ORF » Species Summary » Rattus norvegicus » Arhgef28 cDNA ORF clone

Arhgef28 cDNA ORF clone, Rattus norvegicus(Norway rat)

  • Gene

  • Clones

  • gRNAs

The following Arhgef28 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgef28 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
ORa07738 NM_001108542.1
Latest version!		 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
ORa24333 XM_006231817.3
Latest version!		 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
ORa48056 XM_008760676.1
Latest version!		 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
ORa48057 XM_008760677.1
Latest version!		 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    Arhgef28 ( NM_001108542.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001102012.1 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), mRNA.
    Price & Availability↑
    CloneID ORa07738
    Clone ID Related Accession (Same CDS sequence) NM_001108542.1
    Accession Version NM_001108542.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5103bp)
    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 2019-12-24
    Organism Rattus norvegicus(Norway rat)
    Product rho guanine nucleotide exchange factor 28
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473955.1. On or before Oct 4, 2007 this sequence version replaced XM_001069648.1, XM_342179.3. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTATTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGTTGCAGA TTTGAACTCC TTCCAGACTG AATCCCCAGA TCCCCAGGAC 
    TCAAATCAAC GTGGCCCTCA GCCACAGACA CTCATAACAG AAGCAAAACT AACTCCCCCG 
    ATGGCGGCCG GACATGGTGG AGATGCTGGG GATGGAGCTG AAGAGAACAT TGTTTACCTC 
    TGA

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

    RefSeq NP_001102012.1
    CDS74..5176
    Translation

    Target ORF information:

    RefSeq Version NM_001108542.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001108542.1

    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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTATTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGTTGCAGA TTTGAACTCC TTCCAGACTG AATCCCCAGA TCCCCAGGAC 
    TCAAATCAAC GTGGCCCTCA GCCACAGACA CTCATAACAG AAGCAAAACT AACTCCCCCG 
    ATGGCGGCCG GACATGGTGG AGATGCTGGG GATGGAGCTG AAGAGAACAT TGTTTACCTC 
    TGA

