MAGI1 cDNA ORF clone, Loxodonta africana(African savanna elephant)

Gene
Clones
gRNAs

Summary

Gene Symbol	MAGI1
Entrez Gene ID	100676034
Full Name	membrane associated guanylate kinase, WW and PDZ domain containing 1
Gene Type	protein-coding
Organism	Loxodonta africana(African savanna elephant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010590096.1	XP_010588398.1	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1
XM_023547557.1	XP_023403325.1	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1

Pathways from BioSystems
Gene Ontology

The following MAGI1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAGI1 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
OLo39384	XM_010590096.1 Latest version!	Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OLo98868	XM_023547557.1 Latest version!	Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

MAGI1 ( XM_010590096.1 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_010588398.1 Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.

Price & Availability↑

CloneID	OLo39384
Clone ID Related Accession (Same CDS sequence)	XM_010590096.1
Accession Version	XM_010590096.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4005bp) 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	1418140800000
Organism	Loxodonta africana(African savanna elephant)
Product	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573432.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Loxodonta africana Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 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##

ATGCCAAAAT CAGACTGTCT GGGTTCAAAT CATTGCTCTG CCCAAGATAC TTGCATTTCC 
CCCAATGTTC TCCATTTCTA TAAATGGCAG AACCCATTTG CCAGAGTACC TGAGCCGGGC 
ACAACCCGAT CTCCAAGAGA GGGAGAAGTG CCTGGTGTGG ATTATAACTT TCTGACTGTG 
AAGGAGTTCT TGGACCTGGA ACAGAGCGGA ACTCTCCTGG AAGTCGGCAC CTACGAAGGA 
AACTATTATG GGACACCCAG ACCTCCTAGC CAGCCAGTCA GTGGGAAAGT GACCAGGACG 
GATGCCTCGC AAAGCCTTCA GTCTGGCTCC AAGCAGTCAG CCCCGAAACG AACCAAGTCT 
TACAATGACA TGCACAATGC TGGCGTAGTC CCTGTGGAGA ACGAGGAGGA GGATGACGCT 
CCTGAAATGA ACAGTAGCTT TACAGCCGAT TCTGGTGACC AAGACGAGCA CACGCTCCAA 
GAGACAACAC TACTGCCTGT GAATAGTGAC ATCGTTGCTG CTCCCATCAC GGACCCTTCT 
CAGAAGTTCC CTCAATACCT ACCTCTTTCT GCAGAGGATA ATTTAGGTCC TCTACCTGAA 
AACTGGGAGA TGGCCTATAC GGAAAATGGA GAAGTCTATT TTATAGACCA TAACACTAAA 
ACAACATCTT GGCTAGATCC TCGGTGCCTG AACAAGCAGC AGAAGCCTCT GGAGGAGTGT 
GAAGACGATG AAGGGGTACA CACGGAGGAG CTGGACAGTG AACTAGAACT GCCTGCTGGA 
TGGGAAAAGA TTGAAGACCC TGTCTATGGT ATCTACTATG TAGACCACAT CAACAGGAAG 
ACACAATATG AGAACCCCGT GCTGGAAGCC AAACGGAAGA GGCAGCTTGA GCAGCAGCAG 
CCGCAGCCGC AGCCAGAAGA ATGGACAGAA GACCACTCAG CCCTTGTGCC TCCTGTTATT 
CCAAGCCACC CCCCAAGCAA TCTGGAGCCA GCCAGAGAAG CTCCACTTCA GGGCAAACCC 
TTTTTTACAC GAAACCGTTC TGAGTTAAAA GGCAAGTTCA TTCACACGAA ACTGCGGAAA 
AGCAGTCGTG GCTTTGGCTT CACAGTTGTT GGAGGGGATG AACCTGACGA GTTTCTCCAG 
ATCAAGAGCT TGGTCCTAGA TGGGCCTGCC GCATTGGACG GCAAGATGGA AACAGGGGAC 
GTCATCGTCA GTGTGAATGA CGCCTGCGTT TTGGGACACA CGCACGCTCA AGTTGTGAAA 
ATCTTCCAGT CCATTCCCAT TGGTGCCAGT GTGGACCTTG AGCTCTGCCG AGGTTATCCA 
