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Flna (NM_010227) Mouse Tagged ORF Clone

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SKU
MR227403
Flna (Myc-DDK-tagged) - Mouse filamin, alpha (Flna)
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_010227 in other vectors (2)
Reconstitution Protocol
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$3,484.00
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PS100001 pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug 10 ug
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AR100028M DDKTrap Anti-DDK 8G6 affinity resin used for the purification of DDK, DYKDDDDK, or FLAG® tagged proteins , 5 mL 5 ml
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Flna
Synonyms ABP-280; Dilp2; F730004A14Rik; filamin-1; Fln1; GENA 379
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR227403 representing NM_010227
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAGTAGCTCTCACTCCCGCTGTGGCCAGAGTGCGGCGGTTGCGTCTCCGGGAGGCAGTATCGATTCAC
GGGACGCGGAGATGCCGGCTACCGAAAAAGACCTAGCAGAAGATGCACCGTGGAAGAAAATTCAGCAGAA
CACATTCACCCGCTGGTGCAATGAGCACCTTAAGTGCGTAAGCAAGCGCATCGCCAATCTGCAGACGGAC
CTGAGCGATGGGTTGCGGCTCATCGCGCTGCTCGAGGTACTCAGCCAGAAGAAAATGCACCGCAAGCACA
ACCAAAGACCCACTTTCCGCCAGATGCAGCTCGAAAATGTGTCGGTGGCGCTTGAATTCCTGGACCGTGA
GAGCATCAAGCTCGTGTCCATAGACAGCAAGGCTATTGTGGATGGAAATCTGAAGCTGATCTTAGGCCTC
ATCTGGACCCTGATCCTGCACTATTCCATCTCAATGCCCATGTGGGATGAGGAAGAGGATGAGGAGGCCA
AGAAGCAAACACCCAAGCAGAGGCTTCTAGGCTGGATTCAGAACAAGCTACCACAGCTTCCCATTACCAA
CTTCAGTCGAGACTGGCAGAGTGGCCGGGCCCTGGGTGCTCTTGTTGATAGCTGTGCCCCAGGCCTATGT
CCTGACTGGGACTCCTGGGATGCTAGTAAGCCTGTGAACAATGCACGGGAAGCCATGCAGCAGGCTGATG
ACTGGCTAGGCATTCCTCAGGTGATTACCCCAGAAGAAATTGTGGACCCCAATGTAGATGAGCATTCTGT
TATGACCTACCTGTCTCAGTTTCCCAAGGCCAAGCTGAAGCCAGGGGCTCCTCTTCGGCCCAAACTGAAC
CCGAAGAAAGCCCGAGCCTATGGGCCAGGCATCGAGCCTACAGGCAATATGGTGAAGAAGAGAGCAGAAT
TCACTGTGGAGACCCGAAGTGCTGGACAGGGAGAAGTGCTTGTATATGTGGAGGACCCAGCTGGACACCA
GGAAGAGGCAAAAGTGACTGCCAATAATGACAAGAACCGTACTTTCTCTGTCTGGTATGTCCCTGAAGTG
ACAGGGACTCATAAGGTGACTGTGCTCTTTGCTGGCCAACATATTGCCAAGAGCCCCTTTGAGGTGTATG
TGGACAAGTCACAGGGTGATGCCAGCAAAGTGACTGCCCAGGGCCCTGGTCTGGAGCCCAGTGGCAATAT
TGCCAACAAGACTACCTACTTTGAGATCTTCACTGCAGGAGCTGGCATGGGTGAGGTGGAAGTTGTCATC
