| Gene Symbol | MYT1L |
| Entrez Gene ID | 100028451 |
| Full Name | myelin transcription factor 1 like |
| Gene Type | protein-coding |
| Organism | Monodelphis domestica(gray short-tailed opossum) |
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MYT1L cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)
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Gene
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Clones
gRNAs
The following MYT1L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MYT1L 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.
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Reference Sequences (Refseq)
CloneID OMc06335 Clone ID Related Accession (Same CDS sequence) XM_007476186.2 Accession Version XM_007476186.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3108bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 myelin transcription factor 1-like protein isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007476186.1. ##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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC ATGTCCAACA CCAGGGTGTG ATGGGAGTGG TCATGTGACT
GGTAATTACG CCTCACATAG AAGTCTCTCT GGCTGCCCTT TGGCTGACAA AAGCATCCGC
AGTATGCTGG CCACCAGTTC ACAAGAGCTC AAGTGCCCCA CTCCTGGTTG TGATGGCTCT
GGACATATTA CTGGCAATTA TGCTTCTCAT CGAAGCCTTT CAGGTTGTCC TAGAGCCAAG
AAAAGTGGAA TCAGGATAGC CCAAAGTAAA GAAGACAAAG AAGACCAAGA GCCCATTAGA
TGTCCAGTTC CTGGTTGTGA TGGTCAGGGT CATATAACTG GAAAGTATGC ATCCCACCGC
AGTGCGTCAG GGTGCCCTCT AGCAGCCAAA AGGCAAAAGG ATGGGTACTT AAATGGCTCC
CAGTTCTCTT GGAAGTCAGT GAAGACGGAA GGTATGTCAT GTCCCACTCC AGGATGTGAT
GGCTCAGGAC ACGTCAGTGG TAGTTTCCTT ACACACCGCA GTCTATCAGG ATGCCCACGA
GCCACATCAG CCATGAAGAA AGCAAAGTTG TCAGGAGAAC AAATGCTAAC GATAAAGCAG
CGGGCCAGTA ATGGTATAGA AAATGATGAA GAAATCAAAC AGTTAGATGA AGAAATCAAG
GAGCTAAATG AATCCAATTC CCAGATGGAA GCTGACATGA TTAAGCTCAG AACTCAGGTA
ACAATTACCA CAATGGAGAG CAACTTGAAG ACGATAGAAG AGGAGAACAA AGTAATTGAA
CAGCAAAATG AGTCTCTTCT TCATGAACTG GCTAATTTAA GCCAGTCTTT AATTCATAGT
CTAGCTAATA TCCAGCTGCC ACATATGGAT CCAATCAATG AACAAAATTT TGATGCTTAC
GTGACTACTT TGACGGACAT GTATACAAAT CAAGATCGTT ATCAGAGTCC AGAAAATAAA
GCCCTACTGG AAAATATAAA GCAGGCTGTG AGAGGAATTC AGGTCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007476248.1 CDS 233..3340 Translation 
Target ORF information:
RefSeq Version XM_007476186.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica myelin transcription factor 1 like (MYT1L), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_007476186.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC ATGTCCAACA CCAGGGTGTG ATGGGAGTGG TCATGTGACT
GGTAATTACG CCTCACATAG AAGTCTCTCT GGCTGCCCTT TGGCTGACAA AAGCATCCGC
AGTATGCTGG CCACCAGTTC ACAAGAGCTC AAGTGCCCCA CTCCTGGTTG TGATGGCTCT
GGACATATTA CTGGCAATTA TGCTTCTCAT CGAAGCCTTT CAGGTTGTCC TAGAGCCAAG
AAAAGTGGAA TCAGGATAGC CCAAAGTAAA GAAGACAAAG AAGACCAAGA GCCCATTAGA
TGTCCAGTTC CTGGTTGTGA TGGTCAGGGT CATATAACTG GAAAGTATGC ATCCCACCGC
AGTGCGTCAG GGTGCCCTCT AGCAGCCAAA AGGCAAAAGG ATGGGTACTT AAATGGCTCC
CAGTTCTCTT GGAAGTCAGT GAAGACGGAA GGTATGTCAT GTCCCACTCC AGGATGTGAT
GGCTCAGGAC ACGTCAGTGG TAGTTTCCTT ACACACCGCA GTCTATCAGG ATGCCCACGA
GCCACATCAG CCATGAAGAA AGCAAAGTTG TCAGGAGAAC AAATGCTAAC GATAAAGCAG
CGGGCCAGTA ATGGTATAGA AAATGATGAA GAAATCAAAC AGTTAGATGA AGAAATCAAG
GAGCTAAATG AATCCAATTC CCAGATGGAA GCTGACATGA TTAAGCTCAG AACTCAGGTA
