	XM_015815209.1 Latest version!	Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

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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)

ARHGAP44 ( XM_029284005.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_029139838.1 Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.

Price & Availability↑

CloneID	OPr198940
Clone ID Related Accession (Same CDS sequence)	XM_029284005.1
Accession Version	XM_029284005.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2865bp) 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	2019-05-22
Organism	Protobothrops mucrosquamatus
Product	rho GTPase-activating protein 44
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386664.1) 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 :: Protobothrops mucrosquamatus Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 17% of CDS bases ##RefSeq-Attributes-END##

ATGGTTTGTG AAGAGAAGGA AGACAACCAA GGGAAGCAGA ACCGAAGCAA AGATATAGTC 
CATCCACAGG GGCTTTGTGT CCCTGCCTTG TTCACCCCCT TCCCAGTCCT GTTTCTTCTC 
TACATAGCTC TACTCTTCAG CACGGTTACA GCCCTGATAA ACAGTATAAA GTTACTGAGT 
AACTGTGCAA ATGTTGAAAA GATTCCACCC ATCTCACTCT CAGAGCATCT CTATGACAGA 
GATGAAGTAA TAGGTGTGGT GGAAGGTGTA GGAACTTTGG GAGAGAGTGA CCATGTCATA 
TTAGCCTTCA CTATAATGCA GGCACAGGTG GCCAAAGTAT TTGAGCTCCA GCTTCATATT 
CAGCTTCCTT GTGGACCACT GCTTAAGTAT GAGTCATCGG ATGTCGATAA GGTTCTCAGT 
ACTCCAGCCA CTAATGACTG TGACATCATC CTTGCTCTCA AGTTGGCTAC AGTTATAAAG 
CCAAATAGGG CTGAGAAAAC AGAAGTTCTG AATGAAGATC TTTTGCAGGT GGAGAAGCGG 
TTGGAGCTGG TGAAGCAGGT CTCCCACAGC ACGCACAAGA AGCTGACGGC ATGTCTTCAG 
GGGCAGCAGG GATCGGATTC TGATAAGCGC TCGAAGAAAT TGCCTTTGAC GTCACTTGCT 
CAGTGCTTGA TGGAAGGTTC TGCTATCCTA GGAGATGACT CCCTGCTTGG GAAGATGCTG 
AAATTATGTG GAGAAGCAGA GGACAAGCTA GCGCAAGAGC TCATCCACTT TGAGTTGCAA 
GTTGAAAGGG ATGTGATAGA GCCACTGTTT GTGTTGGCAG AGGTAGAAAT CCCAAATATT 
CAAAAACAGA GGAAGCACTT AGCAAAATTA GTCCTGGACA TGGATTCATC CAAAACAAGA 
TGGCAACAGT CAGCCAAGTC TTCAGGTTTG TCAAGCAACT TGCAGCCTTC GGGTGCCAAA 
GCGGATGCTC TCAGGGAAGA GATGGAGGAG GCAGCAAACA GAGTGGAGAT TTGCAGGGAT 
