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FLNC cDNA ORF clone, Homo sapiens (human)

Gene Symbol FLNC
Entrez Gene ID 2318
Full Name filamin C, gamma
Synonyms ABP-280, ABP280A, ABPA, ABPL, FLN2, MFM5, MPD4
General protein information
Preferred Names
filamin-C
Names
filamin-C
FLN-C
filamin 2
filamin-2
ABP-280-like protein
ABP-L, gamma filamin
actin binding protein 280
actin-binding-like protein
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

7

7q32-q35

Summary This gene encodes one of three related filamin genes, specifically gamma filamin. These filamin proteins crosslink actin filaments into orthogonal networks in cortical cytoplasm and participate in the anchoring of membrane proteins for the actin cytoskeleton. Three functional domains exist in filamin: an N-terminal filamentous actin-binding domain, a C-terminal self-association domain, and a membrane glycoprotein-binding domain. Two transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008]. lac of sum
Disorder MIM:

102565

Disorder Html: Myopathy, myofibrillar, filamin C-related, 609524 (3)

mRNA and Protein(s)

mRNA Protein Name
NM_001458 NP_001449 filamin-C isoform a
NM_001127487 NP_001120959 filamin-C isoform b



Homo sapiens (human) FLNC NP_001449.3
Pan troglodytes (chimpanzee) FLNC XP_519364.3
Macaca mulatta (Rhesus monkey) LOC700223 XP_002808411.1
Canis lupus familiaris (dog) FLNC XP_539385.1
Bos taurus (cattle) FLNC NP_001193919.1
Mus musculus (house mouse) Flnc NP_001074654.1
Rattus norvegicus (Norway rat) Flnc NP_001178791.1
Gallus gallus (chicken) FLNC NP_989904.1
Danio rerio (zebrafish) flnca XP_002666982.1
Xenopus (Silurana) tropicalis (western clawed frog) flnc XP_002931884.2


GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following FLNC gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FLNC cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu26582 NM_001458 Homo sapiens filamin C, gamma (FLNC), transcript variant 1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $923.30
$1319.00
OHu26755 NM_001127487 Homo sapiens filamin C, gamma (FLNC), transcript variant 2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $923.30
$1319.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.