TTGCCTTTTG ACCCAGATGA CCCCAATACA AGTTTGGTGA CCTCCGTGGC CATTTTGGAT 
AAAGAACCAA TAATTGTGAA TGGACAAGAG ACCTATGATT CGCCAGCCAG CCACAGCAGC 
AAAACAGGCA AAGTCAACAG CGTGAAGGAT GCCAGGCCCA GCAGCCCCGC TGATGTGGCT 
TCAAGTGGTT CCCATGGTTA CCCCAATGAT ACTGTCTCTT TGGCTTCCTC CATAGCCACT 
CAGCCGGAAC TTATAACTGT TCATATAGTC AAAGGGCCAA TGGGCTTTGG TTTTACTATC 
GCAGACAGTC CTGGTGGTGG CGGCCAAAGA GTGAAACAGA TTGTTGACAG TCCAAGGTGC 
CGAGGCCTGA AAGAAGGGGA TCTTATAGTG GAAGTTAATA AGAAGAACGT GCAAGCTCTC 
ACTCACAACC AGGTAGTGGA TATGCTGATC GAATGTCCAA AGGGAAGTGA GGTCACGCTG 
TTGGTGCAAA GAGGAGGGCT GCCAGTTCCA AAGAAGAGCC CAAAGTCGCA ACCACTGGAA 
AGAAAAGACA GCCAGAATAG TTCTCAGCAC AGTGTTTGCA GCCACCGAAG CCTGCACACG 
GCATCCCCAA GCCACGGCAC ACAGGTGCTT ACTGAGTACC CACCTGCAGA GGCCACGGCT 
CCAGATCAGA CCGACAACTC TGGGCAGAAA AAACCAGATC CGTTTAAAAT CTGGGCCCAG 
TCCAGGAGTA TGTATGAAAA CCGACTTCCA GATTACCAGG AACAGGACAT CTTCCTATGG 
AGGAAAGAAA CTGGATTCGG ATTTAGGATT CTGGGTGGAA ATGAACCAGG GGAGCCTATT 
TATATTGGTC ACATTGTACC ACTGGGTGCT GCTGACACGG ACGGCCGCCT GAGGTCTGGA 
GACGAATTAA TCTGTGTCGA TGGGACACCA GTAATTGGAA AGTCACACCA GCTTGTGGTC 
CAGCTTATGC AACAGGCTGC CAAGCAAGGC CACGTCAATC TCACAGTACG GCGTAAAGTG 
GTGTTTGCTG CCCCCAAAGC AGAGAACGAG GTGCCGTCAC CAGCGTCGTC TCATCACAGC 
AGCAACCAGC CGGCCTCCCT GATTGAAGAG AAGCGCACCC CGCAGGGAAG CCAGAATTCT 
CTCAACACCG TGAGCTCGGG GAGTGGCAGC ACCAGTGGCA TCGGCAGCGG CGGGGGCGGT 
GGCAGCGGCC TGGTGAGCAC CGTGGTGCAG CCCTATGACG TGGACATCCG CCGTGGGGAG 
AACGAGGGCT TCGGCTTCGT CATCGTGTCT TCCGTGAGCA GGCCTGAAGC AGGCACGACT 
TTTGGTCGGA TTATTGAGGG GAGCCCTGCT GACCGCTGTG GCAAGCTGAA AGTGGGAGAC 
CGGATCTTGG CTGTAAATGG ATGTTCCATC ACCAACAAAT CCCATTCAGA CATTGTCAAC 
TTAATCAAGG AAGCGGGAAA CACAGTTACC CTCCGCATCA TTCCTGGGGA TGAGTCCTCA 
AATGCTACCT TGCTGACCAA TGCAGAGAAG ATCGCCACCA TCACCACCAC ACACACGCCT 
TCTCAGCAAG GGACCCAAGA CACAAGGAAC ACCACCAAAC CAAAGCAGGA ATGTCAGTTT 
GAGTTCAAAG CACCCCAGGC AACACAGGAG CAAGATTTTT ACACTGTGGA ACTGGAAAGA 
GGAGCCAAGG GATTTGGCTT TAGTCTTCGA GGAGGCCGAG AGTATAACAT GGACCTCTAT 
GTTCTGCGGT TAGCAGAGGA TGGTCCTGCG GAAAGGTGTG GAAAGATGAG GATTGGTGAT 
GAAATTCTGG AGATCAACGG CGAGACTACC AAGAACATGA AGCATTCTCG GGCTATAGAA 
CTGATTAAGA ATGGTGGCCG CAGAGTACGT CTGCTTCTGA AGCGGGGAGA TGGCTCGGTG 
CCAGAATATG ACCCCAGCAG CGACCGGCAC GGCCCCCCCA CCGGTCCCCA AGGTGTTCCG 
GAAATGAGAA CCGGGCCATC CGACCGCCAG CAGCATCCAT CATTGGAGTC CAGTTATCCA 
CCTGATCTTC ACAAATCATT ACAACTTGGG GAAAAGCGGG CACACGTCAA AGACCCAAAA 
GGCAGCAGAG AACATAGCAG ACAGCCCAGT GAACACCACA CGTGGAATGG AACTTCTAAA 
AAGCCCGACA CTGGGGCATG CCGACCCAAG GACCGGGCAC GAGAGGGACG AAGAGAAACA 
CCGCCAGAGC GGGTGGTGGC CAATGGACCC AAGCGGAGGT CTCCAGAGAA GCGGCGGGAA 
GGTATCCGGA GTGCTGACAA TACTTTGGAA AGGAGGGAGA AGCATGAGAA GAGAAGAGAG 
GTTTCTCCTG AGAGGAGGCG GGAACGGTCA CCGACCCGCA AGAGAGACAG CTCGCCCAGC 
AGTCGGAGAA GGTCTCTGGA AAGACTCTTG GATCAGAGAA GGTCTCCAGA GCGAAGGAGA 
GCCGGCTCCC CTGAAAGGAG AGCGAAGTCC ACCGACCGGA GGCGAGCACA GTCTCCGGAG 
AGAAGGAGAG AGCGGTCACT GGAGAAGAGG AACAGAGAGG ACAAAGTCAG CCACCGAGAG 
AGGGAAGAGG CGAGTCTGAA ACAGGATGCC AGCAGGAGTT CCAGACATCC CCCAGAGCAG 
AGACGGCGAC CTTACAAAGA ATGTAGCACT GACCTCAGCA TCTAA

