ORF » Species Summary » Nannospalax galili » Mcf2l cDNA ORF clone

Mcf2l cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

The following Mcf2l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Mcf2l 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
ONa135171 XM_029553700.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135172 XM_029553704.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135172 XM_029553702.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135172 XM_029553701.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135172 XM_029553703.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135173 XM_029553705.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa135174 XM_029553706.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ONa31072 XM_008848407.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31072 XM_029553699.1
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31073 XM_008848408.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31074 XM_008848409.3
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31075 XM_008848410.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31076 XM_008848413.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31077 XM_008848411.3
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31078 XM_008848414.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31079 XM_008848416.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa31080 XM_008848417.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa31081 XM_008848418.2
Latest version!		 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
View Old Accession Versions >>
ONa31079 XM_008848416.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa31080 XM_008848417.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ONa31074 XM_008848409.2 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31072 XM_008848407.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31073 XM_008848408.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31077 XM_008848411.2 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31078 XM_008848414.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
ONa31076 XM_008848413.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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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)
    Mcf2l ( XM_029553700.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409560.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID ONa135171
    Clone ID Related Accession (Same CDS sequence) XM_029553700.1
    Accession Version XM_029553700.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3306bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGCACGAAA GGAGGTGGCT TGGCTCTTGT AGTGCAGTAA GTTTGCAAGA TGCTGGCATT 
    GGATTCATTC TGGTCATAGA CCGAAGGCAG GACAAATGGA CCTCCGTGAA GGCGTCGGTC 
    CTGCGAATAG CCGCATCTTT CCCAGCAAAC CTGCAGCTCG TCCTTGTGCT TCGCCCAACG 
    GGCTTTTTCC AGAGGACTCT CTCTGACCTC GCCTTCAAGT TCAACAGAGA TGACTTTAAG 
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    RefSeq XP_029409560.1
    CDS16..3321
    Translation

    Target ORF information:

    RefSeq Version XM_029553700.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553700.1

    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
    ATGCACGAAA GGAGGTGGCT TGGCTCTTGT AGTGCAGTAA GTTTGCAAGA TGCTGGCATT 
    GGATTCATTC TGGTCATAGA CCGAAGGCAG GACAAATGGA CCTCCGTGAA GGCGTCGGTC 
    CTGCGAATAG CCGCATCTTT CCCAGCAAAC CTGCAGCTCG TCCTTGTGCT TCGCCCAACG 
    GGCTTTTTCC AGAGGACTCT CTCTGACCTC GCCTTCAAGT TCAACAGAGA TGACTTTAAG 
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    Mcf2l ( XM_029553701.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409561.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID ONa135172
    Clone ID Related Accession (Same CDS sequence) XM_029553701.1 , XM_029553703.1 , XM_029553702.1 , XM_029553704.1
    Accession Version XM_029553701.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3066bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    RefSeq XP_029409561.1
    CDS379..3444
    Translation

    Target ORF information:

    RefSeq Version XM_029553701.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553701.1

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    Mcf2l ( XM_029553703.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409563.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID ONa135172
    Clone ID Related Accession (Same CDS sequence) XM_029553701.1 , XM_029553703.1 , XM_029553702.1 , XM_029553704.1
    Accession Version XM_029553703.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3066bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    RefSeq XP_029409563.1
    CDS376..3441
    Translation

    Target ORF information:

    RefSeq Version XM_029553703.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553703.1

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    Mcf2l ( XM_029553702.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409562.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID ONa135172
    Clone ID Related Accession (Same CDS sequence) XM_029553701.1 , XM_029553703.1 , XM_029553702.1 , XM_029553704.1
    Accession Version XM_029553702.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3066bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    RefSeq XP_029409562.1
    CDS413..3478
    Translation

    Target ORF information:

    RefSeq Version XM_029553702.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553702.1

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    Mcf2l ( XM_029553704.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409564.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID ONa135172
    Clone ID Related Accession (Same CDS sequence) XM_029553701.1 , XM_029553703.1 , XM_029553702.1 , XM_029553704.1
    Accession Version XM_029553704.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3066bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    RefSeq XP_029409564.1
    CDS247..3312
    Translation

    Target ORF information:

    RefSeq Version XM_029553704.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553704.1

    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
    ATGAAGGTGC CGGTCATGAT GCTGAGCTCA GTGCCAGAAC TACACGGCTA CATTGATAAG 
    TCACAGCTGA CCGAGGACCT CGGGGGGACC CTGGACTACT GCCATTCCAG GTGGCTGTGC 
    CACCGCACGG CGATCGAAAG CTTCGCCCTG ATGGTGAAGC AGACAGCTCA GATGCTGCAG 
    GCCTTCGGGA CCGAGCTGGC CGAAACAGAA CTGCCCAACG ATGTCCAATC AACAAGCTCG 
    GTGCTGAGCA CACACACGGA GAAGAAGGAC AAAGCAAAGG AGGATCTGCA GCTGGCACGG 
    AAAGAGGGGA ACAGCATCCT TGAGAGCCTC AGGGAGCCAC TGGCTGAAAG CACTGCCCAC 
    AGTGTAAACC AAGACCAGCT GGACAATCAG GCCACAGTGC AGAGGCTCCT GGCTCAGCTG 
    AATGAAACGG AGGCCGCCTT TGACGAGTTC TGGGCAAAGC ATCAGCAGAA GCTGGAACAG 
    TGCCTGCAGC TGCGGCATTT TGAGCAGGGT TTCCGGGAGG TCAAAACTAC CTTGGATACC 
    ATGTCCCACA AGATAGCCAC CTTCACTGAC GTTGGTAACA GCCTGGCACA TGTGCAACAC 
    CTGCTGAAGG ACCTGGCCAG CTTCGAAGAG AAGTCTAGCG TGGCTGTAGA CAGGGCCCGA 
    GCCCTGTCAC TGGAGGGTCA GCAGCTGATT GAGAACAAGC ACTATGCTGT GGACTCCATC 
    CACCCTAAGT GTGAGGAGCT CCAGCACCTC TGCGATCACT TCACCGCTGA GATCAGCAGG 
    AGGAGAGGCT TGCTCAGCAA GTCCCTGGAG CTACACAGCC TCTTGGAGAC GTCCATGAAG 
    TGGTGCGATG AGGGCATCTT CCTGCTGGCC TCGCAACCTG TGGACAAGTG TCAGTCCCAG 
    GATGGTGCTG AGGCAGCCCT CCAGGAGATC GAGAAATTTT TGGAGACTGG TGCAGAAAAT 
    AAGATTCAAG AACTCAATAA AATTTACAAG GAATATGAGT GCATCCTCAA CCAGGACCTA 
    CTGGAACACG TGCAAAAGGT CTTTCAGAAG CAAGAAAGTA TGCAAGAGAT GTTCCACCGC 
    AGGCAGGCCA GCCTGAAGAA GCTGGCGGCC AAGCAGACAC GGCCTGTGCA GCCCGTGGCC 
    CCACGGCCAG AGGCACTCAC CAAATCACCC TGCCCCTCCC CAGGCTCCTG GAGAGGATCT 
    GAGAACTCTA GCTCTGAGGG CAGTGCACTC CGTAGAGGGC CCTACAGGAG AGCCAAGAGT 
    GAAATGAGTG AGACCCGGCA GGGCCGTGCC AGCTCCACAG GGGACGAGGA GGAGAGCCTA 
    GCCATCCTGC GCAGGCATGT GATGAATGAG CTCCTAGACA CGGAACGGGC CTACGTGGAG 
    GAGCTGCTCT GTGTACTAGA GGGCTATGCT GCAGAGATGG ACAACCCCCT GATGGCACAC 
    CTCATTTCAG CAGGCCTGCA AAACAAGAAG AACATTCTGT TTGGAAACAT GGAGGAGATT 
    TATCACTTTC ATAACAGGAT ATTCCTGCGG GAGCTAGAGA GCTGCATAGA CTGCCCGGAA 
    CTGGTGGGGA GGTGCTTTCT GGAGAGGATG GAGGAGTTCC AGATCTACGA GAAGTACTGT 
    CAGAACAAGC CACGATCTGA GAGCCTGTGG AGACAGTGCT CTGACTGTCC CTTCTTCCAG 
    GAGTGCCAGA AGAAGTTGGA CCACAAACTG AGCCTTGATT CCTACCTGCT GAAGCCAGTG 
    CAGAGAATAA CTAAGTACCA GTTGCTGCTT AAGGAAATGT TGAAATACAG CAAGAACTGT 
    GAGGGGGCAG AGGACCTACA GGAGGCACTG AGCTCCATCC TGGGCATCCT CAAGGCAGTG 
    AATGACTCCA TGCACCTCAT CGCCATCACT GGCTACGACG GTAACCTGGG TGATCTGGGG 
    AAGCTGCTGA TGCAAGGTTC CTTCAGTGTA TGGACAGACC ACAAGAAGGG CCACACCAAG 
    GTCAAGGAGC TGGCCAGATT CAAGCCCATG CAGCGGCACC TTTTCCTGCA TGAGAAGGCT 
    GTGCTGTTCT GCAAGAAGAG GGAGGAGAAT GGGGAGGGGT ATGAGAAGGC CCCTTCCTAC 
    AGCTACAAGC AGTCATTGAA TATGACTGCT GTTGGCATCA CAGAGAATGT GAAGGGTGAT 
    GCCAAGAAGT TCGAGATCTG GTACAACGCA AGAGAGGAGG TTTACATCAT CCAGGCACCA 
    ACCCCTGAGA TTAAAGCAGC ATGGGTGAGT GAGATTCGGA AGGTGCTGAC CAGCCAGCTG 
    CAGGCCTGCC GGGAAGCCAG CCAGCACAGG GCCCTGGAGC AGTCCCACAG CCTGCCTTTG 
    CCCACACCAT CCAACACCAG CCCCTCAAAA GGGAACACAA GGAATGTCAA GAAGTCAGAA 
    GAAAGAAAAA CGGACCCCCT GAGCCTGGAA GGATATGTGA GCTCATCGTT GCCGAAGCCC 
    CCTGAGAAAG GCAAAGACGA TGCGGTCCCT AGTTCTACCT CTGAAAGCTC TGCGCTTTCC 
    AGAAAGCGCT TCACGCTGCA GGGCTTGGCT AACCTCAAAG GTCAGAAAGC CTCTCCGACC 
    AGTCCTGACA AAAAAGCTAA GCGGCACGAA GTAAAGAGCG ACCCGACTCC CTTTGGTTTG 
    CGAGGCTGGA GCAAAACATC CCACTCCCTG GAAGCCCCTG AGGAGGACGG AGGTTGGTCC 
    AGTGCTGAGG AGCTTGTCAA TTCATCTGAT GCAGAGGAAG ATGGAGTGGG CCCCAAGAAG 
    CTGGTTCCTG GTAAATACAC AGTGGTGATG GACGATGAGA AAGGGGGCCT TGACACCCTT 
    GCTGTGAGGA GCGGGGACAT GGTAGAGGTG GTGGAAGAGG GCGCAGAGGG GCTCTGGTAT 
    GTCCGGGACC TGACCAGCAG CAAGGAGGGA TGGGTGCCAG CCAGCAGCCT TTCCACCCTC 
    CTGGGCAAAT CCAGTTCAGC CCAGTGTCTG AGCAGCTCAG ACTCCAGCCC AGGGTCAGCC 
    GTGCTGAGCA ACTCCTCCAG CTGCAGCGAG GGCTGCCCCA CTCCCTTCTC CGACCTCCAG 
    GGGTAG

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

    Mcf2l ( XM_029553705.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409565.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID ONa135173
    Clone ID Related Accession (Same CDS sequence) XM_029553705.1
    Accession Version XM_029553705.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3330bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCGCTAT CCTGGAGGGC GAAAACTCAT GCCCCACACC CCACAGACGC CAGCGAGCCT 
    TCAGAAGCCT TGGGGATTTT TACTCAAAGT TGTAATGATG TCATCAGGAG CCATTTTTTA 
    ACGTGGATGA ACACGGGGAC CTCAGATACT AGGATAACTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    RefSeq XP_029409565.1
    CDS51..3380
    Translation

    Target ORF information:

    RefSeq Version XM_029553705.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553705.1

    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
    ATGTCGCTAT CCTGGAGGGC GAAAACTCAT GCCCCACACC CCACAGACGC CAGCGAGCCT 
    TCAGAAGCCT TGGGGATTTT TACTCAAAGT TGTAATGATG TCATCAGGAG CCATTTTTTA 
    ACGTGGATGA ACACGGGGAC CTCAGATACT AGGATAACTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    Mcf2l ( XM_029553706.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409566.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID ONa135174
    Clone ID Related Accession (Same CDS sequence) XM_029553706.1
    Accession Version XM_029553706.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3255bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCGCTAT CCTGGAGGGC GAAAACTCAT GCCCCACACC CCACAGACGC CAGCGAGCCT 
    TCAGAAGCCT TGGGGATTTT TACTCAAAGT TGTAATGATG TCATCAGGAG CCATTTTTTA 
    ACGTGGATGA ACACGGGGAC CTCAGATACT AGGATAACTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    RefSeq XP_029409566.1
    CDS51..3305
    Translation

    Target ORF information:

    RefSeq Version XM_029553706.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553706.1

    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
    ATGTCGCTAT CCTGGAGGGC GAAAACTCAT GCCCCACACC CCACAGACGC CAGCGAGCCT 
    TCAGAAGCCT TGGGGATTTT TACTCAAAGT TGTAATGATG TCATCAGGAG CCATTTTTTA 
    ACGTGGATGA ACACGGGGAC CTCAGATACT AGGATAACTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    Mcf2l ( XM_008848407.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846629.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa31072
    Clone ID Related Accession (Same CDS sequence) XM_008848407.1 , XM_008848407.2 , XM_029553699.1
    Accession Version XM_008848407.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    RefSeq XP_008846629.1
    CDS29..3658
    Translation

    Target ORF information:

    RefSeq Version XM_008848407.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848407.1

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    Mcf2l ( XM_008848407.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846629.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa31072
    Clone ID Related Accession (Same CDS sequence) XM_008848407.1 , XM_008848407.2 , XM_029553699.1
    Accession Version XM_008848407.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848407.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    RefSeq XP_008846629.1
    CDS165..3794
    Translation

    Target ORF information:

    RefSeq Version XM_008848407.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848407.2

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    Mcf2l ( XM_029553699.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029409559.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa31072
    Clone ID Related Accession (Same CDS sequence) XM_008848407.1 , XM_008848407.2 , XM_029553699.1
    Accession Version XM_029553699.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    RefSeq XP_029409559.1
    CDS51..3680
    Translation

    Target ORF information:

    RefSeq Version XM_029553699.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029553699.1

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGACTCCA GCCCAGGGTC AGCCGTGCTG AGCAACTCCT CCAGCTGCAG CGAGGGCTGC 
    CCCACTCCCT TCTCCGACCT CCAGGGGTAG

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

    Mcf2l ( XM_008848408.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846630.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa31073
    Clone ID Related Accession (Same CDS sequence) XM_008848408.1 , XM_008848408.2
    Accession Version XM_008848408.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3624bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGGTGTGC AGAGGAAAGA GCCAGAGCCG AAGCCTGTCT CCACTGGTTT CCCGCAGACT 
    CCAGCCCAGG GTCAGCCGTG CTGA

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

    RefSeq XP_008846630.1
    CDS29..3652
    Translation

    Target ORF information:

    RefSeq Version XM_008848408.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848408.1

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGGTGTGC AGAGGAAAGA GCCAGAGCCG AAGCCTGTCT CCACTGGTTT CCCGCAGACT 
    CCAGCCCAGG GTCAGCCGTG CTGA

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

    Mcf2l ( XM_008848408.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846630.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONa31073
    Clone ID Related Accession (Same CDS sequence) XM_008848408.1 , XM_008848408.2
    Accession Version XM_008848408.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3624bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848408.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGGTGTGC AGAGGAAAGA GCCAGAGCCG AAGCCTGTCT CCACTGGTTT CCCGCAGACT 
    CCAGCCCAGG GTCAGCCGTG CTGA

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

    RefSeq XP_008846630.1
    CDS166..3789
    Translation

    Target ORF information:

    RefSeq Version XM_008848408.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848408.2

    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
    3541
    3601
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG ACGATGCGGT CCCTAGTTCT 
    ACCTCTGAAA GCTCTGCGCT TTCCAGAAAG CGCTTCACGC TGCAGGGCTT GGCTAACCTC 
    AAAGGTCAGA AAGCCTCTCC GACCAGTCCT GACAAAAAAG CTAAGCGGCA CGAAGTAAAG 
    AGCGACCCGA CTCCCTTTGG TTTGCGAGGC TGGAGCAAAA CATCCCACTC CCTGGAAGCC 
    CCTGAGGAGG ACGGAGGTTG GTCCAGTGCT GAGGAGCTTG TCAATTCATC TGATGCAGAG 
    GAAGATGGAG TGGGCCCCAA GAAGCTGGTT CCTGGTAAAT ACACAGTGGT GATGGACGAT 
    GAGAAAGGGG GCCTTGACAC CCTTGCTGTG AGGAGCGGGG ACATGGTAGA GGTGGTGGAA 
    GAGGGCGCAG AGGGGCTCTG GTATGTCCGG GACCTGACCA GCAGCAAGGA GGGATGGGTG 
    CCAGCCAGCA GCCTTTCCAC CCTCCTGGGC AAATCCAGTT CAGCCCAGTG TCTGAGCAGC 
    TCAGGTGTGC AGAGGAAAGA GCCAGAGCCG AAGCCTGTCT CCACTGGTTT CCCGCAGACT 
    CCAGCCCAGG GTCAGCCGTG CTGA