CloneID OHu26582
Clone ID Related Accession (Same CDS sequence) NM_001458
Accession Version NM_001458.4 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 8178bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product filamin-C isoform a
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF146692.1, AF089841.1, AJ012737.1 and AB208865.1. This sequence is a reference standard in the RefSeqGene project. On May 21, 2008 this sequence version replaced gi:116805321. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (a). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB371585.1, AF089841.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
ATGATGAACA ACAGCGGCTA CTCAGACGCC GGCCTCGGCC TGGGCGATGA GACAGACGAG 
ATGCCGTCCA CGGAGAAGGA CCTGGCGGAG GACGCGCCGT GGAAGAAGAT CCAGCAGAAC
ACATTCACGC GCTGGTGCAA TGAGCACCTC AAGTGCGTGG GCAAGCGCCT GACCGACCTG
CAGCGCGACC TCAGCGACGG GCTCCGGCTC ATCGCGCTGC TCGAGGTGCT CAGCCAGAAG
CGCATGTACC GCAAGTTCCA TCCGCGCCCC AACTTCCGCC AAATGAAGCT GGAGAACGTG
TCCGTGGCCC TCGAGTTCCT CGAGCGCGAG CACATCAAGC TCGTGTCCAT AGACAGCAAG
GCCATCGTGG ATGGGAACCT GAAGCTGATC CTGGGCCTGA TCTGGACGCT GATCCTGCAC
TACTCCATCT CCATGCCCAT GTGGGAGGAT GAAGATGATG AGGATGCCCG CAAACAGACG
CCCAAGCAGC GGCTGCTTGG CTGGATCCAG AACAAGGTGC CCCAGCTGCC CATCACCAAC
TTCAACCGTG ACTGGCAGGA CGGCAAAGCT CTGGGCGCCC TGGTGGACAA CTGCGCCCCC
GGTCTCTGCC CCGACTGGGA GGCCTGGGAC CCCAACCAGC CCGTGGAGAA CGCCCGGGAG
GCCATGCAGC AGGCCGACGA CTGGCTTGGG GTGCCCCAGG TCATTGCCCC TGAGGAGATT
GTGGACCCCA ACGTGGATGA GCATTCTGTT ATGACCTACC TGTCCCAGTT CCCCAAGGCC
AAGCTCAAAC CTGGTGCCCC TGTTCGATCC AAGCAGCTGA ACCCCAAGAA AGCCATCGCC
TATGGGCCTG GCATCGAGCC ACAGGGCAAC ACCGTGCTGC AGCCTGCCCA CTTCACCGTG
CAGACGGTGG ACGCGGGCGT GGGCGAGGTG CTGGTCTACA TCGAGGACCC TGAAGGCCAC
ACCGAGGAGG CTAAGGTGGT TCCCAACAAT GACAAGGATC GCACCTATGC TGTCTCCTAT
GTGCCCAAGG TCGCTGGGTT ACACAAGGTG ACCGTGCTCT TTGCTGGCCA GAACATTGAA
CGCAGTCCCT TTGAGGTGAA CGTGGGCATG GCCCTGGGAG ATGCCAACAA GGTGTCAGCC
CGTGGCCCTG GCCTGGAACC TGTGGGCAAT GTGGCCAACA AACCCACCTA CTTTGACATC
TACACTGCGG GGGCCGGCAC TGGCGATGTT GCTGTGGTGA TCGTGGACCC ACAGGGCCGG
CGGGACACAG TGGAGGTGGC CCTGGAGGAC AAGGGTGACA GCACGTTCCG CTGCACATAC
AGACCTGCCA TGGAGGGGCC ACATACCGTG CATGTGGCCT TTGCGGGTGC CCCCATCACC
CGCAGTCCCT TCCCTGTCCA TGTGTCGGAA GCCTGTAACC CCAACGCCTG CCGCGCCTCT
GGGCGAGGCC TGCAGCCCAA GGGTGTTCGC GTGAAAGAGG TGGCTGACTT CAAGGTGTTT
ACCAAGGGTG CCGGCAGCGG GGAGCTCAAG GTCACGGTCA AGGGGCCAAA GGGCACAGAG
GAGCCAGTGA AGGTGCGGGA GGCTGGGGAT GGTGTGTTCG AGTGCGAGTA CTACCCGGTG
GTGCCTGGGA AGTATGTGGT GACCATCACG TGGGGCGGCT ACGCCATCCC TCGCAGCCCC
TTTGAGGTAC AGGTGAGCCC AGAGGCAGGA GTGCAAAAGG TCCGGGCCTG GGGTCCTGGT
TTGGAGACTG GCCAGGTGGG CAAGTCAGCC GATTTTGTGG TGGAAGCCAT TGGCACCGAG
GTGGGGACAC TGGGCTTCTC CATCGAGGGG CCCTCACAAG CCAAGATCGA ATGTGACGAC
AAGGGGGATG GCTCCTGCGA TGTGCGGTAC TGGCCCACGG AGCCTGGGGA GTACGCTGTG
CACGTCATCT GTGACGATGA GGACATCCGA GACTCACCCT TCATTGCCCA CATCCTGCCC
GCCCCACCTG ACTGCTTCCC AGATAAGGTG AAGGCCTTTG GGCCTGGCCT GGAGCCTACC
GGCTGCATCG TGGACAAGCC CGCTGAGTTC ACCATTGATG CTCGTGCAGC TGGCAAGGGA
GACCTGAAGC TCTATGCCCA GGACGCCGAC GGCTGTCCCA TCGACATCAA GGTGATCCCC
AACGGCGACG GCACCTTCCG CTGCTCCTAC GTGCCCACCA AGCCCATTAA GCACACCATC
ATCATCTCCT GGGGAGGCGT AAACGTGCCC AAGAGCCCCT TCCGGGTGAA CGTGGGCGAG
GGCAGCCACC CCGAGCGGGT AAAGGTGTAC GGCCCCGGAG TGGAGAAGAC AGGCCTCAAG
GCCAATGAGC CCACCTACTT CACGGTGGAC TGCAGCGAGG CGGGGCAAGG CGACGTGAGC
ATCGGCATCA AGTGCGCCCC AGGCGTGGTG GGCCCTGCAG AGGCTGACAT TGACTTCGAC
ATCATCAAGA ATGACAACGA CACCTTCACC GTCAAGTACA CGCCACCAGG GGCGGGCCGC
TACACCATCA TGGTGCTGTT TGCCAACCAG GAGATCCCCG CCAGCCCCTT CCACATCAAG
GTGGACCCAT CCCACGATGC CAGCAAAGTC AAGGCCGAGG GCCCTGGGCT GAATCGCACA
GGTGTGGAAG TCGGGAAGCC CACCCACTTC ACGGTGCTGA CCAAGGGAGC CGGCAAGGCC
AAGCTGGATG TGCAGTTTGC AGGGACAGCC AAGGGCGAGG TTGTGCGGGA CTTTGAGATC
ATAGACAACC ATGACTACTC CTACACTGTC AAGTACACCG CTGTCCAGCA GGGCAACATG
GCAGTGACAG TGACTTATGG CGGGGACCCT GTCCCCAAGA GCCCCTTTGT GGTGAATGTG
GCACCCCCGC TGGACCTCAG CAAAATCAAA GTTCAGGGCC TTAATAGCAA GGTGGCTGTG
GGACAGGAAC AAGCATTCTC TGTGAACACA CGAGGGGCTG GCGGTCAGGG CCAACTGGAT
GTGCGGATGA CTTCGCCCTC TCGCCGGCCC ATCCCCTGCA AGCTGGAGCC AGGCGGTGGA
GCGGAAGCCC AGGCTGTGCG CTACATGCCC CCGGAGGAGG GGCCCTACAA GGTGGATATC
ACCTACGATG GTCACCCGGT GCCTGGCAGC CCGTTTGCTG TGGAGGGTGT CCTGCCCCCT
GATCCCTCCA AGGTCTGTGC TTATGGCCCG GGTCTCAAGG GTGGACTGGT AGGCACCCCC
GCGCCATTCT CCATCGACAC CAAGGGGGCT GGCACAGGTG GCCTGGGGCT GACCGTAGAG
GGCCCCTGCG AGGCCAAGAT CGAGTGCCAG GACAATGGTG ATGGCTCATG TGCTGTCAGC
TACCTGCCCA CGGAGCCTGG CGAGTACACC ATCAACATCC TGTTTGCTGA GGCCCACATC
CCTGGCTCGC CCTTCAAAGC CACCATTCGG CCTGTGTTTG ACCCGAGCAA GGTGCGGGCC
AGTGGACCGG GCCTGGAGCG CGGCAAGGTC GGTGAGGCAG CCACCTTCAC TGTGGACTGC
TCAGAGGCAG GCGAGGCGGA GCTGACCATT GAGATCCTGT CGGATGCCGG GGTCAAGGCC
GAGGTGCTGA TCCACAACAA CGCGGATGGC ACCTACCACA TCACCTACAG CCCTGCCTTC
CCTGGCACCT ACACCATTAC CATCAAGTAT GGCGGGCATC CCGTGCCCAA ATTCCCCACC
CGTGTCCATG TGCAGCCTGC GGTCGATACC AGTGGCGTCA AGGTCTCAGG GCCTGGTGTT
GAGCCACACG GTGTCCTGCG GGAGGTGACC ACTGAGTTCA CTGTGGATGC AAGATCCCTA
ACAGCCACAG GCGGCAACCA CGTGACGGCT CGTGTGCTCA ACCCCTCGGG GGCCAAGACA
GACACCTATG TGACAGACAA TGGGGACGGC ACCTACCGAG TGCAGTACAC CGCCTACGAG
GAGGGCGTGC ATCTGGTGGA GGTCCTGTAT GATGAGGTCG CTGTGCCCAA GAGCCCCTTC
CGAGTGGGCG TGACCGAGGG CTGTGATCCC ACCCGCGTCC GAGCCTTCGG GCCAGGCCTG
GAGGGTGGCT TGGTCAACAA GGCCAACCGA TTCACTGTGG AGACCAGGGG AGCGGGCACC
GGGGGCCTTG GCCTAGCCAT CGAGGGTCCC TCGGAAGCCA AGATGTCCTG CAAGGACAAC
AAGGATGGTA GCTGCACCGT GGAGTACATC CCCTTCACTC CTGGAGACTA TGACGTCAAC
ATCACCTTCG GGGGGCGGCC CATCCCAGGG AGCCCGTTCC GCGTGCCAGT GAAGGATGTG
GTGGACCCTG GGAAGGTGAA GTGCTCAGGG CCAGGGCTGG GGGCTGGTGT CAGGGCCCGG
GTTCCTCAGA CCTTCACAGT GGACTGCAGT CAAGCTGGCC GGGCGCCCCT GCAGGTGGCT
GTGCTGGGCC CCACAGGTGT GGCCGAGCCT GTGGAGGTGC GGGACAATGG AGATGGCACC
CACACTGTCC ACTACACCCC AGCCACTGAC GGGCCCTACA CGGTAGCCGT CAAGTATGCT
GACCAGGAGG TGCCACGCAG CCCCTTCAAG ATCAAGGTCC TCCCAGCTCA TGATGCCAGC
AAGGTGCGGG CCAGCGGCCC AGGCCTCAAC GCCTCTGGCA TCCCTGCCAG CCTGCCTGTG
GAGTTCACCA TCGACGCACG GGACGCGGGC GAGGGGTTGC TCACTGTCCA GATCTTGGAC
CCCGAGGGTA AGCCCAAGAA GGCCAACATC CGGGACAATG GGGATGGCAC GTACACTGTG
TCCTACCTGC CGGACATGAG TGGCCGGTAC ACCATCACCA TCAAGTATGG CGGTGATGAG
ATCCCCTACT CGCCCTTCCG CATCCATGCT CTGCCCACTG GGGATGCCAG CAAGTGCCTC
GTCACAGTGT CCATTGGAGG CCATGGCCTG GGTGCCTGCC TGGGCCCTCG AATCCAGATT
GGGCAGGAGA CGGTGATCAC GGTGGATGCC AAGGCAGCCG GTGAGGGGAA GGTGACATGC
ACGGTGTCCA CGCCGGATGG GGCAGAGCTC GATGTGGATG TGGTTGAGAA CCATGACGGT
ACCTTTGACA TCTACTACAC AGCGCCCGAG CCGGGCAAGT ACGTCATCAC CATCCGCTTC
GGGGGTGAGC ACATCCCCAA CAGCCCCTTC CACGTGCTGG CGTGTGACCC CCTGCCGCAC
GAGGAGGAGC CCTCTGAAGT GCCACAGCTG CGCCAGCCCT ACGCTCCTCC CCGGCCCGGC
GCCCGCCCCA CACACTGGGC CACAGAGGAG CCAGTGGTGC CTGTGGAGCC AATGGAGTCC
ATGCTGAGGC CCTTCAACCT GGTCATCCCC TTCGCGGTGC AGAAAGGGGA GCTCACAGGA
GAGGTGCGGA TGCCCTCGGG GAAGACGGCA CGGCCCAACA TCACCGACAA CAAGGACGGC
ACCATCACGG TGAGGTATGC ACCCACTGAG AAAGGCCTGC ACCAGATGGG GATCAAGTAT
GACGGCAACC ACATCCCTGG GAGCCCCTTA CAGTTCTATG TGGATGCCAT CAACAGCCGC