ACAATTACCA CAATGGAGAG CAACTTGAAG ACGATAGAAG AGGAGAACAA AGTAATTGAA
CAGCAAAATG AGTCTCTTCT TCATGAACTG GCTAATTTAA GCCAGTCTTT AATTCATAGT
CTAGCTAATA TCCAGCTGCC ACATATGGAT CCAATCAATG AACAAAATTT TGATGCTTAC
GTGACTACTT TGACGGACAT GTATACAAAT CAAGATCGTT ATCAGAGTCC AGAAAATAAA
GCCCTACTGG AAAATATAAA GCAGGCTGTG AGAGGAATTC AGGTCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc06336 Clone ID Related Accession (Same CDS sequence) XM_007476187.2 Accession Version XM_007476187.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3102bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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 myelin transcription factor 1-like protein isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007476187.1. ##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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC ATGTCCAACA CCAGGGTGTG ATGGGAGTGG TCATGTGACT
GGTAATTACG CCTCACATAG AAGTCTCTCT GGCTGCCCTT TGGCTGACAA AAGCATCCGC
AGTATGCTGG CCACCAGTTC ACAAGAGCTC AAGTGCCCCA CTCCTGGTTG TGATGGCTCT
GGACATATTA CTGGCAATTA TGCTTCTCAT CGAAGCCTTT CAGGTTGTCC TAGAGCCAAG
AAAAGTGGAA TCAGGATAGC CCAAAGTAAA GAAGACAAAG AAGACCAAGA GCCCATTAGA
TGTCCAGTTC CTGGTTGTGA TGGTCAGGGT CATATAACTG GAAAGTATGC ATCCCACCGC
AGTGCGTCAG GGTGCCCTCT AGCAGCCAAA AGGCAAAAGG ATGGGTACTT AAATGGCTCC
CAGTTCTCTT GGAAGTCAGT GAAGACGGAA GGTATGTCAT GTCCCACTCC AGGATGTGAT
GGCTCAGGAC ACGTCAGTGG TAGTTTCCTT ACACACCGCA GTCTATCAGG ATGCCCACGA
GCCACATCAG CCATGAAGAA AGCAAAGTTG TCAGGAGAAC AAATGCTAAC GATAAAGCAG
CGGGCCAGTA ATGGTATAGA AAATGATGAA GAAATCAAAC AGTTAGATGA AGAAATCAAG
GAGCTAAATG AATCCAATTC CCAGATGGAA GCTGACATGA TTAAGCTCAG AACTCAGATT
ACCACAATGG AGAGCAACTT GAAGACGATA GAAGAGGAGA ACAAAGTAAT TGAACAGCAA
AATGAGTCTC TTCTTCATGA ACTGGCTAAT TTAAGCCAGT CTTTAATTCA TAGTCTAGCT
AATATCCAGC TGCCACATAT GGATCCAATC AATGAACAAA ATTTTGATGC TTACGTGACT
ACTTTGACGG ACATGTATAC AAATCAAGAT CGTTATCAGA GTCCAGAAAA TAAAGCCCTA
CTGGAAAATA TAAAGCAGGC TGTGAGAGGA ATTCAGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007476249.1 CDS 232..3333 Translation
Target ORF information:
RefSeq Version XM_007476187.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica myelin transcription factor 1 like (MYT1L), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007476187.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC ATGTCCAACA CCAGGGTGTG ATGGGAGTGG TCATGTGACT
GGTAATTACG CCTCACATAG AAGTCTCTCT GGCTGCCCTT TGGCTGACAA AAGCATCCGC
AGTATGCTGG CCACCAGTTC ACAAGAGCTC AAGTGCCCCA CTCCTGGTTG TGATGGCTCT
GGACATATTA CTGGCAATTA TGCTTCTCAT CGAAGCCTTT CAGGTTGTCC TAGAGCCAAG
AAAAGTGGAA TCAGGATAGC CCAAAGTAAA GAAGACAAAG AAGACCAAGA GCCCATTAGA
TGTCCAGTTC CTGGTTGTGA TGGTCAGGGT CATATAACTG GAAAGTATGC ATCCCACCGC
AGTGCGTCAG GGTGCCCTCT AGCAGCCAAA AGGCAAAAGG ATGGGTACTT AAATGGCTCC
CAGTTCTCTT GGAAGTCAGT GAAGACGGAA GGTATGTCAT GTCCCACTCC AGGATGTGAT
GGCTCAGGAC ACGTCAGTGG TAGTTTCCTT ACACACCGCA GTCTATCAGG ATGCCCACGA
GCCACATCAG CCATGAAGAA AGCAAAGTTG TCAGGAGAAC AAATGCTAAC GATAAAGCAG
CGGGCCAGTA ATGGTATAGA AAATGATGAA GAAATCAAAC AGTTAGATGA AGAAATCAAG
GAGCTAAATG AATCCAATTC CCAGATGGAA GCTGACATGA TTAAGCTCAG AACTCAGATT
ACCACAATGG AGAGCAACTT GAAGACGATA GAAGAGGAGA ACAAAGTAAT TGAACAGCAA
AATGAGTCTC TTCTTCATGA ACTGGCTAAT TTAAGCCAGT CTTTAATTCA TAGTCTAGCT
AATATCCAGC TGCCACATAT GGATCCAATC AATGAACAAA ATTTTGATGC TTACGTGACT
ACTTTGACGG ACATGTATAC AAATCAAGAT CGTTATCAGA GTCCAGAAAA TAAAGCCCTA