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

RefSeq	XP_010588398.1
CDS	1..4005
Translation	MPKSDCLGSNHCSAQDTCISPNVLHFYKWQNPFARVPEPGTTRSPREGEVPGVDYNFLTVKEFLDLEQSGTLLEVGTYEGNYYGTPRPPSQPVSGKVTRTDASQSLQSGSKQSAPKRTKSYNDMHNAGVVPVENEEEDDAPEMNSSFTADSGDQDEHTLQETTLLPVNSDIVAAPITDPSQKFPQYLPLSAEDNLGPLPENWEMAYTENGEVYFIDHNTKTTSWLDPRCLNKQQKPLEECEDDEGVHTEELDSELELPAGWEKIEDPVYGIYYVDHINRKTQYENPVLEAKRKRQLEQQQPQPQPEEWTEDHSALVPPVIPSHPPSNLEPAREAPLQGKPFFTRNRSELKGKFIHTKLRKSSRGFGFTVVGGDEPDEFLQIKSLVLDGPAALDGKMETGDVIVSVNDACVLGHTHAQVVKIFQSIPIGASVDLELCRGYPLPFDPDDPNTSLVTSVAILDKEPIIVNGQETYDSPASHSSKTGKVNSVKDARPSSPADVASSGSHGYPNDTVSLASSIATQPELITVHIVKGPMGFGFTIADSPGGGGQRVKQIVDSPRCRGLKEGDLIVEVNKKNVQALTHNQVVDMLIECPKGSEVTLLVQRGGLPVPKKSPKSQPLERKDSQNSSQHSVCSHRSLHTASPSHGTQVLTEYPPAEATAPDQTDNSGQKKPDPFKIWAQSRSMYENRLPDYQEQDIFLWRKETGFGFRILGGNEPGEPIYIGHIVPLGAADTDGRLRSGDELICVDGTPVIGKSHQLVVQLMQQAAKQGHVNLTVRRKVVFAAPKAENEVPSPASSHHSSNQPASLIEEKRTPQGSQNSLNTVSSGSGSTSGIGSGGGGGSGLVSTVVQPYDVDIRRGENEGFGFVIVSSVSRPEAGTTFGRIIEGSPADRCGKLKVGDRILAVNGCSITNKSHSDIVNLIKEAGNTVTLRIIPGDESSNATLLTNAEKIATITTTHTPSQQGTQDTRNTTKPKQECQFEFKAPQATQEQDFYTVELERGAKGFGFSLRGGREYNMDLYVLRLAEDGPAERCGKMRIGDEILEINGETTKNMKHSRAIELIKNGGRRVRLLLKRGDGSVPEYDPSSDRHGPPTGPQGVPEMRTGPSDRQQHPSLESSYPPDLHKSLQLGEKRAHVKDPKGSREHSRQPSEHHTWNGTSKKPDTGACRPKDRAREGRRETPPERVVANGPKRRSPEKRREGIRSADNTLERREKHEKRREVSPERRRERSPTRKRDSSPSSRRRSLERLLDQRRSPERRRAGSPERRAKSTDRRRAQSPERRRERSLEKRNREDKVSHREREEASLKQDASRSSRHPPEQRRRPYKECSTDLSI

Target ORF information:

RefSeq Version	XM_010590096.1
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.

Target ORF information:

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

XM_010590096.1

ORF Insert Sequence:

ATGCCAAAAT CAGACTGTCT GGGTTCAAAT CATTGCTCTG CCCAAGATAC TTGCATTTCC 
CCCAATGTTC TCCATTTCTA TAAATGGCAG AACCCATTTG CCAGAGTACC TGAGCCGGGC 
ACAACCCGAT CTCCAAGAGA GGGAGAAGTG CCTGGTGTGG ATTATAACTT TCTGACTGTG 
AAGGAGTTCT TGGACCTGGA ACAGAGCGGA ACTCTCCTGG AAGTCGGCAC CTACGAAGGA 
AACTATTATG GGACACCCAG ACCTCCTAGC CAGCCAGTCA GTGGGAAAGT GACCAGGACG 
GATGCCTCGC AAAGCCTTCA GTCTGGCTCC AAGCAGTCAG CCCCGAAACG AACCAAGTCT 
TACAATGACA TGCACAATGC TGGCGTAGTC CCTGTGGAGA ACGAGGAGGA GGATGACGCT 
CCTGAAATGA ACAGTAGCTT TACAGCCGAT TCTGGTGACC AAGACGAGCA CACGCTCCAA 
GAGACAACAC TACTGCCTGT GAATAGTGAC ATCGTTGCTG CTCCCATCAC GGACCCTTCT 
CAGAAGTTCC CTCAATACCT ACCTCTTTCT GCAGAGGATA ATTTAGGTCC TCTACCTGAA 
AACTGGGAGA TGGCCTATAC GGAAAATGGA GAAGTCTATT TTATAGACCA TAACACTAAA 
ACAACATCTT GGCTAGATCC TCGGTGCCTG AACAAGCAGC AGAAGCCTCT GGAGGAGTGT 
GAAGACGATG AAGGGGTACA CACGGAGGAG CTGGACAGTG AACTAGAACT GCCTGCTGGA 
TGGGAAAAGA TTGAAGACCC TGTCTATGGT ATCTACTATG TAGACCACAT CAACAGGAAG 
ACACAATATG AGAACCCCGT GCTGGAAGCC AAACGGAAGA GGCAGCTTGA GCAGCAGCAG 
CCGCAGCCGC AGCCAGAAGA ATGGACAGAA GACCACTCAG CCCTTGTGCC TCCTGTTATT 
CCAAGCCACC CCCCAAGCAA TCTGGAGCCA GCCAGAGAAG CTCCACTTCA GGGCAAACCC 
TTTTTTACAC GAAACCGTTC TGAGTTAAAA GGCAAGTTCA TTCACACGAA ACTGCGGAAA 
AGCAGTCGTG GCTTTGGCTT CACAGTTGTT GGAGGGGATG AACCTGACGA GTTTCTCCAG 
ATCAAGAGCT TGGTCCTAGA TGGGCCTGCC GCATTGGACG GCAAGATGGA AACAGGGGAC 
GTCATCGTCA GTGTGAATGA CGCCTGCGTT TTGGGACACA CGCACGCTCA AGTTGTGAAA 
ATCTTCCAGT CCATTCCCAT TGGTGCCAGT GTGGACCTTG AGCTCTGCCG AGGTTATCCA 
TTGCCTTTTG ACCCAGATGA CCCCAATACA AGTTTGGTGA CCTCCGTGGC CATTTTGGAT 
AAAGAACCAA TAATTGTGAA TGGACAAGAG ACCTATGATT CGCCAGCCAG CCACAGCAGC 
AAAACAGGCA AAGTCAACAG CGTGAAGGAT GCCAGGCCCA GCAGCCCCGC TGATGTGGCT 
TCAAGTGGTT CCCATGGTTA CCCCAATGAT ACTGTCTCTT TGGCTTCCTC CATAGCCACT 
CAGCCGGAAC TTATAACTGT TCATATAGTC AAAGGGCCAA TGGGCTTTGG TTTTACTATC 
GCAGACAGTC CTGGTGGTGG CGGCCAAAGA GTGAAACAGA TTGTTGACAG TCCAAGGTGC 
CGAGGCCTGA AAGAAGGGGA TCTTATAGTG GAAGTTAATA AGAAGAACGT GCAAGCTCTC 
ACTCACAACC AGGTAGTGGA TATGCTGATC GAATGTCCAA AGGGAAGTGA GGTCACGCTG 
TTGGTGCAAA GAGGAGGGCT GCCAGTTCCA AAGAAGAGCC CAAAGTCGCA ACCACTGGAA 
AGAAAAGACA GCCAGAATAG TTCTCAGCAC AGTGTTTGCA GCCACCGAAG CCTGCACACG 
GCATCCCCAA GCCACGGCAC ACAGGTGCTT ACTGAGTACC CACCTGCAGA GGCCACGGCT 
CCAGATCAGA CCGACAACTC TGGGCAGAAA AAACCAGATC CGTTTAAAAT CTGGGCCCAG 
TCCAGGAGTA TGTATGAAAA CCGACTTCCA GATTACCAGG AACAGGACAT CTTCCTATGG 
AGGAAAGAAA CTGGATTCGG ATTTAGGATT CTGGGTGGAA ATGAACCAGG GGAGCCTATT 
TATATTGGTC ACATTGTACC ACTGGGTGCT GCTGACACGG ACGGCCGCCT GAGGTCTGGA 
GACGAATTAA TCTGTGTCGA TGGGACACCA GTAATTGGAA AGTCACACCA GCTTGTGGTC 
CAGCTTATGC AACAGGCTGC CAAGCAAGGC CACGTCAATC TCACAGTACG GCGTAAAGTG 
GTGTTTGCTG CCCCCAAAGC AGAGAACGAG GTGCCGTCAC CAGCGTCGTC TCATCACAGC 
AGCAACCAGC CGGCCTCCCT GATTGAAGAG AAGCGCACCC CGCAGGGAAG CCAGAATTCT 
CTCAACACCG TGAGCTCGGG GAGTGGCAGC ACCAGTGGCA TCGGCAGCGG CGGGGGCGGT 
GGCAGCGGCC TGGTGAGCAC CGTGGTGCAG CCCTATGACG TGGACATCCG CCGTGGGGAG 
AACGAGGGCT TCGGCTTCGT CATCGTGTCT TCCGTGAGCA GGCCTGAAGC AGGCACGACT 
TTTGGTCGGA TTATTGAGGG GAGCCCTGCT GACCGCTGTG GCAAGCTGAA AGTGGGAGAC 
CGGATCTTGG CTGTAAATGG ATGTTCCATC ACCAACAAAT CCCATTCAGA CATTGTCAAC 
TTAATCAAGG AAGCGGGAAA CACAGTTACC CTCCGCATCA TTCCTGGGGA TGAGTCCTCA 
AATGCTACCT TGCTGACCAA TGCAGAGAAG ATCGCCACCA TCACCACCAC ACACACGCCT 
TCTCAGCAAG GGACCCAAGA CACAAGGAAC ACCACCAAAC CAAAGCAGGA ATGTCAGTTT 
GAGTTCAAAG CACCCCAGGC AACACAGGAG CAAGATTTTT ACACTGTGGA ACTGGAAAGA 
GGAGCCAAGG GATTTGGCTT TAGTCTTCGA GGAGGCCGAG AGTATAACAT GGACCTCTAT 
GTTCTGCGGT TAGCAGAGGA TGGTCCTGCG GAAAGGTGTG GAAAGATGAG GATTGGTGAT 
GAAATTCTGG AGATCAACGG CGAGACTACC AAGAACATGA AGCATTCTCG GGCTATAGAA 
CTGATTAAGA ATGGTGGCCG CAGAGTACGT CTGCTTCTGA AGCGGGGAGA TGGCTCGGTG 
CCAGAATATG ACCCCAGCAG CGACCGGCAC GGCCCCCCCA CCGGTCCCCA AGGTGTTCCG 
GAAATGAGAA CCGGGCCATC CGACCGCCAG CAGCATCCAT CATTGGAGTC CAGTTATCCA 
CCTGATCTTC ACAAATCATT ACAACTTGGG GAAAAGCGGG CACACGTCAA AGACCCAAAA 
GGCAGCAGAG AACATAGCAG ACAGCCCAGT GAACACCACA CGTGGAATGG AACTTCTAAA 
AAGCCCGACA CTGGGGCATG CCGACCCAAG GACCGGGCAC GAGAGGGACG AAGAGAAACA 
CCGCCAGAGC GGGTGGTGGC CAATGGACCC AAGCGGAGGT CTCCAGAGAA GCGGCGGGAA 
GGTATCCGGA GTGCTGACAA TACTTTGGAA AGGAGGGAGA AGCATGAGAA GAGAAGAGAG 
GTTTCTCCTG AGAGGAGGCG GGAACGGTCA CCGACCCGCA AGAGAGACAG CTCGCCCAGC 
AGTCGGAGAA GGTCTCTGGA AAGACTCTTG GATCAGAGAA GGTCTCCAGA GCGAAGGAGA 
GCCGGCTCCC CTGAAAGGAG AGCGAAGTCC ACCGACCGGA GGCGAGCACA GTCTCCGGAG 
AGAAGGAGAG AGCGGTCACT GGAGAAGAGG AACAGAGAGG ACAAAGTCAG CCACCGAGAG 
AGGGAAGAGG CGAGTCTGAA ACAGGATGCC AGCAGGAGTT CCAGACATCC CCCAGAGCAG 
AGACGGCGAC CTTACAAAGA ATGTAGCACT GACCTCAGCA TCTAA

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

MAGI1 ( XM_023547557.1 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_023403325.1 Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.