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

    Mcf2l ( XM_008848409.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846631.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONa31074
    Clone ID Related Accession (Same CDS sequence) XM_008848409.2 , XM_008848409.3
    Accession Version XM_008848409.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008848409.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    3541
    ATGGCAGAGA AGGGTACATC TTGGGGGGCC ATGCGGCGTT TCTGGTCACT GCCAAGAAAG 
    CGCCGGGGAG CTTCAGGGCG CCACAAGCCA GATGAAATCA TGCACCAGGA CATCGTCCCA 
    CTCTGTGCTG CGGACATCCA GGAGCAGCTG AAGAAGCGCT TTGCTTACCT GTCTGGTGGG 
    CGGGGGCAGG ACGGAAGCCC AGTTATCACC TTTCCAGACT ACCCAGCCTT CAGCGAGATC 
    CCGGACAAGG AGTTCCAGAA TGTCATGACC TATCTCACCA GCATCCCCAG TTTGCAAGAT 
    GCTGGCATTG GATTCATTCT GGTCATAGAC CGAAGGCAGG ACAAATGGAC CTCCGTGAAG 
    GCGTCGGTCC TGCGAATAGC CGCATCTTTC CCAGCAAACC TGCAGCTCGT CCTTGTGCTT 
    CGCCCAACGG GCTTTTTCCA GAGGACTCTC TCTGACCTCG CCTTCAAGTT CAACAGAGAT 
    GACTTTAAGA TGAAGGTGCC GGTCATGATG CTGAGCTCAG TGCCAGAACT ACACGGCTAC 
    ATTGATAAGT CACAGCTGAC CGAGGACCTC GGGGGGACCC TGGACTACTG CCATTCCAGG 
    TGGCTGTGCC ACCGCACGGC GATCGAAAGC TTCGCCCTGA TGGTGAAGCA GACAGCTCAG 
    ATGCTGCAGG CCTTCGGGAC CGAGCTGGCC GAAACAGAAC TGCCCAACGA TGTCCAATCA 
    ACAAGCTCGG TGCTGAGCAC ACACACGGAG AAGAAGGACA AAGCAAAGGA GGATCTGCAG 
    CTGGCACGGA AAGAGGGGAA CAGCATCCTT GAGAGCCTCA GGGAGCCACT GGCTGAAAGC 
    ACTGCCCACA GTGTAAACCA AGACCAGCTG GACAATCAGG CCACAGTGCA GAGGCTCCTG 
    GCTCAGCTGA ATGAAACGGA GGCCGCCTTT GACGAGTTCT GGGCAAAGCA TCAGCAGAAG 
    CTGGAACAGT GCCTGCAGCT GCGGCATTTT GAGCAGGGTT TCCGGGAGGT CAAAACTACC 
    TTGGATACCA TGTCCCACAA GATAGCCACC TTCACTGACG TTGGTAACAG CCTGGCACAT 
    GTGCAACACC TGCTGAAGGA CCTGGCCAGC TTCGAAGAGA AGTCTAGCGT GGCTGTAGAC 
    AGGGCCCGAG CCCTGTCACT GGAGGGTCAG CAGCTGATTG AGAACAAGCA CTATGCTGTG 
    GACTCCATCC ACCCTAAGTG TGAGGAGCTC CAGCACCTCT GCGATCACTT CACCGCTGAG 
    ATCAGCAGGA GGAGAGGCTT GCTCAGCAAG TCCCTGGAGC TACACAGCCT CTTGGAGACG 
    TCCATGAAGT GGTGCGATGA GGGCATCTTC CTGCTGGCCT CGCAACCTGT GGACAAGTGT 
    CAGTCCCAGG ATGGTGCTGA GGCAGCCCTC CAGGAGATCG AGAAATTTTT GGAGACTGGT 
    GCAGAAAATA AGATTCAAGA ACTCAATAAA ATTTACAAGG AATATGAGTG CATCCTCAAC 
    CAGGACCTAC TGGAACACGT GCAAAAGGTC TTTCAGAAGC AAGAAAGTAT GCAAGAGATG 
    TTCCACCGCA GGCAGGCCAG CCTGAAGAAG CTGGCGGCCA AGCAGACACG GCCTGTGCAG 
    CCCGTGGCCC CACGGCCAGA GGCACTCACC AAATCACCCT GCCCCTCCCC AGGCTCCTGG 
    AGAGGATCTG AGAACTCTAG CTCTGAGGGC AGTGCACTCC GTAGAGGGCC CTACAGGAGA 
    GCCAAGAGTG AAATGAGTGA GACCCGGCAG GGCCGTGCCA GCTCCACAGG GGACGAGGAG 
    GAGAGCCTAG CCATCCTGCG CAGGCATGTG ATGAATGAGC TCCTAGACAC GGAACGGGCC 
    TACGTGGAGG AGCTGCTCTG TGTACTAGAG GGCTATGCTG CAGAGATGGA CAACCCCCTG 
    ATGGCACACC TCATTTCAGC AGGCCTGCAA AACAAGAAGA ACATTCTGTT TGGAAACATG 
    GAGGAGATTT ATCACTTTCA TAACAGGATA TTCCTGCGGG AGCTAGAGAG CTGCATAGAC 
    TGCCCGGAAC TGGTGGGGAG GTGCTTTCTG GAGAGGATGG AGGAGTTCCA GATCTACGAG 
    AAGTACTGTC AGAACAAGCC ACGATCTGAG AGCCTGTGGA GACAGTGCTC TGACTGTCCC 
    TTCTTCCAGG AGTGCCAGAA GAAGTTGGAC CACAAACTGA GCCTTGATTC CTACCTGCTG 
    AAGCCAGTGC AGAGAATAAC TAAGTACCAG TTGCTGCTTA AGGAAATGTT GAAATACAGC 
    AAGAACTGTG AGGGGGCAGA GGACCTACAG GAGGCACTGA GCTCCATCCT GGGCATCCTC 
    AAGGCAGTGA ATGACTCCAT GCACCTCATC GCCATCACTG GCTACGACGG TAACCTGGGT 
    GATCTGGGGA AGCTGCTGAT GCAAGGTTCC TTCAGTGTAT GGACAGACCA CAAGAAGGGC 
    CACACCAAGG TCAAGGAGCT GGCCAGATTC AAGCCCATGC AGCGGCACCT TTTCCTGCAT 
    GAGAAGGCTG TGCTGTTCTG CAAGAAGAGG GAGGAGAATG GGGAGGGGTA TGAGAAGGCC 
    CCTTCCTACA GCTACAAGCA GTCATTGAAT ATGACTGCTG TTGGCATCAC AGAGAATGTG 
    AAGGGTGATG CCAAGAAGTT CGAGATCTGG TACAACGCAA GAGAGGAGGT TTACATCATC 
    CAGGCACCAA CCCCTGAGAT TAAAGCAGCA TGGGTGAGTG AGATTCGGAA GGTGCTGACC 
    AGCCAGCTGC AGGCCTGCCG GGAAGCCAGC CAGCACAGGG CCCTGGAGCA GTCCCACAGC 
    CTGCCTTTGC CCACACCATC CAACACCAGC CCCTCAAAAG GGAACACAAG GAATGTCAAG 
    AAGTCAGAAG AAAGAAAAAC GGACCCCCTG AGCCTGGAAG GATATGTGAG CTCATCGTTG 
    CCGAAGCCCC CTGAGAAAGG CAAAGACGAT GCGGTCCCTA GTTCTACCTC TGAAAGCTCT 
    GCGCTTTCCA GAAAGCGCTT CACGCTGCAG GGCTTGGCTA ACCTCAAAGG TCAGAAAGCC 
    TCTCCGACCA GTCCTGACAA AAAAGCTAAG CGGCACGAAG TAAAGAGCGA CCCGACTCCC 
    TTTGGTTTGC GAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    RefSeq XP_008846631.1
    CDS380..3934
    Translation

    Target ORF information:

    RefSeq Version XM_008848409.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848409.2

    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
    3541
    ATGGCAGAGA AGGGTACATC TTGGGGGGCC ATGCGGCGTT TCTGGTCACT GCCAAGAAAG 
    CGCCGGGGAG CTTCAGGGCG CCACAAGCCA GATGAAATCA TGCACCAGGA CATCGTCCCA 
    CTCTGTGCTG CGGACATCCA GGAGCAGCTG AAGAAGCGCT TTGCTTACCT GTCTGGTGGG 
    CGGGGGCAGG ACGGAAGCCC AGTTATCACC TTTCCAGACT ACCCAGCCTT CAGCGAGATC 
    CCGGACAAGG AGTTCCAGAA TGTCATGACC TATCTCACCA GCATCCCCAG TTTGCAAGAT 
    GCTGGCATTG GATTCATTCT GGTCATAGAC CGAAGGCAGG ACAAATGGAC CTCCGTGAAG 
    GCGTCGGTCC TGCGAATAGC CGCATCTTTC CCAGCAAACC TGCAGCTCGT CCTTGTGCTT 
    CGCCCAACGG GCTTTTTCCA GAGGACTCTC TCTGACCTCG CCTTCAAGTT CAACAGAGAT 
    GACTTTAAGA TGAAGGTGCC GGTCATGATG CTGAGCTCAG TGCCAGAACT ACACGGCTAC 
    ATTGATAAGT CACAGCTGAC CGAGGACCTC GGGGGGACCC TGGACTACTG CCATTCCAGG 
    TGGCTGTGCC ACCGCACGGC GATCGAAAGC TTCGCCCTGA TGGTGAAGCA GACAGCTCAG 
    ATGCTGCAGG CCTTCGGGAC CGAGCTGGCC GAAACAGAAC TGCCCAACGA TGTCCAATCA 
    ACAAGCTCGG TGCTGAGCAC ACACACGGAG AAGAAGGACA AAGCAAAGGA GGATCTGCAG 
    CTGGCACGGA AAGAGGGGAA CAGCATCCTT GAGAGCCTCA GGGAGCCACT GGCTGAAAGC 
    ACTGCCCACA GTGTAAACCA AGACCAGCTG GACAATCAGG CCACAGTGCA GAGGCTCCTG 
    GCTCAGCTGA ATGAAACGGA GGCCGCCTTT GACGAGTTCT GGGCAAAGCA TCAGCAGAAG 
    CTGGAACAGT GCCTGCAGCT GCGGCATTTT GAGCAGGGTT TCCGGGAGGT CAAAACTACC 
    TTGGATACCA TGTCCCACAA GATAGCCACC TTCACTGACG TTGGTAACAG CCTGGCACAT 
    GTGCAACACC TGCTGAAGGA CCTGGCCAGC TTCGAAGAGA AGTCTAGCGT GGCTGTAGAC 
    AGGGCCCGAG CCCTGTCACT GGAGGGTCAG CAGCTGATTG AGAACAAGCA CTATGCTGTG 
    GACTCCATCC ACCCTAAGTG TGAGGAGCTC CAGCACCTCT GCGATCACTT CACCGCTGAG 
    ATCAGCAGGA GGAGAGGCTT GCTCAGCAAG TCCCTGGAGC TACACAGCCT CTTGGAGACG 
    TCCATGAAGT GGTGCGATGA GGGCATCTTC CTGCTGGCCT CGCAACCTGT GGACAAGTGT 
    CAGTCCCAGG ATGGTGCTGA GGCAGCCCTC CAGGAGATCG AGAAATTTTT GGAGACTGGT 
    GCAGAAAATA AGATTCAAGA ACTCAATAAA ATTTACAAGG AATATGAGTG CATCCTCAAC 
    CAGGACCTAC TGGAACACGT GCAAAAGGTC TTTCAGAAGC AAGAAAGTAT GCAAGAGATG 
    TTCCACCGCA GGCAGGCCAG CCTGAAGAAG CTGGCGGCCA AGCAGACACG GCCTGTGCAG 
    CCCGTGGCCC CACGGCCAGA GGCACTCACC AAATCACCCT GCCCCTCCCC AGGCTCCTGG 
    AGAGGATCTG AGAACTCTAG CTCTGAGGGC AGTGCACTCC GTAGAGGGCC CTACAGGAGA 
    GCCAAGAGTG AAATGAGTGA GACCCGGCAG GGCCGTGCCA GCTCCACAGG GGACGAGGAG 
    GAGAGCCTAG CCATCCTGCG CAGGCATGTG ATGAATGAGC TCCTAGACAC GGAACGGGCC 
    TACGTGGAGG AGCTGCTCTG TGTACTAGAG GGCTATGCTG CAGAGATGGA CAACCCCCTG 
    ATGGCACACC TCATTTCAGC AGGCCTGCAA AACAAGAAGA ACATTCTGTT TGGAAACATG 
    GAGGAGATTT ATCACTTTCA TAACAGGATA TTCCTGCGGG AGCTAGAGAG CTGCATAGAC 
    TGCCCGGAAC TGGTGGGGAG GTGCTTTCTG GAGAGGATGG AGGAGTTCCA GATCTACGAG 
    AAGTACTGTC AGAACAAGCC ACGATCTGAG AGCCTGTGGA GACAGTGCTC TGACTGTCCC 
    TTCTTCCAGG AGTGCCAGAA GAAGTTGGAC CACAAACTGA GCCTTGATTC CTACCTGCTG 
    AAGCCAGTGC AGAGAATAAC TAAGTACCAG TTGCTGCTTA AGGAAATGTT GAAATACAGC 
    AAGAACTGTG AGGGGGCAGA GGACCTACAG GAGGCACTGA GCTCCATCCT GGGCATCCTC 
    AAGGCAGTGA ATGACTCCAT GCACCTCATC GCCATCACTG GCTACGACGG TAACCTGGGT 
    GATCTGGGGA AGCTGCTGAT GCAAGGTTCC TTCAGTGTAT GGACAGACCA CAAGAAGGGC 
    CACACCAAGG TCAAGGAGCT GGCCAGATTC AAGCCCATGC AGCGGCACCT TTTCCTGCAT 
    GAGAAGGCTG TGCTGTTCTG CAAGAAGAGG GAGGAGAATG GGGAGGGGTA TGAGAAGGCC 
    CCTTCCTACA GCTACAAGCA GTCATTGAAT ATGACTGCTG TTGGCATCAC AGAGAATGTG 
    AAGGGTGATG CCAAGAAGTT CGAGATCTGG TACAACGCAA GAGAGGAGGT TTACATCATC 
    CAGGCACCAA CCCCTGAGAT TAAAGCAGCA TGGGTGAGTG AGATTCGGAA GGTGCTGACC 
    AGCCAGCTGC AGGCCTGCCG GGAAGCCAGC CAGCACAGGG CCCTGGAGCA GTCCCACAGC 
    CTGCCTTTGC CCACACCATC CAACACCAGC CCCTCAAAAG GGAACACAAG GAATGTCAAG 
    AAGTCAGAAG AAAGAAAAAC GGACCCCCTG AGCCTGGAAG GATATGTGAG CTCATCGTTG 
    CCGAAGCCCC CTGAGAAAGG CAAAGACGAT GCGGTCCCTA GTTCTACCTC TGAAAGCTCT 
    GCGCTTTCCA GAAAGCGCTT CACGCTGCAG GGCTTGGCTA ACCTCAAAGG TCAGAAAGCC 
    TCTCCGACCA GTCCTGACAA AAAAGCTAAG CGGCACGAAG TAAAGAGCGA CCCGACTCCC 
    TTTGGTTTGC GAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    Mcf2l ( XM_008848409.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846631.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONa31074
    Clone ID Related Accession (Same CDS sequence) XM_008848409.2 , XM_008848409.3
    Accession Version XM_008848409.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848409.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    3541
    ATGGCAGAGA AGGGTACATC TTGGGGGGCC ATGCGGCGTT TCTGGTCACT GCCAAGAAAG 
    CGCCGGGGAG CTTCAGGGCG CCACAAGCCA GATGAAATCA TGCACCAGGA CATCGTCCCA 
    CTCTGTGCTG CGGACATCCA GGAGCAGCTG AAGAAGCGCT TTGCTTACCT GTCTGGTGGG 
    CGGGGGCAGG ACGGAAGCCC AGTTATCACC TTTCCAGACT ACCCAGCCTT CAGCGAGATC 
    CCGGACAAGG AGTTCCAGAA TGTCATGACC TATCTCACCA GCATCCCCAG TTTGCAAGAT 
    GCTGGCATTG GATTCATTCT GGTCATAGAC CGAAGGCAGG ACAAATGGAC CTCCGTGAAG 
    GCGTCGGTCC TGCGAATAGC CGCATCTTTC CCAGCAAACC TGCAGCTCGT CCTTGTGCTT 
    CGCCCAACGG GCTTTTTCCA GAGGACTCTC TCTGACCTCG CCTTCAAGTT CAACAGAGAT 
    GACTTTAAGA TGAAGGTGCC GGTCATGATG CTGAGCTCAG TGCCAGAACT ACACGGCTAC 
    ATTGATAAGT CACAGCTGAC CGAGGACCTC GGGGGGACCC TGGACTACTG CCATTCCAGG 
    TGGCTGTGCC ACCGCACGGC GATCGAAAGC TTCGCCCTGA TGGTGAAGCA GACAGCTCAG 
    ATGCTGCAGG CCTTCGGGAC CGAGCTGGCC GAAACAGAAC TGCCCAACGA TGTCCAATCA 
    ACAAGCTCGG TGCTGAGCAC ACACACGGAG AAGAAGGACA AAGCAAAGGA GGATCTGCAG 
    CTGGCACGGA AAGAGGGGAA CAGCATCCTT GAGAGCCTCA GGGAGCCACT GGCTGAAAGC 
    ACTGCCCACA GTGTAAACCA AGACCAGCTG GACAATCAGG CCACAGTGCA GAGGCTCCTG 
    GCTCAGCTGA ATGAAACGGA GGCCGCCTTT GACGAGTTCT GGGCAAAGCA TCAGCAGAAG 
    CTGGAACAGT GCCTGCAGCT GCGGCATTTT GAGCAGGGTT TCCGGGAGGT CAAAACTACC 
    TTGGATACCA TGTCCCACAA GATAGCCACC TTCACTGACG TTGGTAACAG CCTGGCACAT 
    GTGCAACACC TGCTGAAGGA CCTGGCCAGC TTCGAAGAGA AGTCTAGCGT GGCTGTAGAC 
    AGGGCCCGAG CCCTGTCACT GGAGGGTCAG CAGCTGATTG AGAACAAGCA CTATGCTGTG 
    GACTCCATCC ACCCTAAGTG TGAGGAGCTC CAGCACCTCT GCGATCACTT CACCGCTGAG 
    ATCAGCAGGA GGAGAGGCTT GCTCAGCAAG TCCCTGGAGC TACACAGCCT CTTGGAGACG 
    TCCATGAAGT GGTGCGATGA GGGCATCTTC CTGCTGGCCT CGCAACCTGT GGACAAGTGT 
    CAGTCCCAGG ATGGTGCTGA GGCAGCCCTC CAGGAGATCG AGAAATTTTT GGAGACTGGT 
    GCAGAAAATA AGATTCAAGA ACTCAATAAA ATTTACAAGG AATATGAGTG CATCCTCAAC 
    CAGGACCTAC TGGAACACGT GCAAAAGGTC TTTCAGAAGC AAGAAAGTAT GCAAGAGATG 
    TTCCACCGCA GGCAGGCCAG CCTGAAGAAG CTGGCGGCCA AGCAGACACG GCCTGTGCAG 
    CCCGTGGCCC CACGGCCAGA GGCACTCACC AAATCACCCT GCCCCTCCCC AGGCTCCTGG 
    AGAGGATCTG AGAACTCTAG CTCTGAGGGC AGTGCACTCC GTAGAGGGCC CTACAGGAGA 
    GCCAAGAGTG AAATGAGTGA GACCCGGCAG GGCCGTGCCA GCTCCACAGG GGACGAGGAG 
    GAGAGCCTAG CCATCCTGCG CAGGCATGTG ATGAATGAGC TCCTAGACAC GGAACGGGCC 
    TACGTGGAGG AGCTGCTCTG TGTACTAGAG GGCTATGCTG CAGAGATGGA CAACCCCCTG 
    ATGGCACACC TCATTTCAGC AGGCCTGCAA AACAAGAAGA ACATTCTGTT TGGAAACATG 
    GAGGAGATTT ATCACTTTCA TAACAGGATA TTCCTGCGGG AGCTAGAGAG CTGCATAGAC 
    TGCCCGGAAC TGGTGGGGAG GTGCTTTCTG GAGAGGATGG AGGAGTTCCA GATCTACGAG 
    AAGTACTGTC AGAACAAGCC ACGATCTGAG AGCCTGTGGA GACAGTGCTC TGACTGTCCC 
    TTCTTCCAGG AGTGCCAGAA GAAGTTGGAC CACAAACTGA GCCTTGATTC CTACCTGCTG 
    AAGCCAGTGC AGAGAATAAC TAAGTACCAG TTGCTGCTTA AGGAAATGTT GAAATACAGC 
    AAGAACTGTG AGGGGGCAGA GGACCTACAG GAGGCACTGA GCTCCATCCT GGGCATCCTC 
    AAGGCAGTGA ATGACTCCAT GCACCTCATC GCCATCACTG GCTACGACGG TAACCTGGGT 
    GATCTGGGGA AGCTGCTGAT GCAAGGTTCC TTCAGTGTAT GGACAGACCA CAAGAAGGGC 
    CACACCAAGG TCAAGGAGCT GGCCAGATTC AAGCCCATGC AGCGGCACCT TTTCCTGCAT 
    GAGAAGGCTG TGCTGTTCTG CAAGAAGAGG GAGGAGAATG GGGAGGGGTA TGAGAAGGCC 
    CCTTCCTACA GCTACAAGCA GTCATTGAAT ATGACTGCTG TTGGCATCAC AGAGAATGTG 
    AAGGGTGATG CCAAGAAGTT CGAGATCTGG TACAACGCAA GAGAGGAGGT TTACATCATC 
    CAGGCACCAA CCCCTGAGAT TAAAGCAGCA TGGGTGAGTG AGATTCGGAA GGTGCTGACC 
    AGCCAGCTGC AGGCCTGCCG GGAAGCCAGC CAGCACAGGG CCCTGGAGCA GTCCCACAGC 
    CTGCCTTTGC CCACACCATC CAACACCAGC CCCTCAAAAG GGAACACAAG GAATGTCAAG 
    AAGTCAGAAG AAAGAAAAAC GGACCCCCTG AGCCTGGAAG GATATGTGAG CTCATCGTTG 
    CCGAAGCCCC CTGAGAAAGG CAAAGACGAT GCGGTCCCTA GTTCTACCTC TGAAAGCTCT 
    GCGCTTTCCA GAAAGCGCTT CACGCTGCAG GGCTTGGCTA ACCTCAAAGG TCAGAAAGCC 
    TCTCCGACCA GTCCTGACAA AAAAGCTAAG CGGCACGAAG TAAAGAGCGA CCCGACTCCC 
    TTTGGTTTGC GAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    RefSeq XP_008846631.1
    CDS382..3936
    Translation