CATGTCAGTG CCTATGGGCC AGGCCTGAGC CATGGCATGG TCAACAAGCC AGCCACCTTC
ACTATTGTCA CCAAAGATGC TGGAGAAGGG GGTCTGTCAC TGGCCGTGGA GGGCCCATCC
AAGGCAGAGA TCACCTGTAA GGACAACAAG GATGGCACCT GCACCGTGTC CTATCTGCCG
ACTGCGCCTG GAGACTACAG CATCATCGTG CGCTTCGATG ACAAGCACAT CCCGGGGAGC
CCCTTCACAG CCAAGATCAC AGGTGATGAC TCCATGAGGA CCTCACAGCT GAATGTGGGC
ACCTCCACGG ACGTGTCACT GAAGATCACC GAGAGTGATC TGAGCCAGCT GACCGCCAGC
ATCCGTGCCC CCTCGGGCAA CGAGGAGCCC TGCCTGCTGA AGCGCCTGCC CAACCGGCAC
ATTGGGATCT CCTTCACCCC CAAGGAGGTC GGGGAGCACG TGGTGAGCGT GCGCAAGAGT
GGCAAGCATG TCACCAACAG CCCCTTCAAG ATCCTGGTGG GGCCATCTGA GATCGGGGAC
GCCAGCAAGG TGCGGGTCTG GGGCAAGGGG CTTTCCGAGG GACACACATT CCAGGTGGCA
GAGTTCATCG TGGACACTCG CAATGCAGGT TATGGGGGCT TGGGGCTGAG TATTGAAGGC
CCAAGCAAGG TGGACATCAA CTGTGAGGAC ATGGAGGACG GGACATGCAA AGTCACCTAC
TGCCCCACCG AGCCCGGCAC CTACATCATC AACATCAAGT TTGCTGACAA GCACGTGCCT
GGAAGCCCCT TCACTGTGAA GGTGACCGGC GAGGGCCGCA TGAAGGAGAG CATCACCCGG
CGGAGACAGG CACCTTCCAT CGCCACCATC GGCAGCACCT GTGACCTCAA CCTCAAGATC
CCAGGAAACT GGTTCCAGAT GGTGTCTGCC CAGGAGCGCC TGACACGCAC CTTCACACGC
AGCAGCCACA CCTACACCCG CACGGAGCGC ACGGAGATCA GCAAGACGCG GGGCGGGGAG
ACAAAGCGCG AGGTGCGGGT GGAGGAGTCC ACCCAGGTCG GCGGGGACCC CTTCCCTGCT
GTGTTTGGGG ACTTCCTGGG CCGGGAGCGC CTGGGATCCT TCGGCAGCAT CACCCGGCAG
CAGGAGGGTG AGGCCAGCTC TCAGGACATG ACTGCACAGG TGACCAGCCC ATCGGGCAAG
GTGGAAGCCG CAGAGATCGT CGAGGGCGAG GACAGCGCCT ACAGCGTGCG CTTTGTGCCC
CAGGAAATGG GGCCCCATAC GGTCGCTGTC AAGTACCGTG GCCAGCACGT GCCCGGCAGC
CCCTTTCAGT TCACTGTGGG GCCGCTGGGT GAAGGTGGTG CCCACAAGGT GCGGGCCGGA
GGCACAGGGC TGGAGCGAGG TGTGGCCGGC GTGCCAGCCG AGTTCAGCAT CTGGACCCGG
GAGGCTGGCG CTGGGGGCCT GTCCATTGCT GTGGAGGGTC CTAGCAAAGC GGAGATTGCA
TTTGAGGATC GCAAAGATGG CTCCTGCGGC GTCTCCTATG TCGTCCAGGA ACCAGGTGAC
TATGAGGTCT CCATCAAGTT CAATGATGAG CACATCCCAG ACAGCCCCTT TGTGGTGCCT
GTGGCCTCCC TCTCGGATGA CGCTCGCCGT CTCACTGTCA CCAGCCTCCA GGAGACGGGG
CTCAAGGTGA ACCAGCCAGC GTCCTTTGCC GTGCAGCTGA ACGGTGCCCG GGGCGTGATT
GATGCCCGGG TGCACACACC CTCGGGGGCT GTGGAGGAGT GCTACGTCTC TGAGCTGGAC
AGTGACAAGC ACACCATCCG CTTCATCCCC CACGAGAATG GCGTCCACTC CATCGATGTC
AAGTTCAACG GTGCCCACAT CCCTGGAAGT CCCTTCAAGA TCCGCGTTGG GGAGCAGAGC
CAGGCTGGGG ACCCAGGCTT GGTGTCAGCC TACGGTCCTG GGCTCGAGGG AGGCACTACC
GGTGTGTCAT CAGAGTTCAT CGTGAACACC CTGAATGCCG GCTCGGGGGC CTTGTCTGTC
ACCATTGATG GCCCCTCCAA GGTGCAGCTG GACTGTCGGG AGTGTCCTGA GGGCCATGTG
GTCACTTATA CTCCCATGGC CCCTGGCAAC TACCTCATTG CCATCAAGTA CGGTGGCCCC
CAGCACATCG TGGGCAGCCC CTTCAAGGCC AAGGTCACTG GTCCGAGGCT GTCCGGAGGC
CACAGCCTTC ACGAAACATC CACGGTTCTG GTGGAGACTG TGACCAAGTC CTCCTCAAGC
CGGGGCTCCA GCTACAGCTC CATCCCCAAG TTCTCCTCAG ATGCCAGCAA GGTGGTGACT
CGGGGCCCTG GGCTGTCCCA GGCCTTCGTG GGCCAGAAGA ACTCCTTCAC CGTGGACTGC
AGCAAAGCAG GCACCAACAT GATGATGGTG GGCGTGCACG GCCCCAAGAC CCCCTGTGAG
GAGGTGTACG TGAAGCACAT GGGGAACCGG GTGTACAATG TCACCTACAC TGTCAAGGAG
AAAGGGGACT ACATCCTCAT TGTCAAGTGG GGTGACGAAA GTGTCCCTGG AAGCCCCTTC
AAAGTCAAGG TCCCTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001449.3
CDS210..8387
Misc Feature(1)39..41(+)
Misc Feature(2)210..1013(+)
Misc Feature(3)318..632(+)
Misc Feature(4)318..629(+)
Misc Feature(5)690..980(+)
Misc Feature(6)690..977(+)
Misc Feature(7)1017..1313(+)
Misc Feature(8)1032..1322(+)
Misc Feature(9)1317..1613(+)
Misc Feature(10)1332..1622(+)
Misc Feature(11)1614..1904(+)
Misc Feature(12)1629..1910(+)
Misc Feature(13)1905..2183(+)
Misc Feature(14)1923..2192(+)
Misc Feature(15)2193..2483(+)
Misc Feature(16)2208..2492(+)
Misc Feature(17)2484..2792(+)
Misc Feature(18)2499..2801(+)
Misc Feature(19)2793..3089(+)
Misc Feature(20)2808..3098(+)
Misc Feature(21)3090..3377(+)
Misc Feature(22)3108..3389(+)
Misc Feature(23)3378..3656(+)
Misc Feature(24)3393..3662(+)
Misc Feature(25)3657..3941(+)
Misc Feature(26)3672..3950(+)
Misc Feature(27)3690..3692(+)
Misc Feature(28)3942..4241(+)
Misc Feature(29)3960..4250(+)
Misc Feature(30)4242..4520(+)
Misc Feature(31)4257..4526(+)
Misc Feature(32)4521..4808(+)
Misc Feature(33)4536..4817(+)
Misc Feature(34)4809..5099(+)
Misc Feature(35)4824..5108(+)
Misc Feature(36)5115..5405(+)
Misc Feature(37)5409..5507(+)
Misc Feature(38)5592..5774(+)
Misc Feature(39)5769..6047(+)
Misc Feature(40)5793..6053(+)
Misc Feature(41)6048..6308(+)
Misc Feature(42)6315..6593(+)
Misc Feature(43)6330..6599(+)
Misc Feature(44)6693..6938(+)
Misc Feature(45)6906..6908(+)
Misc Feature(46)6939..7133(+)
Misc Feature(47)6939..7127(+)
Misc Feature(48)7134..7412(+)
Misc Feature(49)7149..7415(+)
Misc Feature(50)7428..7688(+)
Misc Feature(51)7722..7994(+)
Misc Feature(52)7986..8099(+)
Misc Feature(53)8112..8381(+)
Misc Feature(54)8256..8258(+)
Exon (1)1..561
Gene:FLNC
Gene Synonym:
Exon (2)562..810
Gene:FLNC
Gene Synonym:
Exon (3)811..908
Gene:FLNC
Gene Synonym:
Exon (4)909..1059
Gene:FLNC
Gene Synonym:
Exon (5)1060..1178
Gene:FLNC
Gene Synonym:
Exon (6)1179..1256
Gene:FLNC
Gene Synonym:
Exon (7)1257..1419
Gene:FLNC
Gene Synonym:
Exon (8)1420..1620
Gene:FLNC
Gene Synonym:
Exon (9)1621..1758
Gene:FLNC
Gene Synonym:
Exon (10)1759..1885
Gene:FLNC
Gene Synonym:
Exon (11)1886..2022
Gene:FLNC
Gene Synonym:
Exon (12)2023..2216
Gene:FLNC
Gene Synonym:
Exon (13)2217..2330
Gene:FLNC
Gene Synonym:
Exon (14)2331..2474
Gene:FLNC
Gene Synonym:
Exon (15)2475..2598
Gene:FLNC
Gene Synonym:
Exon (16)2599..2759
Gene:FLNC
Gene Synonym:
Exon (17)2760..2850
Gene:FLNC
Gene Synonym:
Exon (18)2851..3020
Gene:FLNC
Gene Synonym:
Exon (19)3021..3138
Gene:FLNC
Gene Synonym:
Exon (20)3139..3401
Gene:FLNC
Gene Synonym:
Exon (21)3402..3999
Gene:FLNC
Gene Synonym:
Exon (22)4000..4173
Gene:FLNC
Gene Synonym:
Exon (23)4174..4336
Gene:FLNC
Gene Synonym:
Exon (24)4337..4497
Gene:FLNC
Gene Synonym:
Exon (25)4498..4665
Gene:FLNC
Gene Synonym:
Exon (26)4666..4789
Gene:FLNC
Gene Synonym:
Exon (27)4790..4946
Gene:FLNC
Gene Synonym:
Exon (28)4947..5136
Gene:FLNC
Gene Synonym:
Exon (29)5137..5160
Gene:FLNC
Gene Synonym:
Exon (30)5161..5408
Gene:FLNC
Gene Synonym:
Exon (31)5409..5507
Gene:FLNC
Gene Synonym:
Exon (32)5508..5607
Gene:FLNC
Gene Synonym:
Exon (33)5608..5748
Gene:FLNC
Gene Synonym:
Exon (34)5749..5877
Gene:FLNC
Gene Synonym:
Exon (35)5878..6051
Gene:FLNC
Gene Synonym:
Exon (36)6052..6213
Gene:FLNC
Gene Synonym:
Exon (37)6214..6417
Gene:FLNC
Gene Synonym:
Exon (38)6418..6570
Gene:FLNC
Gene Synonym:
Exon (39)6571..6693
Gene:FLNC
Gene Synonym:
Exon (40)6694..6936
Gene:FLNC
Gene Synonym:
Exon (41)6937..7206
Gene:FLNC
Gene Synonym:
Exon (42)7207..7344
Gene:FLNC
Gene Synonym:
Exon (43)7345..7460
Gene:FLNC
Gene Synonym:
Exon (44)7461..7593
Gene:FLNC
Gene Synonym:
Exon (45)7594..7770
Gene:FLNC
Gene Synonym:
Exon (46)7771..7989
Gene:FLNC
Gene Synonym:
Exon (47)7990..8199
Gene:FLNC
Gene Synonym:
Exon (48)8200..9138
Gene:FLNC
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001458
Organism Homo sapiens (human)
Definition Homo sapiens filamin C, gamma (FLNC), transcript variant 1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001458

