MAGI3 cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	MAGI3
Entrez Gene ID	100033161
Full Name	membrane associated guanylate kinase, WW and PDZ domain containing 3
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_001381996.4	XP_001382033.1	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X1
XM_007485160.2	XP_007485222.1	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X2

Pathways from BioSystems
Gene Ontology

The following MAGI3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAGI3 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
OMc13545	XM_007485160.2 Latest version!	Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$629.30 $899.00
OMc13544	XM_001381996.4 Latest version!	Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$797.30 $1139.00

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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)

MAGI3 ( XM_007485160.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007485222.1 Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMc13545
Clone ID Related Accession (Same CDS sequence)	XM_007485160.2
Accession Version	XM_007485160.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3378bp) 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	2016-04-26
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008802.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007485160.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGAAGA CGCTGAAGAA AAAGAAGCAC TGGCTGAGCA AGGTGCAGGA GTGCGCCCTG 
TCCTGGGCTG GGCCCCCGGG GGACTTCAGC GCCGAGATCC GCGGAGGTGC AGAGCGCGGC 
GAGTTCCCTT ACCTGGGTCG GCTCCGCGAC GAGCCTGGCG GGGGCACCTG CTGCGTGGTC 
TCCGGCAAGG CGCCCAGCCC CGGGGATGTT CTGCTGGAGG TGAACGGGAC GCCTGTCAGC 
GGGCTTACCA ACCGGGACAC CTTGGCTGTC ATCCGCCACT TCCGAGAGCC CATCCGCCTC 
AAGACTGTGA AACCAGGCAA AGTCATCAAT AAAGATTTGC GCCACTATCT GAGTCTTCAG 
TTTCAAAAGG GCTCAATTGA TCACAAACTC CAGCAGGTGA TCAGAGATAA TCTCTACTTG 
AGAACCATCC CATGCACTAC AAGAGCCCCC AGGGATGGAG AAGTTCCAGG AGTAGACTAT 
AATTTCATTT CTGTTGAGCA GTTCAGAGCA CTAGAAGAGA GTGGAGCATT GTTGGAAAGT 
GGAACATATG ATGGAAATTT CTATGGAACC CCCAAGCCTC CAGCAGAACC TAGTCCTTTC 
CAGCCAGATC CAGTTGATCA GGTCCTATTC GATAATGATT TTGACACAGA ATCTCAACGA 
AAAAGAACCA CATCAGTCAG CAAAATGCAA AGAATGGACA GCTCTCTTCC TGAGGAGGAA 
GAGGAGGAAG ACAAGGAGGC AGTTAATGGA AGTGGAAATA CAGAAAACAA AGAGAGACAT 
TCAGAGTCTT CTGACTGGAT GAAGACAGTT CCCAGTTACA ACCAAACAAA CAGCTCCATG 
GACTTTAGAA ATTACATGGC AAGAGATGAG AACCTGGAAC CTTTGCCTAA GAACTGGGAA 
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAACACTAA GACAACTACC 
TGGCTAGATC CCCGCCTCTG TAAGAAAGCA AAGGCTCCAG AAGACTGCGA AGATGGAGAA 
CTGCCCTATG GCTGGGAGAA AATAGAAGAT CCTCAGTATG GGACATACTA CGTTGATCAC 
ATTAACCAGA AAACCCAGTT TGAAAATCCA GTGGTGGAAG CCAAGAGGAA AAAGCAACTA 
GGACAGACTG ATGTTGGTTC CTCAAAGCAA GATGTAGAGA AGTCAGTCTT CACTCGAGAT 
CCTTCCCAGC TGAAAGGTAT ACTCATACGA GCATCTTTGA AAAAAAGTAC CATGGGATTT 
GGTTTTACCA TCATTGGGGG AGATCGACCT GATGAATTTC TTCAAGTGAA GAATGTACTC 
AAAGATGGCC CAGCTGCTCA AGATGGAAAA ATTGCACCAG GTGATGTAAT TGTAGACATA 
AATGGCAACT GTGTCCTTGG CCACACCCAT GCAGATGTTG TCCAGATGTT TCAATTGGTC 
CCTGTCAACC AGTATGTGAA CCTGACTTTG TGTCGTGGCT ATCTTCTTCC TGATGATAAT 
GAAGATCCTG TTGTCGATGT TGTTACAGCT ACACCCATCA TCAATGGACA GCCTGTAACC 
AAGGGAGAGA CTTGCATAAG CAGTCAGGAT TTTAAATCAG GGACAGTGGT CTTGGACCAG 
AATGGGAAAC CAGGTCACAT TTTGGTCAAT GATCGTCTCA ATGGCCCTTC TTTGGACCCA 
AATGAGCAAA GGGCATCCAT GGCATCATCA GGCAGCTCTC AACCAGAGCT AGTGACTATC 
CCTCTGATTA AGGGGCCTAA AGGTTTTGGG TTTGCAATAG CTGATAGCCC AACTGGGCAG 
AAGGTGAAGA TGATACTGGA CAGCCAGTGG TGTCATGGTC TTCAAAAAGG AGATATTATT 
AAAGAGATTT ACCACCAAAA TGTACAGAAC TTAACACACC TCCAGGTAGT AGAAGTGCTA 
AAGCAATTTC CAGTAGGCAC AGATGTGCCA TTGCTCATCT TGAGAGGAGG TCCTCCTTCA 
CCAGCTAAAA CTACCAAAGT GAAGACGGAT AAACAGGAGA ATTCAGGAAG CTTGGAGGCC 
GTCAATGAGT CTATTCCTCA GCCGATGCCT TTTCCACCCA GCATTATCAG GTCAGGATCC 
CCCAAATTAG ATCCTTCCGA GGTCTACCTG AAGTCCAAGA CGATATATGA AGATAAACCT 
CCAAACACCA AGGATTTGGA TGTTTTCCTT CGAAAACAGG AATCAGGCTT TGGCTTTAGG 
GTCCTAGGAG GGGATGGACC TGATCAATCT ATATACATTG GAGCTATCAT TCCCCTGGGA 
GCCGCTGAGA AAGATGGTCG GCTTCGTGCT GCTGACGAAC TCATGTGCAT TGATGGGATT 
CCTGTTAAAG GAAAATCACA CAAACAAGTT TTGGACTTGA TGACAACTGC TGCTCGAAAC 
GGCCATGTAT TGCTTACTGT TAGAAGAAAG ATCTTCTATG GTGAGAAGCA ACCTGAAGAG 
GATGATTCGC AGACCTTCAT TTCAACACAG AATGGATCTC CCCGACTGAA CCGGGCAGAG 
GGGACAAGCC GACCTCCTCA GGAGCCCTAT GATGTTGTCT TACAGCGCAA AGAAAATGAA 
GGATTTGGTT TTGTCATCCT TACCTCCAAA AACAAACCAC CTCCTGGAGT GATTCCTCAT 
AAAATTGGAC GTGTCATTGA AGGAAGTCCA GCAGATCGCT GTGGGAAACT GAAAGTAGGG 
GATCGGATCT CTGCAGTAAA TGGAAAGTCC ATCATTGAAC TATCCCATGA TAATATTGTA 
CAGCTCATCA AAGATGCTGG TGTCACTGTC ACCCTGGCTG TCGTTGCTGA GGAGGAACAT 
CATGGTCCAC CATCGGGAAC TAACTCAGCC AGACAAAGTC CAGCACTCCA GCACAGACCC 
ATGGGACAGA CACAAGCCAG TCATAACTCA GGAGACCGAA GTGGTTTAGA AAGTGAAATT 
GGGAAAGATG TTTCCACGAC TTATCGGCTG TCTTGGTCTG ACCACAAGCA TCTTGCCCAA 
CCTGATACAA CCTTGATTTC AGTTGTGGGT AGTCGGCACA ATCAGAACCT TGGTTGTTAT 
CCAGTGGAAC TAGAAAGAGG CTCAAGGGGC TTTGGATTCA GTCTTCGTGG GGGAAAGGAG 
TATAACATGG GATTGTTCAT TCTTCGACTT GCTGAGGATG GTCCTGCCAT CAAAGATGGG 
AGAATTCATG TGGGGGACCA GATCGTGGAA ATCAACGGGG AACCTACCCA AGGTATTACC 
CACACGCGAG CAATTGAGTT AATCCAAGCC GGAGGAAATA AAGTTCTTCT CCTTCTGAGG 
CCAGGAACTG GCTTGATACC CGACCACGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG 
AAACCTGAGC AACATTAA

