DOCK8 (NM_203447) Human Untagged Clone
CAT#: SC328097
DOCK8 (untagged)-Human dedicator of cytokinesis 8 (DOCK8)
"NM_203447" in other vectors (6)
Product Images
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | DOCK8 |
Synonyms | HEL-205; MRD2; ZIR8 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>NCBI ORF sequence for NM_203447, the custom clone sequence may differ by one or more nucleotides
ATGGCCACTCTGCCGAGCGCAGAGCGCCGCGCGTTCGCGCTCAAGATCAACAGGTATTCTTCAGCGGAAA TAAGGAAACAGTTTACTCTCCCACCAAACCTTGGCCAGTACCATCGACAGAGCATAAGTACCTCTGGCTT CCCCTCTCTTCAACTACCTCAGTTTTATGACCCTGTGGAGCCAGTGGACTTTGAAGGACTTCTGATGACA CACCTGAACAGCCTGGATGTGCAGCTTGCCCAGGAGCTCGGGGACTTCACTGATGACGACTTGGACGTGG TGTTCACGCCAAAGGAATGTAGGACTTTGCAGCCCTCTTTGCCGGAGGAAGGGGTTGAACTGGACCCTCA TGTCAGGGACTGTGTTCAGACCTACATCCGTGAGTGGCTAATCGTGAACCGGAAAAACCAAGGAAGTCCA GAAATCTGTGGCTTTAAAAAGACTGGATCTCGAAAAGATTTTCACAAGACGCTTCCGAAACAGACGTTTG AGTCGGAAACCTTGGAGTGCAGTGAACCCGCTGCTCAGGCAGGCCCCCGCCACTTAAACGTGCTGTGCGA CGTGTCTGGGAAAGGCCCCGTCACTGCCTGTGACTTTGACCTCCGCAGCCTGCAGCCTGACAAGCGGCTA GAAAACCTCCTGCAGCAAGTGAGTGCCGAGGACTTTGAGAAGCAGAACGAGGAGGCCCGGAGGACCAATA GGCAGGCCGAGCTCTTTGCCCTTTACCCATCAGTGGACGAGGAGGATGCTGTGGAAATACGTCCAGTACC AGAATGTCCCAAGGAACACCTGGGCAACAGAATATTGGTCAAGTTGCTGACCTTGAAGTTCGAGATTGAA ATTGAGCCCCTGTTTGCCAGCATTGCCCTCTACGATGTTAAAGAAAGGAAAAAGATCTCAGAAAATTTTC ACTGTGACCTGAACTCTGACCAGTTCAAAGGATTTCTGCGAGCTCACACGCCTTCAGTGGCCGCATCAAG TCAGGCGAGATCTGCAGTCTTCTCAGTCACCTACCCGTCCTCAGACATCTACCTGGTAGTCAAGATTGAA AAAGTCCTGCAGCAGGGAGAGATTGGAGACTGTGCAGAGCCCTACACGGTTATCAAAGAAAGTGATGGTG GAAAGAGTAAAGAAAAGATTGAAAAACTAAAACTCCAAGCTGAATCCTTCTGCCAGCGTTTGGGGAAATA CCGGATGCCCTTTGCCTGGGCACCCATAAGCTTATCAAGCTTCTTCAATGTCTCCACCCTTGAGAGGGAG GTAACTGATGTGGACTCTGTGGTTGGGAGAAGCTCAGTGGGTGAACGGAGGACATTGGCCCAATCTAGAA GGCTTTCTGAAAGAGCCCTCTCCTTGGAGGAAAATGGGGTTGGATCCAACTTCAAAACCTCCACTCTGAG CGTTAGCAGCTTTTTCAAGCAGGAAGGAGATCGCCTTAGCGATGAAGACTTATTCAAGTTTTTAGCTGAC TACAAAAGATCATCATCCTTACAGAGACGAGTCAAGTCAATTCCAGGCTTGCTAAGACTGGAGATTTCTA CAGCTCCAGAGATCATCAATTGCTGTCTGACTCCTGAAATGCTGCCCGTGAAACCCTTTCCTGAAAACCG