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MYH9 cDNA ORF clone, Homo sapiens (human)

Gene Symbol MYH9
Entrez Gene ID 4627
Full Name myosin, heavy chain 9, non-muscle
Synonyms BDPLT6, DFNA17, EPSTS, FTNS, MHA, NMHC-II-A, NMMHC-IIA, NMMHCA
General protein information
Preferred Names
myosin-9
Names
myosin-9
myosin heavy chain 9
non-muscle myosin heavy chain A
non-muscle myosin heavy chain IIa
nonmuscle myosin heavy chain II-A
myosin heavy chain, non-muscle IIa
cellular myosin heavy chain, type A
non-muscle myosin heavy polypeptide 9
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

22

22q13.1

Summary This gene encodes a conventional non-muscle myosin; this protein should not be confused with the unconventional myosin-9a or 9b (MYO9A or MYO9B). The encoded protein is a myosin IIA heavy chain that contains an IQ domain and a myosin head-like domain which is involved in several important functions, including cytokinesis, cell motility and maintenance of cell shape. Defects in this gene have been associated with non-syndromic sensorineural deafness autosomal dominant type 17, Epstein syndrome, Alport syndrome with macrothrombocytopenia, Sebastian syndrome, Fechtner syndrome and macrothrombocytopenia with progressive sensorineural deafness. [provided by RefSeq, Dec 2011]. lac of sum
Disorder MIM:

160775

Disorder Html: May-Hegglin anomaly, 155100 (3); Fechtner syndrome, 153640 (3);

mRNA and Protein(s)

mRNA Protein Name
XM_011530197 XP_011528499 myosin-9 isoform X1
NM_002473 NP_002464 myosin-9



Homo sapiens (human) MYH9 NP_002464.1
Pan troglodytes (chimpanzee) MYH9 XP_003953928.1
Canis lupus familiaris (dog) MYH9 NP_001104237.1
Bos taurus (cattle) MYH9 NP_001179691.1
Mus musculus (house mouse) Myh9 NP_071855.2
Rattus norvegicus (Norway rat) LOC100911597 XP_003750426.1
Gallus gallus (chicken) MYH9 NP_990808.1
Danio rerio (zebrafish) myh9a NP_001091647.2
Xenopus (Silurana) tropicalis (western clawed frog) myh9 XP_002934764.2


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

The following MYH9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MYH9 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
OHu22915 XM_011530197 PREDICTED: Homo sapiens myosin, heavy chain 9, non-muscle (MYH9), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $951.30
$1359.00
OHu22915 NM_002473 Homo sapiens myosin, heavy chain 9, non-muscle (MYH9), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 25 $951.30
$1359.00
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 OHu22915
Clone ID Related Accession (Same CDS sequence) NM_002473 , XM_011530197
Accession Version XM_011530197.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5883bp)
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 12-MAR-2015
Organism Homo sapiens (human)
Product myosin-9 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011520.13) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