CAGCTCTCAG CTGACATGTA CAATTTTGTG GCCAAAGAGA TAGACTATGC AAACTATTTT 
CAAACTTTAA TAGAAGTGCA AGCAGAATAC CACAGAAAGT CATTAGCACT TTTGCAGAAT 
GTGTTGCCTC AAATCAAAGC ACAGCAGGAA GCTTGGATTG AAAAGCCCTC CTTTGGGAAG 
CCCTTAGAGG AACATCTCGC TGTCAGTGGC CGGGAGATTG CCTTCCCTAT TGAGGCCTGT 
GTCACTATGC TTCTTGAATG TGGCATGCAG GAGGAGGGTC TGTTCCGAGT GGCCCCCTCT 
GCTTCCAAAT TAAAGAAGCT TAAGGCAGCG TTAGACTGCT GTGTTGTGGA TGTTCAGGAA 
TATTCAGCAG ACCCCCATGC CATTGCAGGG GCACTGAAGT CCTATCTTCG AGAGTTGCCA 
GAACCCCTCA TGACCTTTGA ACTTTATGAA GAATGGATCC AAGCCTCTAA CATTCAGGAC 
CAAGACAAGA GATTGCAAGC ACTATGGAAT GCCCTTGAGA AATTGCCTAA GGCCAGCTAC 
AATAATCTAA GGTACCTGAT CAAATTCCTT GCAAACTTAA CTGAGTACCA AGATGCAAAC 
AAAATGACAC CAAGCAACAT AGCCATTGTG CTGGGGCCAA ATCTCCTCTG GCCTCAGACA 
GAAGGAAACA TCACAGAGAT GATGGCAACA GTCTCTCTAC AGATAGTTGC AATTATTGAA 
CCCCTTATCC AGCATGCTGA TTGGTTCTTT CCGGGAGACA TTGAATTCAA CTTGACTGGG 
AACTATGGAA GCCCTGTGCA TGTGAACCAC AATGCAAACT ACAATTCTAT GCCATCACCC 
GATATGGACC ACGCCGACCA CAAGCACTCA GATCAGACCC GACGACCACT CAGTGTGGCC 
ACGGACAACA TGATGCTTGA GTTCTACAAG AAGGATGGCC TTAGGAAAAT CCAAAGCATG 
GGCGTCCGGG TGATGGACAC CTCTTGGGTG GCTCGCAGAG GCCCCTCCAT AGTTCGTAAG 
GCATCCTCCA CCCCTCCTGC CATGCAGCCC CCTGCTCCGC CTTGTGAACT TGCTGCTACT 
CCTCAGTCAC CAATTCCTGA GCAATCTCTT GACATTTCAG CTACTCCCTC CCTTACTCCA 
ACTAGCTTCG GGTTCCCACC AGGGGTTGAG CGAGCAAGCA CTCTGAAAAC TAAGGAACTC 
TCTCTAGTGT CTGGGCAGAA AGGGAGCCCG GCTTGCAGCC ACACAACACC AGGTGGTGGG 
ACTGCACAAC AGCCCCCAGC TGCACCGCAG CTATCCACAG AACAAAGTCC ACACACACTG 
AGGAAAGTTT CAAAGAAGCT GACCCCACTC CCTGCCAAGG GTCCTTATGG CCAGTCTGGT 
GGTATGTCTG ATCCATCGAC AGGGCAGCCA TCTCCGGCCA GCCTTTCTCC CACTCCACCC 
AGCACTCCAT CGCCCTATGG ACTGAGTTAC CCACCAGGCT ACTCCTTGAG TTCAGGCCCT 
CTTTCCCCAG CGGCAGCTCC TTCCCTGTCT TCTCCTCCTT CCCTAACAAG CACTTTAACC 
AAATCTCGGC CCGCCCCCAA GCCACGACAG AGGCCTACAC TGCCACCTCC ACAGCCTCCC 
ACATCCAGTG CATCTGGCTC CAGTCCACAG TCCACAGAGC ACACCCTCCT AGACGACATC 
TCTCCCGGAG AGAGCATGTC CACAGATCTG GCCCATCTTG ATATCCCTTC CATCCATGTA 
GAGGTTGATG CCACACTTCA CTTGGATCCC TCGGGTCAAG TCCAGAGACA TCCGGTACCA 
GGAAAAATCA GCTCAGAGGA GGATTCAGAA AGCACCGCCC TATGA

