KMT2E cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene
Clones
gRNAs

Summary

Gene Symbol	KMT2E
Entrez Gene ID	100018480
Full Name	lysine methyltransferase 2E
Gene Type	protein-coding
Organism	Monodelphis domestica(gray short-tailed opossum)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007504104.2	XP_007504166.1	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase 2E

Pathways from BioSystems
Gene Ontology

The following KMT2E gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KMT2E 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
OMc33237	XM_007504104.2 Latest version!	Monodelphis domestica lysine methyltransferase 2E (KMT2E), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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)

KMT2E ( XM_007504104.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007504166.1 Monodelphis domestica lysine methyltransferase 2E (KMT2E), mRNA.

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CloneID	OMc33237
Clone ID Related Accession (Same CDS sequence)	XM_007504104.2
Accession Version	XM_007504104.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5175bp) 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	1461600000000
Organism	Monodelphis domestica(gray short-tailed opossum)
Product	LOW QUALITY PROTEIN: histone-lysine N-methyltransferase 2E
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008808.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007504104.1. ##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## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGAGCATAG TGATCCCATT GGGGGTTGAT ACAGCAGAAA CTTCATATTT GGAAATGGCT 
GCAGGCTCAG AACCAGAATC CGTAGAAGCT AGCCCTGTGG TAGTTGAGAA ATCCAACAGT 
TATCCACATC AGTTATATAC CAGCAGCTCG CATCATTCAC ACAGTTATAT TGGTTTGCCC 
TATGCGGACC ACAATTATGG TGCTCGTCCT CCTCCAACAC CTCCAGCTTC TCCTCCTCCA 
TCAGTTCTTA TTAGCAAAAA TGAAGTAGGC ATATTTACTA CTCCTAATTT TGATGAGACC 
TCTAGTGCTA CCACCATCAG CACATCAGAG GATGGAAGCT ATGGTACTGA TGTAACCAGA 
TGCATTTGTG GTTTTACACA TGATGATGGC TACATGATCT GTTGTGACAA ATGCAGTGTT 
TGGCAACATA TTGACTGCAT GGGGATTGAT AGGCAGCATA TTCCTGATAT ATATCTGTGT 
GAACGTTGTC AGCCTAGGAG TTTGGATAAA GAAAGGGCTG TGCAGTTACA ACGCCGGAAA 
AGAGAAAATA TGTCAGATGG TGACACCAGT GCAACAGAAA GTGGTGATGA AGTTCCTGTG 
GAATTGTATA CTGCATTTCA ACATACACCA ACAACAATAA CTTTAACTGC TGCGAGAGTT 
ACCAAGGTCA ATGATAAGAA AAGGAAAAAA AGTGGAGAAA AAGAACAAAA TATTTCAAAA 
TGCAAAAAAT CTTTTCGTGA AGGATCTAGA AAATCATCAA GAGTTAAGGG TTCAGCTCCA 