GACACGCCCGCACAAAGAGATTTTGGAATTTCCAACACGAGAAGTATATGTCCCTCACACTGTGTACAGA AACCTTCTCTATGTCTACCCACAGAGGCTGAACTTTGTAAACAAACTAGCATCAGCCCGGAACATTACAA TAAAGATCCAGTTTATGTGTGGAGAAGATGCTAGCAATGCGATGCCGGTCATCTTTGGAAAATCCAGCGG GCCTGAATTTCTGCAGGAAGTGTACACAGCTGTTACATACCATAATAAGTCTCCTGACTTTTATGAAGAA GTGAAAATTAAGCTCCCCGCTAAGCTCACAGTAAATCACCACCTCCTGTTCACCTTCTACCATATCAGCT GTCAGCAGAAGCAAGGAGCCTCCGTGGAAACTCTCCTGGGATATTCATGGCTGCCAATTCTCTTAAATGA ACGTCTTCAAACTGGATCCTACTGTCTCCCAGTTGCCTTGGAAAAATTGCCACCCAACTACTCCATGCAT TCTGCTGAGAAAGTCCCATTACAGAATCCTCCCATTAAGTGGGCTGAAGGACATAAGGGAGTATTTAATA TTGAAGTGCAAGCTGTTTCTTCTGTACACACCCAGGACAACCACCTGGAGAAGTTCTTCACCCTCTGCCA CTCCCTGGAGAGCCAGGTGACCTTCCCCATCCGCGTGCTGGATCAGAAAATCAGCGAGATGGCGCTGGAG CATGAGCTGAAGCTCAGCATCATCTGCCTGAACTCCTCCCGCCTGGAGCCGCTCGTGCTCTTCCTGCACC TGGTGCTGGACAAGCTCTTCCAGCTGTCCGTGCAGCCCATGGTCATCGCTGGCCAGACAGCCAACTTCTC CCAGTTTGCCTTCGAGTCCGTGGTGGCCATCGCCAACAGTCTGCACAACAGCAAGGACCTGAGCAAGGAC CAGCATGGGAGGAACTGCCTGCTGGCTTCCTACGTGCACTACGTCTTCCGCCTGCCAGAGGTGCAAAGGG ATGTGCCCAAGTCAGGCGCTCCCACTGCCCTCCTAGACCCTCGGAGCTACCACACGTATGGCCGCACATC AGCTGCTGCTGTGAGTTCAAAGCTGCTGCAGGCCCGGGTGATGAGCAGCAGTAACCCAGACCTCGCGGGG ACACACTCCGCAGCAGACGAGGAAGTGAAGAACATCATGTCTTCAAAGATCGCCGATCGCAACTGCAGCC GAATGTCTTACTATTGCTCTGGCAGTAGTGATGCTCCAAGTTCACCTGCAGCCCCAAGGCCAGCCAGCAA AAAGCATTTCCATGAGGAGCTTGCCCTTCAGATGGTGGTCAGCACCGGAATGGTGAGAGAAACAGTCTTC AAGTATGCCTGGTTCTTCTTTGAGCTTCTGGTGAAAAGCATGGCCCAGCACGTACATAACATGGACAAAC GGGACAGTTTTCGGAGGACTCGTTTTTCTGACCGTTTCATGGATGACATAACTACTATTGTTAATGTGGT CACCTCGGAAATTGCAGCCCTTTTAGTAAAACCACAGAAGGAAAATGAACAGGCGGAAAAGATGAACATC AGCCTGGCTTTCTTCTTGTATGACCTTCTCTCCCTCATGGATCGGGGCTTTGTGTTTAACCTCATCAGAC ATTATTGCAGCCAGCTGTCAGCCAAGCTCAGTAACCTTCCAACGCTCATTTCCATGAGGCTAGAGTTCCT GAGAATCCTCTGTAGCCATGAGCATTACCTCAATCTGAACCTTTTTTTTATGAATGCTGATACTGCTCCA ACATCTCCTTGTCCTTCCATATCTTCCCAGAACTCAAGCTCCTGCTCCAGCTTCCAGGACCAGAAGATCG CCAGCATGTTCGATCTGACTTCCGAGTACCGCCAGCAGCACTTCCTCACCGGGCTCCTCTTCACAGAACT GGCTGCTGCCCTGGATGCCGAAGGGGAAGGAATCAGCAAAGTACAAAGGAAAGCTGTCAGTGCAATTCAC AGCCTGCTAAGTTCTCACGACCTGGACCCACGCTGTGTCAAACCAGAGGTGAAGGTCAAAATCGCCGCCC