FGD6 cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following FGD6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FGD6 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.

Online Only Promotion

Up to 50% OFF! Starting
from $49/clone

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu08865 NM_018351.4
Latest version!
Homo sapiens FYVE, RhoGEF and PH domain containing 6 (FGD6), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
View Old Accession Versions >>
OHu08865 NM_018351.3 Homo sapiens FYVE, RhoGEF and PH domain containing 6 (FGD6), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OHu08865
    Clone ID Related Accession (Same CDS sequence) NM_018351.3 , NM_018351.4
    Accession Version NM_018351.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product FYVE, RhoGEF and PH domain-containing protein 6
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK124904.1, AK128492.1 and AC011598.33. On Jul 31, 2007 this sequence version replaced NM_018351.2. ##Evidence-Data-START## Transcript exon combination :: AK124904.1, SRR1660805.108148.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGACTTCTG CAGCCGAGAT AAAGAAGCCA CCAGTGGCCC CCAAGCCCAA GTTTGTTGTG 
    GCAAATAATA AGCCAGCCCC ACCTCCTATT GCACCTAAAC CCGACATTGT GATTTCTAGT
    GTTCCACAGT CGACAAAGAA AATGAAACCA GCAATAGCCC CAAAACCAAA AGTCCTGAAG
    ACCTCACCTG TTCGAGAGAT TGGGCAGTCG CCATCAAGGA AAATCATGTT GAACCTGGAA
    GGGCATAAAC AGGAATTAGC TGAAAGCACT GACAACTTTA ATTGTAAATA TGAAGGCAAT
    CAGAGCAATG ATTATATTTC ACCAATGTGT TCCTGCAGTT CTGAGTGTAT CCATAAGCTG
    GGCCATAGAG AGAATTTGTG TGTAAAGCAG CTTGTTTTAG AGCCCCTGGA AATGAATGAA
    AATTTAGAAA ACAGTAAAAT TGATGAGACT TTGACTATAA AAACTAGGAG TAAATGTGAT
    TTGTATGGTG AAAAAGCCAA GAACCAGGGT GGGGTTGTTT TAAAGGCAAG CGTTTTAGAA
    GAGGAGCTCA AAGATGCCTT AATACACCAA ATGCCACCTT TTATTTCTGC ACAGAAGCAC
    AGGCCCACAG ACAGCCCAGA AATGAATGGT GGCTGTAATT CAAATGGACA ATTCAGAATT
    GAATTTGCGG ATTTGTCACC TTCCCCATCC AGCTTTGAAA AAGTTCCTGA TCATCACAGT
    TGCCACTTAC AGCTTCCTAG TGATGAATGT GAACATTTTG AAACTTGCCA GGATGACAGT
    GAAAAAAGCA ATAATTGCTT TCAGTCATCT GAACTAGAGG CTCTGGAAAA TGGGAAAAGG
    AGTACTTTAA TATCTTCAGA TGGAGTTAGT AAGAAATCAG AAGTCAAAGA CCTTGGTCCC
    TTAGAAATTC ATTTAGTACC ATATACCCCA AAATTTCCAA CTCCCAAGCC CAGAAAGACA
    CGAACTGCTC GTCTGTTACG CCAAAAGTGT GTAGATACTC CTAGTGAAAG CACTGAAGAA
    CCGGGGAATT CAGACAGTAG CTCTTCCTGT CTTACTGAAA ATAGTTTGAA AATCAATAAA
    ATCAGTGTTC TGCATCAGAA TGTTTTGTGT AAGCAGGAAC AGGTGGATAA AATGAAGCTA
    GGAAATAAAA GTGAATTGAA TATGGAATCC AACAGTGATG CACAGGACTT AGTCAATTCA
    CAGAAAGCCA TGTGTAATGA AACAACTTCC TTTGAAAAAA TGGCACCTTC TTTTGATAAA
    GACTCTAATT TGAGTTCTGA CAGCACAACT GTAGATGGTT CTAGTATGTC GCTTGCTGTG
    GACGAAGGGA CCGGTTTTAT AAGATGTACT GTATCTATGA GCCTGCCTAA GCAGCTCAAA
    TTAACTTGCA ATGAACATTT GCAATCTGGG AGAAACCTGG GAGTTTCTGC CCCTCAAATG
    CAAAAGGAAT CTGTTATAAA AGAGGAAAAT TCTCTACGAA TTGTCCCCAA AAAACCTCAA
    AGACATAGCT TGCCTGCTAC AGGAGTGCTT AAAAAGGCTG CCTCCGAGGA GCTTTTGGAA
    AAAAGTTCTT ATCCTTCAAG TGAAGAAAAA AGTTCAGAGA AGAGTCTAGA AAGAAATCAC
    CTTCAGCATT TGTGTGCCCA AAACCGTGGT GTGTCATCCT CCTTTGATAT GCCTAAACGG
