Flnb (NM_001081427) Mouse Tagged ORF Clone

CAT#: MR231965

Flnb (myc-DDK-tagged) - Mouse filamin, beta (Flnb), transcript variant 1

Product Images

Circular map for MR231965

Specifications

Product Data

• Type: Mouse Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: Flnb
• Synonyms: AL024016; Fln-b
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >MR231965 representing NM_001081427
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGCCGGTGACGGAGAAAGACCTGGCGGAGGACGCGCCGTGGAAGAAGATTCAGCAGAACACGTTCACGC
  GCTGGTGCAACGAGCACCTCAAGTGTGTGAATAAACGCATCGGGAACCTGCAGACCGACCTGAGCGACGG
  GCTACGGCTCATCGCGCTGCTCGAGGTGCTCAGCCAGAAGCGCATGCACCACAAGTACCATCAGCGGCCC
  ACCTTCAGACAGATGAAGCTGGAGAATGTGTCTGTGGCTCTGGAGTTCCTAGACCACGAAAGCATTAAGC
  TCGTGTCCATTGACAGTAAAGCCATCGTGGATGGGAACCTGAAGCTCATCTTGGGCCTGGTATGGACTTT
  GATCCTTCACTACTCCATCTCCATGCCCGTATGGGAAGATGAAGGGGATGATGATGCCAAGAAGCAGACA
  CCAAAGCAGAGGCTACTGGGATGGATTCAGAACAAGATTCCATACTTGCCCATCACTAACTTTAACCAGA
  ACTGGCAAGATGGCAAAGCCTTAGGAGCCCTGGTAGACAGCTGTGCTCCAGGTCTGTGCCCAGACTGGGA
  ATCCTGGGACCCACGGAAGCCGGTGGATAATGCCCGAGAAGCCATGCAGCAGGCCGATGACTGGCTGGGC
  GTCCCACAGGTCATCACTCCTGAGGAGATTATTCACCCGGACGTGGACGAGCACTCTGTGATGACCTACC
  TGTCTCAGTTCCCCAAAGCCAAGCTCAAGCCAGGTGCTCCTCTTAAACCCAAACTCAACCCAAAGAAAGC
  CCGAGCCTATGGCAGAGGAATCGAACCTACTGGAAACATGGTGAAGCAGCCAGCCAAATTCACGGTAGAT
  ACCATCAGCGCTGGACAAGGAGATGTGATGGTGTTTGTTGAGGACCCAGAAGGAAACAAGGAAGAGGCAC
  GTGTGACCCCAGACAGTGACAAGAACAAGACATACTCTGTGGAGTATCTGCCCAAAGTCACCGGCCTGCA
  TAAAGTCATCGTCCTCTTTGCAGGACAGCACATTTCTAAGAGCCCATTTGAAGTGAATGTTGACAAAGCC
  CAAGGAGATGCCAGCAAAGTCACTGCAAAAGGCCCAGGGCTGGAAACTACAGGGAACATTGCCAACAAGC
  CTACCTATTTTGACATCTACACAGCTGGAGCTGGCGTGGGGGACATCGGCATTGAGGTGGAGGATCCCCA
  GGGCAAGAACAGCGTGGAGCTGCTGGTGGAAGACAGAGGAAACCAGGTGTATAGATGTGTCTACAAACCA
  GTGCAGCCTGGCCCCCATGTGGTCAAGGTCTCCTTTGCTGGGGATGCCATTCCCAAGAGTCCCTTTGGTG
  TACAAATTGGGGAAGCCTGCAACCCAAATGCCTGCAGAGCCAGCGGCCGAGGTCTGCAGCCCAAAGGTGT
  CCGGATCCGGGAGACTGCAGACTTTAAGGTGGACACCAAGGCTGCTGGAAGCGGAGAGCTTGGTGTAACT
