DOCK1 (NM_001290223) Human Tagged ORF Clone
CAT#: RG240219
- TrueORF®
DOCK1 (tGFP-tagged) - Human dedicator of cytokinesis 1 (DOCK1), transcript variant 1
ORF Plasmid: DDK
"NM_001290223" in other vectors (2)
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Symbol | DOCK1 |
Synonyms | ced5; DOCK180 |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG240219 representing NM_001290223.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGACGCGCTGGGTGCCCACCAAGCGCGAGGAGAAGTACGGCGTGGCTTTTTATAACTATGATGCCAGA GGAGCGGATGAACTTTCTTTACAGATCGGAGACACTGTGCACATCTTAGAAACATATGAAGGGTGGTAC CGAGGTTACACGTTACGAAAAAAGTCTAAGAAGGGTATATTTCCTGCTTCATATATTCATCTTAAAGAA GCGATAGTTGAAGGAAAAGGGCAACATGAAACAGTCATCCCGGGTGACCTCCCCCTCATCCAGGAAGTC ACCACGACACTCCGAGAGTGGTCCACCATCTGGAGGCAGCTCTACGTGCAAGATAACAGGGAGATGTTT CGAAGTGTGCGGCACATGATCTATGACCTTATTGAATGGCGATCACAAATTCTTTCTGGAACTCTGCCT CAGGATGAACTCAAAGAACTGAAGAAGAAGGTCACAGCCAAAATTGATTATGGAAACAGAATTCTAGAT TTGGACCTGGTGGTTAGAGATGAAGATGGGAATATTTTGGATCCAGAATTAACTAGCACGATTAGTCTC TTCAGAGCTCATGAAATAGCTTCTAAACAAGTGGAGGAAAGGTTACAAGAGGAAAAATCTCAAAAGCAG AACATAGATATTAACAGACAAGCCAAGTTTGCTGCAACCCCTTCTCTGGCCTTGTTTGTGAACCTCAAA AATGTGGTTTGTAAAATAGGAGAAGATGCTGAAGTCCTCATGTCTCTATATGACCCTGTGGAGTCCAAA TTCATCAGTGAGAACTACCTGGTTCGCTGGTCCAGTTCAGGATTACCTAAAGACATAGACAGATTACAT AATTTGCGAGCCGTGTTTACTGACCTCGGAAGCAAAGACCTGAAAAGGGAGAAAATCAGTTTTGTCTGT CAGATTGTTCGCGTGGGTCGCATGGAGCTGAGGGACAACAACACCAGGAAACTGACCTCGGGGTTGCGG CGACCTTTTGGAGTGGCTGTGATGGATGTAACAGATATAATAAATGGAAAAGTAGATGATGAAGATAAG CAGCATTTCATTCCCTTTCAGCCGCTCGCGTTGGACGACGCCATTCGACACAAGCCGCTGAACATGTCA TCCCGTTTTTCACCCAGGGTGGCAGGGGAGAATGACTTCCTTCAGACTGTTATAAACAAAGTCATCGCT GCCAAAGAAGTCAACCACAAGGGGCAGGGTTTGTGGGTAACATTGAAATTACTTCCTGGAGATATCCAT CAGATCCGAAAAGAGTTTCCGCATTTAGTGGACAGGACCACAGCTGTGGCTCGAAAAACAGGGTTTCCG GAGATAATCATGCCTGGTGATGTTCGAAATGATATCTATGTAACATTAGTTCAAGGAGATTTTGATAAA GGAAGCAAAACAACAGCGAAGAACGTGGAGGTCACGGTGTCTGTGTACGATGAGGATGGGAAACGATTA GAGCATGTGATTTTCCCGGGTGCTGGTGATGAAGCGATTTCAGAGTACAAATCTGTGATTTACTACCAA GTAAAGCAGCCACGCTGGTTTGAGACTGTTAAGGTGGCCATTCCCATCGAGGACGTTAACCGCAGTCAC CTTCGGTTTACCTTCCGCCACAGGTCATCACAGGACTCTAAGGATAAATCTGAGAAAATATTTGCACTA GCATTTGTCAAGCTGATGAGATACGATGGTACCACCCTGCGAGACGGAGAGCACGATCTTATCGTCTAT AAGGCCGAAGCAAAGAAGCTGGAAGATGCTGCCACGTACTTGAGTCTGCCCTCCACGAAGGCAGAGTTG GAAGAAAAGGGCCACTCGGCCACCGGCAAGAGCATGCAGAGCCTTGGGAGCTGCACCATTAGCAAGGAC