ARHGEF28 cDNA ORF clone, Homo sapiens(human)

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
OHu95987 XM_017009703.1
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 15-17 $643.30
$919.00
OHu95986 XM_017009702.1
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu00087 NM_001177693.1
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu11947 NM_001244364.2
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu21533 NM_001080479.2
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu21533 XM_011543546.2
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu39668 XM_005248568.4
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu71320 XM_011543547.2
Latest version!
Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $951.30
$1359.00
View Old Accession Versions >>
OHu11947 NM_001244364.1 Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu21533 XM_011543546.1 Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
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)
    CloneID OHu95987
    Clone ID Related Accession (Same CDS sequence) XM_017009703.1
    Accession Version XM_017009703.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000005.10) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTCACCAT CAAGTTCGTG TGCTTCCAAC TTGAATCTTT CTTTTGGTTG GCATGGATTT 
    GAAAAGGAAC AAAGTCATCT AAAGAAAAGA AGTTCTAGCC TTGATGCCTT GGACGCCGAC
    AGTGAAGGGG AAGGGCATTC TGAGCCATCC CACATCTGTT ACACTCCAGG GTCTCAGAGC
    TCCTCAAGAA CTGGGATTCC TAGTGGGGAT GAATTGGACT CTTTTGAGAC TAACACTGAA
    CCGGATTTTA ATATCTCCAG GGCTGAATCC CTTCCTCTAT CAAGTAATCT ACAGTCGAAG
    GAATCACTGC TTTCTGGAGT TCGCTCACGT TCTTATTCTT GCTCATCACC CAAAATTTCT
    TTAGGAAAAA CTCGTTTGGT GCGTGAATTA ACAGTATGCA GTTCAAGTGA AGAGCAAAGA
    GCTTACAGCT TATCGGAGCC ACCAAGAGAA AACAGAATTC AGGAAGAAGA ATGGGATAAA
    TACATCATAC CTGCCAAATC AGAGTCTGAA AAATATAAAG TGAGTCGAAC TTTCAGTTTC
    CTCATGAATA GGATGACTAG CCCTCGGAAT AAATCAAAGA CAAAAAGCAA GGATGCCAAA
    GATAAAGAGA AGCTGAATCG ACATCAGTTT GCCCCAGGAA CATTCTCTGG GGTTCTGCAG
    TGTTTGGTTT GTGATAAAAC ACTCCTGGGG AAAGAGTCAC TGCAGTGTTC TAACTGTAAT
    GCAAATGTGC ACAAAGGTTG TAAAGATGCT GCGCCTGCAT GCACCAAGAA ATTCCAAGAG
    AAATATAACA AGAACAAACC ACAGACCATC CTTGGAAATT CTTCATTTAG AGACATCCCA
    CAGCCTGGTC TCTCCTTGCA CCCTTCTTCC TCCGTGCCTG TTGGATTGCC GACTGGAAGG
    AGGGAGACTG TGGGACAGGT CCATCCATTG TCCAGAAGTG TTCCAGGCAC CACCTTGGAA
    AGCTTCAGGA GGTCAGCCAC ATCCTTGGAG TCTGAGAGTG ACCATAACAG CTGCAGAAGC
    AGGTCTCATT CTGATGAGCT GCTACAGTCC ATGGGCTCTT CTCCCTCTAC AGAGTCTTTC
    ATAATGGAAG ATGTTGTGGA TTCTTCTCTG TGGAGTGACC TCAGCAGTGA TGCCCAGGAG
    TTTGAAGCAG AATCTTGGAG TCTTGTGGTG GATCCCTCAT TTTGTAATAG GCAGGAGAAG
    GATGTCATCA AAAGACAGGA TGTCATTTTT GAGCTAATGC AAACAGAGAT GCATCACATC
    CAGACCCTGT TCATCATGTC TGAGATCTTC AGGAAAGGCA TGAAAGAGGA GCTGCAGCTG
    GACCACAGCA CCGTGGATAA AATTTTCCCC TGTTTAGATG AGTTGCTTGA AATCCACAGG
    CATTTCTTCT ACAGTATGAA GGAACGAAGG CAGGAATCCT GTGCTGGCAG CGACAGGAAT
    TTTGTGATCG ACCGAATTGG AGATATTTTG GTACAACAGT TTTCAGAAGA AAATGCAAGT
    AAAATGAAGA AAATATATGG AGAATTCTGT TGCCATCATA AAGAAGCTGT TAACCTCTTT
    AAAGAACTCC AGCAGAATAA AAAGTTTCAG AATTTTATTA AGCTCCGAAA TAGTAATCTT
    TTGGCTCGAC GCCGAGGAAT TCCAGAATGC ATTCTGTTGG TCACTCAGCG TATTACAAAA
    TACCCTGTCT TGGTGGAAAG GATATTGCAG TACACAAAGG AAAGAACTGA GGAACATAAA
    GACTTACGCA AAGCGCTTTG CTTAATTAAA GACATGATTG CAACAGTGGA TTTAAAAGTC
    AATGAATATG AGAAAAACCA AAAATGGCTT GAGATCCTAA ATAAGATTGA AAACAAAACA
    TACACGAAGC TCAAAAATGG ACATGTGTTT AGGAAGCAGG CACTGATGAG TGAAGAAAGG
    ACTCTGTTAT ATGATGGCCT TGTTTACTGG AAAACTGCTA CAGGTCGTTT CAAAGATATC
    CTAGCTCTAC TTCTAACTGA TGTGCTGCTC TTTTTACAAG AAAAAGACCA GAAATACATC
    TTTGCAGCCG TTGATCAGAA GCCATCAGTT ATTTCCCTTC AAAAGCTTAT TGCTAGAGAA
    GTTGCTAATG AGGAGAGAGG AATGTTTCTG ATCAGTGCTT CATCTGCTGG TCCTGAGATG
    TATGAAATTC ACACCAATTC CAAGGAGGAA CGCAATAACT GGATGAGACG GATCCAGCAG
    GCTGTAGAAA GTTGTCCTGA AGAAAAAGGG GGAAGGACAA GTGAATCTGA TGAAGACAAG
    AGGAAAGCTG AAGCCAGAGT GGCCAAAATT CAGCAATGTC AAGAAATACT CACTAACCAA
    GACCAACAAA TTTGTGCGTA TTTGGAGGAG AAGCTGCATA TCTATGCTGA ACTTGGAGAA
    CTGAGCGGAT TTGAGGACGT CCATCTAGAG CCCCACCTCC TTATTAAACC TGACCCAGGC
    GAGCCTCCCC AGGCAGCCTC ATTACTGGCA GCAGCACTGA AAGAAGCTGA GAGCCTACAA
    GTTGCAGTGA AGGCCTCACA GATGGGCGCC GTGAGTCAAT CATGTGAGGA CAGTTGTGGA
    GACTCTGTCT TGGCGGACAC ACTCAGTTCT CATGATGTAC CAGGATCACC GACTGCCTCA
    TTAGTCACAG GAGGGAGAGA AGGAAGAGGC TGTTCGGATG TGGATCCCGG GATCCAGGGT
    GTGGTAACCG ACTTGGCCGT CTCTGATGCA GGGGAGAAGG TGGAATGTAG AAATTTTCCA
    GGTTCTTCAC AATCAGAGAT TATACAAGCC ATACAGAATT TAACCCGTCT CTTATACAGC
    CTTCAGGCCG CCTTGACCAT TCAGGACAGC CACATTGAGA TCCACAGGCT GGTTCTCCAG
    CAGCAGGAGG GCCTGTCTCT CGGCCACTCT ATCCTCCGAG GCGGCCCCTT GCAGGACCAG
    AAGTCTCGCG ACGCGGACAG GCAGCATGAG GAGCTGGCCA ATGTGCACCA GCTTCAGCAC
    CAGCTCCAGC AGGAGCAGCG GCGCTGGCTG CGCAGGTGTG AGCAGCAGCA GCGGGCGCAG
    GCGACCAGGG AGAGCTGGCT GCAGGAGCGG GAGCGGGAGT GCCAGTCGCA GGAGGAGCTG
    CTGCTGCGGA GCCGGGGCGA GCTGGACCTC CAGCTCCAGG AGTACCAGCA CAGCCTGGAG
    CGGCTGAGGG AGGGCCAGCG CCTGGTGGAG AGGGAGCAGG CGAGGATGCG GGCCCAGCAG
    AGCCTGCTGG GCCACTGGAA GCACGGCCGG CAGAGGAGCC TGCCCGCGGT GCTCCTTCCG
    GGTGGCCCCG AGGTAATGGA ACTTAATCGA TCTGAGAGTT TATGTCATGA AAACTCATTC
    TTCATCAATG AAGCTTTAGT ACAAATGTCA TTTAACACTT TCAACAAACT GAATCCATCA
    GTTATCCATC AGGATGCCAC TTACCCTACA ACTCAATCTC ATTCTGACTT GGTGAGGACT
    AGTGAACATC AAGTAGACCT CAAGGTGGAC CCTTCTCAGC CTTCGAATGT CAGTCACAAA
    CTGTGGACAG CCGCTGGTTC CGGCCATCAG ATACTTCCTT TCCATGAAAG CAGCAAGGAT
    TCTTGTAAAA ATGGCTCCAG TATGACAAAG TGCAGTTGTA CGTTGACATC TCCCCCGGGA
    CTGTGGACTG GAACCACATC TACTTTGAAA GATTTGGACA CCTCCCACAC TGAGTCCCCA
    ACCCCCCATG ACTCAAATTC ACACCGCCCT CAACTGCAGG CGTTTATAAC AGAAGCAAAG
    CTAAATCTAC CGACAAGGAC AATGACCAGA CAAGATGGGG AAACTGGAGA TGGAGCCAAA
    GAAAATATTG TTTACCTCTA A

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

    RefSeq XP_016865192.1
    CDS250..4110
    Translation

    Target ORF information:

    RefSeq Version XM_017009703.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017009703.1