GAAATTGATC CTTCTGATGG GTCAAATTTT GGATGGGAAA CTAAAATCAA AGCTTGGATG 
GATCGTTATG AGGAAGCAAA CAATAACCAG TACAGTGAAG GTGTCCAAAG GGAGGCTCAA 
AGAATAGCTT TACGATTGGG CAGTGGAAAT GATAAGAAAG AAATGAATAA CAAATCAGAA 
TCAAATCCCA GCAATCTGAT CTTCAAGCCT CCTGTAGAGA GCTACATACA AAAGAATAAG 
AAAATCCTGA AATCTGCTAA AGATTTGCCT CCTGATGCCC TTATTATTGA ATACAGAGGG 
AAGTTCATGC TAAGAGAACA GTTTGAAGCA AATGGATATT TCTTTAAGAG GCCATATCCT 
TTTGTTCTAT TCTACTCTAA ATTTCATGGG TTAGAAATGT GTGTTGATGC AAGGACTTTT 
GGGAATGAGG CTCGATTCAT TAGACGTTCT TGTACACCAA ATGCAGAGGT GAGGCATATC 
ATTGAAGATG GAACTATTCA TCTGTATATT TACTCCATCC AAAGCATTCC AAAGGGAACA 
GAAATTACTA TTGGTTTTGA TTTTGACTAT GGAAATTGCA AGTATAAGGT GGATTGTGCA 
TGCCTCAAAG AAAATCCTGA ATGTCCAGTT TTAAAACGGT GTTCTGAACC AACGGAAAAC 
ATCAATAGCG GTTATGAAAC CAGAAGGAAA AAAGGGAAAA AAGAGAAAGA TATTTCAAAA 
GAAAAAGAAA CACAAAATCA AAATATTACT CTGGATTGTG AAAGTGCTAC CAACAAAATG 
AGGAGCCCAG ATAATAAACA GAGAAAACTT TCTCCACTGA GACTATCTAT TTCAAATAAT 
CAGGAGCCAG ATTTTATTGA TGATATAGAA GAAAAAACTG CTATTAGCAA TGAAGTAGAA 
ATGGAATCAG AGGAGCAGAT TGCAGAAAGG AAAAGGAAGA TGACAAGAGA AGAGAGGAAA 
ATGGAAGCTA TCCTCCAAGC CTTTGCTAGA CTTGAGAAGA GAGAGAAACG AAGGGAACAA 
GCTTTGGAAC GAATCAGCAC AGCAAAAACA GAAATTAAAA CAGAATGTAA AGATACACAG 
ATGGTCAATG ATGCTGAAGT TGTTCAGGAT ACCACAAAAG AAGAAACTGC CAGCAAGCCA 
ACCCCTGCCA AAGTAAATAG AACTAAGCAG AGAAAAAGTT TTTCTAGGAG TAGAACTCAC 
ATTGGACAGC AGCGCCGGCG ACACCGAACT GTCAGCATGT GTTCAGATAT TCAGCCATCT 
TCTCCTGATG TTGAAGTTAC TTCACAACCA AATGAACCTG AGAACACTGC ACTTGTAGCA 
GAGCCTGAAA CTGAAACTGC CATAGCAGAA ATAGTTACCG AGACTGAAGT GCCAGCACTT 
AATAAATGTC CTACAAAGTA CCCCAAAACA AAAAAGCACT TAGTCAATGA ATGGTTAAGT 
GAGAAGAATG AGAAGACAGG AAAATCTTCA GAGAGCCTTT CAGAAAAGCC TCTGCGAATA 
ACTACAGATC CCGAAGTATT GGCTACACAG CTCAACTCTT TACCAGGCCT CACGTATAGT 
CCCCATGTGT ATTCTACCCC GAAGCACTAT ATTAGATTTA CTTCACCATT CCTTTCAGAA 
AAAAGGAGAA GAAAAGAACC TACTGAGAAT AGCTCTGGCT CTTGCAAAAA GCGATGGTTG 
AAGCAAGCAT TAGAAGAAGA AAATTCTGCA GTTTTAGATA AATTTAGTTC ATTATGCCAA 
GAAAGATCTA GAAGCCCTGC TGTCAATGGT GAAAATAAAA GTCCGCTGTT ACTCAATGAT 
AGTTGTTCAC TTCCAGATTT AACTACACCA CTAAAAAAAC GAAGACTATA TCAGTTATTG 
GATTCTGCTT ACTCAGAAAC CTCCACACCT ACTCCTTCTC CATATGCTAC GCCAACTCAT 
GTGGATGTCT CTGCTACAGA CCCATCATTA TTTGCTACTC CTCCTAGGAC AAAATCAGAA 
GATGAAACTT GCAGAAATGG TTATAAACCC ATATATTCAC CAGTTACTCC AGTAACTCCT 
TGTATACAAG GAAATGCCAT GCACTTTGAG AATATTTCCT CCCCAGAAAG TTCGCCAGAA 
ATTAAAAGAC GAGTTTATAC TCAGGAGGGC TATGAGAGAA CACCAACTAT GCTAACAGTG 
GGTCCTTTTA GAAATTCTAA TCTTTCAGAA ATGGGCCTGC AAGAAATAAA GACCATTGGA 