  GTGAAGGGCCCTAAGGGCCTGGAGGAGCTGGTCAAACAAAAGGGCTTTCTGGATGGGGTCTACTCATTTG
  AGTACTACCCCAGCACACCAGGGAAATACAGCGTTGCAGTTACCTGGGGGGGGCACCACATTCCCAAGAG
  CCCCTTTGAAGTTCAAGTTGGCCCTGAAGCAGGCATGCAGAAAGTCCGTGCATGGGGCCCTGGACTCCAC
  GGCGGCATTGTTGGTCGGTCAGCAGATTTTGTGGTGGAATCCATTGGTTCTGAGGTTGGAACTCTGGGAT
  TTGCCATTGAAGGCCCTTCCCAAGCAAAGATCGAGTATGATGATCAGAACGATGGCTCGTGTGATGTCAA
  ATACTGGCCCAAGGAGCCTGGAGAATACGCCGTTCACATCATGTGCGACGACGAAGACATCAAGGACAGC
  CCATACATGGCTTTCATCCACCCTGCCACAGGAGACTACAACCCAGATCTAGTCCAAGCCTATGGGCCGG
  GTTTGGAGAAATCTGGTTGTACTATCAACAACCCAGCAGAGTTCATTGTGGATCCTAAGGATGCCGGGAG
  TGCTCCCTTAAAGATACTGGCGCAGGATGGGGAAGGCCAGCCCATTGACATCCAGATGAAGAGTCGGATG
  GACGGCACTTATGCTTGCTCATATACCCCACTTAAAGCCATCAAGCACACCATCGCTGTGGTCTGGGGAG
  GTGTGAACATACCACACAGCCCCTACAGGGTCAACATTGGGCAAGGTAGCCATCCCCAAAAGGTCAAAGT
  GTTTGGCCCAGGCGTGGAGAGGAGTGGTCTGAAGGCAAATGAGCCTACTCACTTTACAGTGGATTGCACG
  GAGGCCGGGGAAGGTGATGTCAGTGTTGGTATCAAGTGCGATGCCCGAGTTTTAAGTGACGATGAGGAAG
  ATGTCGATTTTGACATTATTCACAATGCCAATGACACATTCACTGTCAAATACGTACCTCCTGCCCCTGG
  GCGGTATACCATCAAAGTTCTCTTTGCATCTCAGGAAATCCCCGCCAGCCCTTTCAGAGTCAAAGTTGAC
  CCTTCCCATGACGCCAGCAAGGTGAAGGCAGAAGGCCCCGGGTTGAGTAAAGCAGGCGTGGAAAATGGGA
  AGCCAACCCACTTCACTGTTCACACCAAGGGAGCCGGAAAAGCTCCGCTCAACGTGCAGTTCAGCAGCCC
  CCTTCCTGGGGAGGCAGTGAAGGACTTGGATATCATTGATAATTATGACTACTCACATACTGTTAAATAC
  ACCCCAACCCAGCAGGGCAACATGCAGGTTCTAGTGACTTATGGTGGCGATCCCATTCCTAAAAGTCCTT
  TCACTGTGGGCGTTGCTGCGCCACTGGATCTGAGCAAGATAAAAATTAATGGACTGGAAAACAGAGTTGA
  GGTTGGAAAGGACCAGGAATTTGCCATTGACACCAACGGGGCAGGAGGCCAGGGGAAGCTGGATGTGACC
  ATCCTGAGCCCTTCTCGGAAGGTGGTGCCATGCTTGGTAGCACCAGTGGCTGGCAGGGAATGCAGCACAG
  CCAAATTCATCCCTCGGGAGGAGGGGCTGTTTGCTGTAGATGTGACCTATGATGGACACCCAGTGCCCGG
  GAGCCCCTATACTGTGGAGGCCTCACTACCACCAGATCCCACCAAGGTGAAGGCCCACGGTCCTGGCCTT
  GAAGGAGGTCTTGTAGGCAAGCCCGCTGAGTTCACCATTGACACTAAAGGAGCTGGAACTGGAGGTTTGG
  GCCTAACTGTGGAAGGTCCATGTGAGGCCAAAATCGAATGCTCGGATAACGGTGACGGGACCTGCTCCGT
  CTCCTACCTTCCCACAAAACCCGGAGAATACTTTGTCAACATTCTCTTTGAAGAAGTCCACATTCCTGGA
  TCTCCCTTCAAAGCCGACATTGAAATGCCGTTTGACCCCTCTAAGGTTGTAGCGTCAGGACCAGGACTTG