    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
    ATGTCACCAT CAAGTTCGTG TGCTTCCAAC TTGAATCTTT CTTTTGGTTG GCATGGATTT 
    GAAAAGGAAC AAAGTCATCT AAAGAAAAGA AGTTCTAGCC TTGATGCCTT GGACGCCGAC
    AGTGAAGGGG AAGGGCATTC TGAGCCATCC CACATCTGTT ACACTCCAGG GTCTCAGAGC
    TCCTCAAGAA CTGGGATTCC TAGTGGGGAT GAATTGGACT CTTTTGAGAC TAACACTGAA
    CCGGATTTTA ATATCTCCAG GGCTGAATCC CTTCCTCTAT CAAGTAATCT ACAGTCGAAG
    GAATCACTGC TTTCTGGAGT TCGCTCACGT TCTTATTCTT GCTCATCACC CAAAATTTCT
    TTAGGAAAAA CTCGTTTGGT GCGTGAATTA ACAGTATGCA GTTCAAGTGA AGAGCAAAGA
    GCTTACAGCT TATCGGAGCC ACCAAGAGAA AACAGAATTC AGGAAGAAGA ATGGGATAAA
    TACATCATAC CTGCCAAATC AGAGTCTGAA AAATATAAAG TGAGTCGAAC TTTCAGTTTC
    CTCATGAATA GGATGACTAG CCCTCGGAAT AAATCAAAGA CAAAAAGCAA GGATGCCAAA
    GATAAAGAGA AGCTGAATCG ACATCAGTTT GCCCCAGGAA CATTCTCTGG GGTTCTGCAG
    TGTTTGGTTT GTGATAAAAC ACTCCTGGGG AAAGAGTCAC TGCAGTGTTC TAACTGTAAT
    GCAAATGTGC ACAAAGGTTG TAAAGATGCT GCGCCTGCAT GCACCAAGAA ATTCCAAGAG
    AAATATAACA AGAACAAACC ACAGACCATC CTTGGAAATT CTTCATTTAG AGACATCCCA
    CAGCCTGGTC TCTCCTTGCA CCCTTCTTCC TCCGTGCCTG TTGGATTGCC GACTGGAAGG
    AGGGAGACTG TGGGACAGGT CCATCCATTG TCCAGAAGTG TTCCAGGCAC CACCTTGGAA
    AGCTTCAGGA GGTCAGCCAC ATCCTTGGAG TCTGAGAGTG ACCATAACAG CTGCAGAAGC
    AGGTCTCATT CTGATGAGCT GCTACAGTCC ATGGGCTCTT CTCCCTCTAC AGAGTCTTTC
    ATAATGGAAG ATGTTGTGGA TTCTTCTCTG TGGAGTGACC TCAGCAGTGA TGCCCAGGAG
    TTTGAAGCAG AATCTTGGAG TCTTGTGGTG GATCCCTCAT TTTGTAATAG GCAGGAGAAG
    GATGTCATCA AAAGACAGGA TGTCATTTTT GAGCTAATGC AAACAGAGAT GCATCACATC
    CAGACCCTGT TCATCATGTC TGAGATCTTC AGGAAAGGCA TGAAAGAGGA GCTGCAGCTG
    GACCACAGCA CCGTGGATAA AATTTTCCCC TGTTTAGATG AGTTGCTTGA AATCCACAGG
    CATTTCTTCT ACAGTATGAA GGAACGAAGG CAGGAATCCT GTGCTGGCAG CGACAGGAAT
    TTTGTGATCG ACCGAATTGG AGATATTTTG GTACAACAGT TTTCAGAAGA AAATGCAAGT
    AAAATGAAGA AAATATATGG AGAATTCTGT TGCCATCATA AAGAAGCTGT TAACCTCTTT
    AAAGAACTCC AGCAGAATAA AAAGTTTCAG AATTTTATTA AGCTCCGAAA TAGTAATCTT
    TTGGCTCGAC GCCGAGGAAT TCCAGAATGC ATTCTGTTGG TCACTCAGCG TATTACAAAA
    TACCCTGTCT TGGTGGAAAG GATATTGCAG TACACAAAGG AAAGAACTGA GGAACATAAA
    GACTTACGCA AAGCGCTTTG CTTAATTAAA GACATGATTG CAACAGTGGA TTTAAAAGTC
    AATGAATATG AGAAAAACCA AAAATGGCTT GAGATCCTAA ATAAGATTGA AAACAAAACA
    TACACGAAGC TCAAAAATGG ACATGTGTTT AGGAAGCAGG CACTGATGAG TGAAGAAAGG
    ACTCTGTTAT ATGATGGCCT TGTTTACTGG AAAACTGCTA CAGGTCGTTT CAAAGATATC
    CTAGCTCTAC TTCTAACTGA TGTGCTGCTC TTTTTACAAG AAAAAGACCA GAAATACATC
    TTTGCAGCCG TTGATCAGAA GCCATCAGTT ATTTCCCTTC AAAAGCTTAT TGCTAGAGAA
    GTTGCTAATG AGGAGAGAGG AATGTTTCTG ATCAGTGCTT CATCTGCTGG TCCTGAGATG
    TATGAAATTC ACACCAATTC CAAGGAGGAA CGCAATAACT GGATGAGACG GATCCAGCAG
    GCTGTAGAAA GTTGTCCTGA AGAAAAAGGG GGAAGGACAA GTGAATCTGA TGAAGACAAG
    AGGAAAGCTG AAGCCAGAGT GGCCAAAATT CAGCAATGTC AAGAAATACT CACTAACCAA
    GACCAACAAA TTTGTGCGTA TTTGGAGGAG AAGCTGCATA TCTATGCTGA ACTTGGAGAA
    CTGAGCGGAT TTGAGGACGT CCATCTAGAG CCCCACCTCC TTATTAAACC TGACCCAGGC
    GAGCCTCCCC AGGCAGCCTC ATTACTGGCA GCAGCACTGA AAGAAGCTGA GAGCCTACAA
    GTTGCAGTGA AGGCCTCACA GATGGGCGCC GTGAGTCAAT CATGTGAGGA CAGTTGTGGA
    GACTCTGTCT TGGCGGACAC ACTCAGTTCT CATGATGTAC CAGGATCACC GACTGCCTCA
    TTAGTCACAG GAGGGAGAGA AGGAAGAGGC TGTTCGGATG TGGATCCCGG GATCCAGGGT
    GTGGTAACCG ACTTGGCCGT CTCTGATGCA GGGGAGAAGG TGGAATGTAG AAATTTTCCA
    GGTTCTTCAC AATCAGAGAT TATACAAGCC ATACAGAATT TAACCCGTCT CTTATACAGC
    CTTCAGGCCG CCTTGACCAT TCAGGACAGC CACATTGAGA TCCACAGGCT GGTTCTCCAG
    CAGCAGGAGG GCCTGTCTCT CGGCCACTCT ATCCTCCGAG GCGGCCCCTT GCAGGACCAG
    AAGTCTCGCG ACGCGGACAG GCAGCATGAG GAGCTGGCCA ATGTGCACCA GCTTCAGCAC
    CAGCTCCAGC AGGAGCAGCG GCGCTGGCTG CGCAGGTGTG AGCAGCAGCA GCGGGCGCAG
    GCGACCAGGG AGAGCTGGCT GCAGGAGCGG GAGCGGGAGT GCCAGTCGCA GGAGGAGCTG
    CTGCTGCGGA GCCGGGGCGA GCTGGACCTC CAGCTCCAGG AGTACCAGCA CAGCCTGGAG
    CGGCTGAGGG AGGGCCAGCG CCTGGTGGAG AGGGAGCAGG CGAGGATGCG GGCCCAGCAG
    AGCCTGCTGG GCCACTGGAA GCACGGCCGG CAGAGGAGCC TGCCCGCGGT GCTCCTTCCG
    GGTGGCCCCG AGGTAATGGA ACTTAATCGA TCTGAGAGTT TATGTCATGA AAACTCATTC
    TTCATCAATG AAGCTTTAGT ACAAATGTCA TTTAACACTT TCAACAAACT GAATCCATCA
    GTTATCCATC AGGATGCCAC TTACCCTACA ACTCAATCTC ATTCTGACTT GGTGAGGACT
    AGTGAACATC AAGTAGACCT CAAGGTGGAC CCTTCTCAGC CTTCGAATGT CAGTCACAAA
    CTGTGGACAG CCGCTGGTTC CGGCCATCAG ATACTTCCTT TCCATGAAAG CAGCAAGGAT
    TCTTGTAAAA ATGGCTCCAG TATGACAAAG TGCAGTTGTA CGTTGACATC TCCCCCGGGA
    CTGTGGACTG GAACCACATC TACTTTGAAA GATTTGGACA CCTCCCACAC TGAGTCCCCA
    ACCCCCCATG ACTCAAATTC ACACCGCCCT CAACTGCAGG CGTTTATAAC AGAAGCAAAG
    CTAAATCTAC CGACAAGGAC AATGACCAGA CAAGATGGGG AAACTGGAGA TGGAGCCAAA
    GAAAATATTG TTTACCTCTA A