    GCTTCAGAAA AGCCAGTGTG GAAGTTACCT CATCCTATTT TACCCTTTTC AGGGAACCCA
    GAATTCTTAA AGTCTGTCAC CGTATCGTCA AACAGTGAGC CTTCAACAGC CCTAACCAAG
    CCCAGAGCAA AATCGTTATC TGCTATGGAT GTGGAAAAGT GCACTAAGCC TTGCAAAGAC
    TCTACAAAGA AAAACTCTTT TAAAAAGTTG CTCAGCATGA AACTGTCCAT CTGTTTCATG
    AAGAGTGACT TTCAAAAATT TTGGTCCAAG AGTAGCCAAC TCGGAGACAC CACCACAGGC
    CACCTCTCCA GTGGGGAGCA GAAGGGGATT GAAAGTGATT GGCAAGGCTT GTTGGTAGGA
    GAGGAGAAGA GAAGTAAACC CATCAAGGCA TATTCCACAG AAAACTATAG CCTGGAATCT
    CAAAAGAAGA GGAAGAAGTC TCGGGGCCAG ACCAGTGCAG CTAATGGTCT GAGAGCTGAG
    TCTTTGGATG ACCAAATGCT CTCCCGGGAG TCATCATCTC AGGCACCTTA CAAGTCTGTT
    ACAAGCCTCT GTGCACCGGA GTATGAAAAT ATACGCCATT ATGAGGAAAT ACCAGAGTAC
    GAGAACTTGC CATTTATTAT GGCTATACGG AAAACTCAAG AGTTGGAATG GCAGAATTCC
    AGCAGCATGG AGGACGCTGA TGCAAATGTG TATGAGGTAG AAGAGCCGTA TGAAGCTCCA
    GATGGCCAGC TGCAGCTTGG ACCCAGACAT CAGCATTCCA GTTCAGGAGC ATCCCAGGAG
    GAACAGAATG ATCTTGGTCT TGGTGACCTT CCCTCTGATG AGGAGGAAAT CATCAACAGT
    TCTGATGAAG ATGATGTCAG CTCTGAGTCA AGTAAAGGAG AGCCTGACCC ACTGGAAGAT
    AAACAGGATG AAGATAATGG AATGAAAAGT AAAGTTCATC ATATTGCCAA GGAGATCATG
    AGCTCAGAGA AAGTGTTTGT GGATGTGTTA AAACTTTTGC ATATTGATTT CCGGGATGCA
    GTAGCTCATG CTTCCAGGCA ACTTGGGAAA CCAGTGATTG AGGACCGGAT TCTAAATCAG
    ATCCTATACT ACTTGCCTCA GCTGTATGAG CTCAACCGGG ATCTCTTGAA GGAACTGGAG
    GAAAGAATGT TGCACTGGAC TGAACAACAA AGAATTGCTG ATATCTTTGT AAAGAAGGGA
    CCATATCTAA AAATGTATTC CACATACATC AAAGAATTTG ATAAGAATAT AGCCTTGCTG
    GATGAACAGT GCAAGAAAAA TCCAGGTTTT GCTGCTGTTG TTAGAGAATT TGAGATGAGC
    CCTCGCTGTG CTAATCTGGC CCTCAAGCAC TACCTGCTCA AGCCGGTTCA GAGGATCCCC
    CAGTACAGGC TGTTGCTGAC AGATTATTTG AAGAATCTCA TAGAAGATGC TGGAGATTAC
    AGAGACACTC AAGATGCCCT TGCTGTTGTT ATAGAGGTAG CCAACCACGC CAATGACACC
    ATGAAGCAAG GAGACAACTT TCAGAAACTT ATGCAAATTC AGTACAGCTT AAATGGACAC
    CATGAAATTG TGCAGCCTGG TCGGGTTTTT CTCAAAGAAG GAATTCTGAT GAAGCTGTCT
    CGGAAAGTGA TGCAACCTCG AATGTTTTTC CTGTTTAATG ATGCCCTGCT GTATACAACA
    CCAGTGCAGT CTGGGATGTA TAAACTGAAC AACATGCTCT CACTGGCTGG AATGAAGGTC
    AGAAAACCTA CCCAAGAAGC CTATCAGAAT GAATTAAAGA TTGAAAGTGT AGAACGTTCC
    TTCATTCTCT CAGCCAGTTC TGCCACAGAA AGGGATGAAT GGCTAGAAGC GATTTCCAGG
    GCAATAGAAG AGTATGCCAA GAAAAGAATC ACCTTCTGTC CTAGTAGGAG TCTTGATGAG
    GCAGACTCAG AAAATAAAGA AGAAGTTAGT CCTCTTGGAT CGAAGGCTCC CATCTGGATT
    CCTGATACCA GAGCCACAAT GTGTATGATC TGCACAAGCG AATTCACTCT CACCTGGAGA
    CGACACCACT GCCGGGCCTG TGGAAAGATT GTATGCCAAG CTTGTTCGTC TAATAAGTAT
    GGCTTAGATT ACCTGAAAAA TCAACCAGCA AGAGTATGTG AACATTGTTT CCAAGAACTG
    CAGAAATTAG ATCACCAGCA CTCCCCTAGG ATTGGATCTC CTGGAAATCA CAAATCTCCT
    TCAAGTGCCT TATCATCAGT CTTACATAGC ATTCCATCAG GGAGGAAACA GAAAAAAATC
    CCAGCTGCTC TCAAAGAAGT ATCAGCAAAC ACAGAGGATT CTTCTATGAG TGGCTACTTG
    TACAGATCAA AGGGCAATAA AAAACCCTGG AAACACTTTT GGTTTGTCAT AAAAAATAAA
    GTACTATATA CATATGCTGC AAGTGAGGAC GTGGCCGCTT TGGAGAGTCA GCCTTTATTA
    GGATTCACTG TTATTCAAGT TAAAGATGAG AATTCCGAGT CTAAAGTATT TCAGTTACTG
    CACAAAAACA TGTTATTTTA TGTATTCAAA GCAGAGGATG CTCATTCGGC TCAGAAGTGG
    ATAGAAGCAT TTCAGGAAGG CACAATATTG TAG