  AACACGGAAAAGTGGGTGAACCCGGAATCCTTTGCGTTGATTGTTCAGAAGCAGGGCCTGGGACTCTGGG
  CCTTGAAGCCGTCTCAGACTCAGGGGCGAAAGCTGAAGTGTCCATCCAGAACAATAAAGATGGCACCTAC
  GCTGTGACCTATGTGCCTCTGACAGCTGGCATGTACACACTGACCATGAAGTATGGTGGTGAGCTTGTAC
  CACACTTTCCTGCCTGGGTCAAGGTGGAGCCAGCCATAGACACTAGTGGGATCAAAGCCTTTGGGCCAGG
  AATCGAAGGCAAGGACGTGTTTCGGGAGGCCACAACGGACTTCACGGTTGACTCGAGGCCCCTTACCCAG
  GTTGGAGGTGACCATATCAAAGCTCAAATTACCAACCCCTCGGGGGCCTCCACCGAGTGCTTTGTCAAGG
  ACAATGCTGATGGGACCTATCAGGTCGAATACACGCCCTTTGAGAAAGGTTTCCATGTAGTGGAGGTGAC
  ATACGATGATGTGCCCATCCCAAATAGCCCATTCAAAGTGGCTGTCACTGAAGGCTGCCAGCCATCTCGG
  GTCCATGCGCAAGGCCCTGGACTGAAAGAGGCGTTTACCAACAAATCTAATGTCTTCACAGTGGTAACCA
  GGGGAGCAGGGATCGGTGGGCTTGGCATAACTGTGGAGGGGCCGTCGGAGTCAAAGATAAACTGCAGAGA
  CAACAAGGATGGCAGCTGCAGTGCTGAGTACATTCCTTTCGCTCCAGGGGATTATGACGTCAATATCACG
  TACGGAGGCGTCCACATCCCTGGCAGCCCCTTCAGAGTTCCTTCAAAAGATGTTGTGGATCCCAGCAAGG
  TCAAGATTGCTGGCCCCGGTCTGAGCTCCTGTGTCCGAGCATGCATCCCGCAGTCCTTCACAGTGGACAG
  CAGCAAGGCTGGCCTAGCTCCCCTGGAAGTGAGGGTCCTGGGCCCAAGAGGCCTCGTGGAGCCGGTGAAT
  GTGGTAGATAATGGGGACGGCACCCACACAGTGACCTACACGCCATCTCAGGAGGGGCCCTACATTGTTT
  CCGTCAAATATGCTGATGAAGAGATCCCCCGAAGTCCCTTTAAGGTCAAGGTTCTTCCCACATACGATGC
  AAGCAAAGTGACAGCCTCTGGGCCTGGCCTCAGCGCCTATGGGGTACCCGCCAGCCTACCTGTGGAGTTC
  GCCATTGATGCCAGAGATGCTGGCGAAGGCCTGCTTGCTGTCCAGATCACGGACCAGGAGGGAAAGCCTC
  AAAGAGCTACTGTCCACGACAACAAAGATGGCACATATGCCGTTACCTATATCCCTGATAAGACCGGACG
  CTATATGATTGGAGTCACCTATGGTGGAGACAACATTCCACTTTCTCCTTACCGTATCCGGGCCACACAG
  ACAGGCGATGCCAGCAAGTGCTTGGCCACAGGTCCTGGTATTGCCCCCACTGTGAAAACTGGCGAGGAGG
  TGGGCTTTGTAGTGGACGCTAAGACTGCAGGGAAGGGGAAAGTAACCTGCGTGATTCTGACCCCAGATGG
  CACCGAGGCTGAGGCTGACGTCATTGAAAATGAAGATGGCACCTATGACATTTTCTACACTGCTGCCAAG
  CCAGGCACCTATGTTATCTATGTGCGCTTTGGTGGCGTTGATATTCCCAATAGCCCCTTCACAGTCATGG
  CCACCGATGGGGAAGTCACAGCCATGGAGGAGGCACCGGTAAATGCATGTCCCCCTGGATTCAGGCCCTG
  GGTTACAGAAGAGGCCTATGTCCCTGTGAGTGACATGAACGGGCTAGGCTTCAAGCCCTTTGACTTGGTG
  ATTCCATTTGCCGTCAGGAAAGGAGAAATTACAGGCACGGTGCATATGCCTTCTGGGAAGAAGGCTACAC
  CTGAGATTGTGGACAACAAGGACGGCACGGTCACTGTGAGATACGCGCCCACTGAAGTCGGCCTCCACGA