TATTCCAGCC CAAGAAATAG AACTGATGTA ACTAGGCAGT GCACTGGGGA CAAGGAATCT 
GTATCAGACT TTCAGATTGG ACTTGATGTT GTGGAGCACA CTGGCATTCC TAAAACCATG 
GAAACCCCTT CACAGGATAG GACTGACTCT AACAGCCAGC TAGAACCTGC TCCCTGTGGT 
GGAGGCAGAG TTTACTCTTC TTGGGTTAAA AGCCCTGAAA GAACAGGTGT CAACTTCTCC 
TCAGTAAATT CTAATTTAAG GGACTTAACA CCTTCCCATC AGCTGGAGGT TGGAGGTGGC 
TTCCGAGTAA GTGAGTCAAA GTGCCTCCTG CAAGATGACT CCAGAGGTGT GTTCATGGAG 
ACCTCCGTGT TCTGTTCTTC AGAAGATGGG CTCCCCCCTG GCTTTGGAAG GGCAGTGAAT 
GATAGTGCAA TCGAAGGGAG TTGTACACCC CAGAATCCAC CACAAAAGAA AAAGGTGTCC 
TTATTAGAAT ATCGGAAGAG ACAGCGGGAA GCTAGGAAAA GTGGCTCCAA GGCTGACAAT 
TTTTCTTTAG TTACGGTGTC ACCTCACACT ACTATGGGTG GAAACATGAG CAACAGCAGC 
AATCCAAGTG ATGGTTGTAG CAACAGTGGT GAAAATGGGG AGCAAGTAGA CCACACTACT 
AGCCTACCTT TACCTTTACC AACTGCTGTT TATAATGCTA CTTCAGAAGA AATCAGCAAT 
ACCTGCCCAG TAAAAGAAAC TTCTGCTGGT GAAAAAAATG AACCAGAAGT TCAGTGGACT 
GCTTCAACAT CAGTGGAACA AGTAAGAGAG AGGAGCTATC AGAGAGCCTT ACTTCTGAGT 
GATCATAGGA AAGACAAAGA TAGTGGGGGA GAATCACCTT GTATCCCATG CTCACCGAAT 
CATGTTCAGT CTTCACCTTC ATCTCATTCA AATCACATTC CCCAGTTGCA ACTTAAGGTC 
CCAGTCCCTT CTTTCAGTGA ACTTATAGAA GACCCTGATC CTGAAAATCC AGAGCCCACA 
ACCACAAATG AATGTCTATC CCCAGACACT TCTCTAAAGA CTTGTAAAAG TCCTTCAAAA 
GTGAGCAAGC CTTGTTCCCC AGGTCCTACA GCTTCTGCCC AGTCACTTGG AAAGACACCC 
ACAAAACCAG ATTCTCAGTG GGAAACAGCA GTTAATACAC CCGAGACAGA GACCACCAAT 
CCTCAAAAGG CAGAACTACA ACAGAAACAG CTGTCAAATA GCGTCCAAGC ACTTTCAAAG 
ACTCATTCTT CGCAGTCACA TGTGCGTAGT TCATCGGAGC AACTGTCACA AAAGCTTCCT 
TCTGCCCCTC TGAAATTGCA TTGTCCCCCA TCGCCTCATG TAGAAAATCC TCCCAAGTCA 
TCCACTCCCC ACCCCCCCGT CCAGCACGGC TACCTTTCAC CAAAGCCTCC CACACAGCAG 
TTGGGATCTC CCTACAGGGC CCACCATGCT CAGTCACCTC AAGTTGGAAC GCCTCAGAGA 
GATTCTCACA GAAACTTTTA TCCAGCAGCA CAGAGCCTTC AGTCCAATCC TCCACAGCCA 
CCTGCGGGAG CCCTGTTCAC CCAGACACCT TCGGGACAAT CTGTGGCCAC TTATAGTCAG 
TTTAACCAAC AGAATCTGAA CAGCACCGCC CCCCCGCCCC CCCCTCCGCC ACCCCCCTCC 
GCCACCTCCT CCTATTATCA AAGCCAGCAG TCCTCGGCCA ACTTTCAGAG TTACAATCAG 
CTGAAGGGTG GCCTTCCCCA ACAAACTGTG TTTACATCTG GACCAAATCA AGCACTTCCT 
GGGGCCACCA GTCAGCAGCC GGTTCCGGGG CACCATGTGA CCCCAGGGCA TTTTCTGCCA 
TCTCAGAACT CTACCCTCCA CCATCAGGCT TCGGCAGCTC CCCCACCACC ACCGCCCCCT 
CCCCAACACC AGCCTACTGG GACGGGACCA CACTGTCCGT TACCAGTCCA AGGTCCTCAT 
CTCCAGCCAC AAGGACCAAA CAGTATTCCA ACACCTACAG CTTCAGGGTT CTGTCCGCAT 
CCTGGCTCTG TAACCCTGCC ACACGGGGTT CAAGGACCTC AGCAGGCATC TCCGGTGCCT 
GGACAGATTC CAATTCACAG AGCACAGGTG CCACCGACGT TTCAGAACAA TTACCATGGT 
TCAGGGTGGC ATTAA