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
ATGGCACAGC AAGCTGCCGA TAAGTATCTC TATGTGGATA AAAACTTCAT CAACAATCCG 
CTGGCCCAGG CCGACTGGGC TGCCAAGAAG CTGGTATGGG TGCCTTCCGA CAAGAGTGGC
TTTGAGCCAG CCAGCCTCAA GGAGGAGGTG GGCGAAGAGG CCATCGTGGA GCTGGTGGAG
AATGGGAAGA AGGTGAAGGT GAACAAGGAT GACATCCAGA AGATGAACCC GCCCAAGTTC
TCCAAGGTGG AGGACATGGC AGAGCTCACG TGCCTCAACG AAGCCTCGGT GCTGCACAAC
CTCAAGGAGC GTTACTACTC AGGGCTCATC TACACCTATT CAGGCCTGTT CTGTGTGGTC
ATCAATCCTT ACAAGAACCT GCCCATCTAC TCTGAAGAGA TTGTGGAAAT GTACAAGGGC
AAGAAGAGGC ACGAGATGCC CCCTCACATC TATGCCATCA CAGACACCGC CTACAGGAGT
ATGATGCAAG ACCGAGAAGA TCAATCCATC TTGTGCACTG GTGAATCTGG AGCTGGCAAG
ACGGAGAACA CCAAGAAGGT CATCCAGTAT CTGGCGTACG TGGCGTCCTC GCACAAGAGC
AAGAAGGACC AGGGCGAGCT GGAGCGGCAG CTGCTGCAGG CCAACCCCAT CCTGGAGGCC
TTCGGGAACG CCAAGACCGT GAAGAATGAC AACTCCTCCC GCTTCGGCAA ATTCATTCGC
ATCAACTTTG ATGTCAATGG CTACATTGTT GGAGCCAACA TTGAGACTTA TCTTTTGGAG
AAATCTCGTG CTATCCGCCA AGCCAAGGAA GAACGGACCT TCCACATCTT CTATTATCTC
CTGTCTGGGG CTGGAGAGCA CCTGAAGACC GATCTCCTGT TGGAGCCGTA CAACAAATAC
CGCTTCCTGT CCAATGGACA CGTCACCATC CCCGGGCAGC AGGACAAGGA CATGTTCCAG
GAGACCATGG AGGCCATGAG GATTATGGGC ATCCCAGAAG AGGAGCAAAT GGGCCTGCTG
CGGGTCATCT CAGGGGTTCT TCAGCTCGGC AACATCGTCT TCAAGAAGGA GCGGAACACT
GACCAGGCGT CCATGCCCGA CAACACAGCT GCCCAAAAGG TGTCCCATCT CTTGGGTATC
AATGTGACCG ATTTCACCAG AGGAATCCTC ACCCCGCGCA TCAAGGTGGG ACGGGATTAC
GTCCAGAAGG CGCAGACTAA AGAGCAGGCT GACTTTGCCA TCGAGGCCTT GGCCAAGGCG
ACCTATGAGC GGATGTTCCG CTGGCTGGTG CTGCGCATCA ACAAGGCTCT GGACAAGACC
AAGAGGCAGG GCGCCTCCTT CATCGGGATC CTGGACATTG CCGGCTTCGA GATCTTTGAT
CTGAACTCGT TTGAGCAGCT GTGCATCAAT TACACCAATG AGAAGCTGCA GCAGCTCTTC
AACCACACCA TGTTCATCCT GGAGCAGGAG GAGTACCAGC GCGAGGGCAT CGAGTGGAAC
TTCATCGACT TTGGCCTCGA CCTGCAGCCC TGCATCGACC TCATTGAGAA GCCAGCAGGC
CCCCCGGGCA TTCTGGCCCT GCTGGACGAG GAGTGCTGGT TCCCCAAAGC CACCGACAAG
AGCTTCGTGG AGAAGGTGAT GCAGGAGCAG GGCACCCACC CCAAGTTCCA GAAGCCCAAG
CAGCTGAAGG ACAAAGCTGA TTTCTGCATT ATCCACTATG CCGGCAAGGT GGATTACAAA
GCTGACGAGT GGCTGATGAA GAACATGGAT CCCCTGAATG ACAACATCGC CACACTGCTC
CACCAGTCCT CTGACAAGTT TGTCTCGGAG CTGTGGAAGG ATGTGGACCG CATCATCGGC
CTGGACCAGG TGGCCGGCAT GTCGGAGACC GCACTGCCCG GGGCCTTCAA GACGCGGAAG
GGCATGTTCC GCACTGTGGG GCAGCTTTAC AAGGAGCAGC TGGCCAAGCT GATGGCTACG
CTGAGGAACA CGAACCCCAA CTTTGTCCGC TGCATCATCC CCAACCACGA GAAGAAGGCC
GGCAAGCTGG ACCCGCATCT CGTGCTGGAC CAGCTGCGCT GCAACGGTGT TCTCGAGGGC
ATCCGTATCT GCCGCCAGGG CTTCCCCAAC AGGGTGGTCT TCCAGGAGTT TCGGCAGAGA
TATGAGATCC TGACTCCAAA CTCCATTCCC AAGGGTTTCA TGGACGGGAA GCAGGCGTGC
GTGCTCATGA TAAAAGCCCT GGAGCTCGAC AGCAATCTGT ACCGCATTGG CCAGAGCAAA
GTCTTCTTCC GTGCCGGTGT GCTGGCCCAC CTGGAGGAGG AGCGAGACCT GAAGATCACC
GACGTCATCA TAGGGTTCCA GGCCTGCTGC AGGGGCTACC TGGCCAGGAA AGCATTTGCC
AAGCGGCAGC AGCAGCTTAC CGCCATGAAG GTCCTCCAGC GGAACTGCGC TGCCTACCTG
AAGCTGCGGA ACTGGCAGTG GTGGCGGCTC TTCACCAAGG TCAAGCCGCT GCTGCAGGTG
AGCCGGCAGG AGGAGGAGAT GATGGCCAAG GAGGAGGAGC TGGTGAAGGT CAGAGAGAAG
CAGCTGGCTG CGGAGAACAG GCTCACGGAG ATGGAGACGC TGCAGTCTCA GCTCATGGCA
GAGAAATTGC AGCTGCAGGA GCAGCTCCAG GCAGAAACCG AGCTGTGTGC CGAGGCTGAG
GAGCTCCGGG CCCGCCTGAC CGCCAAGAAG CAGGAATTAG AAGAGATCTG CCATGACCTA
GAGGCCAGGG TGGAGGAGGA GGAGGAGCGC TGCCAGCACC TGCAGGCGGA GAAGAAGAAG
ATGCAGCAGA ACATCCAGGA GCTTGAGGAG CAGCTGGAGG AGGAGGAGAG CGCCCGGCAG
AAGCTGCAGC TGGAGAAGGT GACCACCGAG GCGAAGCTGA AAAAGCTGGA GGAGGAGCAG
ATCATCCTGG AGGACCAGAA CTGCAAGCTG GCCAAGGAAA AGAAACTGCT GGAAGACAGA
ATAGCTGAGT TCACCACCAA CCTCACAGAA GAGGAGGAGA AATCTAAGAG CCTCGCCAAG
CTCAAGAACA AGCATGAGGC AATGATCACT GACTTGGAAG AGCGCCTCCG CAGGGAGGAG
AAGCAGCGAC AGGAGCTGGA GAAGACCCGC CGGAAGCTGG AGGGAGACTC CACAGACCTC
AGCGACCAGA TCGCCGAGCT CCAGGCCCAG ATCGCGGAGC TCAAGATGCA GCTGGCCAAG
AAAGAGGAGG AGCTCCAGGC CGCCCTGGCC AGAGTGGAAG AGGAAGCTGC CCAGAAGAAC
ATGGCCCTCA AGAAGATCCG GGAGCTGGAA TCTCAGATCT CTGAACTCCA GGAAGACCTG
GAGTCTGAGC GTGCTTCCAG GAATAAAGCT GAGAAGCAGA AACGGGACCT TGGGGAAGAG
CTAGAGGCTC TGAAAACAGA GTTGGAGGAC ACGCTGGATT CCACAGCTGC CCAGCAGGAG
CTCAGGTCAA AACGTGAGCA GGAGGTGAAC ATCCTGAAGA AGACCCTGGA GGAGGAGGCC
AAGACCCACG AGGCCCAGAT CCAGGAGATG AGGCAGAAGC ACTCACAGGC CGTGGAGGAG
CTGGCGGAGC AGCTGGAGCA GACGAAGCGG GTGAAAGCAA ACCTCGAGAA GGCAAAGCAG
ACTCTGGAGA ACGAGCGGGG GGAGCTGGCC AACGAGGTGA AGGTGCTGCT GCAGGGCAAA
GGGGACTCGG AGCACAAGCG CAAGAAAGTG GAGGCGCAGC TGCAGGAGCT GCAGGTCAAG
TTCAACGAGG GAGAGCGCGT GCGCACAGAG CTGGCCGACA AGGTCACCAA GCTGCAGGTG
GAGCTGGACA ACGTGACCGG GCTTCTCAGC CAGTCCGACA GCAAGTCCAG CAAGCTCACC
AAGGACTTCT CCGCGCTGGA GTCCCAGCTG CAGGACACTC AGGAGCTGCT GCAGGAGGAG
AACCGGCAGA AGCTGAGCCT GAGCACCAAG CTCAAGCAGG TGGAGGACGA GAAGAATTCC
TTCCGGGAGC AGCTGGAGGA GGAGGAGGAG GCCAAGCACA ACCTGGAGAA GCAGATCGCC
ACCCTCCATG CCCAGGTGGC CGACATGAAA AAGAAGATGG AGGACAGTGT GGGGTGCCTG
GAAACTGCTG AGGAGGTGAA GAGGAAGCTC CAGAAGGACC TGGAGGGCCT GAGCCAGCGG
CACGAGGAGA AGGTGGCCGC CTACGACAAG CTGGAGAAGA CCAAGACGCG GCTGCAGCAG
GAGCTGGACG ACCTGCTGGT GGACCTGGAC CACCAGCGCC AGAGCGCGTG CAACCTGGAG
AAGAAGCAGA AGAAGTTTGA CCAGCTCCTG GCGGAGGAGA AGACCATCTC TGCCAAGTAT
GCAGAGGAGC GCGACCGGGC TGAGGCGGAG GCCCGAGAGA AGGAGACCAA GGCTCTGTCG
CTGGCCCGGG CCCTGGAGGA AGCCATGGAG CAGAAGGCGG AGCTGGAGCG GCTCAACAAG
CAGTTCCGCA CGGAGATGGA GGACCTTATG AGCTCCAAGG ATGATGTGGG CAAGAGTGTC
CACGAGCTGG AGAAGTCCAA GCGGGCCCTA GAGCAGCAGG TGGAGGAGAT GAAGACGCAG
CTGGAAGAGC TGGAGGACGA GCTGCAGGCC ACCGAAGATG CCAAGCTGCG GTTGGAGGTC
AACCTGCAGG CCATGAAGGC CCAGTTCGAG CGGGACCTGC AGGGCCGGGA CGAGCAGAGC
GAGGAGAAGA AGAAGCAGCT GGTCAGACAG GTGCGGGAGA TGGAGGCAGA GCTGGAGGAC
GAGAGGAAGC AGCGCTCGAT GGCAGTGGCC GCCCGGAAGA AGCTGGAGAT GGACCTGAAG
GACCTGGAGG CGCACATCGA CTCGGCCAAC AAGAACCGGG ACGAAGCCAT CAAACAGCTG
CGGAAGCTGC AGGCCCAGAT GAAGGACTGC ATGCGCGAGC TGGATGACAC CCGCGCCTCT
CGTGAGGAGA TCCTGGCCCA GGCCAAAGAG AACGAGAAGA AGCTGAAGAG CATGGAGGCC
GAGATGATCC AGTTGCAGGA GGAACTGGCA GCCGCGGAGC GTGCCAAGCG CCAGGCCCAG
CAGGAGCGGG ATGAGCTGGC TGACGAGATC GCCAACAGCA GCGGCAAAGG AGCCCTGGCG
TTAGAGGAGA AGCGGCGTCT GGAGGCCCGC ATCGCCCAGC TGGAGGAGGA GCTGGAGGAG
GAGCAGGGCA ACACGGAGCT GATCAACGAC CGGCTGAAGA AGGCCAACCT GCAGATCGAC
CAGATCAACA CCGACCTGAA CCTGGAGCGC AGCCACGCCC AGAAGAACGA GAATGCTCGG
CAGCAGCTGG AACGCCAGAA CAAGGAGCTT AAGGTCAAGC TGCAGGAGAT GGAGGGCACT
GTCAAGTCCA AGTACAAGGC CTCCATCACC GCCCTCGAGG CCAAGATTGC ACAGCTGGAG
GAGCAGCTGG ACAACGAGAC CAAGGAGCGC CAGGCAGCCT GCAAACAGGT GCGTCGGACC
GAGAAGAAGC TGAAGGATGT GCTGCTGCAG GTGGATGACG AGCGGAGGAA CGCCGAGCAG
TACAAGGACC AGGCCGACAA GGCATCTACC CGCCTGAAGC AGCTCAAGCG GCAGCTGGAG
GAGGCCGAAG AGGAGGCCCA GCGGGCCAAC GCCTCCCGCC GGAAACTGCA GCGCGAGCTG
GAGGACGCCA CTGAGACGGC CGATGCCATG AACCGCGAAG TCAGCTCCCT AAAGAACAAG
CTCAGGCGCG GGGACCTGCC GTTTGTCGTG CCCCGCCGAA TGGCCCGGAA AGGCGCCGGG
GATGGCTCCG ACGAAGAGGT AGATGGCAAA GCGGATGGGG CTGAGGCCAA ACCTGCCGAA
TAA