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

RefSeq	XP_007485222.1
CDS	97..3474
Translation	MSKTLKKKKHWLSKVQECALSWAGPPGDFSAEIRGGAERGEFPYLGRLRDEPGGGTCCVVSGKAPSPGDVLLEVNGTPVSGLTNRDTLAVIRHFREPIRLKTVKPGKVINKDLRHYLSLQFQKGSIDHKLQQVIRDNLYLRTIPCTTRAPRDGEVPGVDYNFISVEQFRALEESGALLESGTYDGNFYGTPKPPAEPSPFQPDPVDQVLFDNDFDTESQRKRTTSVSKMQRMDSSLPEEEEEEDKEAVNGSGNTENKERHSESSDWMKTVPSYNQTNSSMDFRNYMARDENLEPLPKNWEMAYTDTGMIYFIDHNTKTTTWLDPRLCKKAKAPEDCEDGELPYGWEKIEDPQYGTYYVDHINQKTQFENPVVEAKRKKQLGQTDVGSSKQDVEKSVFTRDPSQLKGILIRASLKKSTMGFGFTIIGGDRPDEFLQVKNVLKDGPAAQDGKIAPGDVIVDINGNCVLGHTHADVVQMFQLVPVNQYVNLTLCRGYLLPDDNEDPVVDVVTATPIINGQPVTKGETCISSQDFKSGTVVLDQNGKPGHILVNDRLNGPSLDPNEQRASMASSGSSQPELVTIPLIKGPKGFGFAIADSPTGQKVKMILDSQWCHGLQKGDIIKEIYHQNVQNLTHLQVVEVLKQFPVGTDVPLLILRGGPPSPAKTTKVKTDKQENSGSLEAVNESIPQPMPFPPSIIRSGSPKLDPSEVYLKSKTIYEDKPPNTKDLDVFLRKQESGFGFRVLGGDGPDQSIYIGAIIPLGAAEKDGRLRAADELMCIDGIPVKGKSHKQVLDLMTTAARNGHVLLTVRRKIFYGEKQPEEDDSQTFISTQNGSPRLNRAEGTSRPPQEPYDVVLQRKENEGFGFVILTSKNKPPPGVIPHKIGRVIEGSPADRCGKLKVGDRISAVNGKSIIELSHDNIVQLIKDAGVTVTLAVVAEEEHHGPPSGTNSARQSPALQHRPMGQTQASHNSGDRSGLESEIGKDVSTTYRLSWSDHKHLAQPDTTLISVVGSRHNQNLGCYPVELERGSRGFGFSLRGGKEYNMGLFILRLAEDGPAIKDGRIHVGDQIVEINGEPTQGITHTRAIELIQAGGNKVLLLLRPGTGLIPDHGLAPSGLCSYVKPEQH

Target ORF information:

RefSeq Version	XM_007485160.2
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X2, mRNA.