CTGGAAAATA TAAAGCAGGC TGTGAGAGGA ATTCAGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc06337 Clone ID Related Accession (Same CDS sequence) XM_007476188.2 Accession Version XM_007476188.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3102bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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 myelin transcription factor 1-like protein isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007476188.1. ##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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GATCCCTCAA GAACAGAAAA GAAAGAGAGC AAGTGTCCAA CCCCAGGCTG TGATGGAACT
GGCCACGTAA CGGGGCTTTA TCCTCATCAT CGCAGTTTAT CCGGATGTCC TCACAAAGAT
AGGGTTCCTC CAGAGATTCT TGCCATGCAT GAAAATGTTC TCAAGTGTCC TACACCAGGC
TGCACAGGGC GCGGGCACGT AAATAGCAAC AGGAACTCAC ACCGAAGCCT CTCTGGATGC
CCTATTGCCG CAGCAGAAAA ACTGGCAAAA GCTCAAGAAA AACACCAGAG TTGTGATGTG
TCAAAATCCA ATCAGGCGTC AGATCGAGTT TTAAGGCCGA TGTGCTTCGT AAAGCAACTA
GAGATCCCTC AATATGGCTA CAGAAACAAT GTCCCCACAA CCACACCTCG CTCCAACTTG
GCCAAGGAAC TAGAGAAATA TTCCAAGACG TCGTTTGAAT ATAACACTTA CGACAATCAT
ACTTATGGCA AGAGAGCCAT AGCCCCCAAG GTGCAAACCA GGGATATATC CCCCAAAGGA
TATGATGCTA AACGGTATTG CAAGAACTCC AGCCCCACCA GCAGCACAAC GAGCAGCTAT
GCCCCGAGCA GCAGCAGCAA CATGAGTTGT GGAGGCGGCA GCAGCGCCAG CAGCACCTGC
AGCAAGAGCA GCTTTGATTA CACGCACGAC ATGGAGGCAG CACACATGGC CGCCACGGCC
ATCCTGAATC TGTCCACGCG CTGCCGGGAG ATGCCTCAGA ACCTCTCCAC CAAACCTCAG
GACCTCTGTG CCCGGAATCC TGATATGGAA GTTGATGAAA ATGGAACTTT GGATCTAAGC
ATGAACAAGC AGAGGCAACG CGATGGGTGC TGTACCATTT TGACACCTCT GGAACCAATG
TCACCACAGC GACAGGCAGT GATGAACAAT CGGTGTTTCC AGCTAAATGA GGGTGATTGC
TGGGACTTGC CAGTAGACTA CACCAAAATG AAACCCAGAA GGATAGATGA AGATGATTCC
AAAGAGATTA ATCCAGAAGA TTTGGACCCT TTCCAGGAGG CACTAGAAGA AAGAAGGTAT
CCTGGTGAAG TGACCATTCC CAGCCCCAAG CCCAAGTATC CTCAATGCAA AGAAAGCAAA
AAGGATTTAA TAACATGTCC AACACCAGGG TGTGATGGGA GTGGTCATGT GACTGGTAAT
TACGCCTCAC ATAGAAGTCT CTCTGGCTGC CCTTTGGCTG ACAAAAGCAT CCGCAGTATG
CTGGCCACCA GTTCACAAGA GCTCAAGTGC CCCACTCCTG GTTGTGATGG CTCTGGACAT
ATTACTGGCA ATTATGCTTC TCATCGAAGC CTTTCAGGTT GTCCTAGAGC CAAGAAAAGT
GGAATCAGGA TAGCCCAAAG TAAAGAAGAC AAAGAAGACC AAGAGCCCAT TAGATGTCCA
GTTCCTGGTT GTGATGGTCA GGGTCATATA ACTGGAAAGT ATGCATCCCA CCGCAGTGCG
TCAGGGTGCC CTCTAGCAGC CAAAAGGCAA AAGGATGGGT ACTTAAATGG CTCCCAGTTC
TCTTGGAAGT CAGTGAAGAC GGAAGGTATG TCATGTCCCA CTCCAGGATG TGATGGCTCA
GGACACGTCA GTGGTAGTTT CCTTACACAC CGCAGTCTAT CAGGATGCCC ACGAGCCACA
TCAGCCATGA AGAAAGCAAA GTTGTCAGGA GAACAAATGC TAACGATAAA GCAGCGGGCC
AGTAATGGTA TAGAAAATGA TGAAGAAATC AAACAGTTAG ATGAAGAAAT CAAGGAGCTA
AATGAATCCA ATTCCCAGAT GGAAGCTGAC ATGATTAAGC TCAGAACTCA GGTAACAATT
ACCACAATGG AGAGCAACTT GAAGACGATA GAAGAGGAGA ACAAAGTAAT TGAACAGCAA
AATGAGTCTC TTCTTCATGA ACTGGCTAAT TTAAGCCAGT CTTTAATTCA TAGTCTAGCT
AATATCCAGC TGCCACATAT GGATCCAATC AATGAACAAA ATTTTGATGC TTACGTGACT
ACTTTGACGG ACATGTATAC AAATCAAGAT CGTTATCAGA GTCCAGAAAA TAAAGCCCTA
CTGGAAAATA TAAAGCAGGC TGTGAGAGGA ATTCAGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007476250.1 CDS 233..3334 Translation
Target ORF information:
RefSeq Version XM_007476188.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica myelin transcription factor 1 like (MYT1L), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007476188.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GATCCCTCAA GAACAGAAAA GAAAGAGAGC AAGTGTCCAA CCCCAGGCTG TGATGGAACT