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
8101
8161
ATGATGAACA ACAGCGGCTA CTCAGACGCC GGCCTCGGCC TGGGCGATGA GACAGACGAG 
ATGCCGTCCA CGGAGAAGGA CCTGGCGGAG GACGCGCCGT GGAAGAAGAT CCAGCAGAAC
ACATTCACGC GCTGGTGCAA TGAGCACCTC AAGTGCGTGG GCAAGCGCCT GACCGACCTG
CAGCGCGACC TCAGCGACGG GCTCCGGCTC ATCGCGCTGC TCGAGGTGCT CAGCCAGAAG
CGCATGTACC GCAAGTTCCA TCCGCGCCCC AACTTCCGCC AAATGAAGCT GGAGAACGTG
TCCGTGGCCC TCGAGTTCCT CGAGCGCGAG CACATCAAGC TCGTGTCCAT AGACAGCAAG
GCCATCGTGG ATGGGAACCT GAAGCTGATC CTGGGCCTGA TCTGGACGCT GATCCTGCAC
TACTCCATCT CCATGCCCAT GTGGGAGGAT GAAGATGATG AGGATGCCCG CAAACAGACG
CCCAAGCAGC GGCTGCTTGG CTGGATCCAG AACAAGGTGC CCCAGCTGCC CATCACCAAC
TTCAACCGTG ACTGGCAGGA CGGCAAAGCT CTGGGCGCCC TGGTGGACAA CTGCGCCCCC
GGTCTCTGCC CCGACTGGGA GGCCTGGGAC CCCAACCAGC CCGTGGAGAA CGCCCGGGAG
GCCATGCAGC AGGCCGACGA CTGGCTTGGG GTGCCCCAGG TCATTGCCCC TGAGGAGATT
GTGGACCCCA ACGTGGATGA GCATTCTGTT ATGACCTACC TGTCCCAGTT CCCCAAGGCC
AAGCTCAAAC CTGGTGCCCC TGTTCGATCC AAGCAGCTGA ACCCCAAGAA AGCCATCGCC
TATGGGCCTG GCATCGAGCC ACAGGGCAAC ACCGTGCTGC AGCCTGCCCA CTTCACCGTG
CAGACGGTGG ACGCGGGCGT GGGCGAGGTG CTGGTCTACA TCGAGGACCC TGAAGGCCAC
ACCGAGGAGG CTAAGGTGGT TCCCAACAAT GACAAGGATC GCACCTATGC TGTCTCCTAT
GTGCCCAAGG TCGCTGGGTT ACACAAGGTG ACCGTGCTCT TTGCTGGCCA GAACATTGAA
CGCAGTCCCT TTGAGGTGAA CGTGGGCATG GCCCTGGGAG ATGCCAACAA GGTGTCAGCC
CGTGGCCCTG GCCTGGAACC TGTGGGCAAT GTGGCCAACA AACCCACCTA CTTTGACATC
TACACTGCGG GGGCCGGCAC TGGCGATGTT GCTGTGGTGA TCGTGGACCC ACAGGGCCGG
CGGGACACAG TGGAGGTGGC CCTGGAGGAC AAGGGTGACA GCACGTTCCG CTGCACATAC
AGACCTGCCA TGGAGGGGCC ACATACCGTG CATGTGGCCT TTGCGGGTGC CCCCATCACC
CGCAGTCCCT TCCCTGTCCA TGTGTCGGAA GCCTGTAACC CCAACGCCTG CCGCGCCTCT
GGGCGAGGCC TGCAGCCCAA GGGTGTTCGC GTGAAAGAGG TGGCTGACTT CAAGGTGTTT
ACCAAGGGTG CCGGCAGCGG GGAGCTCAAG GTCACGGTCA AGGGGCCAAA GGGCACAGAG
GAGCCAGTGA AGGTGCGGGA GGCTGGGGAT GGTGTGTTCG AGTGCGAGTA CTACCCGGTG
GTGCCTGGGA AGTATGTGGT GACCATCACG TGGGGCGGCT ACGCCATCCC TCGCAGCCCC
TTTGAGGTAC AGGTGAGCCC AGAGGCAGGA GTGCAAAAGG TCCGGGCCTG GGGTCCTGGT
TTGGAGACTG GCCAGGTGGG CAAGTCAGCC GATTTTGTGG TGGAAGCCAT TGGCACCGAG
GTGGGGACAC TGGGCTTCTC CATCGAGGGG CCCTCACAAG CCAAGATCGA ATGTGACGAC
AAGGGGGATG GCTCCTGCGA TGTGCGGTAC TGGCCCACGG AGCCTGGGGA GTACGCTGTG
CACGTCATCT GTGACGATGA GGACATCCGA GACTCACCCT TCATTGCCCA CATCCTGCCC
GCCCCACCTG ACTGCTTCCC AGATAAGGTG AAGGCCTTTG GGCCTGGCCT GGAGCCTACC
GGCTGCATCG TGGACAAGCC CGCTGAGTTC ACCATTGATG CTCGTGCAGC TGGCAAGGGA
GACCTGAAGC TCTATGCCCA GGACGCCGAC GGCTGTCCCA TCGACATCAA GGTGATCCCC
AACGGCGACG GCACCTTCCG CTGCTCCTAC GTGCCCACCA AGCCCATTAA GCACACCATC
ATCATCTCCT GGGGAGGCGT AAACGTGCCC AAGAGCCCCT TCCGGGTGAA CGTGGGCGAG
GGCAGCCACC CCGAGCGGGT AAAGGTGTAC GGCCCCGGAG TGGAGAAGAC AGGCCTCAAG
GCCAATGAGC CCACCTACTT CACGGTGGAC TGCAGCGAGG CGGGGCAAGG CGACGTGAGC
ATCGGCATCA AGTGCGCCCC AGGCGTGGTG GGCCCTGCAG AGGCTGACAT TGACTTCGAC
ATCATCAAGA ATGACAACGA CACCTTCACC GTCAAGTACA CGCCACCAGG GGCGGGCCGC
TACACCATCA TGGTGCTGTT TGCCAACCAG GAGATCCCCG CCAGCCCCTT CCACATCAAG
GTGGACCCAT CCCACGATGC CAGCAAAGTC AAGGCCGAGG GCCCTGGGCT GAATCGCACA
GGTGTGGAAG TCGGGAAGCC CACCCACTTC ACGGTGCTGA CCAAGGGAGC CGGCAAGGCC
AAGCTGGATG TGCAGTTTGC AGGGACAGCC AAGGGCGAGG TTGTGCGGGA CTTTGAGATC
ATAGACAACC ATGACTACTC CTACACTGTC AAGTACACCG CTGTCCAGCA GGGCAACATG
GCAGTGACAG TGACTTATGG CGGGGACCCT GTCCCCAAGA GCCCCTTTGT GGTGAATGTG
GCACCCCCGC TGGACCTCAG CAAAATCAAA GTTCAGGGCC TTAATAGCAA GGTGGCTGTG
GGACAGGAAC AAGCATTCTC TGTGAACACA CGAGGGGCTG GCGGTCAGGG CCAACTGGAT
GTGCGGATGA CTTCGCCCTC TCGCCGGCCC ATCCCCTGCA AGCTGGAGCC AGGCGGTGGA
GCGGAAGCCC AGGCTGTGCG CTACATGCCC CCGGAGGAGG GGCCCTACAA GGTGGATATC
ACCTACGATG GTCACCCGGT GCCTGGCAGC CCGTTTGCTG TGGAGGGTGT CCTGCCCCCT
GATCCCTCCA AGGTCTGTGC TTATGGCCCG GGTCTCAAGG GTGGACTGGT AGGCACCCCC
GCGCCATTCT CCATCGACAC CAAGGGGGCT GGCACAGGTG GCCTGGGGCT GACCGTAGAG
GGCCCCTGCG AGGCCAAGAT CGAGTGCCAG GACAATGGTG ATGGCTCATG TGCTGTCAGC
TACCTGCCCA CGGAGCCTGG CGAGTACACC ATCAACATCC TGTTTGCTGA GGCCCACATC
CCTGGCTCGC CCTTCAAAGC CACCATTCGG CCTGTGTTTG ACCCGAGCAA GGTGCGGGCC
AGTGGACCGG GCCTGGAGCG CGGCAAGGTC GGTGAGGCAG CCACCTTCAC TGTGGACTGC
TCAGAGGCAG GCGAGGCGGA GCTGACCATT GAGATCCTGT CGGATGCCGG GGTCAAGGCC
GAGGTGCTGA TCCACAACAA CGCGGATGGC ACCTACCACA TCACCTACAG CCCTGCCTTC
CCTGGCACCT ACACCATTAC CATCAAGTAT GGCGGGCATC CCGTGCCCAA ATTCCCCACC
CGTGTCCATG TGCAGCCTGC GGTCGATACC AGTGGCGTCA AGGTCTCAGG GCCTGGTGTT
GAGCCACACG GTGTCCTGCG GGAGGTGACC ACTGAGTTCA CTGTGGATGC AAGATCCCTA
ACAGCCACAG GCGGCAACCA CGTGACGGCT CGTGTGCTCA ACCCCTCGGG GGCCAAGACA
GACACCTATG TGACAGACAA TGGGGACGGC ACCTACCGAG TGCAGTACAC CGCCTACGAG
GAGGGCGTGC ATCTGGTGGA GGTCCTGTAT GATGAGGTCG CTGTGCCCAA GAGCCCCTTC
CGAGTGGGCG TGACCGAGGG CTGTGATCCC ACCCGCGTCC GAGCCTTCGG GCCAGGCCTG
GAGGGTGGCT TGGTCAACAA GGCCAACCGA TTCACTGTGG AGACCAGGGG AGCGGGCACC
GGGGGCCTTG GCCTAGCCAT CGAGGGTCCC TCGGAAGCCA AGATGTCCTG CAAGGACAAC
AAGGATGGTA GCTGCACCGT GGAGTACATC CCCTTCACTC CTGGAGACTA TGACGTCAAC
ATCACCTTCG GGGGGCGGCC CATCCCAGGG AGCCCGTTCC GCGTGCCAGT GAAGGATGTG
GTGGACCCTG GGAAGGTGAA GTGCTCAGGG CCAGGGCTGG GGGCTGGTGT CAGGGCCCGG
GTTCCTCAGA CCTTCACAGT GGACTGCAGT CAAGCTGGCC GGGCGCCCCT GCAGGTGGCT
GTGCTGGGCC CCACAGGTGT GGCCGAGCCT GTGGAGGTGC GGGACAATGG AGATGGCACC
CACACTGTCC ACTACACCCC AGCCACTGAC GGGCCCTACA CGGTAGCCGT CAAGTATGCT
GACCAGGAGG TGCCACGCAG CCCCTTCAAG ATCAAGGTCC TCCCAGCTCA TGATGCCAGC
AAGGTGCGGG CCAGCGGCCC AGGCCTCAAC GCCTCTGGCA TCCCTGCCAG CCTGCCTGTG
GAGTTCACCA TCGACGCACG GGACGCGGGC GAGGGGTTGC TCACTGTCCA GATCTTGGAC
CCCGAGGGTA AGCCCAAGAA GGCCAACATC CGGGACAATG GGGATGGCAC GTACACTGTG
TCCTACCTGC CGGACATGAG TGGCCGGTAC ACCATCACCA TCAAGTATGG CGGTGATGAG
ATCCCCTACT CGCCCTTCCG CATCCATGCT CTGCCCACTG GGGATGCCAG CAAGTGCCTC
GTCACAGTGT CCATTGGAGG CCATGGCCTG GGTGCCTGCC TGGGCCCTCG AATCCAGATT
GGGCAGGAGA CGGTGATCAC GGTGGATGCC AAGGCAGCCG GTGAGGGGAA GGTGACATGC
ACGGTGTCCA CGCCGGATGG GGCAGAGCTC GATGTGGATG TGGTTGAGAA CCATGACGGT
ACCTTTGACA TCTACTACAC AGCGCCCGAG CCGGGCAAGT ACGTCATCAC CATCCGCTTC
GGGGGTGAGC ACATCCCCAA CAGCCCCTTC CACGTGCTGG CGTGTGACCC CCTGCCGCAC
GAGGAGGAGC CCTCTGAAGT GCCACAGCTG CGCCAGCCCT ACGCTCCTCC CCGGCCCGGC
GCCCGCCCCA CACACTGGGC CACAGAGGAG CCAGTGGTGC CTGTGGAGCC AATGGAGTCC
ATGCTGAGGC CCTTCAACCT GGTCATCCCC TTCGCGGTGC AGAAAGGGGA GCTCACAGGA
GAGGTGCGGA TGCCCTCGGG GAAGACGGCA CGGCCCAACA TCACCGACAA CAAGGACGGC
ACCATCACGG TGAGGTATGC ACCCACTGAG AAAGGCCTGC ACCAGATGGG GATCAAGTAT
GACGGCAACC ACATCCCTGG GAGCCCCTTA CAGTTCTATG TGGATGCCAT CAACAGCCGC
CATGTCAGTG CCTATGGGCC AGGCCTGAGC CATGGCATGG TCAACAAGCC AGCCACCTTC
ACTATTGTCA CCAAAGATGC TGGAGAAGGG GGTCTGTCAC TGGCCGTGGA GGGCCCATCC
AAGGCAGAGA TCACCTGTAA GGACAACAAG GATGGCACCT GCACCGTGTC CTATCTGCCG
ACTGCGCCTG GAGACTACAG CATCATCGTG CGCTTCGATG ACAAGCACAT CCCGGGGAGC
CCCTTCACAG CCAAGATCAC AGGTGATGAC TCCATGAGGA CCTCACAGCT GAATGTGGGC
ACCTCCACGG ACGTGTCACT GAAGATCACC GAGAGTGATC TGAGCCAGCT GACCGCCAGC
ATCCGTGCCC CCTCGGGCAA CGAGGAGCCC TGCCTGCTGA AGCGCCTGCC CAACCGGCAC
ATTGGGATCT CCTTCACCCC CAAGGAGGTC GGGGAGCACG TGGTGAGCGT GCGCAAGAGT
GGCAAGCATG TCACCAACAG CCCCTTCAAG ATCCTGGTGG GGCCATCTGA GATCGGGGAC
GCCAGCAAGG TGCGGGTCTG GGGCAAGGGG CTTTCCGAGG GACACACATT CCAGGTGGCA
GAGTTCATCG TGGACACTCG CAATGCAGGT TATGGGGGCT TGGGGCTGAG TATTGAAGGC
CCAAGCAAGG TGGACATCAA CTGTGAGGAC ATGGAGGACG GGACATGCAA AGTCACCTAC
TGCCCCACCG AGCCCGGCAC CTACATCATC AACATCAAGT TTGCTGACAA GCACGTGCCT
GGAAGCCCCT TCACTGTGAA GGTGACCGGC GAGGGCCGCA TGAAGGAGAG CATCACCCGG
CGGAGACAGG CACCTTCCAT CGCCACCATC GGCAGCACCT GTGACCTCAA CCTCAAGATC
CCAGGAAACT GGTTCCAGAT GGTGTCTGCC CAGGAGCGCC TGACACGCAC CTTCACACGC
AGCAGCCACA CCTACACCCG CACGGAGCGC ACGGAGATCA GCAAGACGCG GGGCGGGGAG
ACAAAGCGCG AGGTGCGGGT GGAGGAGTCC ACCCAGGTCG GCGGGGACCC CTTCCCTGCT
GTGTTTGGGG ACTTCCTGGG CCGGGAGCGC CTGGGATCCT TCGGCAGCAT CACCCGGCAG
CAGGAGGGTG AGGCCAGCTC TCAGGACATG ACTGCACAGG TGACCAGCCC ATCGGGCAAG
GTGGAAGCCG CAGAGATCGT CGAGGGCGAG GACAGCGCCT ACAGCGTGCG CTTTGTGCCC
CAGGAAATGG GGCCCCATAC GGTCGCTGTC AAGTACCGTG GCCAGCACGT GCCCGGCAGC
CCCTTTCAGT TCACTGTGGG GCCGCTGGGT GAAGGTGGTG CCCACAAGGT GCGGGCCGGA
GGCACAGGGC TGGAGCGAGG TGTGGCCGGC GTGCCAGCCG AGTTCAGCAT CTGGACCCGG
GAGGCTGGCG CTGGGGGCCT GTCCATTGCT GTGGAGGGTC CTAGCAAAGC GGAGATTGCA
TTTGAGGATC GCAAAGATGG CTCCTGCGGC GTCTCCTATG TCGTCCAGGA ACCAGGTGAC
TATGAGGTCT CCATCAAGTT CAATGATGAG CACATCCCAG ACAGCCCCTT TGTGGTGCCT
GTGGCCTCCC TCTCGGATGA CGCTCGCCGT CTCACTGTCA CCAGCCTCCA GGAGACGGGG
CTCAAGGTGA ACCAGCCAGC GTCCTTTGCC GTGCAGCTGA ACGGTGCCCG GGGCGTGATT
GATGCCCGGG TGCACACACC CTCGGGGGCT GTGGAGGAGT GCTACGTCTC TGAGCTGGAC
AGTGACAAGC ACACCATCCG CTTCATCCCC CACGAGAATG GCGTCCACTC CATCGATGTC
AAGTTCAACG GTGCCCACAT CCCTGGAAGT CCCTTCAAGA TCCGCGTTGG GGAGCAGAGC
CAGGCTGGGG ACCCAGGCTT GGTGTCAGCC TACGGTCCTG GGCTCGAGGG AGGCACTACC
GGTGTGTCAT CAGAGTTCAT CGTGAACACC CTGAATGCCG GCTCGGGGGC CTTGTCTGTC
ACCATTGATG GCCCCTCCAA GGTGCAGCTG GACTGTCGGG AGTGTCCTGA GGGCCATGTG
GTCACTTATA CTCCCATGGC CCCTGGCAAC TACCTCATTG CCATCAAGTA CGGTGGCCCC
CAGCACATCG TGGGCAGCCC CTTCAAGGCC AAGGTCACTG GTCCGAGGCT GTCCGGAGGC
CACAGCCTTC ACGAAACATC CACGGTTCTG GTGGAGACTG TGACCAAGTC CTCCTCAAGC
CGGGGCTCCA GCTACAGCTC CATCCCCAAG TTCTCCTCAG ATGCCAGCAA GGTGGTGACT
CGGGGCCCTG GGCTGTCCCA GGCCTTCGTG GGCCAGAAGA ACTCCTTCAC CGTGGACTGC
AGCAAAGCAG GCACCAACAT GATGATGGTG GGCGTGCACG GCCCCAAGAC CCCCTGTGAG
GAGGTGTACG TGAAGCACAT GGGGAACCGG GTGTACAATG TCACCTACAC TGTCAAGGAG
AAAGGGGACT ACATCCTCAT TGTCAAGTGG GGTGACGAAA GTGTCCCTGG AAGCCCCTTC
AAAGTCAAGG TCCCTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