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

RefSeq	XP_007504166.1
CDS	199..5373
Translation	MSIVIPLGVDTAETSYLEMAAGSEPESVEASPVVVEKSNSYPHQLYTSSSHHSHSYIGLPYADHNYGARPPPTPPASPPPSVLISKNEVGIFTTPNFDETSSATTISTSEDGSYGTDVTRCICGFTHDDGYMICCDKCSVWQHIDCMGIDRQHIPDIYLCERCQPRSLDKERAVQLQRRKRENMSDGDTSATESGDEVPVELYTAFQHTPTTITLTAARVTKVNDKKRKKSGEKEQNISKCKKSFREGSRKSSRVKGSAPEIDPSDGSNFGWETKIKAWMDRYEEANNNQYSEGVQREAQRIALRLGSGNDKKEMNNKSESNPSNLIFKPPVESYIQKNKKILKSAKDLPPDALIIEYRGKFMLREQFEANGYFFKRPYPFVLFYSKFHGLEMCVDARTFGNEARFIRRSCTPNAEVRHIIEDGTIHLYIYSIQSIPKGTEITIGFDFDYGNCKYKVDCACLKENPECPVLKRCSEPTENINSGYETRRKKGKKEKDISKEKETQNQNITLDCESATNKMRSPDNKQRKLSPLRLSISNNQEPDFIDDIEEKTAISNEVEMESEEQIAERKRKMTREERKMEAILQAFARLEKREKRREQALERISTAKTEIKTECKDTQMVNDAEVVQDTTKEETASKPTPAKVNRTKQRKSFSRSRTHIGQQRRRHRTVSMCSDIQPSSPDVEVTSQPNEPENTALVAEPETETAIAEIVTETEVPALNKCPTKYPKTKKHLVNEWLSEKNEKTGKSSESLSEKPLRITTDPEVLATQLNSLPGLTYSPHVYSTPKHYIRFTSPFLSEKRRRKEPTENSSGSCKKRWLKQALEEENSAVLDKFSSLCQERSRSPAVNGENKSPLLLNDSCSLPDLTTPLKKRRLYQLLDSAYSETSTPTPSPYATPTHVDVSATDPSLFATPPRTKSEDETCRNGYKPIYSPVTPVTPCIQGNAMHFENISSPESSPEIKRRVYTQEGYERTPTMLTVGPFRNSNLSEMGLQEIKTIGYSSPRNRTDVTRQCTGDKESVSDFQIGLDVVEHTGIPKTMETPSQDRTDSNSQLEPAPCGGGRVYSSWVKSPERTGVNFSSVNSNLRDLTPSHQLEVGGGFRVSESKCLLQDDSRGVFMETSVFCSSEDGLPPGFGRAVNDSAIEGSCTPQNPPQKKKVSLLEYRKRQREARKSGSKADNFSLVTVSPHTTMGGNMSNSSNPSDGCSNSGENGEQVDHTTSLPLPLPTAVYNATSEEISNTCPVKETSAGEKNEPEVQWTASTSVEQVRERSYQRALLLSDHRKDKDSGGESPCIPCSPNHVQSSPSSHSNHIPQLQLKVPVPSFSELIEDPDPENPEPTTTNECLSPDTSLKTCKSPSKVSKPCSPGPTASAQSLGKTPTKPDSQWETAVNTPETETTNPQKAELQQKQLSNSVQALSKTHSSQSHVRSSSEQLSQKLPSAPLKLHCPPSPHVENPPKSSTPHPPVQHGYLSPKPPTQQLGSPYRAHHAQSPQVGTPQRDSHRNFYPAAQSLQSNPPQPPAGALFTQTPSGQSVATYSQFNQQNLNSTAPPPPPPPPPSATSSYYQSQQSSANFQSYNQLKGGLPQQTVFTSGPNQALPGATSQQPVPGHHVTPGHFLPSQNSTLHHQASAAPPPPPPPPQHQPTGTGPHCPLPVQGPHLQPQGPNSIPTPTASGFCPHPGSVTLPHGVQGPQQASPVPGQIPIHRAQVPPTFQNNYHGSGWH

Target ORF information:

RefSeq Version	XM_007504104.2
Organism	Monodelphis domestica(gray short-tailed opossum)
Definition	Monodelphis domestica lysine methyltransferase 2E (KMT2E), mRNA.