Target ORF information:

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

XM_007485160.2

ORF Insert Sequence:

ATGTCGAAGA CGCTGAAGAA AAAGAAGCAC TGGCTGAGCA AGGTGCAGGA GTGCGCCCTG 
TCCTGGGCTG GGCCCCCGGG GGACTTCAGC GCCGAGATCC GCGGAGGTGC AGAGCGCGGC 
GAGTTCCCTT ACCTGGGTCG GCTCCGCGAC GAGCCTGGCG GGGGCACCTG CTGCGTGGTC 
TCCGGCAAGG CGCCCAGCCC CGGGGATGTT CTGCTGGAGG TGAACGGGAC GCCTGTCAGC 
GGGCTTACCA ACCGGGACAC CTTGGCTGTC ATCCGCCACT TCCGAGAGCC CATCCGCCTC 
AAGACTGTGA AACCAGGCAA AGTCATCAAT AAAGATTTGC GCCACTATCT GAGTCTTCAG 
TTTCAAAAGG GCTCAATTGA TCACAAACTC CAGCAGGTGA TCAGAGATAA TCTCTACTTG 
AGAACCATCC CATGCACTAC AAGAGCCCCC AGGGATGGAG AAGTTCCAGG AGTAGACTAT 
AATTTCATTT CTGTTGAGCA GTTCAGAGCA CTAGAAGAGA GTGGAGCATT GTTGGAAAGT 
GGAACATATG ATGGAAATTT CTATGGAACC CCCAAGCCTC CAGCAGAACC TAGTCCTTTC 
CAGCCAGATC CAGTTGATCA GGTCCTATTC GATAATGATT TTGACACAGA ATCTCAACGA 
AAAAGAACCA CATCAGTCAG CAAAATGCAA AGAATGGACA GCTCTCTTCC TGAGGAGGAA 
GAGGAGGAAG ACAAGGAGGC AGTTAATGGA AGTGGAAATA CAGAAAACAA AGAGAGACAT 
TCAGAGTCTT CTGACTGGAT GAAGACAGTT CCCAGTTACA ACCAAACAAA CAGCTCCATG 
GACTTTAGAA ATTACATGGC AAGAGATGAG AACCTGGAAC CTTTGCCTAA GAACTGGGAA 
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAACACTAA GACAACTACC 
TGGCTAGATC CCCGCCTCTG TAAGAAAGCA AAGGCTCCAG AAGACTGCGA AGATGGAGAA 
CTGCCCTATG GCTGGGAGAA AATAGAAGAT CCTCAGTATG GGACATACTA CGTTGATCAC 
ATTAACCAGA AAACCCAGTT TGAAAATCCA GTGGTGGAAG CCAAGAGGAA AAAGCAACTA 
GGACAGACTG ATGTTGGTTC CTCAAAGCAA GATGTAGAGA AGTCAGTCTT CACTCGAGAT 
CCTTCCCAGC TGAAAGGTAT ACTCATACGA GCATCTTTGA AAAAAAGTAC CATGGGATTT 
GGTTTTACCA TCATTGGGGG AGATCGACCT GATGAATTTC TTCAAGTGAA GAATGTACTC 
AAAGATGGCC CAGCTGCTCA AGATGGAAAA ATTGCACCAG GTGATGTAAT TGTAGACATA 
AATGGCAACT GTGTCCTTGG CCACACCCAT GCAGATGTTG TCCAGATGTT TCAATTGGTC 
CCTGTCAACC AGTATGTGAA CCTGACTTTG TGTCGTGGCT ATCTTCTTCC TGATGATAAT 
GAAGATCCTG TTGTCGATGT TGTTACAGCT ACACCCATCA TCAATGGACA GCCTGTAACC 
AAGGGAGAGA CTTGCATAAG CAGTCAGGAT TTTAAATCAG GGACAGTGGT CTTGGACCAG 
AATGGGAAAC CAGGTCACAT TTTGGTCAAT GATCGTCTCA ATGGCCCTTC TTTGGACCCA 
AATGAGCAAA GGGCATCCAT GGCATCATCA GGCAGCTCTC AACCAGAGCT AGTGACTATC 
CCTCTGATTA AGGGGCCTAA AGGTTTTGGG TTTGCAATAG CTGATAGCCC AACTGGGCAG 
AAGGTGAAGA TGATACTGGA CAGCCAGTGG TGTCATGGTC TTCAAAAAGG AGATATTATT 
AAAGAGATTT ACCACCAAAA TGTACAGAAC TTAACACACC TCCAGGTAGT AGAAGTGCTA 
AAGCAATTTC CAGTAGGCAC AGATGTGCCA TTGCTCATCT TGAGAGGAGG TCCTCCTTCA 
CCAGCTAAAA CTACCAAAGT GAAGACGGAT AAACAGGAGA ATTCAGGAAG CTTGGAGGCC 
GTCAATGAGT CTATTCCTCA GCCGATGCCT TTTCCACCCA GCATTATCAG GTCAGGATCC 
CCCAAATTAG ATCCTTCCGA GGTCTACCTG AAGTCCAAGA CGATATATGA AGATAAACCT 
CCAAACACCA AGGATTTGGA TGTTTTCCTT CGAAAACAGG AATCAGGCTT TGGCTTTAGG 
GTCCTAGGAG GGGATGGACC TGATCAATCT ATATACATTG GAGCTATCAT TCCCCTGGGA 
GCCGCTGAGA AAGATGGTCG GCTTCGTGCT GCTGACGAAC TCATGTGCAT TGATGGGATT 
CCTGTTAAAG GAAAATCACA CAAACAAGTT TTGGACTTGA TGACAACTGC TGCTCGAAAC 
GGCCATGTAT TGCTTACTGT TAGAAGAAAG ATCTTCTATG GTGAGAAGCA ACCTGAAGAG 
GATGATTCGC AGACCTTCAT TTCAACACAG AATGGATCTC CCCGACTGAA CCGGGCAGAG 
GGGACAAGCC GACCTCCTCA GGAGCCCTAT GATGTTGTCT TACAGCGCAA AGAAAATGAA 
GGATTTGGTT TTGTCATCCT TACCTCCAAA AACAAACCAC CTCCTGGAGT GATTCCTCAT 
AAAATTGGAC GTGTCATTGA AGGAAGTCCA GCAGATCGCT GTGGGAAACT GAAAGTAGGG 
GATCGGATCT CTGCAGTAAA TGGAAAGTCC ATCATTGAAC TATCCCATGA TAATATTGTA 
CAGCTCATCA AAGATGCTGG TGTCACTGTC ACCCTGGCTG TCGTTGCTGA GGAGGAACAT 
CATGGTCCAC CATCGGGAAC TAACTCAGCC AGACAAAGTC CAGCACTCCA GCACAGACCC 
ATGGGACAGA CACAAGCCAG TCATAACTCA GGAGACCGAA GTGGTTTAGA AAGTGAAATT 
GGGAAAGATG TTTCCACGAC TTATCGGCTG TCTTGGTCTG ACCACAAGCA TCTTGCCCAA 
CCTGATACAA CCTTGATTTC AGTTGTGGGT AGTCGGCACA ATCAGAACCT TGGTTGTTAT 
CCAGTGGAAC TAGAAAGAGG CTCAAGGGGC TTTGGATTCA GTCTTCGTGG GGGAAAGGAG 
TATAACATGG GATTGTTCAT TCTTCGACTT GCTGAGGATG GTCCTGCCAT CAAAGATGGG 
AGAATTCATG TGGGGGACCA GATCGTGGAA ATCAACGGGG AACCTACCCA AGGTATTACC 
CACACGCGAG CAATTGAGTT AATCCAAGCC GGAGGAAATA AAGTTCTTCT CCTTCTGAGG 
CCAGGAACTG GCTTGATACC CGACCACGGT TTGGCTCCTT CCGGTCTGTG CTCCTACGTG 
AAACCTGAGC AACATTAA