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

    Arhgef28 ( XM_006231817.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006231879.1 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ORa24333
    Clone ID Related Accession (Same CDS sequence) XM_006231817.3
    Accession Version XM_006231817.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4164bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product rho guanine nucleotide exchange factor 28 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005101.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006231817.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGATTCTG ACTCGGACTC CCCTTTCAAC TACTCCTGGC CTTCCTTCCC CAAGATGAAG 
    ATTCGGCGCC GGGCATCCAA GAAAGATCAC TCCTTTGATG GCCTCAAAAA GTCCAAGCAC 
    GCCCCAGCGT CCCTTGCTGC AGGCCAGCTC TCTGACGTGC CGAATGGGGG TGACGAAGTC 
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGCGATTTGG ACATCAACTA TATAAACATA 
    GAGGGACTCT CCACCCATAC TAGCCCGGAG TCCATGAGGT CCACTCTGGG GCCTCAGGCT 
    TGTAAGCACA TCCTTCCTCC TGACACCAGT CCCTGCGGGC ACCTGCTCTG TGAGGACAGT 
    GACAGGACCC TGGATGCTGC AGCCTCTCAG TCCTGCATGT CACCACCCAG TTCTCACACT 
    TCCAACTTGA ACCTTTCTTT TGGTCTCCAT GGATTTGTAA AGGAGCAGAG TCATCTCAAG 
    AAAAGAAGTT CTAGCCTGGA TGCCCTCGTT GCCGACAGTG AAGAGGAAGG GCGTTCTGAG 
    CCCCCCATCT GCTATGCTGT CGGCTCTCAG AGTTCCCCCA GAACTGGGCT CCCCGGCGGA 
    GATGAACTGG ATTCTTTTGA TGCGAACACC GAACCAGACT GTAACATCTC TAGGACCGAA 
    TCACTTTCCC TGTCCAGCAC TCTGCATTCG AAGGAGTCCC TGCTTTCTGG GATCCGATCA 
    CGCTCCTACT CCTGCTCATC ACCCAAAATC TCTTCAGGAA AATCCCGGCT AGTGCGCGAT 
    TTCACAGTGT GCAGTTCCAG TGAAGAACAG AGATCATATA GTTTCCAGGA GCCACCGGGA 
    GAAAAAAGAA TTCAGGAAGA AGAATGGGAC GACTACATCA TTCCTGCCAA AGCAGAGTCC 
    GAAAAGCACA AAGTGAGCCG GACTTTCAGC TTCCTCATGA ACAGGATGAC CAGTCCTCGG 
    AACAAATCTA AGATGAAAAA CAAGGACACT AAAGATAAAG AAAAACTCAA TCGACATCAG 
    TTTGTCCCGG GAACGTTCTC TGGAGTTCTG CAGTGTTCCG GTTGTGACAA AACACTCCTG 
    GGGAAAGAGT CACTCCAGTG TGCCAACTGC AAGGCCAACA CACACAAGGG CTGCAAAGAC 
    ACTGTGCCTC CGTGTACCAA GAAATTCCAA GACAAATACA ACAAGAACAA ACCACAGACC 
    ATCCTCGGAA GCTCTTCAGT TAGAGACGTC CCACCGCCTG GGCTCTCCTT GCACCCTTCC 
    CCCTCCATGC CTATTGGACT GCCAGCTGGA AGGAAGGAAA CTGCAGGGCA GGCACATCCG 
    TTGTCCAGAA GTGTCCCAGG CACCACTTTG GAAAGCTTCA GGAGGGCAGT GACATCCTTG 
    GAGTCTGAGG GTGACAGTAA CAGCTGGAGA AGCAGGTCTC ATTCCGATGA GCTGTTCCAG 
    TCCATGGGCT CGTCTCCTTC CACGGAGTCA TTCATGATGG AAGATGTCGT GGATTCTTCT 
    CTGTGGAGTG AGCTCAGCAG TGATGCTCAA GAGTTTGAAG CTGAGTCCTG GAGTCTCGTG 
    GTGGACCCTT CCTTCTGCAG CAGACAGGAG AAGGATGTCA TCAAAAGACA GGATGTCATT 
    TTTGAGCTGA TGCAGACGGA GGTGCACCAC ATCCAGACAC TGCTCATCAT GTCTGAAGTC 
    TTCAGGAAGG GCATGAAGGA GGAGCTGCAG CTGGACCACA GCACGGTGGA CAGGATCTTC 
    CCCTGCTTAG ATGAGCTGCT GGAGACTCAC AAGCATTTCT TCTTCAGCAT GAAGGAGCGC 