Target ORF information:

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

XM_007504104.2

ORF Insert Sequence:

ATGAGCATAG TGATCCCATT GGGGGTTGAT ACAGCAGAAA CTTCATATTT GGAAATGGCT 
GCAGGCTCAG AACCAGAATC CGTAGAAGCT AGCCCTGTGG TAGTTGAGAA ATCCAACAGT 
TATCCACATC AGTTATATAC CAGCAGCTCG CATCATTCAC ACAGTTATAT TGGTTTGCCC 
TATGCGGACC ACAATTATGG TGCTCGTCCT CCTCCAACAC CTCCAGCTTC TCCTCCTCCA 
TCAGTTCTTA TTAGCAAAAA TGAAGTAGGC ATATTTACTA CTCCTAATTT TGATGAGACC 
TCTAGTGCTA CCACCATCAG CACATCAGAG GATGGAAGCT ATGGTACTGA TGTAACCAGA 
TGCATTTGTG GTTTTACACA TGATGATGGC TACATGATCT GTTGTGACAA ATGCAGTGTT 
TGGCAACATA TTGACTGCAT GGGGATTGAT AGGCAGCATA TTCCTGATAT ATATCTGTGT 
GAACGTTGTC AGCCTAGGAG TTTGGATAAA GAAAGGGCTG TGCAGTTACA ACGCCGGAAA 
AGAGAAAATA TGTCAGATGG TGACACCAGT GCAACAGAAA GTGGTGATGA AGTTCCTGTG 
GAATTGTATA CTGCATTTCA ACATACACCA ACAACAATAA CTTTAACTGC TGCGAGAGTT 
ACCAAGGTCA ATGATAAGAA AAGGAAAAAA AGTGGAGAAA AAGAACAAAA TATTTCAAAA 
TGCAAAAAAT CTTTTCGTGA AGGATCTAGA AAATCATCAA GAGTTAAGGG TTCAGCTCCA 
GAAATTGATC CTTCTGATGG GTCAAATTTT GGATGGGAAA CTAAAATCAA AGCTTGGATG 
GATCGTTATG AGGAAGCAAA CAATAACCAG TACAGTGAAG GTGTCCAAAG GGAGGCTCAA 
AGAATAGCTT TACGATTGGG CAGTGGAAAT GATAAGAAAG AAATGAATAA CAAATCAGAA 
TCAAATCCCA GCAATCTGAT CTTCAAGCCT CCTGTAGAGA GCTACATACA AAAGAATAAG 
AAAATCCTGA AATCTGCTAA AGATTTGCCT CCTGATGCCC TTATTATTGA ATACAGAGGG 
AAGTTCATGC TAAGAGAACA GTTTGAAGCA AATGGATATT TCTTTAAGAG GCCATATCCT 
TTTGTTCTAT TCTACTCTAA ATTTCATGGG TTAGAAATGT GTGTTGATGC AAGGACTTTT 
GGGAATGAGG CTCGATTCAT TAGACGTTCT TGTACACCAA ATGCAGAGGT GAGGCATATC 
ATTGAAGATG GAACTATTCA TCTGTATATT TACTCCATCC AAAGCATTCC AAAGGGAACA 
GAAATTACTA TTGGTTTTGA TTTTGACTAT GGAAATTGCA AGTATAAGGT GGATTGTGCA 
TGCCTCAAAG AAAATCCTGA ATGTCCAGTT TTAAAACGGT GTTCTGAACC AACGGAAAAC 
ATCAATAGCG GTTATGAAAC CAGAAGGAAA AAAGGGAAAA AAGAGAAAGA TATTTCAAAA 
GAAAAAGAAA CACAAAATCA AAATATTACT CTGGATTGTG AAAGTGCTAC CAACAAAATG 
AGGAGCCCAG ATAATAAACA GAGAAAACTT TCTCCACTGA GACTATCTAT TTCAAATAAT 
CAGGAGCCAG ATTTTATTGA TGATATAGAA GAAAAAACTG CTATTAGCAA TGAAGTAGAA 
ATGGAATCAG AGGAGCAGAT TGCAGAAAGG AAAAGGAAGA TGACAAGAGA AGAGAGGAAA 