  GATGCACATCAAGTACAGGGGCAGCCACATCCCGGAGAGCCCCCTGCAGTTCTACGTGAACTACCCCAAC
  AGTGGGAGTGTGTCTGCTTATGGTCCAGGCCTTGTGTATGGAGTAGCCAACAAAACTGCCACCTTCACCA
  TTGTCACAGAGGATGCGGGAGAAGGTGGTCTGGACTTGGCTATTGAAGGACCCTCGAAAGCAGAGATCAG
  CTGCATTGACAACAAAGACGGGACATGTACAGTGACCTACCTACCCACCTTGCCAGGGGACTACAGCATT
  CTGGTCAAGTACAATGACAAACATATTCCTGGCAGCCCCTTCACTGCCAAGATCACAGATGATAACAGAC
  GCTGCTCCCAAGTGAAGCTGGGCTCAGCTGCTGACTTCCTTCTGGACATCAGTGAGACAGACCTTAGCAC
  ACTGACAGCCAGTATCAAGGCCCCATCTGGACGTGACGAGCCCTGTCTGCTAAAGAGGCTACCCAACAAC
  CACATTGGCATTTCCTTCATCCCCCGAGAAGTGGGTGAGCATCTAGTCAGCATCAAGAAAAACGGTAACC
  ACGTGGCCAACAGCCCTGTGTCCATTATGGTGGTCCAGTCTGAAATTGGTGATGCACGCCGAGCCAAAGT
  CTATGGCCAAGGCCTGTCAGAAGGCCGGACTTTTGAGATGTCAGACTTCATCGTGGACACAAGAGATGCA
  GGCTATGGTGGCATATCCTTGGCAGTAGAAGGACCCAGCAAGGTGGACATCCAAACAGAGGACCTGGAGG
  ACGGCACCTGCAAGGTGTCCTACTTCCCCACTGTGCCCGGGGTCTATATCGTCTCCACCAAATTTGCTGA
  CGAGCATGTGCCTGGAAGCCCATTCACTGTGAAGATCAGTGGCGAGGGAAGAGTCAGAGAGAGCATCACC
  CGGACCAGCCGGGCTCCGGCTGTGGCCACGGTTGGCAGTATCTGTGACCTGAACCTGAAGATCCCGGAGA
  TCAACAGCAGTGACATGTCTGCCCATGTCACCAGCCCCTCTGGCCATGTCACTGAGGCAGAGATTGTGCC
  CATGGGAAAGAACTCTCACTGTGTCAGATTTGTGCCCCAGGAGATGGGCGTTCACACTGTCAGCGTAAAG
  TACCGCGGACAGCACGTAACAGGAAGCCCGTTCCAGTTCACCGTGGGGCCCCTTGGCGAAGGGGGTGCCC
  ACAAGGTCCGGGCAGGAGGCCCTGGCCTGGAGAGGGGAGAAGCAGGCATCCCAGCTGAGTTCAGCATCTG
  GACCCGGGAAGCAGGTGCTGGCGGCCTCTCCATTGCTGTTGAGGGCCCTAGTAAGGCCGAGATCACATTC
  GATGACCATAAAAATGGGTCATGCGGTGTGTCTTATATTGCCCAAGAGCCTGGTAACTACGAGGTGTCTA
  TCAAGTTCAACGACGAGCACATCCCGGACAGCCCTTACCTGGTGCCCGTCATCGCGCCCTCAGACGACGC
  TCGCTGCCTCACTGTTCTGAGCCTTCAGGAATCAGGATTAAAAGTTAACCAGCCAGCGTCCTTTGCTATA
  AGGTTGAATGGTGCGAAAGGGAAGATTGATGCAAAGGTGCACAGCCCCTCAGGAGCCGTGGAGGAATGCC
  ACGTGTCTGAACTGGAGCCAGATAAGTATGCCGTTCGCTTCATCCCGCATGAGAATGGCATCCACACGAT
  CGATGTCAAGTTTAACGGGAGCCACGTGGTCGGGAGCCCTTTCAAAGTACGTGTAGGAGAGCCTGGCCAG
  GCAGGCAATCCTGCTCTAGTGTCAGCCTACGGTGCTGGGCTTGAGACGGGCACCACAGGTATCCAATCAG
  AATTCTTCATCAATACCACTCAGGCAGGCCCAGGGACATTATCTGTCACCATTGAAGGACCATCCAAGGT