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

RefSeq	XP_029139838.1
CDS	1..2865
Translation	MVCEEKEDNQGKQNRSKDIVHPQGLCVPALFTPFPVLFLLYIALLFSTVTALINSIKLLSNCANVEKIPPISLSEHLYDRDEVIGVVEGVGTLGESDHVILAFTIMQAQVAKVFELQLHIQLPCGPLLKYESSDVDKVLSTPATNDCDIILALKLATVIKPNRAEKTEVLNEDLLQVEKRLELVKQVSHSTHKKLTACLQGQQGSDSDKRSKKLPLTSLAQCLMEGSAILGDDSLLGKMLKLCGEAEDKLAQELIHFELQVERDVIEPLFVLAEVEIPNIQKQRKHLAKLVLDMDSSKTRWQQSAKSSGLSSNLQPSGAKADALREEMEEAANRVEICRDQLSADMYNFVAKEIDYANYFQTLIEVQAEYHRKSLALLQNVLPQIKAQQEAWIEKPSFGKPLEEHLAVSGREIAFPIEACVTMLLECGMQEEGLFRVAPSASKLKKLKAALDCCVVDVQEYSADPHAIAGALKSYLRELPEPLMTFELYEEWIQASNIQDQDKRLQALWNALEKLPKASYNNLRYLIKFLANLTEYQDANKMTPSNIAIVLGPNLLWPQTEGNITEMMATVSLQIVAIIEPLIQHADWFFPGDIEFNLTGNYGSPVHVNHNANYNSMPSPDMDHADHKHSDQTRRPLSVATDNMMLEFYKKDGLRKIQSMGVRVMDTSWVARRGPSIVRKASSTPPAMQPPAPPCELAATPQSPIPEQSLDISATPSLTPTSFGFPPGVERASTLKTKELSLVSGQKGSPACSHTTPGGGTAQQPPAAPQLSTEQSPHTLRKVSKKLTPLPAKGPYGQSGGMSDPSTGQPSPASLSPTPPSTPSPYGLSYPPGYSLSSGPLSPAAAPSLSSPPSLTSTLTKSRPAPKPRQRPTLPPPQPPTSSASGSSPQSTEHTLLDDISPGESMSTDLAHLDIPSIHVEVDATLHLDPSGQVQRHPVPGKISSEEDSESTAL

Target ORF information:

RefSeq Version	XM_029284005.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.

Target ORF information:

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

XM_029284005.1

ORF Insert Sequence:

ATGGTTTGTG AAGAGAAGGA AGACAACCAA GGGAAGCAGA ACCGAAGCAA AGATATAGTC 
CATCCACAGG GGCTTTGTGT CCCTGCCTTG TTCACCCCCT TCCCAGTCCT GTTTCTTCTC 
TACATAGCTC TACTCTTCAG CACGGTTACA GCCCTGATAA ACAGTATAAA GTTACTGAGT 
AACTGTGCAA ATGTTGAAAA GATTCCACCC ATCTCACTCT CAGAGCATCT CTATGACAGA 
GATGAAGTAA TAGGTGTGGT GGAAGGTGTA GGAACTTTGG GAGAGAGTGA CCATGTCATA 
TTAGCCTTCA CTATAATGCA GGCACAGGTG GCCAAAGTAT TTGAGCTCCA GCTTCATATT 
CAGCTTCCTT GTGGACCACT GCTTAAGTAT GAGTCATCGG ATGTCGATAA GGTTCTCAGT 
ACTCCAGCCA CTAATGACTG TGACATCATC CTTGCTCTCA AGTTGGCTAC AGTTATAAAG 
CCAAATAGGG CTGAGAAAAC AGAAGTTCTG AATGAAGATC TTTTGCAGGT GGAGAAGCGG 
TTGGAGCTGG TGAAGCAGGT CTCCCACAGC ACGCACAAGA AGCTGACGGC ATGTCTTCAG 
GGGCAGCAGG GATCGGATTC TGATAAGCGC TCGAAGAAAT TGCCTTTGAC GTCACTTGCT 
CAGTGCTTGA TGGAAGGTTC TGCTATCCTA GGAGATGACT CCCTGCTTGG GAAGATGCTG 
AAATTATGTG GAGAAGCAGA GGACAAGCTA GCGCAAGAGC TCATCCACTT TGAGTTGCAA 
GTTGAAAGGG ATGTGATAGA GCCACTGTTT GTGTTGGCAG AGGTAGAAAT CCCAAATATT 
CAAAAACAGA GGAAGCACTT AGCAAAATTA GTCCTGGACA TGGATTCATC CAAAACAAGA 
TGGCAACAGT CAGCCAAGTC TTCAGGTTTG TCAAGCAACT TGCAGCCTTC GGGTGCCAAA 
GCGGATGCTC TCAGGGAAGA GATGGAGGAG GCAGCAAACA GAGTGGAGAT TTGCAGGGAT 
CAGCTCTCAG CTGACATGTA CAATTTTGTG GCCAAAGAGA TAGACTATGC AAACTATTTT 
CAAACTTTAA TAGAAGTGCA AGCAGAATAC CACAGAAAGT CATTAGCACT TTTGCAGAAT 
GTGTTGCCTC AAATCAAAGC ACAGCAGGAA GCTTGGATTG AAAAGCCCTC CTTTGGGAAG 
CCCTTAGAGG AACATCTCGC TGTCAGTGGC CGGGAGATTG CCTTCCCTAT TGAGGCCTGT 
GTCACTATGC TTCTTGAATG TGGCATGCAG GAGGAGGGTC TGTTCCGAGT GGCCCCCTCT 
GCTTCCAAAT TAAAGAAGCT TAAGGCAGCG TTAGACTGCT GTGTTGTGGA TGTTCAGGAA 
TATTCAGCAG ACCCCCATGC CATTGCAGGG GCACTGAAGT CCTATCTTCG AGAGTTGCCA 
GAACCCCTCA TGACCTTTGA ACTTTATGAA GAATGGATCC AAGCCTCTAA CATTCAGGAC 
CAAGACAAGA GATTGCAAGC ACTATGGAAT GCCCTTGAGA AATTGCCTAA GGCCAGCTAC 
AATAATCTAA GGTACCTGAT CAAATTCCTT GCAAACTTAA CTGAGTACCA AGATGCAAAC 
AAAATGACAC CAAGCAACAT AGCCATTGTG CTGGGGCCAA ATCTCCTCTG GCCTCAGACA 
GAAGGAAACA TCACAGAGAT GATGGCAACA GTCTCTCTAC AGATAGTTGC AATTATTGAA 
CCCCTTATCC AGCATGCTGA TTGGTTCTTT CCGGGAGACA TTGAATTCAA CTTGACTGGG 
AACTATGGAA GCCCTGTGCA TGTGAACCAC AATGCAAACT ACAATTCTAT GCCATCACCC 
GATATGGACC ACGCCGACCA CAAGCACTCA GATCAGACCC GACGACCACT CAGTGTGGCC 
ACGGACAACA TGATGCTTGA GTTCTACAAG AAGGATGGCC TTAGGAAAAT CCAAAGCATG 
GGCGTCCGGG TGATGGACAC CTCTTGGGTG GCTCGCAGAG GCCCCTCCAT AGTTCGTAAG 
GCATCCTCCA CCCCTCCTGC CATGCAGCCC CCTGCTCCGC CTTGTGAACT TGCTGCTACT 
CCTCAGTCAC CAATTCCTGA GCAATCTCTT GACATTTCAG CTACTCCCTC CCTTACTCCA 
ACTAGCTTCG GGTTCCCACC AGGGGTTGAG CGAGCAAGCA CTCTGAAAAC TAAGGAACTC 
TCTCTAGTGT CTGGGCAGAA AGGGAGCCCG GCTTGCAGCC ACACAACACC AGGTGGTGGG 
ACTGCACAAC AGCCCCCAGC TGCACCGCAG CTATCCACAG AACAAAGTCC ACACACACTG 
AGGAAAGTTT CAAAGAAGCT GACCCCACTC CCTGCCAAGG GTCCTTATGG CCAGTCTGGT 
GGTATGTCTG ATCCATCGAC AGGGCAGCCA TCTCCGGCCA GCCTTTCTCC CACTCCACCC 
AGCACTCCAT CGCCCTATGG ACTGAGTTAC CCACCAGGCT ACTCCTTGAG TTCAGGCCCT 
CTTTCCCCAG CGGCAGCTCC TTCCCTGTCT TCTCCTCCTT CCCTAACAAG CACTTTAACC 
AAATCTCGGC CCGCCCCCAA GCCACGACAG AGGCCTACAC TGCCACCTCC ACAGCCTCCC 
ACATCCAGTG CATCTGGCTC CAGTCCACAG TCCACAGAGC ACACCCTCCT AGACGACATC 
TCTCCCGGAG AGAGCATGTC CACAGATCTG GCCCATCTTG ATATCCCTTC CATCCATGTA 
GAGGTTGATG CCACACTTCA CTTGGATCCC TCGGGTCAAG TCCAGAGACA TCCGGTACCA 
GGAAAAATCA GCTCAGAGGA GGATTCAGAA AGCACCGCCC TATGA

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

ARHGAP44 ( XM_015815209.1 ) cDNA ORF clone, Protobothrops mucrosquamatus -> XP_015670695.1 Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.