Price & Availability↑

CloneID	OLo98868
Clone ID Related Accession (Same CDS sequence)	XM_023547557.1
Accession Version	XM_023547557.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4041bp) 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	1515945600000
Organism	Loxodonta africana(African savanna elephant)
Product	membrane-associated guanylate kinase, WW and PDZ domain-containing protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573432.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Loxodonta africana 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##

ATGTTGTCTT TTATGTTTCC TGCAGGAGGC AGGCTGAACA AGGACCTACG ACATTTTCTC 
AATCAACGCT TCCAGAAAGG ATCTCCTGAT CATGAGCTCC AGCAGACCAT AAGGGATAAC 
CTTTACCGCC ATGCTGTGCC TTGCACAACC CGATCTCCAA GAGAGGGAGA AGTGCCTGGT 
GTGGATTATA ACTTTCTGAC TGTGAAGGAG TTCTTGGACC TGGAACAGAG CGGAACTCTC 
CTGGAAGTCG GCACCTACGA AGGAAACTAT TATGGGACAC CCAGACCTCC TAGCCAGCCA 
GTCAGTGGGA AAGTGACCAG GACGGATGCC TCGCAAAGCC TTCAGTCTGG CTCCAAGCAG 
TCAGCCCCGA AACGAACCAA GTCTTACAAT GACATGCACA ATGCTGGCGT AGTCCCTGTG 
GAGAACGAGG AGGAGGATGA CGCTCCTGAA ATGAACAGTA GCTTTACAGC CGATTCTGGT 
GACCAAGACG AGCACACGCT CCAAGAGACA ACACTACTGC CTGTGAATAG TGACATCGTT 
GCTGCTCCCA TCACGGACCC TTCTCAGAAG TTCCCTCAAT ACCTACCTCT TTCTGCAGAG 
GATAATTTAG GTCCTCTACC TGAAAACTGG GAGATGGCCT ATACGGAAAA TGGAGAAGTC 
TATTTTATAG ACCATAACAC TAAAACAACA TCTTGGCTAG ATCCTCGGTG CCTGAACAAG 
CAGCAGAAGC CTCTGGAGGA GTGTGAAGAC GATGAAGGGG TACACACGGA GGAGCTGGAC 
AGTGAACTAG AACTGCCTGC TGGATGGGAA AAGATTGAAG ACCCTGTCTA TGGTATCTAC 
TATGTAGACC ACATCAACAG GAAGACACAA TATGAGAACC CCGTGCTGGA AGCCAAACGG 
AAGAGGCAGC TTGAGCAGCA GCAGCCGCAG CCGCAGCCAG AAGGTCGGCT CCCAGAATGG 
ACAGAAGACC ACTCAGCCCT TGTGCCTCCT GTTATTCCAA GCCACCCCCC AAGCAATCTG 
GAGCCAGCCA GAGAAGCTCC ACTTCAGGGC AAACCCTTTT TTACACGAAA CCGTTCTGAG 
TTAAAAGGCA AGTTCATTCA CACGAAACTG CGGAAAAGCA GTCGTGGCTT TGGCTTCACA 
GTTGTTGGAG GGGATGAACC TGACGAGTTT CTCCAGATCA AGAGCTTGGT CCTAGATGGG 
CCTGCCGCAT TGGACGGCAA GATGGAAACA GGGGACGTCA TCGTCAGTGT GAATGACGCC 
TGCGTTTTGG GACACACGCA CGCTCAAGTT GTGAAAATCT TCCAGTCCAT TCCCATTGGT 
GCCAGTGTGG ACCTTGAGCT CTGCCGAGGT TATCCATTGC CTTTTGACCC AGATGACCCC 
AATACAAGTT TGGTGACCTC CGTGGCCATT TTGGATAAAG AACCAATAAT TGTGAATGGA 
CAAGAGACCT ATGATTCGCC AGCCAGCCAC AGCAGCAAAA CAGGCAAAGT CAACAGCGTG 
AAGGATGCCA GGCCCAGCAG CCCCGCTGAT GTGGCTTCAA GTGGTTCCCA TGGTTACCCC 
AATGATACTG TCTCTTTGGC TTCCTCCATA GCCACTCAGC CGGAACTTAT AACTGTTCAT 
ATAGTCAAAG GGCCAATGGG CTTTGGTTTT ACTATCGCAG ACAGTCCTGG TGGTGGCGGC 
CAAAGAGTGA AACAGATTGT TGACAGTCCA AGGTGCCGAG GCCTGAAAGA AGGGGATCTT 
