Shank1 (NM_001034115) Mouse Tagged ORF Clone

CAT#: MR223290

Shank1 (Myc-DDK-tagged) - Mouse SH3/ankyrin domain gene 1 (Shank1)

Product Images

Circular map for MR223290

Specifications

Product Data

• Type: Mouse Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: Shank1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >MR223290 representing NM_001034115
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGACCCACAGCCCCGCGACAAGCGAGGACGAGGAAAGACACAGTGCCAGCGAGTGTCCCGAGGGGGGCT
  CAGAATCGGACAGCTCCCCAGACGGGCCAGGAAGAGGCCCCCAGGGGACTCGGGGCCGAGGCAGCGGAGC
  ACCTGGTAACCTGGCCTCTACCCGAGGCCTCCAGGGACGCTCCATGTCTGTCCCTGACGACGCCCACTTC
  AGCATGATGGTTTTCAGGATTGGCATCCCTGACTTGCATCAGACGAAATGCCTACGCTTCAACCCAGATG
  CCACCATCTGGACAGCCAAACAGCAAGTACTCTGTGCCCTGAGCGAGAGTCTACAGGACGTGCTGAACTA
  TGGACTGTTCCAGCCAGCCACCTCAGGCCGGGATGCCAACTTCTTGGAGGAGGAGAGGCTTCTAAGAGAG
  TACCCTCAGTCCTTTGAGAAAGGGGTACCCTACCTGGAGTTCCGCTACAAGACCCGAGTCTACAAACAGA
  CCAACCTGGATGAGAAACAGCTGGCCAAGCTGCACACAAAGACTGGGTTGAAGAAGTTCCTGGAATATGT
  GCAGCTTGGGACGTCTGACAAGGTGGCAAGGCTGCTGGACAAGGGGCTGGACCCCAACTACCACGACTCA
  GATTCAGGAGAGACACCTTTGACCCTGGCGGCCCAGACTGAAGGCTCAGTAGAGGTGATTCGGACGCTGT
  GCCTGGGCGGGGCGCATATAGACTTCAGGGCCCGGGATGGCATGACAGCGCTTCACAAAGCTGCATGTGC
  CCGGCACTGCCTGGCGCTCACGGCACTTCTGGACCTTGGGGGCTCCCCCAACTACAAGGACCGACGAGGG
  CTGACCCCCCTGTTCCACACAGCTATGGTGGGGGGAGACCCCCGCTGCTGCGAGCTACTTCTGTACAACA
  GGGCCCAGCTGGGCATTGCAGATGAGAACGGCTGGCAGGAAATCCATCAGGCCTGCCAACGAGGGCACTC
  TCAGCACCTGGAACACCTGCTCTTCTATGGGGCTGAGCCTGGAGCCCAGAATGCCTCAGGAAACACGGCC
  CTGCACATCTGTGCTCTCTACAACAAGGAGACCTGTGCCAGGATCCTCCTTTATCGTGGAGCAAACAAGG
  ATGTGAAAAATAACAATGGACAGACACCCTTCCAGGTGGCTGTGATTGCTGGGAATTTTGAGCTGGGGGA
  ACTGATTCGTAACCATCGGGAACAGGATGTGGTACCTTTCCAGGAGTCCCCCAAGTATGCAGCCCGGCGT
  CGGGGACCCCCAGGCGCAGGGCTGACTGTACCCCCAGCGCTGCTGCGAGCTAACAGTGACACGAGCATGG