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

    CloneID OHu95986
    Clone ID Related Accession (Same CDS sequence) XM_017009702.1
    Accession Version XM_017009702.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4902bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000005.10) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GTATCTTCTC ACAGAGAATC TCTTCTACAC CTGGCTATGA GATGGGGCCT GGCTAAACTT
    TCCCAGTTCT TCTTGTGTCT CCCGGGGGGA GTCCAGGCCT TGGCTTTACC CAACGAAGAG
    GGTGCCACAC CATTAGACTT AGCTTTACGT GAAGGACACT CCAAGCTGGT GGAAGACGTC
    ACAAATTTTC AGGGCAGATG GTCCCCAAGC TTCTCCCGAG TGCAGCTCAG TGAAGAAGCC
    TCCTTGCATT ACATTCACTC ATCGGAAACG CTGACCCTGA CCCTGAACCA CACAGCCGAG
    CATTTGTTGG AGGCAGATAT TAAACTCTTC CGGAAATACT TTTGGGATAG AGCCTTTCTT
    GTCAAGGCCT TTGAGCCAGA AGCCAGGCCA GAGGAAAGAA CAGCTATGCC CTCCAGCGGT
    GCAGAAACTG AAGAAGAGAT TAAGAATTCA GTGTCCAGCA GATCAGCAGC TGAAAAGGAA
    GATATAAAGC GTGTCAAAAG CCTGGTGGTT CAACACAATG AACATGAAGA CCAGCACAGC
    CTAGATTTGG ATCGCTCCTT CGATATCCTA AAAAAATCCA AGCCGCCCTC GACATTGCTT
    GCTGCAGGCC GGCTTTCAGA CATGCTGAAT GGAGGTGATG AAGTCTACGC TAACTGTATG
    GTGATTGATC AGGTTGGTGA TTTGGATATC AGCTATATTA ATATAGAGGG AATCACTGCC
    ACTACCAGCC CTGAATCCAG AGGTTGCACT CTGTGGCCTC AGAGCAGCAA ACACACCCTT
    CCTACAGAAA CCAGTCCCAG TGTGTACCCA CTTAGTGAAA ATGTCGAAGG GACAGCACAC
    ACTGAAGCCC AGCAGTCCTT CATGTCACCA TCAAGTTCGT GTGCTTCCAA CTTGAATCTT
    TCTTTTGGTT GGCATGGATT TGAAAAGGAA CAAAGTCATC TAAAGAAAAG AAGTTCTAGC
    CTTGATGCCT TGGACGCCGA CAGTGAAGGG GAAGGGCATT CTGAGCCATC CCACATCTGT
    TACACTCCAG GGTCTCAGAG CTCCTCAAGA ACTGGGATTC CTAGTGGGGA TGAATTGGAC
    TCTTTTGAGA CTAACACTGA ACCGGATTTT AATATCTCCA GGGCTGAATC CCTTCCTCTA
    TCAAGTAATC TACAGTCGAA GGAATCACTG CTTTCTGGAG TTCGCTCACG TTCTTATTCT
    TGCTCATCAC CCAAAATTTC TTTAGGAAAA ACTCGTTTGG TGCGTGAATT AACAGTATGC
    AGTTCAAGTG AAGAGCAAAG AGCTTACAGC TTATCGGAGC CACCAAGAGA AAACAGAATT
    CAGGAAGAAG AATGGGATAA ATACATCATA CCTGCCAAAT CAGAGTCTGA AAAATATAAA
    GTGAGTCGAA CTTTCAGTTT CCTCATGAAT AGGATGACTA GCCCTCGGAA TAAATCAAAG
    ACAAAAAGCA AGGATGCCAA AGATAAAGAG AAGCTGAATC GACATCAGTT TGCCCCAGGA
    ACATTCTCTG GGGTTCTGCA GTGTTTGGTT TGTGATAAAA CACTCCTGGG GAAAGAGTCA
    CTGCAGTGTT CTAACTGTAA TGCAAATGTG CACAAAGGTT GTAAAGATGC TGCGCCTGCA
    TGCACCAAGA AATTCCAAGA GAAATATAAC AAGAACAAAC CACAGACCAT CCTTGGAAAT
    TCTTCATTTA GAGACATCCC ACAGCCTGGT CTCTCCTTGC ACCCTTCTTC CTCCGTGCCT
    GTTGGATTGC CGACTGGAAG GAGGGAGACT GTGGGACAGG TCCATCCATT GTCCAGAAGT
    GTTCCAGGCA CCACCTTGGA AAGCTTCAGG AGGTCAGCCA CATCCTTGGA GTCTGAGAGT
    GACCATAACA GCTGCAGAAG CAGGTCTCAT TCTGATGAGC TGCTACAGTC CATGGGCTCT
    TCTCCCTCTA CAGAGTCTTT CATAATGGAA GATGTTGTGG ATTCTTCTCT GTGGAGTGAC
    CTCAGCAGTG ATGCCCAGGA GTTTGAAGCA GAATCTTGGA GTCTTGTGGT GGATCCCTCA
    TTTTGTAATA GGCAGGAGAA GGATGTCATC AAAAGACAGG ATGTCATTTT TGAGCTAATG
    CAAACAGAGA TGCATCACAT CCAGACCCTG TTCATCATGT CTGAGATCTT CAGGAAAGGC
    ATGAAAGAGG AGCTGCAGCT GGACCACAGC ACCGTGGATA AAATTTTCCC CTGTTTAGAT
    GAGTTGCTTG AAATCCACAG GCATTTCTTC TACAGTATGA AGGAACGAAG GCAGGAATCC
    TGTGCTGGCA GCGACAGGAA TTTTGTGATC GACCGAATTG GAGATATTTT GGTACAACAG
    TTTTCAGAAG AAAATGCAAG TAAAATGAAG AAAATATATG GAGAATTCTG TTGCCATCAT
    AAAGAAGCTG TTAACCTCTT TAAAGAACTC CAGCAGAATA AAAAGTTTCA GAATTTTATT
    AAGCTCCGAA ATAGTAATCT TTTGGCTCGA CGCCGAGGAA TTCCAGAATG CATTCTGTTG
    GTCACTCAGC GTATTACAAA ATACCCTGTC TTGGTGGAAA GGATATTGCA GTACACAAAG
    GAAAGAACTG AGGAACATAA AGACTTACGC AAAGCGCTTT GCTTAATTAA AGACATGATT
    GCAACAGTGG ATTTAAAAGT CAATGAATAT GAGAAAAACC AAAAATGGCT TGAGATCCTA
    AATAAGATTG AAAACAAAAC ATACACGAAG CTCAAAAATG GACATGTGTT TAGGAAGCAG
    GCACTGATGA GTGAAGAAAG GACTCTGTTA TATGATGGCC TTGTTTACTG GAAAACTGCT
    ACAGGTCGTT TCAAAGATAT CCTAGCTCTA CTTCTAACTG ATGTGCTGCT CTTTTTACAA
    GAAAAAGACC AGAAATACAT CTTTGCAGCC GTTGATCAGA AGCCATCAGT TATTTCCCTT
    CAAAAGCTTA TTGCTAGAGA AGTTGCTAAT GAGGAGAGAG GAATGTTTCT GATCAGTGCT
    TCATCTGCTG GTCCTGAGAT GTATGAAATT CACACCAATT CCAAGGAGGA ACGCAATAAC
    TGGATGAGAC GGATCCAGCA GGCTGTAGAA AGTTGTCCTG AAGAAAAAGG GGGAAGGACA
    AGTGAATCTG ATGAAGACAA GAGGAAAGCT GAAGCCAGAG TGGCCAAAAT TCAGCAATGT
    CAAGAAATAC TCACTAACCA AGACCAACAA ATTTGTGCGT ATTTGGAGGA GAAGCTGCAT
    ATCTATGCTG AACTTGGAGA ACTGAGCGGA TTTGAGGACG TCCATCTAGA GCCCCACCTC
    CTTATTAAAC CTGACCCAGG CGAGCCTCCC CAGGCAGCCT CATTACTGGC AGCAGCACTG
    AAAGAAGCTG AGAGCCTACA AGTTGCAGTG AAGGCCTCAC AGATGGGCGC CGTGAGTCAA
    TCATGTGAGG ACAGTTGTGG AGACTCTGTC TTGGCGGACA CACTCAGTTC TCATGATGTA
    CCAGGATCAC CGACTGCCTC ATTAGTCACA GGAGGGAGAG AAGGAAGAGG CTGTTCGGAT
    GTGGATCCCG GGATCCAGGG TGTGGTAACC GACTTGGCCG TCTCTGATGC AGGGGAGAAG
    GTGGAATGTA GAAATTTTCC AGGTTCTTCA CAATCAGAGA TTATACAAGC CATACAGAAT
    TTAACCCGTC TCTTATACAG CCTTCAGGCC GCCTTGACCA TTCAGGACAG CCACATTGAG
    ATCCACAGGC TGGTTCTCCA GCAGCAGGAG GGCCTGTCTC TCGGCCACTC TATCCTCCGA
    GGCGGCCCCT TGCAGGACCA GAAGTCTCGC GACGCGGACA GGCAGCATGA GGAGCTGGCC
    AATGTGCACC AGCTTCAGCA CCAGCTCCAG CAGGAGCAGC GGCGCTGGCT GCGCAGGTGT
    GAGCAGCAGC AGCGGGCGCA GGCGACCAGG GAGAGCTGGC TGCAGGAGCG GGAGCGGGAG
    TGCCAGTCGC AGGAGGAGCT GCTGCTGCGG AGCCGGGGCG AGCTGGACCT CCAGCTCCAG
    GAGTACCAGC ACAGCCTGGA GCGGCTGAGG GAGGGCCAGC GCCTGGTGGA GAGGGAGCAG
    GCGAGGATGC GGGCCCAGCA GAGCCTGCTG GGCCACTGGA AGCACGGCCG GCAGAGGAGC
    CTGCCCGCGG TGCTCCTTCC GGGTGGCCCC GAGGTAATGG AACTTAATCG ATCTGAGAGT
    TTATGTCATG AAAACTCATT CTTCATCAAT GAAGCTTTAG TACAAATGTC ATTTAACACT
    TTCAACAAAC TGAATCCATC AGTTATCCAT CAGGATGCCA CTTACCCTAC AACTCAATCT
    CATTCTGACT TGGTGAGGAC TAGTGAACAT CAAGTAGACC TCAAGGTGGA CCCTTCTCAG
    CCTTCGAATG TCAGTCACAA ACTGTGGACA GCCGCTGGTT CCGGCCATCA GATACTTCCT
    TTCCATGAAA GCAGCAAGGA TTCTTGTAAA AATGGCTCCA GTATGACAAA GTGCAGTTGT
    ACGTTGACAT CTCCCCCGGG ACTGTGGACT GGAACCACAT CTACTTTGAA AGATTTGGAC
    ACCTCCCACA CTGAGTCCCC AACCCCCCAT GACTCAAATT CACACCGCCC TCAACTGCAG
    GCGTTTATAA CAGAAGCAAA GCTAAATCTA CCGACAAGGA CAATGACCAG ACAAGATGGG
    GAAACTGGAG ATGGAGCCAA AGAAAATATT GTTTACCTCT AA

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

    RefSeq XP_016865191.1
    CDS156..5057
    Translation

    Target ORF information:

    RefSeq Version XM_017009702.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_017009702.1