    AGGCAGGAGT CCTGCACCGG CAATGACAGG AACTTTGTGA TCAACCAAAT CGGAGACATT 
    TTGGTACAAC AGTTTTCAGA AGAAAATGCA AGCAAGATGA AGAGGATCTA TGGAGATTTC 
    TGCAGCCATC ACAAAGAAGC CATGAGCCTC TTTAAAGAGC TCCAGCAGAA CAAAAAGTTT 
    CAGAATTTTA TTAAGATCCG AAATAGCAAC CTGTTGGCCC GTCGCCGTGG AATCCCAGAG 
    TGCATCCTGC TTGTCACCCA GCGCATCACG AAGTACCCGG TCTTGGTGGA GAGGATCCTG 
    CAGTACACCA AGGAAAGGAC CGAAGAGCAC AGAGACCTGT GTAGAGCTCT TGGCTTAATT 
    AAAGACATGA TCGCAGCCGT GGACCTGAAA GTCAGTGAAT ATGAGAAGAA CCAAAAATGG 
    CTCGAGATCC TAAATAAAAT CGAGAACAAA ACATACACAA AGCTCAAAAA TGGCCACGTG 
    TTTAGAAAGC AGGCGCTGAT GAGCCAAGAA AGGGCTCTTC TGCACGACGG GCTCGTTTAC 
    TGGAAAACTG CGACAGGCCG TTTCAAAGAC ATCCTGGCCC TGCTTCTCAC CGATGTGCTG 
    CTCTTCTTGC AAGAAAAAGA CCAGAAGTAT ATCTTTGCAG CTGTTGACCA GAAGCCTTCA 
    GTTATTTCCC TTCAGAAGCT CATCGCTAGG GAAGTCGCCA ACGAGGAGAG AGGCATGTTT 
    CTCATCAGTG CTTCGTCAGC GGGTCCCGAG ATGTATGAAA TCCACACCAG TTCCAAAGAG 
    GAACGGAATA ACTGGATGAG GCGGATCCAG CAGGCAGTAG AAAGTTGTCC AGAAGAAGAA 
    GGAGGAAGGA CAAGTGAGTC TGATGAAGAG AGGCGGAAAG CTGACGCTAG AGTGGCCAAA 
    ATTCAGCAAT GTCAAGAGAT TCTCAGCAAC CAAGACCAGC AGATCTGCAC ATATTTGGAA 
    GAAAAGCTGC ACATCTACGC TGAGCTTGGG GAACTAAGTG GCTTTGAGGA TGTCCACCTA 
    GAACCCCATC TGCTCATCAA GCCCGACCCC GGAGAACCTC CCCAGGCAGC CTCCCTGCTT 
    GCAGCAGCCC TGAGAGAAGC TGAGAGTCTG CAAGTTGCTG TGAAGGCTTC AAAGCTGGCT 
    GATGTAAGCC AGCCATCTGA AGAAGGCCCT GGAGGGGCTG TCCTGGCTGA CACACTCAGT 
    GCACAAGATG CACCAGCATC GCCGACTGCC TTCACAGAAG GGACAGAAGG AAGAGGCTGT 
    TGGGATGTGG ATCCCCGGCT CCAGGGTGTG GTAACGGACT TGGCGGTCTC TGATGCAGGG 
    GAGAAGGTGG AATATAGAAG TTTTTCCGGT TCTTCACAAT CAGAGATTAT ACAAGCGATA 
    CAGAACTTAA CGCGTCTCCT CTACAGCCTT CAGGCTGCCT TGACCATCCA GGACAGCCAC 
    ATTGAGATCC ACAAGCTAGT TCTACAGCAG CAGGAGAGCT TGGCCCCTAG CCACTCCTTC 
    CGAGGTGGCC CCTTGCAAGA CCAGGAGAAA TCCCGTTACC TGGAAAAGCA TCGTGAAGAG 
    CTGGCCAACA TCCACAAGCT CCAGTACCAG TTCCAACAAG AGCAGCGGCG TTGGCACCGC 
    ACATGTGACC AGCAACAGCG TGAGCAGGAG GCCCAAGAGA GCTGGCTGCA GGCACGGGAA 
    CGTGAGTGCC AGTCGCAGGA GGAATTACTG CTGCGCCACC GTAGCGAACT GGACCACCAA 
    CTCCAGGAGT ACCAGCAGAA CCTCGAGCGG TTGCGGGAGG GCCAGAGGAT GGTGGAGAGG 
    GAGAGGCAGA GGATGCGTGA CCAGCAGGGT CTGCTGGGCC ACTGTAAGCA TAGTCGCCAG 
    AGGAGCCTCC CAGCCGTCTT CTCTCCGGGG AGCAAAGAGG TAACGGAACT TAATCGAGCT 
    GAGAGTTTGT GTCATGAAAA ATCATTTTTC CTCAATGACG CCTTCACACA CATGTCGCTT 
    AACACATCCA ATAAACCAAA CCCATCAGGT GCCCCCTGGG ACGCTCACCC CCCAGGTGGG 
    TCTCATCTTG ATTTGGCAAG GACTAGTGAT AGTCAGATAG AAGTGAAGAT GGACGTTTCT 
    CAGCCTTCCG ATGTCAACTC TGAACTCTGG ACAACAGGGC TGGGCCCTCA GAGACCTGCT 
    CGCCAAGAAA GCATCAAGGA TTCTTGTAAA AATGTTGCAG ATTTGAACTC CTTCCAGACT 
    GAATCCCCAG ATCCCCAGGA CTCAAATCAA CGTGGCCCTC AGCCACAGAC ACTCATAACA 
    GAAGCAAAAC TAACTCCCCC GATGGCGGCC GGACATGGTG GAGATGCTGG GGATGGAGCT 
    GAAGAGAACA TTGTTTACCT CTGA