  CGCTGCCTGATTGGATGGTGTTTTCGGCCCCAGGGGCCTCATCCTCTGGGACCCCTGGCCCTACCTCAGG
  ATCCCAGGGCCAGTCACAGCCCTCGGCCCCCAGCACCAAACTCAGTAGTGGGACCCTCAGAAGTGCCAGC
  AGTCCCCGAGGAGCCCGGGCACGCTCCCCGTCCCGGGGGAGACATCCTGAAGACGCCAAGAGACAACCTC
  GAGGCCGGCCCAGCTCCAGCGGGACACCCCGAGATGGGCCGGCTGGGGGAACTGGGGGCTCAGGGGGCCC
  TGGGGGCTCCCTGGGCAGCAGAGGCAGACGTAGGAAGCTCTATTCAGCGGTACCCGGTCGCTCCTTCATG
  GCGGTGAAGTCCTACCAGGCGCAAGGCGAGGGGGAGATCTCTCTGAGTAAAGGCGAAAAGATCAAAGTGC
  TCAGCATCGGGGAAGGAGGCTTCTGGGAAGGCCAGGTCAAAGGTCGAGTTGGCTGGTTCCCTTCTGACTG
  CCTAGAAGAGGTGGCAAACCGTTCCCAGGAGGGAAGACAAGAAAGCCGAAGTGACAAGGCAAAGAGACTC
  TTCAGGCATTACACAGTGGGCTCCTATGACAGCTTCGATGCCCCAAGTCTGATCGATGGGATTGACTCAG
  GGAGTGATTACATCATCAAGGAGAAGACAGTCTTACTGCAGAAGAAGGACAGTGAGGGGTTCGGGTTCGT
  GCTCCGGGGGGCCAAGGCGCAGACCCCCATCGAGGAATTCACCCCCACCCCGGCCTTCCCGGCGCTGCAG
  TACCTCGAGTCTGTGGACGAGGGTGGCGTGGCATGGCGGGCTGGACTACGAATGGGAGACTTCCTCATCG
  AGGTGAACGGACAGAATGTAGTGAAGGTTGGCCACCGTCAGGTGGTCAACATGATCCGACAGGGAGGCAA
  CACACTGATGGTCAAGGTGGTGATGGTGACCAGACACCCAGACATGGATGAGGCTGTCCACAAGAAAGCA
  TCCCAGCAGGCTAAGCGGCTCCCGCCCCCAGCCATCTCCCTGCGTTCCAAGTCTATGACCTCAGAGCTGG
  AGGAAATGGTCTCCCCCTGGAAGAAGAAAATTGAATACGAACAACAGCCTGCAGCAGTGCCCAGCATGGA
  GAAAAAGCGGACTGTGTATCAGATGGCACTCAACAAACTGGATGAGATCTTGGCTGCAGCTCAGCAGACC
  ATCAGTGCAAGTGAGAGTCCTGGGCCTGGCGGCCTCGCATCCCTGGGCAAGCACCGACCCAAAGGATTCT
  TTGCCACTGAGTCGAGCTTTGATCCTCACCACCGCTCCCAGCCAAGTTATGACCGGCCTTCTTTCCTGCC
  TCCCGGACCTGGCCTTATGCTCCGGCAGAAATCTATCGGGGCTGCGGAAGATGACAGACCCTACCTAGCA
  CCCCCAGCCATGAAATTCAGTCGTAGCCTGTCAGTCCCGGGTTCAGAGGACATACCCCCACCACCCACTA
  CATCCCCACCAGAGCCGCCCTATAGCACACCTCCGGCCCCCTCCTCTTCCGGCCGCCTCACTCCCTCGCC
  TCGGGGAGGGCCCTTTAACCCTGGTTCCGGGGGTCCCCTTCCCGCCTCCTCACCTTCATCTTTCGATGGG
  CCATCTCCTCCTGACCCCCGTAGTGGGGGCCGAGAGAAGAGCCTATATCACAGTGGCGCCCTACCCCCTG
  CCCACCACCACCCACCTCATCACCACCATCATCACGCCCCACCTCCTCAGCCCCACCATCACCATGCGCA
