Flna (NM_001134599) Rat Tagged ORF Clone
CAT#: RR206931
- TrueORF®
Flna (Myc-DDK-tagged ORF) - Rat filamin, alpha (Flna), (10 ug)
"NM_001134599" in other vectors (1)
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CNY 50,830.00
CNY 300.00
Specifications
Product Data | |
Type | Rat Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | RGD1560614 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RR206931 representing NM_001134599
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAGTAGCTCTCACTCCCGCTCCGGCCAGAGTGCGGCAGGCGCGTCTCCGGCAGGCGGTATTGATACAC GGGACGCTGAGATGCCGGCTACCGAAAAAGACCTAGCAGAAGATGCACCATGGAAGAAGATCCAGCAGAA CACATTTACCCGCTGGTGCAATGAGCACCTTAAGTGCGTGAGCAAGCGCATCGCCAATCTGCAGACGGAC CTGAGCGATGGATTGCGGCTCATCGCGCTGCTTGAGGTACTCAGCCAGAAGAAGATGCACCGCAAGCACA ACCAACGACCCACTTTCCGCCAGATGCAGCTGGAAAATGTGTCTGTGGCGCTTGAATTCCTGGACCGTGA GAGCATCAAGCTCGTGTCCATAGACAGCAAGGCCATTGTGGATGGGAATCTGAAACTGATCTTAGGACTC ATCTGGACCCTGATCCTGCACTACTCCATCTCGATGCCCATGTGGGATGAGGAAGAGGATGAGGAGGCCA AGAAGCAAACACCCAAACAGAGGCTTCTAGGCTGGATTCAGAACAAGCTGCCACAGCTGCCCATTACCAA CTTCAGTCGAGACTGGCAGAGTGGCCGGGCCCTGGGTGCTCTTGTTGATAGCTGTGCCCCAGGCCTATGT CCTGACTGGGACTCCTGGGATGCTAGTAAGCCTGTGAACAATGCACGGGAAGCCATGCAGCAGGCTGACG ACTGGCTGGGCATTCCTCAGGTGATTACCCCAGAAGAAATTGTGGACCCCAACGTAGATGAGCATTCTGT TATGACTTACCTGTCTCAGTTTCCCAAGGCCAAACTGAAGCCAGGGGCTCCTCTTCGGCCCAAACTGAAC CCAAAGAAAGCCCGAGCCTATGGGCCAGGCATCGAGCCCACAGGCAATATGGTGAAGAAGAGAGCAGAAT TCACTGTGGAGACCCGAAGTGCAGGACAGGGAGAGGTGCTGGTATATGTGGAGGACCCAGCTGGACACCA GGAAGAGGCAAAAGTGACTGCCAATAACGACAAGAACCGTACTTTCTCTGTCTGGTATGTCCCTGAAGTA ACAGGAACTCATAAGGTGACTGTGCTCTTTGCTGGCCAACATATTGCCAAGAGCCCCTTTGAGGTGTATG TGGACAAGTCACAGGGTGATGCCAGCAAAGTGACTGCCCAGGGCCCTGGTCTGGAGCCCAGCGGCAATAT CGCCAACAAGACTACCTACTTTGAGATCTTCACTGCAGGAGCTGGCATAGGCGAGGTGGAAGTTGTCATC CAGGACCCTACAGGACAGAAAGGCACAGTGGAACCTCAGCTGGAGGCCAGGGGTGACAGCACCTATCGCT GTAGCTATCAGCCTACCATGGAGGGTGTCCATACAGTACATGTCACCTTCGCTGGTGTTCCCATCCCTCG CAGCCCCTACACTGTCACTGTTGGTCAAGCTTGTAACCCAACTGCCTGCCGGGCTGTTGGTAGAGGCCTC