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

RefSeq XP_011528499.1
CDS136..6018
Misc Feature(1)220..348(+)
Misc Feature(2)382..2427(+)
Misc Feature(3)418..2427(+)
Misc Feature(4)499..1506(+)
Misc Feature(5)3046..3582(+)
Misc Feature(6)3298..>3759(+)
Misc Feature(7)3331..5904(+)
Misc Feature(8)3751..3924(+)
Misc Feature(9)4702..5076(+)
Translation

Target ORF information:

RefSeq Version XM_011530197
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens myosin, heavy chain 9, non-muscle (MYH9), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011530197

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
ATGGCACAGC AAGCTGCCGA TAAGTATCTC TATGTGGATA AAAACTTCAT CAACAATCCG 
CTGGCCCAGG CCGACTGGGC TGCCAAGAAG CTGGTATGGG TGCCTTCCGA CAAGAGTGGC
TTTGAGCCAG CCAGCCTCAA GGAGGAGGTG GGCGAAGAGG CCATCGTGGA GCTGGTGGAG
AATGGGAAGA AGGTGAAGGT GAACAAGGAT GACATCCAGA AGATGAACCC GCCCAAGTTC
TCCAAGGTGG AGGACATGGC AGAGCTCACG TGCCTCAACG AAGCCTCGGT GCTGCACAAC
CTCAAGGAGC GTTACTACTC AGGGCTCATC TACACCTATT CAGGCCTGTT CTGTGTGGTC
ATCAATCCTT ACAAGAACCT GCCCATCTAC TCTGAAGAGA TTGTGGAAAT GTACAAGGGC
AAGAAGAGGC ACGAGATGCC CCCTCACATC TATGCCATCA CAGACACCGC CTACAGGAGT
ATGATGCAAG ACCGAGAAGA TCAATCCATC TTGTGCACTG GTGAATCTGG AGCTGGCAAG
ACGGAGAACA CCAAGAAGGT CATCCAGTAT CTGGCGTACG TGGCGTCCTC GCACAAGAGC
AAGAAGGACC AGGGCGAGCT GGAGCGGCAG CTGCTGCAGG CCAACCCCAT CCTGGAGGCC
TTCGGGAACG CCAAGACCGT GAAGAATGAC AACTCCTCCC GCTTCGGCAA ATTCATTCGC
ATCAACTTTG ATGTCAATGG CTACATTGTT GGAGCCAACA TTGAGACTTA TCTTTTGGAG
AAATCTCGTG CTATCCGCCA AGCCAAGGAA GAACGGACCT TCCACATCTT CTATTATCTC
CTGTCTGGGG CTGGAGAGCA CCTGAAGACC GATCTCCTGT TGGAGCCGTA CAACAAATAC
CGCTTCCTGT CCAATGGACA CGTCACCATC CCCGGGCAGC AGGACAAGGA CATGTTCCAG
GAGACCATGG AGGCCATGAG GATTATGGGC ATCCCAGAAG AGGAGCAAAT GGGCCTGCTG
CGGGTCATCT CAGGGGTTCT TCAGCTCGGC AACATCGTCT TCAAGAAGGA GCGGAACACT
GACCAGGCGT CCATGCCCGA CAACACAGCT GCCCAAAAGG TGTCCCATCT CTTGGGTATC
AATGTGACCG ATTTCACCAG AGGAATCCTC ACCCCGCGCA TCAAGGTGGG ACGGGATTAC
GTCCAGAAGG CGCAGACTAA AGAGCAGGCT GACTTTGCCA TCGAGGCCTT GGCCAAGGCG
ACCTATGAGC GGATGTTCCG CTGGCTGGTG CTGCGCATCA ACAAGGCTCT GGACAAGACC
AAGAGGCAGG GCGCCTCCTT CATCGGGATC CTGGACATTG CCGGCTTCGA GATCTTTGAT
CTGAACTCGT TTGAGCAGCT GTGCATCAAT TACACCAATG AGAAGCTGCA GCAGCTCTTC
AACCACACCA TGTTCATCCT GGAGCAGGAG GAGTACCAGC GCGAGGGCAT CGAGTGGAAC
TTCATCGACT TTGGCCTCGA CCTGCAGCCC TGCATCGACC TCATTGAGAA GCCAGCAGGC
CCCCCGGGCA TTCTGGCCCT GCTGGACGAG GAGTGCTGGT TCCCCAAAGC CACCGACAAG
AGCTTCGTGG AGAAGGTGAT GCAGGAGCAG GGCACCCACC CCAAGTTCCA GAAGCCCAAG
CAGCTGAAGG ACAAAGCTGA TTTCTGCATT ATCCACTATG CCGGCAAGGT GGATTACAAA
GCTGACGAGT GGCTGATGAA GAACATGGAT CCCCTGAATG ACAACATCGC CACACTGCTC
CACCAGTCCT CTGACAAGTT TGTCTCGGAG CTGTGGAAGG ATGTGGACCG CATCATCGGC
CTGGACCAGG TGGCCGGCAT GTCGGAGACC GCACTGCCCG GGGCCTTCAA GACGCGGAAG
GGCATGTTCC GCACTGTGGG GCAGCTTTAC AAGGAGCAGC TGGCCAAGCT GATGGCTACG
CTGAGGAACA CGAACCCCAA CTTTGTCCGC TGCATCATCC CCAACCACGA GAAGAAGGCC
GGCAAGCTGG ACCCGCATCT CGTGCTGGAC CAGCTGCGCT GCAACGGTGT TCTCGAGGGC
ATCCGTATCT GCCGCCAGGG CTTCCCCAAC AGGGTGGTCT TCCAGGAGTT TCGGCAGAGA
TATGAGATCC TGACTCCAAA CTCCATTCCC AAGGGTTTCA TGGACGGGAA GCAGGCGTGC
GTGCTCATGA TAAAAGCCCT GGAGCTCGAC AGCAATCTGT ACCGCATTGG CCAGAGCAAA
GTCTTCTTCC GTGCCGGTGT GCTGGCCCAC CTGGAGGAGG AGCGAGACCT GAAGATCACC
GACGTCATCA TAGGGTTCCA GGCCTGCTGC AGGGGCTACC TGGCCAGGAA AGCATTTGCC
AAGCGGCAGC AGCAGCTTAC CGCCATGAAG GTCCTCCAGC GGAACTGCGC TGCCTACCTG
AAGCTGCGGA ACTGGCAGTG GTGGCGGCTC TTCACCAAGG TCAAGCCGCT GCTGCAGGTG
AGCCGGCAGG AGGAGGAGAT GATGGCCAAG GAGGAGGAGC TGGTGAAGGT CAGAGAGAAG
CAGCTGGCTG CGGAGAACAG GCTCACGGAG ATGGAGACGC TGCAGTCTCA GCTCATGGCA
GAGAAATTGC AGCTGCAGGA GCAGCTCCAG GCAGAAACCG AGCTGTGTGC CGAGGCTGAG
GAGCTCCGGG CCCGCCTGAC CGCCAAGAAG CAGGAATTAG AAGAGATCTG CCATGACCTA
GAGGCCAGGG TGGAGGAGGA GGAGGAGCGC TGCCAGCACC TGCAGGCGGA GAAGAAGAAG
ATGCAGCAGA ACATCCAGGA GCTTGAGGAG CAGCTGGAGG AGGAGGAGAG CGCCCGGCAG
AAGCTGCAGC TGGAGAAGGT GACCACCGAG GCGAAGCTGA AAAAGCTGGA GGAGGAGCAG