ATGGAAGCTA TCCTCCAAGC CTTTGCTAGA CTTGAGAAGA GAGAGAAACG AAGGGAACAA 
GCTTTGGAAC GAATCAGCAC AGCAAAAACA GAAATTAAAA CAGAATGTAA AGATACACAG 
ATGGTCAATG ATGCTGAAGT TGTTCAGGAT ACCACAAAAG AAGAAACTGC CAGCAAGCCA 
ACCCCTGCCA AAGTAAATAG AACTAAGCAG AGAAAAAGTT TTTCTAGGAG TAGAACTCAC 
ATTGGACAGC AGCGCCGGCG ACACCGAACT GTCAGCATGT GTTCAGATAT TCAGCCATCT 
TCTCCTGATG TTGAAGTTAC TTCACAACCA AATGAACCTG AGAACACTGC ACTTGTAGCA 
GAGCCTGAAA CTGAAACTGC CATAGCAGAA ATAGTTACCG AGACTGAAGT GCCAGCACTT 
AATAAATGTC CTACAAAGTA CCCCAAAACA AAAAAGCACT TAGTCAATGA ATGGTTAAGT 
GAGAAGAATG AGAAGACAGG AAAATCTTCA GAGAGCCTTT CAGAAAAGCC TCTGCGAATA 
ACTACAGATC CCGAAGTATT GGCTACACAG CTCAACTCTT TACCAGGCCT CACGTATAGT 
CCCCATGTGT ATTCTACCCC GAAGCACTAT ATTAGATTTA CTTCACCATT CCTTTCAGAA 
AAAAGGAGAA GAAAAGAACC TACTGAGAAT AGCTCTGGCT CTTGCAAAAA GCGATGGTTG 
AAGCAAGCAT TAGAAGAAGA AAATTCTGCA GTTTTAGATA AATTTAGTTC ATTATGCCAA 
GAAAGATCTA GAAGCCCTGC TGTCAATGGT GAAAATAAAA GTCCGCTGTT ACTCAATGAT 
AGTTGTTCAC TTCCAGATTT AACTACACCA CTAAAAAAAC GAAGACTATA TCAGTTATTG 
GATTCTGCTT ACTCAGAAAC CTCCACACCT ACTCCTTCTC CATATGCTAC GCCAACTCAT 
GTGGATGTCT CTGCTACAGA CCCATCATTA TTTGCTACTC CTCCTAGGAC AAAATCAGAA 
GATGAAACTT GCAGAAATGG TTATAAACCC ATATATTCAC CAGTTACTCC AGTAACTCCT 
TGTATACAAG GAAATGCCAT GCACTTTGAG AATATTTCCT CCCCAGAAAG TTCGCCAGAA 
ATTAAAAGAC GAGTTTATAC TCAGGAGGGC TATGAGAGAA CACCAACTAT GCTAACAGTG 
GGTCCTTTTA GAAATTCTAA TCTTTCAGAA ATGGGCCTGC AAGAAATAAA GACCATTGGA 
TATTCCAGCC CAAGAAATAG AACTGATGTA ACTAGGCAGT GCACTGGGGA CAAGGAATCT 
GTATCAGACT TTCAGATTGG ACTTGATGTT GTGGAGCACA CTGGCATTCC TAAAACCATG 
GAAACCCCTT CACAGGATAG GACTGACTCT AACAGCCAGC TAGAACCTGC TCCCTGTGGT 
GGAGGCAGAG TTTACTCTTC TTGGGTTAAA AGCCCTGAAA GAACAGGTGT CAACTTCTCC 
TCAGTAAATT CTAATTTAAG GGACTTAACA CCTTCCCATC AGCTGGAGGT TGGAGGTGGC 
TTCCGAGTAA GTGAGTCAAA GTGCCTCCTG CAAGATGACT CCAGAGGTGT GTTCATGGAG 
ACCTCCGTGT TCTGTTCTTC AGAAGATGGG CTCCCCCCTG GCTTTGGAAG GGCAGTGAAT 
GATAGTGCAA TCGAAGGGAG TTGTACACCC CAGAATCCAC CACAAAAGAA AAAGGTGTCC 
TTATTAGAAT ATCGGAAGAG ACAGCGGGAA GCTAGGAAAA GTGGCTCCAA GGCTGACAAT 