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

    RefSeq XP_006231879.1
    CDS319..4482
    Translation

    Target ORF information:

    RefSeq Version XM_006231817.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006231817.3

    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
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGATTCTG ACTCGGACTC CCCTTTCAAC TACTCCTGGC CTTCCTTCCC CAAGATGAAG 
    ATTCGGCGCC GGGCATCCAA GAAAGATCAC TCCTTTGATG GCCTCAAAAA GTCCAAGCAC 
    GCCCCAGCGT CCCTTGCTGC AGGCCAGCTC TCTGACGTGC CGAATGGGGG TGACGAAGTC 
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGCGATTTGG ACATCAACTA TATAAACATA 
    GAGGGACTCT CCACCCATAC TAGCCCGGAG TCCATGAGGT CCACTCTGGG GCCTCAGGCT 
    TGTAAGCACA TCCTTCCTCC TGACACCAGT CCCTGCGGGC ACCTGCTCTG TGAGGACAGT 
    GACAGGACCC TGGATGCTGC AGCCTCTCAG TCCTGCATGT CACCACCCAG TTCTCACACT 
    TCCAACTTGA ACCTTTCTTT TGGTCTCCAT GGATTTGTAA AGGAGCAGAG TCATCTCAAG 
    AAAAGAAGTT CTAGCCTGGA TGCCCTCGTT GCCGACAGTG AAGAGGAAGG GCGTTCTGAG 
    CCCCCCATCT GCTATGCTGT CGGCTCTCAG AGTTCCCCCA GAACTGGGCT CCCCGGCGGA 
    GATGAACTGG ATTCTTTTGA TGCGAACACC GAACCAGACT GTAACATCTC TAGGACCGAA 
    TCACTTTCCC TGTCCAGCAC TCTGCATTCG AAGGAGTCCC TGCTTTCTGG GATCCGATCA 
    CGCTCCTACT CCTGCTCATC ACCCAAAATC TCTTCAGGAA AATCCCGGCT AGTGCGCGAT 
    TTCACAGTGT GCAGTTCCAG TGAAGAACAG AGATCATATA GTTTCCAGGA GCCACCGGGA 
    GAAAAAAGAA TTCAGGAAGA AGAATGGGAC GACTACATCA TTCCTGCCAA AGCAGAGTCC 
    GAAAAGCACA AAGTGAGCCG GACTTTCAGC TTCCTCATGA ACAGGATGAC CAGTCCTCGG 
    AACAAATCTA AGATGAAAAA CAAGGACACT AAAGATAAAG AAAAACTCAA TCGACATCAG 
    TTTGTCCCGG GAACGTTCTC TGGAGTTCTG CAGTGTTCCG GTTGTGACAA AACACTCCTG 
    GGGAAAGAGT CACTCCAGTG TGCCAACTGC AAGGCCAACA CACACAAGGG CTGCAAAGAC 
    ACTGTGCCTC CGTGTACCAA GAAATTCCAA GACAAATACA ACAAGAACAA ACCACAGACC 
    ATCCTCGGAA GCTCTTCAGT TAGAGACGTC CCACCGCCTG GGCTCTCCTT GCACCCTTCC 
    CCCTCCATGC CTATTGGACT GCCAGCTGGA AGGAAGGAAA CTGCAGGGCA GGCACATCCG 
    TTGTCCAGAA GTGTCCCAGG CACCACTTTG GAAAGCTTCA GGAGGGCAGT GACATCCTTG 
    GAGTCTGAGG GTGACAGTAA CAGCTGGAGA AGCAGGTCTC ATTCCGATGA GCTGTTCCAG 
    TCCATGGGCT CGTCTCCTTC CACGGAGTCA TTCATGATGG AAGATGTCGT GGATTCTTCT 
    CTGTGGAGTG AGCTCAGCAG TGATGCTCAA GAGTTTGAAG CTGAGTCCTG GAGTCTCGTG 
    GTGGACCCTT CCTTCTGCAG CAGACAGGAG AAGGATGTCA TCAAAAGACA GGATGTCATT 
    TTTGAGCTGA TGCAGACGGA GGTGCACCAC ATCCAGACAC TGCTCATCAT GTCTGAAGTC 
    TTCAGGAAGG GCATGAAGGA GGAGCTGCAG CTGGACCACA GCACGGTGGA CAGGATCTTC 
    CCCTGCTTAG ATGAGCTGCT GGAGACTCAC AAGCATTTCT TCTTCAGCAT GAAGGAGCGC 
    AGGCAGGAGT CCTGCACCGG CAATGACAGG AACTTTGTGA TCAACCAAAT CGGAGACATT 
    TTGGTACAAC AGTTTTCAGA AGAAAATGCA AGCAAGATGA AGAGGATCTA TGGAGATTTC 