ATCATCCTGG AGGACCAGAA CTGCAAGCTG GCCAAGGAAA AGAAACTGCT GGAAGACAGA
ATAGCTGAGT TCACCACCAA CCTCACAGAA GAGGAGGAGA AATCTAAGAG CCTCGCCAAG
CTCAAGAACA AGCATGAGGC AATGATCACT GACTTGGAAG AGCGCCTCCG CAGGGAGGAG
AAGCAGCGAC AGGAGCTGGA GAAGACCCGC CGGAAGCTGG AGGGAGACTC CACAGACCTC
AGCGACCAGA TCGCCGAGCT CCAGGCCCAG ATCGCGGAGC TCAAGATGCA GCTGGCCAAG
AAAGAGGAGG AGCTCCAGGC CGCCCTGGCC AGAGTGGAAG AGGAAGCTGC CCAGAAGAAC
ATGGCCCTCA AGAAGATCCG GGAGCTGGAA TCTCAGATCT CTGAACTCCA GGAAGACCTG
GAGTCTGAGC GTGCTTCCAG GAATAAAGCT GAGAAGCAGA AACGGGACCT TGGGGAAGAG
CTAGAGGCTC TGAAAACAGA GTTGGAGGAC ACGCTGGATT CCACAGCTGC CCAGCAGGAG
CTCAGGTCAA AACGTGAGCA GGAGGTGAAC ATCCTGAAGA AGACCCTGGA GGAGGAGGCC
AAGACCCACG AGGCCCAGAT CCAGGAGATG AGGCAGAAGC ACTCACAGGC CGTGGAGGAG
CTGGCGGAGC AGCTGGAGCA GACGAAGCGG GTGAAAGCAA ACCTCGAGAA GGCAAAGCAG
ACTCTGGAGA ACGAGCGGGG GGAGCTGGCC AACGAGGTGA AGGTGCTGCT GCAGGGCAAA
GGGGACTCGG AGCACAAGCG CAAGAAAGTG GAGGCGCAGC TGCAGGAGCT GCAGGTCAAG
TTCAACGAGG GAGAGCGCGT GCGCACAGAG CTGGCCGACA AGGTCACCAA GCTGCAGGTG
GAGCTGGACA ACGTGACCGG GCTTCTCAGC CAGTCCGACA GCAAGTCCAG CAAGCTCACC
AAGGACTTCT CCGCGCTGGA GTCCCAGCTG CAGGACACTC AGGAGCTGCT GCAGGAGGAG
AACCGGCAGA AGCTGAGCCT GAGCACCAAG CTCAAGCAGG TGGAGGACGA GAAGAATTCC
TTCCGGGAGC AGCTGGAGGA GGAGGAGGAG GCCAAGCACA ACCTGGAGAA GCAGATCGCC
ACCCTCCATG CCCAGGTGGC CGACATGAAA AAGAAGATGG AGGACAGTGT GGGGTGCCTG
GAAACTGCTG AGGAGGTGAA GAGGAAGCTC CAGAAGGACC TGGAGGGCCT GAGCCAGCGG
CACGAGGAGA AGGTGGCCGC CTACGACAAG CTGGAGAAGA CCAAGACGCG GCTGCAGCAG
GAGCTGGACG ACCTGCTGGT GGACCTGGAC CACCAGCGCC AGAGCGCGTG CAACCTGGAG
AAGAAGCAGA AGAAGTTTGA CCAGCTCCTG GCGGAGGAGA AGACCATCTC TGCCAAGTAT
GCAGAGGAGC GCGACCGGGC TGAGGCGGAG GCCCGAGAGA AGGAGACCAA GGCTCTGTCG
CTGGCCCGGG CCCTGGAGGA AGCCATGGAG CAGAAGGCGG AGCTGGAGCG GCTCAACAAG
CAGTTCCGCA CGGAGATGGA GGACCTTATG AGCTCCAAGG ATGATGTGGG CAAGAGTGTC
CACGAGCTGG AGAAGTCCAA GCGGGCCCTA GAGCAGCAGG TGGAGGAGAT GAAGACGCAG
CTGGAAGAGC TGGAGGACGA GCTGCAGGCC ACCGAAGATG CCAAGCTGCG GTTGGAGGTC
AACCTGCAGG CCATGAAGGC CCAGTTCGAG CGGGACCTGC AGGGCCGGGA CGAGCAGAGC
GAGGAGAAGA AGAAGCAGCT GGTCAGACAG GTGCGGGAGA TGGAGGCAGA GCTGGAGGAC
GAGAGGAAGC AGCGCTCGAT GGCAGTGGCC GCCCGGAAGA AGCTGGAGAT GGACCTGAAG
GACCTGGAGG CGCACATCGA CTCGGCCAAC AAGAACCGGG ACGAAGCCAT CAAACAGCTG
CGGAAGCTGC AGGCCCAGAT GAAGGACTGC ATGCGCGAGC TGGATGACAC CCGCGCCTCT
CGTGAGGAGA TCCTGGCCCA GGCCAAAGAG AACGAGAAGA AGCTGAAGAG CATGGAGGCC
GAGATGATCC AGTTGCAGGA GGAACTGGCA GCCGCGGAGC GTGCCAAGCG CCAGGCCCAG
CAGGAGCGGG ATGAGCTGGC TGACGAGATC GCCAACAGCA GCGGCAAAGG AGCCCTGGCG
TTAGAGGAGA AGCGGCGTCT GGAGGCCCGC ATCGCCCAGC TGGAGGAGGA GCTGGAGGAG
GAGCAGGGCA ACACGGAGCT GATCAACGAC CGGCTGAAGA AGGCCAACCT GCAGATCGAC
CAGATCAACA CCGACCTGAA CCTGGAGCGC AGCCACGCCC AGAAGAACGA GAATGCTCGG
CAGCAGCTGG AACGCCAGAA CAAGGAGCTT AAGGTCAAGC TGCAGGAGAT GGAGGGCACT
GTCAAGTCCA AGTACAAGGC CTCCATCACC GCCCTCGAGG CCAAGATTGC ACAGCTGGAG
GAGCAGCTGG ACAACGAGAC CAAGGAGCGC CAGGCAGCCT GCAAACAGGT GCGTCGGACC
GAGAAGAAGC TGAAGGATGT GCTGCTGCAG GTGGATGACG AGCGGAGGAA CGCCGAGCAG
TACAAGGACC AGGCCGACAA GGCATCTACC CGCCTGAAGC AGCTCAAGCG GCAGCTGGAG
GAGGCCGAAG AGGAGGCCCA GCGGGCCAAC GCCTCCCGCC GGAAACTGCA GCGCGAGCTG
GAGGACGCCA CTGAGACGGC CGATGCCATG AACCGCGAAG TCAGCTCCCT AAAGAACAAG
CTCAGGCGCG GGGACCTGCC GTTTGTCGTG CCCCGCCGAA TGGCCCGGAA AGGCGCCGGG
GATGGCTCCG ACGAAGAGGT AGATGGCAAA GCGGATGGGG CTGAGGCCAA ACCTGCCGAA
TAA

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

CloneID OHu22915
Clone ID Related Accession (Same CDS sequence) NM_002473 , XM_011530197
Accession Version NM_002473.5 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 5883bp)
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 myosin-9
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DC296130.1, AB191263.1, Z82215.1 and AA420536.1. On Aug 19, 2014 this sequence version replaced gi:225703132. 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 :: AB191263.1, AB290175.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA962337, SAMEA962346 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