GGCCACGTAA CGGGGCTTTA TCCTCATCAT CGCAGTTTAT CCGGATGTCC TCACAAAGAT
AGGGTTCCTC CAGAGATTCT TGCCATGCAT GAAAATGTTC TCAAGTGTCC TACACCAGGC
TGCACAGGGC GCGGGCACGT AAATAGCAAC AGGAACTCAC ACCGAAGCCT CTCTGGATGC
CCTATTGCCG CAGCAGAAAA ACTGGCAAAA GCTCAAGAAA AACACCAGAG TTGTGATGTG
TCAAAATCCA ATCAGGCGTC AGATCGAGTT TTAAGGCCGA TGTGCTTCGT AAAGCAACTA
GAGATCCCTC AATATGGCTA CAGAAACAAT GTCCCCACAA CCACACCTCG CTCCAACTTG
GCCAAGGAAC TAGAGAAATA TTCCAAGACG TCGTTTGAAT ATAACACTTA CGACAATCAT
ACTTATGGCA AGAGAGCCAT AGCCCCCAAG GTGCAAACCA GGGATATATC CCCCAAAGGA
TATGATGCTA AACGGTATTG CAAGAACTCC AGCCCCACCA GCAGCACAAC GAGCAGCTAT
GCCCCGAGCA GCAGCAGCAA CATGAGTTGT GGAGGCGGCA GCAGCGCCAG CAGCACCTGC
AGCAAGAGCA GCTTTGATTA CACGCACGAC ATGGAGGCAG CACACATGGC CGCCACGGCC
ATCCTGAATC TGTCCACGCG CTGCCGGGAG ATGCCTCAGA ACCTCTCCAC CAAACCTCAG
GACCTCTGTG CCCGGAATCC TGATATGGAA GTTGATGAAA ATGGAACTTT GGATCTAAGC
ATGAACAAGC AGAGGCAACG CGATGGGTGC TGTACCATTT TGACACCTCT GGAACCAATG
TCACCACAGC GACAGGCAGT GATGAACAAT CGGTGTTTCC AGCTAAATGA GGGTGATTGC
TGGGACTTGC CAGTAGACTA CACCAAAATG AAACCCAGAA GGATAGATGA AGATGATTCC
AAAGAGATTA ATCCAGAAGA TTTGGACCCT TTCCAGGAGG CACTAGAAGA AAGAAGGTAT
CCTGGTGAAG TGACCATTCC CAGCCCCAAG CCCAAGTATC CTCAATGCAA AGAAAGCAAA
AAGGATTTAA TAACATGTCC AACACCAGGG TGTGATGGGA GTGGTCATGT GACTGGTAAT
TACGCCTCAC ATAGAAGTCT CTCTGGCTGC CCTTTGGCTG ACAAAAGCAT CCGCAGTATG
CTGGCCACCA GTTCACAAGA GCTCAAGTGC CCCACTCCTG GTTGTGATGG CTCTGGACAT
ATTACTGGCA ATTATGCTTC TCATCGAAGC CTTTCAGGTT GTCCTAGAGC CAAGAAAAGT
GGAATCAGGA TAGCCCAAAG TAAAGAAGAC AAAGAAGACC AAGAGCCCAT TAGATGTCCA
GTTCCTGGTT GTGATGGTCA GGGTCATATA ACTGGAAAGT ATGCATCCCA CCGCAGTGCG
TCAGGGTGCC CTCTAGCAGC CAAAAGGCAA AAGGATGGGT ACTTAAATGG CTCCCAGTTC
TCTTGGAAGT CAGTGAAGAC GGAAGGTATG TCATGTCCCA CTCCAGGATG TGATGGCTCA
GGACACGTCA GTGGTAGTTT CCTTACACAC CGCAGTCTAT CAGGATGCCC ACGAGCCACA
TCAGCCATGA AGAAAGCAAA GTTGTCAGGA GAACAAATGC TAACGATAAA GCAGCGGGCC
AGTAATGGTA TAGAAAATGA TGAAGAAATC AAACAGTTAG ATGAAGAAAT CAAGGAGCTA
AATGAATCCA ATTCCCAGAT GGAAGCTGAC ATGATTAAGC TCAGAACTCA GGTAACAATT
ACCACAATGG AGAGCAACTT GAAGACGATA GAAGAGGAGA ACAAAGTAAT TGAACAGCAA
AATGAGTCTC TTCTTCATGA ACTGGCTAAT TTAAGCCAGT CTTTAATTCA TAGTCTAGCT
AATATCCAGC TGCCACATAT GGATCCAATC AATGAACAAA ATTTTGATGC TTACGTGACT
ACTTTGACGG ACATGTATAC AAATCAAGAT CGTTATCAGA GTCCAGAAAA TAAAGCCCTA
CTGGAAAATA TAAAGCAGGC TGTGAGAGGA ATTCAGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc06338 Clone ID Related Accession (Same CDS sequence) XM_007476189.2 Accession Version XM_007476189.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3045bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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 myelin transcription factor 1-like protein isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007476189.1. ##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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC TCTCTCTGGC TGCCCTTTGG CTGACAAAAG CATCCGCAGT
ATGCTGGCCA CCAGTTCACA AGAGCTCAAG TGCCCCACTC CTGGTTGTGA TGGCTCTGGA
CATATTACTG GCAATTATGC TTCTCATCGA AGCCTTTCAG GTTGTCCTAG AGCCAAGAAA
AGTGGAATCA GGATAGCCCA AAGTAAAGAA GACAAAGAAG ACCAAGAGCC CATTAGATGT
CCAGTTCCTG GTTGTGATGG TCAGGGTCAT ATAACTGGAA AGTATGCATC CCACCGCAGT
GCGTCAGGGT GCCCTCTAGC AGCCAAAAGG CAAAAGGATG GGTACTTAAA TGGCTCCCAG
TTCTCTTGGA AGTCAGTGAA GACGGAAGGT ATGTCATGTC CCACTCCAGG ATGTGATGGC