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

MAGI3 ( XM_001381996.4 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001382033.1 Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMc13544
Clone ID Related Accession (Same CDS sequence)	XM_001381996.4
Accession Version	XM_001381996.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4419bp) 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	2016-04-26
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 3 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008802.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001381996.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCGAAGA CGCTGAAGAA AAAGAAGCAC TGGCTGAGCA AGGTGCAGGA GTGCGCCCTG 
TCCTGGGCTG GGCCCCCGGG GGACTTCAGC GCCGAGATCC GCGGAGGTGC AGAGCGCGGC 
GAGTTCCCTT ACCTGGGTCG GCTCCGCGAC GAGCCTGGCG GGGGCACCTG CTGCGTGGTC 
TCCGGCAAGG CGCCCAGCCC CGGGGATGTT CTGCTGGAGG TGAACGGGAC GCCTGTCAGC 
GGGCTTACCA ACCGGGACAC CTTGGCTGTC ATCCGCCACT TCCGAGAGCC CATCCGCCTC 
AAGACTGTGA AACCAGGCAA AGTCATCAAT AAAGATTTGC GCCACTATCT GAGTCTTCAG 
TTTCAAAAGG GCTCAATTGA TCACAAACTC CAGCAGGTGA TCAGAGATAA TCTCTACTTG 
AGAACCATCC CATGCACTAC AAGAGCCCCC AGGGATGGAG AAGTTCCAGG AGTAGACTAT 
AATTTCATTT CTGTTGAGCA GTTCAGAGCA CTAGAAGAGA GTGGAGCATT GTTGGAAAGT 
GGAACATATG ATGGAAATTT CTATGGAACC CCCAAGCCTC CAGCAGAACC TAGTCCTTTC 
CAGCCAGATC CAGTTGATCA GGTCCTATTC GATAATGATT TTGACACAGA ATCTCAACGA 
AAAAGAACCA CATCAGTCAG CAAAATGCAA AGAATGGACA GCTCTCTTCC TGAGGAGGAA 
GAGGAGGAAG ACAAGGAGGC AGTTAATGGA AGTGGAAATA CAGAAAACAA AGAGAGACAT 
TCAGAGTCTT CTGACTGGAT GAAGACAGTT CCCAGTTACA ACCAAACAAA CAGCTCCATG 
GACTTTAGAA ATTACATGGC AAGAGATGAG AACCTGGAAC CTTTGCCTAA GAACTGGGAA 
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAACACTAA GACAACTACC 
TGGCTAGATC CCCGCCTCTG TAAGAAAGCA AAGGCTCCAG AAGACTGCGA AGATGGAGAA 
CTGCCCTATG GCTGGGAGAA AATAGAAGAT CCTCAGTATG GGACATACTA CGTTGATCAC 
ATTAACCAGA AAACCCAGTT TGAAAATCCA GTGGTGGAAG CCAAGAGGAA AAAGCAACTA 
GGACAGACTG ATGTTGGTTC CTCAAAGCAA GATGTAGAGA AGTCAGTCTT CACTCGAGAT 
CCTTCCCAGC TGAAAGGTAT ACTCATACGA GCATCTTTGA AAAAAAGTAC CATGGGATTT 
GGTTTTACCA TCATTGGGGG AGATCGACCT GATGAATTTC TTCAAGTGAA GAATGTACTC 
AAAGATGGCC CAGCTGCTCA AGATGGAAAA ATTGCACCAG GTGATGTAAT TGTAGACATA 
AATGGCAACT GTGTCCTTGG CCACACCCAT GCAGATGTTG TCCAGATGTT TCAATTGGTC 
CCTGTCAACC AGTATGTGAA CCTGACTTTG TGTCGTGGCT ATCTTCTTCC TGATGATAAT 
GAAGATCCTG TTGTCGATGT TGTTACAGCT ACACCCATCA TCAATGGACA GCCTGTAACC 
AAGGGAGAGA CTTGCATAAG CAGTCAGGAT TTTAAATCAG GGACAGTGGT CTTGGACCAG 
AATGGGAAAC CAGGTCACAT TTTGGTCAAT GATCGTCTCA ATGGCCCTTC TTTGGACCCA 
AATGAGCAAA GGGCATCCAT GGCATCATCA GGCAGCTCTC AACCAGAGCT AGTGACTATC 
CCTCTGATTA AGGGGCCTAA AGGTTTTGGG TTTGCAATAG CTGATAGCCC AACTGGGCAG 
AAGGTGAAGA TGATACTGGA CAGCCAGTGG TGTCATGGTC TTCAAAAAGG AGATATTATT 
AAAGAGATTT ACCACCAAAA TGTACAGAAC TTAACACACC TCCAGGTAGT AGAAGTGCTA 