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
ATGGCACAGC AAGCTGCCGA TAAGTATCTC TATGTGGATA AAAACTTCAT CAACAATCCG 
CTGGCCCAGG CCGACTGGGC TGCCAAGAAG CTGGTATGGG TGCCTTCCGA CAAGAGTGGC
TTTGAGCCAG CCAGCCTCAA GGAGGAGGTG GGCGAAGAGG CCATCGTGGA GCTGGTGGAG
AATGGGAAGA AGGTGAAGGT GAACAAGGAT GACATCCAGA AGATGAACCC GCCCAAGTTC
TCCAAGGTGG AGGACATGGC AGAGCTCACG TGCCTCAACG AAGCCTCGGT GCTGCACAAC
CTCAAGGAGC GTTACTACTC AGGGCTCATC TACACCTATT CAGGCCTGTT CTGTGTGGTC
ATCAATCCTT ACAAGAACCT GCCCATCTAC TCTGAAGAGA TTGTGGAAAT GTACAAGGGC
AAGAAGAGGC ACGAGATGCC CCCTCACATC TATGCCATCA CAGACACCGC CTACAGGAGT
ATGATGCAAG ACCGAGAAGA TCAATCCATC TTGTGCACTG GTGAATCTGG AGCTGGCAAG
ACGGAGAACA CCAAGAAGGT CATCCAGTAT CTGGCGTACG TGGCGTCCTC GCACAAGAGC
AAGAAGGACC AGGGCGAGCT GGAGCGGCAG CTGCTGCAGG CCAACCCCAT CCTGGAGGCC
TTCGGGAACG CCAAGACCGT GAAGAATGAC AACTCCTCCC GCTTCGGCAA ATTCATTCGC
ATCAACTTTG ATGTCAATGG CTACATTGTT GGAGCCAACA TTGAGACTTA TCTTTTGGAG
AAATCTCGTG CTATCCGCCA AGCCAAGGAA GAACGGACCT TCCACATCTT CTATTATCTC
CTGTCTGGGG CTGGAGAGCA CCTGAAGACC GATCTCCTGT TGGAGCCGTA CAACAAATAC
CGCTTCCTGT CCAATGGACA CGTCACCATC CCCGGGCAGC AGGACAAGGA CATGTTCCAG
GAGACCATGG AGGCCATGAG GATTATGGGC ATCCCAGAAG AGGAGCAAAT GGGCCTGCTG
CGGGTCATCT CAGGGGTTCT TCAGCTCGGC AACATCGTCT TCAAGAAGGA GCGGAACACT
GACCAGGCGT CCATGCCCGA CAACACAGCT GCCCAAAAGG TGTCCCATCT CTTGGGTATC
AATGTGACCG ATTTCACCAG AGGAATCCTC ACCCCGCGCA TCAAGGTGGG ACGGGATTAC
GTCCAGAAGG CGCAGACTAA AGAGCAGGCT GACTTTGCCA TCGAGGCCTT GGCCAAGGCG
ACCTATGAGC GGATGTTCCG CTGGCTGGTG CTGCGCATCA ACAAGGCTCT GGACAAGACC
AAGAGGCAGG GCGCCTCCTT CATCGGGATC CTGGACATTG CCGGCTTCGA GATCTTTGAT
CTGAACTCGT TTGAGCAGCT GTGCATCAAT TACACCAATG AGAAGCTGCA GCAGCTCTTC
AACCACACCA TGTTCATCCT GGAGCAGGAG GAGTACCAGC GCGAGGGCAT CGAGTGGAAC
TTCATCGACT TTGGCCTCGA CCTGCAGCCC TGCATCGACC TCATTGAGAA GCCAGCAGGC
CCCCCGGGCA TTCTGGCCCT GCTGGACGAG GAGTGCTGGT TCCCCAAAGC CACCGACAAG
AGCTTCGTGG AGAAGGTGAT GCAGGAGCAG GGCACCCACC CCAAGTTCCA GAAGCCCAAG
CAGCTGAAGG ACAAAGCTGA TTTCTGCATT ATCCACTATG CCGGCAAGGT GGATTACAAA
GCTGACGAGT GGCTGATGAA GAACATGGAT CCCCTGAATG ACAACATCGC CACACTGCTC
CACCAGTCCT CTGACAAGTT TGTCTCGGAG CTGTGGAAGG ATGTGGACCG CATCATCGGC
CTGGACCAGG TGGCCGGCAT GTCGGAGACC GCACTGCCCG GGGCCTTCAA GACGCGGAAG
GGCATGTTCC GCACTGTGGG GCAGCTTTAC AAGGAGCAGC TGGCCAAGCT GATGGCTACG
CTGAGGAACA CGAACCCCAA CTTTGTCCGC TGCATCATCC CCAACCACGA GAAGAAGGCC
GGCAAGCTGG ACCCGCATCT CGTGCTGGAC CAGCTGCGCT GCAACGGTGT TCTCGAGGGC
ATCCGTATCT GCCGCCAGGG CTTCCCCAAC AGGGTGGTCT TCCAGGAGTT TCGGCAGAGA
TATGAGATCC TGACTCCAAA CTCCATTCCC AAGGGTTTCA TGGACGGGAA GCAGGCGTGC
GTGCTCATGA TAAAAGCCCT GGAGCTCGAC AGCAATCTGT ACCGCATTGG CCAGAGCAAA
GTCTTCTTCC GTGCCGGTGT GCTGGCCCAC CTGGAGGAGG AGCGAGACCT GAAGATCACC
GACGTCATCA TAGGGTTCCA GGCCTGCTGC AGGGGCTACC TGGCCAGGAA AGCATTTGCC
AAGCGGCAGC AGCAGCTTAC CGCCATGAAG GTCCTCCAGC GGAACTGCGC TGCCTACCTG
AAGCTGCGGA ACTGGCAGTG GTGGCGGCTC TTCACCAAGG TCAAGCCGCT GCTGCAGGTG
AGCCGGCAGG AGGAGGAGAT GATGGCCAAG GAGGAGGAGC TGGTGAAGGT CAGAGAGAAG
CAGCTGGCTG CGGAGAACAG GCTCACGGAG ATGGAGACGC TGCAGTCTCA GCTCATGGCA
GAGAAATTGC AGCTGCAGGA GCAGCTCCAG GCAGAAACCG AGCTGTGTGC CGAGGCTGAG
GAGCTCCGGG CCCGCCTGAC CGCCAAGAAG CAGGAATTAG AAGAGATCTG CCATGACCTA
GAGGCCAGGG TGGAGGAGGA GGAGGAGCGC TGCCAGCACC TGCAGGCGGA GAAGAAGAAG
ATGCAGCAGA ACATCCAGGA GCTTGAGGAG CAGCTGGAGG AGGAGGAGAG CGCCCGGCAG
AAGCTGCAGC TGGAGAAGGT GACCACCGAG GCGAAGCTGA AAAAGCTGGA GGAGGAGCAG
ATCATCCTGG AGGACCAGAA CTGCAAGCTG GCCAAGGAAA AGAAACTGCT GGAAGACAGA
ATAGCTGAGT TCACCACCAA CCTCACAGAA GAGGAGGAGA AATCTAAGAG CCTCGCCAAG
CTCAAGAACA AGCATGAGGC AATGATCACT GACTTGGAAG AGCGCCTCCG CAGGGAGGAG
AAGCAGCGAC AGGAGCTGGA GAAGACCCGC CGGAAGCTGG AGGGAGACTC CACAGACCTC
AGCGACCAGA TCGCCGAGCT CCAGGCCCAG ATCGCGGAGC TCAAGATGCA GCTGGCCAAG
AAAGAGGAGG AGCTCCAGGC CGCCCTGGCC AGAGTGGAAG AGGAAGCTGC CCAGAAGAAC
ATGGCCCTCA AGAAGATCCG GGAGCTGGAA TCTCAGATCT CTGAACTCCA GGAAGACCTG
GAGTCTGAGC GTGCTTCCAG GAATAAAGCT GAGAAGCAGA AACGGGACCT TGGGGAAGAG
CTAGAGGCTC TGAAAACAGA GTTGGAGGAC ACGCTGGATT CCACAGCTGC CCAGCAGGAG
CTCAGGTCAA AACGTGAGCA GGAGGTGAAC ATCCTGAAGA AGACCCTGGA GGAGGAGGCC
AAGACCCACG AGGCCCAGAT CCAGGAGATG AGGCAGAAGC ACTCACAGGC CGTGGAGGAG
CTGGCGGAGC AGCTGGAGCA GACGAAGCGG GTGAAAGCAA ACCTCGAGAA GGCAAAGCAG
ACTCTGGAGA ACGAGCGGGG GGAGCTGGCC AACGAGGTGA AGGTGCTGCT GCAGGGCAAA
GGGGACTCGG AGCACAAGCG CAAGAAAGTG GAGGCGCAGC TGCAGGAGCT GCAGGTCAAG
TTCAACGAGG GAGAGCGCGT GCGCACAGAG CTGGCCGACA AGGTCACCAA GCTGCAGGTG
GAGCTGGACA ACGTGACCGG GCTTCTCAGC CAGTCCGACA GCAAGTCCAG CAAGCTCACC
AAGGACTTCT CCGCGCTGGA GTCCCAGCTG CAGGACACTC AGGAGCTGCT GCAGGAGGAG
AACCGGCAGA AGCTGAGCCT GAGCACCAAG CTCAAGCAGG TGGAGGACGA GAAGAATTCC
TTCCGGGAGC AGCTGGAGGA GGAGGAGGAG GCCAAGCACA ACCTGGAGAA GCAGATCGCC
ACCCTCCATG CCCAGGTGGC CGACATGAAA AAGAAGATGG AGGACAGTGT GGGGTGCCTG
GAAACTGCTG AGGAGGTGAA GAGGAAGCTC CAGAAGGACC TGGAGGGCCT GAGCCAGCGG
CACGAGGAGA AGGTGGCCGC CTACGACAAG CTGGAGAAGA CCAAGACGCG GCTGCAGCAG
GAGCTGGACG ACCTGCTGGT GGACCTGGAC CACCAGCGCC AGAGCGCGTG CAACCTGGAG
AAGAAGCAGA AGAAGTTTGA CCAGCTCCTG GCGGAGGAGA AGACCATCTC TGCCAAGTAT
GCAGAGGAGC GCGACCGGGC TGAGGCGGAG GCCCGAGAGA AGGAGACCAA GGCTCTGTCG
CTGGCCCGGG CCCTGGAGGA AGCCATGGAG CAGAAGGCGG AGCTGGAGCG GCTCAACAAG
CAGTTCCGCA CGGAGATGGA GGACCTTATG AGCTCCAAGG ATGATGTGGG CAAGAGTGTC
CACGAGCTGG AGAAGTCCAA GCGGGCCCTA GAGCAGCAGG TGGAGGAGAT GAAGACGCAG
CTGGAAGAGC TGGAGGACGA GCTGCAGGCC ACCGAAGATG CCAAGCTGCG GTTGGAGGTC
AACCTGCAGG CCATGAAGGC CCAGTTCGAG CGGGACCTGC AGGGCCGGGA CGAGCAGAGC
GAGGAGAAGA AGAAGCAGCT GGTCAGACAG GTGCGGGAGA TGGAGGCAGA GCTGGAGGAC
GAGAGGAAGC AGCGCTCGAT GGCAGTGGCC GCCCGGAAGA AGCTGGAGAT GGACCTGAAG
GACCTGGAGG CGCACATCGA CTCGGCCAAC AAGAACCGGG ACGAAGCCAT CAAACAGCTG
CGGAAGCTGC AGGCCCAGAT GAAGGACTGC ATGCGCGAGC TGGATGACAC CCGCGCCTCT
CGTGAGGAGA TCCTGGCCCA GGCCAAAGAG AACGAGAAGA AGCTGAAGAG CATGGAGGCC
GAGATGATCC AGTTGCAGGA GGAACTGGCA GCCGCGGAGC GTGCCAAGCG CCAGGCCCAG
CAGGAGCGGG ATGAGCTGGC TGACGAGATC GCCAACAGCA GCGGCAAAGG AGCCCTGGCG
TTAGAGGAGA AGCGGCGTCT GGAGGCCCGC ATCGCCCAGC TGGAGGAGGA GCTGGAGGAG
GAGCAGGGCA ACACGGAGCT GATCAACGAC CGGCTGAAGA AGGCCAACCT GCAGATCGAC
CAGATCAACA CCGACCTGAA CCTGGAGCGC AGCCACGCCC AGAAGAACGA GAATGCTCGG
CAGCAGCTGG AACGCCAGAA CAAGGAGCTT AAGGTCAAGC TGCAGGAGAT GGAGGGCACT
GTCAAGTCCA AGTACAAGGC CTCCATCACC GCCCTCGAGG CCAAGATTGC ACAGCTGGAG
GAGCAGCTGG ACAACGAGAC CAAGGAGCGC CAGGCAGCCT GCAAACAGGT GCGTCGGACC
GAGAAGAAGC TGAAGGATGT GCTGCTGCAG GTGGATGACG AGCGGAGGAA CGCCGAGCAG
TACAAGGACC AGGCCGACAA GGCATCTACC CGCCTGAAGC AGCTCAAGCG GCAGCTGGAG
GAGGCCGAAG AGGAGGCCCA GCGGGCCAAC GCCTCCCGCC GGAAACTGCA GCGCGAGCTG
GAGGACGCCA CTGAGACGGC CGATGCCATG AACCGCGAAG TCAGCTCCCT AAAGAACAAG
CTCAGGCGCG GGGACCTGCC GTTTGTCGTG CCCCGCCGAA TGGCCCGGAA AGGCGCCGGG
GATGGCTCCG ACGAAGAGGT AGATGGCAAA GCGGATGGGG CTGAGGCCAA ACCTGCCGAA
TAA