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

    RefSeq NP_060821.3
    CDS225..4517
    Translation

    Target ORF information:

    RefSeq Version NM_018351.3
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 6 (FGD6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_018351.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    ATGACTTCTG CAGCCGAGAT AAAGAAGCCA CCAGTGGCCC CCAAGCCCAA GTTTGTTGTG 
    GCAAATAATA AGCCAGCCCC ACCTCCTATT GCACCTAAAC CCGACATTGT GATTTCTAGT
    GTTCCACAGT CGACAAAGAA AATGAAACCA GCAATAGCCC CAAAACCAAA AGTCCTGAAG
    ACCTCACCTG TTCGAGAGAT TGGGCAGTCG CCATCAAGGA AAATCATGTT GAACCTGGAA
    GGGCATAAAC AGGAATTAGC TGAAAGCACT GACAACTTTA ATTGTAAATA TGAAGGCAAT
    CAGAGCAATG ATTATATTTC ACCAATGTGT TCCTGCAGTT CTGAGTGTAT CCATAAGCTG
    GGCCATAGAG AGAATTTGTG TGTAAAGCAG CTTGTTTTAG AGCCCCTGGA AATGAATGAA
    AATTTAGAAA ACAGTAAAAT TGATGAGACT TTGACTATAA AAACTAGGAG TAAATGTGAT
    TTGTATGGTG AAAAAGCCAA GAACCAGGGT GGGGTTGTTT TAAAGGCAAG CGTTTTAGAA
    GAGGAGCTCA AAGATGCCTT AATACACCAA ATGCCACCTT TTATTTCTGC ACAGAAGCAC
    AGGCCCACAG ACAGCCCAGA AATGAATGGT GGCTGTAATT CAAATGGACA ATTCAGAATT
    GAATTTGCGG ATTTGTCACC TTCCCCATCC AGCTTTGAAA AAGTTCCTGA TCATCACAGT
    TGCCACTTAC AGCTTCCTAG TGATGAATGT GAACATTTTG AAACTTGCCA GGATGACAGT
    GAAAAAAGCA ATAATTGCTT TCAGTCATCT GAACTAGAGG CTCTGGAAAA TGGGAAAAGG
    AGTACTTTAA TATCTTCAGA TGGAGTTAGT AAGAAATCAG AAGTCAAAGA CCTTGGTCCC
    TTAGAAATTC ATTTAGTACC ATATACCCCA AAATTTCCAA CTCCCAAGCC CAGAAAGACA
    CGAACTGCTC GTCTGTTACG CCAAAAGTGT GTAGATACTC CTAGTGAAAG CACTGAAGAA
    CCGGGGAATT CAGACAGTAG CTCTTCCTGT CTTACTGAAA ATAGTTTGAA AATCAATAAA
    ATCAGTGTTC TGCATCAGAA TGTTTTGTGT AAGCAGGAAC AGGTGGATAA AATGAAGCTA
    GGAAATAAAA GTGAATTGAA TATGGAATCC AACAGTGATG CACAGGACTT AGTCAATTCA
    CAGAAAGCCA TGTGTAATGA AACAACTTCC TTTGAAAAAA TGGCACCTTC TTTTGATAAA
    GACTCTAATT TGAGTTCTGA CAGCACAACT GTAGATGGTT CTAGTATGTC GCTTGCTGTG
    GACGAAGGGA CCGGTTTTAT AAGATGTACT GTATCTATGA GCCTGCCTAA GCAGCTCAAA
    TTAACTTGCA ATGAACATTT GCAATCTGGG AGAAACCTGG GAGTTTCTGC CCCTCAAATG
    CAAAAGGAAT CTGTTATAAA AGAGGAAAAT TCTCTACGAA TTGTCCCCAA AAAACCTCAA
    AGACATAGCT TGCCTGCTAC AGGAGTGCTT AAAAAGGCTG CCTCCGAGGA GCTTTTGGAA
    AAAAGTTCTT ATCCTTCAAG TGAAGAAAAA AGTTCAGAGA AGAGTCTAGA AAGAAATCAC
    CTTCAGCATT TGTGTGCCCA AAACCGTGGT GTGTCATCCT CCTTTGATAT GCCTAAACGG
    GCTTCAGAAA AGCCAGTGTG GAAGTTACCT CATCCTATTT TACCCTTTTC AGGGAACCCA
    GAATTCTTAA AGTCTGTCAC CGTATCGTCA AACAGTGAGC CTTCAACAGC CCTAACCAAG
    CCCAGAGCAA AATCGTTATC TGCTATGGAT GTGGAAAAGT GCACTAAGCC TTGCAAAGAC
    TCTACAAAGA AAAACTCTTT TAAAAAGTTG CTCAGCATGA AACTGTCCAT CTGTTTCATG
    AAGAGTGACT TTCAAAAATT TTGGTCCAAG AGTAGCCAAC TCGGAGACAC CACCACAGGC