    Target ORF information:

    RefSeq Version XM_008848409.3
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848409.3

    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
    3541
    ATGGCAGAGA AGGGTACATC TTGGGGGGCC ATGCGGCGTT TCTGGTCACT GCCAAGAAAG 
    CGCCGGGGAG CTTCAGGGCG CCACAAGCCA GATGAAATCA TGCACCAGGA CATCGTCCCA 
    CTCTGTGCTG CGGACATCCA GGAGCAGCTG AAGAAGCGCT TTGCTTACCT GTCTGGTGGG 
    CGGGGGCAGG ACGGAAGCCC AGTTATCACC TTTCCAGACT ACCCAGCCTT CAGCGAGATC 
    CCGGACAAGG AGTTCCAGAA TGTCATGACC TATCTCACCA GCATCCCCAG TTTGCAAGAT 
    GCTGGCATTG GATTCATTCT GGTCATAGAC CGAAGGCAGG ACAAATGGAC CTCCGTGAAG 
    GCGTCGGTCC TGCGAATAGC CGCATCTTTC CCAGCAAACC TGCAGCTCGT CCTTGTGCTT 
    CGCCCAACGG GCTTTTTCCA GAGGACTCTC TCTGACCTCG CCTTCAAGTT CAACAGAGAT 
    GACTTTAAGA TGAAGGTGCC GGTCATGATG CTGAGCTCAG TGCCAGAACT ACACGGCTAC 
    ATTGATAAGT CACAGCTGAC CGAGGACCTC GGGGGGACCC TGGACTACTG CCATTCCAGG 
    TGGCTGTGCC ACCGCACGGC GATCGAAAGC TTCGCCCTGA TGGTGAAGCA GACAGCTCAG 
    ATGCTGCAGG CCTTCGGGAC CGAGCTGGCC GAAACAGAAC TGCCCAACGA TGTCCAATCA 
    ACAAGCTCGG TGCTGAGCAC ACACACGGAG AAGAAGGACA AAGCAAAGGA GGATCTGCAG 
    CTGGCACGGA AAGAGGGGAA CAGCATCCTT GAGAGCCTCA GGGAGCCACT GGCTGAAAGC 
    ACTGCCCACA GTGTAAACCA AGACCAGCTG GACAATCAGG CCACAGTGCA GAGGCTCCTG 
    GCTCAGCTGA ATGAAACGGA GGCCGCCTTT GACGAGTTCT GGGCAAAGCA TCAGCAGAAG 
    CTGGAACAGT GCCTGCAGCT GCGGCATTTT GAGCAGGGTT TCCGGGAGGT CAAAACTACC 
    TTGGATACCA TGTCCCACAA GATAGCCACC TTCACTGACG TTGGTAACAG CCTGGCACAT 
    GTGCAACACC TGCTGAAGGA CCTGGCCAGC TTCGAAGAGA AGTCTAGCGT GGCTGTAGAC 
    AGGGCCCGAG CCCTGTCACT GGAGGGTCAG CAGCTGATTG AGAACAAGCA CTATGCTGTG 
    GACTCCATCC ACCCTAAGTG TGAGGAGCTC CAGCACCTCT GCGATCACTT CACCGCTGAG 
    ATCAGCAGGA GGAGAGGCTT GCTCAGCAAG TCCCTGGAGC TACACAGCCT CTTGGAGACG 
    TCCATGAAGT GGTGCGATGA GGGCATCTTC CTGCTGGCCT CGCAACCTGT GGACAAGTGT 
    CAGTCCCAGG ATGGTGCTGA GGCAGCCCTC CAGGAGATCG AGAAATTTTT GGAGACTGGT 
    GCAGAAAATA AGATTCAAGA ACTCAATAAA ATTTACAAGG AATATGAGTG CATCCTCAAC 
    CAGGACCTAC TGGAACACGT GCAAAAGGTC TTTCAGAAGC AAGAAAGTAT GCAAGAGATG 
    TTCCACCGCA GGCAGGCCAG CCTGAAGAAG CTGGCGGCCA AGCAGACACG GCCTGTGCAG 
    CCCGTGGCCC CACGGCCAGA GGCACTCACC AAATCACCCT GCCCCTCCCC AGGCTCCTGG 
    AGAGGATCTG AGAACTCTAG CTCTGAGGGC AGTGCACTCC GTAGAGGGCC CTACAGGAGA 
    GCCAAGAGTG AAATGAGTGA GACCCGGCAG GGCCGTGCCA GCTCCACAGG GGACGAGGAG 
    GAGAGCCTAG CCATCCTGCG CAGGCATGTG ATGAATGAGC TCCTAGACAC GGAACGGGCC 
    TACGTGGAGG AGCTGCTCTG TGTACTAGAG GGCTATGCTG CAGAGATGGA CAACCCCCTG 
    ATGGCACACC TCATTTCAGC AGGCCTGCAA AACAAGAAGA ACATTCTGTT TGGAAACATG 
    GAGGAGATTT ATCACTTTCA TAACAGGATA TTCCTGCGGG AGCTAGAGAG CTGCATAGAC 
    TGCCCGGAAC TGGTGGGGAG GTGCTTTCTG GAGAGGATGG AGGAGTTCCA GATCTACGAG 
    AAGTACTGTC AGAACAAGCC ACGATCTGAG AGCCTGTGGA GACAGTGCTC TGACTGTCCC 
    TTCTTCCAGG AGTGCCAGAA GAAGTTGGAC CACAAACTGA GCCTTGATTC CTACCTGCTG 
    AAGCCAGTGC AGAGAATAAC TAAGTACCAG TTGCTGCTTA AGGAAATGTT GAAATACAGC 
    AAGAACTGTG AGGGGGCAGA GGACCTACAG GAGGCACTGA GCTCCATCCT GGGCATCCTC 
    AAGGCAGTGA ATGACTCCAT GCACCTCATC GCCATCACTG GCTACGACGG TAACCTGGGT 
    GATCTGGGGA AGCTGCTGAT GCAAGGTTCC TTCAGTGTAT GGACAGACCA CAAGAAGGGC 
    CACACCAAGG TCAAGGAGCT GGCCAGATTC AAGCCCATGC AGCGGCACCT TTTCCTGCAT 
    GAGAAGGCTG TGCTGTTCTG CAAGAAGAGG GAGGAGAATG GGGAGGGGTA TGAGAAGGCC 
    CCTTCCTACA GCTACAAGCA GTCATTGAAT ATGACTGCTG TTGGCATCAC AGAGAATGTG 
    AAGGGTGATG CCAAGAAGTT CGAGATCTGG TACAACGCAA GAGAGGAGGT TTACATCATC 
    CAGGCACCAA CCCCTGAGAT TAAAGCAGCA TGGGTGAGTG AGATTCGGAA GGTGCTGACC 
    AGCCAGCTGC AGGCCTGCCG GGAAGCCAGC CAGCACAGGG CCCTGGAGCA GTCCCACAGC 
    CTGCCTTTGC CCACACCATC CAACACCAGC CCCTCAAAAG GGAACACAAG GAATGTCAAG 
    AAGTCAGAAG AAAGAAAAAC GGACCCCCTG AGCCTGGAAG GATATGTGAG CTCATCGTTG 
    CCGAAGCCCC CTGAGAAAGG CAAAGACGAT GCGGTCCCTA GTTCTACCTC TGAAAGCTCT 
    GCGCTTTCCA GAAAGCGCTT CACGCTGCAG GGCTTGGCTA ACCTCAAAGG TCAGAAAGCC 
    TCTCCGACCA GTCCTGACAA AAAAGCTAAG CGGCACGAAG TAAAGAGCGA CCCGACTCCC 
    TTTGGTTTGC GAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    Mcf2l ( XM_008848410.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846632.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONa31075
    Clone ID Related Accession (Same CDS sequence) XM_008848410.2
    Accession Version XM_008848410.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3543bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008848410.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    3541
    ATGAGGTTTT GGCTGAGAAA TGAAGAGATG GCTCTAGAAG AAATGGTGCA GAGATTAAAC 
    GCGGTTTCCA AGAACACTGA TGAAATCATG CACCAGGACA TCGTCCCACT CTGTGCTGCG 
    GACATCCAGG AGCAGCTGAA GAAGCGCTTT GCTTACCTGT CTGGTGGGCG GGGGCAGGAC 
    GGAAGCCCAG TTATCACCTT TCCAGACTAC CCAGCCTTCA GCGAGATCCC GGACAAGGAG 
    TTCCAGAATG TCATGACCTA TCTCACCAGC ATCCCCAGTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGACGATGC GGTCCCTAGT TCTACCTCTG AAAGCTCTGC GCTTTCCAGA 
    AAGCGCTTCA CGCTGCAGGG CTTGGCTAAC CTCAAAGGTC AGAAAGCCTC TCCGACCAGT 
    CCTGACAAAA AAGCTAAGCG GCACGAAGTA AAGAGCGACC CGACTCCCTT TGGTTTGCGA 
    GGCTGGAGCA AAACATCCCA CTCCCTGGAA GCCCCTGAGG AGGACGGAGG TTGGTCCAGT 
    GCTGAGGAGC TTGTCAATTC ATCTGATGCA GAGGAAGATG GAGTGGGCCC CAAGAAGCTG 
    GTTCCTGGTA AATACACAGT GGTGATGGAC GATGAGAAAG GGGGCCTTGA CACCCTTGCT 
    GTGAGGAGCG GGGACATGGT AGAGGTGGTG GAAGAGGGCG CAGAGGGGCT CTGGTATGTC 
    CGGGACCTGA CCAGCAGCAA GGAGGGATGG GTGCCAGCCA GCAGCCTTTC CACCCTCCTG 
    GGCAAATCCA GTTCAGCCCA GTGTCTGAGC AGCTCAGACT CCAGCCCAGG GTCAGCCGTG 
    CTGAGCAACT CCTCCAGCTG CAGCGAGGGC TGCCCCACTC CCTTCTCCGA CCTCCAGGGG 
    TAG

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

    RefSeq XP_008846632.1
    CDS10..3552
    Translation

    Target ORF information:

    RefSeq Version XM_008848410.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848410.2

    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
    3541
    ATGAGGTTTT GGCTGAGAAA TGAAGAGATG GCTCTAGAAG AAATGGTGCA GAGATTAAAC 
    GCGGTTTCCA AGAACACTGA TGAAATCATG CACCAGGACA TCGTCCCACT CTGTGCTGCG 
    GACATCCAGG AGCAGCTGAA GAAGCGCTTT GCTTACCTGT CTGGTGGGCG GGGGCAGGAC 
    GGAAGCCCAG TTATCACCTT TCCAGACTAC CCAGCCTTCA GCGAGATCCC GGACAAGGAG 
    TTCCAGAATG TCATGACCTA TCTCACCAGC ATCCCCAGTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGACGATGC GGTCCCTAGT TCTACCTCTG AAAGCTCTGC GCTTTCCAGA 
    AAGCGCTTCA CGCTGCAGGG CTTGGCTAAC CTCAAAGGTC AGAAAGCCTC TCCGACCAGT 
    CCTGACAAAA AAGCTAAGCG GCACGAAGTA AAGAGCGACC CGACTCCCTT TGGTTTGCGA 
    GGCTGGAGCA AAACATCCCA CTCCCTGGAA GCCCCTGAGG AGGACGGAGG TTGGTCCAGT 
    GCTGAGGAGC TTGTCAATTC ATCTGATGCA GAGGAAGATG GAGTGGGCCC CAAGAAGCTG 
    GTTCCTGGTA AATACACAGT GGTGATGGAC GATGAGAAAG GGGGCCTTGA CACCCTTGCT 
    GTGAGGAGCG GGGACATGGT AGAGGTGGTG GAAGAGGGCG CAGAGGGGCT CTGGTATGTC 
    CGGGACCTGA CCAGCAGCAA GGAGGGATGG GTGCCAGCCA GCAGCCTTTC CACCCTCCTG 
    GGCAAATCCA GTTCAGCCCA GTGTCTGAGC AGCTCAGACT CCAGCCCAGG GTCAGCCGTG 
    CTGAGCAACT CCTCCAGCTG CAGCGAGGGC TGCCCCACTC CCTTCTCCGA CCTCCAGGGG 
    TAG