TTTTCTTTAG TTACGGTGTC ACCTCACACT ACTATGGGTG GAAACATGAG CAACAGCAGC 
AATCCAAGTG ATGGTTGTAG CAACAGTGGT GAAAATGGGG AGCAAGTAGA CCACACTACT 
AGCCTACCTT TACCTTTACC AACTGCTGTT TATAATGCTA CTTCAGAAGA AATCAGCAAT 
ACCTGCCCAG TAAAAGAAAC TTCTGCTGGT GAAAAAAATG AACCAGAAGT TCAGTGGACT 
GCTTCAACAT CAGTGGAACA AGTAAGAGAG AGGAGCTATC AGAGAGCCTT ACTTCTGAGT 
GATCATAGGA AAGACAAAGA TAGTGGGGGA GAATCACCTT GTATCCCATG CTCACCGAAT 
CATGTTCAGT CTTCACCTTC ATCTCATTCA AATCACATTC CCCAGTTGCA ACTTAAGGTC 
CCAGTCCCTT CTTTCAGTGA ACTTATAGAA GACCCTGATC CTGAAAATCC AGAGCCCACA 
ACCACAAATG AATGTCTATC CCCAGACACT TCTCTAAAGA CTTGTAAAAG TCCTTCAAAA 
GTGAGCAAGC CTTGTTCCCC AGGTCCTACA GCTTCTGCCC AGTCACTTGG AAAGACACCC 
ACAAAACCAG ATTCTCAGTG GGAAACAGCA GTTAATACAC CCGAGACAGA GACCACCAAT 
CCTCAAAAGG CAGAACTACA ACAGAAACAG CTGTCAAATA GCGTCCAAGC ACTTTCAAAG 
ACTCATTCTT CGCAGTCACA TGTGCGTAGT TCATCGGAGC AACTGTCACA AAAGCTTCCT 
TCTGCCCCTC TGAAATTGCA TTGTCCCCCA TCGCCTCATG TAGAAAATCC TCCCAAGTCA 
TCCACTCCCC ACCCCCCCGT CCAGCACGGC TACCTTTCAC CAAAGCCTCC CACACAGCAG 
TTGGGATCTC CCTACAGGGC CCACCATGCT CAGTCACCTC AAGTTGGAAC GCCTCAGAGA 
GATTCTCACA GAAACTTTTA TCCAGCAGCA CAGAGCCTTC AGTCCAATCC TCCACAGCCA 
CCTGCGGGAG CCCTGTTCAC CCAGACACCT TCGGGACAAT CTGTGGCCAC TTATAGTCAG 
TTTAACCAAC AGAATCTGAA CAGCACCGCC CCCCCGCCCC CCCCTCCGCC ACCCCCCTCC 
GCCACCTCCT CCTATTATCA AAGCCAGCAG TCCTCGGCCA ACTTTCAGAG TTACAATCAG 
CTGAAGGGTG GCCTTCCCCA ACAAACTGTG TTTACATCTG GACCAAATCA AGCACTTCCT 
GGGGCCACCA GTCAGCAGCC GGTTCCGGGG CACCATGTGA CCCCAGGGCA TTTTCTGCCA 
TCTCAGAACT CTACCCTCCA CCATCAGGCT TCGGCAGCTC CCCCACCACC ACCGCCCCCT 
CCCCAACACC AGCCTACTGG GACGGGACCA CACTGTCCGT TACCAGTCCA AGGTCCTCAT 
CTCCAGCCAC AAGGACCAAA CAGTATTCCA ACACCTACAG CTTCAGGGTT CTGTCCGCAT 
CCTGGCTCTG TAACCCTGCC ACACGGGGTT CAAGGACCTC AGCAGGCATC TCCGGTGCCT 
GGACAGATTC CAATTCACAG AGCACAGGTG CCACCGACGT TTCAGAACAA TTACCATGGT 
TCAGGGTGGC ATTAA

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

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KMT2E cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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