CAGCCTAAGGGTGTGCGAGTGAAGGAAACAGCTGACTTCAAGGTGTACACAAAAGGCGCTGGCAGTGGGG AGCTAAAGGTCACTGTAAAGGGTCCCAAGGGTGAAGAGCGTGTAAAGCAGAAGGACTTAGGGGATGGTGT GTATGGCTTTGAATATTACCCCACAATCCCTGGCACATACACTGTCACCATCACATGGGGTGGCCAGAAC ATTGGCCGCAGTCCGTTCGAGGTGAAGGTAGGCACTGAGTGTGGCAATCAGAAGGTTCGGGCATGGGGTC CTGGTCTGGAAGGTGGCATTGTTGGCAAGTCAGCAGACTTCGTAGTAGAGGCCATTGGTGATGATGTGGG CACCTTGGGTTTCTCTGTGGAAGGTCCATCACAGGCAAAGATTGAATGTGACGACAAGGGTGATGGCTCT TGTGATGTGCGCTATTGGCCCCAGGAGGCTGGCGAGTATGCTGTTCATGTGCTATGTAACAGTGAGGATA TCCGGCTCAGTCCCTTCATGGCTGACATCCGTGAGGCACCTCAGGATTTTCACCCAGACCGGGTGAAGGC ACGTGGGCCTGGATTGGAGAAGACTGGTGTAGCTATCAACAAGCCAGCAGAGTTCACAGTTGATGCCAAG CATGCTGGGAAGGCCCCTCTTCGAGTTCAAGTTCAGGACAATGAAGGACACTCTGTGGAGACAACAGTCA AGGACAATGGCAATGGTACTTACAGCTGTTCTTATGTGCCCAGAAAGCCAGTGAAGCACACAGCCATGGT TTCTTGGGGAGGTGTCAGCATCCCCAATAGTCCTTTCCGGGTGAATGTGGGAGCTGGCAGCCACCCAAAC AAAGTCAAGGTGTATGGTCCAGGAGTGGCCAAGACTGGGCTCAAGGCCCATGAACCTACCTACTTTACTG TGGATTGTACTGAGGCGGGCCAGGGAGATGTCAGCATTGGTATCAAGTGTGCCCCTGGAGTAGTGGGCCC CACTGAGGCTGATATTGACTTTGATATCATCCGTAATGACAATGACACCTTCACTGTGAAATACACACCC TGTGGGGCTGGCAGCTATACCATCATGGTTCTTTTTGCTGACCAGGCCACACCCACCAGCCCCATCAGAG TCAAAGTGGAGCCTTCTCATGATGCCAGTAAAGTGAAGGCTGAGGGTCCTGGCCTAAATCGCACTGGTGT TGAGCTTGGCAAACCCACCCATTTCACAGTCAATGCTAAAACTGCTGGGAAAGGCAAGCTGGATGTTCAG TTCTCAGGACTGGCTAAGGGAGATGCAGTGCGAGATGTGGACATCATTGACCACCATGATAATACCTACA CCGTAAAGTATACTCCTGTGCAGCAGGGCCCAGTAGGTGTCAGTGTCACTTATGGAGGAGATCACATACC CAAGAGTCCATTTTCAGTGGGAGTATCTCCAAGCCTGGATCTCAGCAAGATTAAGGTGTCTGGCCTTGTT GACAAAGTGGATGTTGGCAAAGATCAAGAGTTCACAGTAAAGTCAAAGGGTGCAGGTGGTCAAGGCAAAG TAGCATCCAAGATTGTGAGTCCCTCAGGTGCAGCAGTGCCCTGCAAGGTAGAGCCAGGCCTGGGAGCTGA CAACAGTGTGGTCCGTTTTGTGCCCCGTGAAGAGGGGCCTTATGAGGTGGAAGTGACCTATGATGGTGTG CCTGTACCTGGCAGTCCCTTTCCAGTAGAAGCTGTGGCTCCTACCAAACCCAGCAAGGTGAAGGCATTTG GACCAGGGCTGCAGGGGGGCAATGCAGGCTCCCCTGCCCGCTTCACCATTGATACAAAGGGAGCTGGCAC TGGTGGCCTGGGCCTGACAGTGGAAGGCCCCTGTGAAGCACAGCTTGAGTGCCTGGACAATGGGGACGGT