CloneID OHu26755
Clone ID Related Accession (Same CDS sequence) NM_001127487
Accession Version NM_001127487.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 8079bp)
Protein sequence
SNP
Vector pcDNA3.1+/C-(K)DYK or customized vector User Manual
Clone information Clone Map MSDS
Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product filamin-C isoform b
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF146692.1, AF089841.1, AJ012737.1 and AB208865.1. Transcript Variant: This variant (2) lacks an alternate in-frame exon compared to variant 1. The resulting isoform (b) has the same N- and C-termini but is shorter compared to isoform a. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AF146692.1, AJ012737.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968968 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: full length.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
ATGATGAACA ACAGCGGCTA CTCAGACGCC GGCCTCGGCC TGGGCGATGA GACAGACGAG 
ATGCCGTCCA CGGAGAAGGA CCTGGCGGAG GACGCGCCGT GGAAGAAGAT CCAGCAGAAC
ACATTCACGC GCTGGTGCAA TGAGCACCTC AAGTGCGTGG GCAAGCGCCT GACCGACCTG
CAGCGCGACC TCAGCGACGG GCTCCGGCTC ATCGCGCTGC TCGAGGTGCT CAGCCAGAAG
CGCATGTACC GCAAGTTCCA TCCGCGCCCC AACTTCCGCC AAATGAAGCT GGAGAACGTG
TCCGTGGCCC TCGAGTTCCT CGAGCGCGAG CACATCAAGC TCGTGTCCAT AGACAGCAAG
GCCATCGTGG ATGGGAACCT GAAGCTGATC CTGGGCCTGA TCTGGACGCT GATCCTGCAC
TACTCCATCT CCATGCCCAT GTGGGAGGAT GAAGATGATG AGGATGCCCG CAAACAGACG
CCCAAGCAGC GGCTGCTTGG CTGGATCCAG AACAAGGTGC CCCAGCTGCC CATCACCAAC
TTCAACCGTG ACTGGCAGGA CGGCAAAGCT CTGGGCGCCC TGGTGGACAA CTGCGCCCCC
GGTCTCTGCC CCGACTGGGA GGCCTGGGAC CCCAACCAGC CCGTGGAGAA CGCCCGGGAG
GCCATGCAGC AGGCCGACGA CTGGCTTGGG GTGCCCCAGG TCATTGCCCC TGAGGAGATT
GTGGACCCCA ACGTGGATGA GCATTCTGTT ATGACCTACC TGTCCCAGTT CCCCAAGGCC
AAGCTCAAAC CTGGTGCCCC TGTTCGATCC AAGCAGCTGA ACCCCAAGAA AGCCATCGCC
TATGGGCCTG GCATCGAGCC ACAGGGCAAC ACCGTGCTGC AGCCTGCCCA CTTCACCGTG
CAGACGGTGG ACGCGGGCGT GGGCGAGGTG CTGGTCTACA TCGAGGACCC TGAAGGCCAC
ACCGAGGAGG CTAAGGTGGT TCCCAACAAT GACAAGGATC GCACCTATGC TGTCTCCTAT
GTGCCCAAGG TCGCTGGGTT ACACAAGGTG ACCGTGCTCT TTGCTGGCCA GAACATTGAA
CGCAGTCCCT TTGAGGTGAA CGTGGGCATG GCCCTGGGAG ATGCCAACAA GGTGTCAGCC
CGTGGCCCTG GCCTGGAACC TGTGGGCAAT GTGGCCAACA AACCCACCTA CTTTGACATC
TACACTGCGG GGGCCGGCAC TGGCGATGTT GCTGTGGTGA TCGTGGACCC ACAGGGCCGG
CGGGACACAG TGGAGGTGGC CCTGGAGGAC AAGGGTGACA GCACGTTCCG CTGCACATAC
AGACCTGCCA TGGAGGGGCC ACATACCGTG CATGTGGCCT TTGCGGGTGC CCCCATCACC
CGCAGTCCCT TCCCTGTCCA TGTGTCGGAA GCCTGTAACC CCAACGCCTG CCGCGCCTCT
GGGCGAGGCC TGCAGCCCAA GGGTGTTCGC GTGAAAGAGG TGGCTGACTT CAAGGTGTTT
ACCAAGGGTG CCGGCAGCGG GGAGCTCAAG GTCACGGTCA AGGGGCCAAA GGGCACAGAG
GAGCCAGTGA AGGTGCGGGA GGCTGGGGAT GGTGTGTTCG AGTGCGAGTA CTACCCGGTG
GTGCCTGGGA AGTATGTGGT GACCATCACG TGGGGCGGCT ACGCCATCCC TCGCAGCCCC
TTTGAGGTAC AGGTGAGCCC AGAGGCAGGA GTGCAAAAGG TCCGGGCCTG GGGTCCTGGT
TTGGAGACTG GCCAGGTGGG CAAGTCAGCC GATTTTGTGG TGGAAGCCAT TGGCACCGAG
GTGGGGACAC TGGGCTTCTC CATCGAGGGG CCCTCACAAG CCAAGATCGA ATGTGACGAC
AAGGGGGATG GCTCCTGCGA TGTGCGGTAC TGGCCCACGG AGCCTGGGGA GTACGCTGTG
CACGTCATCT GTGACGATGA GGACATCCGA GACTCACCCT TCATTGCCCA CATCCTGCCC
GCCCCACCTG ACTGCTTCCC AGATAAGGTG AAGGCCTTTG GGCCTGGCCT GGAGCCTACC
GGCTGCATCG TGGACAAGCC CGCTGAGTTC ACCATTGATG CTCGTGCAGC TGGCAAGGGA
GACCTGAAGC TCTATGCCCA GGACGCCGAC GGCTGTCCCA TCGACATCAA GGTGATCCCC
AACGGCGACG GCACCTTCCG CTGCTCCTAC GTGCCCACCA AGCCCATTAA GCACACCATC
ATCATCTCCT GGGGAGGCGT AAACGTGCCC AAGAGCCCCT TCCGGGTGAA CGTGGGCGAG
GGCAGCCACC CCGAGCGGGT AAAGGTGTAC GGCCCCGGAG TGGAGAAGAC AGGCCTCAAG
GCCAATGAGC CCACCTACTT CACGGTGGAC TGCAGCGAGG CGGGGCAAGG CGACGTGAGC
ATCGGCATCA AGTGCGCCCC AGGCGTGGTG GGCCCTGCAG AGGCTGACAT TGACTTCGAC
ATCATCAAGA ATGACAACGA CACCTTCACC GTCAAGTACA CGCCACCAGG GGCGGGCCGC
TACACCATCA TGGTGCTGTT TGCCAACCAG GAGATCCCCG CCAGCCCCTT CCACATCAAG
GTGGACCCAT CCCACGATGC CAGCAAAGTC AAGGCCGAGG GCCCTGGGCT GAATCGCACA
GGTGTGGAAG TCGGGAAGCC CACCCACTTC ACGGTGCTGA CCAAGGGAGC CGGCAAGGCC
AAGCTGGATG TGCAGTTTGC AGGGACAGCC AAGGGCGAGG TTGTGCGGGA CTTTGAGATC
ATAGACAACC ATGACTACTC CTACACTGTC AAGTACACCG CTGTCCAGCA GGGCAACATG
GCAGTGACAG TGACTTATGG CGGGGACCCT GTCCCCAAGA GCCCCTTTGT GGTGAATGTG
GCACCCCCGC TGGACCTCAG CAAAATCAAA GTTCAGGGCC TTAATAGCAA GGTGGCTGTG
GGACAGGAAC AAGCATTCTC TGTGAACACA CGAGGGGCTG GCGGTCAGGG CCAACTGGAT
GTGCGGATGA CTTCGCCCTC TCGCCGGCCC ATCCCCTGCA AGCTGGAGCC AGGCGGTGGA
GCGGAAGCCC AGGCTGTGCG CTACATGCCC CCGGAGGAGG GGCCCTACAA GGTGGATATC
ACCTACGATG GTCACCCGGT GCCTGGCAGC CCGTTTGCTG TGGAGGGTGT CCTGCCCCCT
GATCCCTCCA AGGTCTGTGC TTATGGCCCG GGTCTCAAGG GTGGACTGGT AGGCACCCCC
GCGCCATTCT CCATCGACAC CAAGGGGGCT GGCACAGGTG GCCTGGGGCT GACCGTAGAG
GGCCCCTGCG AGGCCAAGAT CGAGTGCCAG GACAATGGTG ATGGCTCATG TGCTGTCAGC
TACCTGCCCA CGGAGCCTGG CGAGTACACC ATCAACATCC TGTTTGCTGA GGCCCACATC
CCTGGCTCGC CCTTCAAAGC CACCATTCGG CCTGTGTTTG ACCCGAGCAA GGTGCGGGCC
AGTGGACCGG GCCTGGAGCG CGGCAAGGTC GGTGAGGCAG CCACCTTCAC TGTGGACTGC
TCAGAGGCAG GCGAGGCGGA GCTGACCATT GAGATCCTGT CGGATGCCGG GGTCAAGGCC
GAGGTGCTGA TCCACAACAA CGCGGATGGC ACCTACCACA TCACCTACAG CCCTGCCTTC
CCTGGCACCT ACACCATTAC CATCAAGTAT GGCGGGCATC CCGTGCCCAA ATTCCCCACC
CGTGTCCATG TGCAGCCTGC GGTCGATACC AGTGGCGTCA AGGTCTCAGG GCCTGGTGTT
GAGCCACACG GTGTCCTGCG GGAGGTGACC ACTGAGTTCA CTGTGGATGC AAGATCCCTA
ACAGCCACAG GCGGCAACCA CGTGACGGCT CGTGTGCTCA ACCCCTCGGG GGCCAAGACA
GACACCTATG TGACAGACAA TGGGGACGGC ACCTACCGAG TGCAGTACAC CGCCTACGAG
GAGGGCGTGC ATCTGGTGGA GGTCCTGTAT GATGAGGTCG CTGTGCCCAA GAGCCCCTTC
CGAGTGGGCG TGACCGAGGG CTGTGATCCC ACCCGCGTCC GAGCCTTCGG GCCAGGCCTG
GAGGGTGGCT TGGTCAACAA GGCCAACCGA TTCACTGTGG AGACCAGGGG AGCGGGCACC
GGGGGCCTTG GCCTAGCCAT CGAGGGTCCC TCGGAAGCCA AGATGTCCTG CAAGGACAAC
AAGGATGGTA GCTGCACCGT GGAGTACATC CCCTTCACTC CTGGAGACTA TGACGTCAAC
ATCACCTTCG GGGGGCGGCC CATCCCAGGG AGCCCGTTCC GCGTGCCAGT GAAGGATGTG
GTGGACCCTG GGAAGGTGAA GTGCTCAGGG CCAGGGCTGG GGGCTGGTGT CAGGGCCCGG
GTTCCTCAGA CCTTCACAGT GGACTGCAGT CAAGCTGGCC GGGCGCCCCT GCAGGTGGCT
GTGCTGGGCC CCACAGGTGT GGCCGAGCCT GTGGAGGTGC GGGACAATGG AGATGGCACC
CACACTGTCC ACTACACCCC AGCCACTGAC GGGCCCTACA CGGTAGCCGT CAAGTATGCT
GACCAGGAGG TGCCACGCAG CCCCTTCAAG ATCAAGGTCC TCCCAGCTCA TGATGCCAGC
AAGGTGCGGG CCAGCGGCCC AGGCCTCAAC GCCTCTGGCA TCCCTGCCAG CCTGCCTGTG
GAGTTCACCA TCGACGCACG GGACGCGGGC GAGGGGTTGC TCACTGTCCA GATCTTGGAC
CCCGAGGGTA AGCCCAAGAA GGCCAACATC CGGGACAATG GGGATGGCAC GTACACTGTG
TCCTACCTGC CGGACATGAG TGGCCGGTAC ACCATCACCA TCAAGTATGG CGGTGATGAG
ATCCCCTACT CGCCCTTCCG CATCCATGCT CTGCCCACTG GGGATGCCAG CAAGTGCCTC
GTCACAGTGT CCATTGGAGG CCATGGCCTG GGTGCCTGCC TGGGCCCTCG AATCCAGATT
GGGCAGGAGA CGGTGATCAC GGTGGATGCC AAGGCAGCCG GTGAGGGGAA GGTGACATGC
ACGGTGTCCA CGCCGGATGG GGCAGAGCTC GATGTGGATG TGGTTGAGAA CCATGACGGT
ACCTTTGACA TCTACTACAC AGCGCCCGAG CCGGGCAAGT ACGTCATCAC CATCCGCTTC
GGGGGTGAGC ACATCCCCAA CAGCCCCTTC CACGTGCTGG CCACAGAGGA GCCAGTGGTG
CCTGTGGAGC CAATGGAGTC CATGCTGAGG CCCTTCAACC TGGTCATCCC CTTCGCGGTG
CAGAAAGGGG AGCTCACAGG AGAGGTGCGG ATGCCCTCGG GGAAGACGGC ACGGCCCAAC
ATCACCGACA ACAAGGACGG CACCATCACG GTGAGGTATG CACCCACTGA GAAAGGCCTG
CACCAGATGG GGATCAAGTA TGACGGCAAC CACATCCCTG GGAGCCCCTT ACAGTTCTAT
GTGGATGCCA TCAACAGCCG CCATGTCAGT GCCTATGGGC CAGGCCTGAG CCATGGCATG
GTCAACAAGC CAGCCACCTT CACTATTGTC ACCAAAGATG CTGGAGAAGG GGGTCTGTCA
CTGGCCGTGG AGGGCCCATC CAAGGCAGAG ATCACCTGTA AGGACAACAA GGATGGCACC
TGCACCGTGT CCTATCTGCC GACTGCGCCT GGAGACTACA GCATCATCGT GCGCTTCGAT
GACAAGCACA TCCCGGGGAG CCCCTTCACA GCCAAGATCA CAGGTGATGA CTCCATGAGG
ACCTCACAGC TGAATGTGGG CACCTCCACG GACGTGTCAC TGAAGATCAC CGAGAGTGAT
CTGAGCCAGC TGACCGCCAG CATCCGTGCC CCCTCGGGCA ACGAGGAGCC CTGCCTGCTG
AAGCGCCTGC CCAACCGGCA CATTGGGATC TCCTTCACCC CCAAGGAGGT CGGGGAGCAC
GTGGTGAGCG TGCGCAAGAG TGGCAAGCAT GTCACCAACA GCCCCTTCAA GATCCTGGTG
GGGCCATCTG AGATCGGGGA CGCCAGCAAG GTGCGGGTCT GGGGCAAGGG GCTTTCCGAG
GGACACACAT TCCAGGTGGC AGAGTTCATC GTGGACACTC GCAATGCAGG TTATGGGGGC
TTGGGGCTGA GTATTGAAGG CCCAAGCAAG GTGGACATCA ACTGTGAGGA CATGGAGGAC
GGGACATGCA AAGTCACCTA CTGCCCCACC GAGCCCGGCA CCTACATCAT CAACATCAAG
TTTGCTGACA AGCACGTGCC TGGAAGCCCC TTCACTGTGA AGGTGACCGG CGAGGGCCGC
ATGAAGGAGA GCATCACCCG GCGGAGACAG GCACCTTCCA TCGCCACCAT CGGCAGCACC
TGTGACCTCA ACCTCAAGAT CCCAGGAAAC TGGTTCCAGA TGGTGTCTGC CCAGGAGCGC
CTGACACGCA CCTTCACACG CAGCAGCCAC ACCTACACCC GCACGGAGCG CACGGAGATC
AGCAAGACGC GGGGCGGGGA GACAAAGCGC GAGGTGCGGG TGGAGGAGTC CACCCAGGTC
GGCGGGGACC CCTTCCCTGC TGTGTTTGGG GACTTCCTGG GCCGGGAGCG CCTGGGATCC
TTCGGCAGCA TCACCCGGCA GCAGGAGGGT GAGGCCAGCT CTCAGGACAT GACTGCACAG
GTGACCAGCC CATCGGGCAA GGTGGAAGCC GCAGAGATCG TCGAGGGCGA GGACAGCGCC
TACAGCGTGC GCTTTGTGCC CCAGGAAATG GGGCCCCATA CGGTCGCTGT CAAGTACCGT
GGCCAGCACG TGCCCGGCAG CCCCTTTCAG TTCACTGTGG GGCCGCTGGG TGAAGGTGGT
GCCCACAAGG TGCGGGCCGG AGGCACAGGG CTGGAGCGAG GTGTGGCCGG CGTGCCAGCC
GAGTTCAGCA TCTGGACCCG GGAGGCTGGC GCTGGGGGCC TGTCCATTGC TGTGGAGGGT
CCTAGCAAAG CGGAGATTGC ATTTGAGGAT CGCAAAGATG GCTCCTGCGG CGTCTCCTAT
GTCGTCCAGG AACCAGGTGA CTATGAGGTC TCCATCAAGT TCAATGATGA GCACATCCCA
GACAGCCCCT TTGTGGTGCC TGTGGCCTCC CTCTCGGATG ACGCTCGCCG TCTCACTGTC
ACCAGCCTCC AGGAGACGGG GCTCAAGGTG AACCAGCCAG CGTCCTTTGC CGTGCAGCTG
AACGGTGCCC GGGGCGTGAT TGATGCCCGG GTGCACACAC CCTCGGGGGC TGTGGAGGAG
TGCTACGTCT CTGAGCTGGA CAGTGACAAG CACACCATCC GCTTCATCCC CCACGAGAAT
GGCGTCCACT CCATCGATGT CAAGTTCAAC GGTGCCCACA TCCCTGGAAG TCCCTTCAAG
ATCCGCGTTG GGGAGCAGAG CCAGGCTGGG GACCCAGGCT TGGTGTCAGC CTACGGTCCT
GGGCTCGAGG GAGGCACTAC CGGTGTGTCA TCAGAGTTCA TCGTGAACAC CCTGAATGCC
GGCTCGGGGG CCTTGTCTGT CACCATTGAT GGCCCCTCCA AGGTGCAGCT GGACTGTCGG
GAGTGTCCTG AGGGCCATGT GGTCACTTAT ACTCCCATGG CCCCTGGCAA CTACCTCATT
GCCATCAAGT ACGGTGGCCC CCAGCACATC GTGGGCAGCC CCTTCAAGGC CAAGGTCACT
GGTCCGAGGC TGTCCGGAGG CCACAGCCTT CACGAAACAT CCACGGTTCT GGTGGAGACT
GTGACCAAGT CCTCCTCAAG CCGGGGCTCC AGCTACAGCT CCATCCCCAA GTTCTCCTCA
GATGCCAGCA AGGTGGTGAC TCGGGGCCCT GGGCTGTCCC AGGCCTTCGT GGGCCAGAAG
AACTCCTTCA CCGTGGACTG CAGCAAAGCA GGCACCAACA TGATGATGGT GGGCGTGCAC
GGCCCCAAGA CCCCCTGTGA GGAGGTGTAC GTGAAGCACA TGGGGAACCG GGTGTACAAT
GTCACCTACA CTGTCAAGGA GAAAGGGGAC TACATCCTCA TTGTCAAGTG GGGTGACGAA
AGTGTCCCTG GAAGCCCCTT CAAAGTCAAG GTCCCTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