    TGCAGCCATC ACAAAGAAGC CATGAGCCTC TTTAAAGAGC TCCAGCAGAA CAAAAAGTTT 
    CAGAATTTTA TTAAGATCCG AAATAGCAAC CTGTTGGCCC GTCGCCGTGG AATCCCAGAG 
    TGCATCCTGC TTGTCACCCA GCGCATCACG AAGTACCCGG TCTTGGTGGA GAGGATCCTG 
    CAGTACACCA AGGAAAGGAC CGAAGAGCAC AGAGACCTGT GTAGAGCTCT TGGCTTAATT 
    AAAGACATGA TCGCAGCCGT GGACCTGAAA GTCAGTGAAT ATGAGAAGAA CCAAAAATGG 
    CTCGAGATCC TAAATAAAAT CGAGAACAAA ACATACACAA AGCTCAAAAA TGGCCACGTG 
    TTTAGAAAGC AGGCGCTGAT GAGCCAAGAA AGGGCTCTTC TGCACGACGG GCTCGTTTAC 
    TGGAAAACTG CGACAGGCCG TTTCAAAGAC ATCCTGGCCC TGCTTCTCAC CGATGTGCTG 
    CTCTTCTTGC AAGAAAAAGA CCAGAAGTAT ATCTTTGCAG CTGTTGACCA GAAGCCTTCA 
    GTTATTTCCC TTCAGAAGCT CATCGCTAGG GAAGTCGCCA ACGAGGAGAG AGGCATGTTT 
    CTCATCAGTG CTTCGTCAGC GGGTCCCGAG ATGTATGAAA TCCACACCAG TTCCAAAGAG 
    GAACGGAATA ACTGGATGAG GCGGATCCAG CAGGCAGTAG AAAGTTGTCC AGAAGAAGAA 
    GGAGGAAGGA CAAGTGAGTC TGATGAAGAG AGGCGGAAAG CTGACGCTAG AGTGGCCAAA 
    ATTCAGCAAT GTCAAGAGAT TCTCAGCAAC CAAGACCAGC AGATCTGCAC ATATTTGGAA 
    GAAAAGCTGC ACATCTACGC TGAGCTTGGG GAACTAAGTG GCTTTGAGGA TGTCCACCTA 
    GAACCCCATC TGCTCATCAA GCCCGACCCC GGAGAACCTC CCCAGGCAGC CTCCCTGCTT 
    GCAGCAGCCC TGAGAGAAGC TGAGAGTCTG CAAGTTGCTG TGAAGGCTTC AAAGCTGGCT 
    GATGTAAGCC AGCCATCTGA AGAAGGCCCT GGAGGGGCTG TCCTGGCTGA CACACTCAGT 
    GCACAAGATG CACCAGCATC GCCGACTGCC TTCACAGAAG GGACAGAAGG AAGAGGCTGT 
    TGGGATGTGG ATCCCCGGCT CCAGGGTGTG GTAACGGACT TGGCGGTCTC TGATGCAGGG 
    GAGAAGGTGG AATATAGAAG TTTTTCCGGT TCTTCACAAT CAGAGATTAT ACAAGCGATA 
    CAGAACTTAA CGCGTCTCCT CTACAGCCTT CAGGCTGCCT TGACCATCCA GGACAGCCAC 
    ATTGAGATCC ACAAGCTAGT TCTACAGCAG CAGGAGAGCT TGGCCCCTAG CCACTCCTTC 
    CGAGGTGGCC CCTTGCAAGA CCAGGAGAAA TCCCGTTACC TGGAAAAGCA TCGTGAAGAG 
    CTGGCCAACA TCCACAAGCT CCAGTACCAG TTCCAACAAG AGCAGCGGCG TTGGCACCGC 
    ACATGTGACC AGCAACAGCG TGAGCAGGAG GCCCAAGAGA GCTGGCTGCA GGCACGGGAA 
    CGTGAGTGCC AGTCGCAGGA GGAATTACTG CTGCGCCACC GTAGCGAACT GGACCACCAA 
    CTCCAGGAGT ACCAGCAGAA CCTCGAGCGG TTGCGGGAGG GCCAGAGGAT GGTGGAGAGG 
    GAGAGGCAGA GGATGCGTGA CCAGCAGGGT CTGCTGGGCC ACTGTAAGCA TAGTCGCCAG 
    AGGAGCCTCC CAGCCGTCTT CTCTCCGGGG AGCAAAGAGG TAACGGAACT TAATCGAGCT 
    GAGAGTTTGT GTCATGAAAA ATCATTTTTC CTCAATGACG CCTTCACACA CATGTCGCTT 
    AACACATCCA ATAAACCAAA CCCATCAGGT GCCCCCTGGG ACGCTCACCC CCCAGGTGGG 
    TCTCATCTTG ATTTGGCAAG GACTAGTGAT AGTCAGATAG AAGTGAAGAT GGACGTTTCT 
    CAGCCTTCCG ATGTCAACTC TGAACTCTGG ACAACAGGGC TGGGCCCTCA GAGACCTGCT 
    CGCCAAGAAA GCATCAAGGA TTCTTGTAAA AATGTTGCAG ATTTGAACTC CTTCCAGACT 
    GAATCCCCAG ATCCCCAGGA CTCAAATCAA CGTGGCCCTC AGCCACAGAC ACTCATAACA 
    GAAGCAAAAC TAACTCCCCC GATGGCGGCC GGACATGGTG GAGATGCTGG GGATGGAGCT 
    GAAGAGAACA TTGTTTACCT CTGA