  CAAAATGGATTGCCAGGAAATCCCAGAGGGGTACAAAGTCATGTACACTCCCATGGCTCCTGGAAATTAC
  CTGATTGGTGTCAAATATGGCGGGCCCAACCACATCTCGAGGAGTCCATTCAAGGCCAAGGTGACAGGCC
  AACGTCTGGTCAGCCCAGGCTCAGCCAACGAGACCTCCTCCATCTTGGTGGAGTCCGTAACCAGATCCTC
  AACGGAAACGTGCTATAGCGCCATTCCCAAGTCGTCCTCCGATGCCAGCAAAGTGACCTCCAAGGGCGCA
  GGCCTGTCAAAGGCTTTTGTGGGCCAGAAGAGTTCTTTCCTGGTGGACTGCAGCAAAGCTGGGTCCAACA
  TGCTGTTGATTGGGGTCCATGGGCCCACCACCCCCTGTGAAGAGGTCTCCATGAAGCATGTGGGCAAGCA
  ACAGTACAACGTCACCTACGTCGTCAAGGAGAGGGGCGATTACGTTCTGGCTGTGAAGTGGGGGGAAGAG
  CACATCCCCGGTAGCCCCTTTCATGTCACCGTGCCT
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
  Protein Sequence

  >MR231965 representing NM_001081427
  Red=Cloning site Green=Tags(s)
  
  MPVTEKDLAEDAPWKKIQQNTFTRWCNEHLKCVNKRIGNLQTDLSDGLRLIALLEVLSQKRMHHKYHQRP
  TFRQMKLENVSVALEFLDHESIKLVSIDSKAIVDGNLKLILGLVWTLILHYSISMPVWEDEGDDDAKKQT
  PKQRLLGWIQNKIPYLPITNFNQNWQDGKALGALVDSCAPGLCPDWESWDPRKPVDNAREAMQQADDWLG
  VPQVITPEEIIHPDVDEHSVMTYLSQFPKAKLKPGAPLKPKLNPKKARAYGRGIEPTGNMVKQPAKFTVD
  TISAGQGDVMVFVEDPEGNKEEARVTPDSDKNKTYSVEYLPKVTGLHKVIVLFAGQHISKSPFEVNVDKA
  QGDASKVTAKGPGLETTGNIANKPTYFDIYTAGAGVGDIGIEVEDPQGKNSVELLVEDRGNQVYRCVYKP
  VQPGPHVVKVSFAGDAIPKSPFGVQIGEACNPNACRASGRGLQPKGVRIRETADFKVDTKAAGSGELGVT
  VKGPKGLEELVKQKGFLDGVYSFEYYPSTPGKYSVAVTWGGHHIPKSPFEVQVGPEAGMQKVRAWGPGLH
  GGIVGRSADFVVESIGSEVGTLGFAIEGPSQAKIEYDDQNDGSCDVKYWPKEPGEYAVHIMCDDEDIKDS
  PYMAFIHPATGDYNPDLVQAYGPGLEKSGCTINNPAEFIVDPKDAGSAPLKILAQDGEGQPIDIQMKSRM
  DGTYACSYTPLKAIKHTIAVVWGGVNIPHSPYRVNIGQGSHPQKVKVFGPGVERSGLKANEPTHFTVDCT
  EAGEGDVSVGIKCDARVLSDDEEDVDFDIIHNANDTFTVKYVPPAPGRYTIKVLFASQEIPASPFRVKVD
  PSHDASKVKAEGPGLSKAGVENGKPTHFTVHTKGAGKAPLNVQFSSPLPGEAVKDLDIIDNYDYSHTVKY
  TPTQQGNMQVLVTYGGDPIPKSPFTVGVAAPLDLSKIKINGLENRVEVGKDQEFAIDTNGAGGQGKLDVT
  ILSPSRKVVPCLVAPVAGRECSTAKFIPREEGLFAVDVTYDGHPVPGSPYTVEASLPPDPTKVKAHGPGL
  EGGLVGKPAEFTIDTKGAGTGGLGLTVEGPCEAKIECSDNGDGTCSVSYLPTKPGEYFVNILFEEVHIPG
  SPFKADIEMPFDPSKVVASGPGLEHGKVGEPGILCVDCSEAGPGTLGLEAVSDSGAKAEVSIQNNKDGTY
  AVTYVPLTAGMYTLTMKYGGELVPHFPAWVKVEPAIDTSGIKAFGPGIEGKDVFREATTDFTVDSRPLTQ