ATAGTGGAAG TTAATAAGAA GAACGTGCAA GCTCTCACTC ACAACCAGGT AGTGGATATG 
CTGATCGAAT GTCCAAAGGG AAGTGAGGTC ACGCTGTTGG TGCAAAGAGG AGGGCTGCCA 
GTTCCAAAGA AGAGCCCAAA GTCGCAACCA CTGGAAAGAA AAGACAGCCA GAATAGTTCT 
CAGCACAGTG TTTGCAGCCA CCGAAGCCTG CACACGGCAT CCCCAAGCCA CGGCACACAG 
GTGCTTACTG AGTACCCACC TGCAGAGGCC ACGGCTCCAG ATCAGACCGA CAACTCTGGG 
CAGAAAAAAC CAGATCCGTT TAAAATCTGG GCCCAGTCCA GGAGTATGTA TGAAAACCGA 
CTTCCAGATT ACCAGGAACA GGACATCTTC CTATGGAGGA AAGAAACTGG ATTCGGATTT 
AGGATTCTGG GTGGAAATGA ACCAGGGGAG CCTATTTATA TTGGTCACAT TGTACCACTG 
GGTGCTGCTG ACACGGACGG CCGCCTGAGG TCTGGAGACG AATTAATCTG TGTCGATGGG 
ACACCAGTAA TTGGAAAGTC ACACCAGCTT GTGGTCCAGC TTATGCAACA GGCTGCCAAG 
CAAGGCCACG TCAATCTCAC AGTACGGCGT AAAGTGGTGT TTGCTGCCCC CAAAGCAGAG 
AACGAGGTGC CGTCACCAGC GTCGTCTCAT CACAGCAGCA ACCAGCCGGC CTCCCTGATT 
GAAGAGAAGC GCACCCCGCA GGGAAGCCAG AATTCTCTCA ACACCGTGAG CTCGGGGAGT 
GGCAGCACCA GTGGCATCGG CAGCGGCGGG GGCGGTGGCA GCGGCCTGGT GAGCACCGTG 
GTGCAGCCCT ATGACGTGGA CATCCGCCGT GGGGAGAACG AGGGCTTCGG CTTCGTCATC 
GTGTCTTCCG TGAGCAGGCC TGAAGCAGGC ACGACTTTTG GTCGGATTAT TGAGGGGAGC 
CCTGCTGACC GCTGTGGCAA GCTGAAAGTG GGAGACCGGA TCTTGGCTGT AAATGGATGT 
TCCATCACCA ACAAATCCCA TTCAGACATT GTCAACTTAA TCAAGGAAGC GGGAAACACA 
GTTACCCTCC GCATCATTCC TGGGGATGAG TCCTCAAATG CTACCTTGCT GACCAATGCA 
GAGAAGATCG CCACCATCAC CACCACACAC ACGCCTTCTC AGCAAGGGAC CCAAGACACA 
AGGAACACCA CCAAACCAAA GCAGGAATGT CAGTTTGAGT TCAAAGCACC CCAGGCAACA 
CAGGAGCAAG ATTTTTACAC TGTGGAACTG GAAAGAGGAG CCAAGGGATT TGGCTTTAGT 
CTTCGAGGAG GCCGAGAGTA TAACATGGAC CTCTATGTTC TGCGGTTAGC AGAGGATGGT 
CCTGCGGAAA GGTGTGGAAA GATGAGGATT GGTGATGAAA TTCTGGAGAT CAACGGCGAG 
ACTACCAAGA ACATGAAGCA TTCTCGGGCT ATAGAACTGA TTAAGAATGG TGGCCGCAGA 
GTACGTCTGC TTCTGAAGCG GGGAGATGGC TCGGTGCCAG AATATGACCC CAGCAGCGAC 
CGGCACGGCC CCCCCACCGG TCCCCAAGGT GTTCCGGAAA TGAGAACCGG GCCATCCGAC 
CGCCAGCAGC ATCCATCATT GGAGTCCAGT TATCCACCTG ATCTTCACAA ATCATTACAA 
CTTGGGGAAA AGCGGGCACA CGTCAAAGAC CCAAAAGGCA GCAGAGAACA TAGCAGACAG 
CCCAGTGAAC ACCACACGTG GAATGGAACT TCTAAAAAGC CCGACACTGG GGCATGCCGA 
CCCAAGGACC GGGCACGAGA GGGACGAAGA GAAACACCGC CAGAGCGGGT GGTGGCCAAT 
GGACCCAAGC GGAGGTCTCC AGAGAAGCGG CGGGAAGGTA TCCGGAGTGC TGACAATACT 
TTGGAAAGGA GGGAGAAGCA TGAGAAGAGA AGAGAGGTTT CTCCTGAGAG GAGGCGGGAA 
CGGTCACCGA CCCGCAAGAG AGACAGCTCG CCCAGCAGTC GGAGAAGGTC TCTGGAAAGA 
CTCTTGGATC AGAGAAGGTC TCCAGAGCGA AGGAGAGCCG GCTCCCCTGA AAGGAGAGCG 
AAGTCCACCG ACCGGAGGCG AGCACAGTCT CCGGAGAGAA GGAGAGAGCG GTCACTGGAG 
AAGAGGAACA GAGAGGACAA AGTCAGCCAC CGAGAGAGGG AAGAGGCGAG TCTGAAACAG 
GATGCCAGCA GGAGTTCCAG ACATCCCCCA GAGCAGAGAC GGCGACCTTA CAAAGAATGT 
AGCACTGACC TCAGCATCTA A