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

    Arhgef28 ( XM_008760676.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008758898.1 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa48056
    Clone ID Related Accession (Same CDS sequence) XM_008760676.1
    Accession Version XM_008760676.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5103bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005101.4) 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 :: Rattus norvegicus Annotation Release 106 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTTTTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGTTGCAGA TTTGAACTCC TTCCAGACTG AATCCCCAGA TCCCCAGGAC 
    TCAAATCAAC GTGGCCCTCA GCCACAGACA CTCATAACAG AAGCAAAACT AACTCCCCCG 
    ATGGCGGCCG GACATGGTGG AGATGCTGGG GATGGAGCTG AAGAGAACAT TGTTTACCTC 
    TGA

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

    RefSeq XP_008758898.1
    CDS13..5115
    Translation

    Target ORF information:

    RefSeq Version XM_008760676.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008760676.1

    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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTTTTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGTTGCAGA TTTGAACTCC TTCCAGACTG AATCCCCAGA TCCCCAGGAC 
    TCAAATCAAC GTGGCCCTCA GCCACAGACA CTCATAACAG AAGCAAAACT AACTCCCCCG 
    ATGGCGGCCG GACATGGTGG AGATGCTGGG GATGGAGCTG AAGAGAACAT TGTTTACCTC 
    TGA

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

    Arhgef28 ( XM_008760677.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008758899.1 Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa48057
    Clone ID Related Accession (Same CDS sequence) XM_008760677.1
    Accession Version XM_008760677.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5019bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product rho guanine nucleotide exchange factor 28 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005101.4) 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 Version :: Rattus norvegicus Annotation Release 106 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTTTTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGAGATTGG CGAGAAGCTG ACAGATGCTG CCAATGCCGG ATGTCTTACT 
    GATCTGCAAG GATGGACACG AGAGTGGACG AGCATGTGA

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

    RefSeq XP_008758899.1
    CDS13..5031
    Translation

    Target ORF information:

    RefSeq Version XM_008760677.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus Rho guanine nucleotide exchange factor 28 (Arhgef28), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008760677.1