    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
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GTATCTTCTC ACAGAGAATC TCTTCTACAC CTGGCTATGA GATGGGGCCT GGCTAAACTT
    TCCCAGTTCT TCTTGTGTCT CCCGGGGGGA GTCCAGGCCT TGGCTTTACC CAACGAAGAG
    GGTGCCACAC CATTAGACTT AGCTTTACGT GAAGGACACT CCAAGCTGGT GGAAGACGTC
    ACAAATTTTC AGGGCAGATG GTCCCCAAGC TTCTCCCGAG TGCAGCTCAG TGAAGAAGCC
    TCCTTGCATT ACATTCACTC ATCGGAAACG CTGACCCTGA CCCTGAACCA CACAGCCGAG
    CATTTGTTGG AGGCAGATAT TAAACTCTTC CGGAAATACT TTTGGGATAG AGCCTTTCTT
    GTCAAGGCCT TTGAGCCAGA AGCCAGGCCA GAGGAAAGAA CAGCTATGCC CTCCAGCGGT
    GCAGAAACTG AAGAAGAGAT TAAGAATTCA GTGTCCAGCA GATCAGCAGC TGAAAAGGAA
    GATATAAAGC GTGTCAAAAG CCTGGTGGTT CAACACAATG AACATGAAGA CCAGCACAGC
    CTAGATTTGG ATCGCTCCTT CGATATCCTA AAAAAATCCA AGCCGCCCTC GACATTGCTT
    GCTGCAGGCC GGCTTTCAGA CATGCTGAAT GGAGGTGATG AAGTCTACGC TAACTGTATG
    GTGATTGATC AGGTTGGTGA TTTGGATATC AGCTATATTA ATATAGAGGG AATCACTGCC
    ACTACCAGCC CTGAATCCAG AGGTTGCACT CTGTGGCCTC AGAGCAGCAA ACACACCCTT
    CCTACAGAAA CCAGTCCCAG TGTGTACCCA CTTAGTGAAA ATGTCGAAGG GACAGCACAC
    ACTGAAGCCC AGCAGTCCTT CATGTCACCA TCAAGTTCGT GTGCTTCCAA CTTGAATCTT
    TCTTTTGGTT GGCATGGATT TGAAAAGGAA CAAAGTCATC TAAAGAAAAG AAGTTCTAGC
    CTTGATGCCT TGGACGCCGA CAGTGAAGGG GAAGGGCATT CTGAGCCATC CCACATCTGT
    TACACTCCAG GGTCTCAGAG CTCCTCAAGA ACTGGGATTC CTAGTGGGGA TGAATTGGAC
    TCTTTTGAGA CTAACACTGA ACCGGATTTT AATATCTCCA GGGCTGAATC CCTTCCTCTA
    TCAAGTAATC TACAGTCGAA GGAATCACTG CTTTCTGGAG TTCGCTCACG TTCTTATTCT
    TGCTCATCAC CCAAAATTTC TTTAGGAAAA ACTCGTTTGG TGCGTGAATT AACAGTATGC
    AGTTCAAGTG AAGAGCAAAG AGCTTACAGC TTATCGGAGC CACCAAGAGA AAACAGAATT
    CAGGAAGAAG AATGGGATAA ATACATCATA CCTGCCAAAT CAGAGTCTGA AAAATATAAA
    GTGAGTCGAA CTTTCAGTTT CCTCATGAAT AGGATGACTA GCCCTCGGAA TAAATCAAAG
    ACAAAAAGCA AGGATGCCAA AGATAAAGAG AAGCTGAATC GACATCAGTT TGCCCCAGGA
    ACATTCTCTG GGGTTCTGCA GTGTTTGGTT TGTGATAAAA CACTCCTGGG GAAAGAGTCA
    CTGCAGTGTT CTAACTGTAA TGCAAATGTG CACAAAGGTT GTAAAGATGC TGCGCCTGCA
    TGCACCAAGA AATTCCAAGA GAAATATAAC AAGAACAAAC CACAGACCAT CCTTGGAAAT
    TCTTCATTTA GAGACATCCC ACAGCCTGGT CTCTCCTTGC ACCCTTCTTC CTCCGTGCCT
    GTTGGATTGC CGACTGGAAG GAGGGAGACT GTGGGACAGG TCCATCCATT GTCCAGAAGT
    GTTCCAGGCA CCACCTTGGA AAGCTTCAGG AGGTCAGCCA CATCCTTGGA GTCTGAGAGT
    GACCATAACA GCTGCAGAAG CAGGTCTCAT TCTGATGAGC TGCTACAGTC CATGGGCTCT
    TCTCCCTCTA CAGAGTCTTT CATAATGGAA GATGTTGTGG ATTCTTCTCT GTGGAGTGAC
    CTCAGCAGTG ATGCCCAGGA GTTTGAAGCA GAATCTTGGA GTCTTGTGGT GGATCCCTCA
    TTTTGTAATA GGCAGGAGAA GGATGTCATC AAAAGACAGG ATGTCATTTT TGAGCTAATG
    CAAACAGAGA TGCATCACAT CCAGACCCTG TTCATCATGT CTGAGATCTT CAGGAAAGGC
    ATGAAAGAGG AGCTGCAGCT GGACCACAGC ACCGTGGATA AAATTTTCCC CTGTTTAGAT
    GAGTTGCTTG AAATCCACAG GCATTTCTTC TACAGTATGA AGGAACGAAG GCAGGAATCC
    TGTGCTGGCA GCGACAGGAA TTTTGTGATC GACCGAATTG GAGATATTTT GGTACAACAG
    TTTTCAGAAG AAAATGCAAG TAAAATGAAG AAAATATATG GAGAATTCTG TTGCCATCAT
    AAAGAAGCTG TTAACCTCTT TAAAGAACTC CAGCAGAATA AAAAGTTTCA GAATTTTATT
    AAGCTCCGAA ATAGTAATCT TTTGGCTCGA CGCCGAGGAA TTCCAGAATG CATTCTGTTG
    GTCACTCAGC GTATTACAAA ATACCCTGTC TTGGTGGAAA GGATATTGCA GTACACAAAG
    GAAAGAACTG AGGAACATAA AGACTTACGC AAAGCGCTTT GCTTAATTAA AGACATGATT
    GCAACAGTGG ATTTAAAAGT CAATGAATAT GAGAAAAACC AAAAATGGCT TGAGATCCTA
    AATAAGATTG AAAACAAAAC ATACACGAAG CTCAAAAATG GACATGTGTT TAGGAAGCAG
    GCACTGATGA GTGAAGAAAG GACTCTGTTA TATGATGGCC TTGTTTACTG GAAAACTGCT
    ACAGGTCGTT TCAAAGATAT CCTAGCTCTA CTTCTAACTG ATGTGCTGCT CTTTTTACAA
    GAAAAAGACC AGAAATACAT CTTTGCAGCC GTTGATCAGA AGCCATCAGT TATTTCCCTT
    CAAAAGCTTA TTGCTAGAGA AGTTGCTAAT GAGGAGAGAG GAATGTTTCT GATCAGTGCT
    TCATCTGCTG GTCCTGAGAT GTATGAAATT CACACCAATT CCAAGGAGGA ACGCAATAAC
    TGGATGAGAC GGATCCAGCA GGCTGTAGAA AGTTGTCCTG AAGAAAAAGG GGGAAGGACA
    AGTGAATCTG ATGAAGACAA GAGGAAAGCT GAAGCCAGAG TGGCCAAAAT TCAGCAATGT
    CAAGAAATAC TCACTAACCA AGACCAACAA ATTTGTGCGT ATTTGGAGGA GAAGCTGCAT
    ATCTATGCTG AACTTGGAGA ACTGAGCGGA TTTGAGGACG TCCATCTAGA GCCCCACCTC
    CTTATTAAAC CTGACCCAGG CGAGCCTCCC CAGGCAGCCT CATTACTGGC AGCAGCACTG
    AAAGAAGCTG AGAGCCTACA AGTTGCAGTG AAGGCCTCAC AGATGGGCGC CGTGAGTCAA
    TCATGTGAGG ACAGTTGTGG AGACTCTGTC TTGGCGGACA CACTCAGTTC TCATGATGTA
    CCAGGATCAC CGACTGCCTC ATTAGTCACA GGAGGGAGAG AAGGAAGAGG CTGTTCGGAT
    GTGGATCCCG GGATCCAGGG TGTGGTAACC GACTTGGCCG TCTCTGATGC AGGGGAGAAG
    GTGGAATGTA GAAATTTTCC AGGTTCTTCA CAATCAGAGA TTATACAAGC CATACAGAAT
    TTAACCCGTC TCTTATACAG CCTTCAGGCC GCCTTGACCA TTCAGGACAG CCACATTGAG
    ATCCACAGGC TGGTTCTCCA GCAGCAGGAG GGCCTGTCTC TCGGCCACTC TATCCTCCGA
    GGCGGCCCCT TGCAGGACCA GAAGTCTCGC GACGCGGACA GGCAGCATGA GGAGCTGGCC
    AATGTGCACC AGCTTCAGCA CCAGCTCCAG CAGGAGCAGC GGCGCTGGCT GCGCAGGTGT
    GAGCAGCAGC AGCGGGCGCA GGCGACCAGG GAGAGCTGGC TGCAGGAGCG GGAGCGGGAG
    TGCCAGTCGC AGGAGGAGCT GCTGCTGCGG AGCCGGGGCG AGCTGGACCT CCAGCTCCAG
    GAGTACCAGC ACAGCCTGGA GCGGCTGAGG GAGGGCCAGC GCCTGGTGGA GAGGGAGCAG
    GCGAGGATGC GGGCCCAGCA GAGCCTGCTG GGCCACTGGA AGCACGGCCG GCAGAGGAGC
    CTGCCCGCGG TGCTCCTTCC GGGTGGCCCC GAGGTAATGG AACTTAATCG ATCTGAGAGT
    TTATGTCATG AAAACTCATT CTTCATCAAT GAAGCTTTAG TACAAATGTC ATTTAACACT
    TTCAACAAAC TGAATCCATC AGTTATCCAT CAGGATGCCA CTTACCCTAC AACTCAATCT
    CATTCTGACT TGGTGAGGAC TAGTGAACAT CAAGTAGACC TCAAGGTGGA CCCTTCTCAG
    CCTTCGAATG TCAGTCACAA ACTGTGGACA GCCGCTGGTT CCGGCCATCA GATACTTCCT
    TTCCATGAAA GCAGCAAGGA TTCTTGTAAA AATGGCTCCA GTATGACAAA GTGCAGTTGT
    ACGTTGACAT CTCCCCCGGG ACTGTGGACT GGAACCACAT CTACTTTGAA AGATTTGGAC
    ACCTCCCACA CTGAGTCCCC AACCCCCCAT GACTCAAATT CACACCGCCC TCAACTGCAG
    GCGTTTATAA CAGAAGCAAA GCTAAATCTA CCGACAAGGA CAATGACCAG ACAAGATGGG
    GAAACTGGAG ATGGAGCCAA AGAAAATATT GTTTACCTCT AA

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

    CloneID OHu00087
    Clone ID Related Accession (Same CDS sequence) NM_001177693.1
    Accession Version NM_001177693.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5118bp)
    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 2019-12-26
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK094713.1, BC171850.1, AC093283.3 and CN478799.1. Transcript Variant: This variant (2) lacks an in-frame exon in the coding region, compared to variant 1. The encoded isoform (2) is shorter than isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC171850.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2142586 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGAT TTGGACACCT CCCACACTGA GTCCCCAACC
    CCCCATGACT CAAATTCACA CCGCCCTCAA CTGCAGGCGT TTATAACAGA AGCAAAGCTA
    AATCTACCGA CAAGGACAAT GACCAGACAA GATGGGGAAA CTGGAGATGG AGCCAAAGAA
    AATATTGTTT ACCTCTAA

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

    RefSeq NP_001171164.1
    CDS177..5294
    Translation

    Target ORF information:

    RefSeq Version NM_001177693.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001177693.1

    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
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGAT TTGGACACCT CCCACACTGA GTCCCCAACC
    CCCCATGACT CAAATTCACA CCGCCCTCAA CTGCAGGCGT TTATAACAGA AGCAAAGCTA
    AATCTACCGA CAAGGACAAT GACCAGACAA GATGGGGAAA CTGGAGATGG AGCCAAAGAA
    AATATTGTTT ACCTCTAA

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

    CloneID OHu11947
    Clone ID Related Accession (Same CDS sequence) NM_001244364.2 , NM_001244364.1
    Accession Version NM_001244364.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4179bp)
    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 2019-10-13
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK304761.1, AC093283.3, BG696752.1 and AK025470.1. On Jun 2, 2019 this sequence version replaced NM_001244364.1. Transcript Variant: This variant (3) has multiple differences, compared to variant 1. These differences result in a distinct 5' UTR and cause translation initiation at an alternate start codon, compared to variant 1. The encoded protein (isoform 3) is shorter and has a distinct N-terminus, compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK304761.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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 ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGA TTTGGACACC
    TCCCACACTG AGTCCCCAAC CCCCCATGAC TCAAATTCAC ACCGCCCTCA ACTGCAGGCG
    TTTATAACAG AAGCAAAGCT AAATCTACCG ACAAGGACAA TGACCAGACA AGATGGGGAA
    ACTGGAGATG GAGCCAAAGA AAATATTGTT TACCTCTAA

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

    RefSeq NP_001231293.1
    CDS44..4222
    Translation

    Target ORF information:

    RefSeq Version NM_001244364.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001244364.2

    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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    ATGGATTCTG ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGA TTTGGACACC
    TCCCACACTG AGTCCCCAAC CCCCCATGAC TCAAATTCAC ACCGCCCTCA ACTGCAGGCG
    TTTATAACAG AAGCAAAGCT AAATCTACCG ACAAGGACAA TGACCAGACA AGATGGGGAA
    ACTGGAGATG GAGCCAAAGA AAATATTGTT TACCTCTAA

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

    CloneID OHu11947
    Clone ID Related Accession (Same CDS sequence) NM_001244364.2 , NM_001244364.1
    Accession Version NM_001244364.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4179bp)
    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 2019-03-11
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK304761.1, AC093283.3, BG696752.1 and AK025470.1. Transcript Variant: This variant (3) has multiple differences, compared to variant 1. These differences result in a distinct 5' UTR and cause translation initiation at an alternate start codon, compared to variant 1. The encoded protein (isoform 3) is shorter and has a distinct N-terminus, compared to isoform 1. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AK304761.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968189, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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 ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGA TTTGGACACC
    TCCCACACTG AGTCCCCAAC CCCCCATGAC TCAAATTCAC ACCGCCCTCA ACTGCAGGCG
    TTTATAACAG AAGCAAAGCT AAATCTACCG ACAAGGACAA TGACCAGACA AGATGGGGAA
    ACTGGAGATG GAGCCAAAGA AAATATTGTT TACCTCTAA

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

    RefSeq NP_001231293.1
    CDS72..4250
    Translation

    Target ORF information:

    RefSeq Version NM_001244364.1
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001244364.1

    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
    ATGGATTCTG ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGA TTTGGACACC
    TCCCACACTG AGTCCCCAAC CCCCCATGAC TCAAATTCAC ACCGCCCTCA ACTGCAGGCG
    TTTATAACAG AAGCAAAGCT AAATCTACCG ACAAGGACAA TGACCAGACA AGATGGGGAA
    ACTGGAGATG GAGCCAAAGA AAATATTGTT TACCTCTAA

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

    CloneID OHu21533
    Clone ID Related Accession (Same CDS sequence) XM_011543546.1 , NM_001080479.2 , XM_011543546.2
    Accession Version NM_001080479.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5196bp)
    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 2019-12-27
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK094713.1, BC157846.1, AC091868.3, AC093283.3 and CN478799.1. This sequence is a reference standard in the RefSeqGene project. On Apr 25, 2010 this sequence version replaced NM_001080479.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC157846.1 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA1968540, SAMEA2142586 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    RefSeq NP_001073948.2
    CDS177..5372
    Translation

    Target ORF information:

    RefSeq Version NM_001080479.2
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001080479.2

    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
    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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    CloneID OHu21533
    Clone ID Related Accession (Same CDS sequence) XM_011543546.1 , NM_001080479.2 , XM_011543546.2
    Accession Version XM_011543546.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5196bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    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_000005.10) 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 :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    RefSeq XP_011541848.1
    CDS184..5379
    Translation

    Target ORF information:

    RefSeq Version XM_011543546.1
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011543546.1

    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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    CloneID OHu21533
    Clone ID Related Accession (Same CDS sequence) XM_011543546.1 , NM_001080479.2 , XM_011543546.2
    Accession Version XM_011543546.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5196bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000005.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011543546.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    RefSeq XP_011541848.1
    CDS179..5374
    Translation

    Target ORF information:

    RefSeq Version XM_011543546.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011543546.2