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

    Mcf2l ( XM_008848413.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846635.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONa31076
    Clone ID Related Accession (Same CDS sequence) XM_008848413.2 , XM_008848413.1
    Accession Version XM_008848413.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848413.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    RefSeq XP_008846635.1
    CDS164..3700
    Translation

    Target ORF information:

    RefSeq Version XM_008848413.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848413.2

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    Mcf2l ( XM_008848413.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846635.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONa31076
    Clone ID Related Accession (Same CDS sequence) XM_008848413.2 , XM_008848413.1
    Accession Version XM_008848413.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    RefSeq XP_008846635.1
    CDS29..3565
    Translation

    Target ORF information:

    RefSeq Version XM_008848413.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848413.1

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    Mcf2l ( XM_008848411.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846633.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONa31077
    Clone ID Related Accession (Same CDS sequence) XM_008848411.2 , XM_008848411.3
    Accession Version XM_008848411.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008848411.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGACTTTGA GCCTCATCTC CGTGCTGTCC CAGGACGTCA CAGCCCTGTG GCTCCTGCTG 
    AAGACAAGTG CAGATGAAAT CATGCACCAG GACATCGTCC CACTCTGTGC TGCGGACATC 
    CAGGAGCAGC TGAAGAAGCG CTTTGCTTAC CTGTCTGGTG GGCGGGGGCA GGACGGAAGC 
    CCAGTTATCA CCTTTCCAGA CTACCCAGCC TTCAGCGAGA TCCCGGACAA GGAGTTCCAG 
    AATGTCATGA CCTATCTCAC CAGCATCCCC AGTTTGCAAG ATGCTGGCAT TGGATTCATT 
    CTGGTCATAG ACCGAAGGCA GGACAAATGG ACCTCCGTGA AGGCGTCGGT CCTGCGAATA 
    GCCGCATCTT TCCCAGCAAA CCTGCAGCTC GTCCTTGTGC TTCGCCCAAC GGGCTTTTTC 
    CAGAGGACTC TCTCTGACCT CGCCTTCAAG TTCAACAGAG ATGACTTTAA GATGAAGGTG 
    CCGGTCATGA TGCTGAGCTC AGTGCCAGAA CTACACGGCT ACATTGATAA GTCACAGCTG 
    ACCGAGGACC TCGGGGGGAC CCTGGACTAC TGCCATTCCA GGTGGCTGTG CCACCGCACG 
    GCGATCGAAA GCTTCGCCCT GATGGTGAAG CAGACAGCTC AGATGCTGCA GGCCTTCGGG 
    ACCGAGCTGG CCGAAACAGA ACTGCCCAAC GATGTCCAAT CAACAAGCTC GGTGCTGAGC 
    ACACACACGG AGAAGAAGGA CAAAGCAAAG GAGGATCTGC AGCTGGCACG GAAAGAGGGG 
    AACAGCATCC TTGAGAGCCT CAGGGAGCCA CTGGCTGAAA GCACTGCCCA CAGTGTAAAC 
    CAAGACCAGC TGGACAATCA GGCCACAGTG CAGAGGCTCC TGGCTCAGCT GAATGAAACG 
    GAGGCCGCCT TTGACGAGTT CTGGGCAAAG CATCAGCAGA AGCTGGAACA GTGCCTGCAG 
    CTGCGGCATT TTGAGCAGGG TTTCCGGGAG GTCAAAACTA CCTTGGATAC CATGTCCCAC 
    AAGATAGCCA CCTTCACTGA CGTTGGTAAC AGCCTGGCAC ATGTGCAACA CCTGCTGAAG 
    GACCTGGCCA GCTTCGAAGA GAAGTCTAGC GTGGCTGTAG ACAGGGCCCG AGCCCTGTCA 
    CTGGAGGGTC AGCAGCTGAT TGAGAACAAG CACTATGCTG TGGACTCCAT CCACCCTAAG 
    TGTGAGGAGC TCCAGCACCT CTGCGATCAC TTCACCGCTG AGATCAGCAG GAGGAGAGGC 
    TTGCTCAGCA AGTCCCTGGA GCTACACAGC CTCTTGGAGA CGTCCATGAA GTGGTGCGAT 
    GAGGGCATCT TCCTGCTGGC CTCGCAACCT GTGGACAAGT GTCAGTCCCA GGATGGTGCT 
    GAGGCAGCCC TCCAGGAGAT CGAGAAATTT TTGGAGACTG GTGCAGAAAA TAAGATTCAA 
    GAACTCAATA AAATTTACAA GGAATATGAG TGCATCCTCA ACCAGGACCT ACTGGAACAC 
    GTGCAAAAGG TCTTTCAGAA GCAAGAAAGT ATGCAAGAGA TGTTCCACCG CAGGCAGGCC 
    AGCCTGAAGA AGCTGGCGGC CAAGCAGACA CGGCCTGTGC AGCCCGTGGC CCCACGGCCA 
    GAGGCACTCA CCAAATCACC CTGCCCCTCC CCAGGCTCCT GGAGAGGATC TGAGAACTCT 
    AGCTCTGAGG GCAGTGCACT CCGTAGAGGG CCCTACAGGA GAGCCAAGAG TGAAATGAGT 
    GAGACCCGGC AGGGCCGTGC CAGCTCCACA GGGGACGAGG AGGAGAGCCT AGCCATCCTG 
    CGCAGGCATG TGATGAATGA GCTCCTAGAC ACGGAACGGG CCTACGTGGA GGAGCTGCTC 
    TGTGTACTAG AGGGCTATGC TGCAGAGATG GACAACCCCC TGATGGCACA CCTCATTTCA 
    GCAGGCCTGC AAAACAAGAA GAACATTCTG TTTGGAAACA TGGAGGAGAT TTATCACTTT 
    CATAACAGGA TATTCCTGCG GGAGCTAGAG AGCTGCATAG ACTGCCCGGA ACTGGTGGGG 
    AGGTGCTTTC TGGAGAGGAT GGAGGAGTTC CAGATCTACG AGAAGTACTG TCAGAACAAG 
    CCACGATCTG AGAGCCTGTG GAGACAGTGC TCTGACTGTC CCTTCTTCCA GGAGTGCCAG 
    AAGAAGTTGG ACCACAAACT GAGCCTTGAT TCCTACCTGC TGAAGCCAGT GCAGAGAATA 
    ACTAAGTACC AGTTGCTGCT TAAGGAAATG TTGAAATACA GCAAGAACTG TGAGGGGGCA 
    GAGGACCTAC AGGAGGCACT GAGCTCCATC CTGGGCATCC TCAAGGCAGT GAATGACTCC 
    ATGCACCTCA TCGCCATCAC TGGCTACGAC GGTAACCTGG GTGATCTGGG GAAGCTGCTG 
    ATGCAAGGTT CCTTCAGTGT ATGGACAGAC CACAAGAAGG GCCACACCAA GGTCAAGGAG 
    CTGGCCAGAT TCAAGCCCAT GCAGCGGCAC CTTTTCCTGC ATGAGAAGGC TGTGCTGTTC 
    TGCAAGAAGA GGGAGGAGAA TGGGGAGGGG TATGAGAAGG CCCCTTCCTA CAGCTACAAG 
    CAGTCATTGA ATATGACTGC TGTTGGCATC ACAGAGAATG TGAAGGGTGA TGCCAAGAAG 
    TTCGAGATCT GGTACAACGC AAGAGAGGAG GTTTACATCA TCCAGGCACC AACCCCTGAG 
    ATTAAAGCAG CATGGGTGAG TGAGATTCGG AAGGTGCTGA CCAGCCAGCT GCAGGCCTGC 
    CGGGAAGCCA GCCAGCACAG GGCCCTGGAG CAGTCCCACA GCCTGCCTTT GCCCACACCA 
    TCCAACACCA GCCCCTCAAA AGGGAACACA AGGAATGTCA AGAAGTCAGA AGAAAGAAAA 
    ACGGACCCCC TGAGCCTGGA AGGATATGTG AGCTCATCGT TGCCGAAGCC CCCTGAGAAA 
    GGCAAAGACG ATGCGGTCCC TAGTTCTACC TCTGAAAGCT CTGCGCTTTC CAGAAAGCGC 
    TTCACGCTGC AGGGCTTGGC TAACCTCAAA GGTCAGAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    RefSeq XP_008846633.1
    CDS117..3653
    Translation

    Target ORF information:

    RefSeq Version XM_008848411.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848411.2

    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
    ATGACTTTGA GCCTCATCTC CGTGCTGTCC CAGGACGTCA CAGCCCTGTG GCTCCTGCTG 
    AAGACAAGTG CAGATGAAAT CATGCACCAG GACATCGTCC CACTCTGTGC TGCGGACATC 
    CAGGAGCAGC TGAAGAAGCG CTTTGCTTAC CTGTCTGGTG GGCGGGGGCA GGACGGAAGC 
    CCAGTTATCA CCTTTCCAGA CTACCCAGCC TTCAGCGAGA TCCCGGACAA GGAGTTCCAG 
    AATGTCATGA CCTATCTCAC CAGCATCCCC AGTTTGCAAG ATGCTGGCAT TGGATTCATT 
    CTGGTCATAG ACCGAAGGCA GGACAAATGG ACCTCCGTGA AGGCGTCGGT CCTGCGAATA 
    GCCGCATCTT TCCCAGCAAA CCTGCAGCTC GTCCTTGTGC TTCGCCCAAC GGGCTTTTTC 
    CAGAGGACTC TCTCTGACCT CGCCTTCAAG TTCAACAGAG ATGACTTTAA GATGAAGGTG 
    CCGGTCATGA TGCTGAGCTC AGTGCCAGAA CTACACGGCT ACATTGATAA GTCACAGCTG 
    ACCGAGGACC TCGGGGGGAC CCTGGACTAC TGCCATTCCA GGTGGCTGTG CCACCGCACG 
    GCGATCGAAA GCTTCGCCCT GATGGTGAAG CAGACAGCTC AGATGCTGCA GGCCTTCGGG 
    ACCGAGCTGG CCGAAACAGA ACTGCCCAAC GATGTCCAAT CAACAAGCTC GGTGCTGAGC 
    ACACACACGG AGAAGAAGGA CAAAGCAAAG GAGGATCTGC AGCTGGCACG GAAAGAGGGG 
    AACAGCATCC TTGAGAGCCT CAGGGAGCCA CTGGCTGAAA GCACTGCCCA CAGTGTAAAC 
    CAAGACCAGC TGGACAATCA GGCCACAGTG CAGAGGCTCC TGGCTCAGCT GAATGAAACG 
    GAGGCCGCCT TTGACGAGTT CTGGGCAAAG CATCAGCAGA AGCTGGAACA GTGCCTGCAG 
    CTGCGGCATT TTGAGCAGGG TTTCCGGGAG GTCAAAACTA CCTTGGATAC CATGTCCCAC 
    AAGATAGCCA CCTTCACTGA CGTTGGTAAC AGCCTGGCAC ATGTGCAACA CCTGCTGAAG 
    GACCTGGCCA GCTTCGAAGA GAAGTCTAGC GTGGCTGTAG ACAGGGCCCG AGCCCTGTCA 
    CTGGAGGGTC AGCAGCTGAT TGAGAACAAG CACTATGCTG TGGACTCCAT CCACCCTAAG 
    TGTGAGGAGC TCCAGCACCT CTGCGATCAC TTCACCGCTG AGATCAGCAG GAGGAGAGGC 
    TTGCTCAGCA AGTCCCTGGA GCTACACAGC CTCTTGGAGA CGTCCATGAA GTGGTGCGAT 
    GAGGGCATCT TCCTGCTGGC CTCGCAACCT GTGGACAAGT GTCAGTCCCA GGATGGTGCT 
    GAGGCAGCCC TCCAGGAGAT CGAGAAATTT TTGGAGACTG GTGCAGAAAA TAAGATTCAA 
    GAACTCAATA AAATTTACAA GGAATATGAG TGCATCCTCA ACCAGGACCT ACTGGAACAC 
    GTGCAAAAGG TCTTTCAGAA GCAAGAAAGT ATGCAAGAGA TGTTCCACCG CAGGCAGGCC 
    AGCCTGAAGA AGCTGGCGGC CAAGCAGACA CGGCCTGTGC AGCCCGTGGC CCCACGGCCA 
    GAGGCACTCA CCAAATCACC CTGCCCCTCC CCAGGCTCCT GGAGAGGATC TGAGAACTCT 
    AGCTCTGAGG GCAGTGCACT CCGTAGAGGG CCCTACAGGA GAGCCAAGAG TGAAATGAGT 
    GAGACCCGGC AGGGCCGTGC CAGCTCCACA GGGGACGAGG AGGAGAGCCT AGCCATCCTG 
    CGCAGGCATG TGATGAATGA GCTCCTAGAC ACGGAACGGG CCTACGTGGA GGAGCTGCTC 
    TGTGTACTAG AGGGCTATGC TGCAGAGATG GACAACCCCC TGATGGCACA CCTCATTTCA 
    GCAGGCCTGC AAAACAAGAA GAACATTCTG TTTGGAAACA TGGAGGAGAT TTATCACTTT 
    CATAACAGGA TATTCCTGCG GGAGCTAGAG AGCTGCATAG ACTGCCCGGA ACTGGTGGGG 
    AGGTGCTTTC TGGAGAGGAT GGAGGAGTTC CAGATCTACG AGAAGTACTG TCAGAACAAG 
    CCACGATCTG AGAGCCTGTG GAGACAGTGC TCTGACTGTC CCTTCTTCCA GGAGTGCCAG 
    AAGAAGTTGG ACCACAAACT GAGCCTTGAT TCCTACCTGC TGAAGCCAGT GCAGAGAATA 
    ACTAAGTACC AGTTGCTGCT TAAGGAAATG TTGAAATACA GCAAGAACTG TGAGGGGGCA 
    GAGGACCTAC AGGAGGCACT GAGCTCCATC CTGGGCATCC TCAAGGCAGT GAATGACTCC 
    ATGCACCTCA TCGCCATCAC TGGCTACGAC GGTAACCTGG GTGATCTGGG GAAGCTGCTG 
    ATGCAAGGTT CCTTCAGTGT ATGGACAGAC CACAAGAAGG GCCACACCAA GGTCAAGGAG 
    CTGGCCAGAT TCAAGCCCAT GCAGCGGCAC CTTTTCCTGC ATGAGAAGGC TGTGCTGTTC 
    TGCAAGAAGA GGGAGGAGAA TGGGGAGGGG TATGAGAAGG CCCCTTCCTA CAGCTACAAG 
    CAGTCATTGA ATATGACTGC TGTTGGCATC ACAGAGAATG TGAAGGGTGA TGCCAAGAAG 
    TTCGAGATCT GGTACAACGC AAGAGAGGAG GTTTACATCA TCCAGGCACC AACCCCTGAG 
    ATTAAAGCAG CATGGGTGAG TGAGATTCGG AAGGTGCTGA CCAGCCAGCT GCAGGCCTGC 
    CGGGAAGCCA GCCAGCACAG GGCCCTGGAG CAGTCCCACA GCCTGCCTTT GCCCACACCA 
    TCCAACACCA GCCCCTCAAA AGGGAACACA AGGAATGTCA AGAAGTCAGA AGAAAGAAAA 
    ACGGACCCCC TGAGCCTGGA AGGATATGTG AGCTCATCGT TGCCGAAGCC CCCTGAGAAA 
    GGCAAAGACG ATGCGGTCCC TAGTTCTACC TCTGAAAGCT CTGCGCTTTC CAGAAAGCGC 
    TTCACGCTGC AGGGCTTGGC TAACCTCAAA GGTCAGAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    Mcf2l ( XM_008848411.3 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846633.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONa31077
    Clone ID Related Accession (Same CDS sequence) XM_008848411.2 , XM_008848411.3
    Accession Version XM_008848411.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3537bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848411.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGACTTTGA GCCTCATCTC CGTGCTGTCC CAGGACGTCA CAGCCCTGTG GCTCCTGCTG 
    AAGACAAGTG CAGATGAAAT CATGCACCAG GACATCGTCC CACTCTGTGC TGCGGACATC 
    CAGGAGCAGC TGAAGAAGCG CTTTGCTTAC CTGTCTGGTG GGCGGGGGCA GGACGGAAGC 
    CCAGTTATCA CCTTTCCAGA CTACCCAGCC TTCAGCGAGA TCCCGGACAA GGAGTTCCAG 
    AATGTCATGA CCTATCTCAC CAGCATCCCC AGTTTGCAAG ATGCTGGCAT TGGATTCATT 
    CTGGTCATAG ACCGAAGGCA GGACAAATGG ACCTCCGTGA AGGCGTCGGT CCTGCGAATA 
    GCCGCATCTT TCCCAGCAAA CCTGCAGCTC GTCCTTGTGC TTCGCCCAAC GGGCTTTTTC 
    CAGAGGACTC TCTCTGACCT CGCCTTCAAG TTCAACAGAG ATGACTTTAA GATGAAGGTG 
    CCGGTCATGA TGCTGAGCTC AGTGCCAGAA CTACACGGCT ACATTGATAA GTCACAGCTG 
    ACCGAGGACC TCGGGGGGAC CCTGGACTAC TGCCATTCCA GGTGGCTGTG CCACCGCACG 
    GCGATCGAAA GCTTCGCCCT GATGGTGAAG CAGACAGCTC AGATGCTGCA GGCCTTCGGG 
    ACCGAGCTGG CCGAAACAGA ACTGCCCAAC GATGTCCAAT CAACAAGCTC GGTGCTGAGC 
    ACACACACGG AGAAGAAGGA CAAAGCAAAG GAGGATCTGC AGCTGGCACG GAAAGAGGGG 
    AACAGCATCC TTGAGAGCCT CAGGGAGCCA CTGGCTGAAA GCACTGCCCA CAGTGTAAAC 
    CAAGACCAGC TGGACAATCA GGCCACAGTG CAGAGGCTCC TGGCTCAGCT GAATGAAACG 
    GAGGCCGCCT TTGACGAGTT CTGGGCAAAG CATCAGCAGA AGCTGGAACA GTGCCTGCAG 
    CTGCGGCATT TTGAGCAGGG TTTCCGGGAG GTCAAAACTA CCTTGGATAC CATGTCCCAC 
    AAGATAGCCA CCTTCACTGA CGTTGGTAAC AGCCTGGCAC ATGTGCAACA CCTGCTGAAG 
    GACCTGGCCA GCTTCGAAGA GAAGTCTAGC GTGGCTGTAG ACAGGGCCCG AGCCCTGTCA 
    CTGGAGGGTC AGCAGCTGAT TGAGAACAAG CACTATGCTG TGGACTCCAT CCACCCTAAG 
    TGTGAGGAGC TCCAGCACCT CTGCGATCAC TTCACCGCTG AGATCAGCAG GAGGAGAGGC 
    TTGCTCAGCA AGTCCCTGGA GCTACACAGC CTCTTGGAGA CGTCCATGAA GTGGTGCGAT 
    GAGGGCATCT TCCTGCTGGC CTCGCAACCT GTGGACAAGT GTCAGTCCCA GGATGGTGCT 
    GAGGCAGCCC TCCAGGAGAT CGAGAAATTT TTGGAGACTG GTGCAGAAAA TAAGATTCAA 
    GAACTCAATA AAATTTACAA GGAATATGAG TGCATCCTCA ACCAGGACCT ACTGGAACAC 
    GTGCAAAAGG TCTTTCAGAA GCAAGAAAGT ATGCAAGAGA TGTTCCACCG CAGGCAGGCC 
    AGCCTGAAGA AGCTGGCGGC CAAGCAGACA CGGCCTGTGC AGCCCGTGGC CCCACGGCCA 
    GAGGCACTCA CCAAATCACC CTGCCCCTCC CCAGGCTCCT GGAGAGGATC TGAGAACTCT 
    AGCTCTGAGG GCAGTGCACT CCGTAGAGGG CCCTACAGGA GAGCCAAGAG TGAAATGAGT 
    GAGACCCGGC AGGGCCGTGC CAGCTCCACA GGGGACGAGG AGGAGAGCCT AGCCATCCTG 
    CGCAGGCATG TGATGAATGA GCTCCTAGAC ACGGAACGGG CCTACGTGGA GGAGCTGCTC 
    TGTGTACTAG AGGGCTATGC TGCAGAGATG GACAACCCCC TGATGGCACA CCTCATTTCA 
    GCAGGCCTGC AAAACAAGAA GAACATTCTG TTTGGAAACA TGGAGGAGAT TTATCACTTT 
    CATAACAGGA TATTCCTGCG GGAGCTAGAG AGCTGCATAG ACTGCCCGGA ACTGGTGGGG 
    AGGTGCTTTC TGGAGAGGAT GGAGGAGTTC CAGATCTACG AGAAGTACTG TCAGAACAAG 
    CCACGATCTG AGAGCCTGTG GAGACAGTGC TCTGACTGTC CCTTCTTCCA GGAGTGCCAG 
    AAGAAGTTGG ACCACAAACT GAGCCTTGAT TCCTACCTGC TGAAGCCAGT GCAGAGAATA 
    ACTAAGTACC AGTTGCTGCT TAAGGAAATG TTGAAATACA GCAAGAACTG TGAGGGGGCA 
    GAGGACCTAC AGGAGGCACT GAGCTCCATC CTGGGCATCC TCAAGGCAGT GAATGACTCC 
    ATGCACCTCA TCGCCATCAC TGGCTACGAC GGTAACCTGG GTGATCTGGG GAAGCTGCTG 
    ATGCAAGGTT CCTTCAGTGT ATGGACAGAC CACAAGAAGG GCCACACCAA GGTCAAGGAG 
    CTGGCCAGAT TCAAGCCCAT GCAGCGGCAC CTTTTCCTGC ATGAGAAGGC TGTGCTGTTC 
    TGCAAGAAGA GGGAGGAGAA TGGGGAGGGG TATGAGAAGG CCCCTTCCTA CAGCTACAAG 
    CAGTCATTGA ATATGACTGC TGTTGGCATC ACAGAGAATG TGAAGGGTGA TGCCAAGAAG 
    TTCGAGATCT GGTACAACGC AAGAGAGGAG GTTTACATCA TCCAGGCACC AACCCCTGAG 
    ATTAAAGCAG CATGGGTGAG TGAGATTCGG AAGGTGCTGA CCAGCCAGCT GCAGGCCTGC 
    CGGGAAGCCA GCCAGCACAG GGCCCTGGAG CAGTCCCACA GCCTGCCTTT GCCCACACCA 
    TCCAACACCA GCCCCTCAAA AGGGAACACA AGGAATGTCA AGAAGTCAGA AGAAAGAAAA 
    ACGGACCCCC TGAGCCTGGA AGGATATGTG AGCTCATCGT TGCCGAAGCC CCCTGAGAAA 
    GGCAAAGACG ATGCGGTCCC TAGTTCTACC TCTGAAAGCT CTGCGCTTTC CAGAAAGCGC 
    TTCACGCTGC AGGGCTTGGC TAACCTCAAA GGTCAGAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    RefSeq XP_008846633.1
    CDS102..3638
    Translation