TCAGGACACG TCAGTGGTAG TTTCCTTACA CACCGCAGTC TATCAGGATG CCCACGAGCC
ACATCAGCCA TGAAGAAAGC AAAGTTGTCA GGAGAACAAA TGCTAACGAT AAAGCAGCGG
GCCAGTAATG GTATAGAAAA TGATGAAGAA ATCAAACAGT TAGATGAAGA AATCAAGGAG
CTAAATGAAT CCAATTCCCA GATGGAAGCT GACATGATTA AGCTCAGAAC TCAGGTAACA
ATTACCACAA TGGAGAGCAA CTTGAAGACG ATAGAAGAGG AGAACAAAGT AATTGAACAG
CAAAATGAGT CTCTTCTTCA TGAACTGGCT AATTTAAGCC AGTCTTTAAT TCATAGTCTA
GCTAATATCC AGCTGCCACA TATGGATCCA ATCAATGAAC AAAATTTTGA TGCTTACGTG
ACTACTTTGA CGGACATGTA TACAAATCAA GATCGTTATC AGAGTCCAGA AAATAAAGCC
CTACTGGAAA ATATAAAGCA GGCTGTGAGA GGAATTCAGG TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007476251.1 CDS 232..3276 Translation
Target ORF information:
RefSeq Version XM_007476189.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica myelin transcription factor 1 like (MYT1L), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007476189.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATTGTC ACAATACTCG AATAATGCAA GACACAGAAA AAGACGATAA CAATAATGAC
GAGTATGATA ATTACGATGA ACTGGTGGCC AAGTCATTGT TAAATCTGGG CAAAATTGCC
GAGGATGCAG CATACCGAGC CAGGACTGAA TCAGAAATGA ACAGCAATAC ATCCAATAGT
CTTGAAGATG ATAGTGACAA AAATGAAAAT ATGGGTCGAA AAACTGAGCT GAGTTTAGAT
TTAGACAGTG ATGTTGTTAG GGAAACTGTG GACTCCCTTA AATTATTAGC ACAAGGACAT
GGTGTAGTGC TTTCAGAGAA CATTAATGAC AGAAATTATG CAGACAATAT ATCACAGCAA
GATAACAGAA ACATGAACTT TGTAATGCTA GGGAAACCTA TGAACAATGG ACTTATGGAA
AAAATGGTAG AGGAGAGTGA TGAGGAGGTG TGTCTCAGCA GTTTGGAATG CTTGAGAAAC
CAATGTTTTG ATCTTGCTAG AAAACTCAGT GAGACAAACC CACAGGAAAG AAATCAACAG
CAAAACATGA ACATCCGTCA ACATGTCAGA CAAGAAGATG ACTTCCCAGG AAGAACACCG
GATAGGAATT ACTCTGACAT GATGAACTTA ATGAGGCTTG AAGAACAGTT AAGTCCCAGA
TCTAGAACTT TTGCTAGCTG CGCAAAGGAG GATGGGTGTC ATGAAAGAGA TGATGACACC
ACCTCCGTTA ATTCAGACAG GTCTGAAGAA GTATTTGATA TGACCAAGGG TAATTTAACC
CTTCTTGAGA AAGCGATTGC TTTGGAAACT GAAAGAGCAA AAGCCATGAG GGAAAAAATG
GCAATGGAAG CTGGCAGAAG GGATAATATG AGGTCATTTG AAGAGCAGCC TCCAAGACAA
CTTCCCGGGG AGGAGAGAAA GCCTAAAACC AGTGACAGCC ATGTCAAAAA GCCATACTAT
GGTAAAGATC CCTCAAGAAC AGAAAAGAAA GAGAGCAAGT GTCCAACCCC AGGCTGTGAT
GGAACTGGCC ACGTAACGGG GCTTTATCCT CATCATCGCA GTTTATCCGG ATGTCCTCAC
AAAGATAGGG TTCCTCCAGA GATTCTTGCC ATGCATGAAA ATGTTCTCAA GTGTCCTACA
CCAGGCTGCA CAGGGCGCGG GCACGTAAAT AGCAACAGGA ACTCACACCG AAGCCTCTCT
GGATGCCCTA TTGCCGCAGC AGAAAAACTG GCAAAAGCTC AAGAAAAACA CCAGAGTTGT
GATGTGTCAA AATCCAATCA GGCGTCAGAT CGAGTTTTAA GGCCGATGTG CTTCGTAAAG
CAACTAGAGA TCCCTCAATA TGGCTACAGA AACAATGTCC CCACAACCAC ACCTCGCTCC
AACTTGGCCA AGGAACTAGA GAAATATTCC AAGACGTCGT TTGAATATAA CACTTACGAC
AATCATACTT ATGGCAAGAG AGCCATAGCC CCCAAGGTGC AAACCAGGGA TATATCCCCC
AAAGGATATG ATGCTAAACG GTATTGCAAG AACTCCAGCC CCACCAGCAG CACAACGAGC
AGCTATGCCC CGAGCAGCAG CAGCAACATG AGTTGTGGAG GCGGCAGCAG CGCCAGCAGC
ACCTGCAGCA AGAGCAGCTT TGATTACACG CACGACATGG AGGCAGCACA CATGGCCGCC
ACGGCCATCC TGAATCTGTC CACGCGCTGC CGGGAGATGC CTCAGAACCT CTCCACCAAA
CCTCAGGACC TCTGTGCCCG GAATCCTGAT ATGGAAGTTG ATGAAAATGG AACTTTGGAT
CTAAGCATGA ACAAGCAGAG GCAACGCGAT GGGTGCTGTA CCATTTTGAC ACCTCTGGAA
CCAATGTCAC CACAGCGACA GGCAGTGATG AACAATCGGT GTTTCCAGCT AAATGAGGGT
GATTGCTGGG ACTTGCCAGT AGACTACACC AAAATGAAAC CCAGAAGGAT AGATGAAGAT
GATTCCAAAG AGATTAATCC AGAAGATTTG GACCCTTTCC AGGAGGCACT AGAAGAAAGA
AGGTATCCTG GTGAAGTGAC CATTCCCAGC CCCAAGCCCA AGTATCCTCA ATGCAAAGAA
AGCAAAAAGG ATTTAATAAC TCTCTCTGGC TGCCCTTTGG CTGACAAAAG CATCCGCAGT