ACATGCTCTGTGTCTTATGTGCCCACTGAGCCTGGGGACTACAACATCAACATCCTTTTTGCTGACACCC ACATTCCTGGATCCCCATTCAAGGCCCATGTGGTTCCTTGTTTTGATGCATCCAAGGTGAAGTGCTCAGG CCCTGGGCTGGAGCGGGCTACTGCTGGTGAGGTAGGGCAGTTCCAAGTAGACTGCTCAAGTGCTGGCAGT GCCGAGTTGACGATTGAGATCTGCTCTGAGGCAGGACTGCCAGCTGAAGTATACATTCAGGACCATGGTG ATGGCACACACACCATTACCTATATTCCTCTTTGTCCTGGGGCTTACACTGTTACCATCAAGTATGGTGG CCAGCCTGTGCCCAACTTCCCCAGCAAGCTACAGGTGGAGCCTGCTGTAGATACCTCAGGCGTACAGTGC TATGGGCCTGGGATTGAAGGTCAAGGTGTCTTCCGAGAGGCAACCACTGAGTTCAGTGTAGATGCCCGGG CTCTTACACAGACTGGAGGGCCACATGTCAAGGCCCGTGTGGCCAACCCCTCAGGCAATCTGACAGATAC CTATGTGCAAGACTGTGGTGATGGCACATACAAAGTGGAATATACTCCATATGAGGAAGGAGTACACTCC GTGGATGTGACTTATGATGGCAGCCCTGTACCCAGCAGCCCCTTCCAGGTGCCTGTAACAGAGGGCTGTG ACCCCTCCCGGGTGCGTGTCCATGGGCCAGGCATCCAAAGTGGTACCACCAACAAACCCAACAAGTTCAC AGTAGAGACTAGGGGAGCTGGCACAGGTGGCCTGGGCTTGGCTGTTGAGGGTCCCTCAGAGGCCAAGATG TCTTGTATGGATAATAAAGATGGCAGCTGCTCGGTAGAATACATCCCCTATGAAGCTGGAACCTATAGCC TTAACGTCACTTATGGTGGTCACCAAGTGCCAGGTAGCCCCTTCAAGGTTCCTGTACATGATGTGACAGA TGCATCTAAAGTCAAGTGTTCTGGACCTGGCTTAAGCCCAGGCATGGTCCGTGCCAACCTCCCTCAGTCC TTTCAGGTAGACACAAGCAAAGCCGGAGTTGCCCCACTGCAGGTCAAAGTACAGGGGCCCAAAGGCCTGG TGGAGCCAGTGGATGTAGTGGACAATGCTGATGGTACTCAGACTGTCAACTATGTGCCCAGCCGAGAAGG GTCCTATAGCATTTCTGTGCTGTATGGTGAAGAAGAAGTGCCACGGAGCCCCTTCAAGGTCAAGGTGCTG CCCACGCATGATGCCAGTAAGGTGAAGGCCAGTGGACCTGGACTCAACACCACTGGTGTGCCTGCCAGCC TGCCTGTGGAGTTCACCATTGATGCCAAGGATGCTGGGGAGGGTCTGTTGGCTGTCCAGATTACGGACCC TGAAGGCAAGCCCAAGAAGACACACATCCAAGATAATCATGATGGCACATACACAGTGGCCTATGTGCCA GATGTGACAGGCCGGTACACAATCCTCATCAAGTATGGTGGTGATGAGATCCCCTTTTCCCCATACCGTG TCCGGGCTGTGCCCACTGGGGATGCCAGCAAGTGCACAGTCACAGGTGCTGGCATTGGCCCCACCATCCA GATTGGAGAGGAGACAGTGATTACTGTGGACACAAAAGCAGCAGGCAAAGGCAAAGTGACTTGCACAGTG TGCACACCTGATGGCTCAGAGGTAGATGTGGACGTGGTGGAGAATGAGGATGGCACCTTTGACATCTTCT ACACAGCCCCGCAACCGGGCAAATATGTCATCTGTGTGCGCTTCGGTGGCGAGCATGTGCCCAACAGCCC CTTCCAAGTTACAGCTTTAGCTGGGGACCAACCAACAGTGCAGACCCCATTAAGGCCTCAGCAGCTGCCT TCACAGTATACCTATCCTCAGGGTAGCCAGCAAACATGGATTCCAGAGAGGCCCATGGTGGGCGTTAATG