    Target ORF information:

    RefSeq Version XM_008848411.3
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848411.3

    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
    ATGACTTTGA GCCTCATCTC CGTGCTGTCC CAGGACGTCA CAGCCCTGTG GCTCCTGCTG 
    AAGACAAGTG CAGATGAAAT CATGCACCAG GACATCGTCC CACTCTGTGC TGCGGACATC 
    CAGGAGCAGC TGAAGAAGCG CTTTGCTTAC CTGTCTGGTG GGCGGGGGCA GGACGGAAGC 
    CCAGTTATCA CCTTTCCAGA CTACCCAGCC TTCAGCGAGA TCCCGGACAA GGAGTTCCAG 
    AATGTCATGA CCTATCTCAC CAGCATCCCC AGTTTGCAAG ATGCTGGCAT TGGATTCATT 
    CTGGTCATAG ACCGAAGGCA GGACAAATGG ACCTCCGTGA AGGCGTCGGT CCTGCGAATA 
    GCCGCATCTT TCCCAGCAAA CCTGCAGCTC GTCCTTGTGC TTCGCCCAAC GGGCTTTTTC 
    CAGAGGACTC TCTCTGACCT CGCCTTCAAG TTCAACAGAG ATGACTTTAA GATGAAGGTG 
    CCGGTCATGA TGCTGAGCTC AGTGCCAGAA CTACACGGCT ACATTGATAA GTCACAGCTG 
    ACCGAGGACC TCGGGGGGAC CCTGGACTAC TGCCATTCCA GGTGGCTGTG CCACCGCACG 
    GCGATCGAAA GCTTCGCCCT GATGGTGAAG CAGACAGCTC AGATGCTGCA GGCCTTCGGG 
    ACCGAGCTGG CCGAAACAGA ACTGCCCAAC GATGTCCAAT CAACAAGCTC GGTGCTGAGC 
    ACACACACGG AGAAGAAGGA CAAAGCAAAG GAGGATCTGC AGCTGGCACG GAAAGAGGGG 
    AACAGCATCC TTGAGAGCCT CAGGGAGCCA CTGGCTGAAA GCACTGCCCA CAGTGTAAAC 
    CAAGACCAGC TGGACAATCA GGCCACAGTG CAGAGGCTCC TGGCTCAGCT GAATGAAACG 
    GAGGCCGCCT TTGACGAGTT CTGGGCAAAG CATCAGCAGA AGCTGGAACA GTGCCTGCAG 
    CTGCGGCATT TTGAGCAGGG TTTCCGGGAG GTCAAAACTA CCTTGGATAC CATGTCCCAC 
    AAGATAGCCA CCTTCACTGA CGTTGGTAAC AGCCTGGCAC ATGTGCAACA CCTGCTGAAG 
    GACCTGGCCA GCTTCGAAGA GAAGTCTAGC GTGGCTGTAG ACAGGGCCCG AGCCCTGTCA 
    CTGGAGGGTC AGCAGCTGAT TGAGAACAAG CACTATGCTG TGGACTCCAT CCACCCTAAG 
    TGTGAGGAGC TCCAGCACCT CTGCGATCAC TTCACCGCTG AGATCAGCAG GAGGAGAGGC 
    TTGCTCAGCA AGTCCCTGGA GCTACACAGC CTCTTGGAGA CGTCCATGAA GTGGTGCGAT 
    GAGGGCATCT TCCTGCTGGC CTCGCAACCT GTGGACAAGT GTCAGTCCCA GGATGGTGCT 
    GAGGCAGCCC TCCAGGAGAT CGAGAAATTT TTGGAGACTG GTGCAGAAAA TAAGATTCAA 
    GAACTCAATA AAATTTACAA GGAATATGAG TGCATCCTCA ACCAGGACCT ACTGGAACAC 
    GTGCAAAAGG TCTTTCAGAA GCAAGAAAGT ATGCAAGAGA TGTTCCACCG CAGGCAGGCC 
    AGCCTGAAGA AGCTGGCGGC CAAGCAGACA CGGCCTGTGC AGCCCGTGGC CCCACGGCCA 
    GAGGCACTCA CCAAATCACC CTGCCCCTCC CCAGGCTCCT GGAGAGGATC TGAGAACTCT 
    AGCTCTGAGG GCAGTGCACT CCGTAGAGGG CCCTACAGGA GAGCCAAGAG TGAAATGAGT 
    GAGACCCGGC AGGGCCGTGC CAGCTCCACA GGGGACGAGG AGGAGAGCCT AGCCATCCTG 
    CGCAGGCATG TGATGAATGA GCTCCTAGAC ACGGAACGGG CCTACGTGGA GGAGCTGCTC 
    TGTGTACTAG AGGGCTATGC TGCAGAGATG GACAACCCCC TGATGGCACA CCTCATTTCA 
    GCAGGCCTGC AAAACAAGAA GAACATTCTG TTTGGAAACA TGGAGGAGAT TTATCACTTT 
    CATAACAGGA TATTCCTGCG GGAGCTAGAG AGCTGCATAG ACTGCCCGGA ACTGGTGGGG 
    AGGTGCTTTC TGGAGAGGAT GGAGGAGTTC CAGATCTACG AGAAGTACTG TCAGAACAAG 
    CCACGATCTG AGAGCCTGTG GAGACAGTGC TCTGACTGTC CCTTCTTCCA GGAGTGCCAG 
    AAGAAGTTGG ACCACAAACT GAGCCTTGAT TCCTACCTGC TGAAGCCAGT GCAGAGAATA 
    ACTAAGTACC AGTTGCTGCT TAAGGAAATG TTGAAATACA GCAAGAACTG TGAGGGGGCA 
    GAGGACCTAC AGGAGGCACT GAGCTCCATC CTGGGCATCC TCAAGGCAGT GAATGACTCC 
    ATGCACCTCA TCGCCATCAC TGGCTACGAC GGTAACCTGG GTGATCTGGG GAAGCTGCTG 
    ATGCAAGGTT CCTTCAGTGT ATGGACAGAC CACAAGAAGG GCCACACCAA GGTCAAGGAG 
    CTGGCCAGAT TCAAGCCCAT GCAGCGGCAC CTTTTCCTGC ATGAGAAGGC TGTGCTGTTC 
    TGCAAGAAGA GGGAGGAGAA TGGGGAGGGG TATGAGAAGG CCCCTTCCTA CAGCTACAAG 
    CAGTCATTGA ATATGACTGC TGTTGGCATC ACAGAGAATG TGAAGGGTGA TGCCAAGAAG 
    TTCGAGATCT GGTACAACGC AAGAGAGGAG GTTTACATCA TCCAGGCACC AACCCCTGAG 
    ATTAAAGCAG CATGGGTGAG TGAGATTCGG AAGGTGCTGA CCAGCCAGCT GCAGGCCTGC 
    CGGGAAGCCA GCCAGCACAG GGCCCTGGAG CAGTCCCACA GCCTGCCTTT GCCCACACCA 
    TCCAACACCA GCCCCTCAAA AGGGAACACA AGGAATGTCA AGAAGTCAGA AGAAAGAAAA 
    ACGGACCCCC TGAGCCTGGA AGGATATGTG AGCTCATCGT TGCCGAAGCC CCCTGAGAAA 
    GGCAAAGACG ATGCGGTCCC TAGTTCTACC TCTGAAAGCT CTGCGCTTTC CAGAAAGCGC 
    TTCACGCTGC AGGGCTTGGC TAACCTCAAA GGTCAGAAAG CCTCTCCGAC CAGTCCTGAC 
    AAAAAAGCTA AGCGGCACGA AGTAAAGAGC GACCCGACTC CCTTTGGTTT GCGAGGCTGG 
    AGCAAAACAT CCCACTCCCT GGAAGCCCCT GAGGAGGACG GAGGTTGGTC CAGTGCTGAG 
    GAGCTTGTCA ATTCATCTGA TGCAGAGGAA GATGGAGTGG GCCCCAAGAA GCTGGTTCCT 
    GGTAAATACA CAGTGGTGAT GGACGATGAG AAAGGGGGCC TTGACACCCT TGCTGTGAGG 
    AGCGGGGACA TGGTAGAGGT GGTGGAAGAG GGCGCAGAGG GGCTCTGGTA TGTCCGGGAC 
    CTGACCAGCA GCAAGGAGGG ATGGGTGCCA GCCAGCAGCC TTTCCACCCT CCTGGGCAAA 
    TCCAGTTCAG CCCAGTGTCT GAGCAGCTCA GACTCCAGCC CAGGGTCAGC CGTGCTGAGC 
    AACTCCTCCA GCTGCAGCGA GGGCTGCCCC ACTCCCTTCT CCGACCTCCA GGGGTAG