    CACCTCTCCA GTGGGGAGCA GAAGGGGATT GAAAGTGATT GGCAAGGCTT GTTGGTAGGA
    GAGGAGAAGA GAAGTAAACC CATCAAGGCA TATTCCACAG AAAACTATAG CCTGGAATCT
    CAAAAGAAGA GGAAGAAGTC TCGGGGCCAG ACCAGTGCAG CTAATGGTCT GAGAGCTGAG
    TCTTTGGATG ACCAAATGCT CTCCCGGGAG TCATCATCTC AGGCACCTTA CAAGTCTGTT
    ACAAGCCTCT GTGCACCGGA GTATGAAAAT ATACGCCATT ATGAGGAAAT ACCAGAGTAC
    GAGAACTTGC CATTTATTAT GGCTATACGG AAAACTCAAG AGTTGGAATG GCAGAATTCC
    AGCAGCATGG AGGACGCTGA TGCAAATGTG TATGAGGTAG AAGAGCCGTA TGAAGCTCCA
    GATGGCCAGC TGCAGCTTGG ACCCAGACAT CAGCATTCCA GTTCAGGAGC ATCCCAGGAG
    GAACAGAATG ATCTTGGTCT TGGTGACCTT CCCTCTGATG AGGAGGAAAT CATCAACAGT
    TCTGATGAAG ATGATGTCAG CTCTGAGTCA AGTAAAGGAG AGCCTGACCC ACTGGAAGAT
    AAACAGGATG AAGATAATGG AATGAAAAGT AAAGTTCATC ATATTGCCAA GGAGATCATG
    AGCTCAGAGA AAGTGTTTGT GGATGTGTTA AAACTTTTGC ATATTGATTT CCGGGATGCA
    GTAGCTCATG CTTCCAGGCA ACTTGGGAAA CCAGTGATTG AGGACCGGAT TCTAAATCAG
    ATCCTATACT ACTTGCCTCA GCTGTATGAG CTCAACCGGG ATCTCTTGAA GGAACTGGAG
    GAAAGAATGT TGCACTGGAC TGAACAACAA AGAATTGCTG ATATCTTTGT AAAGAAGGGA
    CCATATCTAA AAATGTATTC CACATACATC AAAGAATTTG ATAAGAATAT AGCCTTGCTG
    GATGAACAGT GCAAGAAAAA TCCAGGTTTT GCTGCTGTTG TTAGAGAATT TGAGATGAGC
    CCTCGCTGTG CTAATCTGGC CCTCAAGCAC TACCTGCTCA AGCCGGTTCA GAGGATCCCC
    CAGTACAGGC TGTTGCTGAC AGATTATTTG AAGAATCTCA TAGAAGATGC TGGAGATTAC
    AGAGACACTC AAGATGCCCT TGCTGTTGTT ATAGAGGTAG CCAACCACGC CAATGACACC
    ATGAAGCAAG GAGACAACTT TCAGAAACTT ATGCAAATTC AGTACAGCTT AAATGGACAC
    CATGAAATTG TGCAGCCTGG TCGGGTTTTT CTCAAAGAAG GAATTCTGAT GAAGCTGTCT
    CGGAAAGTGA TGCAACCTCG AATGTTTTTC CTGTTTAATG ATGCCCTGCT GTATACAACA
    CCAGTGCAGT CTGGGATGTA TAAACTGAAC AACATGCTCT CACTGGCTGG AATGAAGGTC
    AGAAAACCTA CCCAAGAAGC CTATCAGAAT GAATTAAAGA TTGAAAGTGT AGAACGTTCC
    TTCATTCTCT CAGCCAGTTC TGCCACAGAA AGGGATGAAT GGCTAGAAGC GATTTCCAGG
    GCAATAGAAG AGTATGCCAA GAAAAGAATC ACCTTCTGTC CTAGTAGGAG TCTTGATGAG
    GCAGACTCAG AAAATAAAGA AGAAGTTAGT CCTCTTGGAT CGAAGGCTCC CATCTGGATT
    CCTGATACCA GAGCCACAAT GTGTATGATC TGCACAAGCG AATTCACTCT CACCTGGAGA
    CGACACCACT GCCGGGCCTG TGGAAAGATT GTATGCCAAG CTTGTTCGTC TAATAAGTAT
    GGCTTAGATT ACCTGAAAAA TCAACCAGCA AGAGTATGTG AACATTGTTT CCAAGAACTG
    CAGAAATTAG ATCACCAGCA CTCCCCTAGG ATTGGATCTC CTGGAAATCA CAAATCTCCT
    TCAAGTGCCT TATCATCAGT CTTACATAGC ATTCCATCAG GGAGGAAACA GAAAAAAATC
    CCAGCTGCTC TCAAAGAAGT ATCAGCAAAC ACAGAGGATT CTTCTATGAG TGGCTACTTG
    TACAGATCAA AGGGCAATAA AAAACCCTGG AAACACTTTT GGTTTGTCAT AAAAAATAAA
    GTACTATATA CATATGCTGC AAGTGAGGAC GTGGCCGCTT TGGAGAGTCA GCCTTTATTA
    GGATTCACTG TTATTCAAGT TAAAGATGAG AATTCCGAGT CTAAAGTATT TCAGTTACTG
    CACAAAAACA TGTTATTTTA TGTATTCAAA GCAGAGGATG CTCATTCGGC TCAGAAGTGG
    ATAGAAGCAT TTCAGGAAGG CACAATATTG TAG