  TCCTCCCCACCCACCGGAGATGGAGACAGGAGGTTCCCCCGACGATCCCCCACCTCGATTGGCTCTGGGA
  CCCCAGCCCAGCCTTCGAGGCTGGCGAGGTGGAGGACCCAGCCCGACCTCGGGGGCCCCATCACCTTCCC
  ACCACAGTAGCAGCGGAGGCAGTAGCGGTCCTGCTCAGGCTCCCGCCCTGCGCTACTTCCAGCTGCCCCC
  GAGGGCGGCCAGTGCGGCTATGTACGTACCAGCCCGCTCCGGCCGCGGTCGCAAAGGCCCGCTGGTCAAG
  CAGACCAAAGTGGAAGGCGAGCCCCAAAAGGGCAGCCTCCCTCCCGCGTCCTCTCCAACATCCCCGGCGT
  TGCCTCGGTCCGAACCACCTCCGGCCGGGCCGTCGGAGAAAAATTCCATCCCTATCCCTACCATCATCAT
  CAAAGCCCCATCTACCAGTAGCAGCGGCCGCAGTAGCCAGGGAAGCAGCACAGAGGCTGAGCCCCCCACC
  CAGCCCGACGGCGCGGGCGGCGGAGGATCCTCGCCTAGCCCTGCACCTGCCACGTCCCCTGTACCGCCGT
  CCCCGTCGCCCGTGCCCACCCCTGCGTCACCCAGCGGCCCGGCCACCCTGGATTTCACTAGCCAGTTTGG
  AGCAGCCCTAGTGGGCGCGGCGCGGAGGGAGGGAGGCTGGCAAAACGAAGCCCGGCGGCGGTCCACGCTA
  TTCCTGTCCACCGACGCAGGAGATGAGGATGGAGGCGACAGCGGGCTGGGCCCGGGGGCGCCCCCGGGTC
  CCCGGCTGCGCCATTCCAAATCCATTGATGAAGGCATGTTCTCCGCCGAGCCGTACCTCCGGCTGGAGTC
  GGGGGGCAGCAGCGGGGGCTACGGGGCATACGCAGCGGGCAGCCGAGCCTACGGGGGCAGCGGGAGCAGC
  AGCGCCTTCACCAGCTTCCTCCCCCCGCGGCCCCTGGTGCATCCGCTGACCGGCAAAGCCTTGGATCCCG
  CCTCTCCGCTGGGGCTGGCCTTGGCCGCCCGGGAGCGGGCCTTGAAGGAGTCCTCGGAGGGCGGGGTCAC
  CCCTCAGCCGCCCCCGAGACCTCCATCACCACGCTACGACGCCCCACCGCCCACCCTTCACCACCACTCG
  CCCCATTCACCCCATTCGCCACATGCGCGTCATGAGCCAGTGTTGCGCCTCTGGGGAGACCCGGCGCGCC
  GGGAGCTGGGGTACCGGGCAGGCCTAGGGAGTCAGGAGAAGGCCCTTACCGCTAGTCCACCTGCAGCTCG
  CCGCTCGCTACTGCACCGTCTTCCCCCGACGGCTCCCGGGGTCGGGCCGCTCCTGCTTCAACTGGGGCCG
  GAGCCCCCAACTCCCCATCCTGGGGTGAGCAAGGCCTGGCGCACAGCAGCCCCCGAGGAGCCAGAGCGGC
  TGCCTCTGCATGTGCGATTCCTTGAAAATTGCCAGGCCCGGCCTCCTCCAGCTGGCACGAGAGGGTCCTC
  CACTGAAGATGGGCCTGGGGTTCCGCCTCCCAGCCCTCGCAGAGTCTTGCCAACCTCTCCCACTTCCCCG
  CGAGGCAACGAGGAGAACGGCCTTCCGCTACTGGTCCTGCCACCGCCAGCCCCTTCGGTGGATGTGGACG
  ACGGCGAGTTCTTGTTTGCGGAGCCGCTGCCTCCACCCCTGGAGTTTTCCAATAGCTTCGAAAAGCCAGA
  GTCGCCTCTCACACCCGGGCCTCCCCACCCGCTGCCTGACCCTCCCTCCCCAGCTACCCCTCTACCCGCA