    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
    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
    5161
    ATGGAGTTGA GCTGCAGCGA AGCACCTCTT TACGGGCAGA TGATGATCTA TGCGAAGTTT 
    GACAAAAATG TGTATCTTCC TGAAGATGCT GAGTTTTACT TTACTTATGA CGGATCTCAT
    CAGCGACATG TCATGATTGC AGAGCGCATC GAGGATAACG TTCTCCAGTC CAGCGTCCCA
    GGCCATGGGC TTCAGGAGAC GGTGACGGTA TCTGTGTGCC TCTGCTCGGA AGGTTACTCT
    CCGGTGACCA TGGGCTCTGG CTCAGTGACC TACGTGGACA ACATGGCTTG CAGGCTGGCT
    CGTCTGCTGG TGACGCAGGC CAATCGCCTC ACAGCCTGCA GCCACCAGAC CCTGCTGACC
    CCATTTGCCT TGACGGCAGG AGCACTGCCT GCCTTGGATG AGGAGCTCGT GCTGGCTCTG
    ACCCATCTGG AATTGCCTCT AGAGTGGACT GTGTTGGGAA GTTCTTCACT TGAAGTATCT
    TCTCACAGAG AATCTCTTCT ACACCTGGCT ATGAGATGGG GCCTGGCTAA ACTTTCCCAG
    TTCTTCTTGT GTCTCCCGGG GGGAGTCCAG GCCTTGGCTT TACCCAACGA AGAGGGTGCC
    ACACCATTAG ACTTAGCTTT ACGTGAAGGA CACTCCAAGC TGGTGGAAGA CGTCACAAAT
    TTTCAGGGCA GATGGTCCCC AAGCTTCTCC CGAGTGCAGC TCAGTGAAGA AGCCTCCTTG
    CATTACATTC ACTCATCGGA AACGCTGACC CTGACCCTGA ACCACACAGC CGAGCATTTG
    TTGGAGGCAG ATATTAAACT CTTCCGGAAA TACTTTTGGG ATAGAGCCTT TCTTGTCAAG
    GCCTTTGAGC CAGAAGCCAG GCCAGAGGAA AGAACAGCTA TGCCCTCCAG CGGTGCAGAA
    ACTGAAGAAG AGATTAAGAA TTCAGTGTCC AGCAGATCAG CAGCTGAAAA GGAAGATATA
    AAGCGTGTCA AAAGCCTGGT GGTTCAACAC AATGAACATG AAGACCAGCA CAGCCTAGAT
    TTGGATCGCT CCTTCGATAT CCTAAAAAAA TCCAAGCCGC CCTCGACATT GCTTGCTGCA
    GGCCGGCTTT CAGACATGCT GAATGGAGGT GATGAAGTCT ACGCTAACTG TATGGTGATT
    GATCAGGTTG GTGATTTGGA TATCAGCTAT ATTAATATAG AGGGAATCAC TGCCACTACC
    AGCCCTGAAT CCAGAGGTTG CACTCTGTGG CCTCAGAGCA GCAAACACAC CCTTCCTACA
    GAAACCAGTC CCAGTGTGTA CCCACTTAGT GAAAATGTCG AAGGGACAGC ACACACTGAA
    GCCCAGCAGT CCTTCATGTC ACCATCAAGT TCGTGTGCTT CCAACTTGAA TCTTTCTTTT
    GGTTGGCATG GATTTGAAAA GGAACAAAGT CATCTAAAGA AAAGAAGTTC TAGCCTTGAT
    GCCTTGGACG CCGACAGTGA AGGGGAAGGG CATTCTGAGC CATCCCACAT CTGTTACACT
    CCAGGGTCTC AGAGCTCCTC AAGAACTGGG ATTCCTAGTG GGGATGAATT GGACTCTTTT
    GAGACTAACA CTGAACCGGA TTTTAATATC TCCAGGGCTG AATCCCTTCC TCTATCAAGT
    AATCTACAGT CGAAGGAATC ACTGCTTTCT GGAGTTCGCT CACGTTCTTA TTCTTGCTCA
    TCACCCAAAA TTTCTTTAGG AAAAACTCGT TTGGTGCGTG AATTAACAGT ATGCAGTTCA
    AGTGAAGAGC AAAGAGCTTA CAGCTTATCG GAGCCACCAA GAGAAAACAG AATTCAGGAA
    GAAGAATGGG ATAAATACAT CATACCTGCC AAATCAGAGT CTGAAAAATA TAAAGTGAGT
    CGAACTTTCA GTTTCCTCAT GAATAGGATG ACTAGCCCTC GGAATAAATC AAAGACAAAA
    AGCAAGGATG CCAAAGATAA AGAGAAGCTG AATCGACATC AGTTTGCCCC AGGAACATTC
    TCTGGGGTTC TGCAGTGTTT GGTTTGTGAT AAAACACTCC TGGGGAAAGA GTCACTGCAG
    TGTTCTAACT GTAATGCAAA TGTGCACAAA GGTTGTAAAG ATGCTGCGCC TGCATGCACC
    AAGAAATTCC AAGAGAAATA TAACAAGAAC AAACCACAGA CCATCCTTGG AAATTCTTCA
    TTTAGAGACA TCCCACAGCC TGGTCTCTCC TTGCACCCTT CTTCCTCCGT GCCTGTTGGA
    TTGCCGACTG GAAGGAGGGA GACTGTGGGA CAGGTCCATC CATTGTCCAG AAGTGTTCCA
    GGCACCACCT TGGAAAGCTT CAGGAGGTCA GCCACATCCT TGGAGTCTGA GAGTGACCAT
    AACAGCTGCA GAAGCAGGTC TCATTCTGAT GAGCTGCTAC AGTCCATGGG CTCTTCTCCC
    TCTACAGAGT CTTTCATAAT GGAAGATGTT GTGGATTCTT CTCTGTGGAG TGACCTCAGC
    AGTGATGCCC AGGAGTTTGA AGCAGAATCT TGGAGTCTTG TGGTGGATCC CTCATTTTGT
    AATAGGCAGG AGAAGGATGT CATCAAAAGA CAGGATGTCA TTTTTGAGCT AATGCAAACA
    GAGATGCATC ACATCCAGAC CCTGTTCATC ATGTCTGAGA TCTTCAGGAA AGGCATGAAA
    GAGGAGCTGC AGCTGGACCA CAGCACCGTG GATAAAATTT TCCCCTGTTT AGATGAGTTG
    CTTGAAATCC ACAGGCATTT CTTCTACAGT ATGAAGGAAC GAAGGCAGGA ATCCTGTGCT
    GGCAGCGACA GGAATTTTGT GATCGACCGA ATTGGAGATA TTTTGGTACA ACAGTTTTCA
    GAAGAAAATG CAAGTAAAAT GAAGAAAATA TATGGAGAAT TCTGTTGCCA TCATAAAGAA
    GCTGTTAACC TCTTTAAAGA ACTCCAGCAG AATAAAAAGT TTCAGAATTT TATTAAGCTC
    CGAAATAGTA ATCTTTTGGC TCGACGCCGA GGAATTCCAG AATGCATTCT GTTGGTCACT
    CAGCGTATTA CAAAATACCC TGTCTTGGTG GAAAGGATAT TGCAGTACAC AAAGGAAAGA
    ACTGAGGAAC ATAAAGACTT ACGCAAAGCG CTTTGCTTAA TTAAAGACAT GATTGCAACA
    GTGGATTTAA AAGTCAATGA ATATGAGAAA AACCAAAAAT GGCTTGAGAT CCTAAATAAG
    ATTGAAAACA AAACATACAC GAAGCTCAAA AATGGACATG TGTTTAGGAA GCAGGCACTG
    ATGAGTGAAG AAAGGACTCT GTTATATGAT GGCCTTGTTT ACTGGAAAAC TGCTACAGGT
    CGTTTCAAAG ATATCCTAGC TCTACTTCTA ACTGATGTGC TGCTCTTTTT ACAAGAAAAA
    GACCAGAAAT ACATCTTTGC AGCCGTTGAT CAGAAGCCAT CAGTTATTTC CCTTCAAAAG
    CTTATTGCTA GAGAAGTTGC TAATGAGGAG AGAGGAATGT TTCTGATCAG TGCTTCATCT
    GCTGGTCCTG AGATGTATGA AATTCACACC AATTCCAAGG AGGAACGCAA TAACTGGATG
    AGACGGATCC AGCAGGCTGT AGAAAGTTGT CCTGAAGAAA AAGGGGGAAG GACAAGTGAA
    TCTGATGAAG ACAAGAGGAA AGCTGAAGCC AGAGTGGCCA AAATTCAGCA ATGTCAAGAA
    ATACTCACTA ACCAAGACCA ACAAATTTGT GCGTATTTGG AGGAGAAGCT GCATATCTAT
    GCTGAACTTG GAGAACTGAG CGGATTTGAG GACGTCCATC TAGAGCCCCA CCTCCTTATT
    AAACCTGACC CAGGCGAGCC TCCCCAGGCA GCCTCATTAC TGGCAGCAGC ACTGAAAGAA
    GCTGAGAGCC TACAAGTTGC AGTGAAGGCC TCACAGATGG GCGCCGTGAG TCAATCATGT
    GAGGACAGTT GTGGAGACTC TGTCTTGGCG GACACACTCA GTTCTCATGA TGTACCAGGA
    TCACCGACTG CCTCATTAGT CACAGGAGGG AGAGAAGGAA GAGGCTGTTC GGATGTGGAT
    CCCGGGATCC AGGGTGTGGT AACCGACTTG GCCGTCTCTG ATGCAGGGGA GAAGGTGGAA
    TGTAGAAATT TTCCAGGTTC TTCACAATCA GAGATTATAC AAGCCATACA GAATTTAACC
    CGTCTCTTAT ACAGCCTTCA GGCCGCCTTG ACCATTCAGG ACAGCCACAT TGAGATCCAC
    AGGCTGGTTC TCCAGCAGCA GGAGGGCCTG TCTCTCGGCC ACTCTATCCT CCGAGGCGGC
    CCCTTGCAGG ACCAGAAGTC TCGCGACGCG GACAGGCAGC ATGAGGAGCT GGCCAATGTG
    CACCAGCTTC AGCACCAGCT CCAGCAGGAG CAGCGGCGCT GGCTGCGCAG GTGTGAGCAG
    CAGCAGCGGG CGCAGGCGAC CAGGGAGAGC TGGCTGCAGG AGCGGGAGCG GGAGTGCCAG
    TCGCAGGAGG AGCTGCTGCT GCGGAGCCGG GGCGAGCTGG ACCTCCAGCT CCAGGAGTAC
    CAGCACAGCC TGGAGCGGCT GAGGGAGGGC CAGCGCCTGG TGGAGAGGGA GCAGGCGAGG
    ATGCGGGCCC AGCAGAGCCT GCTGGGCCAC TGGAAGCACG GCCGGCAGAG GAGCCTGCCC
    GCGGTGCTCC TTCCGGGTGG CCCCGAGGTA ATGGAACTTA ATCGATCTGA GAGTTTATGT
    CATGAAAACT CATTCTTCAT CAATGAAGCT TTAGTACAAA TGTCATTTAA CACTTTCAAC
    AAACTGAATC CATCAGTTAT CCATCAGGAT GCCACTTACC CTACAACTCA ATCTCATTCT
    GACTTGGTGA GGACTAGTGA ACATCAAGTA GACCTCAAGG TGGACCCTTC TCAGCCTTCG
    AATGTCAGTC ACAAACTGTG GACAGCCGCT GGTTCCGGCC ATCAGATACT TCCTTTCCAT
    GAAAGCAGCA AGGATTCTTG TAAAAATGGC TCCAGTATGA CAAAGTGCAG TTGTACGTTG
    ACATCTCCCC CGGGACTGTG GACTGGAACC ACATCTACTT TGAAAGATTT GGACACCTCC
    CACACTGAGT CCCCAACCCC CCATGACTCA AATTCACACC GCCCTCAACT GCAGGCGTTT
    ATAACAGAAG CAAAGCTAAA TCTACCGACA AGGACAATGA CCAGACAAGA TGGGGAAACT
    GGAGATGGAG CCAAAGAAAA TATTGTTTAC CTCTAA