AAGCAATTTC CAGTAGGCAC AGATGTGCCA TTGCTCATCT TGAGAGGAGG TCCTCCTTCA 
CCAGCTAAAA CTACCAAAGT GAAGACGGAT AAACAGGAGA ATTCAGGAAG CTTGGAGGCC 
GTCAATGAGT CTATTCCTCA GCCGATGCCT TTTCCACCCA GCATTATCAG GTCAGGATCC 
CCCAAATTAG ATCCTTCCGA GGTCTACCTG AAGTCCAAGA CGATATATGA AGATAAACCT 
CCAAACACCA AGGATTTGGA TGTTTTCCTT CGAAAACAGG AATCAGGCTT TGGCTTTAGG 
GTCCTAGGAG GGGATGGACC TGATCAATCT ATATACATTG GAGCTATCAT TCCCCTGGGA 
GCCGCTGAGA AAGATGGTCG GCTTCGTGCT GCTGACGAAC TCATGTGCAT TGATGGGATT 
CCTGTTAAAG GAAAATCACA CAAACAAGTT TTGGACTTGA TGACAACTGC TGCTCGAAAC 
GGCCATGTAT TGCTTACTGT TAGAAGAAAG ATCTTCTATG GTGAGAAGCA ACCTGAAGAG 
GATGATTCGC AGACCTTCAT TTCAACACAG AATGGATCTC CCCGACTGAA CCGGGCAGAG 
GGGACAAGCC GACCTCCTCA GGAGCCCTAT GATGTTGTCT TACAGCGCAA AGAAAATGAA 
GGATTTGGTT TTGTCATCCT TACCTCCAAA AACAAACCAC CTCCTGGAGT GATTCCTCAT 
AAAATTGGAC GTGTCATTGA AGGAAGTCCA GCAGATCGCT GTGGGAAACT GAAAGTAGGG 
GATCGGATCT CTGCAGTAAA TGGAAAGTCC ATCATTGAAC TATCCCATGA TAATATTGTA 
CAGCTCATCA AAGATGCTGG TGTCACTGTC ACCCTGGCTG TCGTTGCTGA GGAGGAACAT 
CATGGTCCAC CATCGGGAAC TAACTCAGCC AGACAAAGTC CAGCACTCCA GCACAGACCC 
ATGGGACAGA CACAAGCCAG TCATAACTCA GGAGACCGAA GTGGTTTAGA AAGTGAAATT 
GGGAAAGATG TTTCCACGAC TTATCGGCTG TCTTGGTCTG ACCACAAGCA TCTTGCCCAA 
CCTGATACAA CCTTGATTTC AGTTGTGGGT AGTCGGCACA ATCAGAACCT TGGTTGTTAT 
CCAGTGGAAC TAGAAAGAGG CTCAAGGGGC TTTGGATTCA GTCTTCGTGG GGGAAAGGAG 
TATAACATGG GATTGTTCAT TCTTCGACTT GCTGAGGATG GTCCTGCCAT CAAAGATGGG 
AGAATTCATG TGGGGGACCA GATCGTGGAA ATCAACGGGG AACCTACCCA AGGTATTACC 
CACACGCGAG CAATTGAGTT AATCCAAGCC GGAGGAAATA AAGTTCTTCT CCTTCTGAGG 
CCAGGAACTG GCTTGATACC CGACCACGGT GATTGGGATA TTCTTAATCC TTCATCTTCA 
AGCATAATTT ATGATGAACA GTCACCATAT TTCCCATCTT CACATTCTAC TTCCATATTT 
GAAATTTCTC ATGTACCAGT ATCTGAAGAA GTTCAGATAT GTGAAAAAGT AGAAGACTTA 
AAGGATACTC TGCCAGTAAA GAAATGCCCT ATAAATGAAA ACAGCTCTGA GATAAAGCAT 
CAATCTTCTG TCCAGAAAAA TGTGAATAAA AAGGTTCTAC CCAGGAGTCA AGGTCACAGT 
GAAAAGAAAA ATCTTCAGGA AGTTGAAAAT GGTGTTGTTG CAAGAAGAGG CAGATCTGTC 
AGTCCTAAAA AATCAGTTAA TAGACCTTCA GGAGAACATG GAGAAAAAAT AGCTAGTCCT 
GTAAAGGGTG ACCCAAAAAG AAGACCCAAA GATCGGTCCT TGAGCCCCAG AAAAGGGGAA 
AATAAAAATT TACAAGTTGG CACCAATGCA GGTTCTGGAA GAGATAATTC AAGAAAACCG 
AGGGGAAGAT CTGCTAGCCC CCAAAAGCAG CCAAAGATGG AAGTAATAGG AGACAAAATA 
AACACTGATG CCAGGTTGCA AGAGGGTCAG AGTAGACGAG CTGGTGAGAA TAATGAAATG 
TTCAAAAATG ACAAAGAAAA ACCAGGTATC TCCAGGAAAG ACCCAAAGCA AAATCAGTCT 
GGAAAAAATG AGACATGCTC GCCAGAGAAA AAAAGCCAAA AAATGAATGA AAAATCTCTT 
CCATCCAAAA GAGCCAGTGA GCCTGGCAGC AAAGTAGTCA CTGAAAATGA AAAGGGAAAG 
AAAGCAATGT TGGGAGAAAT AAGTTGTAGC AAATCCAAAA CAGGACCGAG TTGCAAAATG 
TCAAAAAAGC CACTGAAGTT AGAACCTGAA GAGACAGTTA TTCAAAACAA GACGGGAGAA 
CACAAAGAAA AAGACCCAGA GAAAATGGAG AGAAAGAAAG ATAGTGATGG GTTAAAAACA 
GGAAGTAATT CTCCAGTTAA GAAAGCCCCA ATAACACCTG GACCTTGGAA AGTGCCGAGT 
GCAAGCAGAG TCCCTGGTGT GGCTGAAAAA CGTCTCTAA