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

    Mcf2l ( XM_008848414.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846636.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONa31078
    Clone ID Related Accession (Same CDS sequence) XM_008848414.1 , XM_008848414.2
    Accession Version XM_008848414.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGAGACCTC ATGGAGAGCG TGCGCTGGGC TGCTGCGGCC TCTGCACCTG CCCGGCAGCA 
    GCAGGAGATG AAATCATGCA CCAGGACATC GTCCCACTCT GTGCTGCGGA CATCCAGGAG 
    CAGCTGAAGA AGCGCTTTGC TTACCTGTCT GGTGGGCGGG GGCAGGACGG AAGCCCAGTT 
    ATCACCTTTC CAGACTACCC AGCCTTCAGC GAGATCCCGG ACAAGGAGTT CCAGAATGTC 
    ATGACCTATC TCACCAGCAT CCCCAGTTTG CAAGATGCTG GCATTGGATT CATTCTGGTC 
    ATAGACCGAA GGCAGGACAA ATGGACCTCC GTGAAGGCGT CGGTCCTGCG AATAGCCGCA 
    TCTTTCCCAG CAAACCTGCA GCTCGTCCTT GTGCTTCGCC CAACGGGCTT TTTCCAGAGG 
    ACTCTCTCTG ACCTCGCCTT CAAGTTCAAC AGAGATGACT TTAAGATGAA GGTGCCGGTC 
    ATGATGCTGA GCTCAGTGCC AGAACTACAC GGCTACATTG ATAAGTCACA GCTGACCGAG 
    GACCTCGGGG GGACCCTGGA CTACTGCCAT TCCAGGTGGC TGTGCCACCG CACGGCGATC 
    GAAAGCTTCG CCCTGATGGT GAAGCAGACA GCTCAGATGC TGCAGGCCTT CGGGACCGAG 
    CTGGCCGAAA CAGAACTGCC CAACGATGTC CAATCAACAA GCTCGGTGCT GAGCACACAC 
    ACGGAGAAGA AGGACAAAGC AAAGGAGGAT CTGCAGCTGG CACGGAAAGA GGGGAACAGC 
    ATCCTTGAGA GCCTCAGGGA GCCACTGGCT GAAAGCACTG CCCACAGTGT AAACCAAGAC 
    CAGCTGGACA ATCAGGCCAC AGTGCAGAGG CTCCTGGCTC AGCTGAATGA AACGGAGGCC 
    GCCTTTGACG AGTTCTGGGC AAAGCATCAG CAGAAGCTGG AACAGTGCCT GCAGCTGCGG 
    CATTTTGAGC AGGGTTTCCG GGAGGTCAAA ACTACCTTGG ATACCATGTC CCACAAGATA 
    GCCACCTTCA CTGACGTTGG TAACAGCCTG GCACATGTGC AACACCTGCT GAAGGACCTG 
    GCCAGCTTCG AAGAGAAGTC TAGCGTGGCT GTAGACAGGG CCCGAGCCCT GTCACTGGAG 
    GGTCAGCAGC TGATTGAGAA CAAGCACTAT GCTGTGGACT CCATCCACCC TAAGTGTGAG 
    GAGCTCCAGC ACCTCTGCGA TCACTTCACC GCTGAGATCA GCAGGAGGAG AGGCTTGCTC 
    AGCAAGTCCC TGGAGCTACA CAGCCTCTTG GAGACGTCCA TGAAGTGGTG CGATGAGGGC 
    ATCTTCCTGC TGGCCTCGCA ACCTGTGGAC AAGTGTCAGT CCCAGGATGG TGCTGAGGCA 
    GCCCTCCAGG AGATCGAGAA ATTTTTGGAG ACTGGTGCAG AAAATAAGAT TCAAGAACTC 
    AATAAAATTT ACAAGGAATA TGAGTGCATC CTCAACCAGG ACCTACTGGA ACACGTGCAA 
    AAGGTCTTTC AGAAGCAAGA AAGTATGCAA GAGATGTTCC ACCGCAGGCA GGCCAGCCTG 
    AAGAAGCTGG CGGCCAAGCA GACACGGCCT GTGCAGCCCG TGGCCCCACG GCCAGAGGCA 
    CTCACCAAAT CACCCTGCCC CTCCCCAGGC TCCTGGAGAG GATCTGAGAA CTCTAGCTCT 
    GAGGGCAGTG CACTCCGTAG AGGGCCCTAC AGGAGAGCCA AGAGTGAAAT GAGTGAGACC 
    CGGCAGGGCC GTGCCAGCTC CACAGGGGAC GAGGAGGAGA GCCTAGCCAT CCTGCGCAGG 
    CATGTGATGA ATGAGCTCCT AGACACGGAA CGGGCCTACG TGGAGGAGCT GCTCTGTGTA 
    CTAGAGGGCT ATGCTGCAGA GATGGACAAC CCCCTGATGG CACACCTCAT TTCAGCAGGC 
    CTGCAAAACA AGAAGAACAT TCTGTTTGGA AACATGGAGG AGATTTATCA CTTTCATAAC 
    AGGATATTCC TGCGGGAGCT AGAGAGCTGC ATAGACTGCC CGGAACTGGT GGGGAGGTGC 
    TTTCTGGAGA GGATGGAGGA GTTCCAGATC TACGAGAAGT ACTGTCAGAA CAAGCCACGA 
    TCTGAGAGCC TGTGGAGACA GTGCTCTGAC TGTCCCTTCT TCCAGGAGTG CCAGAAGAAG 
    TTGGACCACA AACTGAGCCT TGATTCCTAC CTGCTGAAGC CAGTGCAGAG AATAACTAAG 
    TACCAGTTGC TGCTTAAGGA AATGTTGAAA TACAGCAAGA ACTGTGAGGG GGCAGAGGAC 
    CTACAGGAGG CACTGAGCTC CATCCTGGGC ATCCTCAAGG CAGTGAATGA CTCCATGCAC 
    CTCATCGCCA TCACTGGCTA CGACGGTAAC CTGGGTGATC TGGGGAAGCT GCTGATGCAA 
    GGTTCCTTCA GTGTATGGAC AGACCACAAG AAGGGCCACA CCAAGGTCAA GGAGCTGGCC 
    AGATTCAAGC CCATGCAGCG GCACCTTTTC CTGCATGAGA AGGCTGTGCT GTTCTGCAAG 
    AAGAGGGAGG AGAATGGGGA GGGGTATGAG AAGGCCCCTT CCTACAGCTA CAAGCAGTCA 
    TTGAATATGA CTGCTGTTGG CATCACAGAG AATGTGAAGG GTGATGCCAA GAAGTTCGAG 
    ATCTGGTACA ACGCAAGAGA GGAGGTTTAC ATCATCCAGG CACCAACCCC TGAGATTAAA 
    GCAGCATGGG TGAGTGAGAT TCGGAAGGTG CTGACCAGCC AGCTGCAGGC CTGCCGGGAA 
    GCCAGCCAGC ACAGGGCCCT GGAGCAGTCC CACAGCCTGC CTTTGCCCAC ACCATCCAAC 
    ACCAGCCCCT CAAAAGGGAA CACAAGGAAT GTCAAGAAGT CAGAAGAAAG AAAAACGGAC 
    CCCCTGAGCC TGGAAGGATA TGTGAGCTCA TCGTTGCCGA AGCCCCCTGA GAAAGGCAAA 
    GACGATGCGG TCCCTAGTTC TACCTCTGAA AGCTCTGCGC TTTCCAGAAA GCGCTTCACG 
    CTGCAGGGCT TGGCTAACCT CAAAGGTCAG AAAGCCTCTC CGACCAGTCC TGACAAAAAA 
    GCTAAGCGGC ACGAAGTAAA GAGCGACCCG ACTCCCTTTG GTTTGCGAGG CTGGAGCAAA 
    ACATCCCACT CCCTGGAAGC CCCTGAGGAG GACGGAGGTT GGTCCAGTGC TGAGGAGCTT 
    GTCAATTCAT CTGATGCAGA GGAAGATGGA GTGGGCCCCA AGAAGCTGGT TCCTGGTAAA 
    TACACAGTGG TGATGGACGA TGAGAAAGGG GGCCTTGACA CCCTTGCTGT GAGGAGCGGG 
    GACATGGTAG AGGTGGTGGA AGAGGGCGCA GAGGGGCTCT GGTATGTCCG GGACCTGACC 
    AGCAGCAAGG AGGGATGGGT GCCAGCCAGC AGCCTTTCCA CCCTCCTGGG CAAATCCAGT 
    TCAGCCCAGT GTCTGAGCAG CTCAGACTCC AGCCCAGGGT CAGCCGTGCT GAGCAACTCC 
    TCCAGCTGCA GCGAGGGCTG CCCCACTCCC TTCTCCGACC TCCAGGGGTA G

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

    RefSeq XP_008846636.1
    CDS125..3655
    Translation

    Target ORF information:

    RefSeq Version XM_008848414.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848414.1

    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
    ATGAGACCTC ATGGAGAGCG TGCGCTGGGC TGCTGCGGCC TCTGCACCTG CCCGGCAGCA 
    GCAGGAGATG AAATCATGCA CCAGGACATC GTCCCACTCT GTGCTGCGGA CATCCAGGAG 
    CAGCTGAAGA AGCGCTTTGC TTACCTGTCT GGTGGGCGGG GGCAGGACGG AAGCCCAGTT 
    ATCACCTTTC CAGACTACCC AGCCTTCAGC GAGATCCCGG ACAAGGAGTT CCAGAATGTC 
    ATGACCTATC TCACCAGCAT CCCCAGTTTG CAAGATGCTG GCATTGGATT CATTCTGGTC 
    ATAGACCGAA GGCAGGACAA ATGGACCTCC GTGAAGGCGT CGGTCCTGCG AATAGCCGCA 
    TCTTTCCCAG CAAACCTGCA GCTCGTCCTT GTGCTTCGCC CAACGGGCTT TTTCCAGAGG 
    ACTCTCTCTG ACCTCGCCTT CAAGTTCAAC AGAGATGACT TTAAGATGAA GGTGCCGGTC 
    ATGATGCTGA GCTCAGTGCC AGAACTACAC GGCTACATTG ATAAGTCACA GCTGACCGAG 
    GACCTCGGGG GGACCCTGGA CTACTGCCAT TCCAGGTGGC TGTGCCACCG CACGGCGATC 
    GAAAGCTTCG CCCTGATGGT GAAGCAGACA GCTCAGATGC TGCAGGCCTT CGGGACCGAG 
    CTGGCCGAAA CAGAACTGCC CAACGATGTC CAATCAACAA GCTCGGTGCT GAGCACACAC 
    ACGGAGAAGA AGGACAAAGC AAAGGAGGAT CTGCAGCTGG CACGGAAAGA GGGGAACAGC 
    ATCCTTGAGA GCCTCAGGGA GCCACTGGCT GAAAGCACTG CCCACAGTGT AAACCAAGAC 
    CAGCTGGACA ATCAGGCCAC AGTGCAGAGG CTCCTGGCTC AGCTGAATGA AACGGAGGCC 
    GCCTTTGACG AGTTCTGGGC AAAGCATCAG CAGAAGCTGG AACAGTGCCT GCAGCTGCGG 
    CATTTTGAGC AGGGTTTCCG GGAGGTCAAA ACTACCTTGG ATACCATGTC CCACAAGATA 
    GCCACCTTCA CTGACGTTGG TAACAGCCTG GCACATGTGC AACACCTGCT GAAGGACCTG 
    GCCAGCTTCG AAGAGAAGTC TAGCGTGGCT GTAGACAGGG CCCGAGCCCT GTCACTGGAG 
    GGTCAGCAGC TGATTGAGAA CAAGCACTAT GCTGTGGACT CCATCCACCC TAAGTGTGAG 
    GAGCTCCAGC ACCTCTGCGA TCACTTCACC GCTGAGATCA GCAGGAGGAG AGGCTTGCTC 
    AGCAAGTCCC TGGAGCTACA CAGCCTCTTG GAGACGTCCA TGAAGTGGTG CGATGAGGGC 
    ATCTTCCTGC TGGCCTCGCA ACCTGTGGAC AAGTGTCAGT CCCAGGATGG TGCTGAGGCA 
    GCCCTCCAGG AGATCGAGAA ATTTTTGGAG ACTGGTGCAG AAAATAAGAT TCAAGAACTC 
    AATAAAATTT ACAAGGAATA TGAGTGCATC CTCAACCAGG ACCTACTGGA ACACGTGCAA 
    AAGGTCTTTC AGAAGCAAGA AAGTATGCAA GAGATGTTCC ACCGCAGGCA GGCCAGCCTG 
    AAGAAGCTGG CGGCCAAGCA GACACGGCCT GTGCAGCCCG TGGCCCCACG GCCAGAGGCA 
    CTCACCAAAT CACCCTGCCC CTCCCCAGGC TCCTGGAGAG GATCTGAGAA CTCTAGCTCT 
    GAGGGCAGTG CACTCCGTAG AGGGCCCTAC AGGAGAGCCA AGAGTGAAAT GAGTGAGACC 
    CGGCAGGGCC GTGCCAGCTC CACAGGGGAC GAGGAGGAGA GCCTAGCCAT CCTGCGCAGG 
    CATGTGATGA ATGAGCTCCT AGACACGGAA CGGGCCTACG TGGAGGAGCT GCTCTGTGTA 
    CTAGAGGGCT ATGCTGCAGA GATGGACAAC CCCCTGATGG CACACCTCAT TTCAGCAGGC 
    CTGCAAAACA AGAAGAACAT TCTGTTTGGA AACATGGAGG AGATTTATCA CTTTCATAAC 
    AGGATATTCC TGCGGGAGCT AGAGAGCTGC ATAGACTGCC CGGAACTGGT GGGGAGGTGC 
    TTTCTGGAGA GGATGGAGGA GTTCCAGATC TACGAGAAGT ACTGTCAGAA CAAGCCACGA 
    TCTGAGAGCC TGTGGAGACA GTGCTCTGAC TGTCCCTTCT TCCAGGAGTG CCAGAAGAAG 
    TTGGACCACA AACTGAGCCT TGATTCCTAC CTGCTGAAGC CAGTGCAGAG AATAACTAAG 
    TACCAGTTGC TGCTTAAGGA AATGTTGAAA TACAGCAAGA ACTGTGAGGG GGCAGAGGAC 
    CTACAGGAGG CACTGAGCTC CATCCTGGGC ATCCTCAAGG CAGTGAATGA CTCCATGCAC 
    CTCATCGCCA TCACTGGCTA CGACGGTAAC CTGGGTGATC TGGGGAAGCT GCTGATGCAA 
    GGTTCCTTCA GTGTATGGAC AGACCACAAG AAGGGCCACA CCAAGGTCAA GGAGCTGGCC 
    AGATTCAAGC CCATGCAGCG GCACCTTTTC CTGCATGAGA AGGCTGTGCT GTTCTGCAAG 
    AAGAGGGAGG AGAATGGGGA GGGGTATGAG AAGGCCCCTT CCTACAGCTA CAAGCAGTCA 
    TTGAATATGA CTGCTGTTGG CATCACAGAG AATGTGAAGG GTGATGCCAA GAAGTTCGAG 
    ATCTGGTACA ACGCAAGAGA GGAGGTTTAC ATCATCCAGG CACCAACCCC TGAGATTAAA 
    GCAGCATGGG TGAGTGAGAT TCGGAAGGTG CTGACCAGCC AGCTGCAGGC CTGCCGGGAA 
    GCCAGCCAGC ACAGGGCCCT GGAGCAGTCC CACAGCCTGC CTTTGCCCAC ACCATCCAAC 
    ACCAGCCCCT CAAAAGGGAA CACAAGGAAT GTCAAGAAGT CAGAAGAAAG AAAAACGGAC 
    CCCCTGAGCC TGGAAGGATA TGTGAGCTCA TCGTTGCCGA AGCCCCCTGA GAAAGGCAAA 
    GACGATGCGG TCCCTAGTTC TACCTCTGAA AGCTCTGCGC TTTCCAGAAA GCGCTTCACG 
    CTGCAGGGCT TGGCTAACCT CAAAGGTCAG AAAGCCTCTC CGACCAGTCC TGACAAAAAA 
    GCTAAGCGGC ACGAAGTAAA GAGCGACCCG ACTCCCTTTG GTTTGCGAGG CTGGAGCAAA 
    ACATCCCACT CCCTGGAAGC CCCTGAGGAG GACGGAGGTT GGTCCAGTGC TGAGGAGCTT 
    GTCAATTCAT CTGATGCAGA GGAAGATGGA GTGGGCCCCA AGAAGCTGGT TCCTGGTAAA 
    TACACAGTGG TGATGGACGA TGAGAAAGGG GGCCTTGACA CCCTTGCTGT GAGGAGCGGG 
    GACATGGTAG AGGTGGTGGA AGAGGGCGCA GAGGGGCTCT GGTATGTCCG GGACCTGACC 
    AGCAGCAAGG AGGGATGGGT GCCAGCCAGC AGCCTTTCCA CCCTCCTGGG CAAATCCAGT 
    TCAGCCCAGT GTCTGAGCAG CTCAGACTCC AGCCCAGGGT CAGCCGTGCT GAGCAACTCC 
    TCCAGCTGCA GCGAGGGCTG CCCCACTCCC TTCTCCGACC TCCAGGGGTA G