CAGGACCCTACAGGACAGAAAGGCACAGTGGAACCTCAGCTGGAGGCCAGGGGTGACAGCACCTATCGCT
GTAGCTATCAGCCCACCATGGAGGGTGTCCATACAGTACATGTCACCTTCGCCGGTGTTCCCATCCCTCG
TAGCCCCTACACTGTCACTGTTGGCCAAGCCTGTAACCCAGCTGCCTGCCGGGCTATTGGTAGAGGCCTT
CAGCCCAAGGGTGTTCGAGTGAAGGAAACAGCCGACTTCAAGGTGTACACAAAGGGCGCTGGCAGTGGGG
AGCTAAAGGTCACTGTAAAGGGTCCCAAGGGTGAGGAGCGTGTAAAGCAGAAGGACTTAGGGGATGGTGT
GTATGGCTTTGAATATTACCCTACAATCCCTGGCACATACACTGTCACCATCACATGGGGTGGCCAGAAC
ATTGGTCGAAGTCCGTTTGAGGTGAAGGTAGGCACTGAGTGTGGCAATCAGAAAGTTCGGGCATGGGGTC
CTGGCCTGGAAGGAGGCATTGTTGGCAAGTCAGCAGACTTCGTAGTAGAGGCCATTGGTGATGATGTGGG
CACCTTGGGTTTCTCTGTGGAAGGTCCATCACAGGCAAAGATTGAATGTGACGACAAGGGTGATGGCTCC
TGTGATGTGCGCTATTGGCCCCAGGAGGCTGGCGAGTATGCTGTTCATGTGCTGTGTAACAGTGAGGATA
TCCGTCTCAGTCCTTTCATGGCTGACATCCGTGAGGCACCCCAGGATTTTCACCCAGACAGGGTGAAGGC
ACGTGGGCCTGGATTGGAGAAGACTGGTGTGGCTGTCAACAAGCCAGCAGAGTTCACAGTTGATGCCAAG
CATGCTGGGAAGGCTCCTCTTCGAGTTCAAGTTCAGGACAATGAGGGCTGCTCTGTGGAAGCGACAGTCA
AGGACAATGGCAATGGTACTTACAGCTGTTCTTATGTGCCCAGAAAGCCAGTGAAGCACACAGCCATGGT
TTCTTGGGGAGGTGTCAGCATCCCCAACAGTCCTTTCCGGGTGAATGTGGGAGCTGGCAGCCATCCAAAC
AAAGTCAAGGTGTATGGTCCAGGAGTGGCCAAGACTGGGCTCAAGGCCCATGAACCTACCTACTTTACTG
TGGATTGTACTGAAGCTGGCCAGGGAGATGTCAGCATTGGTATCAAGTGTGCCCCTGGAGTAGTGGGCCC
CACTGAGGCTGATATTGACTTTGATATCATCCGCAATGACAATGACACCTTCACTGTAAAATACACACCC
TGTGGGGCTGGCAGCTATACCATCATGGTCCTTTTTGCTGACCAGGCCACACCCACCAGCCCCATCAGAG
TCAAAGTGGAGCCTTCTCATGATGCCAGCAAGGTGAAGGCTGAGGGTCCTGGCCTAAATCGCACTGGTGT
TGAACTTGGCAAACCCACCCATTTCACAGTCAATGCTAAAACTGCTGGGAAAGGCAAGCTGGATGTCCAA
TTCTCAGGACTGGCTAAGGGAGATGCAGTACGGGATGTGGACATCATTGACCACCATGATAATACCTACA
CAGTCAAGTACATTCCTGTGCAGCAGGGCCCAGTAGGTGTCAATGTCACTTATGGAGGAGATCACATCCC
CAAGAGTCCATTTTCAGTGGGAGTATCTCCAAGCCTGGATCTCAGCAAAATCAAGGTGTCTGGCCTTGGT
GACAAAGTGGACGTTGGCAAAGATCAAGAGTTCACAGTAAAGTCAAAGGGTGCAGGTGGTCAAGGCAAAG
TAGCATCCAAGATTGTGAGTCCCTCAGGTGCAGCGGTACCCTGCAAGGTAGAGCCAGGCCTGGGAGCTGA
CAACAGCGTGGTACGTTTTGTGCCCCGTGAAGAGGGGCCCTATGAGGTGGAAGTGACCTATGATGGTGTG
CCTGTACCTGGCAGTCCCTTTCCACTAGAAGCTGTGGCCCCCACCAAACCCAGCAAGGTGAAGGCGTTTG
GACCAGGGCTACAGGGGGGCAATGCAGGCTCCCCTGCCCGCTTCACCATTGATACAAAGGGTGCTGGCAC
TGGTGGCCTGGGCCTGACAGTGGAAGGCCCCTGTGAAGCACAGCTTGAGTGCCTAGACAACGGGGATGGT
ACATGCTCTGTGTCTTATGTACCCACTGAGCCTGGGGACTACAACATCAACATCCTTTTTGCTGACACCC
ACATTCCTGGATCCCCATTCAAGGCCCATGTGGCTCCTTGTTTTGATGCATCCAAGGTGAAGTGCTCAGG