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

    CloneID OHu39668
    Clone ID Related Accession (Same CDS sequence) XM_005248568.4
    Accession Version XM_005248568.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4257bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product rho guanine nucleotide exchange factor 28 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000005.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005248568.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGATTCTG ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGG CTCCAGTATG
    ACAAAGTGCA GTTGTACGTT GACATCTCCC CCGGGACTGT GGACTGGAAC CACATCTACT
    TTGAAAGATT TGGACACCTC CCACACTGAG TCCCCAACCC CCCATGACTC AAATTCACAC
    CGCCCTCAAC TGCAGGCGTT TATAACAGAA GCAAAGCTAA ATCTACCGAC AAGGACAATG
    ACCAGACAAG ATGGGGAAAC TGGAGATGGA GCCAAAGAAA ATATTGTTTA CCTCTAA

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

    RefSeq XP_005248625.1
    CDS1553..5809
    Translation

    Target ORF information:

    RefSeq Version XM_005248568.4
    Organism Homo sapiens(human)
    Definition Homo sapiens Rho guanine nucleotide exchange factor 28 (ARHGEF28), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005248568.4

    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
    ATGGATTCTG ACTCCGACTC ACCTTTTAAC TACTCGTGGC CTTCCTTTCC CAAAATGAAG 
    ATTCGAAGAA GGACGTCCAA ACAAGATCGC TCCTTCGATA TCCTAAAAAA ATCCAAGCCG
    CCCTCGACAT TGCTTGCTGC AGGCCGGCTT TCAGACATGC TGAATGGAGG TGATGAAGTC
    TACGCTAACT GTATGGTGAT TGATCAGGTT GGTGATTTGG ATATCAGCTA TATTAATATA
    GAGGGAATCA CTGCCACTAC CAGCCCTGAA TCCAGAGGTT GCACTCTGTG GCCTCAGAGC
    AGCAAACACA CCCTTCCTAC AGAAACCAGT CCCAGTGTGT ACCCACTTAG TGAAAATGTC
    GAAGGGACAG CACACACTGA AGCCCAGCAG TCCTTCATGT CACCATCAAG TTCGTGTGCT
    TCCAACTTGA ATCTTTCTTT TGGTTGGCAT GGATTTGAAA AGGAACAAAG TCATCTAAAG
    AAAAGAAGTT CTAGCCTTGA TGCCTTGGAC GCCGACAGTG AAGGGGAAGG GCATTCTGAG
    CCATCCCACA TCTGTTACAC TCCAGGGTCT CAGAGCTCCT CAAGAACTGG GATTCCTAGT
    GGGGATGAAT TGGACTCTTT TGAGACTAAC ACTGAACCGG ATTTTAATAT CTCCAGGGCT
    GAATCCCTTC CTCTATCAAG TAATCTACAG TCGAAGGAAT CACTGCTTTC TGGAGTTCGC
    TCACGTTCTT ATTCTTGCTC ATCACCCAAA ATTTCTTTAG GAAAAACTCG TTTGGTGCGT
    GAATTAACAG TATGCAGTTC AAGTGAAGAG CAAAGAGCTT ACAGCTTATC GGAGCCACCA
    AGAGAAAACA GAATTCAGGA AGAAGAATGG GATAAATACA TCATACCTGC CAAATCAGAG
    TCTGAAAAAT ATAAAGTGAG TCGAACTTTC AGTTTCCTCA TGAATAGGAT GACTAGCCCT
    CGGAATAAAT CAAAGACAAA AAGCAAGGAT GCCAAAGATA AAGAGAAGCT GAATCGACAT
    CAGTTTGCCC CAGGAACATT CTCTGGGGTT CTGCAGTGTT TGGTTTGTGA TAAAACACTC
    CTGGGGAAAG AGTCACTGCA GTGTTCTAAC TGTAATGCAA ATGTGCACAA AGGTTGTAAA
    GATGCTGCGC CTGCATGCAC CAAGAAATTC CAAGAGAAAT ATAACAAGAA CAAACCACAG
    ACCATCCTTG GAAATTCTTC ATTTAGAGAC ATCCCACAGC CTGGTCTCTC CTTGCACCCT
    TCTTCCTCCG TGCCTGTTGG ATTGCCGACT GGAAGGAGGG AGACTGTGGG ACAGGTCCAT
    CCATTGTCCA GAAGTGTTCC AGGCACCACC TTGGAAAGCT TCAGGAGGTC AGCCACATCC
    TTGGAGTCTG AGAGTGACCA TAACAGCTGC AGAAGCAGGT CTCATTCTGA TGAGCTGCTA
    CAGTCCATGG GCTCTTCTCC CTCTACAGAG TCTTTCATAA TGGAAGATGT TGTGGATTCT
    TCTCTGTGGA GTGACCTCAG CAGTGATGCC CAGGAGTTTG AAGCAGAATC TTGGAGTCTT
    GTGGTGGATC CCTCATTTTG TAATAGGCAG GAGAAGGATG TCATCAAAAG ACAGGATGTC
    ATTTTTGAGC TAATGCAAAC AGAGATGCAT CACATCCAGA CCCTGTTCAT CATGTCTGAG
    ATCTTCAGGA AAGGCATGAA AGAGGAGCTG CAGCTGGACC ACAGCACCGT GGATAAAATT
    TTCCCCTGTT TAGATGAGTT GCTTGAAATC CACAGGCATT TCTTCTACAG TATGAAGGAA
    CGAAGGCAGG AATCCTGTGC TGGCAGCGAC AGGAATTTTG TGATCGACCG AATTGGAGAT
    ATTTTGGTAC AACAGTTTTC AGAAGAAAAT GCAAGTAAAA TGAAGAAAAT ATATGGAGAA
    TTCTGTTGCC ATCATAAAGA AGCTGTTAAC CTCTTTAAAG AACTCCAGCA GAATAAAAAG
    TTTCAGAATT TTATTAAGCT CCGAAATAGT AATCTTTTGG CTCGACGCCG AGGAATTCCA
    GAATGCATTC TGTTGGTCAC TCAGCGTATT ACAAAATACC CTGTCTTGGT GGAAAGGATA
    TTGCAGTACA CAAAGGAAAG AACTGAGGAA CATAAAGACT TACGCAAAGC GCTTTGCTTA
    ATTAAAGACA TGATTGCAAC AGTGGATTTA AAAGTCAATG AATATGAGAA AAACCAAAAA
    TGGCTTGAGA TCCTAAATAA GATTGAAAAC AAAACATACA CGAAGCTCAA AAATGGACAT
    GTGTTTAGGA AGCAGGCACT GATGAGTGAA GAAAGGACTC TGTTATATGA TGGCCTTGTT
    TACTGGAAAA CTGCTACAGG TCGTTTCAAA GATATCCTAG CTCTACTTCT AACTGATGTG
    CTGCTCTTTT TACAAGAAAA AGACCAGAAA TACATCTTTG CAGCCGTTGA TCAGAAGCCA
    TCAGTTATTT CCCTTCAAAA GCTTATTGCT AGAGAAGTTG CTAATGAGGA GAGAGGAATG
    TTTCTGATCA GTGCTTCATC TGCTGGTCCT GAGATGTATG AAATTCACAC CAATTCCAAG
    GAGGAACGCA ATAACTGGAT GAGACGGATC CAGCAGGCTG TAGAAAGTTG TCCTGAAGAA
    AAAGGGGGAA GGACAAGTGA ATCTGATGAA GACAAGAGGA AAGCTGAAGC CAGAGTGGCC
    AAAATTCAGC AATGTCAAGA AATACTCACT AACCAAGACC AACAAATTTG TGCGTATTTG
    GAGGAGAAGC TGCATATCTA TGCTGAACTT GGAGAACTGA GCGGATTTGA GGACGTCCAT
    CTAGAGCCCC ACCTCCTTAT TAAACCTGAC CCAGGCGAGC CTCCCCAGGC AGCCTCATTA
    CTGGCAGCAG CACTGAAAGA AGCTGAGAGC CTACAAGTTG CAGTGAAGGC CTCACAGATG
    GGCGCCGTGA GTCAATCATG TGAGGACAGT TGTGGAGACT CTGTCTTGGC GGACACACTC
    AGTTCTCATG ATGTACCAGG ATCACCGACT GCCTCATTAG TCACAGGAGG GAGAGAAGGA
    AGAGGCTGTT CGGATGTGGA TCCCGGGATC CAGGGTGTGG TAACCGACTT GGCCGTCTCT
    GATGCAGGGG AGAAGGTGGA ATGTAGAAAT TTTCCAGGTT CTTCACAATC AGAGATTATA
    CAAGCCATAC AGAATTTAAC CCGTCTCTTA TACAGCCTTC AGGCCGCCTT GACCATTCAG
    GACAGCCACA TTGAGATCCA CAGGCTGGTT CTCCAGCAGC AGGAGGGCCT GTCTCTCGGC
    CACTCTATCC TCCGAGGCGG CCCCTTGCAG GACCAGAAGT CTCGCGACGC GGACAGGCAG
    CATGAGGAGC TGGCCAATGT GCACCAGCTT CAGCACCAGC TCCAGCAGGA GCAGCGGCGC
    TGGCTGCGCA GGTGTGAGCA GCAGCAGCGG GCGCAGGCGA CCAGGGAGAG CTGGCTGCAG
    GAGCGGGAGC GGGAGTGCCA GTCGCAGGAG GAGCTGCTGC TGCGGAGCCG GGGCGAGCTG
    GACCTCCAGC TCCAGGAGTA CCAGCACAGC CTGGAGCGGC TGAGGGAGGG CCAGCGCCTG
    GTGGAGAGGG AGCAGGCGAG GATGCGGGCC CAGCAGAGCC TGCTGGGCCA CTGGAAGCAC
    GGCCGGCAGA GGAGCCTGCC CGCGGTGCTC CTTCCGGGTG GCCCCGAGGT AATGGAACTT
    AATCGATCTG AGAGTTTATG TCATGAAAAC TCATTCTTCA TCAATGAAGC TTTAGTACAA
    ATGTCATTTA ACACTTTCAA CAAACTGAAT CCATCAGTTA TCCATCAGGA TGCCACTTAC
    CCTACAACTC AATCTCATTC TGACTTGGTG AGGACTAGTG AACATCAAGT AGACCTCAAG
    GTGGACCCTT CTCAGCCTTC GAATGTCAGT CACAAACTGT GGACAGCCGC TGGTTCCGGC
    CATCAGATAC TTCCTTTCCA TGAAAGCAGC AAGGATTCTT GTAAAAATGG CTCCAGTATG
    ACAAAGTGCA GTTGTACGTT GACATCTCCC CCGGGACTGT GGACTGGAAC CACATCTACT
    TTGAAAGATT TGGACACCTC CCACACTGAG TCCCCAACCC CCCATGACTC AAATTCACAC
    CGCCCTCAAC TGCAGGCGTT TATAACAGAA GCAAAGCTAA ATCTACCGAC AAGGACAATG
    ACCAGACAAG ATGGGGAAAC TGGAGATGGA GCCAAAGAAA ATATTGTTTA CCTCTAA