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

    Mcf2l ( XM_008848414.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846636.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONa31078
    Clone ID Related Accession (Same CDS sequence) XM_008848414.1 , XM_008848414.2
    Accession Version XM_008848414.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3531bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848414.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAGACCTC ATGGAGAGCG TGCGCTGGGC TGCTGCGGCC TCTGCACCTG CCCGGCAGCA 
    GCAGGAGATG AAATCATGCA CCAGGACATC GTCCCACTCT GTGCTGCGGA CATCCAGGAG 
    CAGCTGAAGA AGCGCTTTGC TTACCTGTCT GGTGGGCGGG GGCAGGACGG AAGCCCAGTT 
    ATCACCTTTC CAGACTACCC AGCCTTCAGC GAGATCCCGG ACAAGGAGTT CCAGAATGTC 
    ATGACCTATC TCACCAGCAT CCCCAGTTTG CAAGATGCTG GCATTGGATT CATTCTGGTC 
    ATAGACCGAA GGCAGGACAA ATGGACCTCC GTGAAGGCGT CGGTCCTGCG AATAGCCGCA 
    TCTTTCCCAG CAAACCTGCA GCTCGTCCTT GTGCTTCGCC CAACGGGCTT TTTCCAGAGG 
    ACTCTCTCTG ACCTCGCCTT CAAGTTCAAC AGAGATGACT TTAAGATGAA GGTGCCGGTC 
    ATGATGCTGA GCTCAGTGCC AGAACTACAC GGCTACATTG ATAAGTCACA GCTGACCGAG 
    GACCTCGGGG GGACCCTGGA CTACTGCCAT TCCAGGTGGC TGTGCCACCG CACGGCGATC 
    GAAAGCTTCG CCCTGATGGT GAAGCAGACA GCTCAGATGC TGCAGGCCTT CGGGACCGAG 
    CTGGCCGAAA CAGAACTGCC CAACGATGTC CAATCAACAA GCTCGGTGCT GAGCACACAC 
    ACGGAGAAGA AGGACAAAGC AAAGGAGGAT CTGCAGCTGG CACGGAAAGA GGGGAACAGC 
    ATCCTTGAGA GCCTCAGGGA GCCACTGGCT GAAAGCACTG CCCACAGTGT AAACCAAGAC 
    CAGCTGGACA ATCAGGCCAC AGTGCAGAGG CTCCTGGCTC AGCTGAATGA AACGGAGGCC 
    GCCTTTGACG AGTTCTGGGC AAAGCATCAG CAGAAGCTGG AACAGTGCCT GCAGCTGCGG 
    CATTTTGAGC AGGGTTTCCG GGAGGTCAAA ACTACCTTGG ATACCATGTC CCACAAGATA 
    GCCACCTTCA CTGACGTTGG TAACAGCCTG GCACATGTGC AACACCTGCT GAAGGACCTG 
    GCCAGCTTCG AAGAGAAGTC TAGCGTGGCT GTAGACAGGG CCCGAGCCCT GTCACTGGAG 
    GGTCAGCAGC TGATTGAGAA CAAGCACTAT GCTGTGGACT CCATCCACCC TAAGTGTGAG 
    GAGCTCCAGC ACCTCTGCGA TCACTTCACC GCTGAGATCA GCAGGAGGAG AGGCTTGCTC 
    AGCAAGTCCC TGGAGCTACA CAGCCTCTTG GAGACGTCCA TGAAGTGGTG CGATGAGGGC 
    ATCTTCCTGC TGGCCTCGCA ACCTGTGGAC AAGTGTCAGT CCCAGGATGG TGCTGAGGCA 
    GCCCTCCAGG AGATCGAGAA ATTTTTGGAG ACTGGTGCAG AAAATAAGAT TCAAGAACTC 
    AATAAAATTT ACAAGGAATA TGAGTGCATC CTCAACCAGG ACCTACTGGA ACACGTGCAA 
    AAGGTCTTTC AGAAGCAAGA AAGTATGCAA GAGATGTTCC ACCGCAGGCA GGCCAGCCTG 
    AAGAAGCTGG CGGCCAAGCA GACACGGCCT GTGCAGCCCG TGGCCCCACG GCCAGAGGCA 
    CTCACCAAAT CACCCTGCCC CTCCCCAGGC TCCTGGAGAG GATCTGAGAA CTCTAGCTCT 
    GAGGGCAGTG CACTCCGTAG AGGGCCCTAC AGGAGAGCCA AGAGTGAAAT GAGTGAGACC 
    CGGCAGGGCC GTGCCAGCTC CACAGGGGAC GAGGAGGAGA GCCTAGCCAT CCTGCGCAGG 
    CATGTGATGA ATGAGCTCCT AGACACGGAA CGGGCCTACG TGGAGGAGCT GCTCTGTGTA 
    CTAGAGGGCT ATGCTGCAGA GATGGACAAC CCCCTGATGG CACACCTCAT TTCAGCAGGC 
    CTGCAAAACA AGAAGAACAT TCTGTTTGGA AACATGGAGG AGATTTATCA CTTTCATAAC 
    AGGATATTCC TGCGGGAGCT AGAGAGCTGC ATAGACTGCC CGGAACTGGT GGGGAGGTGC 
    TTTCTGGAGA GGATGGAGGA GTTCCAGATC TACGAGAAGT ACTGTCAGAA CAAGCCACGA 
    TCTGAGAGCC TGTGGAGACA GTGCTCTGAC TGTCCCTTCT TCCAGGAGTG CCAGAAGAAG 
    TTGGACCACA AACTGAGCCT TGATTCCTAC CTGCTGAAGC CAGTGCAGAG AATAACTAAG 
    TACCAGTTGC TGCTTAAGGA AATGTTGAAA TACAGCAAGA ACTGTGAGGG GGCAGAGGAC 
    CTACAGGAGG CACTGAGCTC CATCCTGGGC ATCCTCAAGG CAGTGAATGA CTCCATGCAC 
    CTCATCGCCA TCACTGGCTA CGACGGTAAC CTGGGTGATC TGGGGAAGCT GCTGATGCAA 
    GGTTCCTTCA GTGTATGGAC AGACCACAAG AAGGGCCACA CCAAGGTCAA GGAGCTGGCC 
    AGATTCAAGC CCATGCAGCG GCACCTTTTC CTGCATGAGA AGGCTGTGCT GTTCTGCAAG 
    AAGAGGGAGG AGAATGGGGA GGGGTATGAG AAGGCCCCTT CCTACAGCTA CAAGCAGTCA 
    TTGAATATGA CTGCTGTTGG CATCACAGAG AATGTGAAGG GTGATGCCAA GAAGTTCGAG 
    ATCTGGTACA ACGCAAGAGA GGAGGTTTAC ATCATCCAGG CACCAACCCC TGAGATTAAA 
    GCAGCATGGG TGAGTGAGAT TCGGAAGGTG CTGACCAGCC AGCTGCAGGC CTGCCGGGAA 
    GCCAGCCAGC ACAGGGCCCT GGAGCAGTCC CACAGCCTGC CTTTGCCCAC ACCATCCAAC 
    ACCAGCCCCT CAAAAGGGAA CACAAGGAAT GTCAAGAAGT CAGAAGAAAG AAAAACGGAC 
    CCCCTGAGCC TGGAAGGATA TGTGAGCTCA TCGTTGCCGA AGCCCCCTGA GAAAGGCAAA 
    GACGATGCGG TCCCTAGTTC TACCTCTGAA AGCTCTGCGC TTTCCAGAAA GCGCTTCACG 
    CTGCAGGGCT TGGCTAACCT CAAAGGTCAG AAAGCCTCTC CGACCAGTCC TGACAAAAAA 
    GCTAAGCGGC ACGAAGTAAA GAGCGACCCG ACTCCCTTTG GTTTGCGAGG CTGGAGCAAA 
    ACATCCCACT CCCTGGAAGC CCCTGAGGAG GACGGAGGTT GGTCCAGTGC TGAGGAGCTT 
    GTCAATTCAT CTGATGCAGA GGAAGATGGA GTGGGCCCCA AGAAGCTGGT TCCTGGTAAA 
    TACACAGTGG TGATGGACGA TGAGAAAGGG GGCCTTGACA CCCTTGCTGT GAGGAGCGGG 
    GACATGGTAG AGGTGGTGGA AGAGGGCGCA GAGGGGCTCT GGTATGTCCG GGACCTGACC 
    AGCAGCAAGG AGGGATGGGT GCCAGCCAGC AGCCTTTCCA CCCTCCTGGG CAAATCCAGT 
    TCAGCCCAGT GTCTGAGCAG CTCAGACTCC AGCCCAGGGT CAGCCGTGCT GAGCAACTCC 
    TCCAGCTGCA GCGAGGGCTG CCCCACTCCC TTCTCCGACC TCCAGGGGTA G

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

    RefSeq XP_008846636.1
    CDS123..3653
    Translation

    Target ORF information:

    RefSeq Version XM_008848414.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848414.2

    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
    ATGAGACCTC ATGGAGAGCG TGCGCTGGGC TGCTGCGGCC TCTGCACCTG CCCGGCAGCA 
    GCAGGAGATG AAATCATGCA CCAGGACATC GTCCCACTCT GTGCTGCGGA CATCCAGGAG 
    CAGCTGAAGA AGCGCTTTGC TTACCTGTCT GGTGGGCGGG GGCAGGACGG AAGCCCAGTT 
    ATCACCTTTC CAGACTACCC AGCCTTCAGC GAGATCCCGG ACAAGGAGTT CCAGAATGTC 
    ATGACCTATC TCACCAGCAT CCCCAGTTTG CAAGATGCTG GCATTGGATT CATTCTGGTC 
    ATAGACCGAA GGCAGGACAA ATGGACCTCC GTGAAGGCGT CGGTCCTGCG AATAGCCGCA 
    TCTTTCCCAG CAAACCTGCA GCTCGTCCTT GTGCTTCGCC CAACGGGCTT TTTCCAGAGG 
    ACTCTCTCTG ACCTCGCCTT CAAGTTCAAC AGAGATGACT TTAAGATGAA GGTGCCGGTC 
    ATGATGCTGA GCTCAGTGCC AGAACTACAC GGCTACATTG ATAAGTCACA GCTGACCGAG 
    GACCTCGGGG GGACCCTGGA CTACTGCCAT TCCAGGTGGC TGTGCCACCG CACGGCGATC 
    GAAAGCTTCG CCCTGATGGT GAAGCAGACA GCTCAGATGC TGCAGGCCTT CGGGACCGAG 
    CTGGCCGAAA CAGAACTGCC CAACGATGTC CAATCAACAA GCTCGGTGCT GAGCACACAC 
    ACGGAGAAGA AGGACAAAGC AAAGGAGGAT CTGCAGCTGG CACGGAAAGA GGGGAACAGC 
    ATCCTTGAGA GCCTCAGGGA GCCACTGGCT GAAAGCACTG CCCACAGTGT AAACCAAGAC 
    CAGCTGGACA ATCAGGCCAC AGTGCAGAGG CTCCTGGCTC AGCTGAATGA AACGGAGGCC 
    GCCTTTGACG AGTTCTGGGC AAAGCATCAG CAGAAGCTGG AACAGTGCCT GCAGCTGCGG 
    CATTTTGAGC AGGGTTTCCG GGAGGTCAAA ACTACCTTGG ATACCATGTC CCACAAGATA 
    GCCACCTTCA CTGACGTTGG TAACAGCCTG GCACATGTGC AACACCTGCT GAAGGACCTG 
    GCCAGCTTCG AAGAGAAGTC TAGCGTGGCT GTAGACAGGG CCCGAGCCCT GTCACTGGAG 
    GGTCAGCAGC TGATTGAGAA CAAGCACTAT GCTGTGGACT CCATCCACCC TAAGTGTGAG 
    GAGCTCCAGC ACCTCTGCGA TCACTTCACC GCTGAGATCA GCAGGAGGAG AGGCTTGCTC 
    AGCAAGTCCC TGGAGCTACA CAGCCTCTTG GAGACGTCCA TGAAGTGGTG CGATGAGGGC 
    ATCTTCCTGC TGGCCTCGCA ACCTGTGGAC AAGTGTCAGT CCCAGGATGG TGCTGAGGCA 
    GCCCTCCAGG AGATCGAGAA ATTTTTGGAG ACTGGTGCAG AAAATAAGAT TCAAGAACTC 
    AATAAAATTT ACAAGGAATA TGAGTGCATC CTCAACCAGG ACCTACTGGA ACACGTGCAA 
    AAGGTCTTTC AGAAGCAAGA AAGTATGCAA GAGATGTTCC ACCGCAGGCA GGCCAGCCTG 
    AAGAAGCTGG CGGCCAAGCA GACACGGCCT GTGCAGCCCG TGGCCCCACG GCCAGAGGCA 
    CTCACCAAAT CACCCTGCCC CTCCCCAGGC TCCTGGAGAG GATCTGAGAA CTCTAGCTCT 
    GAGGGCAGTG CACTCCGTAG AGGGCCCTAC AGGAGAGCCA AGAGTGAAAT GAGTGAGACC 
    CGGCAGGGCC GTGCCAGCTC CACAGGGGAC GAGGAGGAGA GCCTAGCCAT CCTGCGCAGG 
    CATGTGATGA ATGAGCTCCT AGACACGGAA CGGGCCTACG TGGAGGAGCT GCTCTGTGTA 
    CTAGAGGGCT ATGCTGCAGA GATGGACAAC CCCCTGATGG CACACCTCAT TTCAGCAGGC 
    CTGCAAAACA AGAAGAACAT TCTGTTTGGA AACATGGAGG AGATTTATCA CTTTCATAAC 
    AGGATATTCC TGCGGGAGCT AGAGAGCTGC ATAGACTGCC CGGAACTGGT GGGGAGGTGC 
    TTTCTGGAGA GGATGGAGGA GTTCCAGATC TACGAGAAGT ACTGTCAGAA CAAGCCACGA 
    TCTGAGAGCC TGTGGAGACA GTGCTCTGAC TGTCCCTTCT TCCAGGAGTG CCAGAAGAAG 
    TTGGACCACA AACTGAGCCT TGATTCCTAC CTGCTGAAGC CAGTGCAGAG AATAACTAAG 
    TACCAGTTGC TGCTTAAGGA AATGTTGAAA TACAGCAAGA ACTGTGAGGG GGCAGAGGAC 
    CTACAGGAGG CACTGAGCTC CATCCTGGGC ATCCTCAAGG CAGTGAATGA CTCCATGCAC 
    CTCATCGCCA TCACTGGCTA CGACGGTAAC CTGGGTGATC TGGGGAAGCT GCTGATGCAA 
    GGTTCCTTCA GTGTATGGAC AGACCACAAG AAGGGCCACA CCAAGGTCAA GGAGCTGGCC 
    AGATTCAAGC CCATGCAGCG GCACCTTTTC CTGCATGAGA AGGCTGTGCT GTTCTGCAAG 
    AAGAGGGAGG AGAATGGGGA GGGGTATGAG AAGGCCCCTT CCTACAGCTA CAAGCAGTCA 
    TTGAATATGA CTGCTGTTGG CATCACAGAG AATGTGAAGG GTGATGCCAA GAAGTTCGAG 
    ATCTGGTACA ACGCAAGAGA GGAGGTTTAC ATCATCCAGG CACCAACCCC TGAGATTAAA 
    GCAGCATGGG TGAGTGAGAT TCGGAAGGTG CTGACCAGCC AGCTGCAGGC CTGCCGGGAA 
    GCCAGCCAGC ACAGGGCCCT GGAGCAGTCC CACAGCCTGC CTTTGCCCAC ACCATCCAAC 
    ACCAGCCCCT CAAAAGGGAA CACAAGGAAT GTCAAGAAGT CAGAAGAAAG AAAAACGGAC 
    CCCCTGAGCC TGGAAGGATA TGTGAGCTCA TCGTTGCCGA AGCCCCCTGA GAAAGGCAAA 
    GACGATGCGG TCCCTAGTTC TACCTCTGAA AGCTCTGCGC TTTCCAGAAA GCGCTTCACG 
    CTGCAGGGCT TGGCTAACCT CAAAGGTCAG AAAGCCTCTC CGACCAGTCC TGACAAAAAA 
    GCTAAGCGGC ACGAAGTAAA GAGCGACCCG ACTCCCTTTG GTTTGCGAGG CTGGAGCAAA 
    ACATCCCACT CCCTGGAAGC CCCTGAGGAG GACGGAGGTT GGTCCAGTGC TGAGGAGCTT 
    GTCAATTCAT CTGATGCAGA GGAAGATGGA GTGGGCCCCA AGAAGCTGGT TCCTGGTAAA 
    TACACAGTGG TGATGGACGA TGAGAAAGGG GGCCTTGACA CCCTTGCTGT GAGGAGCGGG 
    GACATGGTAG AGGTGGTGGA AGAGGGCGCA GAGGGGCTCT GGTATGTCCG GGACCTGACC 
    AGCAGCAAGG AGGGATGGGT GCCAGCCAGC AGCCTTTCCA CCCTCCTGGG CAAATCCAGT 
    TCAGCCCAGT GTCTGAGCAG CTCAGACTCC AGCCCAGGGT CAGCCGTGCT GAGCAACTCC 
    TCCAGCTGCA GCGAGGGCTG CCCCACTCCC TTCTCCGACC TCCAGGGGTA G

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

    Mcf2l ( XM_008848416.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846638.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONa31079
    Clone ID Related Accession (Same CDS sequence) XM_008848416.1 , XM_008848416.2
    Accession Version XM_008848416.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3462bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGACTC CAGCCCAGGG TCAGCCGTGC TGAGCAACTC CTCCAGCTGC 
    AGCGAGGGCT GCCCCACTCC CTTCTCCGAC CTCCAGGGGT AG

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

    RefSeq XP_008846638.1
    CDS29..3490
    Translation

    Target ORF information:

    RefSeq Version XM_008848416.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848416.1

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGACTC CAGCCCAGGG TCAGCCGTGC TGAGCAACTC CTCCAGCTGC 
    AGCGAGGGCT GCCCCACTCC CTTCTCCGAC CTCCAGGGGT AG

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

    Mcf2l ( XM_008848416.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846638.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONa31079
    Clone ID Related Accession (Same CDS sequence) XM_008848416.1 , XM_008848416.2
    Accession Version XM_008848416.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3462bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848416.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGACTC CAGCCCAGGG TCAGCCGTGC TGAGCAACTC CTCCAGCTGC 
    AGCGAGGGCT GCCCCACTCC CTTCTCCGAC CTCCAGGGGT AG

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

    RefSeq XP_008846638.1
    CDS163..3624
    Translation

    Target ORF information:

    RefSeq Version XM_008848416.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848416.2

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGACTC CAGCCCAGGG TCAGCCGTGC TGAGCAACTC CTCCAGCTGC 
    AGCGAGGGCT GCCCCACTCC CTTCTCCGAC CTCCAGGGGT AG

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

    Mcf2l ( XM_008848417.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846639.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID ONa31080
    Clone ID Related Accession (Same CDS sequence) XM_008848417.1 , XM_008848417.2
    Accession Version XM_008848417.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3456bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGGTGT GCAGAGGAAA GAGCCAGAGC CGAAGCCTGT CTCCACTGGT 
    TTCCCGCAGA CTCCAGCCCA GGGTCAGCCG TGCTGA

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

    RefSeq XP_008846639.1
    CDS29..3484
    Translation

    Target ORF information:

    RefSeq Version XM_008848417.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848417.1

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGGTGT GCAGAGGAAA GAGCCAGAGC CGAAGCCTGT CTCCACTGGT 
    TTCCCGCAGA CTCCAGCCCA GGGTCAGCCG TGCTGA

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

    Mcf2l ( XM_008848417.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846639.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID ONa31080
    Clone ID Related Accession (Same CDS sequence) XM_008848417.1 , XM_008848417.2
    Accession Version XM_008848417.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3456bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_008848417.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGGTGT GCAGAGGAAA GAGCCAGAGC CGAAGCCTGT CTCCACTGGT 
    TTCCCGCAGA CTCCAGCCCA GGGTCAGCCG TGCTGA

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

    RefSeq XP_008846639.1
    CDS163..3618
    Translation

    Target ORF information:

    RefSeq Version XM_008848417.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848417.2