ATGCTGGCCA CCAGTTCACA AGAGCTCAAG TGCCCCACTC CTGGTTGTGA TGGCTCTGGA
CATATTACTG GCAATTATGC TTCTCATCGA AGCCTTTCAG GTTGTCCTAG AGCCAAGAAA
AGTGGAATCA GGATAGCCCA AAGTAAAGAA GACAAAGAAG ACCAAGAGCC CATTAGATGT
CCAGTTCCTG GTTGTGATGG TCAGGGTCAT ATAACTGGAA AGTATGCATC CCACCGCAGT
GCGTCAGGGT GCCCTCTAGC AGCCAAAAGG CAAAAGGATG GGTACTTAAA TGGCTCCCAG
TTCTCTTGGA AGTCAGTGAA GACGGAAGGT ATGTCATGTC CCACTCCAGG ATGTGATGGC
TCAGGACACG TCAGTGGTAG TTTCCTTACA CACCGCAGTC TATCAGGATG CCCACGAGCC
ACATCAGCCA TGAAGAAAGC AAAGTTGTCA GGAGAACAAA TGCTAACGAT AAAGCAGCGG
GCCAGTAATG GTATAGAAAA TGATGAAGAA ATCAAACAGT TAGATGAAGA AATCAAGGAG
CTAAATGAAT CCAATTCCCA GATGGAAGCT GACATGATTA AGCTCAGAAC TCAGGTAACA
ATTACCACAA TGGAGAGCAA CTTGAAGACG ATAGAAGAGG AGAACAAAGT AATTGAACAG
CAAAATGAGT CTCTTCTTCA TGAACTGGCT AATTTAAGCC AGTCTTTAAT TCATAGTCTA
GCTAATATCC AGCTGCCACA TATGGATCCA ATCAATGAAC AAAATTTTGA TGCTTACGTG
ACTACTTTGA CGGACATGTA TACAAATCAA GATCGTTATC AGAGTCCAGA AAATAAAGCC
CTACTGGAAA ATATAAAGCA GGCTGTGAGA GGAATTCAGG TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OMc06339 Clone ID Related Accession (Same CDS sequence) XM_007476190.2 Accession Version XM_007476190.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag 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 myelin transcription factor 1-like protein isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008801.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007476190.1. ##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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGCAGGATA AGAACATTGA CTGCCTGCTA ATCTATTCCC AGATGGAGGT GGATGCCGAC
GAGAAACGCC ATCGCACACG CTCCAAAGGG GTTCGAGTTC CCGTGGAACC AGCCATACAG
GAGCTGTTCA GCTGCCCCAC TCCTGGCTGT GATGGTAGCG GTCACGTTAG TGGCAAATAC
GCAAGGCACA GAAGTGTTTA TGGCTGCCCT TTGGCTAAAA AAAGAAAAAC ACAAGATAAG
CAACCTCAAG AACCTGCTCC CAAAAGAAAG CCATTTGTGG TTAAAACTGA CAACTCCTCA
GTAGATGAAT GTTATGAAAC AGATGGAACT GAGGAAATGG ATGAGAAAGA AGAAGAGGAA
GAGGAGGAGT ACTCAGATGA TAATGAGGAG CAAGGGGAAG AGGATGAAGA TGATGAAGAG
ATAGATCGAG AGGAAGAGGA GGAGATTGAA GAAGAGGAGG AAGATGATGA TGAAGAAGGA
GAAGATGTAG AGGATGAAGA AGAGGAGGAG GAGGAGGAGG AGGAAGAAGA GGAGGAAGAA
GAAGAGCATG AAGACCATCA AATGAATTGT CACAATACTC GAATAATGCA AGACACAGAA
AAAGACGATA ACAATAATGA CGAGTATGAT AATTACGATG AACTGGTGGC CAAGTCATTG
TTAAATCTGG GCAAAATTGC CGAGGATGCA GCATACCGAG CCAGGACTGA ATCAGAAATG
AACAGCAATA CATCCAATAG TCTTGAAGAT GATAGTGACA AAAATGAAAA TATGGGTCGA
AAAACTGAGC TGAGTTTAGA TTTAGACAGT GATGTTGTTA GGGAAACTGT GGACTCCCTT
AAATTATTAG CACAAGGACA TGGTGTAGTG CTTTCAGAGA ACATTAATGA CAGAAATTAT
GCAGACAATA TATCACAGCA AGATAACAGA AACATGAACT TTGTAATGCT AGGGAAACCT
ATGAACAATG GACTTATGGA AAAAATGGTA GAGGAGAGTG ATGAGGAGGT GTGTCTCAGC
AGTTTGGAAT GCTTGAGAAA CCAATGTTTT GATCTTGCTA GAAAACTCAG TGAGACAAAC
CCACAGGAAA GAAATCAACA GCAAAACATG AACATCCGTC AACATGTCAG ACAAGAAGAT
GACTTCCCAG GAAGAACACC GGATAGGAAT TACTCTGACA TGATGAACTT AATGAGGCTT
GAAGAACAGT TAAGTCCCAG ATCTAGAACT TTTGCTAGCT GCGCAAAGGA GGATGGGTGT
CATGAAAGAG ATGATGACAC CACCTCCGTT AATTCAGACA GGTCTGAAGA AGTATTTGAT
ATGACCAAGG GTAATTTAAC CCTTCTTGAG AAAGCGATTG CTTTGGAAAC TGAAAGAGCA
AAAGCCATGA GGGAAAAAAT GGCAATGGAA GCTGGCAGAA GGGATAATAT GAGGTCATTT
GAAGAGCAGC CTCCAAGACA ACTTCCCGGG GAGGAGAGAA AGCCTAAAAC CAGTGACAGC
CATGTCAAAA AGCCATACTA TGGTAAAGAT CCCTCAAGAA CAGAAAAGAA AGAGAGCAAG
TGTCCAACCC CAGGCTGTGA TGGAACTGGC CACGTAACGG GGCTTTATCC TCATCATCGC