Price & Availability↑

CloneID	OPr29581
Clone ID Related Accession (Same CDS sequence)	XM_015815209.1
Accession Version	XM_015815209.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2892bp) 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	2016-03-01
Organism	Protobothrops mucrosquamatus
Product	rho GTPase-activating protein 44
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015386664.1) 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 :: Protobothrops mucrosquamatus Annotation Release 100 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 :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGGGACAGG CCACTAATGA CTGTGACATC ATCCTTGCTC TCAAGTTGGC TACAGTTATA 
AAGCCAAATA GGGCTGAGAA AACAGAAGTT CTGAATGAAG ATCTTTTGCA GGTGGAGAAG 
CGGTTGGAGC TGGTGAAGCA GGTCTCCCAC AGCACGCACA AGAAGCTGAC GGCATGTCTT 
CAGGGGCAGC AGGGATCGGA TTCTGATAAG CGCTCGAAGA AATTGCCTTT GACGTCACTT 
GCTCAGTGCT TGATGGAAGG TTCTGCTATC CTAGGAGATG ACTCCCTGCT TGGGAAGATG 
CTGAAATTAT GTGGAGAAGC AGAGGACAAG CTAGCGCAAG AGCTCATCCA CTTTGAGTTG 
CAAGTTGAAA GGGATGTGAT AGAGCCACTG TTTGTGTTGG CAGAGGTAGA AATCCCAAAT 
ATTCAAAAAC AGAGGAAGCA CTTAGCAAAA TTAGTCCTGG ACATGGATTC ATCCAAAACA 
AGATGGCAAC AGTCAGCCAA GTCTTCAGGT TTGTCAAGCA ACTTGCAGCC TTCGGGTGCC 
AAAGCGGATG CTCTCAGGGA AGAGATGGAG GAGGCAGCAA ACAGAGTGGA GATTTGCAGG 
GATCAGCTCT CAGCTGACAT GTACAATTTT GTGGCCAAAG AGATAGACTA TGCAAACTAT 
TTTCAAACTT TAATAGAAGT GCAAGCAGAA TACCACAGAA AGTCATTAGC ACTTTTGCAG 
AATGTGTTGC CTCAAATCAA AGCACAGCAG GAAGCTTGGA TTGAAAAGCC CTCCTTTGGG 
AAGCCCTTAG AGGAACATCT CGCTGTCAGT GGCCGGGAGA TTGCCTTCCC TATTGAGGCC 
TGTGTCACTA TGCTTCTTGA ATGTGGCATG CAGGAGGAGG GTCTGTTCCG AGTGGCCCCC 
TCTGCTTCCA AATTAAAGAA GCTTAAGGCA GCGTTAGACT GCTGTGTTGT GGATGTTCAG 
GAATATTCAG CAGACCCCCA TGCCATTGCA GGGGCACTGA AGTCCTATCT TCGAGAGTTG 
CCAGAACCCC TCATGACCTT TGAACTTTAT GAAGAATGGA TCCAAGCCTC TAACATTCAG 
GACCAAGACA AGAGATTGCA AGCACTATGG AATGCCCTTG AGAAATTGCC TAAGGCCAGC 