RefSeq NP_001120959.1
CDS210..8288
Misc Feature(1)39..41(+)
Misc Feature(2)210..1013(+)
Misc Feature(3)318..632(+)
Misc Feature(4)318..629(+)
Misc Feature(5)690..980(+)
Misc Feature(6)690..977(+)
Misc Feature(7)1017..1313(+)
Misc Feature(8)1032..1322(+)
Misc Feature(9)1317..1613(+)
Misc Feature(10)1332..1622(+)
Misc Feature(11)1614..1904(+)
Misc Feature(12)1629..1910(+)
Misc Feature(13)1905..2183(+)
Misc Feature(14)1923..2192(+)
Misc Feature(15)2193..2483(+)
Misc Feature(16)2208..2492(+)
Misc Feature(17)2484..2792(+)
Misc Feature(18)2499..2801(+)
Misc Feature(19)2793..3089(+)
Misc Feature(20)2808..3098(+)
Misc Feature(21)3090..3377(+)
Misc Feature(22)3108..3389(+)
Misc Feature(23)3378..3656(+)
Misc Feature(24)3393..3662(+)
Misc Feature(25)3657..3941(+)
Misc Feature(26)3672..3950(+)
Misc Feature(27)3690..3692(+)
Misc Feature(28)3942..4241(+)
Misc Feature(29)3960..4250(+)
Misc Feature(30)4242..4520(+)
Misc Feature(31)4257..4526(+)
Misc Feature(32)4521..4808(+)
Misc Feature(33)4536..4817(+)
Misc Feature(34)4809..5099(+)
Misc Feature(35)4824..5108(+)
Misc Feature(36)5115..5417(+)
Misc Feature(37)5493..5675(+)
Misc Feature(38)5670..5948(+)
Misc Feature(39)5694..5954(+)
Misc Feature(40)5949..6209(+)
Misc Feature(41)6216..6494(+)
Misc Feature(42)6231..6500(+)
Misc Feature(43)6594..6839(+)
Misc Feature(44)6807..6809(+)
Misc Feature(45)6840..7034(+)
Misc Feature(46)6840..7028(+)
Misc Feature(47)7035..7313(+)
Misc Feature(48)7050..7316(+)
Misc Feature(49)7329..7589(+)
Misc Feature(50)7623..7895(+)
Misc Feature(51)7887..8000(+)
Misc Feature(52)8013..8282(+)
Exon (1)1..561
Gene:FLNC
Gene Synonym:
Exon (2)562..810
Gene:FLNC
Gene Synonym:
Exon (3)811..908
Gene:FLNC
Gene Synonym:
Exon (4)909..1059
Gene:FLNC
Gene Synonym:
Exon (5)1060..1178
Gene:FLNC
Gene Synonym:
Exon (6)1179..1256
Gene:FLNC
Gene Synonym:
Exon (7)1257..1419
Gene:FLNC
Gene Synonym:
Exon (8)1420..1620
Gene:FLNC
Gene Synonym:
Exon (9)1621..1758
Gene:FLNC
Gene Synonym:
Exon (10)1759..1885
Gene:FLNC
Gene Synonym:
Exon (11)1886..2022
Gene:FLNC
Gene Synonym:
Exon (12)2023..2216
Gene:FLNC
Gene Synonym:
Exon (13)2217..2330
Gene:FLNC
Gene Synonym:
Exon (14)2331..2474
Gene:FLNC
Gene Synonym:
Exon (15)2475..2598
Gene:FLNC
Gene Synonym:
Exon (16)2599..2759
Gene:FLNC
Gene Synonym:
Exon (17)2760..2850
Gene:FLNC
Gene Synonym:
Exon (18)2851..3020
Gene:FLNC
Gene Synonym:
Exon (19)3021..3138
Gene:FLNC
Gene Synonym:
Exon (20)3139..3401
Gene:FLNC
Gene Synonym:
Exon (21)3402..3999
Gene:FLNC
Gene Synonym:
Exon (22)4000..4173
Gene:FLNC
Gene Synonym:
Exon (23)4174..4336
Gene:FLNC
Gene Synonym:
Exon (24)4337..4497
Gene:FLNC
Gene Synonym:
Exon (25)4498..4665
Gene:FLNC
Gene Synonym:
Exon (26)4666..4789
Gene:FLNC
Gene Synonym:
Exon (27)4790..4946
Gene:FLNC
Gene Synonym:
Exon (28)4947..5136
Gene:FLNC
Gene Synonym:
Exon (29)5137..5160
Gene:FLNC
Gene Synonym:
Exon (30)5161..5408
Gene:FLNC
Gene Synonym:
Exon (31)5409..5508
Gene:FLNC
Gene Synonym:
Exon (32)5509..5649
Gene:FLNC
Gene Synonym:
Exon (33)5650..5778
Gene:FLNC
Gene Synonym:
Exon (34)5779..5952
Gene:FLNC
Gene Synonym:
Exon (35)5953..6114
Gene:FLNC
Gene Synonym:
Exon (36)6115..6318
Gene:FLNC
Gene Synonym:
Exon (37)6319..6471
Gene:FLNC
Gene Synonym:
Exon (38)6472..6594
Gene:FLNC
Gene Synonym:
Exon (39)6595..6837
Gene:FLNC
Gene Synonym:
Exon (40)6838..7107
Gene:FLNC
Gene Synonym:
Exon (41)7108..7245
Gene:FLNC
Gene Synonym:
Exon (42)7246..7361
Gene:FLNC
Gene Synonym:
Exon (43)7362..7494
Gene:FLNC
Gene Synonym:
Exon (44)7495..7671
Gene:FLNC
Gene Synonym:
Exon (45)7672..7890
Gene:FLNC
Gene Synonym:
Exon (46)7891..8100
Gene:FLNC
Gene Synonym:
Exon (47)8101..9039
Gene:FLNC
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001127487
Organism Homo sapiens (human)
Definition Homo sapiens filamin C, gamma (FLNC), transcript variant 2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001127487