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

RefSeq	XP_023403325.1
CDS	280..4320
Translation	MLSFMFPAGGRLNKDLRHFLNQRFQKGSPDHELQQTIRDNLYRHAVPCTTRSPREGEVPGVDYNFLTVKEFLDLEQSGTLLEVGTYEGNYYGTPRPPSQPVSGKVTRTDASQSLQSGSKQSAPKRTKSYNDMHNAGVVPVENEEEDDAPEMNSSFTADSGDQDEHTLQETTLLPVNSDIVAAPITDPSQKFPQYLPLSAEDNLGPLPENWEMAYTENGEVYFIDHNTKTTSWLDPRCLNKQQKPLEECEDDEGVHTEELDSELELPAGWEKIEDPVYGIYYVDHINRKTQYENPVLEAKRKRQLEQQQPQPQPEGRLPEWTEDHSALVPPVIPSHPPSNLEPAREAPLQGKPFFTRNRSELKGKFIHTKLRKSSRGFGFTVVGGDEPDEFLQIKSLVLDGPAALDGKMETGDVIVSVNDACVLGHTHAQVVKIFQSIPIGASVDLELCRGYPLPFDPDDPNTSLVTSVAILDKEPIIVNGQETYDSPASHSSKTGKVNSVKDARPSSPADVASSGSHGYPNDTVSLASSIATQPELITVHIVKGPMGFGFTIADSPGGGGQRVKQIVDSPRCRGLKEGDLIVEVNKKNVQALTHNQVVDMLIECPKGSEVTLLVQRGGLPVPKKSPKSQPLERKDSQNSSQHSVCSHRSLHTASPSHGTQVLTEYPPAEATAPDQTDNSGQKKPDPFKIWAQSRSMYENRLPDYQEQDIFLWRKETGFGFRILGGNEPGEPIYIGHIVPLGAADTDGRLRSGDELICVDGTPVIGKSHQLVVQLMQQAAKQGHVNLTVRRKVVFAAPKAENEVPSPASSHHSSNQPASLIEEKRTPQGSQNSLNTVSSGSGSTSGIGSGGGGGSGLVSTVVQPYDVDIRRGENEGFGFVIVSSVSRPEAGTTFGRIIEGSPADRCGKLKVGDRILAVNGCSITNKSHSDIVNLIKEAGNTVTLRIIPGDESSNATLLTNAEKIATITTTHTPSQQGTQDTRNTTKPKQECQFEFKAPQATQEQDFYTVELERGAKGFGFSLRGGREYNMDLYVLRLAEDGPAERCGKMRIGDEILEINGETTKNMKHSRAIELIKNGGRRVRLLLKRGDGSVPEYDPSSDRHGPPTGPQGVPEMRTGPSDRQQHPSLESSYPPDLHKSLQLGEKRAHVKDPKGSREHSRQPSEHHTWNGTSKKPDTGACRPKDRAREGRRETPPERVVANGPKRRSPEKRREGIRSADNTLERREKHEKRREVSPERRRERSPTRKRDSSPSSRRRSLERLLDQRRSPERRRAGSPERRAKSTDRRRAQSPERRRERSLEKRNREDKVSHREREEASLKQDASRSSRHPPEQRRRPYKECSTDLSI

Target ORF information:

RefSeq Version	XM_023547557.1
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana membrane associated guanylate kinase, WW and PDZ domain containing 1 (MAGI1), mRNA.

Target ORF information:

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

XM_023547557.1

ORF Insert Sequence:

ATGTTGTCTT TTATGTTTCC TGCAGGAGGC AGGCTGAACA AGGACCTACG ACATTTTCTC 
AATCAACGCT TCCAGAAAGG ATCTCCTGAT CATGAGCTCC AGCAGACCAT AAGGGATAAC 
CTTTACCGCC ATGCTGTGCC TTGCACAACC CGATCTCCAA GAGAGGGAGA AGTGCCTGGT 
GTGGATTATA ACTTTCTGAC TGTGAAGGAG TTCTTGGACC TGGAACAGAG CGGAACTCTC 
CTGGAAGTCG GCACCTACGA AGGAAACTAT TATGGGACAC CCAGACCTCC TAGCCAGCCA 
GTCAGTGGGA AAGTGACCAG GACGGATGCC TCGCAAAGCC TTCAGTCTGG CTCCAAGCAG 
TCAGCCCCGA AACGAACCAA GTCTTACAAT GACATGCACA ATGCTGGCGT AGTCCCTGTG 
GAGAACGAGG AGGAGGATGA CGCTCCTGAA ATGAACAGTA GCTTTACAGC CGATTCTGGT 
GACCAAGACG AGCACACGCT CCAAGAGACA ACACTACTGC CTGTGAATAG TGACATCGTT 
GCTGCTCCCA TCACGGACCC TTCTCAGAAG TTCCCTCAAT ACCTACCTCT TTCTGCAGAG 
GATAATTTAG GTCCTCTACC TGAAAACTGG GAGATGGCCT ATACGGAAAA TGGAGAAGTC 
TATTTTATAG ACCATAACAC TAAAACAACA TCTTGGCTAG ATCCTCGGTG CCTGAACAAG 
CAGCAGAAGC CTCTGGAGGA GTGTGAAGAC GATGAAGGGG TACACACGGA GGAGCTGGAC 
AGTGAACTAG AACTGCCTGC TGGATGGGAA AAGATTGAAG ACCCTGTCTA TGGTATCTAC 
TATGTAGACC ACATCAACAG GAAGACACAA TATGAGAACC CCGTGCTGGA AGCCAAACGG 
AAGAGGCAGC TTGAGCAGCA GCAGCCGCAG CCGCAGCCAG AAGGTCGGCT CCCAGAATGG 
ACAGAAGACC ACTCAGCCCT TGTGCCTCCT GTTATTCCAA GCCACCCCCC AAGCAATCTG 
GAGCCAGCCA GAGAAGCTCC ACTTCAGGGC AAACCCTTTT TTACACGAAA CCGTTCTGAG 
TTAAAAGGCA AGTTCATTCA CACGAAACTG CGGAAAAGCA GTCGTGGCTT TGGCTTCACA 
GTTGTTGGAG GGGATGAACC TGACGAGTTT CTCCAGATCA AGAGCTTGGT CCTAGATGGG 
CCTGCCGCAT TGGACGGCAA GATGGAAACA GGGGACGTCA TCGTCAGTGT GAATGACGCC 
TGCGTTTTGG GACACACGCA CGCTCAAGTT GTGAAAATCT TCCAGTCCAT TCCCATTGGT 
GCCAGTGTGG ACCTTGAGCT CTGCCGAGGT TATCCATTGC CTTTTGACCC AGATGACCCC 
AATACAAGTT TGGTGACCTC CGTGGCCATT TTGGATAAAG AACCAATAAT TGTGAATGGA 
CAAGAGACCT ATGATTCGCC AGCCAGCCAC AGCAGCAAAA CAGGCAAAGT CAACAGCGTG 
AAGGATGCCA GGCCCAGCAG CCCCGCTGAT GTGGCTTCAA GTGGTTCCCA TGGTTACCCC 
AATGATACTG TCTCTTTGGC TTCCTCCATA GCCACTCAGC CGGAACTTAT AACTGTTCAT 
ATAGTCAAAG GGCCAATGGG CTTTGGTTTT ACTATCGCAG ACAGTCCTGG TGGTGGCGGC 
CAAAGAGTGA AACAGATTGT TGACAGTCCA AGGTGCCGAG GCCTGAAAGA AGGGGATCTT 
ATAGTGGAAG TTAATAAGAA GAACGTGCAA GCTCTCACTC ACAACCAGGT AGTGGATATG 
CTGATCGAAT GTCCAAAGGG AAGTGAGGTC ACGCTGTTGG TGCAAAGAGG AGGGCTGCCA 
GTTCCAAAGA AGAGCCCAAA GTCGCAACCA CTGGAAAGAA AAGACAGCCA GAATAGTTCT 
CAGCACAGTG TTTGCAGCCA CCGAAGCCTG CACACGGCAT CCCCAAGCCA CGGCACACAG 
GTGCTTACTG AGTACCCACC TGCAGAGGCC ACGGCTCCAG ATCAGACCGA CAACTCTGGG 
CAGAAAAAAC CAGATCCGTT TAAAATCTGG GCCCAGTCCA GGAGTATGTA TGAAAACCGA 
CTTCCAGATT ACCAGGAACA GGACATCTTC CTATGGAGGA AAGAAACTGG ATTCGGATTT 
AGGATTCTGG GTGGAAATGA ACCAGGGGAG CCTATTTATA TTGGTCACAT TGTACCACTG 
GGTGCTGCTG ACACGGACGG CCGCCTGAGG TCTGGAGACG AATTAATCTG TGTCGATGGG 
ACACCAGTAA TTGGAAAGTC ACACCAGCTT GTGGTCCAGC TTATGCAACA GGCTGCCAAG 
CAAGGCCACG TCAATCTCAC AGTACGGCGT AAAGTGGTGT TTGCTGCCCC CAAAGCAGAG 
AACGAGGTGC CGTCACCAGC GTCGTCTCAT CACAGCAGCA ACCAGCCGGC CTCCCTGATT 
GAAGAGAAGC GCACCCCGCA GGGAAGCCAG AATTCTCTCA ACACCGTGAG CTCGGGGAGT 
GGCAGCACCA GTGGCATCGG CAGCGGCGGG GGCGGTGGCA GCGGCCTGGT GAGCACCGTG 
GTGCAGCCCT ATGACGTGGA CATCCGCCGT GGGGAGAACG AGGGCTTCGG CTTCGTCATC 
GTGTCTTCCG TGAGCAGGCC TGAAGCAGGC ACGACTTTTG GTCGGATTAT TGAGGGGAGC 
CCTGCTGACC GCTGTGGCAA GCTGAAAGTG GGAGACCGGA TCTTGGCTGT AAATGGATGT 
TCCATCACCA ACAAATCCCA TTCAGACATT GTCAACTTAA TCAAGGAAGC GGGAAACACA 
GTTACCCTCC GCATCATTCC TGGGGATGAG TCCTCAAATG CTACCTTGCT GACCAATGCA 
GAGAAGATCG CCACCATCAC CACCACACAC ACGCCTTCTC AGCAAGGGAC CCAAGACACA 
AGGAACACCA CCAAACCAAA GCAGGAATGT CAGTTTGAGT TCAAAGCACC CCAGGCAACA 
CAGGAGCAAG ATTTTTACAC TGTGGAACTG GAAAGAGGAG CCAAGGGATT TGGCTTTAGT 
CTTCGAGGAG GCCGAGAGTA TAACATGGAC CTCTATGTTC TGCGGTTAGC AGAGGATGGT 
CCTGCGGAAA GGTGTGGAAA GATGAGGATT GGTGATGAAA TTCTGGAGAT CAACGGCGAG 
ACTACCAAGA ACATGAAGCA TTCTCGGGCT ATAGAACTGA TTAAGAATGG TGGCCGCAGA 
GTACGTCTGC TTCTGAAGCG GGGAGATGGC TCGGTGCCAG AATATGACCC CAGCAGCGAC 
CGGCACGGCC CCCCCACCGG TCCCCAAGGT GTTCCGGAAA TGAGAACCGG GCCATCCGAC 
CGCCAGCAGC ATCCATCATT GGAGTCCAGT TATCCACCTG ATCTTCACAA ATCATTACAA 
CTTGGGGAAA AGCGGGCACA CGTCAAAGAC CCAAAAGGCA GCAGAGAACA TAGCAGACAG 
CCCAGTGAAC ACCACACGTG GAATGGAACT TCTAAAAAGC CCGACACTGG GGCATGCCGA 
CCCAAGGACC GGGCACGAGA GGGACGAAGA GAAACACCGC CAGAGCGGGT GGTGGCCAAT 
GGACCCAAGC GGAGGTCTCC AGAGAAGCGG CGGGAAGGTA TCCGGAGTGC TGACAATACT 
TTGGAAAGGA GGGAGAAGCA TGAGAAGAGA AGAGAGGTTT CTCCTGAGAG GAGGCGGGAA 
CGGTCACCGA CCCGCAAGAG AGACAGCTCG CCCAGCAGTC GGAGAAGGTC TCTGGAAAGA 
CTCTTGGATC AGAGAAGGTC TCCAGAGCGA AGGAGAGCCG GCTCCCCTGA AAGGAGAGCG 
AAGTCCACCG ACCGGAGGCG AGCACAGTCT CCGGAGAGAA GGAGAGAGCG GTCACTGGAG 
AAGAGGAACA GAGAGGACAA AGTCAGCCAC CGAGAGAGGG AAGAGGCGAG TCTGAAACAG 
GATGCCAGCA GGAGTTCCAG ACATCCCCCA GAGCAGAGAC GGCGACCTTA CAAAGAATGT 
AGCACTGACC TCAGCATCTA A

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

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MAGI1 cDNA ORF clone, Loxodonta africana(African savanna elephant)

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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