  GCCCCACCTCCGGCTGTGGCCGCCGCCCCTCCCACCTTGGACTCCACAGCATCCAGCCTGACCTCTTATG
  ACAGCGAAGTGGCCACGTTGACCCAGGGGGCTCCCGCGGCTCCTGGGGACCCTCCTGCTCCAGGCCCTCC
  GGCCCCGGCAGCTCCAGCTCCTCCAGCACCGCAGCCAGGCCCCGACCCTCCACCTGGCACAGATTCTGGA
  ATTGAGGAGGTGGACAGTCGGAGCAGCAGCGATCACCCGCTGGAGACCATCAGCAGTGCATCCACACTCA
  GCAGCTTGTCCGCCGAAGGAGGAGGCAACACAGGGGGCGTGGCTGGGGGCGGGGCCGGGGTGGCCAGCGG
  GACGGAGCTCCTGGACACCTACGTTGCCTACCTGGATGGCCAGGCCTTCGGGGGCAGTGGGACTCCTGGC
  CCACCATATCCCCCTCAGCTCATGACTCCTTCTAAGCTCCGGGGCAGGGCGCTTGGGACTAGTGGAAATT
  TGAGACCTGGTCCCAGTGGGGGACTTCGAGATCCTGTCACCCCCACCAGCCCCACCGTCTCTGTGACAGG
  AGCTGGAACAGATGGGCTACTGGCCTTGAGTGCTTGTTCTGGACCCTCAACGGCAGGTGTGGCAGGGGGT
  CCCGTGGCGGTTGAGCCAGAAGTCCCGCCTGTACCTTTGCCCACTGCCTCATCCCTGCCTCGGAAGCTAC
  TACCATGGGAGGAGGGTCCGGGACCACCACCACCACCCCTGCCAGGGCCCCTGTCCCAGCCTCAGGCCTC
  TGCCTTGGCCACGGTCAAAGCCAGCATCATCAGCGAACTCAGCTCCAAGCTCCAGCAGTTTGGTGGGGCC
  TCTACCGCGGGAGGAGCTCTGCCTTGGGCTCGGGGAGGCAGCGGGGGCAGCACAGACAGCCACCACGGAG
  GAGCCAGTTACATCCCAGAGAGGACCTCCTCCCTGCAGCGGCAGAGGCTCTCCGAAGACTCCCAGACCTC
  TCTCCTCTCCAAACCCAGCAGCAGCATCTTTCAGAACTGGCCTAAACCCCCTCTGCCACCACTCCCCACC
  GGATCTGGGGTCTCCTCTTCAACAGCTGCAGCCCCAGGAGCTACATCCCCTTCAGCCTCATCTGCCTCAG
  CTTCCACCAGACACCTGCAGGGTGTGGAATTTGAGATGCGGCCTCCGCTGCTCCGCCGGGCACCCAGCCC
  CTCGCTGCTGCCTGCCTCGGATCACAAGGTCAGCCCAGCGCCCAGGCCCTCTTCTTTGCCCATCCTGCCT
  TCAGGACCCCTCTACCCGGGCCTCTTCGACATCCGTAGCTCTCCGACCGGAGGGGCAGGAGGCTCGGCTG
  ACCCCTTCGCTCCCGTCTTTGTGCCACCACACCCCGGGATATCTGGGGGTCTTGGAGGAGCCTTGTCTGG
  GGCCTCTCGCTCCCTATCACCCACCCGCCTGCTCTCGCTGCCCCCGGACAAGCCGTTCGGCGCCAAGCCT
  CTAGGGTTCTGGACCAAGTTTGACGTCGCTGATTGGCTGGAGTGGCTGGGCTTATCAGAGCATCGAGCCC
  AGTTCCTGGACCACGAGATTGATGGCTCCCATCTGCCCGCCTTGACCAAGGAGGACTATGTGGACCTGGG
  CGTGACCAGGGTGGGCCACCGTATGAACATTGACCGGGCTCTCAAATTTTTCCTGGAGAGG
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
  Protein Sequence