CCCTGGGCTGGAGCGGGCTACTGCTGGTGAGGTAGGGCAGTTCCAAGTGGACTGTTCAAGTGCTGGCAGT
GCTGAGTTGACGATTGAGATCTGCTCTGAGGCAGGACTGCCAGCTGAAGTATACATTCAAGACCATGGTG
ATGGCACACACACCATTACCTATATTCCTCTCTGTCCTGGGGCTTACACTGTTACCATCAAGTATGGCGG
CCAGCCTGTGCCCAACTTCCCCAGCAAGCTACAGGTGGAACCTGCTGTAGATACCTCAGGTGTACAGTGC
TATGGGCCTGGGATTGAAGGTCAAGGTGTCTTCCGAGAGGCAACCACTGAGTTCAGTGTGGATGCCCGGG
CTCTTACACAGACTGGAGGGCCACATGTCAAGGCTCGAGTGGCCAACCCCTCAGGCAATCTGACAGATAC
CTATGTGCAAGACTGTGGGGATGGCACATACAAAGTGGAATACACTCCATATGAGGAAGGAGTACACTCT
GTGGATGTGACTTATGATGGCAGCCCTGTGCCCAGCAGCCCCTTCCAGGTGCCTGTAACAGAGGGCTGTG
ACCCCTCCCGGGTGCGTGTCCATGGACCAGGCATCCAAAGTGGTACCACCAACAAACCCAACAAGTTCAC
AGTAGAAACCAGGGGAGCTGGCACAGGTGGCCTGGGCTTGGCTGTTGAGGGTCCCTCAGAGGCCAAGATG
TCTTGTATGGATAATAAAGATGGCAGCTGCTCAGTAGAATACATCCCCTATGAAGCTGGAACCTATAGCC
TTAATGTCACTTATGGTGGTCACCAAGTGCCAGGTAGTCCCTTCAAGGTCCCTGTACATGATGTGACAGA
TGCATCTAAAGTCAAGTGTTCTGGACCTGGCCTAAGCCCAGGCATGGTCCGTGCCAACCTCCCTCAGTCC
TTTCAGGTGGACACAAGCAAAGCTGGAGTTGCCCCACTGCAGGTCAAAGTGCAGGGGCCCAAAGGCCTGG
TGGAGCCAGTGGATGTAGTGGACAATGCTGATGGTACTCAGACTGTCAACTATGTGCCCAGCCGAGAAGG
GTCCTATAGCATTTCTGTGCTGTATGGTGAAGAAGAAGTGCCACGGAGCCCCTTCAAGGTCAAGGTGCTG
CCTACACATGATGCCAGTAAGGTGAAGGCCAGTGGACCTGGACTCAACACCACTGGTGTACCTGCTAGCC
TGCCTGTGGAGTTCACCATTGATGCCAAGGATGCTGGGGAGGGTCTGTTGGCTGTCCAGATTACGGATCC
TGAAGGCAAGCCCAAGAAGACACACATTCAAGATAATCATGATGGCACATACACGGTGGCTTATGTGCCA
GATGTGCCAGGCCGGTACACAATCCTCATCAAGTATGGTGGTGATGAGATTCCCTTTTCCCCGTACCGTG
TCCGGGCTGTGCCCACTGGGGATGCCAGCAAGTGCACAGTCACAGGTGCTGGCATTGGCCCCACCATCCA
GATTGGGGAGGAGACGGTGATTACTGTGGACACAAAAGCAGCAGGCAAAGGCAAAGTGACTTGTACTGTG
TGCACACCTGATGGCTCAGAGGTAGACGTGGACGTGGTGGAGAATGAGGATGGCACCTTTGACATCTTCT
ACACAGCTCCCCAACCGGGCAAATATGTCATCTGTGTGCGCTTCGGTGGCGAGCATGTGCCCAACAGCCC
CTTCCAAGTTACAGCTTTGGCTGGGGACCAACCAACAGTGCAGACCCCATTAAGGTCTCAGCAGCTGGCT
CCACAGTATAACTATCCTCAGGGTAGCCAGCAAACCTGGATTCCAGAGAGGCCCATGGTGGGCGTTAATG
GGCTGGATGTGACCAGCCTGAGGCCCTTTGATCTTGTCATCCCCTTCACTATCAAGAAGGGGGAGATCAC
TGGGGAAGTTCGAATGCCCTCAGGCAAGGTGGCCCAGCCTTCCATTACTGATAACAAAGATGGCACTGTT
ACTGTACGTTACTCACCCAGTGAAGCTGGCCTGCATGAAATGGACATTCGCTATGACAATATGCATATCC
CAGGAAGCCCTCTGCAGTTCTATGTTGATTATGTCAACTGTGGCCACATCACTGCTTATGGTCCTGGCCT
TACCCATGGAGTGGTCAACAAACCTGCCACCTTCACTGTCAACACCAAGGATGCAGGAGAGGGGGGCTTG
TCTCTGGCCATTGAGGGTCCATCTAAAGCAGAAATCAGTTGCACTGACAACCAGGATGGAACATGCAGTG