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

    CloneID OHu08865
    Clone ID Related Accession (Same CDS sequence) NM_018351.3 , NM_018351.4
    Accession Version NM_018351.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4293bp)
    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 2019-12-30
    Organism Homo sapiens(human)
    Product FYVE, RhoGEF and PH domain-containing protein 6
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC127165.4, AK124904.1, AK128492.1 and AC011598.33. On Nov 22, 2018 this sequence version replaced NM_018351.3. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.108148.1, SRR1803616.101532.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000343958.9/ ENSP00000344446.4 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGACTTCTG CAGCCGAGAT AAAGAAGCCA CCAGTGGCCC CCAAGCCCAA GTTTGTTGTG 
    GCAAATAATA AGCCAGCCCC ACCTCCTATT GCACCTAAAC CCGACATTGT GATTTCTAGT
    GTTCCACAGT CGACAAAGAA AATGAAACCA GCAATAGCCC CAAAACCAAA AGTCCTGAAG
    ACCTCACCTG TTCGAGAGAT TGGGCAGTCG CCATCAAGGA AAATCATGTT GAACCTGGAA
    GGGCATAAAC AGGAATTAGC TGAAAGCACT GACAACTTTA ATTGTAAATA TGAAGGCAAT
    CAGAGCAATG ATTATATTTC ACCAATGTGT TCCTGCAGTT CTGAGTGTAT CCATAAGCTG
    GGCCATAGAG AGAATTTGTG TGTAAAGCAG CTTGTTTTAG AGCCCCTGGA AATGAATGAA
    AATTTAGAAA ACAGTAAAAT TGATGAGACT TTGACTATAA AAACTAGGAG TAAATGTGAT
    TTGTATGGTG AAAAAGCCAA GAACCAGGGT GGGGTTGTTT TAAAGGCAAG CGTTTTAGAA
    GAGGAGCTCA AAGATGCCTT AATACACCAA ATGCCACCTT TTATTTCTGC ACAGAAGCAC
    AGGCCCACAG ACAGCCCAGA AATGAATGGT GGCTGTAATT CAAATGGACA ATTCAGAATT
    GAATTTGCGG ATTTGTCACC TTCCCCATCC AGCTTTGAAA AAGTTCCTGA TCATCACAGT
    TGCCACTTAC AGCTTCCTAG TGATGAATGT GAACATTTTG AAACTTGCCA GGATGACAGT
    GAAAAAAGCA ATAATTGCTT TCAGTCATCT GAACTAGAGG CTCTGGAAAA TGGGAAAAGG
    AGTACTTTAA TATCTTCAGA TGGAGTTAGT AAGAAATCAG AAGTCAAAGA CCTTGGTCCC
    TTAGAAATTC ATTTAGTACC ATATACCCCA AAATTTCCAA CTCCCAAGCC CAGAAAGACA
    CGAACTGCTC GTCTGTTACG CCAAAAGTGT GTAGATACTC CTAGTGAAAG CACTGAAGAA
    CCGGGGAATT CAGACAGTAG CTCTTCCTGT CTTACTGAAA ATAGTTTGAA AATCAATAAA
    ATCAGTGTTC TGCATCAGAA TGTTTTGTGT AAGCAGGAAC AGGTGGATAA AATGAAGCTA
    GGAAATAAAA GTGAATTGAA TATGGAATCC AACAGTGATG CACAGGACTT AGTCAATTCA
    CAGAAAGCCA TGTGTAATGA AACAACTTCC TTTGAAAAAA TGGCACCTTC TTTTGATAAA
    GACTCTAATT TGAGTTCTGA CAGCACAACT GTAGATGGTT CTAGTATGTC GCTTGCTGTG
    GACGAAGGGA CCGGTTTTAT AAGATGTACT GTATCTATGA GCCTGCCTAA GCAGCTCAAA
    TTAACTTGCA ATGAACATTT GCAATCTGGG AGAAACCTGG GAGTTTCTGC CCCTCAAATG
    CAAAAGGAAT CTGTTATAAA AGAGGAAAAT TCTCTACGAA TTGTCCCCAA AAAACCTCAA
    AGACATAGCT TGCCTGCTAC AGGAGTGCTT AAAAAGGCTG CCTCCGAGGA GCTTTTGGAA
    AAAAGTTCTT ATCCTTCAAG TGAAGAAAAA AGTTCAGAGA AGAGTCTAGA AAGAAATCAC
    CTTCAGCATT TGTGTGCCCA AAACCGTGGT GTGTCATCCT CCTTTGATAT GCCTAAACGG
    GCTTCAGAAA AGCCAGTGTG GAAGTTACCT CATCCTATTT TACCCTTTTC AGGGAACCCA
    GAATTCTTAA AGTCTGTCAC CGTATCGTCA AACAGTGAGC CTTCAACAGC CCTAACCAAG