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

RefSeq NP_002464.1
CDS281..6163
Misc Feature(1)272..274(+)
Misc Feature(2)284..286(+)
Misc Feature(3)302..304(+)
Misc Feature(4)311..313(+)
Misc Feature(5)365..493(+)
Misc Feature(6)527..2572(+)
Misc Feature(7)551..553(+)
Misc Feature(8)563..2572(+)
Misc Feature(9)584..586(+)
Misc Feature(10)644..1651(+)
Misc Feature(11)1175..1177(+)
Misc Feature(12)2240..2308(+)
Misc Feature(13)2540..2542(+)
Misc Feature(14)2966..2968(+)
Misc Feature(15)3029..3031(+)
Misc Feature(16)3191..3727(+)
Misc Feature(17)3350..3352(+)
Misc Feature(18)3443..>3904(+)
Misc Feature(19)3476..6049(+)
Misc Feature(20)3896..4069(+)
Misc Feature(21)4349..4351(+)
Misc Feature(22)4454..4456(+)
Misc Feature(23)4490..4492(+)
Misc Feature(24)4502..4504(+)
Misc Feature(25)4508..4510(+)
Misc Feature(26)4655..4657(+)
Misc Feature(27)4847..5221(+)
Misc Feature(28)5192..5194(+)
Misc Feature(29)5420..5422(+)
Misc Feature(30)6107..6109(+)
Misc Feature(31)6107..6109(+)
Misc Feature(32)6107..6109(+)
Exon (1)1..261
Gene:MYH9
Gene Synonym:
Exon (2)262..613
Gene:MYH9
Gene Synonym:
Exon (3)614..770
Gene:MYH9
Gene Synonym:
Exon (4)771..798
Gene:MYH9
Gene Synonym:
Exon (5)799..892
Gene:MYH9
Gene Synonym:
Exon (6)893..985
Gene:MYH9
Gene Synonym:
Exon (7)986..1049
Gene:MYH9
Gene Synonym:
Exon (8)1050..1148
Gene:MYH9
Gene Synonym:
Exon (9)1149..1292
Gene:MYH9
Gene Synonym:
Exon (10)1293..1388
Gene:MYH9
Gene Synonym:
Exon (11)1389..1507
Gene:MYH9
Gene Synonym:
Exon (12)1508..1660
Gene:MYH9
Gene Synonym:
Exon (13)1661..1834
Gene:MYH9
Gene Synonym:
Exon (14)1835..2008
Gene:MYH9
Gene Synonym:
Exon (15)2009..2123
Gene:MYH9
Gene Synonym:
Exon (16)2124..2317
Gene:MYH9
Gene Synonym:
Exon (17)2318..2439
Gene:MYH9
Gene Synonym:
Exon (18)2440..2509
Gene:MYH9
Gene Synonym:
Exon (19)2510..2670
Gene:MYH9
Gene Synonym:
Exon (20)2671..2779
Gene:MYH9
Gene Synonym:
Exon (21)2780..2911
Gene:MYH9
Gene Synonym:
Exon (22)2912..3118
Gene:MYH9
Gene Synonym:
Exon (23)3119..3256
Gene:MYH9
Gene Synonym:
Exon (24)3257..3380
Gene:MYH9
Gene Synonym:
Exon (25)3381..3552
Gene:MYH9
Gene Synonym:
Exon (26)3553..3765
Gene:MYH9
Gene Synonym:
Exon (27)3766..3910
Gene:MYH9
Gene Synonym:
Exon (28)3911..4117
Gene:MYH9
Gene Synonym:
Exon (29)4118..4222
Gene:MYH9
Gene Synonym:
Exon (30)4223..4375
Gene:MYH9
Gene Synonym:
Exon (31)4376..4624
Gene:MYH9
Gene Synonym:
Exon (32)4625..4837
Gene:MYH9
Gene Synonym:
Exon (33)4838..5050
Gene:MYH9
Gene Synonym:
Exon (34)5051..5212
Gene:MYH9
Gene Synonym:
Exon (35)5213..5341
Gene:MYH9
Gene Synonym:
Exon (36)5342..5430
Gene:MYH9
Gene Synonym:
Exon (37)5431..5554
Gene:MYH9
Gene Synonym:
Exon (38)5555..5763
Gene:MYH9
Gene Synonym:
Exon (39)5764..5872
Gene:MYH9
Gene Synonym:
Exon (40)5873..6045
Gene:MYH9
Gene Synonym:
Exon (41)6046..7554
Gene:MYH9
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_002473
Organism Homo sapiens (human)
Definition Homo sapiens myosin, heavy chain 9, non-muscle (MYH9), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_002473