TCCTTCCAGATCTCCACGCTCGTGTGCTCCACCAAACTGACTCAGAACGTGGACCTTCTGGGGCTCTTG AAATGGCGCTCCAACACCAGCCTGCTGCAGCAGAACTTGAGGCAGCTGATGAAAGTCGATGGTGGTGAA GTAGTGAAGTTTCTTCAGGACACGTTGGATGCCCTCTTCAACATCATGATGGAGAACTCAGAGAGTGAG ACTTTTGACACGTTAGTCTTTGATGCTCTGGTATTTATCATTGGACTGATTGCTGATAGAAAATTTCAG CATTTTAATCCTGTTTTGGAAACTTACATTAAGAAACACTTTAGTGCAACGTTAGCCTACACGAAGTTG ACAAAAGTGTTGAAGAACTACGTGGACGGTGCTGAGAAGCCGGGAGTAAATGAGCAGCTGTACAAAGCC ATGAAAGCGCTAGAATCCATCTTCAAGTTCATCGTGCGCTCCAGGATCCTGTTCAATCAACTGTATGAA AACAAGGGAGAGGCTGACTTCGTGGAATCTTTGCTGCAGCTCTTCAGGTCCATCAATGACATGATGAGC AGCATGTCAGACCAGACCGTCCGGGTGAAGGGGGCAGCACTGAAATACTTACCAACGATCGTCAACGAT GTGAAATTGGTGTTTGATCCCAAAGAGCTCAGCAAAATGTTTACTGAATTCATCCTCAATGTTCCCATG GGCTTGCTGACCATCCAGAAACTCTACTGCTTGATCGAAATCGTCCACAGTGACCTCTTCACACAGCAT GACTGCAGAGAGATCCTGCTTCCCATGATGACCGATCAGCTCAAGTACCATCTGGAGAGACAGGAGGAC CTGGAGGCCTGCTGTCAGCTGCTCAGCCACATCCTGGAGGTGCTGTACAGGAAGGACGTGGGGCCAACC CAGAGGCACGTCCAGATTATCATGGAGAAACTTCTCCGGACCGTGAACCGAACCGTCATTTCCATGGGA CGAGATTCTGAACTCATTGGAAACTTCGTGGCTTGCATGACAGCTATTTTACGACAAATGGAAGATTAC CATTATGCCCACTTGATCAAGACTTTTGGGAAAATGAGGACTGATGTGGTAGATTTCCTAATGGAAACA TTCATCATGTTTAAGAACCTCATTGGAAAGAACGTTTACCCCTTCGACTGGGTGATCATGAACATGGTG CAAAATAAAGTCTTCCTGCGAGCAATTAATCAGTATGCAGATATGCTGAACAAAAAATTTCTGGATCAA GCCAACTTTGAGCTACAGCTGTGGAACAACTACTTTCACCTGGCTGTTGCTTTCCTTACTCAAGAGTCC CTGCAACTGGAGAATTTTTCAAGTGCCAAGAGAGCCAAAATCCTTAACAAGTACGGAGATATGAGGAGA CAGATTGGCTTTGAAATCAGAGACATGTGGTACAACCTTGGTCAACACAAGATAAAGTTCATTCCAGAA ATGGTGGGCCCAATATTAGAAATGACATTAATTCCCGAGACGGAGCTGCGCAAAGCCACCATCCCCATC TTCTTTGATATGATGCAGTGTGAATTCCATTCGACCCGAAGCTTCCAAATGTTTGAAAATGAGATCATC ACCAAGCTGGATCATGAAGTCGAAGGAGGCAGAGGAGACGAACAGTACAAAGTGTTATTTGATAAAATC CTTCTGGAACACTGCAGGAAGCACAAATACCTCGCCAAAACAGGAGAAACTTTTGTAAAACTCGTTGTG CGCTTAATGGAAAGGCTTTTGGATTATAGAACCATCATGCACGACGAGAACAAAGAAAACCGCATGAGC TGCACCGTCAATGTGCTGAATTTCTACAAAGAAATTGAAAGAGAAGAAATGTATATAAGGTATTTGTAC AAGCTCTGTGACCTGCACAAGGAGTGTGATAACTACACCGAAGCGGCTTACACCTTGCTTCTCCATGCA AAGCTTCTTAAGTGGTCGGAGGATGTGTGTGTGGCCCACCTCACCCAGCGGGACGGGTACCAGGCCACC ACGCAGGGACAGCTGAAGGAGCAGCTCTACCAGGAAATCATCCACTACTTCGACAAAGGCAAGATGTGG GAGGAGGCCATTGCCTTGGGCAAGGAGCTAGCCGAGCAGTATGAGAACGAAATGTTTGATTATGAGCAA CTCAGCGAATTGCTGAAAAAACAGGCTCAGTTTTATGAAAACATCGTCAAAGTGATCAGGCCCAAGCCT GACTATTTTGCTGTTGGCTACTACGGACAAGGGTTCCCCACATTCCTGCGGGGAAAAGTTTTCATTTAC