TCTCTTACCTGCCTGTACTGCCTGGTGACTATAGCATCCTAGTTAAGTACAATGATCAACACATCCCAGG
CAGTCCCTTTACTGCCAGAGTAACAGGTGACGATTCCATGCGTATGTCCCACCTAAAGGTGGGTTCTGCT
GCTGATATCCCCATCAATATCTCAGAAACAGACCTTAGCCTACTCACAGCCACTGTGGTGCCACCTTCGG
GTCGAGAGGAACCCTGTCTGCTGAAACGTTTGCGAAATGGCCACGTGGGGATTTCCTTCGTGCCCAAGGA
GACAGGGGAGCACCTGGTACATGTGAAGAAGAATGGCCAGCATGTGGCAAGCAGTCCCATCCCAGTAGTG
ATCAGCCAGTCGGAGATAGGTGATGCCAGCCGTGTGAGGGTCTCTGGTCAAGGTCTTCATGAAGGTCATA
CCTTTGAGCCTGCAGAGTTTATTATTGACACCAGAGATGCAGGCTACGGTGGGCTTAGTCTGTCCATTGA
GGGCCCTAGCAAAGTAGACATCAACACAGAGGATCTGGAGGATGGCACATGCAGGGTCACCTACTGTCCC
ACAGAGCCTGGAAACTACATTATAAACATCAAATTTGCTGACCAGCATGTGCCTGGCAGTCCCTTTTCTG
TGAAGGTGACAGGTGAGGGCCGGGTGAAAGAGAGTATCACACGCAGGCGACGTGCCCCTTCTGTGGCCAA
TATTGGCAGTCATTGTGACCTCAGCCTGAAGATTCCTGAAATTAGCATCCAAGATATGACAGCCCAGGTG
ACCAGCCCATCAGGCAAGACCCATGAGGCAGAGATCGTAGAAGGAGAGAACCATACTTACTGTATCCGAT
TTGTGCCTGCTGAGATGGGAATGCATACAGTCAGTGTCAAGTACAAGGGCCAGCATGTACCTGGGAGCCC
CTTCCAGTTCACTGTGGGGCCTCTGGGGGAAGGGGGTGCTCACAAGGTCCGTGCTGGAGGCCCTGGCCTA
GAGAGGGCTGAAGTTGGAGTGCCAGCGGAGTTCGGCATTTGGACTAGGGAAGCTGGCGCTGGAGGCCTGG
CCATTGCTGTTGAAGGCCCCAGCAAGGCTGAGATCTCTTTCGAGGACCGAAAGGATGGCTCCTGTGGTGT
GGCCTACGTAGTTCAGGAGCCAGGTGACTATGAGGTCTCAGTCAAGTTCAACGAGGAGCACATACCTGAT
AGCCCCTTCGTGGTGCCTGTGGCTTCTCCGTCTGGTGACGCCCGCCGCCTTACTGTTTCTAGTCTTCAGG
AGTCAGGGTTAAAGGTCAACCAGCCAGCATCTTTTGCAGTCAGTCTGAATGGAGCCAAGGGGGCAATTGA
TGCCAAGGTGCACAGCCCCTCAGGAGCTCTGGAGGAGTGCTATGTCACAGAGATTGACCAAGATAAGTAT
GCTGTGCGTTTCATCCCACGAGAGAATGGCATCTACTTGATTGATGTCAAGTTCAATGGTACTCACATTC
CTGGAAGTCCCTTCAAGATCCGAGTTGGGGAGCCTGGGCATGGAGGGGACCCAGGCTTAGTGTCCGCCTA
TGGAGCAGGCCTGGAAGGTGGTGTCACAGGGAGCCCAGCAGAGTTTATTGTGAACACAAGCAATGCAGGA
GCTGGTGCCCTTTCGGTTACCATTGATGGCCCCTCCAAGGTGAAGATGGATTGCCAGGAGTGCCCCGAGG
GCTATCGTGTCACCTATACCCCCATGGCACCTGGCAGCTACCTCATCTCCATCAAGTATGGTGGCCCCTA
TCACATTGGTGGAAGTCCCTTTAAAGCCAAGGTCACAGGTCCTCGTCTTGTAAGCAACCACAGCCTCCAT
GAGACATCATCTGTGTTTGTGGACTCTTTGACTAAAGTTGCCACGGTTCCCCAGCATGCAACCTCAGGCC
CAGGTCCTGCTGATGTCAGCAAGGTAGTAGCCAAAGGCCTGGGGCTAAGCAAGGCTTATGTAGGCCAGAA
GAGCAACTTCACAGTAGATTGCAGCAAAGCAGGTAACAACATGCTGCTGGTGGGCGTGCATGGCCCAAGG
ACACCCTGTGAAGAGATCCTGGTGAAACACATGGGCAGCCGCCTCTATAGTGTCTCTTACCTGCTCAAGG
ACAAAGGGGAGTACACACTGGTGGTCAAGTGGGGTGATGAGCATATCCCAGGCAGCCCATACCGCATTAT
GGTACCC