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
ATGGCACAGC AAGCTGCCGA TAAGTATCTC TATGTGGATA AAAACTTCAT CAACAATCCG 
CTGGCCCAGG CCGACTGGGC TGCCAAGAAG CTGGTATGGG TGCCTTCCGA CAAGAGTGGC
TTTGAGCCAG CCAGCCTCAA GGAGGAGGTG GGCGAAGAGG CCATCGTGGA GCTGGTGGAG
AATGGGAAGA AGGTGAAGGT GAACAAGGAT GACATCCAGA AGATGAACCC GCCCAAGTTC
TCCAAGGTGG AGGACATGGC AGAGCTCACG TGCCTCAACG AAGCCTCGGT GCTGCACAAC
CTCAAGGAGC GTTACTACTC AGGGCTCATC TACACCTATT CAGGCCTGTT CTGTGTGGTC
ATCAATCCTT ACAAGAACCT GCCCATCTAC TCTGAAGAGA TTGTGGAAAT GTACAAGGGC
AAGAAGAGGC ACGAGATGCC CCCTCACATC TATGCCATCA CAGACACCGC CTACAGGAGT
ATGATGCAAG ACCGAGAAGA TCAATCCATC TTGTGCACTG GTGAATCTGG AGCTGGCAAG
ACGGAGAACA CCAAGAAGGT CATCCAGTAT CTGGCGTACG TGGCGTCCTC GCACAAGAGC
AAGAAGGACC AGGGCGAGCT GGAGCGGCAG CTGCTGCAGG CCAACCCCAT CCTGGAGGCC
TTCGGGAACG CCAAGACCGT GAAGAATGAC AACTCCTCCC GCTTCGGCAA ATTCATTCGC
ATCAACTTTG ATGTCAATGG CTACATTGTT GGAGCCAACA TTGAGACTTA TCTTTTGGAG
AAATCTCGTG CTATCCGCCA AGCCAAGGAA GAACGGACCT TCCACATCTT CTATTATCTC
CTGTCTGGGG CTGGAGAGCA CCTGAAGACC GATCTCCTGT TGGAGCCGTA CAACAAATAC
CGCTTCCTGT CCAATGGACA CGTCACCATC CCCGGGCAGC AGGACAAGGA CATGTTCCAG
GAGACCATGG AGGCCATGAG GATTATGGGC ATCCCAGAAG AGGAGCAAAT GGGCCTGCTG
CGGGTCATCT CAGGGGTTCT TCAGCTCGGC AACATCGTCT TCAAGAAGGA GCGGAACACT
GACCAGGCGT CCATGCCCGA CAACACAGCT GCCCAAAAGG TGTCCCATCT CTTGGGTATC
AATGTGACCG ATTTCACCAG AGGAATCCTC ACCCCGCGCA TCAAGGTGGG ACGGGATTAC
GTCCAGAAGG CGCAGACTAA AGAGCAGGCT GACTTTGCCA TCGAGGCCTT GGCCAAGGCG
ACCTATGAGC GGATGTTCCG CTGGCTGGTG CTGCGCATCA ACAAGGCTCT GGACAAGACC
AAGAGGCAGG GCGCCTCCTT CATCGGGATC CTGGACATTG CCGGCTTCGA GATCTTTGAT
CTGAACTCGT TTGAGCAGCT GTGCATCAAT TACACCAATG AGAAGCTGCA GCAGCTCTTC
AACCACACCA TGTTCATCCT GGAGCAGGAG GAGTACCAGC GCGAGGGCAT CGAGTGGAAC
TTCATCGACT TTGGCCTCGA CCTGCAGCCC TGCATCGACC TCATTGAGAA GCCAGCAGGC
CCCCCGGGCA TTCTGGCCCT GCTGGACGAG GAGTGCTGGT TCCCCAAAGC CACCGACAAG
AGCTTCGTGG AGAAGGTGAT GCAGGAGCAG GGCACCCACC CCAAGTTCCA GAAGCCCAAG
CAGCTGAAGG ACAAAGCTGA TTTCTGCATT ATCCACTATG CCGGCAAGGT GGATTACAAA
GCTGACGAGT GGCTGATGAA GAACATGGAT CCCCTGAATG ACAACATCGC CACACTGCTC
CACCAGTCCT CTGACAAGTT TGTCTCGGAG CTGTGGAAGG ATGTGGACCG CATCATCGGC
CTGGACCAGG TGGCCGGCAT GTCGGAGACC GCACTGCCCG GGGCCTTCAA GACGCGGAAG
GGCATGTTCC GCACTGTGGG GCAGCTTTAC AAGGAGCAGC TGGCCAAGCT GATGGCTACG
CTGAGGAACA CGAACCCCAA CTTTGTCCGC TGCATCATCC CCAACCACGA GAAGAAGGCC
GGCAAGCTGG ACCCGCATCT CGTGCTGGAC CAGCTGCGCT GCAACGGTGT TCTCGAGGGC
ATCCGTATCT GCCGCCAGGG CTTCCCCAAC AGGGTGGTCT TCCAGGAGTT TCGGCAGAGA
TATGAGATCC TGACTCCAAA CTCCATTCCC AAGGGTTTCA TGGACGGGAA GCAGGCGTGC
GTGCTCATGA TAAAAGCCCT GGAGCTCGAC AGCAATCTGT ACCGCATTGG CCAGAGCAAA
GTCTTCTTCC GTGCCGGTGT GCTGGCCCAC CTGGAGGAGG AGCGAGACCT GAAGATCACC
GACGTCATCA TAGGGTTCCA GGCCTGCTGC AGGGGCTACC TGGCCAGGAA AGCATTTGCC
AAGCGGCAGC AGCAGCTTAC CGCCATGAAG GTCCTCCAGC GGAACTGCGC TGCCTACCTG
AAGCTGCGGA ACTGGCAGTG GTGGCGGCTC TTCACCAAGG TCAAGCCGCT GCTGCAGGTG
AGCCGGCAGG AGGAGGAGAT GATGGCCAAG GAGGAGGAGC TGGTGAAGGT CAGAGAGAAG
CAGCTGGCTG CGGAGAACAG GCTCACGGAG ATGGAGACGC TGCAGTCTCA GCTCATGGCA
GAGAAATTGC AGCTGCAGGA GCAGCTCCAG GCAGAAACCG AGCTGTGTGC CGAGGCTGAG
GAGCTCCGGG CCCGCCTGAC CGCCAAGAAG CAGGAATTAG AAGAGATCTG CCATGACCTA
GAGGCCAGGG TGGAGGAGGA GGAGGAGCGC TGCCAGCACC TGCAGGCGGA GAAGAAGAAG
ATGCAGCAGA ACATCCAGGA GCTTGAGGAG CAGCTGGAGG AGGAGGAGAG CGCCCGGCAG
AAGCTGCAGC TGGAGAAGGT GACCACCGAG GCGAAGCTGA AAAAGCTGGA GGAGGAGCAG