CGAGGGAAAGAGTATGAGCGCCGGGAAGATTTTGAGGCTCGGCTCTTAACTCAGTTTCCAAACGCCGAG AAAATGAAGACAACATCTCCACCAGGCGACGATATTAAAAACTCTCCTGGCCAGTATATTCAGTGCTTC ACAGTGAAGCCCAAACTCGATCTGCCTCCTAAGTTTCACAGGCCAGTGTCAGAGCAGATTGTAAGTTTT TACAGGGTGAACGAGGTCCAGCGATTTGAATATTCTCGGCCAATCCGGAAGGGAGAGAAAAACCCAGAC AATGAATTTGCGAATATGTGGATCGAGAGAACCATATATACAACTGCATATAAATTACCTGGAATTTTA AGGTGGTTTGAGGTCAAGTCTGTTTTCATGGTGGAAATCAGCCCCCTGGAGAATGCCATTGAGACCATG CAGCTGACGAACGACAAGATCAACAGCATGGTGCAGCAGCACCTGGATGACCCCAGCCTGCCCATCAAC CCGCTCTCCATGCTCCTGAACGGCATCGTGGACCCAGCTGTCATGGGGGGCTTCGCAAACTACGAAAAG GCCTTCTTTACAGACCGGTACCTGCAGGAGCACCCTGAGGCCCATGAAAAGATCGAGAAGCTCAAGGAC CTGATTGCTTGGCAGATTCCTTTTCTGGCCGAAGGGATCAGAATCCATGGAGACAAAGTCACGGAGGCA CTGAGGCCGTTCCACGAGAGGATGGAGGCCTGTTTCAAACAGCTGAAGGAAAAGGTGGAGAAAGAGTAC GGCGTCCGAATCATGCCCTCAAGTCTGGATGATAGAAGAGGCAGCCGCCCCCGGTCCATGGTGCGGTCC TTCACGATGCCTTCCTCATCCCGCCCTCTGTCTGTGGCCTCTGTCTCTTCCCTCTCATCGGACAGCACC CCTTCCAGACCAGGCTCCGACGGGTTTGCCCTGGAGCCTCTCCTGCCAAAGAAAATGCACTCCAGGTCC CAGGACAAGCTGGACAAGGATGACCTGGAGAAGGAGAAGAAGGACAAGAAGAAGGAAAAAAGGAACAGC AAACATCAAGAGATATTTGAGAAAGAATTTAAACCCACCGACATTTCCCTGCAGCAGTCTGAGGCTGTG ATCCTTTCGGAAACGATAAGTCCCCTGCGGCCCCAGAGACCGAAGAGCCAGGTGATGAACGTCATTGGA AGCGAAAGGCGCTTCTCGGTGTCCCCCTCGTCACCGTCCTCCCAGCAAACACCCCCTCCAGTTACACCA AGGGCCAAGCTCAGCTTCAGCATGCAGTCGAGCTTGGAGCTGAACGGCATGACGGGGGCGGACGTGGCC GATGTCCCACCCCCTCTGCCTCTCAAAGGCAGCGTGGCAGATTACGGGAATTTGATGGAAAACCAGGAC TTGCTGGGCTCGCCAACACCTCCACCTCCCCCTCCACACCAGAGGCATCTGCCACCTCCACTGCCCAGC AAAACTCCGCCTCCTCCCCCTCCAAAGACAACTCGCAAGCAGACATCGGTGGACTCCGGGATCGTGCAG ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC >Peptide sequence encoded by RG240219
Blue=ORF Red=Cloning site Green=Tag(s) MTRWVPTKREEKYGVAFYNYDARGADELSLQIGDTVHILETYEGWYRGYTLRKKSKKGIFPASYIHLKE AIVEGKGQHETVIPGDLPLIQEVTTTLREWSTIWRQLYVQDNREMFRSVRHMIYDLIEWRSQILSGTLP QDELKELKKKVTAKIDYGNRILDLDLVVRDEDGNILDPELTSTISLFRAHEIASKQVEERLQEEKSQKQ NIDINRQAKFAATPSLALFVNLKNVVCKIGEDAEVLMSLYDPVESKFISENYLVRWSSSGLPKDIDRLH NLRAVFTDLGSKDLKREKISFVCQIVRVGRMELRDNNTRKLTSGLRRPFGVAVMDVTDIINGKVDDEDK QHFIPFQPLALDDAIRHKPLNMSSRFSPRVAGENDFLQTVINKVIAAKEVNHKGQGLWVTLKLLPGDIH QIRKEFPHLVDRTTAVARKTGFPEIIMPGDVRNDIYVTLVQGDFDKGSKTTAKNVEVTVSVYDEDGKRL EHVIFPGAGDEAISEYKSVIYYQVKQPRWFETVKVAIPIEDVNRSHLRFTFRHRSSQDSKDKSEKIFAL AFVKLMRYDGTTLRDGEHDLIVYKAEAKKLEDAATYLSLPSTKAELEEKGHSATGKSMQSLGSCTISKD SFQISTLVCSTKLTQNVDLLGLLKWRSNTSLLQQNLRQLMKVDGGEVVKFLQDTLDALFNIMMENSESE