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

    CloneID OHu71320
    Clone ID Related Accession (Same CDS sequence) XM_011543547.2
    Accession Version XM_011543547.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5190bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    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_000005.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011543547.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    5161
    ATGAGAAGTG CAAAAGCCTG GAAAAGGGGG CAGATGATGA TCTATGCGAA GTTTGACAAA 
    AATGTGTATC TTCCTGAAGA TGCTGAGTTT TACTTTACTT ATGACGGATC TCATCAGCGA
    CATGTCATGA TTGCAGAGCG CATCGAGGAT AACGTTCTCC AGTCCAGCGT CCCAGGCCAT
    GGGCTTCAGG AGACGGTGAC GGTATCTGTG TGCCTCTGCT CGGAAGGTTA CTCTCCGGTG
    ACCATGGGCT CTGGCTCAGT GACCTACGTG GACAACATGG CTTGCAGGCT GGCTCGTCTG
    CTGGTGACGC AGGCCAATCG CCTCACAGCC TGCAGCCACC AGACCCTGCT GACCCCATTT
    GCCTTGACGG CAGGAGCACT GCCTGCCTTG GATGAGGAGC TCGTGCTGGC TCTGACCCAT
    CTGGAATTGC CTCTAGAGTG GACTGTGTTG GGAAGTTCTT CACTTGAAGT ATCTTCTCAC
    AGAGAATCTC TTCTACACCT GGCTATGAGA TGGGGCCTGG CTAAACTTTC CCAGTTCTTC
    TTGTGTCTCC CGGGGGGAGT CCAGGCCTTG GCTTTACCCA ACGAAGAGGG TGCCACACCA
    TTAGACTTAG CTTTACGTGA AGGACACTCC AAGCTGGTGG AAGACGTCAC AAATTTTCAG
    GGCAGATGGT CCCCAAGCTT CTCCCGAGTG CAGCTCAGTG AAGAAGCCTC CTTGCATTAC
    ATTCACTCAT CGGAAACGCT GACCCTGACC CTGAACCACA CAGCCGAGCA TTTGTTGGAG
    GCAGATATTA AACTCTTCCG GAAATACTTT TGGGATAGAG CCTTTCTTGT CAAGGCCTTT
    GAGCCAGAAG CCAGGCCAGA GGAAAGAACA GCTATGCCCT CCAGCGGTGC AGAAACTGAA
    GAAGAGATTA AGAATTCAGT GTCCAGCAGA TCAGCAGCTG AAAAGGAAGA TATAAAGCGT
    GTCAAAAGCC TGGTGGTTCA ACACAATGAA CATGAAGACC AGCACAGCCT AGATTTGGAT
    CGCTCCTTCG ATATCCTAAA AAAATCCAAG CCGCCCTCGA CATTGCTTGC TGCAGGCCGG
    CTTTCAGACA TGCTGAATGG AGGTGATGAA GTCTACGCTA ACTGTATGGT GATTGATCAG
    GTTGGTGATT TGGATATCAG CTATATTAAT ATAGAGGGAA TCACTGCCAC TACCAGCCCT
    GAATCCAGAG GTTGCACTCT GTGGCCTCAG AGCAGCAAAC ACACCCTTCC TACAGAAACC
    AGTCCCAGTG TGTACCCACT TAGTGAAAAT GTCGAAGGGA CAGCACACAC TGAAGCCCAG
    CAGTCCTTCA TGTCACCATC AAGTTCGTGT GCTTCCAACT TGAATCTTTC TTTTGGTTGG
    CATGGATTTG AAAAGGAACA AAGTCATCTA AAGAAAAGAA GTTCTAGCCT TGATGCCTTG
    GACGCCGACA GTGAAGGGGA AGGGCATTCT GAGCCATCCC ACATCTGTTA CACTCCAGGG
    TCTCAGAGCT CCTCAAGAAC TGGGATTCCT AGTGGGGATG AATTGGACTC TTTTGAGACT
    AACACTGAAC CGGATTTTAA TATCTCCAGG GCTGAATCCC TTCCTCTATC AAGTAATCTA
    CAGTCGAAGG AATCACTGCT TTCTGGAGTT CGCTCACGTT CTTATTCTTG CTCATCACCC
    AAAATTTCTT TAGGAAAAAC TCGTTTGGTG CGTGAATTAA CAGTATGCAG TTCAAGTGAA
    GAGCAAAGAG CTTACAGCTT ATCGGAGCCA CCAAGAGAAA ACAGAATTCA GGAAGAAGAA
    TGGGATAAAT ACATCATACC TGCCAAATCA GAGTCTGAAA AATATAAAGT GAGTCGAACT
    TTCAGTTTCC TCATGAATAG GATGACTAGC CCTCGGAATA AATCAAAGAC AAAAAGCAAG
    GATGCCAAAG ATAAAGAGAA GCTGAATCGA CATCAGTTTG CCCCAGGAAC ATTCTCTGGG
    GTTCTGCAGT GTTTGGTTTG TGATAAAACA CTCCTGGGGA AAGAGTCACT GCAGTGTTCT
    AACTGTAATG CAAATGTGCA CAAAGGTTGT AAAGATGCTG CGCCTGCATG CACCAAGAAA
    TTCCAAGAGA AATATAACAA GAACAAACCA CAGACCATCC TTGGAAATTC TTCATTTAGA
    GACATCCCAC AGCCTGGTCT CTCCTTGCAC CCTTCTTCCT CCGTGCCTGT TGGATTGCCG
    ACTGGAAGGA GGGAGACTGT GGGACAGGTC CATCCATTGT CCAGAAGTGT TCCAGGCACC
    ACCTTGGAAA GCTTCAGGAG GTCAGCCACA TCCTTGGAGT CTGAGAGTGA CCATAACAGC
    TGCAGAAGCA GGTCTCATTC TGATGAGCTG CTACAGTCCA TGGGCTCTTC TCCCTCTACA
    GAGTCTTTCA TAATGGAAGA TGTTGTGGAT TCTTCTCTGT GGAGTGACCT CAGCAGTGAT
    GCCCAGGAGT TTGAAGCAGA ATCTTGGAGT CTTGTGGTGG ATCCCTCATT TTGTAATAGG
    CAGGAGAAGG ATGTCATCAA AAGACAGGAT GTCATTTTTG AGCTAATGCA AACAGAGATG
    CATCACATCC AGACCCTGTT CATCATGTCT GAGATCTTCA GGAAAGGCAT GAAAGAGGAG
    CTGCAGCTGG ACCACAGCAC CGTGGATAAA ATTTTCCCCT GTTTAGATGA GTTGCTTGAA
    ATCCACAGGC ATTTCTTCTA CAGTATGAAG GAACGAAGGC AGGAATCCTG TGCTGGCAGC
    GACAGGAATT TTGTGATCGA CCGAATTGGA GATATTTTGG TACAACAGTT TTCAGAAGAA
    AATGCAAGTA AAATGAAGAA AATATATGGA GAATTCTGTT GCCATCATAA AGAAGCTGTT
    AACCTCTTTA AAGAACTCCA GCAGAATAAA AAGTTTCAGA ATTTTATTAA GCTCCGAAAT
    AGTAATCTTT TGGCTCGACG CCGAGGAATT CCAGAATGCA TTCTGTTGGT CACTCAGCGT
    ATTACAAAAT ACCCTGTCTT GGTGGAAAGG ATATTGCAGT ACACAAAGGA AAGAACTGAG
    GAACATAAAG ACTTACGCAA AGCGCTTTGC TTAATTAAAG ACATGATTGC AACAGTGGAT
    TTAAAAGTCA ATGAATATGA GAAAAACCAA AAATGGCTTG AGATCCTAAA TAAGATTGAA
    AACAAAACAT ACACGAAGCT CAAAAATGGA CATGTGTTTA GGAAGCAGGC ACTGATGAGT
    GAAGAAAGGA CTCTGTTATA TGATGGCCTT GTTTACTGGA AAACTGCTAC AGGTCGTTTC
    AAAGATATCC TAGCTCTACT TCTAACTGAT GTGCTGCTCT TTTTACAAGA AAAAGACCAG
    AAATACATCT TTGCAGCCGT TGATCAGAAG CCATCAGTTA TTTCCCTTCA AAAGCTTATT
    GCTAGAGAAG TTGCTAATGA GGAGAGAGGA ATGTTTCTGA TCAGTGCTTC ATCTGCTGGT
    CCTGAGATGT ATGAAATTCA CACCAATTCC AAGGAGGAAC GCAATAACTG GATGAGACGG
    ATCCAGCAGG CTGTAGAAAG TTGTCCTGAA GAAAAAGGGG GAAGGACAAG TGAATCTGAT
    GAAGACAAGA GGAAAGCTGA AGCCAGAGTG GCCAAAATTC AGCAATGTCA AGAAATACTC
    ACTAACCAAG ACCAACAAAT TTGTGCGTAT TTGGAGGAGA AGCTGCATAT CTATGCTGAA
    CTTGGAGAAC TGAGCGGATT TGAGGACGTC CATCTAGAGC CCCACCTCCT TATTAAACCT
    GACCCAGGCG AGCCTCCCCA GGCAGCCTCA TTACTGGCAG CAGCACTGAA AGAAGCTGAG
    AGCCTACAAG TTGCAGTGAA GGCCTCACAG ATGGGCGCCG TGAGTCAATC ATGTGAGGAC
    AGTTGTGGAG ACTCTGTCTT GGCGGACACA CTCAGTTCTC ATGATGTACC AGGATCACCG
    ACTGCCTCAT TAGTCACAGG AGGGAGAGAA GGAAGAGGCT GTTCGGATGT GGATCCCGGG
    ATCCAGGGTG TGGTAACCGA CTTGGCCGTC TCTGATGCAG GGGAGAAGGT GGAATGTAGA
    AATTTTCCAG GTTCTTCACA ATCAGAGATT ATACAAGCCA TACAGAATTT AACCCGTCTC
    TTATACAGCC TTCAGGCCGC CTTGACCATT CAGGACAGCC ACATTGAGAT CCACAGGCTG
    GTTCTCCAGC AGCAGGAGGG CCTGTCTCTC GGCCACTCTA TCCTCCGAGG CGGCCCCTTG
    CAGGACCAGA AGTCTCGCGA CGCGGACAGG CAGCATGAGG AGCTGGCCAA TGTGCACCAG
    CTTCAGCACC AGCTCCAGCA GGAGCAGCGG CGCTGGCTGC GCAGGTGTGA GCAGCAGCAG
    CGGGCGCAGG CGACCAGGGA GAGCTGGCTG CAGGAGCGGG AGCGGGAGTG CCAGTCGCAG
    GAGGAGCTGC TGCTGCGGAG CCGGGGCGAG CTGGACCTCC AGCTCCAGGA GTACCAGCAC
    AGCCTGGAGC GGCTGAGGGA GGGCCAGCGC CTGGTGGAGA GGGAGCAGGC GAGGATGCGG
    GCCCAGCAGA GCCTGCTGGG CCACTGGAAG CACGGCCGGC AGAGGAGCCT GCCCGCGGTG
    CTCCTTCCGG GTGGCCCCGA GGTAATGGAA CTTAATCGAT CTGAGAGTTT ATGTCATGAA
    AACTCATTCT TCATCAATGA AGCTTTAGTA CAAATGTCAT TTAACACTTT CAACAAACTG
    AATCCATCAG TTATCCATCA GGATGCCACT TACCCTACAA CTCAATCTCA TTCTGACTTG
    GTGAGGACTA GTGAACATCA AGTAGACCTC AAGGTGGACC CTTCTCAGCC TTCGAATGTC
    AGTCACAAAC TGTGGACAGC CGCTGGTTCC GGCCATCAGA TACTTCCTTT CCATGAAAGC
    AGCAAGGATT CTTGTAAAAA TGGCTCCAGT ATGACAAAGT GCAGTTGTAC GTTGACATCT
    CCCCCGGGAC TGTGGACTGG AACCACATCT ACTTTGAAAG ATTTGGACAC CTCCCACACT
    GAGTCCCCAA CCCCCCATGA CTCAAATTCA CACCGCCCTC AACTGCAGGC GTTTATAACA
    GAAGCAAAGC TAAATCTACC GACAAGGACA ATGACCAGAC AAGATGGGGA AACTGGAGAT
    GGAGCCAAAG AAAATATTGT TTACCTCTAA

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

    RefSeq XP_011541849.1
    CDS417..5606
    Translation

    Target ORF information:

    RefSeq Version XM_011543547.2
    Organism Homo sapiens(human)
    Definition Homo sapiens 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_011543547.2