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
7921
7981
8041
ATGATGAACA ACAGCGGCTA CTCAGACGCC GGCCTCGGCC TGGGCGATGA GACAGACGAG 
ATGCCGTCCA CGGAGAAGGA CCTGGCGGAG GACGCGCCGT GGAAGAAGAT CCAGCAGAAC
ACATTCACGC GCTGGTGCAA TGAGCACCTC AAGTGCGTGG GCAAGCGCCT GACCGACCTG
CAGCGCGACC TCAGCGACGG GCTCCGGCTC ATCGCGCTGC TCGAGGTGCT CAGCCAGAAG
CGCATGTACC GCAAGTTCCA TCCGCGCCCC AACTTCCGCC AAATGAAGCT GGAGAACGTG
TCCGTGGCCC TCGAGTTCCT CGAGCGCGAG CACATCAAGC TCGTGTCCAT AGACAGCAAG
GCCATCGTGG ATGGGAACCT GAAGCTGATC CTGGGCCTGA TCTGGACGCT GATCCTGCAC
TACTCCATCT CCATGCCCAT GTGGGAGGAT GAAGATGATG AGGATGCCCG CAAACAGACG
CCCAAGCAGC GGCTGCTTGG CTGGATCCAG AACAAGGTGC CCCAGCTGCC CATCACCAAC
TTCAACCGTG ACTGGCAGGA CGGCAAAGCT CTGGGCGCCC TGGTGGACAA CTGCGCCCCC
GGTCTCTGCC CCGACTGGGA GGCCTGGGAC CCCAACCAGC CCGTGGAGAA CGCCCGGGAG
GCCATGCAGC AGGCCGACGA CTGGCTTGGG GTGCCCCAGG TCATTGCCCC TGAGGAGATT
GTGGACCCCA ACGTGGATGA GCATTCTGTT ATGACCTACC TGTCCCAGTT CCCCAAGGCC
AAGCTCAAAC CTGGTGCCCC TGTTCGATCC AAGCAGCTGA ACCCCAAGAA AGCCATCGCC
TATGGGCCTG GCATCGAGCC ACAGGGCAAC ACCGTGCTGC AGCCTGCCCA CTTCACCGTG
CAGACGGTGG ACGCGGGCGT GGGCGAGGTG CTGGTCTACA TCGAGGACCC TGAAGGCCAC
ACCGAGGAGG CTAAGGTGGT TCCCAACAAT GACAAGGATC GCACCTATGC TGTCTCCTAT
GTGCCCAAGG TCGCTGGGTT ACACAAGGTG ACCGTGCTCT TTGCTGGCCA GAACATTGAA
CGCAGTCCCT TTGAGGTGAA CGTGGGCATG GCCCTGGGAG ATGCCAACAA GGTGTCAGCC
CGTGGCCCTG GCCTGGAACC TGTGGGCAAT GTGGCCAACA AACCCACCTA CTTTGACATC
TACACTGCGG GGGCCGGCAC TGGCGATGTT GCTGTGGTGA TCGTGGACCC ACAGGGCCGG
CGGGACACAG TGGAGGTGGC CCTGGAGGAC AAGGGTGACA GCACGTTCCG CTGCACATAC
AGACCTGCCA TGGAGGGGCC ACATACCGTG CATGTGGCCT TTGCGGGTGC CCCCATCACC
CGCAGTCCCT TCCCTGTCCA TGTGTCGGAA GCCTGTAACC CCAACGCCTG CCGCGCCTCT
GGGCGAGGCC TGCAGCCCAA GGGTGTTCGC GTGAAAGAGG TGGCTGACTT CAAGGTGTTT
ACCAAGGGTG CCGGCAGCGG GGAGCTCAAG GTCACGGTCA AGGGGCCAAA GGGCACAGAG
GAGCCAGTGA AGGTGCGGGA GGCTGGGGAT GGTGTGTTCG AGTGCGAGTA CTACCCGGTG
GTGCCTGGGA AGTATGTGGT GACCATCACG TGGGGCGGCT ACGCCATCCC TCGCAGCCCC
TTTGAGGTAC AGGTGAGCCC AGAGGCAGGA GTGCAAAAGG TCCGGGCCTG GGGTCCTGGT
TTGGAGACTG GCCAGGTGGG CAAGTCAGCC GATTTTGTGG TGGAAGCCAT TGGCACCGAG
GTGGGGACAC TGGGCTTCTC CATCGAGGGG CCCTCACAAG CCAAGATCGA ATGTGACGAC
AAGGGGGATG GCTCCTGCGA TGTGCGGTAC TGGCCCACGG AGCCTGGGGA GTACGCTGTG
CACGTCATCT GTGACGATGA GGACATCCGA GACTCACCCT TCATTGCCCA CATCCTGCCC
GCCCCACCTG ACTGCTTCCC AGATAAGGTG AAGGCCTTTG GGCCTGGCCT GGAGCCTACC
GGCTGCATCG TGGACAAGCC CGCTGAGTTC ACCATTGATG CTCGTGCAGC TGGCAAGGGA
GACCTGAAGC TCTATGCCCA GGACGCCGAC GGCTGTCCCA TCGACATCAA GGTGATCCCC
AACGGCGACG GCACCTTCCG CTGCTCCTAC GTGCCCACCA AGCCCATTAA GCACACCATC
ATCATCTCCT GGGGAGGCGT AAACGTGCCC AAGAGCCCCT TCCGGGTGAA CGTGGGCGAG
GGCAGCCACC CCGAGCGGGT AAAGGTGTAC GGCCCCGGAG TGGAGAAGAC AGGCCTCAAG
GCCAATGAGC CCACCTACTT CACGGTGGAC TGCAGCGAGG CGGGGCAAGG CGACGTGAGC
ATCGGCATCA AGTGCGCCCC AGGCGTGGTG GGCCCTGCAG AGGCTGACAT TGACTTCGAC
ATCATCAAGA ATGACAACGA CACCTTCACC GTCAAGTACA CGCCACCAGG GGCGGGCCGC
TACACCATCA TGGTGCTGTT TGCCAACCAG GAGATCCCCG CCAGCCCCTT CCACATCAAG
GTGGACCCAT CCCACGATGC CAGCAAAGTC AAGGCCGAGG GCCCTGGGCT GAATCGCACA
GGTGTGGAAG TCGGGAAGCC CACCCACTTC ACGGTGCTGA CCAAGGGAGC CGGCAAGGCC
AAGCTGGATG TGCAGTTTGC AGGGACAGCC AAGGGCGAGG TTGTGCGGGA CTTTGAGATC
ATAGACAACC ATGACTACTC CTACACTGTC AAGTACACCG CTGTCCAGCA GGGCAACATG
GCAGTGACAG TGACTTATGG CGGGGACCCT GTCCCCAAGA GCCCCTTTGT GGTGAATGTG
GCACCCCCGC TGGACCTCAG CAAAATCAAA GTTCAGGGCC TTAATAGCAA GGTGGCTGTG
GGACAGGAAC AAGCATTCTC TGTGAACACA CGAGGGGCTG GCGGTCAGGG CCAACTGGAT
GTGCGGATGA CTTCGCCCTC TCGCCGGCCC ATCCCCTGCA AGCTGGAGCC AGGCGGTGGA
GCGGAAGCCC AGGCTGTGCG CTACATGCCC CCGGAGGAGG GGCCCTACAA GGTGGATATC
ACCTACGATG GTCACCCGGT GCCTGGCAGC CCGTTTGCTG TGGAGGGTGT CCTGCCCCCT
GATCCCTCCA AGGTCTGTGC TTATGGCCCG GGTCTCAAGG GTGGACTGGT AGGCACCCCC
GCGCCATTCT CCATCGACAC CAAGGGGGCT GGCACAGGTG GCCTGGGGCT GACCGTAGAG
GGCCCCTGCG AGGCCAAGAT CGAGTGCCAG GACAATGGTG ATGGCTCATG TGCTGTCAGC
TACCTGCCCA CGGAGCCTGG CGAGTACACC ATCAACATCC TGTTTGCTGA GGCCCACATC
CCTGGCTCGC CCTTCAAAGC CACCATTCGG CCTGTGTTTG ACCCGAGCAA GGTGCGGGCC
AGTGGACCGG GCCTGGAGCG CGGCAAGGTC GGTGAGGCAG CCACCTTCAC TGTGGACTGC
TCAGAGGCAG GCGAGGCGGA GCTGACCATT GAGATCCTGT CGGATGCCGG GGTCAAGGCC
GAGGTGCTGA TCCACAACAA CGCGGATGGC ACCTACCACA TCACCTACAG CCCTGCCTTC
CCTGGCACCT ACACCATTAC CATCAAGTAT GGCGGGCATC CCGTGCCCAA ATTCCCCACC
CGTGTCCATG TGCAGCCTGC GGTCGATACC AGTGGCGTCA AGGTCTCAGG GCCTGGTGTT
GAGCCACACG GTGTCCTGCG GGAGGTGACC ACTGAGTTCA CTGTGGATGC AAGATCCCTA
ACAGCCACAG GCGGCAACCA CGTGACGGCT CGTGTGCTCA ACCCCTCGGG GGCCAAGACA
GACACCTATG TGACAGACAA TGGGGACGGC ACCTACCGAG TGCAGTACAC CGCCTACGAG
GAGGGCGTGC ATCTGGTGGA GGTCCTGTAT GATGAGGTCG CTGTGCCCAA GAGCCCCTTC
CGAGTGGGCG TGACCGAGGG CTGTGATCCC ACCCGCGTCC GAGCCTTCGG GCCAGGCCTG
GAGGGTGGCT TGGTCAACAA GGCCAACCGA TTCACTGTGG AGACCAGGGG AGCGGGCACC
GGGGGCCTTG GCCTAGCCAT CGAGGGTCCC TCGGAAGCCA AGATGTCCTG CAAGGACAAC
AAGGATGGTA GCTGCACCGT GGAGTACATC CCCTTCACTC CTGGAGACTA TGACGTCAAC
ATCACCTTCG GGGGGCGGCC CATCCCAGGG AGCCCGTTCC GCGTGCCAGT GAAGGATGTG
GTGGACCCTG GGAAGGTGAA GTGCTCAGGG CCAGGGCTGG GGGCTGGTGT CAGGGCCCGG
GTTCCTCAGA CCTTCACAGT GGACTGCAGT CAAGCTGGCC GGGCGCCCCT GCAGGTGGCT
GTGCTGGGCC CCACAGGTGT GGCCGAGCCT GTGGAGGTGC GGGACAATGG AGATGGCACC
CACACTGTCC ACTACACCCC AGCCACTGAC GGGCCCTACA CGGTAGCCGT CAAGTATGCT
GACCAGGAGG TGCCACGCAG CCCCTTCAAG ATCAAGGTCC TCCCAGCTCA TGATGCCAGC
AAGGTGCGGG CCAGCGGCCC AGGCCTCAAC GCCTCTGGCA TCCCTGCCAG CCTGCCTGTG
GAGTTCACCA TCGACGCACG GGACGCGGGC GAGGGGTTGC TCACTGTCCA GATCTTGGAC
CCCGAGGGTA AGCCCAAGAA GGCCAACATC CGGGACAATG GGGATGGCAC GTACACTGTG
TCCTACCTGC CGGACATGAG TGGCCGGTAC ACCATCACCA TCAAGTATGG CGGTGATGAG
ATCCCCTACT CGCCCTTCCG CATCCATGCT CTGCCCACTG GGGATGCCAG CAAGTGCCTC
GTCACAGTGT CCATTGGAGG CCATGGCCTG GGTGCCTGCC TGGGCCCTCG AATCCAGATT
GGGCAGGAGA CGGTGATCAC GGTGGATGCC AAGGCAGCCG GTGAGGGGAA GGTGACATGC
ACGGTGTCCA CGCCGGATGG GGCAGAGCTC GATGTGGATG TGGTTGAGAA CCATGACGGT
ACCTTTGACA TCTACTACAC AGCGCCCGAG CCGGGCAAGT ACGTCATCAC CATCCGCTTC
GGGGGTGAGC ACATCCCCAA CAGCCCCTTC CACGTGCTGG CCACAGAGGA GCCAGTGGTG
CCTGTGGAGC CAATGGAGTC CATGCTGAGG CCCTTCAACC TGGTCATCCC CTTCGCGGTG
CAGAAAGGGG AGCTCACAGG AGAGGTGCGG ATGCCCTCGG GGAAGACGGC ACGGCCCAAC
ATCACCGACA ACAAGGACGG CACCATCACG GTGAGGTATG CACCCACTGA GAAAGGCCTG
CACCAGATGG GGATCAAGTA TGACGGCAAC CACATCCCTG GGAGCCCCTT ACAGTTCTAT
GTGGATGCCA TCAACAGCCG CCATGTCAGT GCCTATGGGC CAGGCCTGAG CCATGGCATG
GTCAACAAGC CAGCCACCTT CACTATTGTC ACCAAAGATG CTGGAGAAGG GGGTCTGTCA
CTGGCCGTGG AGGGCCCATC CAAGGCAGAG ATCACCTGTA AGGACAACAA GGATGGCACC
TGCACCGTGT CCTATCTGCC GACTGCGCCT GGAGACTACA GCATCATCGT GCGCTTCGAT
GACAAGCACA TCCCGGGGAG CCCCTTCACA GCCAAGATCA CAGGTGATGA CTCCATGAGG
ACCTCACAGC TGAATGTGGG CACCTCCACG GACGTGTCAC TGAAGATCAC CGAGAGTGAT
CTGAGCCAGC TGACCGCCAG CATCCGTGCC CCCTCGGGCA ACGAGGAGCC CTGCCTGCTG
AAGCGCCTGC CCAACCGGCA CATTGGGATC TCCTTCACCC CCAAGGAGGT CGGGGAGCAC
GTGGTGAGCG TGCGCAAGAG TGGCAAGCAT GTCACCAACA GCCCCTTCAA GATCCTGGTG
GGGCCATCTG AGATCGGGGA CGCCAGCAAG GTGCGGGTCT GGGGCAAGGG GCTTTCCGAG
GGACACACAT TCCAGGTGGC AGAGTTCATC GTGGACACTC GCAATGCAGG TTATGGGGGC
TTGGGGCTGA GTATTGAAGG CCCAAGCAAG GTGGACATCA ACTGTGAGGA CATGGAGGAC
GGGACATGCA AAGTCACCTA CTGCCCCACC GAGCCCGGCA CCTACATCAT CAACATCAAG
TTTGCTGACA AGCACGTGCC TGGAAGCCCC TTCACTGTGA AGGTGACCGG CGAGGGCCGC
ATGAAGGAGA GCATCACCCG GCGGAGACAG GCACCTTCCA TCGCCACCAT CGGCAGCACC
TGTGACCTCA ACCTCAAGAT CCCAGGAAAC TGGTTCCAGA TGGTGTCTGC CCAGGAGCGC
CTGACACGCA CCTTCACACG CAGCAGCCAC ACCTACACCC GCACGGAGCG CACGGAGATC
AGCAAGACGC GGGGCGGGGA GACAAAGCGC GAGGTGCGGG TGGAGGAGTC CACCCAGGTC
GGCGGGGACC CCTTCCCTGC TGTGTTTGGG GACTTCCTGG GCCGGGAGCG CCTGGGATCC
TTCGGCAGCA TCACCCGGCA GCAGGAGGGT GAGGCCAGCT CTCAGGACAT GACTGCACAG
GTGACCAGCC CATCGGGCAA GGTGGAAGCC GCAGAGATCG TCGAGGGCGA GGACAGCGCC
TACAGCGTGC GCTTTGTGCC CCAGGAAATG GGGCCCCATA CGGTCGCTGT CAAGTACCGT
GGCCAGCACG TGCCCGGCAG CCCCTTTCAG TTCACTGTGG GGCCGCTGGG TGAAGGTGGT
GCCCACAAGG TGCGGGCCGG AGGCACAGGG CTGGAGCGAG GTGTGGCCGG CGTGCCAGCC
GAGTTCAGCA TCTGGACCCG GGAGGCTGGC GCTGGGGGCC TGTCCATTGC TGTGGAGGGT
CCTAGCAAAG CGGAGATTGC ATTTGAGGAT CGCAAAGATG GCTCCTGCGG CGTCTCCTAT
GTCGTCCAGG AACCAGGTGA CTATGAGGTC TCCATCAAGT TCAATGATGA GCACATCCCA
GACAGCCCCT TTGTGGTGCC TGTGGCCTCC CTCTCGGATG ACGCTCGCCG TCTCACTGTC
ACCAGCCTCC AGGAGACGGG GCTCAAGGTG AACCAGCCAG CGTCCTTTGC CGTGCAGCTG
AACGGTGCCC GGGGCGTGAT TGATGCCCGG GTGCACACAC CCTCGGGGGC TGTGGAGGAG
TGCTACGTCT CTGAGCTGGA CAGTGACAAG CACACCATCC GCTTCATCCC CCACGAGAAT
GGCGTCCACT CCATCGATGT CAAGTTCAAC GGTGCCCACA TCCCTGGAAG TCCCTTCAAG
ATCCGCGTTG GGGAGCAGAG CCAGGCTGGG GACCCAGGCT TGGTGTCAGC CTACGGTCCT
GGGCTCGAGG GAGGCACTAC CGGTGTGTCA TCAGAGTTCA TCGTGAACAC CCTGAATGCC
GGCTCGGGGG CCTTGTCTGT CACCATTGAT GGCCCCTCCA AGGTGCAGCT GGACTGTCGG
GAGTGTCCTG AGGGCCATGT GGTCACTTAT ACTCCCATGG CCCCTGGCAA CTACCTCATT
GCCATCAAGT ACGGTGGCCC CCAGCACATC GTGGGCAGCC CCTTCAAGGC CAAGGTCACT
GGTCCGAGGC TGTCCGGAGG CCACAGCCTT CACGAAACAT CCACGGTTCT GGTGGAGACT
GTGACCAAGT CCTCCTCAAG CCGGGGCTCC AGCTACAGCT CCATCCCCAA GTTCTCCTCA
GATGCCAGCA AGGTGGTGAC TCGGGGCCCT GGGCTGTCCC AGGCCTTCGT GGGCCAGAAG
AACTCCTTCA CCGTGGACTG CAGCAAAGCA GGCACCAACA TGATGATGGT GGGCGTGCAC
GGCCCCAAGA CCCCCTGTGA GGAGGTGTAC GTGAAGCACA TGGGGAACCG GGTGTACAAT
GTCACCTACA CTGTCAAGGA GAAAGGGGAC TACATCCTCA TTGTCAAGTG GGGTGACGAA
AGTGTCCCTG GAAGCCCCTT CAAAGTCAAG GTCCCTTGA