    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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    ATGGAGCTGA GCTGCAGTGA AGTGCCTCTT TACGGACAGA GGACGGTCTA TGCAAAGTTC 
    GGCAAAAACG TTTATCTTCC TGAAGATGCG GAGTTTTACT TTATTTATGA TGGGTCGCAT 
    CAGAGGCACG TGGTGATTGC GGATCGTGTT GAGGATAATG TTCTCCAGTC TATCATTCCA 
    GGCCATTGGC TTCAAGAGAC GGTGATGGTA TCTGTGTGCC TCTGCTCAGA AGGGTATTCC 
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TATGTGGACA ACATGGCCTG CAGGCTGGCT 
    CGTCTGCTGG TCACTCAGGC TGACCGACTC ACGCCCTGTA GTCACCAGAC ACTGCTGACC 
    CCGTTTGCCC TGACAGCAGA AGCGCTGCCT GCCTTGGATG AGGAACTCGT GCTGGCTCTG 
    ACCCAACTGG AGCTGCCTTT GGGTTGGACA GTCCTGGGAA ATTCCTCACT TGAAGTGTGT 
    CTACACAGAG AGTCTCTCCT GCACCTGGCA GTGAGGTGGG CCCTGCCTAA GCTATTCCAT 
    TTCCTCTTGT GCCTCCCTGG AGGAGTCAAG GCCTTGGAGC TACCTAATGA AGAGGCCACC 
    ACACCATTAG ACTTAGCCTT GCATGGCGGA CACTCTATGC TGGTGGAAGA CATCTCAAAT 
    TTTCAGGGTC GCCGCTCCCC AGGCTTCTCC CGACTGCGTC TTAATGAAGA TGCCACGCTG 
    CAGTTCGATC GGTCATCAGA AACGTTGACG CTGACCGTTA ACCACACAGC TGAGCATCTG 
    TTGGAAGCAG ATATCAAACT CTTCCGGAAG TATTTCTGGG ACAGAGCCTT TCTTGTCAAG 
    GCTCTTGATC AAGAAGCCAA GACAGAGAGA GCAACCATGC CTTCTGGAGC TGCGGAAACT 
    GAAGAAGAGG TTAGGAATCT GGAGTCTGGC AGATCACCCT CAGAAGAGGA GGAGGATGGA 
    CAGCTCGTCA AAAGCCAGGC CGACGGGCCG AGTGAACAGG AAGACCAGGA CCGCCTAGTT 
    TTGGATCACT CCTTTGATGG CCTCAAAAAG TCCAAGCACG CCCCAGCGTC CCTTGCTGCA 
    GGCCAGCTCT CTGACGTGCC GAATGGGGGT GACGAAGTCT ACGCTAACTG TATGGTGATT 
    GATCAGGTTG GCGATTTGGA CATCAACTAT ATAAACATAG AGGGACTCTC CACCCATACT 
    AGCCCGGAGT CCATGAGGTC CACTCTGGGG CCTCAGGCTT GTAAGCACAT CCTTCCTCCT 
    GACACCAGTC CCTGCGGGCA CCTGCTCTGT GAGGACAGTG ACAGGACCCT GGATGCTGCA 
    GCCTCTCAGT CCTGCATGTC ACCACCCAGT TCTCACACTT CCAACTTGAA CCTTTCTTTT 
    GGTCTCCATG GATTTGTAAA GGAGCAGAGT CATCTCAAGA AAAGAAGTTC TAGCCTGGAT 
    GCCCTCGTTG CCGACAGTGA AGAGGAAGGG CGTTCTGAGC CCCCCATCTG CTATGCTGTC 
    GGCTCTCAGA GTTCCCCCAG AACTGGGCTC CCCGGCGGAG ATGAACTGGA TTCTTTTGAT 
    GCGAACACCG AACCAGACTG TAACATCTCT AGGACCGAAT CACTTTCCCT GTCCAGCACT 
    CTGCATTCGA AGGAGTCCCT GCTTTCTGGG ATCCGATCAC GCTCCTACTC CTGCTCATCA 
    CCCAAAATCT CTTCAGGAAA ATCCCGGCTA GTGCGCGATT TCACAGTGTG CAGTTCCAGT 
    GAAGAACAGA GATCATATAG TTTCCAGGAG CCACCGGGAG AAAAAAGAAT TCAGGAAGAA 
    GAATGGGACG ACTACATCAT TCCTGCCAAA GCAGAGTCCG AAAAGCACAA AGTGAGCCGG 
    ACTTTCAGCT TCCTCATGAA CAGGATGACC AGTCCTCGGA ACAAATCTAA GATGAAAAAC 
    AAGGACACTA AAGATAAAGA AAAACTCAAT CGACATCAGT TTGTCCCGGG AACGTTCTCT 
    GGAGTTCTGC AGTGTTCCGG TTGTGACAAA ACACTCCTGG GGAAAGAGTC ACTCCAGTGT 
    GCCAACTGCA AGGCCAACAC ACACAAGGGC TGCAAAGACA CTGTGCCTCC GTGTACCAAG 
    AAATTCCAAG ACAAATACAA CAAGAACAAA CCACAGACCA TCCTCGGAAG CTCTTCAGTT 
    AGAGACGTCC CACCGCCTGG GCTCTCCTTG CACCCTTCCC CCTCCATGCC TATTGGACTG 
    CCAGCTGGAA GGAAGGAAAC TGCAGGGCAG GCACATCCGT TGTCCAGAAG TGTCCCAGGC 
    ACCACTTTGG AAAGCTTCAG GAGGGCAGTG ACATCCTTGG AGTCTGAGGG TGACAGTAAC 
    AGCTGGAGAA GCAGGTCTCA TTCCGATGAG CTGTTCCAGT CCATGGGCTC GTCTCCTTCC 
    ACGGAGTCAT TCATGATGGA AGATGTCGTG GATTCTTCTC TGTGGAGTGA GCTCAGCAGT 
    GATGCTCAAG AGTTTGAAGC TGAGTCCTGG AGTCTCGTGG TGGACCCTTC CTTCTGCAGC 