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR227403 representing NM_010227
Red=Cloning site Green=Tags(s)

MSSSHSRCGQSAAVASPGGSIDSRDAEMPATEKDLAEDAPWKKIQQNTFTRWCNEHLKCVSKRIANLQTD
LSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGL
IWTLILHYSISMPMWDEEEDEEAKKQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLC
PDWDSWDASKPVNNAREAMQQADDWLGIPQVITPEEIVDPNVDEHSVMTYLSQFPKAKLKPGAPLRPKLN
PKKARAYGPGIEPTGNMVKKRAEFTVETRSAGQGEVLVYVEDPAGHQEEAKVTANNDKNRTFSVWYVPEV
TGTHKVTVLFAGQHIAKSPFEVYVDKSQGDASKVTAQGPGLEPSGNIANKTTYFEIFTAGAGMGEVEVVI
QDPTGQKGTVEPQLEARGDSTYRCSYQPTMEGVHTVHVTFAGVPIPRSPYTVTVGQACNPAACRAIGRGL
QPKGVRVKETADFKVYTKGAGSGELKVTVKGPKGEERVKQKDLGDGVYGFEYYPTIPGTYTVTITWGGQN
IGRSPFEVKVGTECGNQKVRAWGPGLEGGIVGKSADFVVEAIGDDVGTLGFSVEGPSQAKIECDDKGDGS
CDVRYWPQEAGEYAVHVLCNSEDIRLSPFMADIREAPQDFHPDRVKARGPGLEKTGVAVNKPAEFTVDAK
HAGKAPLRVQVQDNEGCSVEATVKDNGNGTYSCSYVPRKPVKHTAMVSWGGVSIPNSPFRVNVGAGSHPN
KVKVYGPGVAKTGLKAHEPTYFTVDCTEAGQGDVSIGIKCAPGVVGPTEADIDFDIIRNDNDTFTVKYTP
CGAGSYTIMVLFADQATPTSPIRVKVEPSHDASKVKAEGPGLNRTGVELGKPTHFTVNAKTAGKGKLDVQ
FSGLAKGDAVRDVDIIDHHDNTYTVKYIPVQQGPVGVNVTYGGDHIPKSPFSVGVSPSLDLSKIKVSGLG
DKVDVGKDQEFTVKSKGAGGQGKVASKIVSPSGAAVPCKVEPGLGADNSVVRFVPREEGPYEVEVTYDGV
PVPGSPFPLEAVAPTKPSKVKAFGPGLQGGNAGSPARFTIDTKGAGTGGLGLTVEGPCEAQLECLDNGDG
TCSVSYVPTEPGDYNINILFADTHIPGSPFKAHVAPCFDASKVKCSGPGLERATAGEVGQFQVDCSSAGS
AELTIEICSEAGLPAEVYIQDHGDGTHTITYIPLCPGAYTVTIKYGGQPVPNFPSKLQVEPAVDTSGVQC
YGPGIEGQGVFREATTEFSVDARALTQTGGPHVKARVANPSGNLTDTYVQDCGDGTYKVEYTPYEEGVHS
VDVTYDGSPVPSSPFQVPVTEGCDPSRVRVHGPGIQSGTTNKPNKFTVETRGAGTGGLGLAVEGPSEAKM
SCMDNKDGSCSVEYIPYEAGTYSLNVTYGGHQVPGSPFKVPVHDVTDASKVKCSGPGLSPGMVRANLPQS
FQVDTSKAGVAPLQVKVQGPKGLVEPVDVVDNADGTQTVNYVPSREGSYSISVLYGEEEVPRSPFKVKVL
PTHDASKVKASGPGLNTTGVPASLPVEFTIDAKDAGEGLLAVQITDPEGKPKKTHIQDNHDGTYTVAYVP
DVPGRYTILIKYGGDEIPFSPYRVRAVPTGDASKCTVTGAGIGPTIQIGEETVITVDTKAAGKGKVTCTV
CTPDGSEVDVDVVENEDGTFDIFYTAPQPGKYVICVRFGGEHVPNSPFQVTALAGDQPTVQTPLRSQQLA
PQYNYPQGSQQTWIPERPMVGVNGLDVTSLRPFDLVIPFTIKKGEITGEVRMPSGKVAQPSITDNKDGTV
TVRYSPSEAGLHEMDIRYDNMHIPGSPLQFYVDYVNCGHITAYGPGLTHGVVNKPATFTVNTKDAGEGGL
SLAIEGPSKAEISCTDNQDGTCSVSYLPVLPGDYSILVKYNDQHIPGSPFTARVTGDDSMRMSHLKVGSA
ADIPINISETDLSLLTATVVPPSGREEPCLLKRLRNGHVGISFVPKETGEHLVHVKKNGQHVASSPIPVV
ISQSEIGDASRVRVSGQGLHEGHTFEPAEFIIDTRDAGYGGLSLSIEGPSKVDINTEDLEDGTCRVTYCP