TTTACCTACCTTTAGTTGGCATCATTTTGGATGCTTTGCCACAGCTCTGTGACTTTACAGTTGCAGATAC TCGCAGATACCGCACCAGTGGCTCGGATGAAGAACAAGAAGGAGCCGGTGCCATTAACCAGAATGTGGCT CTGGCCATAGCAGGGAATAATTTCAATTTGAAAACAAGTGGAATAGTGCTGTCTTCCTTGCCCTATAAGC AGTACAACATGCTGAACGCGGACACTACTCGCAACCTCATGATCTGCTTCCTCTGGATCATGAAAAATGC TGATCAGAGCCTCATTAGGAAGTGGATTGCTGACCTGCCATCAACGCAGCTCAACAGGATTTTAGATCTA CTTTTCATCTGTGTGTTATGTTTTGAGTATAAGGGAAAACAGAGTTCTGACAAAGTCAGTACCCAAGTCC TGCAGAAGTCAAGGGATGTCAAGGCCCGGCTGGAAGAGGCTTTGCTCCGTGGGGAAGGGGCCAGAGGGGA GATGATGCGCCGCCGGGCTCCAGGGAACGACCGATTTCCAGGCCTAAATGAAAATTTGAGATGGAAGAAA GAGCAGACACATTGGCGGCAAGCTAATGAGAAGCTAGATAAAACAAAGGCCGAGTTAGATCAAGAAGCCT TGATCAGTGGCAATCTGGCTACAGAAGCACATTTAATCATCCTGGATATGCAGGAAAACATTATCCAGGC GAGCTCGGCTCTGGACTGTAAAGACAGCCTGCTGGGAGGTGTTCTGAGGGTGCTGGTGAATTCTCTGAAC TGTGATCAGAGTACCACCTACCTGACTCACTGCTTTGCAACACTCCGTGCTCTCATCGCCAAGTTTGGAG ACTTACTCTTCGAAGAGGAGGTGGAACAGTGTTTCGACCTATGTCACCAAGTCCTGCACCACTGCAGCAG CAGCATGGATGTCACCCGGAGCCAAGCCTGTGCCACCCTTTACCTCCTCATGAGGTTCAGTTTTGGAGCC ACCAGTAATTTTGCAAGAGTAAAGATGCAAGTAACCATGTCCCTGGCATCTTTGGTGGGAAGAGCACCAG ACTTTAATGAAGAGCACCTGAGAAGATCCTTGAGGACAATTTTGGCCTATTCAGAAGAGGACACAGCCAT GCAGATGACTCCTTTTCCCACCCAGGTGGAGGAACTTCTCTGTAATCTGAATAGCATCTTATATGACACA GTGAAAATGAGGGAATTTCAGGAAGATCCTGAGATGCTTATGGATCTCATGTACAGAATTGCCAAGAGTT ACCAGGCATCTCCTGATCTGCGGCTGACCTGGCTCCAGAACATGGCAGAGAAACACACCAAGAAGAAGTG CTACACGGAGGCTGCCATGTGCCTGGTGCACGCCGCTGCGTTAGTGGCTGAGTATCTGAGCATGCTGGAG GACCACAGCTACCTGCCCGTGGGCAGTGTCAGCTTCCAGAATATTTCTTCCAATGTGCTGGAGGAGTCTG TGGTCTCTGAGGACACCCTGTCACCTGACGAGGATGGGGTGTGCGCAGGCCAGTACTTCACCGAGAGTGG CCTGGTAGGCCTCCTGGAGCAGGCCGCGGAGCTCTTCAGCACGGGAGGCTTATATGAGACAGTTAATGAG GTCTACAAGCTGGTCATCCCCATCCTAGAAGCGCATCGAGAATTCCGGAAGCTGACACTCACTCACAGCA AGCTGCAGAGAGCCTTCGACAGCATCGTTAACAAGGATCATAAGAGAATGTTTGGAACCTACTTCCGAGT TGGTTTCTTTGGATCCAAATTTGGGGATTTGGATGAACAGGAGTTTGTCTACAAAGAGCCTGCAATTACC AAGCTTCCTGAGATCTCACATAGACTAGAGGCATTTTATGGTCAATGTTTTGGTGCAGAATTTGTGGAAG TGATTAAAGACTCCACTCCTGTGGACAAAACCAAGTTGGATCCTAACAAGGCCTACATACAGATCACTTT TGTGGAGCCCTACTTTGATGAGTATGAGATGAAAGACAGGGTCACATACTTTGAGAAGAATTTCAACCTC CGGAGGTTCATGTACACCACCCCGTTCACCCTGGAGGGGCGGCCTCGGGGAGAGCTGCATGAGCAGTACA