    AGACAGGAGA AGGATGTCAT CAAAAGACAG GATGTCATTT TTGAGCTGAT GCAGACGGAG 
    GTGCACCACA TCCAGACACT GCTCATCATG TCTGAAGTCT TCAGGAAGGG CATGAAGGAG 
    GAGCTGCAGC TGGACCACAG CACGGTGGAC AGGATCTTCC CCTGCTTAGA TGAGCTGCTG 
    GAGACTCACA AGCATTTCTT CTTCAGCATG AAGGAGCGCA GGCAGGAGTC CTGCACCGGC 
    AATGACAGGA ACTTTGTGAT CAACCAAATC GGAGACATTT TGGTACAACA GTTTTCAGAA 
    GAAAATGCAA GCAAGATGAA GAGGATCTAT GGAGATTTCT GCAGCCATCA CAAAGAAGCC 
    ATGAGCCTCT TTAAAGAGCT CCAGCAGAAC AAAAAGTTTC AGAATTTTAT TAAGATCCGA 
    AATAGCAACC TGTTGGCCCG TCGCCGTGGA ATCCCAGAGT GCATCCTGCT TGTCACCCAG 
    CGCATCACGA AGTACCCGGT CTTGGTGGAG AGGATCCTGC AGTACACCAA GGAAAGGACC 
    GAAGAGCACA GAGACCTGTG TAGAGCTCTT GGCTTAATTA AAGACATGAT CGCAGCCGTG 
    GACCTGAAAG TCAGTGAATA TGAGAAGAAC CAAAAATGGC TCGAGATCCT AAATAAAATC 
    GAGAACAAAA CATACACAAA GCTCAAAAAT GGCCACGTGT TTAGAAAGCA GGCGCTGATG 
    AGCCAAGAAA GGGCTCTTCT GCACGACGGG CTCGTTTACT GGAAAACTGC GACAGGCCGT 
    TTCAAAGACA TCCTGGCCCT GCTTCTCACC GATGTGCTGC TCTTCTTGCA AGAAAAAGAC 
    CAGAAGTATA TCTTTGCAGC TGTTGACCAG AAGCCTTCAG TTATTTCCCT TCAGAAGCTC 
    ATCGCTAGGG AAGTCGCCAA CGAGGAGAGA GGCATGTTTC TCATCAGTGC TTCGTCAGCG 
    GGTCCCGAGA TGTATGAAAT CCACACCAGT TCCAAAGAGG AACGGAATAA CTGGATGAGG 
    CGGATCCAGC AGGCAGTAGA AAGTTGTCCA GAAGAAGAAG GAGGAAGGAC AAGTGAGTCT 
    GATGAAGAGA GGCGGAAAGC TGACGCTAGA GTGGCCAAAA TTCAGCAATG TCAAGAGATT 
    CTCAGCAACC AAGACCAGCA GATCTGCACA TATTTGGAAG AAAAGCTGCA CATCTACGCT 
    GAGCTTGGGG AACTAAGTGG CTTTGAGGAT GTCCACCTAG AACCCCATCT GCTCATCAAG 
    CCCGACCCCG GAGAACCTCC CCAGGCAGCC TCCCTGCTTG CAGCAGCCCT GAGAGAAGCT 
    GAGAGTCTGC AAGTTGCTGT GAAGGCTTCA AAGCTGGCTG ATGTAAGCCA GCCATCTGAA 
    GAAGGCCCTG GAGGGGCTGT CCTGGCTGAC ACACTCAGTG CACAAGATGC ACCAGCATCG 
    CCGACTGCCT TCACAGAAGG GACAGAAGGA AGAGGCTGTT GGGATGTGGA TCCCCGGCTC 
    CAGGGTGTGG TAACGGACTT GGCGGTCTCT GATGCAGGGG AGAAGGTGGA ATATAGAAGT 
    TTTTCCGGTT CTTCACAATC AGAGATTATA CAAGCGATAC AGAACTTAAC GCGTCTCCTC 
    TACAGCCTTC AGGCTGCCTT GACCATCCAG GACAGCCACA TTGAGATCCA CAAGCTAGTT 
    CTACAGCAGC AGGAGAGCTT GGCCCCTAGC CACTCCTTCC GAGGTGGCCC CTTGCAAGAC 
    CAGGAGAAAT CCCGTTACCT GGAAAAGCAT CGTGAAGAGC TGGCCAACAT CCACAAGCTC 
    CAGTACCAGT TCCAACAAGA GCAGCGGCGT TGGCACCGCA CATGTGACCA GCAACAGCGT 
    GAGCAGGAGG CCCAAGAGAG CTGGCTGCAG GCACGGGAAC GTGAGTGCCA GTCGCAGGAG 
    GAATTACTGC TGCGCCACCG TAGCGAACTG GACCACCAAC TCCAGGAGTA CCAGCAGAAC 
    CTCGAGCGGT TGCGGGAGGG CCAGAGGATG GTGGAGAGGG AGAGGCAGAG GATGCGTGAC 
    CAGCAGGGTC TGCTGGGCCA CTGTAAGCAT AGTCGCCAGA GGAGCCTCCC AGCCGTCTTC 
    TCTCCGGGGA GCAAAGAGGT AACGGAACTT AATCGAGCTG AGAGTTTGTG TCATGAAAAA 
    TCATTTTTCC TCAATGACGC CTTCACACAC ATGTCGCTTA ACACATCCAA TAAACCAAAC 
    CCATCAGGTG CCCCCTGGGA CGCTCACCCC CCAGGTGGGT CTCATCTTGA TTTGGCAAGG 
    ACTAGTGATA GTCAGATAGA AGTGAAGATG GACGTTTCTC AGCCTTCCGA TGTCAACTCT 
    GAACTCTGGA CAACAGGGCT GGGCCCTCAG AGACCTGCTC GCCAAGAAAG CATCAAGGAT 
    TCTTGTAAAA ATGAGATTGG CGAGAAGCTG ACAGATGCTG CCAATGCCGG ATGTCTTACT 
    GATCTGCAAG GATGGACACG AGAGTGGACG AGCATGTGA

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

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