    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
    ATGTCCGACT GCTGGAGATT TATCTTGTGC AAGGACCGTG GAAGAGACAG CCCCTCACCA 
    CAGGAGCACA ATGGGGTCCC GAAGGAGGAG GCTGATCACC AAGTGGATGT GTCTGACGGT 
    ATCAAGCTTG TTCCAGACAA AGCAGAGGCA ATGGTCACAG CCCCAGATGA AATCATGCAC 
    CAGGACATCG TCCCACTCTG TGCTGCGGAC ATCCAGGAGC AGCTGAAGAA GCGCTTTGCT 
    TACCTGTCTG GTGGGCGGGG GCAGGACGGA AGCCCAGTTA TCACCTTTCC AGACTACCCA 
    GCCTTCAGCG AGATCCCGGA CAAGGAGTTC CAGAATGTCA TGACCTATCT CACCAGCATC 
    CCCAGTTTGC AAGATGCTGG CATTGGATTC ATTCTGGTCA TAGACCGAAG GCAGGACAAA 
    TGGACCTCCG TGAAGGCGTC GGTCCTGCGA ATAGCCGCAT CTTTCCCAGC AAACCTGCAG 
    CTCGTCCTTG TGCTTCGCCC AACGGGCTTT TTCCAGAGGA CTCTCTCTGA CCTCGCCTTC 
    AAGTTCAACA GAGATGACTT TAAGATGAAG GTGCCGGTCA TGATGCTGAG CTCAGTGCCA 
    GAACTACACG GCTACATTGA TAAGTCACAG CTGACCGAGG ACCTCGGGGG GACCCTGGAC 
    TACTGCCATT CCAGGTGGCT GTGCCACCGC ACGGCGATCG AAAGCTTCGC CCTGATGGTG 
    AAGCAGACAG CTCAGATGCT GCAGGCCTTC GGGACCGAGC TGGCCGAAAC AGAACTGCCC 
    AACGATGTCC AATCAACAAG CTCGGTGCTG AGCACACACA CGGAGAAGAA GGACAAAGCA 
    AAGGAGGATC TGCAGCTGGC ACGGAAAGAG GGGAACAGCA TCCTTGAGAG CCTCAGGGAG 
    CCACTGGCTG AAAGCACTGC CCACAGTGTA AACCAAGACC AGCTGGACAA TCAGGCCACA 
    GTGCAGAGGC TCCTGGCTCA GCTGAATGAA ACGGAGGCCG CCTTTGACGA GTTCTGGGCA 
    AAGCATCAGC AGAAGCTGGA ACAGTGCCTG CAGCTGCGGC ATTTTGAGCA GGGTTTCCGG 
    GAGGTCAAAA CTACCTTGGA TACCATGTCC CACAAGATAG CCACCTTCAC TGACGTTGGT 
    AACAGCCTGG CACATGTGCA ACACCTGCTG AAGGACCTGG CCAGCTTCGA AGAGAAGTCT 
    AGCGTGGCTG TAGACAGGGC CCGAGCCCTG TCACTGGAGG GTCAGCAGCT GATTGAGAAC 
    AAGCACTATG CTGTGGACTC CATCCACCCT AAGTGTGAGG AGCTCCAGCA CCTCTGCGAT 
    CACTTCACCG CTGAGATCAG CAGGAGGAGA GGCTTGCTCA GCAAGTCCCT GGAGCTACAC 
    AGCCTCTTGG AGACGTCCAT GAAGTGGTGC GATGAGGGCA TCTTCCTGCT GGCCTCGCAA 
    CCTGTGGACA AGTGTCAGTC CCAGGATGGT GCTGAGGCAG CCCTCCAGGA GATCGAGAAA 
    TTTTTGGAGA CTGGTGCAGA AAATAAGATT CAAGAACTCA ATAAAATTTA CAAGGAATAT 
    GAGTGCATCC TCAACCAGGA CCTACTGGAA CACGTGCAAA AGGTCTTTCA GAAGCAAGAA 
    AGTATGCAAG AGATGTTCCA CCGCAGGCAG GCCAGCCTGA AGAAGCTGGC GGCCAAGCAG 
    ACACGGCCTG TGCAGCCCGT GGCCCCACGG CCAGAGGCAC TCACCAAATC ACCCTGCCCC 
    TCCCCAGGCT CCTGGAGAGG ATCTGAGAAC TCTAGCTCTG AGGGCAGTGC ACTCCGTAGA 
    GGGCCCTACA GGAGAGCCAA GAGTGAAATG AGTGAGACCC GGCAGGGCCG TGCCAGCTCC 
    ACAGGGGACG AGGAGGAGAG CCTAGCCATC CTGCGCAGGC ATGTGATGAA TGAGCTCCTA 
    GACACGGAAC GGGCCTACGT GGAGGAGCTG CTCTGTGTAC TAGAGGGCTA TGCTGCAGAG 
    ATGGACAACC CCCTGATGGC ACACCTCATT TCAGCAGGCC TGCAAAACAA GAAGAACATT 
    CTGTTTGGAA ACATGGAGGA GATTTATCAC TTTCATAACA GGATATTCCT GCGGGAGCTA 
    GAGAGCTGCA TAGACTGCCC GGAACTGGTG GGGAGGTGCT TTCTGGAGAG GATGGAGGAG 
    TTCCAGATCT ACGAGAAGTA CTGTCAGAAC AAGCCACGAT CTGAGAGCCT GTGGAGACAG 
    TGCTCTGACT GTCCCTTCTT CCAGGAGTGC CAGAAGAAGT TGGACCACAA ACTGAGCCTT 
    GATTCCTACC TGCTGAAGCC AGTGCAGAGA ATAACTAAGT ACCAGTTGCT GCTTAAGGAA 
    ATGTTGAAAT ACAGCAAGAA CTGTGAGGGG GCAGAGGACC TACAGGAGGC ACTGAGCTCC 
    ATCCTGGGCA TCCTCAAGGC AGTGAATGAC TCCATGCACC TCATCGCCAT CACTGGCTAC 
    GACGGTAACC TGGGTGATCT GGGGAAGCTG CTGATGCAAG GTTCCTTCAG TGTATGGACA 
    GACCACAAGA AGGGCCACAC CAAGGTCAAG GAGCTGGCCA GATTCAAGCC CATGCAGCGG 
    CACCTTTTCC TGCATGAGAA GGCTGTGCTG TTCTGCAAGA AGAGGGAGGA GAATGGGGAG 
    GGGTATGAGA AGGCCCCTTC CTACAGCTAC AAGCAGTCAT TGAATATGAC TGCTGTTGGC 
    ATCACAGAGA ATGTGAAGGG TGATGCCAAG AAGTTCGAGA TCTGGTACAA CGCAAGAGAG 
    GAGGTTTACA TCATCCAGGC ACCAACCCCT GAGATTAAAG CAGCATGGGT GAGTGAGATT 
    CGGAAGGTGC TGACCAGCCA GCTGCAGGCC TGCCGGGAAG CCAGCCAGCA CAGGGCCCTG 
    GAGCAGTCCC ACAGCCTGCC TTTGCCCACA CCATCCAACA CCAGCCCCTC AAAAGGGAAC 
    ACAAGGAATG TCAAGAAGTC AGAAGAAAGA AAAACGGACC CCCTGAGCCT GGAAGGATAT 
    GTGAGCTCAT CGTTGCCGAA GCCCCCTGAG AAAGGCAAAG GCTGGAGCAA AACATCCCAC 
    TCCCTGGAAG CCCCTGAGGA GGACGGAGGT TGGTCCAGTG CTGAGGAGCT TGTCAATTCA 
    TCTGATGCAG AGGAAGATGG AGTGGGCCCC AAGAAGCTGG TTCCTGGTAA ATACACAGTG 
    GTGATGGACG ATGAGAAAGG GGGCCTTGAC ACCCTTGCTG TGAGGAGCGG GGACATGGTA 
    GAGGTGGTGG AAGAGGGCGC AGAGGGGCTC TGGTATGTCC GGGACCTGAC CAGCAGCAAG 
    GAGGGATGGG TGCCAGCCAG CAGCCTTTCC ACCCTCCTGG GCAAATCCAG TTCAGCCCAG 
    TGTCTGAGCA GCTCAGGTGT GCAGAGGAAA GAGCCAGAGC CGAAGCCTGT CTCCACTGGT 
    TTCCCGCAGA CTCCAGCCCA GGGTCAGCCG TGCTGA

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

    Mcf2l ( XM_008848418.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008846640.1 Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID ONa31081
    Clone ID Related Accession (Same CDS sequence) XM_008848418.2
    Accession Version XM_008848418.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3375bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product guanine nucleotide exchange factor DBS isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008351509.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008848418.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    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
    ATGAGGTTTT GGCTGAGAAA TGAAGAGATG GCTCTAGAAG AAATGGTGCA GAGATTAAAC 
    GCGGTTTCCA AGAACACTGA TGAAATCATG CACCAGGACA TCGTCCCACT CTGTGCTGCG 
    GACATCCAGG AGCAGCTGAA GAAGCGCTTT GCTTACCTGT CTGGTGGGCG GGGGCAGGAC 
    GGAAGCCCAG TTATCACCTT TCCAGACTAC CCAGCCTTCA GCGAGATCCC GGACAAGGAG 
    TTCCAGAATG TCATGACCTA TCTCACCAGC ATCCCCAGTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

    RefSeq XP_008846640.1
    CDS10..3384
    Translation

    Target ORF information:

    RefSeq Version XM_008848418.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili MCF.2 cell line derived transforming sequence like (Mcf2l), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008848418.2

    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
    ATGAGGTTTT GGCTGAGAAA TGAAGAGATG GCTCTAGAAG AAATGGTGCA GAGATTAAAC 
    GCGGTTTCCA AGAACACTGA TGAAATCATG CACCAGGACA TCGTCCCACT CTGTGCTGCG 
    GACATCCAGG AGCAGCTGAA GAAGCGCTTT GCTTACCTGT CTGGTGGGCG GGGGCAGGAC 
    GGAAGCCCAG TTATCACCTT TCCAGACTAC CCAGCCTTCA GCGAGATCCC GGACAAGGAG 
    TTCCAGAATG TCATGACCTA TCTCACCAGC ATCCCCAGTT TGCAAGATGC TGGCATTGGA 
    TTCATTCTGG TCATAGACCG AAGGCAGGAC AAATGGACCT CCGTGAAGGC GTCGGTCCTG 
    CGAATAGCCG CATCTTTCCC AGCAAACCTG CAGCTCGTCC TTGTGCTTCG CCCAACGGGC 
    TTTTTCCAGA GGACTCTCTC TGACCTCGCC TTCAAGTTCA ACAGAGATGA CTTTAAGATG 
    AAGGTGCCGG TCATGATGCT GAGCTCAGTG CCAGAACTAC ACGGCTACAT TGATAAGTCA 
    CAGCTGACCG AGGACCTCGG GGGGACCCTG GACTACTGCC ATTCCAGGTG GCTGTGCCAC 
    CGCACGGCGA TCGAAAGCTT CGCCCTGATG GTGAAGCAGA CAGCTCAGAT GCTGCAGGCC 
    TTCGGGACCG AGCTGGCCGA AACAGAACTG CCCAACGATG TCCAATCAAC AAGCTCGGTG 
    CTGAGCACAC ACACGGAGAA GAAGGACAAA GCAAAGGAGG ATCTGCAGCT GGCACGGAAA 
    GAGGGGAACA GCATCCTTGA GAGCCTCAGG GAGCCACTGG CTGAAAGCAC TGCCCACAGT 
    GTAAACCAAG ACCAGCTGGA CAATCAGGCC ACAGTGCAGA GGCTCCTGGC TCAGCTGAAT 
    GAAACGGAGG CCGCCTTTGA CGAGTTCTGG GCAAAGCATC AGCAGAAGCT GGAACAGTGC 
    CTGCAGCTGC GGCATTTTGA GCAGGGTTTC CGGGAGGTCA AAACTACCTT GGATACCATG 
    TCCCACAAGA TAGCCACCTT CACTGACGTT GGTAACAGCC TGGCACATGT GCAACACCTG 
    CTGAAGGACC TGGCCAGCTT CGAAGAGAAG TCTAGCGTGG CTGTAGACAG GGCCCGAGCC 
    CTGTCACTGG AGGGTCAGCA GCTGATTGAG AACAAGCACT ATGCTGTGGA CTCCATCCAC 
    CCTAAGTGTG AGGAGCTCCA GCACCTCTGC GATCACTTCA CCGCTGAGAT CAGCAGGAGG 
    AGAGGCTTGC TCAGCAAGTC CCTGGAGCTA CACAGCCTCT TGGAGACGTC CATGAAGTGG 
    TGCGATGAGG GCATCTTCCT GCTGGCCTCG CAACCTGTGG ACAAGTGTCA GTCCCAGGAT 
    GGTGCTGAGG CAGCCCTCCA GGAGATCGAG AAATTTTTGG AGACTGGTGC AGAAAATAAG 
    ATTCAAGAAC TCAATAAAAT TTACAAGGAA TATGAGTGCA TCCTCAACCA GGACCTACTG 
    GAACACGTGC AAAAGGTCTT TCAGAAGCAA GAAAGTATGC AAGAGATGTT CCACCGCAGG 
    CAGGCCAGCC TGAAGAAGCT GGCGGCCAAG CAGACACGGC CTGTGCAGCC CGTGGCCCCA 
    CGGCCAGAGG CACTCACCAA ATCACCCTGC CCCTCCCCAG GCTCCTGGAG AGGATCTGAG 
    AACTCTAGCT CTGAGGGCAG TGCACTCCGT AGAGGGCCCT ACAGGAGAGC CAAGAGTGAA 
    ATGAGTGAGA CCCGGCAGGG CCGTGCCAGC TCCACAGGGG ACGAGGAGGA GAGCCTAGCC 
    ATCCTGCGCA GGCATGTGAT GAATGAGCTC CTAGACACGG AACGGGCCTA CGTGGAGGAG 
    CTGCTCTGTG TACTAGAGGG CTATGCTGCA GAGATGGACA ACCCCCTGAT GGCACACCTC 
    ATTTCAGCAG GCCTGCAAAA CAAGAAGAAC ATTCTGTTTG GAAACATGGA GGAGATTTAT 
    CACTTTCATA ACAGGATATT CCTGCGGGAG CTAGAGAGCT GCATAGACTG CCCGGAACTG 
    GTGGGGAGGT GCTTTCTGGA GAGGATGGAG GAGTTCCAGA TCTACGAGAA GTACTGTCAG 
    AACAAGCCAC GATCTGAGAG CCTGTGGAGA CAGTGCTCTG ACTGTCCCTT CTTCCAGGAG 
    TGCCAGAAGA AGTTGGACCA CAAACTGAGC CTTGATTCCT ACCTGCTGAA GCCAGTGCAG 
    AGAATAACTA AGTACCAGTT GCTGCTTAAG GAAATGTTGA AATACAGCAA GAACTGTGAG 
    GGGGCAGAGG ACCTACAGGA GGCACTGAGC TCCATCCTGG GCATCCTCAA GGCAGTGAAT 
    GACTCCATGC ACCTCATCGC CATCACTGGC TACGACGGTA ACCTGGGTGA TCTGGGGAAG 
    CTGCTGATGC AAGGTTCCTT CAGTGTATGG ACAGACCACA AGAAGGGCCA CACCAAGGTC 
    AAGGAGCTGG CCAGATTCAA GCCCATGCAG CGGCACCTTT TCCTGCATGA GAAGGCTGTG 
    CTGTTCTGCA AGAAGAGGGA GGAGAATGGG GAGGGGTATG AGAAGGCCCC TTCCTACAGC 
    TACAAGCAGT CATTGAATAT GACTGCTGTT GGCATCACAG AGAATGTGAA GGGTGATGCC 
    AAGAAGTTCG AGATCTGGTA CAACGCAAGA GAGGAGGTTT ACATCATCCA GGCACCAACC 
    CCTGAGATTA AAGCAGCATG GGTGAGTGAG ATTCGGAAGG TGCTGACCAG CCAGCTGCAG 
    GCCTGCCGGG AAGCCAGCCA GCACAGGGCC CTGGAGCAGT CCCACAGCCT GCCTTTGCCC 
    ACACCATCCA ACACCAGCCC CTCAAAAGGG AACACAAGGA ATGTCAAGAA GTCAGAAGAA 
    AGAAAAACGG ACCCCCTGAG CCTGGAAGGA TATGTGAGCT CATCGTTGCC GAAGCCCCCT 
    GAGAAAGGCA AAGGCTGGAG CAAAACATCC CACTCCCTGG AAGCCCCTGA GGAGGACGGA 
    GGTTGGTCCA GTGCTGAGGA GCTTGTCAAT TCATCTGATG CAGAGGAAGA TGGAGTGGGC 
    CCCAAGAAGC TGGTTCCTGG TAAATACACA GTGGTGATGG ACGATGAGAA AGGGGGCCTT 
    GACACCCTTG CTGTGAGGAG CGGGGACATG GTAGAGGTGG TGGAAGAGGG CGCAGAGGGG 
    CTCTGGTATG TCCGGGACCT GACCAGCAGC AAGGAGGGAT GGGTGCCAGC CAGCAGCCTT 
    TCCACCCTCC TGGGCAAATC CAGTTCAGCC CAGTGTCTGA GCAGCTCAGA CTCCAGCCCA 
    GGGTCAGCCG TGCTGAGCAA CTCCTCCAGC TGCAGCGAGG GCTGCCCCAC TCCCTTCTCC 
    GACCTCCAGG GGTAG

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

見積依頼

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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