The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

book

A novel structural unit in the N-terminal region of filamins
J. Biol. Chem. 289 (12), 8588-8598 (2014)
Sethi R, Seppala J, Tossavainen H, Ylilauri M, Ruskamo S, Pentikainen OT, Pentikainen U, Permi P and Ylanne J.


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Cyclic AMP-Rap1A signaling mediates cell surface translocation of microvascular smooth muscle alpha2C-adrenoceptors through the actin-binding protein filamin-2
Am. J. Physiol., Cell Physiol. 305 (8), C829-C845 (2013)
Motawea HK, Jeyaraj SC, Eid AH, Mitra S, Unger NT, Ahmed AA, Flavahan NA and Chotani MA.


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Altered mucosal DNA methylation in parallel with highly active Helicobacter pylori-related gastritis
Gastric Cancer 16 (4), 488-497 (2013)
Yoshida T, Kato J, Maekita T, Yamashita S, Enomoto S, Ando T, Niwa T, Deguchi H, Ueda K, Inoue I, Iguchi M, Tamai H, Ushijima T and Ichinose M.


book

Impairment of protein degradation in myofibrillar myopathy caused by FLNC/filamin C mutations
Autophagy 9 (3), 422-423 (2013)
Kley RA, van der Ven PF, Olive M, Hohfeld J, Goldfarb LG, Furst DO and Vorgerd M.


book

Structural interaction and functional regulation of polycystin-2 by filamin
PLoS ONE 7 (7), E40448 (2012)
Wang Q, Dai XQ, Li Q, Wang Z, Cantero Mdel R, Li S, Shen J, Tu JC, Cantiello H and Chen XZ.


book

Actin-binding protein-280 binds the stress-activated protein kinase (SAPK) activator SEK-1 and is required for tumor necrosis factor-alpha activation of SAPK in melanoma cells
J. Biol. Chem. 272 (5), 2620-2628 (1997)
Marti A, Luo Z, Cunningham C, Ohta Y, Hartwig J, Stossel TP, Kyriakis JM and Avruch J.


book

Identification of 4370 expressed sequence tags from a 3'-end-specific cDNA library of human skeletal muscle by DNA sequencing and filter hybridization
Genome Res. 6 (1), 35-42 (1996)
Lanfranchi,G., Muraro,T., Caldara,F., Pacchioni,B., Pallavicini,A., Pandolfo,D., Toppo,S., Trevisan,S., Scarso,S. and Valle,G.


book

Comparative mapping of the actin-binding protein 280 genes in human and mouse
Genomics 21 (2), 428-430 (1994)
Gariboldi M, Maestrini E, Canzian F, Manenti G, De Gregorio L, Rivella S, Chatterjee A, Herman GE, Archidiacono N and Antonacci R.


book

Mapping of two genes encoding isoforms of the actin binding protein ABP-280, a dystrophin like protein, to Xq28 and to chromosome 7
Hum. Mol. Genet. 2 (6), 761-766 (1993)
Maestrini E, Patrosso C, Mancini M, Rivella S, Rocchi M, Repetto M, Villa A, Frattini A, Zoppe M and Vezzoni P.


book

Myofibrillar Myopathy
(in) Pagon RA, Adam MP, Ardinger HH, Bird TD, Dolan CR, Fong CT, Smith RJH and Stephens K (Eds.); GENEREVIEWS(R); (1993)
Selcen,D. and Engel,A.G.


 
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