GGCTGGATGTGACCAGCCTGAGGCCCTTTGATCTTGTCATCCCCTTCACTATCAAGAAGGGTGAGATCAC TGGGGAAGTTCGAATGCCCTCTGGCAAGGTGGCCCAGCCTTCCATCACTGACAACAAAGATGGCACTGTT ACTGTGCGTTACTCACCCAGTGAAGCTGGCCTGCATGAAATGGACATTCGCTATGACAATATGCATATCC CAGGAAGCCCTCTGCAGTTCTATGTTGATTATGTCAACTGTGGTCACATCACTGCCTATGGTCCTGGCCT TACCCATGGAGTGGTCAACAAACCTGCCACCTTCACTGTCAACACCAAGGATGCAGGAGAAGGGGGCTTG TCTCTGGCCATTGAGGGTCCATCTAAAGCAGAAATCAGCTGCACTGACAACCAGGATGGGACATGCAGTG TCTCTTACCTGCCTGTGCTGCCTGGTGACTACAGCATCCTAGTCAAGTACAATGACCAGCACATCCCAGG CAGCCCCTTCACTGCCAGAGTAACAGGTGATGATTCCATGCGTATGTCCCACCTAAAGGTGGGTTCTGCT GCTGATATCCCCATCAACATCTCAGAAACAGACCTCAGCCTACTCACAGCCACTGTGGTGCCACCTTCAG GTCGAGAGGAACCCTGTCTGCTGAAACGGTTGCGTAATGGCCACGTGGGGATTTCCTTCGTGCCCAAGGA GACAGGGGAGCACCTGGTACACGTGAAGAAGAATGGCCAGCATGTGGCAAGCAGTCCCATCCCAGTAGTG ATCAGCCAGTCGGAGATAGGTGATGCCAGCCGTGTAAGGGTCTCTGGTCAAGGCCTCCATGAAGGCCATA CCTTTGAGCCTGCAGAGTTTATTATTGACACCAGAGATGCAGGCTATGGTGGGCTCAGTCTGTCCATTGA GGGCCCTAGCAAAGTAGACATCAACACAGAGGACCTGGAGGACGGCACATGCAGGGTCACCTACTGTCCC ACAGAGCCTGGAAACTACATTATAAACATCAAATTTGCTGACCAACATGTGCCTGGCAGTCCTTTTTCTG TGAAGGTGACAGGTGAGGGCCGGGTAAAAGAGAGTATCACACGCAGGCGACGTGCCCCTTCTGTGGCCAA TGTTGGCAGTCATTGTGACCTCAGCTTGAAGATTCCTGAAATTAGCATCCAAGATATGACAGCCCAGGTG ACCAGCCCATCAGGCAAGACCCATGAGGCAGAGATTGTAGAAGGAGAGAACCATACTTACTGTATCCGAT TTGTGCCTGCTGAGATGGGGATGCATACAGTCAGTGTCAAGTACAAGGGCCAGCATGTACCTGGGAGCCC CTTCCAGTTCACTGTGGGACCTCTGGGGGAAGGGGGTGCTCACAAGGTCCGTGCTGGAGGCCCTGGCCTA GAGAGGGCTGAAGCTGGAGTACCAGCGGAGTTCGGCATTTGGACTAGGGAAGCTGGCGCTGGAGGCCTGG CCATTGCTGTTGAAGGCCCTAGCAAGGCTGAGATCTCTTTTGAGGACCGAAAGGATGGCTCTTGTGGTGT GGCCTACGTAGTTCAGGAGCCAGGTGACTATGAGGTCTCAGTCAAGTTCAACGAGGAACACATACCTGAT AGCCCCTTCGTGGTGCCTGTGGCTTCTCCGTCTGGTGACGCCCGCCGCCTTACTGTTTCTAGTCTTCAGG AGTCAGGGTTAAAGGTCAACCAGCCAGCATCTTTTGCAGTCAGCCTGAATGGAGCCAAAGGGGCAATTGA TGCCAAGGTGCATAGCCCCTCAGGAGCTCTGGAGGAGTGCTATGTCACAGAGATTGACCAAGATAAGTAT GCTGTGCGTTTCATCCCACGAGAGAATGGCGTCTACTTGATCGATGTCAAGTTCAATGGTACTCACATCC CTGGAAGTCCCTTCAAGATTCGAGTTGGGGAGCCTGGTCATGGAGGGGACCCAGGCTTAGTATCCGCCTA