AGTTTATCCG GATGTCCTCA CAAAGATAGG GTTCCTCCAG AGATTCTTGC CATGCATGAA
AATGTTCTCA AGTGTCCTAC ACCAGGCTGC ACAGGGCGCG GGCACGTAAA TAGCAACAGG
AACTCACACC GAAGCCTCTC TGGATGCCCT ATTGCCGCAG CAGAAAAACT GGCAAAAGCT
CAAGAAAAAC ACCAGAGTTG TGATGTGTCA AAATCCAATC AGGCGTCAGA TCGAGTTTTA
AGGCCGATGT GCTTCGTAAA GCAACTAGAG ATCCCTCAAT ATGGCTACAG AAACAATGTC
CCCACAACCA CACCTCGCTC CAACTTGGCC AAGGAACTAG AGAAATATTC CAAGACGTCG
TTTGAATATA ACACTTACGA CAATCATACT TATGGCAAGA GAGCCATAGC CCCCAAGGTG
CAAACCAGGG ATATATCCCC CAAAGGATAT GATGCTAAAC GGTATTGCAA GAACTCCAGC
CCCACCAGCA GCACAACGAG CAGCTATGCC CCGAGCAGCA GCAGCAACAT GAGTTGTGGA
GGCGGCAGCA GCGCCAGCAG CACCTGCAGC AAGAGCAGCT TTGATTACAC GCACGACATG
GAGGCAGCAC ACATGGCCGC CACGGCCATC CTGAATCTGT CCACGCGCTG CCGGGAGATG
CCTCAGAACC TCTCCACCAA ACCTCAGGAC CTCTGTGCCC GGAATCCTGA TATGGAAGTT
GATGAAAATG GAACTTTGGA TCTAAGCATG AACAAGCAGA GGCAACGCGA TGGGTGCTGT
ACCATTTTGA CACCTCTGGA ACCAATGTCA CCACAGCGAC AGGCAGTGAT GAACAATCGG
TGTTTCCAGC TAAATGAGGG TGATTGCTGG GACTTGCCAG TAGACTACAC CAAAATGAAA
CCCAGAAGGA TAGATGAAGA TGATTCCAAA GAGATTAATC CAGAAGATTT GGACCCTTTC
CAGGAGGCAC TAGAAGAAAG AAGGTATCCT GGTGAAGTGA CCATTCCCAG CCCCAAGCCC
AAGTATCCTC AATGCAAAGA AAGCAAAAAG GATTTAATAA CTCTCTCTGG CTGCCCTTTG
GCTGACAAAA GCATCCGCAG TATGCTGGCC ACCAGTTCAC AAGAGCTCAA GTGCCCCACT
CCTGGTTGTG ATGGCTCTGG ACATATTACT GGCAATTATG CTTCTCATCG AAGCCTTTCA
GGTTGTCCTA GAGCCAAGAA AAGTGGAATC AGGATAGCCC AAAGTAAAGA AGACAAAGAA
GACCAAGAGC CCATTAGATG TCCAGTTCCT GGTTGTGATG GTCAGGGTCA TATAACTGGA
AAGTATGCAT CCCACCGCAG TGCGTCAGGG TGCCCTCTAG CAGCCAAAAG GCAAAAGGAT
GGGTACTTAA ATGGCTCCCA GTTCTCTTGG AAGTCAGTGA AGACGGAAGG TATGTCATGT
CCCACTCCAG GATGTGATGG CTCAGGACAC GTCAGTGGTA GTTTCCTTAC ACACCGCAGT
CTATCAGGAT GCCCACGAGC CACATCAGCC ATGAAGAAAG CAAAGTTGTC AGGAGAACAA
ATGCTAACGA TAAAGCAGCG GGCCAGTAAT GGTATAGAAA ATGATGAAGA AATCAAACAG
TTAGATGAAG AAATCAAGGA GCTAAATGAA TCCAATTCCC AGATGGAAGC TGACATGATT
AAGCTCAGAA CTCAGATTAC CACAATGGAG AGCAACTTGA AGACGATAGA AGAGGAGAAC
AAAGTAATTG AACAGCAAAA TGAGTCTCTT CTTCATGAAC TGGCTAATTT AAGCCAGTCT
TTAATTCATA GTCTAGCTAA TATCCAGCTG CCACATATGG ATCCAATCAA TGAACAAAAT
TTTGATGCTT ACGTGACTAC TTTGACGGAC ATGTATACAA ATCAAGATCG TTATCAGAGT
CCAGAAAATA AAGCCCTACT GGAAAATATA AAGCAGGCTG TGAGAGGAAT TCAGGTCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007476252.1 CDS 287..3886 Translation
Target ORF information:
RefSeq Version XM_007476190.2 Organism Monodelphis domestica(gray short-tailed opossum) Definition Monodelphis domestica myelin transcription factor 1 like (MYT1L), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007476190.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGCAGGATA AGAACATTGA CTGCCTGCTA ATCTATTCCC AGATGGAGGT GGATGCCGAC
GAGAAACGCC ATCGCACACG CTCCAAAGGG GTTCGAGTTC CCGTGGAACC AGCCATACAG
GAGCTGTTCA GCTGCCCCAC TCCTGGCTGT GATGGTAGCG GTCACGTTAG TGGCAAATAC
GCAAGGCACA GAAGTGTTTA TGGCTGCCCT TTGGCTAAAA AAAGAAAAAC ACAAGATAAG
CAACCTCAAG AACCTGCTCC CAAAAGAAAG CCATTTGTGG TTAAAACTGA CAACTCCTCA
GTAGATGAAT GTTATGAAAC AGATGGAACT GAGGAAATGG ATGAGAAAGA AGAAGAGGAA
GAGGAGGAGT ACTCAGATGA TAATGAGGAG CAAGGGGAAG AGGATGAAGA TGATGAAGAG
ATAGATCGAG AGGAAGAGGA GGAGATTGAA GAAGAGGAGG AAGATGATGA TGAAGAAGGA
GAAGATGTAG AGGATGAAGA AGAGGAGGAG GAGGAGGAGG AGGAAGAAGA GGAGGAAGAA
GAAGAGCATG AAGACCATCA AATGAATTGT CACAATACTC GAATAATGCA AGACACAGAA
AAAGACGATA ACAATAATGA CGAGTATGAT AATTACGATG AACTGGTGGC CAAGTCATTG