TACAATAATC TAAGGTACCT GATCAAATTC CTTGCAAACT TAACTGAGTA CCAAGATGCA 
AACAAAATGA CACCAAGCAA CATAGCCATT GTGCTGGGGC CAAATCTCCT CTGGCCTCAG 
ACAGAAGGAA ACATCACAGA GATGATGGCA ACAGTCTCTC TACAGATAGT TGCAATTATT 
GAACCCCTTA TCCAGCATGC TGATTGGTTC TTTCCGGGAG ACATTGAATT CAACTTGACT 
GGGAACTATG GAAGCCCTGT GCATGTGAAC CACAATGCAA ACTACAATTC TATGCCATCA 
CCCGATATGG ACCACGCCGA CCACAAGCAC TCAGATCAGA CCCGACGACC ACTCAGTGTG 
GCCACGGACA ACATGATGCT TGAGTTCTAC AAGAAGGATG GCCTTAGGAA AATCCAAAGC 
ATGGGCGTCC GGGTGATGGA CACCTCTTGG GTGGCTCGCA GAGGCCCCTC CATAGTTCGT 
AAGGCATCCT CCACCCCTCC TGCCATGCAG CCCCCTGCTC CGCCTTGTGA ACTTGCTGCT 
ACTCCTCAGT CACCAATTCC TGAGCAATCT CTTGACATTT CAGCTACTCC CTCCCTTACT 
CCAACTAGCT TCGGGTTCCC ACCAGGGGTT GAGCGAGCAA GCACGGATGG TGTGTCGTCT 
AATTGGTCGG ATTCCTGTTA CATCTATCCA TCCCCCGAAG ACGACAAGTC TCCCTTGTAC 
CCCCACTGCT CTTCCTTCTA CCCCTACCCC CCCAGGACCA GCCCATGCAC TAGGCTTGAG 
CCTCCCTTGC CGCCATACCA TTGGGCAGGG AACAACCCAA CACTTCCTCC CCCTTGTTCT 
TCCTCCTGTT TTTCTTCCTC CTCCTTTCAG CCATTTGACA TTAATTTCCT ACATCTCCCT 
AAGCAGATTT CCCTCACAGA ACTGCATGGT CCTGAGACTA ACCTTTCCTT TGTCACCACA 
AAAACCGCTT TCACCTTATC CAAACCTAAT CCTCCTGGCA CTCTTCCGTA TAGCTCCAGC 
ATGTCAGTTT CTTCCCCCTG GGTCAGCTGC ACCTGTGCCA GAGACAGAGG AGCCGGGCTA 
ACTAGCACTC TGAAAACTAA GGAACTCTCT CTAGTGTCTG GGCAGAAAGG GAGCCCGGCT 
TGCAGCCACA CAACACCAGG TGGTGGGACT GCACAACAGC CCCCAGCTGC ACCGCAGCTA 
TCCACAGAAC AAAGTCCACA CACACTGAGG AAAGTTTCAA AGAAGCTGAC CCCACTCCCT 
GCCAAGGGTC CTTATGGCCA GTCTGGTGGT ATGTCTGATC CATCGACAGG GCAGCCATCT 
CCGGCCAGCC TTTCTCCCAC TCCACCCAGC ACTCCATCGC CCTATGGACT GAGTTACCCA 
CCAGGCTACT CCTTGAGTTC AGGCCCTCTT TCCCCAGCGG CAGCTCCTTC CCTGTCTTCT 
CCTCCTTCCC TAACAAGCAC TTTAACCAAA TCTCGGCCCG CCCCCAAGCC ACGACAGAGG 
CCTACACTGC CACCTCCACA GCCTCCCACA TCCAGTGCAT CTGGCTCCAG TCCACAGTCC 
ACAGAGCACA CCCTCCTAGA CGACATCTCT CCCGGAGAGA GCATGTCCAC AGATCTGGCC 
CATCTTGATA TCCCTTCCAT CCATGTAGAG GTTGATGCCA CACTTCACTT GGATCCCTCG 
GGTCAAGTCC AGAGACATCC GGTACCAGGA AAAATCAGCT CAGAGGAGGA TTCAGAAAGC 
ACCGCCCTAT GA