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

RefSeq	XP_001382033.1
CDS	97..4515
Translation	MSKTLKKKKHWLSKVQECALSWAGPPGDFSAEIRGGAERGEFPYLGRLRDEPGGGTCCVVSGKAPSPGDVLLEVNGTPVSGLTNRDTLAVIRHFREPIRLKTVKPGKVINKDLRHYLSLQFQKGSIDHKLQQVIRDNLYLRTIPCTTRAPRDGEVPGVDYNFISVEQFRALEESGALLESGTYDGNFYGTPKPPAEPSPFQPDPVDQVLFDNDFDTESQRKRTTSVSKMQRMDSSLPEEEEEEDKEAVNGSGNTENKERHSESSDWMKTVPSYNQTNSSMDFRNYMARDENLEPLPKNWEMAYTDTGMIYFIDHNTKTTTWLDPRLCKKAKAPEDCEDGELPYGWEKIEDPQYGTYYVDHINQKTQFENPVVEAKRKKQLGQTDVGSSKQDVEKSVFTRDPSQLKGILIRASLKKSTMGFGFTIIGGDRPDEFLQVKNVLKDGPAAQDGKIAPGDVIVDINGNCVLGHTHADVVQMFQLVPVNQYVNLTLCRGYLLPDDNEDPVVDVVTATPIINGQPVTKGETCISSQDFKSGTVVLDQNGKPGHILVNDRLNGPSLDPNEQRASMASSGSSQPELVTIPLIKGPKGFGFAIADSPTGQKVKMILDSQWCHGLQKGDIIKEIYHQNVQNLTHLQVVEVLKQFPVGTDVPLLILRGGPPSPAKTTKVKTDKQENSGSLEAVNESIPQPMPFPPSIIRSGSPKLDPSEVYLKSKTIYEDKPPNTKDLDVFLRKQESGFGFRVLGGDGPDQSIYIGAIIPLGAAEKDGRLRAADELMCIDGIPVKGKSHKQVLDLMTTAARNGHVLLTVRRKIFYGEKQPEEDDSQTFISTQNGSPRLNRAEGTSRPPQEPYDVVLQRKENEGFGFVILTSKNKPPPGVIPHKIGRVIEGSPADRCGKLKVGDRISAVNGKSIIELSHDNIVQLIKDAGVTVTLAVVAEEEHHGPPSGTNSARQSPALQHRPMGQTQASHNSGDRSGLESEIGKDVSTTYRLSWSDHKHLAQPDTTLISVVGSRHNQNLGCYPVELERGSRGFGFSLRGGKEYNMGLFILRLAEDGPAIKDGRIHVGDQIVEINGEPTQGITHTRAIELIQAGGNKVLLLLRPGTGLIPDHGDWDILNPSSSSIIYDEQSPYFPSSHSTSIFEISHVPVSEEVQICEKVEDLKDTLPVKKCPINENSSEIKHQSSVQKNVNKKVLPRSQGHSEKKNLQEVENGVVARRGRSVSPKKSVNRPSGEHGEKIASPVKGDPKRRPKDRSLSPRKGENKNLQVGTNAGSGRDNSRKPRGRSASPQKQPKMEVIGDKINTDARLQEGQSRRAGENNEMFKNDKEKPGISRKDPKQNQSGKNETCSPEKKSQKMNEKSLPSKRASEPGSKVVTENEKGKKAMLGEISCSKSKTGPSCKMSKKPLKLEPEETVIQNKTGEHKEKDPEKMERKKDSDGLKTGSNSPVKKAPITPGPWKVPSASRVPGVAEKRL

Target ORF information:

RefSeq Version	XM_001381996.4
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica membrane associated guanylate kinase, WW and PDZ domain containing 3 (MAGI3), transcript variant X1, mRNA.