TTAAATCTGG GCAAAATTGC CGAGGATGCA GCATACCGAG CCAGGACTGA ATCAGAAATG
AACAGCAATA CATCCAATAG TCTTGAAGAT GATAGTGACA AAAATGAAAA TATGGGTCGA
AAAACTGAGC TGAGTTTAGA TTTAGACAGT GATGTTGTTA GGGAAACTGT GGACTCCCTT
AAATTATTAG CACAAGGACA TGGTGTAGTG CTTTCAGAGA ACATTAATGA CAGAAATTAT
GCAGACAATA TATCACAGCA AGATAACAGA AACATGAACT TTGTAATGCT AGGGAAACCT
ATGAACAATG GACTTATGGA AAAAATGGTA GAGGAGAGTG ATGAGGAGGT GTGTCTCAGC
AGTTTGGAAT GCTTGAGAAA CCAATGTTTT GATCTTGCTA GAAAACTCAG TGAGACAAAC
CCACAGGAAA GAAATCAACA GCAAAACATG AACATCCGTC AACATGTCAG ACAAGAAGAT
GACTTCCCAG GAAGAACACC GGATAGGAAT TACTCTGACA TGATGAACTT AATGAGGCTT
GAAGAACAGT TAAGTCCCAG ATCTAGAACT TTTGCTAGCT GCGCAAAGGA GGATGGGTGT
CATGAAAGAG ATGATGACAC CACCTCCGTT AATTCAGACA GGTCTGAAGA AGTATTTGAT
ATGACCAAGG GTAATTTAAC CCTTCTTGAG AAAGCGATTG CTTTGGAAAC TGAAAGAGCA
AAAGCCATGA GGGAAAAAAT GGCAATGGAA GCTGGCAGAA GGGATAATAT GAGGTCATTT
GAAGAGCAGC CTCCAAGACA ACTTCCCGGG GAGGAGAGAA AGCCTAAAAC CAGTGACAGC
CATGTCAAAA AGCCATACTA TGGTAAAGAT CCCTCAAGAA CAGAAAAGAA AGAGAGCAAG
TGTCCAACCC CAGGCTGTGA TGGAACTGGC CACGTAACGG GGCTTTATCC TCATCATCGC
AGTTTATCCG GATGTCCTCA CAAAGATAGG GTTCCTCCAG AGATTCTTGC CATGCATGAA
AATGTTCTCA AGTGTCCTAC ACCAGGCTGC ACAGGGCGCG GGCACGTAAA TAGCAACAGG
AACTCACACC GAAGCCTCTC TGGATGCCCT ATTGCCGCAG CAGAAAAACT GGCAAAAGCT
CAAGAAAAAC ACCAGAGTTG TGATGTGTCA AAATCCAATC AGGCGTCAGA TCGAGTTTTA
AGGCCGATGT GCTTCGTAAA GCAACTAGAG ATCCCTCAAT ATGGCTACAG AAACAATGTC
CCCACAACCA CACCTCGCTC CAACTTGGCC AAGGAACTAG AGAAATATTC CAAGACGTCG
TTTGAATATA ACACTTACGA CAATCATACT TATGGCAAGA GAGCCATAGC CCCCAAGGTG
CAAACCAGGG ATATATCCCC CAAAGGATAT GATGCTAAAC GGTATTGCAA GAACTCCAGC
CCCACCAGCA GCACAACGAG CAGCTATGCC CCGAGCAGCA GCAGCAACAT GAGTTGTGGA
GGCGGCAGCA GCGCCAGCAG CACCTGCAGC AAGAGCAGCT TTGATTACAC GCACGACATG
GAGGCAGCAC ACATGGCCGC CACGGCCATC CTGAATCTGT CCACGCGCTG CCGGGAGATG
CCTCAGAACC TCTCCACCAA ACCTCAGGAC CTCTGTGCCC GGAATCCTGA TATGGAAGTT
GATGAAAATG GAACTTTGGA TCTAAGCATG AACAAGCAGA GGCAACGCGA TGGGTGCTGT
ACCATTTTGA CACCTCTGGA ACCAATGTCA CCACAGCGAC AGGCAGTGAT GAACAATCGG
TGTTTCCAGC TAAATGAGGG TGATTGCTGG GACTTGCCAG TAGACTACAC CAAAATGAAA
CCCAGAAGGA TAGATGAAGA TGATTCCAAA GAGATTAATC CAGAAGATTT GGACCCTTTC
CAGGAGGCAC TAGAAGAAAG AAGGTATCCT GGTGAAGTGA CCATTCCCAG CCCCAAGCCC
AAGTATCCTC AATGCAAAGA AAGCAAAAAG GATTTAATAA CTCTCTCTGG CTGCCCTTTG
GCTGACAAAA GCATCCGCAG TATGCTGGCC ACCAGTTCAC AAGAGCTCAA GTGCCCCACT
CCTGGTTGTG ATGGCTCTGG ACATATTACT GGCAATTATG CTTCTCATCG AAGCCTTTCA
GGTTGTCCTA GAGCCAAGAA AAGTGGAATC AGGATAGCCC AAAGTAAAGA AGACAAAGAA
GACCAAGAGC CCATTAGATG TCCAGTTCCT GGTTGTGATG GTCAGGGTCA TATAACTGGA
AAGTATGCAT CCCACCGCAG TGCGTCAGGG TGCCCTCTAG CAGCCAAAAG GCAAAAGGAT
GGGTACTTAA ATGGCTCCCA GTTCTCTTGG AAGTCAGTGA AGACGGAAGG TATGTCATGT
CCCACTCCAG GATGTGATGG CTCAGGACAC GTCAGTGGTA GTTTCCTTAC ACACCGCAGT
CTATCAGGAT GCCCACGAGC CACATCAGCC ATGAAGAAAG CAAAGTTGTC AGGAGAACAA
ATGCTAACGA TAAAGCAGCG GGCCAGTAAT GGTATAGAAA ATGATGAAGA AATCAAACAG
TTAGATGAAG AAATCAAGGA GCTAAATGAA TCCAATTCCC AGATGGAAGC TGACATGATT
AAGCTCAGAA CTCAGATTAC CACAATGGAG AGCAACTTGA AGACGATAGA AGAGGAGAAC
AAAGTAATTG AACAGCAAAA TGAGTCTCTT CTTCATGAAC TGGCTAATTT AAGCCAGTCT
TTAATTCATA GTCTAGCTAA TATCCAGCTG CCACATATGG ATCCAATCAA TGAACAAAAT
TTTGATGCTT ACGTGACTAC TTTGACGGAC ATGTATACAA ATCAAGATCG TTATCAGAGT
CCAGAAAATA AAGCCCTACT GGAAAATATA AAGCAGGCTG TGAGAGGAAT TCAGGTCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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