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

RefSeq	XP_015670695.1
CDS	1..2892
Translation	MGQATNDCDIILALKLATVIKPNRAEKTEVLNEDLLQVEKRLELVKQVSHSTHKKLTACLQGQQGSDSDKRSKKLPLTSLAQCLMEGSAILGDDSLLGKMLKLCGEAEDKLAQELIHFELQVERDVIEPLFVLAEVEIPNIQKQRKHLAKLVLDMDSSKTRWQQSAKSSGLSSNLQPSGAKADALREEMEEAANRVEICRDQLSADMYNFVAKEIDYANYFQTLIEVQAEYHRKSLALLQNVLPQIKAQQEAWIEKPSFGKPLEEHLAVSGREIAFPIEACVTMLLECGMQEEGLFRVAPSASKLKKLKAALDCCVVDVQEYSADPHAIAGALKSYLRELPEPLMTFELYEEWIQASNIQDQDKRLQALWNALEKLPKASYNNLRYLIKFLANLTEYQDANKMTPSNIAIVLGPNLLWPQTEGNITEMMATVSLQIVAIIEPLIQHADWFFPGDIEFNLTGNYGSPVHVNHNANYNSMPSPDMDHADHKHSDQTRRPLSVATDNMMLEFYKKDGLRKIQSMGVRVMDTSWVARRGPSIVRKASSTPPAMQPPAPPCELAATPQSPIPEQSLDISATPSLTPTSFGFPPGVERASTDGVSSNWSDSCYIYPSPEDDKSPLYPHCSSFYPYPPRTSPCTRLEPPLPPYHWAGNNPTLPPPCSSSCFSSSSFQPFDINFLHLPKQISLTELHGPETNLSFVTTKTAFTLSKPNPPGTLPYSSSMSVSSPWVSCTCARDRGAGLTSTLKTKELSLVSGQKGSPACSHTTPGGGTAQQPPAAPQLSTEQSPHTLRKVSKKLTPLPAKGPYGQSGGMSDPSTGQPSPASLSPTPPSTPSPYGLSYPPGYSLSSGPLSPAAAPSLSSPPSLTSTLTKSRPAPKPRQRPTLPPPQPPTSSASGSSPQSTEHTLLDDISPGESMSTDLAHLDIPSIHVEVDATLHLDPSGQVQRHPVPGKISSEEDSESTAL

Target ORF information:

RefSeq Version	XM_015815209.1
Organism	Protobothrops mucrosquamatus
Definition	Protobothrops mucrosquamatus Rho GTPase activating protein 44 (ARHGAP44), mRNA.

Target ORF information:

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

XM_015815209.1

ORF Insert Sequence:

ATGGGACAGG CCACTAATGA CTGTGACATC ATCCTTGCTC TCAAGTTGGC TACAGTTATA 
AAGCCAAATA GGGCTGAGAA AACAGAAGTT CTGAATGAAG ATCTTTTGCA GGTGGAGAAG 
CGGTTGGAGC TGGTGAAGCA GGTCTCCCAC AGCACGCACA AGAAGCTGAC GGCATGTCTT 
CAGGGGCAGC AGGGATCGGA TTCTGATAAG CGCTCGAAGA AATTGCCTTT GACGTCACTT 
GCTCAGTGCT TGATGGAAGG TTCTGCTATC CTAGGAGATG ACTCCCTGCT TGGGAAGATG 
CTGAAATTAT GTGGAGAAGC AGAGGACAAG CTAGCGCAAG AGCTCATCCA CTTTGAGTTG 
CAAGTTGAAA GGGATGTGAT AGAGCCACTG TTTGTGTTGG CAGAGGTAGA AATCCCAAAT 
ATTCAAAAAC AGAGGAAGCA CTTAGCAAAA TTAGTCCTGG ACATGGATTC ATCCAAAACA 
AGATGGCAAC AGTCAGCCAA GTCTTCAGGT TTGTCAAGCA ACTTGCAGCC TTCGGGTGCC 
AAAGCGGATG CTCTCAGGGA AGAGATGGAG GAGGCAGCAA ACAGAGTGGA GATTTGCAGG 
GATCAGCTCT CAGCTGACAT GTACAATTTT GTGGCCAAAG AGATAGACTA TGCAAACTAT 
TTTCAAACTT TAATAGAAGT GCAAGCAGAA TACCACAGAA AGTCATTAGC ACTTTTGCAG 
AATGTGTTGC CTCAAATCAA AGCACAGCAG GAAGCTTGGA TTGAAAAGCC CTCCTTTGGG 
AAGCCCTTAG AGGAACATCT CGCTGTCAGT GGCCGGGAGA TTGCCTTCCC TATTGAGGCC 
TGTGTCACTA TGCTTCTTGA ATGTGGCATG CAGGAGGAGG GTCTGTTCCG AGTGGCCCCC 
TCTGCTTCCA AATTAAAGAA GCTTAAGGCA GCGTTAGACT GCTGTGTTGT GGATGTTCAG 
GAATATTCAG CAGACCCCCA TGCCATTGCA GGGGCACTGA AGTCCTATCT TCGAGAGTTG 
CCAGAACCCC TCATGACCTT TGAACTTTAT GAAGAATGGA TCCAAGCCTC TAACATTCAG 
GACCAAGACA AGAGATTGCA AGCACTATGG AATGCCCTTG AGAAATTGCC TAAGGCCAGC 
TACAATAATC TAAGGTACCT GATCAAATTC CTTGCAAACT TAACTGAGTA CCAAGATGCA 
AACAAAATGA CACCAAGCAA CATAGCCATT GTGCTGGGGC CAAATCTCCT CTGGCCTCAG 
ACAGAAGGAA ACATCACAGA GATGATGGCA ACAGTCTCTC TACAGATAGT TGCAATTATT 
GAACCCCTTA TCCAGCATGC TGATTGGTTC TTTCCGGGAG ACATTGAATT CAACTTGACT 
GGGAACTATG GAAGCCCTGT GCATGTGAAC CACAATGCAA ACTACAATTC TATGCCATCA 
CCCGATATGG ACCACGCCGA CCACAAGCAC TCAGATCAGA CCCGACGACC ACTCAGTGTG 
GCCACGGACA ACATGATGCT TGAGTTCTAC AAGAAGGATG GCCTTAGGAA AATCCAAAGC 
ATGGGCGTCC GGGTGATGGA CACCTCTTGG GTGGCTCGCA GAGGCCCCTC CATAGTTCGT 
AAGGCATCCT CCACCCCTCC TGCCATGCAG CCCCCTGCTC CGCCTTGTGA ACTTGCTGCT 
ACTCCTCAGT CACCAATTCC TGAGCAATCT CTTGACATTT CAGCTACTCC CTCCCTTACT 
CCAACTAGCT TCGGGTTCCC ACCAGGGGTT GAGCGAGCAA GCACGGATGG TGTGTCGTCT 
AATTGGTCGG ATTCCTGTTA CATCTATCCA TCCCCCGAAG ACGACAAGTC TCCCTTGTAC 
CCCCACTGCT CTTCCTTCTA CCCCTACCCC CCCAGGACCA GCCCATGCAC TAGGCTTGAG 
CCTCCCTTGC CGCCATACCA TTGGGCAGGG AACAACCCAA CACTTCCTCC CCCTTGTTCT 
TCCTCCTGTT TTTCTTCCTC CTCCTTTCAG CCATTTGACA TTAATTTCCT ACATCTCCCT 
AAGCAGATTT CCCTCACAGA ACTGCATGGT CCTGAGACTA ACCTTTCCTT TGTCACCACA 
AAAACCGCTT TCACCTTATC CAAACCTAAT CCTCCTGGCA CTCTTCCGTA TAGCTCCAGC 
ATGTCAGTTT CTTCCCCCTG GGTCAGCTGC ACCTGTGCCA GAGACAGAGG AGCCGGGCTA 
ACTAGCACTC TGAAAACTAA GGAACTCTCT CTAGTGTCTG GGCAGAAAGG GAGCCCGGCT 
TGCAGCCACA CAACACCAGG TGGTGGGACT GCACAACAGC CCCCAGCTGC ACCGCAGCTA 
TCCACAGAAC AAAGTCCACA CACACTGAGG AAAGTTTCAA AGAAGCTGAC CCCACTCCCT 
GCCAAGGGTC CTTATGGCCA GTCTGGTGGT ATGTCTGATC CATCGACAGG GCAGCCATCT 
CCGGCCAGCC TTTCTCCCAC TCCACCCAGC ACTCCATCGC CCTATGGACT GAGTTACCCA 
CCAGGCTACT CCTTGAGTTC AGGCCCTCTT TCCCCAGCGG CAGCTCCTTC CCTGTCTTCT 
CCTCCTTCCC TAACAAGCAC TTTAACCAAA TCTCGGCCCG CCCCCAAGCC ACGACAGAGG 
CCTACACTGC CACCTCCACA GCCTCCCACA TCCAGTGCAT CTGGCTCCAG TCCACAGTCC 
ACAGAGCACA CCCTCCTAGA CGACATCTCT CCCGGAGAGA GCATGTCCAC AGATCTGGCC 
CATCTTGATA TCCCTTCCAT CCATGTAGAG GTTGATGCCA CACTTCACTT GGATCCCTCG 
GGTCAAGTCC AGAGACATCC GGTACCAGGA AAAATCAGCT CAGAGGAGGA TTCAGAAAGC 
ACCGCCCTAT GA