Target ORF information:

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

XM_001381996.4

ORF Insert Sequence:

ATGTCGAAGA CGCTGAAGAA AAAGAAGCAC TGGCTGAGCA AGGTGCAGGA GTGCGCCCTG 
TCCTGGGCTG GGCCCCCGGG GGACTTCAGC GCCGAGATCC GCGGAGGTGC AGAGCGCGGC 
GAGTTCCCTT ACCTGGGTCG GCTCCGCGAC GAGCCTGGCG GGGGCACCTG CTGCGTGGTC 
TCCGGCAAGG CGCCCAGCCC CGGGGATGTT CTGCTGGAGG TGAACGGGAC GCCTGTCAGC 
GGGCTTACCA ACCGGGACAC CTTGGCTGTC ATCCGCCACT TCCGAGAGCC CATCCGCCTC 
AAGACTGTGA AACCAGGCAA AGTCATCAAT AAAGATTTGC GCCACTATCT GAGTCTTCAG 
TTTCAAAAGG GCTCAATTGA TCACAAACTC CAGCAGGTGA TCAGAGATAA TCTCTACTTG 
AGAACCATCC CATGCACTAC AAGAGCCCCC AGGGATGGAG AAGTTCCAGG AGTAGACTAT 
AATTTCATTT CTGTTGAGCA GTTCAGAGCA CTAGAAGAGA GTGGAGCATT GTTGGAAAGT 
GGAACATATG ATGGAAATTT CTATGGAACC CCCAAGCCTC CAGCAGAACC TAGTCCTTTC 
CAGCCAGATC CAGTTGATCA GGTCCTATTC GATAATGATT TTGACACAGA ATCTCAACGA 
AAAAGAACCA CATCAGTCAG CAAAATGCAA AGAATGGACA GCTCTCTTCC TGAGGAGGAA 
GAGGAGGAAG ACAAGGAGGC AGTTAATGGA AGTGGAAATA CAGAAAACAA AGAGAGACAT 
TCAGAGTCTT CTGACTGGAT GAAGACAGTT CCCAGTTACA ACCAAACAAA CAGCTCCATG 
GACTTTAGAA ATTACATGGC AAGAGATGAG AACCTGGAAC CTTTGCCTAA GAACTGGGAA 
ATGGCCTACA CTGACACAGG GATGATCTAC TTCATTGACC ACAACACTAA GACAACTACC 
TGGCTAGATC CCCGCCTCTG TAAGAAAGCA AAGGCTCCAG AAGACTGCGA AGATGGAGAA 
CTGCCCTATG GCTGGGAGAA AATAGAAGAT CCTCAGTATG GGACATACTA CGTTGATCAC 
ATTAACCAGA AAACCCAGTT TGAAAATCCA GTGGTGGAAG CCAAGAGGAA AAAGCAACTA 
GGACAGACTG ATGTTGGTTC CTCAAAGCAA GATGTAGAGA AGTCAGTCTT CACTCGAGAT 
CCTTCCCAGC TGAAAGGTAT ACTCATACGA GCATCTTTGA AAAAAAGTAC CATGGGATTT 
GGTTTTACCA TCATTGGGGG AGATCGACCT GATGAATTTC TTCAAGTGAA GAATGTACTC 
AAAGATGGCC CAGCTGCTCA AGATGGAAAA ATTGCACCAG GTGATGTAAT TGTAGACATA 
AATGGCAACT GTGTCCTTGG CCACACCCAT GCAGATGTTG TCCAGATGTT TCAATTGGTC 
CCTGTCAACC AGTATGTGAA CCTGACTTTG TGTCGTGGCT ATCTTCTTCC TGATGATAAT 
GAAGATCCTG TTGTCGATGT TGTTACAGCT ACACCCATCA TCAATGGACA GCCTGTAACC 
AAGGGAGAGA CTTGCATAAG CAGTCAGGAT TTTAAATCAG GGACAGTGGT CTTGGACCAG 
AATGGGAAAC CAGGTCACAT TTTGGTCAAT GATCGTCTCA ATGGCCCTTC TTTGGACCCA 
AATGAGCAAA GGGCATCCAT GGCATCATCA GGCAGCTCTC AACCAGAGCT AGTGACTATC 
CCTCTGATTA AGGGGCCTAA AGGTTTTGGG TTTGCAATAG CTGATAGCCC AACTGGGCAG 
AAGGTGAAGA TGATACTGGA CAGCCAGTGG TGTCATGGTC TTCAAAAAGG AGATATTATT 
AAAGAGATTT ACCACCAAAA TGTACAGAAC TTAACACACC TCCAGGTAGT AGAAGTGCTA 
AAGCAATTTC CAGTAGGCAC AGATGTGCCA TTGCTCATCT TGAGAGGAGG TCCTCCTTCA 
CCAGCTAAAA CTACCAAAGT GAAGACGGAT AAACAGGAGA ATTCAGGAAG CTTGGAGGCC 
GTCAATGAGT CTATTCCTCA GCCGATGCCT TTTCCACCCA GCATTATCAG GTCAGGATCC 
CCCAAATTAG ATCCTTCCGA GGTCTACCTG AAGTCCAAGA CGATATATGA AGATAAACCT 