TEPGNYIINIKFADQHVPGSPFSVKVTGEGRVKESITRRRRAPSVANIGSHCDLSLKIPEISIQDMTAQV
TSPSGKTHEAEIVEGENHTYCIRFVPAEMGMHTVSVKYKGQHVPGSPFQFTVGPLGEGGAHKVRAGGPGL
ERAEVGVPAEFGIWTREAGAGGLAIAVEGPSKAEISFEDRKDGSCGVAYVVQEPGDYEVSVKFNEEHIPD
SPFVVPVASPSGDARRLTVSSLQESGLKVNQPASFAVSLNGAKGAIDAKVHSPSGALEECYVTEIDQDKY
AVRFIPRENGIYLIDVKFNGTHIPGSPFKIRVGEPGHGGDPGLVSAYGAGLEGGVTGSPAEFIVNTSNAG
AGALSVTIDGPSKVKMDCQECPEGYRVTYTPMAPGSYLISIKYGGPYHIGGSPFKAKVTGPRLVSNHSLH
ETSSVFVDSLTKVATVPQHATSGPGPADVSKVVAKGLGLSKAYVGQKSNFTVDCSKAGNNMLLVGVHGPR
TPCEEILVKHMGSRLYSVSYLLKDKGEYTLVVKWGDEHIPGSPYRIMVP

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_010227
ORF Size 7917 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 clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
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 Method 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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_010227.3, NP_034357.2
RefSeq Size 8347 bp
RefSeq ORF 7920 bp
Locus ID 192176
Cytogenetics X 37.89 cM
MW 280.5 kDa
Summary Actin binding protein that promotes orthogonal branching of actin filaments and links actin filaments to membrane glycoproteins. Anchors various transmembrane proteins to the actin cytoskeleton and serves as a scaffold for a wide range of cytoplasmic signaling proteins (By similarity). Interaction with FLNA may allow neuroblast migration from the ventricular zone into the cortical plate. Tethers cell surface-localized furin, modulates its rate of internalization and directs its intracellular trafficking. Involved in ciliogenesis. Plays a role in cell-cell contacts and adherens junctions during the development of blood vessels, heart and brain organs (PubMed:17172441). Plays a role in platelets morphology through interaction with SYK that regulates ITAM- and ITAM-like-containing receptor signaling, resulting in by platelet cytoskeleton organization maintenance (PubMed:20713593).[UniProtKB/Swiss-Prot Function]
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"NM_010227" in other vectors (2)
SKU Description Size Price
MC225378 Flna (untagged) - Mouse filamin, alpha (Flna), (10ug) 10 ug
$3,485.00
MG227403 Flna (tGFP-tagged) - Mouse filamin alpha (Flna), (10ug) 10 ug
$3,684.00
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