  >MR223290 representing NM_001034115
  Red=Cloning site Green=Tags(s)
  
  MTHSPATSEDEERHSASECPEGGSESDSSPDGPGRGPQGTRGRGSGAPGNLASTRGLQGRSMSVPDDAHF
  SMMVFRIGIPDLHQTKCLRFNPDATIWTAKQQVLCALSESLQDVLNYGLFQPATSGRDANFLEEERLLRE
  YPQSFEKGVPYLEFRYKTRVYKQTNLDEKQLAKLHTKTGLKKFLEYVQLGTSDKVARLLDKGLDPNYHDS
  DSGETPLTLAAQTEGSVEVIRTLCLGGAHIDFRARDGMTALHKAACARHCLALTALLDLGGSPNYKDRRG
  LTPLFHTAMVGGDPRCCELLLYNRAQLGIADENGWQEIHQACQRGHSQHLEHLLFYGAEPGAQNASGNTA
  LHICALYNKETCARILLYRGANKDVKNNNGQTPFQVAVIAGNFELGELIRNHREQDVVPFQESPKYAARR
  RGPPGAGLTVPPALLRANSDTSMALPDWMVFSAPGASSSGTPGPTSGSQGQSQPSAPSTKLSSGTLRSAS
  SPRGARARSPSRGRHPEDAKRQPRGRPSSSGTPRDGPAGGTGGSGGPGGSLGSRGRRRKLYSAVPGRSFM
  AVKSYQAQGEGEISLSKGEKIKVLSIGEGGFWEGQVKGRVGWFPSDCLEEVANRSQEGRQESRSDKAKRL
  FRHYTVGSYDSFDAPSLIDGIDSGSDYIIKEKTVLLQKKDSEGFGFVLRGAKAQTPIEEFTPTPAFPALQ
  YLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTRHPDMDEAVHKKA
  SQQAKRLPPPAISLRSKSMTSELEEMVSPWKKKIEYEQQPAAVPSMEKKRTVYQMALNKLDEILAAAQQT
  ISASESPGPGGLASLGKHRPKGFFATESSFDPHHRSQPSYDRPSFLPPGPGLMLRQKSIGAAEDDRPYLA
  PPAMKFSRSLSVPGSEDIPPPPTTSPPEPPYSTPPAPSSSGRLTPSPRGGPFNPGSGGPLPASSPSSFDG
  PSPPDPRSGGREKSLYHSGALPPAHHHPPHHHHHHAPPPQPHHHHAHPPHPPEMETGGSPDDPPPRLALG
  PQPSLRGWRGGGPSPTSGAPSPSHHSSSGGSSGPAQAPALRYFQLPPRAASAAMYVPARSGRGRKGPLVK
  QTKVEGEPQKGSLPPASSPTSPALPRSEPPPAGPSEKNSIPIPTIIIKAPSTSSSGRSSQGSSTEAEPPT
  QPDGAGGGGSSPSPAPATSPVPPSPSPVPTPASPSGPATLDFTSQFGAALVGAARREGGWQNEARRRSTL
  FLSTDAGDEDGGDSGLGPGAPPGPRLRHSKSIDEGMFSAEPYLRLESGGSSGGYGAYAAGSRAYGGSGSS
  SAFTSFLPPRPLVHPLTGKALDPASPLGLALAARERALKESSEGGVTPQPPPRPPSPRYDAPPPTLHHHS
  PHSPHSPHARHEPVLRLWGDPARRELGYRAGLGSQEKALTASPPAARRSLLHRLPPTAPGVGPLLLQLGP
  EPPTPHPGVSKAWRTAAPEEPERLPLHVRFLENCQARPPPAGTRGSSTEDGPGVPPPSPRRVLPTSPTSP
  RGNEENGLPLLVLPPPAPSVDVDDGEFLFAEPLPPPLEFSNSFEKPESPLTPGPPHPLPDPPSPATPLPA
  APPPAVAAAPPTLDSTASSLTSYDSEVATLTQGAPAAPGDPPAPGPPAPAAPAPPAPQPGPDPPPGTDSG
  IEEVDSRSSSDHPLETISSASTLSSLSAEGGGNTGGVAGGGAGVASGTELLDTYVAYLDGQAFGGSGTPG
  PPYPPQLMTPSKLRGRALGTSGNLRPGPSGGLRDPVTPTSPTVSVTGAGTDGLLALSACSGPSTAGVAGG
  PVAVEPEVPPVPLPTASSLPRKLLPWEEGPGPPPPPLPGPLSQPQASALATVKASIISELSSKLQQFGGA
  STAGGALPWARGGSGGSTDSHHGGASYIPERTSSLQRQRLSEDSQTSLLSKPSSSIFQNWPKPPLPPLPT
  GSGVSSSTAAAPGATSPSASSASASTRHLQGVEFEMRPPLLRRAPSPSLLPASDHKVSPAPRPSSLPILP
  SGPLYPGLFDIRSSPTGGAGGSADPFAPVFVPPHPGISGGLGGALSGASRSLSPTRLLSLPPDKPFGAKP
  LGFWTKFDVADWLEWLGLSEHRAQFLDHEIDGSHLPALTKEDYVDLGVTRVGHRMNIDRALKFFLER
  
  TRTRPLEQKLISEEDLAANDILDYKDDDDKV
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001034115
• ORF Size: 6501 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).
• Reconstitution: 1. Centrifuge at 5,000xg for 5min.
  2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
  3. Close the tube and incubate for 10 minutes at room temperature.
  4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
  5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.

Reference Data

• RefSeq: NM_001034115.1, NP_001029287.1
• RefSeq Size: 7596 bp
• RefSeq ORF: 6504 bp
• Locus ID: 243961
• UniProt ID: D3YZU1
• Cytogenetics: 7 B3
• MW: 226.3 kDa
• Gene Summary: Seems to be an adapter protein in the postsynaptic density (PSD) of excitatory synapses that interconnects receptors of the postsynaptic membrane including NMDA-type and metabotropic glutamate receptors, and the actin-based cytoskeleton. Plays a role in the structural and functional organization of the dendritic spine and synaptic junction. Overexpression promotes maturation of dendritic spines and the enlargement of spine heads via its ability to recruit Homer to postsynaptic sites, and enhances presynaptic function (By similarity).[UniProtKB/Swiss-Prot Function]