TFDTLVFDALVFIIGLIADRKFQHFNPVLETYIKKHFSATLAYTKLTKVLKNYVDGAEKPGVNEQLYKA MKALESIFKFIVRSRILFNQLYENKGEADFVESLLQLFRSINDMMSSMSDQTVRVKGAALKYLPTIVND VKLVFDPKELSKMFTEFILNVPMGLLTIQKLYCLIEIVHSDLFTQHDCREILLPMMTDQLKYHLERQED LEACCQLLSHILEVLYRKDVGPTQRHVQIIMEKLLRTVNRTVISMGRDSELIGNFVACMTAILRQMEDY HYAHLIKTFGKMRTDVVDFLMETFIMFKNLIGKNVYPFDWVIMNMVQNKVFLRAINQYADMLNKKFLDQ ANFELQLWNNYFHLAVAFLTQESLQLENFSSAKRAKILNKYGDMRRQIGFEIRDMWYNLGQHKIKFIPE MVGPILEMTLIPETELRKATIPIFFDMMQCEFHSTRSFQMFENEIITKLDHEVEGGRGDEQYKVLFDKI LLEHCRKHKYLAKTGETFVKLVVRLMERLLDYRTIMHDENKENRMSCTVNVLNFYKEIEREEMYIRYLY KLCDLHKECDNYTEAAYTLLLHAKLLKWSEDVCVAHLTQRDGYQATTQGQLKEQLYQEIIHYFDKGKMW EEAIALGKELAEQYENEMFDYEQLSELLKKQAQFYENIVKVIRPKPDYFAVGYYGQGFPTFLRGKVFIY RGKEYERREDFEARLLTQFPNAEKMKTTSPPGDDIKNSPGQYIQCFTVKPKLDLPPKFHRPVSEQIVSF YRVNEVQRFEYSRPIRKGEKNPDNEFANMWIERTIYTTAYKLPGILRWFEVKSVFMVEISPLENAIETM QLTNDKINSMVQQHLDDPSLPINPLSMLLNGIVDPAVMGGFANYEKAFFTDRYLQEHPEAHEKIEKLKD LIAWQIPFLAEGIRIHGDKVTEALRPFHERMEACFKQLKEKVEKEYGVRIMPSSLDDRRGSRPRSMVRS FTMPSSSRPLSVASVSSLSSDSTPSRPGSDGFALEPLLPKKMHSRSQDKLDKDDLEKEKKDKKKEKRNS KHQEIFEKEFKPTDISLQQSEAVILSETISPLRPQRPKSQVMNVIGSERRFSVSPSSPSSQQTPPPVTP RAKLSFSMQSSLELNGMTGADVADVPPPLPLKGSVADYGNLMENQDLLGSPTPPPPPPHQRHLPPPLPS KTPPPPPPKTTRKQTSVDSGIVQ TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001290223 |
ORF Size | 5658 bp |
OTI Disclaimer | 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 clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reference Data | |
RefSeq | NM_001290223.1, NP_001277152.1 |
RefSeq Size | 6876 bp |
RefSeq ORF | 5661 bp |
Locus ID | 1793 |
Cytogenetics | 10q26.2 |
Protein Families | Druggable Genome |
Protein Pathways | Focal adhesion, Regulation of actin cytoskeleton |
MW | 218.2 kDa |
Gene Summary | This gene encodes a member of the dedicator of cytokinesis protein family. Dedicator of cytokinesis proteins act as guanine nucleotide exchange factors for small Rho family G proteins. The encoded protein regulates the small GTPase Rac, thereby influencing several biological processes, including phagocytosis and cell migration. Overexpression of this gene has also been associated with certain cancers. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Mar 2014] |
Documents
Product Manuals |
FAQs |
SDS |
Resources
{0} Product Review(s)
Be the first one to submit a review