CCAAACACCA AGGATTTGGA TGTTTTCCTT CGAAAACAGG AATCAGGCTT TGGCTTTAGG 
GTCCTAGGAG GGGATGGACC TGATCAATCT ATATACATTG GAGCTATCAT TCCCCTGGGA 
GCCGCTGAGA AAGATGGTCG GCTTCGTGCT GCTGACGAAC TCATGTGCAT TGATGGGATT 
CCTGTTAAAG GAAAATCACA CAAACAAGTT TTGGACTTGA TGACAACTGC TGCTCGAAAC 
GGCCATGTAT TGCTTACTGT TAGAAGAAAG ATCTTCTATG GTGAGAAGCA ACCTGAAGAG 
GATGATTCGC AGACCTTCAT TTCAACACAG AATGGATCTC CCCGACTGAA CCGGGCAGAG 
GGGACAAGCC GACCTCCTCA GGAGCCCTAT GATGTTGTCT TACAGCGCAA AGAAAATGAA 
GGATTTGGTT TTGTCATCCT TACCTCCAAA AACAAACCAC CTCCTGGAGT GATTCCTCAT 
AAAATTGGAC GTGTCATTGA AGGAAGTCCA GCAGATCGCT GTGGGAAACT GAAAGTAGGG 
GATCGGATCT CTGCAGTAAA TGGAAAGTCC ATCATTGAAC TATCCCATGA TAATATTGTA 
CAGCTCATCA AAGATGCTGG TGTCACTGTC ACCCTGGCTG TCGTTGCTGA GGAGGAACAT 
CATGGTCCAC CATCGGGAAC TAACTCAGCC AGACAAAGTC CAGCACTCCA GCACAGACCC 
ATGGGACAGA CACAAGCCAG TCATAACTCA GGAGACCGAA GTGGTTTAGA AAGTGAAATT 
GGGAAAGATG TTTCCACGAC TTATCGGCTG TCTTGGTCTG ACCACAAGCA TCTTGCCCAA 
CCTGATACAA CCTTGATTTC AGTTGTGGGT AGTCGGCACA ATCAGAACCT TGGTTGTTAT 
CCAGTGGAAC TAGAAAGAGG CTCAAGGGGC TTTGGATTCA GTCTTCGTGG GGGAAAGGAG 
TATAACATGG GATTGTTCAT TCTTCGACTT GCTGAGGATG GTCCTGCCAT CAAAGATGGG 
AGAATTCATG TGGGGGACCA GATCGTGGAA ATCAACGGGG AACCTACCCA AGGTATTACC 
CACACGCGAG CAATTGAGTT AATCCAAGCC GGAGGAAATA AAGTTCTTCT CCTTCTGAGG 
CCAGGAACTG GCTTGATACC CGACCACGGT GATTGGGATA TTCTTAATCC TTCATCTTCA 
AGCATAATTT ATGATGAACA GTCACCATAT TTCCCATCTT CACATTCTAC TTCCATATTT 
GAAATTTCTC ATGTACCAGT ATCTGAAGAA GTTCAGATAT GTGAAAAAGT AGAAGACTTA 
AAGGATACTC TGCCAGTAAA GAAATGCCCT ATAAATGAAA ACAGCTCTGA GATAAAGCAT 
CAATCTTCTG TCCAGAAAAA TGTGAATAAA AAGGTTCTAC CCAGGAGTCA AGGTCACAGT 
GAAAAGAAAA ATCTTCAGGA AGTTGAAAAT GGTGTTGTTG CAAGAAGAGG CAGATCTGTC 
AGTCCTAAAA AATCAGTTAA TAGACCTTCA GGAGAACATG GAGAAAAAAT AGCTAGTCCT 
GTAAAGGGTG ACCCAAAAAG AAGACCCAAA GATCGGTCCT TGAGCCCCAG AAAAGGGGAA 
AATAAAAATT TACAAGTTGG CACCAATGCA GGTTCTGGAA GAGATAATTC AAGAAAACCG 
AGGGGAAGAT CTGCTAGCCC CCAAAAGCAG CCAAAGATGG AAGTAATAGG AGACAAAATA 
AACACTGATG CCAGGTTGCA AGAGGGTCAG AGTAGACGAG CTGGTGAGAA TAATGAAATG 
TTCAAAAATG ACAAAGAAAA ACCAGGTATC TCCAGGAAAG ACCCAAAGCA AAATCAGTCT 
GGAAAAAATG AGACATGCTC GCCAGAGAAA AAAAGCCAAA AAATGAATGA AAAATCTCTT 
CCATCCAAAA GAGCCAGTGA GCCTGGCAGC AAAGTAGTCA CTGAAAATGA AAAGGGAAAG 
AAAGCAATGT TGGGAGAAAT AAGTTGTAGC AAATCCAAAA CAGGACCGAG TTGCAAAATG 
TCAAAAAAGC CACTGAAGTT AGAACCTGAA GAGACAGTTA TTCAAAACAA GACGGGAGAA 
CACAAAGAAA AAGACCCAGA GAAAATGGAG AGAAAGAAAG ATAGTGATGG GTTAAAAACA 
GGAAGTAATT CTCCAGTTAA GAAAGCCCCA ATAACACCTG GACCTTGGAA AGTGCCGAGT 
GCAAGCAGAG TCCCTGGTGT GGCTGAAAAA CGTCTCTAA