TGGAGCAGGCCTGGAAGGTGGTGTCACAGGGAGCCCAGCTGAGTTTATTGTGAACACAAGCAATGCAGGA GCTGGTGCCCTTTCGGTTACCATTGATGGCCCCTCCAAGGTGAAGATGGATTGCCAGGAGTGCCCTGAGG GCTACCGTGTCACCTATACCCCCATGGCACCTGGCAGCTACCTCATCTCCATCAAGTATGGTGGCCCCTA TCACATTGGGGGAAGCCCCTTCAAAGCCAAGGTCACAGGTCCCCGTCTTGTTAGCAACCACAGCCTCCAT GAGACATCATCTGTGTTTGTGGACTCTCTGACTAAAGTTGCTACTGTTCCCCAGCATGCAACCTCAGGCC CAGGTCCTGCTGATGTCAGCAAGGTAGTAGCCAAAGGCCTGGGGCTAAGCAAAGCTTATGTAGGCCAGAA GAGCAACTTCACAGTAGATTGCAGCAAAGCAGGTAACAACATGTTGCTGGTGGGCGTGCATGGCCCAAGG ACACCCTGTGAAGAGATCCTGGTGAAACACATGGGCAGTCGCCTCTATAGTGTCTCCTACCTGCTCAAAG ACAAAGGGGAATACACATTGGTGGTCAAGTGGGGTGATGAGCATATCCCAGGCAGCCCATACCGCATTAT GGTGCCC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RR206931 representing NM_001134599
Red=Cloning site Green=Tags(s) MSSSHSRSGQSAAGASPAGGIDTRDAEMPATEKDLAEDAPWKKIQQNTFTRWCNEHLKCVSKRIANLQTD LSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGL IWTLILHYSISMPMWDEEEDEEAKKQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLC PDWDSWDASKPVNNAREAMQQADDWLGIPQVITPEEIVDPNVDEHSVMTYLSQFPKAKLKPGAPLRPKLN PKKARAYGPGIEPTGNMVKKRAEFTVETRSAGQGEVLVYVEDPAGHQEEAKVTANNDKNRTFSVWYVPEV TGTHKVTVLFAGQHIAKSPFEVYVDKSQGDASKVTAQGPGLEPSGNIANKTTYFEIFTAGAGIGEVEVVI QDPTGQKGTVEPQLEARGDSTYRCSYQPTMEGVHTVHVTFAGVPIPRSPYTVTVGQACNPTACRAVGRGL QPKGVRVKETADFKVYTKGAGSGELKVTVKGPKGEERVKQKDLGDGVYGFEYYPTIPGTYTVTITWGGQN IGRSPFEVKVGTECGNQKVRAWGPGLEGGIVGKSADFVVEAIGDDVGTLGFSVEGPSQAKIECDDKGDGS CDVRYWPQEAGEYAVHVLCNSEDIRLSPFMADIREAPQDFHPDRVKARGPGLEKTGVAINKPAEFTVDAK HAGKAPLRVQVQDNEGHSVETTVKDNGNGTYSCSYVPRKPVKHTAMVSWGGVSIPNSPFRVNVGAGSHPN KVKVYGPGVAKTGLKAHEPTYFTVDCTEAGQGDVSIGIKCAPGVVGPTEADIDFDIIRNDNDTFTVKYTP CGAGSYTIMVLFADQATPTSPIRVKVEPSHDASKVKAEGPGLNRTGVELGKPTHFTVNAKTAGKGKLDVQ FSGLAKGDAVRDVDIIDHHDNTYTVKYTPVQQGPVGVSVTYGGDHIPKSPFSVGVSPSLDLSKIKVSGLV DKVDVGKDQEFTVKSKGAGGQGKVASKIVSPSGAAVPCKVEPGLGADNSVVRFVPREEGPYEVEVTYDGV PVPGSPFPVEAVAPTKPSKVKAFGPGLQGGNAGSPARFTIDTKGAGTGGLGLTVEGPCEAQLECLDNGDG