ATCATCCTGG AGGACCAGAA CTGCAAGCTG GCCAAGGAAA AGAAACTGCT GGAAGACAGA
ATAGCTGAGT TCACCACCAA CCTCACAGAA GAGGAGGAGA AATCTAAGAG CCTCGCCAAG
CTCAAGAACA AGCATGAGGC AATGATCACT GACTTGGAAG AGCGCCTCCG CAGGGAGGAG
AAGCAGCGAC AGGAGCTGGA GAAGACCCGC CGGAAGCTGG AGGGAGACTC CACAGACCTC
AGCGACCAGA TCGCCGAGCT CCAGGCCCAG ATCGCGGAGC TCAAGATGCA GCTGGCCAAG
AAAGAGGAGG AGCTCCAGGC CGCCCTGGCC AGAGTGGAAG AGGAAGCTGC CCAGAAGAAC
ATGGCCCTCA AGAAGATCCG GGAGCTGGAA TCTCAGATCT CTGAACTCCA GGAAGACCTG
GAGTCTGAGC GTGCTTCCAG GAATAAAGCT GAGAAGCAGA AACGGGACCT TGGGGAAGAG
CTAGAGGCTC TGAAAACAGA GTTGGAGGAC ACGCTGGATT CCACAGCTGC CCAGCAGGAG
CTCAGGTCAA AACGTGAGCA GGAGGTGAAC ATCCTGAAGA AGACCCTGGA GGAGGAGGCC
AAGACCCACG AGGCCCAGAT CCAGGAGATG AGGCAGAAGC ACTCACAGGC CGTGGAGGAG
CTGGCGGAGC AGCTGGAGCA GACGAAGCGG GTGAAAGCAA ACCTCGAGAA GGCAAAGCAG
ACTCTGGAGA ACGAGCGGGG GGAGCTGGCC AACGAGGTGA AGGTGCTGCT GCAGGGCAAA
GGGGACTCGG AGCACAAGCG CAAGAAAGTG GAGGCGCAGC TGCAGGAGCT GCAGGTCAAG
TTCAACGAGG GAGAGCGCGT GCGCACAGAG CTGGCCGACA AGGTCACCAA GCTGCAGGTG
GAGCTGGACA ACGTGACCGG GCTTCTCAGC CAGTCCGACA GCAAGTCCAG CAAGCTCACC
AAGGACTTCT CCGCGCTGGA GTCCCAGCTG CAGGACACTC AGGAGCTGCT GCAGGAGGAG
AACCGGCAGA AGCTGAGCCT GAGCACCAAG CTCAAGCAGG TGGAGGACGA GAAGAATTCC
TTCCGGGAGC AGCTGGAGGA GGAGGAGGAG GCCAAGCACA ACCTGGAGAA GCAGATCGCC
ACCCTCCATG CCCAGGTGGC CGACATGAAA AAGAAGATGG AGGACAGTGT GGGGTGCCTG
GAAACTGCTG AGGAGGTGAA GAGGAAGCTC CAGAAGGACC TGGAGGGCCT GAGCCAGCGG
CACGAGGAGA AGGTGGCCGC CTACGACAAG CTGGAGAAGA CCAAGACGCG GCTGCAGCAG
GAGCTGGACG ACCTGCTGGT GGACCTGGAC CACCAGCGCC AGAGCGCGTG CAACCTGGAG
AAGAAGCAGA AGAAGTTTGA CCAGCTCCTG GCGGAGGAGA AGACCATCTC TGCCAAGTAT
GCAGAGGAGC GCGACCGGGC TGAGGCGGAG GCCCGAGAGA AGGAGACCAA GGCTCTGTCG
CTGGCCCGGG CCCTGGAGGA AGCCATGGAG CAGAAGGCGG AGCTGGAGCG GCTCAACAAG
CAGTTCCGCA CGGAGATGGA GGACCTTATG AGCTCCAAGG ATGATGTGGG CAAGAGTGTC
CACGAGCTGG AGAAGTCCAA GCGGGCCCTA GAGCAGCAGG TGGAGGAGAT GAAGACGCAG
CTGGAAGAGC TGGAGGACGA GCTGCAGGCC ACCGAAGATG CCAAGCTGCG GTTGGAGGTC
AACCTGCAGG CCATGAAGGC CCAGTTCGAG CGGGACCTGC AGGGCCGGGA CGAGCAGAGC
GAGGAGAAGA AGAAGCAGCT GGTCAGACAG GTGCGGGAGA TGGAGGCAGA GCTGGAGGAC
GAGAGGAAGC AGCGCTCGAT GGCAGTGGCC GCCCGGAAGA AGCTGGAGAT GGACCTGAAG
GACCTGGAGG CGCACATCGA CTCGGCCAAC AAGAACCGGG ACGAAGCCAT CAAACAGCTG
CGGAAGCTGC AGGCCCAGAT GAAGGACTGC ATGCGCGAGC TGGATGACAC CCGCGCCTCT
CGTGAGGAGA TCCTGGCCCA GGCCAAAGAG AACGAGAAGA AGCTGAAGAG CATGGAGGCC
GAGATGATCC AGTTGCAGGA GGAACTGGCA GCCGCGGAGC GTGCCAAGCG CCAGGCCCAG
CAGGAGCGGG ATGAGCTGGC TGACGAGATC GCCAACAGCA GCGGCAAAGG AGCCCTGGCG
TTAGAGGAGA AGCGGCGTCT GGAGGCCCGC ATCGCCCAGC TGGAGGAGGA GCTGGAGGAG
GAGCAGGGCA ACACGGAGCT GATCAACGAC CGGCTGAAGA AGGCCAACCT GCAGATCGAC
CAGATCAACA CCGACCTGAA CCTGGAGCGC AGCCACGCCC AGAAGAACGA GAATGCTCGG
CAGCAGCTGG AACGCCAGAA CAAGGAGCTT AAGGTCAAGC TGCAGGAGAT GGAGGGCACT
GTCAAGTCCA AGTACAAGGC CTCCATCACC GCCCTCGAGG CCAAGATTGC ACAGCTGGAG
GAGCAGCTGG ACAACGAGAC CAAGGAGCGC CAGGCAGCCT GCAAACAGGT GCGTCGGACC
GAGAAGAAGC TGAAGGATGT GCTGCTGCAG GTGGATGACG AGCGGAGGAA CGCCGAGCAG
TACAAGGACC AGGCCGACAA GGCATCTACC CGCCTGAAGC AGCTCAAGCG GCAGCTGGAG
GAGGCCGAAG AGGAGGCCCA GCGGGCCAAC GCCTCCCGCC GGAAACTGCA GCGCGAGCTG
GAGGACGCCA CTGAGACGGC CGATGCCATG AACCGCGAAG TCAGCTCCCT AAAGAACAAG
CTCAGGCGCG GGGACCTGCC GTTTGTCGTG CCCCGCCGAA TGGCCCGGAA AGGCGCCGGG
GATGGCTCCG ACGAAGAGGT AGATGGCAAA GCGGATGGGG CTGAGGCCAA ACCTGCCGAA
TAA

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

 
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