    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
    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
    5161
    ATGAGAAGTG CAAAAGCCTG GAAAAGGGGG CAGATGATGA TCTATGCGAA GTTTGACAAA 
    AATGTGTATC TTCCTGAAGA TGCTGAGTTT TACTTTACTT ATGACGGATC TCATCAGCGA
    CATGTCATGA TTGCAGAGCG CATCGAGGAT AACGTTCTCC AGTCCAGCGT CCCAGGCCAT
    GGGCTTCAGG AGACGGTGAC GGTATCTGTG TGCCTCTGCT CGGAAGGTTA CTCTCCGGTG
    ACCATGGGCT CTGGCTCAGT GACCTACGTG GACAACATGG CTTGCAGGCT GGCTCGTCTG
    CTGGTGACGC AGGCCAATCG CCTCACAGCC TGCAGCCACC AGACCCTGCT GACCCCATTT
    GCCTTGACGG CAGGAGCACT GCCTGCCTTG GATGAGGAGC TCGTGCTGGC TCTGACCCAT
    CTGGAATTGC CTCTAGAGTG GACTGTGTTG GGAAGTTCTT CACTTGAAGT ATCTTCTCAC
    AGAGAATCTC TTCTACACCT GGCTATGAGA TGGGGCCTGG CTAAACTTTC CCAGTTCTTC
    TTGTGTCTCC CGGGGGGAGT CCAGGCCTTG GCTTTACCCA ACGAAGAGGG TGCCACACCA
    TTAGACTTAG CTTTACGTGA AGGACACTCC AAGCTGGTGG AAGACGTCAC AAATTTTCAG
    GGCAGATGGT CCCCAAGCTT CTCCCGAGTG CAGCTCAGTG AAGAAGCCTC CTTGCATTAC
    ATTCACTCAT CGGAAACGCT GACCCTGACC CTGAACCACA CAGCCGAGCA TTTGTTGGAG
    GCAGATATTA AACTCTTCCG GAAATACTTT TGGGATAGAG CCTTTCTTGT CAAGGCCTTT
    GAGCCAGAAG CCAGGCCAGA GGAAAGAACA GCTATGCCCT CCAGCGGTGC AGAAACTGAA
    GAAGAGATTA AGAATTCAGT GTCCAGCAGA TCAGCAGCTG AAAAGGAAGA TATAAAGCGT
    GTCAAAAGCC TGGTGGTTCA ACACAATGAA CATGAAGACC AGCACAGCCT AGATTTGGAT
    CGCTCCTTCG ATATCCTAAA AAAATCCAAG CCGCCCTCGA CATTGCTTGC TGCAGGCCGG
    CTTTCAGACA TGCTGAATGG AGGTGATGAA GTCTACGCTA ACTGTATGGT GATTGATCAG
    GTTGGTGATT TGGATATCAG CTATATTAAT ATAGAGGGAA TCACTGCCAC TACCAGCCCT
    GAATCCAGAG GTTGCACTCT GTGGCCTCAG AGCAGCAAAC ACACCCTTCC TACAGAAACC
    AGTCCCAGTG TGTACCCACT TAGTGAAAAT GTCGAAGGGA CAGCACACAC TGAAGCCCAG
    CAGTCCTTCA TGTCACCATC AAGTTCGTGT GCTTCCAACT TGAATCTTTC TTTTGGTTGG
    CATGGATTTG AAAAGGAACA AAGTCATCTA AAGAAAAGAA GTTCTAGCCT TGATGCCTTG
    GACGCCGACA GTGAAGGGGA AGGGCATTCT GAGCCATCCC ACATCTGTTA CACTCCAGGG
    TCTCAGAGCT CCTCAAGAAC TGGGATTCCT AGTGGGGATG AATTGGACTC TTTTGAGACT
    AACACTGAAC CGGATTTTAA TATCTCCAGG GCTGAATCCC TTCCTCTATC AAGTAATCTA
    CAGTCGAAGG AATCACTGCT TTCTGGAGTT CGCTCACGTT CTTATTCTTG CTCATCACCC
    AAAATTTCTT TAGGAAAAAC TCGTTTGGTG CGTGAATTAA CAGTATGCAG TTCAAGTGAA
    GAGCAAAGAG CTTACAGCTT ATCGGAGCCA CCAAGAGAAA ACAGAATTCA GGAAGAAGAA
    TGGGATAAAT ACATCATACC TGCCAAATCA GAGTCTGAAA AATATAAAGT GAGTCGAACT
    TTCAGTTTCC TCATGAATAG GATGACTAGC CCTCGGAATA AATCAAAGAC AAAAAGCAAG
    GATGCCAAAG ATAAAGAGAA GCTGAATCGA CATCAGTTTG CCCCAGGAAC ATTCTCTGGG
    GTTCTGCAGT GTTTGGTTTG TGATAAAACA CTCCTGGGGA AAGAGTCACT GCAGTGTTCT
    AACTGTAATG CAAATGTGCA CAAAGGTTGT AAAGATGCTG CGCCTGCATG CACCAAGAAA
    TTCCAAGAGA AATATAACAA GAACAAACCA CAGACCATCC TTGGAAATTC TTCATTTAGA
    GACATCCCAC AGCCTGGTCT CTCCTTGCAC CCTTCTTCCT CCGTGCCTGT TGGATTGCCG
    ACTGGAAGGA GGGAGACTGT GGGACAGGTC CATCCATTGT CCAGAAGTGT TCCAGGCACC
    ACCTTGGAAA GCTTCAGGAG GTCAGCCACA TCCTTGGAGT CTGAGAGTGA CCATAACAGC
    TGCAGAAGCA GGTCTCATTC TGATGAGCTG CTACAGTCCA TGGGCTCTTC TCCCTCTACA
    GAGTCTTTCA TAATGGAAGA TGTTGTGGAT TCTTCTCTGT GGAGTGACCT CAGCAGTGAT
    GCCCAGGAGT TTGAAGCAGA ATCTTGGAGT CTTGTGGTGG ATCCCTCATT TTGTAATAGG
    CAGGAGAAGG ATGTCATCAA AAGACAGGAT GTCATTTTTG AGCTAATGCA AACAGAGATG
    CATCACATCC AGACCCTGTT CATCATGTCT GAGATCTTCA GGAAAGGCAT GAAAGAGGAG
    CTGCAGCTGG ACCACAGCAC CGTGGATAAA ATTTTCCCCT GTTTAGATGA GTTGCTTGAA
    ATCCACAGGC ATTTCTTCTA CAGTATGAAG GAACGAAGGC AGGAATCCTG TGCTGGCAGC
    GACAGGAATT TTGTGATCGA CCGAATTGGA GATATTTTGG TACAACAGTT TTCAGAAGAA
    AATGCAAGTA AAATGAAGAA AATATATGGA GAATTCTGTT GCCATCATAA AGAAGCTGTT
    AACCTCTTTA AAGAACTCCA GCAGAATAAA AAGTTTCAGA ATTTTATTAA GCTCCGAAAT
    AGTAATCTTT TGGCTCGACG CCGAGGAATT CCAGAATGCA TTCTGTTGGT CACTCAGCGT
    ATTACAAAAT ACCCTGTCTT GGTGGAAAGG ATATTGCAGT ACACAAAGGA AAGAACTGAG
    GAACATAAAG ACTTACGCAA AGCGCTTTGC TTAATTAAAG ACATGATTGC AACAGTGGAT
    TTAAAAGTCA ATGAATATGA GAAAAACCAA AAATGGCTTG AGATCCTAAA TAAGATTGAA
    AACAAAACAT ACACGAAGCT CAAAAATGGA CATGTGTTTA GGAAGCAGGC ACTGATGAGT
    GAAGAAAGGA CTCTGTTATA TGATGGCCTT GTTTACTGGA AAACTGCTAC AGGTCGTTTC
    AAAGATATCC TAGCTCTACT TCTAACTGAT GTGCTGCTCT TTTTACAAGA AAAAGACCAG
    AAATACATCT TTGCAGCCGT TGATCAGAAG CCATCAGTTA TTTCCCTTCA AAAGCTTATT
    GCTAGAGAAG TTGCTAATGA GGAGAGAGGA ATGTTTCTGA TCAGTGCTTC ATCTGCTGGT
    CCTGAGATGT ATGAAATTCA CACCAATTCC AAGGAGGAAC GCAATAACTG GATGAGACGG
    ATCCAGCAGG CTGTAGAAAG TTGTCCTGAA GAAAAAGGGG GAAGGACAAG TGAATCTGAT
    GAAGACAAGA GGAAAGCTGA AGCCAGAGTG GCCAAAATTC AGCAATGTCA AGAAATACTC
    ACTAACCAAG ACCAACAAAT TTGTGCGTAT TTGGAGGAGA AGCTGCATAT CTATGCTGAA
    CTTGGAGAAC TGAGCGGATT TGAGGACGTC CATCTAGAGC CCCACCTCCT TATTAAACCT
    GACCCAGGCG AGCCTCCCCA GGCAGCCTCA TTACTGGCAG CAGCACTGAA AGAAGCTGAG
    AGCCTACAAG TTGCAGTGAA GGCCTCACAG ATGGGCGCCG TGAGTCAATC ATGTGAGGAC
    AGTTGTGGAG ACTCTGTCTT GGCGGACACA CTCAGTTCTC ATGATGTACC AGGATCACCG
    ACTGCCTCAT TAGTCACAGG AGGGAGAGAA GGAAGAGGCT GTTCGGATGT GGATCCCGGG
    ATCCAGGGTG TGGTAACCGA CTTGGCCGTC TCTGATGCAG GGGAGAAGGT GGAATGTAGA
    AATTTTCCAG GTTCTTCACA ATCAGAGATT ATACAAGCCA TACAGAATTT AACCCGTCTC
    TTATACAGCC TTCAGGCCGC CTTGACCATT CAGGACAGCC ACATTGAGAT CCACAGGCTG
    GTTCTCCAGC AGCAGGAGGG CCTGTCTCTC GGCCACTCTA TCCTCCGAGG CGGCCCCTTG
    CAGGACCAGA AGTCTCGCGA CGCGGACAGG CAGCATGAGG AGCTGGCCAA TGTGCACCAG
    CTTCAGCACC AGCTCCAGCA GGAGCAGCGG CGCTGGCTGC GCAGGTGTGA GCAGCAGCAG
    CGGGCGCAGG CGACCAGGGA GAGCTGGCTG CAGGAGCGGG AGCGGGAGTG CCAGTCGCAG
    GAGGAGCTGC TGCTGCGGAG CCGGGGCGAG CTGGACCTCC AGCTCCAGGA GTACCAGCAC
    AGCCTGGAGC GGCTGAGGGA GGGCCAGCGC CTGGTGGAGA GGGAGCAGGC GAGGATGCGG
    GCCCAGCAGA GCCTGCTGGG CCACTGGAAG CACGGCCGGC AGAGGAGCCT GCCCGCGGTG
    CTCCTTCCGG GTGGCCCCGA GGTAATGGAA CTTAATCGAT CTGAGAGTTT ATGTCATGAA
    AACTCATTCT TCATCAATGA AGCTTTAGTA CAAATGTCAT TTAACACTTT CAACAAACTG
    AATCCATCAG TTATCCATCA GGATGCCACT TACCCTACAA CTCAATCTCA TTCTGACTTG
    GTGAGGACTA GTGAACATCA AGTAGACCTC AAGGTGGACC CTTCTCAGCC TTCGAATGTC
    AGTCACAAAC TGTGGACAGC CGCTGGTTCC GGCCATCAGA TACTTCCTTT CCATGAAAGC
    AGCAAGGATT CTTGTAAAAA TGGCTCCAGT ATGACAAAGT GCAGTTGTAC GTTGACATCT
    CCCCCGGGAC TGTGGACTGG AACCACATCT ACTTTGAAAG ATTTGGACAC CTCCCACACT
    GAGTCCCCAA CCCCCCATGA CTCAAATTCA CACCGCCCTC AACTGCAGGC GTTTATAACA
    GAAGCAAAGC TAAATCTACC GACAAGGACA ATGACCAGAC AAGATGGGGA AACTGGAGAT
    GGAGCCAAAG AAAATATTGT TTACCTCTAA

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