    CCCAGAGCAA AATCGTTATC TGCTATGGAT GTGGAAAAGT GCACTAAGCC TTGCAAAGAC
    TCTACAAAGA AAAACTCTTT TAAAAAGTTG CTCAGCATGA AACTGTCCAT CTGTTTCATG
    AAGAGTGACT TTCAAAAATT TTGGTCCAAG AGTAGCCAAC TCGGAGACAC CACCACAGGC
    CACCTCTCCA GTGGGGAGCA GAAGGGGATT GAAAGTGATT GGCAAGGCTT GTTGGTAGGA
    GAGGAGAAGA GAAGTAAACC CATCAAGGCA TATTCCACAG AAAACTATAG CCTGGAATCT
    CAAAAGAAGA GGAAGAAGTC TCGGGGCCAG ACCAGTGCAG CTAATGGTCT GAGAGCTGAG
    TCTTTGGATG ACCAAATGCT CTCCCGGGAG TCATCATCTC AGGCACCTTA CAAGTCTGTT
    ACAAGCCTCT GTGCACCGGA GTATGAAAAT ATACGCCATT ATGAGGAAAT ACCAGAGTAC
    GAGAACTTGC CATTTATTAT GGCTATACGG AAAACTCAAG AGTTGGAATG GCAGAATTCC
    AGCAGCATGG AGGACGCTGA TGCAAATGTG TATGAGGTAG AAGAGCCGTA TGAAGCTCCA
    GATGGCCAGC TGCAGCTTGG ACCCAGACAT CAGCATTCCA GTTCAGGAGC ATCCCAGGAG
    GAACAGAATG ATCTTGGTCT TGGTGACCTT CCCTCTGATG AGGAGGAAAT CATCAACAGT
    TCTGATGAAG ATGATGTCAG CTCTGAGTCA AGTAAAGGAG AGCCTGACCC ACTGGAAGAT
    AAACAGGATG AAGATAATGG AATGAAAAGT AAAGTTCATC ATATTGCCAA GGAGATCATG
    AGCTCAGAGA AAGTGTTTGT GGATGTGTTA AAACTTTTGC ATATTGATTT CCGGGATGCA
    GTAGCTCATG CTTCCAGGCA ACTTGGGAAA CCAGTGATTG AGGACCGGAT TCTAAATCAG
    ATCCTATACT ACTTGCCTCA GCTGTATGAG CTCAACCGGG ATCTCTTGAA GGAACTGGAG
    GAAAGAATGT TGCACTGGAC TGAACAACAA AGAATTGCTG ATATCTTTGT AAAGAAGGGA
    CCATATCTAA AAATGTATTC CACATACATC AAAGAATTTG ATAAGAATAT AGCCTTGCTG
    GATGAACAGT GCAAGAAAAA TCCAGGTTTT GCTGCTGTTG TTAGAGAATT TGAGATGAGC
    CCTCGCTGTG CTAATCTGGC CCTCAAGCAC TACCTGCTCA AGCCGGTTCA GAGGATCCCC
    CAGTACAGGC TGTTGCTGAC AGATTATTTG AAGAATCTCA TAGAAGATGC TGGAGATTAC
    AGAGACACTC AAGATGCCCT TGCTGTTGTT ATAGAGGTAG CCAACCACGC CAATGACACC
    ATGAAGCAAG GAGACAACTT TCAGAAACTT ATGCAAATTC AGTACAGCTT AAATGGACAC
    CATGAAATTG TGCAGCCTGG TCGGGTTTTT CTCAAAGAAG GAATTCTGAT GAAGCTGTCT
    CGGAAAGTGA TGCAACCTCG AATGTTTTTC CTGTTTAATG ATGCCCTGCT GTATACAACA
    CCAGTGCAGT CTGGGATGTA TAAACTGAAC AACATGCTCT CACTGGCTGG AATGAAGGTC
    AGAAAACCTA CCCAAGAAGC CTATCAGAAT GAATTAAAGA TTGAAAGTGT AGAACGTTCC
    TTCATTCTCT CAGCCAGTTC TGCCACAGAA AGGGATGAAT GGCTAGAAGC GATTTCCAGG
    GCAATAGAAG AGTATGCCAA GAAAAGAATC ACCTTCTGTC CTAGTAGGAG TCTTGATGAG
    GCAGACTCAG AAAATAAAGA AGAAGTTAGT CCTCTTGGAT CGAAGGCTCC CATCTGGATT
    CCTGATACCA GAGCCACAAT GTGTATGATC TGCACAAGCG AATTCACTCT CACCTGGAGA
    CGACACCACT GCCGGGCCTG TGGAAAGATT GTATGCCAAG CTTGTTCGTC TAATAAGTAT
    GGCTTAGATT ACCTGAAAAA TCAACCAGCA AGAGTATGTG AACATTGTTT CCAAGAACTG
    CAGAAATTAG ATCACCAGCA CTCCCCTAGG ATTGGATCTC CTGGAAATCA CAAATCTCCT
    TCAAGTGCCT TATCATCAGT CTTACATAGC ATTCCATCAG GGAGGAAACA GAAAAAAATC
    CCAGCTGCTC TCAAAGAAGT ATCAGCAAAC ACAGAGGATT CTTCTATGAG TGGCTACTTG
    TACAGATCAA AGGGCAATAA AAAACCCTGG AAACACTTTT GGTTTGTCAT AAAAAATAAA
    GTACTATATA CATATGCTGC AAGTGAGGAC GTGGCCGCTT TGGAGAGTCA GCCTTTATTA
    GGATTCACTG TTATTCAAGT TAAAGATGAG AATTCCGAGT CTAAAGTATT TCAGTTACTG
    CACAAAAACA TGTTATTTTA TGTATTCAAA GCAGAGGATG CTCATTCGGC TCAGAAGTGG
    ATAGAAGCAT TTCAGGAAGG CACAATATTG TAG