  VGGDHIKAQITNPSGASTECFVKDNADGTYQVEYTPFEKGFHVVEVTYDDVPIPNSPFKVAVTEGCQPSR
  VHAQGPGLKEAFTNKSNVFTVVTRGAGIGGLGITVEGPSESKINCRDNKDGSCSAEYIPFAPGDYDVNIT
  YGGVHIPGSPFRVPSKDVVDPSKVKIAGPGLSSCVRACIPQSFTVDSSKAGLAPLEVRVLGPRGLVEPVN
  VVDNGDGTHTVTYTPSQEGPYIVSVKYADEEIPRSPFKVKVLPTYDASKVTASGPGLSAYGVPASLPVEF
  AIDARDAGEGLLAVQITDQEGKPQRATVHDNKDGTYAVTYIPDKTGRYMIGVTYGGDNIPLSPYRIRATQ
  TGDASKCLATGPGIAPTVKTGEEVGFVVDAKTAGKGKVTCVILTPDGTEAEADVIENEDGTYDIFYTAAK
  PGTYVIYVRFGGVDIPNSPFTVMATDGEVTAMEEAPVNACPPGFRPWVTEEAYVPVSDMNGLGFKPFDLV
  IPFAVRKGEITGTVHMPSGKKATPEIVDNKDGTVTVRYAPTEVGLHEMHIKYRGSHIPESPLQFYVNYPN
  SGSVSAYGPGLVYGVANKTATFTIVTEDAGEGGLDLAIEGPSKAEISCIDNKDGTCTVTYLPTLPGDYSI
  LVKYNDKHIPGSPFTAKITDDNRRCSQVKLGSAADFLLDISETDLSTLTASIKAPSGRDEPCLLKRLPNN
  HIGISFIPREVGEHLVSIKKNGNHVANSPVSIMVVQSEIGDARRAKVYGQGLSEGRTFEMSDFIVDTRDA
  GYGGISLAVEGPSKVDIQTEDLEDGTCKVSYFPTVPGVYIVSTKFADEHVPGSPFTVKISGEGRVRESIT
  RTSRAPAVATVGSICDLNLKIPEINSSDMSAHVTSPSGHVTEAEIVPMGKNSHCVRFVPQEMGVHTVSVK
  YRGQHVTGSPFQFTVGPLGEGGAHKVRAGGPGLERGEAGIPAEFSIWTREAGAGGLSIAVEGPSKAEITF
  DDHKNGSCGVSYIAQEPGNYEVSIKFNDEHIPDSPYLVPVIAPSDDARCLTVLSLQESGLKVNQPASFAI
  RLNGAKGKIDAKVHSPSGAVEECHVSELEPDKYAVRFIPHENGIHTIDVKFNGSHVVGSPFKVRVGEPGQ
  AGNPALVSAYGAGLETGTTGIQSEFFINTTQAGPGTLSVTIEGPSKVKMDCQEIPEGYKVMYTPMAPGNY
  LIGVKYGGPNHISRSPFKAKVTGQRLVSPGSANETSSILVESVTRSSTETCYSAIPKSSSDASKVTSKGA
  GLSKAFVGQKSSFLVDCSKAGSNMLLIGVHGPTTPCEEVSMKHVGKQQYNVTYVVKERGDYVLAVKWGEE
  HIPGSPFHVTVP
  
  TRTRPLEQKLISEEDLAANDILDYKDDDDKV
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001081427
• ORF Size: 7806 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_001081427.1, NP_001074896.1
• RefSeq Size: 9118 bp
• RefSeq ORF: 7809 bp
• Locus ID: 286940
• UniProt ID: Q80X90
• Cytogenetics: 14 A1
• MW: 278.3 kDa
• Gene Summary: Connects cell membrane constituents to the actin cytoskeleton. May promote orthogonal branching of actin filaments and links actin filaments to membrane glycoproteins. Anchors various transmembrane proteins to the actin cytoskeleton (By similarity).[UniProtKB/Swiss-Prot Function]