GAAGGAACACAGTCCTGACCACTATGCACGCCTTCCCCTACATCAAGACCAGGATCAGCGTCATCCAGAA GGAGGAGTTTGTTTTGACACCGATTGAAGTTGCCATTGAAGACATGAAGAAGAAGACCCTGCAGTTAGCA GTTGCCATTAACCAGGAGCCGCCTGATGCAAAGATGCTTCAGATGGTGCTGCAAGGCTCTGTGGGAGCTA CTGTAAATCAGGGACCACTGGAAGTAGCCCAAGTGTTTTTGGCTGAAATTCCTGCTGATCCAAAACTCTA TCGACATCACAACAAGTTGAGGTTATGCTTTAAGGAATTCATCATGAGATGTGGTGAAGCTGTAGAGAAA AACAAGCGTCTCATCACGGCAGACCAGAGGGAATATCAGCAGGAACTCAAAAAGAACTATAACAAGCTAA AAGAGAACCTCAGGCCAATGATCGAGCGGAAAATTCCAGAACTGTACAAGCCAATATTCAGAGTTGAGAG TCAAAAGAGGGACTCCTTCCACAGATCTAGTTTCAGGAAATGTGAAACCCAGTTGTCACAGGGCAGCTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_203447 |
ORF Size | 6300 bp |
OTI Disclaimer | Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
Reference Data | |
RefSeq | NM_203447.3, NP_982272.2 |
RefSeq Size | 7470 |
RefSeq ORF | 6300 |
Locus ID | 81704 |
Gene Summary | This gene encodes a member of the DOCK180 family of guanine nucleotide exchange factors. Guanine nucleotide exchange factors interact with Rho GTPases and are components of intracellular signaling networks. Mutations in this gene result in the autosomal recessive form of the hyper-IgE syndrome. Alternatively spliced transcript variants encoding different isoforms have been described. [provided by RefSeq, Jun 2010] Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
SC308184 | DOCK8 (untagged)-Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1 |
USD 4,250.00 |
|
RC222789 | DOCK8 (Myc-DDK-tagged)-Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1 |
USD 1,999.00 |
|
RC229462 | DOCK8 (Myc-DDK-tagged)-Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1 |
USD 1,999.00 |
|
RG222789 | DOCK8 (GFP-tagged) - Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1 |
USD 2,200.00 |
|
RG229462 | DOCK8 (GFP-tagged) - Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1 |
USD 2,200.00 |
|
RC222789L1 | Lenti ORF clone of Human dedicator of cytokinesis 8 (DOCK8), transcript variant 1, Myc-DDK-tagged |
USD 2,199.00 |
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