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

    RefSeq NP_060821.3
    CDS228..4520
    Translation

    Target ORF information:

    RefSeq Version NM_018351.4
    Organism Homo sapiens(human)
    Definition Homo sapiens FYVE, RhoGEF and PH domain containing 6 (FGD6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_018351.4

    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
    4261
    ATGACTTCTG CAGCCGAGAT AAAGAAGCCA CCAGTGGCCC CCAAGCCCAA GTTTGTTGTG 
    GCAAATAATA AGCCAGCCCC ACCTCCTATT GCACCTAAAC CCGACATTGT GATTTCTAGT
    GTTCCACAGT CGACAAAGAA AATGAAACCA GCAATAGCCC CAAAACCAAA AGTCCTGAAG
    ACCTCACCTG TTCGAGAGAT TGGGCAGTCG CCATCAAGGA AAATCATGTT GAACCTGGAA
    GGGCATAAAC AGGAATTAGC TGAAAGCACT GACAACTTTA ATTGTAAATA TGAAGGCAAT
    CAGAGCAATG ATTATATTTC ACCAATGTGT TCCTGCAGTT CTGAGTGTAT CCATAAGCTG
    GGCCATAGAG AGAATTTGTG TGTAAAGCAG CTTGTTTTAG AGCCCCTGGA AATGAATGAA
    AATTTAGAAA ACAGTAAAAT TGATGAGACT TTGACTATAA AAACTAGGAG TAAATGTGAT
    TTGTATGGTG AAAAAGCCAA GAACCAGGGT GGGGTTGTTT TAAAGGCAAG CGTTTTAGAA
    GAGGAGCTCA AAGATGCCTT AATACACCAA ATGCCACCTT TTATTTCTGC ACAGAAGCAC
    AGGCCCACAG ACAGCCCAGA AATGAATGGT GGCTGTAATT CAAATGGACA ATTCAGAATT
    GAATTTGCGG ATTTGTCACC TTCCCCATCC AGCTTTGAAA AAGTTCCTGA TCATCACAGT
    TGCCACTTAC AGCTTCCTAG TGATGAATGT GAACATTTTG AAACTTGCCA GGATGACAGT
    GAAAAAAGCA ATAATTGCTT TCAGTCATCT GAACTAGAGG CTCTGGAAAA TGGGAAAAGG
    AGTACTTTAA TATCTTCAGA TGGAGTTAGT AAGAAATCAG AAGTCAAAGA CCTTGGTCCC
    TTAGAAATTC ATTTAGTACC ATATACCCCA AAATTTCCAA CTCCCAAGCC CAGAAAGACA
    CGAACTGCTC GTCTGTTACG CCAAAAGTGT GTAGATACTC CTAGTGAAAG CACTGAAGAA
    CCGGGGAATT CAGACAGTAG CTCTTCCTGT CTTACTGAAA ATAGTTTGAA AATCAATAAA
    ATCAGTGTTC TGCATCAGAA TGTTTTGTGT AAGCAGGAAC AGGTGGATAA AATGAAGCTA
    GGAAATAAAA GTGAATTGAA TATGGAATCC AACAGTGATG CACAGGACTT AGTCAATTCA
    CAGAAAGCCA TGTGTAATGA AACAACTTCC TTTGAAAAAA TGGCACCTTC TTTTGATAAA
    GACTCTAATT TGAGTTCTGA CAGCACAACT GTAGATGGTT CTAGTATGTC GCTTGCTGTG
    GACGAAGGGA CCGGTTTTAT AAGATGTACT GTATCTATGA GCCTGCCTAA GCAGCTCAAA
    TTAACTTGCA ATGAACATTT GCAATCTGGG AGAAACCTGG GAGTTTCTGC CCCTCAAATG
    CAAAAGGAAT CTGTTATAAA AGAGGAAAAT TCTCTACGAA TTGTCCCCAA AAAACCTCAA
    AGACATAGCT TGCCTGCTAC AGGAGTGCTT AAAAAGGCTG CCTCCGAGGA GCTTTTGGAA
    AAAAGTTCTT ATCCTTCAAG TGAAGAAAAA AGTTCAGAGA AGAGTCTAGA AAGAAATCAC
    CTTCAGCATT TGTGTGCCCA AAACCGTGGT GTGTCATCCT CCTTTGATAT GCCTAAACGG
    GCTTCAGAAA AGCCAGTGTG GAAGTTACCT CATCCTATTT TACCCTTTTC AGGGAACCCA
    GAATTCTTAA AGTCTGTCAC CGTATCGTCA AACAGTGAGC CTTCAACAGC CCTAACCAAG
    CCCAGAGCAA AATCGTTATC TGCTATGGAT GTGGAAAAGT GCACTAAGCC TTGCAAAGAC
    TCTACAAAGA AAAACTCTTT TAAAAAGTTG CTCAGCATGA AACTGTCCAT CTGTTTCATG
    AAGAGTGACT TTCAAAAATT TTGGTCCAAG AGTAGCCAAC TCGGAGACAC CACCACAGGC