TCSVSYVPTEPGDYNINILFADTHIPGSPFKAHVVPCFDASKVKCSGPGLERATAGEVGQFQVDCSSAGS AELTIEICSEAGLPAEVYIQDHGDGTHTITYIPLCPGAYTVTIKYGGQPVPNFPSKLQVEPAVDTSGVQC YGPGIEGQGVFREATTEFSVDARALTQTGGPHVKARVANPSGNLTDTYVQDCGDGTYKVEYTPYEEGVHS VDVTYDGSPVPSSPFQVPVTEGCDPSRVRVHGPGIQSGTTNKPNKFTVETRGAGTGGLGLAVEGPSEAKM SCMDNKDGSCSVEYIPYEAGTYSLNVTYGGHQVPGSPFKVPVHDVTDASKVKCSGPGLSPGMVRANLPQS FQVDTSKAGVAPLQVKVQGPKGLVEPVDVVDNADGTQTVNYVPSREGSYSISVLYGEEEVPRSPFKVKVL PTHDASKVKASGPGLNTTGVPASLPVEFTIDAKDAGEGLLAVQITDPEGKPKKTHIQDNHDGTYTVAYVP DVTGRYTILIKYGGDEIPFSPYRVRAVPTGDASKCTVTGAGIGPTIQIGEETVITVDTKAAGKGKVTCTV CTPDGSEVDVDVVENEDGTFDIFYTAPQPGKYVICVRFGGEHVPNSPFQVTALAGDQPTVQTPLRPQQLP SQYTYPQGSQQTWIPERPMVGVNGLDVTSLRPFDLVIPFTIKKGEITGEVRMPSGKVAQPSITDNKDGTV TVRYSPSEAGLHEMDIRYDNMHIPGSPLQFYVDYVNCGHITAYGPGLTHGVVNKPATFTVNTKDAGEGGL SLAIEGPSKAEISCTDNQDGTCSVSYLPVLPGDYSILVKYNDQHIPGSPFTARVTGDDSMRMSHLKVGSA ADIPINISETDLSLLTATVVPPSGREEPCLLKRLRNGHVGISFVPKETGEHLVHVKKNGQHVASSPIPVV ISQSEIGDASRVRVSGQGLHEGHTFEPAEFIIDTRDAGYGGLSLSIEGPSKVDINTEDLEDGTCRVTYCP TEPGNYIINIKFADQHVPGSPFSVKVTGEGRVKESITRRRRAPSVANVGSHCDLSLKIPEISIQDMTAQV TSPSGKTHEAEIVEGENHTYCIRFVPAEMGMHTVSVKYKGQHVPGSPFQFTVGPLGEGGAHKVRAGGPGL ERAEAGVPAEFGIWTREAGAGGLAIAVEGPSKAEISFEDRKDGSCGVAYVVQEPGDYEVSVKFNEEHIPD SPFVVPVASPSGDARRLTVSSLQESGLKVNQPASFAVSLNGAKGAIDAKVHSPSGALEECYVTEIDQDKY AVRFIPRENGVYLIDVKFNGTHIPGSPFKIRVGEPGHGGDPGLVSAYGAGLEGGVTGSPAEFIVNTSNAG AGALSVTIDGPSKVKMDCQECPEGYRVTYTPMAPGSYLISIKYGGPYHIGGSPFKAKVTGPRLVSNHSLH ETSSVFVDSLTKVATVPQHATSGPGPADVSKVVAKGLGLSKAYVGQKSNFTVDCSKAGNNMLLVGVHGPR TPCEEILVKHMGSRLYSVSYLLKDKGEYTLVVKWGDEHIPGSPYRIMVP TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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ACCN | NM_001134599 |
ORF Size | 7917 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_001134599.1, NP_001128071.1 |
RefSeq Size | 8412 bp |
RefSeq ORF | 7920 bp |
Locus ID | 293860 |
MW | 280.5 kDa |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RN206931 | Flna (untagged ORF) - Rat filamin, alpha (Flna), (10 ug) |
CNY 50,830.00 |