    CACCTCTCCA GTGGGGAGCA GAAGGGGATT GAAAGTGATT GGCAAGGCTT GTTGGTAGGA
    GAGGAGAAGA GAAGTAAACC CATCAAGGCA TATTCCACAG AAAACTATAG CCTGGAATCT
    CAAAAGAAGA GGAAGAAGTC TCGGGGCCAG ACCAGTGCAG CTAATGGTCT GAGAGCTGAG
    TCTTTGGATG ACCAAATGCT CTCCCGGGAG TCATCATCTC AGGCACCTTA CAAGTCTGTT
    ACAAGCCTCT GTGCACCGGA GTATGAAAAT ATACGCCATT ATGAGGAAAT ACCAGAGTAC
    GAGAACTTGC CATTTATTAT GGCTATACGG AAAACTCAAG AGTTGGAATG GCAGAATTCC
    AGCAGCATGG AGGACGCTGA TGCAAATGTG TATGAGGTAG AAGAGCCGTA TGAAGCTCCA
    GATGGCCAGC TGCAGCTTGG ACCCAGACAT CAGCATTCCA GTTCAGGAGC ATCCCAGGAG
    GAACAGAATG ATCTTGGTCT TGGTGACCTT CCCTCTGATG AGGAGGAAAT CATCAACAGT
    TCTGATGAAG ATGATGTCAG CTCTGAGTCA AGTAAAGGAG AGCCTGACCC ACTGGAAGAT
    AAACAGGATG AAGATAATGG AATGAAAAGT AAAGTTCATC ATATTGCCAA GGAGATCATG
    AGCTCAGAGA AAGTGTTTGT GGATGTGTTA AAACTTTTGC ATATTGATTT CCGGGATGCA
    GTAGCTCATG CTTCCAGGCA ACTTGGGAAA CCAGTGATTG AGGACCGGAT TCTAAATCAG
    ATCCTATACT ACTTGCCTCA GCTGTATGAG CTCAACCGGG ATCTCTTGAA GGAACTGGAG
    GAAAGAATGT TGCACTGGAC TGAACAACAA AGAATTGCTG ATATCTTTGT AAAGAAGGGA
    CCATATCTAA AAATGTATTC CACATACATC AAAGAATTTG ATAAGAATAT AGCCTTGCTG
    GATGAACAGT GCAAGAAAAA TCCAGGTTTT GCTGCTGTTG TTAGAGAATT TGAGATGAGC
    CCTCGCTGTG CTAATCTGGC CCTCAAGCAC TACCTGCTCA AGCCGGTTCA GAGGATCCCC
    CAGTACAGGC TGTTGCTGAC AGATTATTTG AAGAATCTCA TAGAAGATGC TGGAGATTAC
    AGAGACACTC AAGATGCCCT TGCTGTTGTT ATAGAGGTAG CCAACCACGC CAATGACACC
    ATGAAGCAAG GAGACAACTT TCAGAAACTT ATGCAAATTC AGTACAGCTT AAATGGACAC
    CATGAAATTG TGCAGCCTGG TCGGGTTTTT CTCAAAGAAG GAATTCTGAT GAAGCTGTCT
    CGGAAAGTGA TGCAACCTCG AATGTTTTTC CTGTTTAATG ATGCCCTGCT GTATACAACA
    CCAGTGCAGT CTGGGATGTA TAAACTGAAC AACATGCTCT CACTGGCTGG AATGAAGGTC
    AGAAAACCTA CCCAAGAAGC CTATCAGAAT GAATTAAAGA TTGAAAGTGT AGAACGTTCC
    TTCATTCTCT CAGCCAGTTC TGCCACAGAA AGGGATGAAT GGCTAGAAGC GATTTCCAGG
    GCAATAGAAG AGTATGCCAA GAAAAGAATC ACCTTCTGTC CTAGTAGGAG TCTTGATGAG
    GCAGACTCAG AAAATAAAGA AGAAGTTAGT CCTCTTGGAT CGAAGGCTCC CATCTGGATT
    CCTGATACCA GAGCCACAAT GTGTATGATC TGCACAAGCG AATTCACTCT CACCTGGAGA
    CGACACCACT GCCGGGCCTG TGGAAAGATT GTATGCCAAG CTTGTTCGTC TAATAAGTAT
    GGCTTAGATT ACCTGAAAAA TCAACCAGCA AGAGTATGTG AACATTGTTT CCAAGAACTG
    CAGAAATTAG ATCACCAGCA CTCCCCTAGG ATTGGATCTC CTGGAAATCA CAAATCTCCT
    TCAAGTGCCT TATCATCAGT CTTACATAGC ATTCCATCAG GGAGGAAACA GAAAAAAATC
    CCAGCTGCTC TCAAAGAAGT ATCAGCAAAC ACAGAGGATT CTTCTATGAG TGGCTACTTG
    TACAGATCAA AGGGCAATAA AAAACCCTGG AAACACTTTT GGTTTGTCAT AAAAAATAAA
    GTACTATATA CATATGCTGC AAGTGAGGAC GTGGCCGCTT TGGAGAGTCA GCCTTTATTA
    GGATTCACTG TTATTCAAGT TAAAGATGAG AATTCCGAGT CTAAAGTATT TCAGTTACTG
    CACAAAAACA TGTTATTTTA TGTATTCAAA GCAGAGGATG CTCATTCGGC TCAGAAGTGG
    ATAGAAGCAT TTCAGGAAGG CACAATATTG TAG

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