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DYNC1H1 cDNA ORF clone, Homo sapiens (human)

Gene Symbol DYNC1H1
Entrez Gene ID 1778
Full Name dynein, cytoplasmic 1, heavy chain 1
Synonyms CMT2O, DHC1, DHC1a, DNCH1, DNCL, DNECL, DYHC, Dnchc1, HL-3, SMALED1, p22
General protein information
Preferred Names
cytoplasmic dynein 1 heavy chain 1
Names
cytoplasmic dynein 1 heavy chain 1
dynein heavy chain, cytosolic
dynein, cytoplasmic, heavy polypeptide 1
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

14

14q32

Summary Dyneins are a group of microtubule-activated ATPases that function as molecular motors. They are divided into two subgroups of axonemal and cytoplasmic dyneins. The cytoplasmic dyneins function in intracellular motility, including retrograde axonal transport, protein sorting, organelle movement, and spindle dynamics. Molecules of conventional cytoplasmic dynein are comprised of 2 heavy chain polypeptides and a number of intermediate and light chains.This gene encodes a member of the cytoplasmic dynein heavy chain family. [provided by RefSeq, Oct 2008]. lac of sum
Disorder MIM:

600112


mRNA and Protein(s)

mRNA Protein Name
NM_001376 NP_001367 cytoplasmic dynein 1 heavy chain 1



Homo sapiens (human) DYNC1H1 NP_001367.2
Pan troglodytes (chimpanzee) DYNC1H1 XP_003314564.1
Macaca mulatta (Rhesus monkey) LOC718989 XP_001112455.2
Canis lupus familiaris (dog) DYNC1H1 XP_537556.2
Bos taurus (cattle) DYNC1H1 NP_001193067.1
Mus musculus (house mouse) Dync1h1 NP_084514.2
Rattus norvegicus (Norway rat) Dync1h1 NP_062099.3
Gallus gallus (chicken) DYNC1H1 XP_421371.3
Danio rerio (zebrafish) dync1h1 NP_001036210.1
Drosophila melanogaster (fruit fly) Dhc64C NP_523929.2
Caenorhabditis elegans dhc-1 NP_491363.1


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

The following DYNC1H1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DYNC1H1 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.

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***CloneID RefSeq Accession Definition **Vector *Turnaround time Price (USD) Select
OHu26236 NM_001376 Homo sapiens dynein, cytoplasmic 1, heavy chain 1 (DYNC1H1), mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD Quote Price

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** 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 OHu26236
Clone ID Related Accession (Same CDS sequence) NM_001376
Accession Version NM_001376.4 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 13941bp)
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
Insert Structure linear
Update Date 29-JUN-2015
Organism Homo sapiens (human)
Product cytoplasmic dynein 1 heavy chain 1
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AB290157.1, AB002323.3 and DB508175.2. This sequence is a reference standard in the RefSeqGene project. On Oct 11, 2008 this sequence version replaced gi:94557306. 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 :: AB290157.1, AB002323.3 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

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ATGTCGGAGC CCGGGGGCGG CGGCGGCGAG GACGGCTCGG CCGGATTGGA AGTGTCGGCC 
GTGCAGAATG TGGCGGACGT GTCGGTGCTG CAGAAGCACC TGCGCAAGCT GGTGCCGCTG
CTGCTGGAGG ACGGCGGCGA GGCGCCGGCC GCGCTGGAGG CGGCGCTGGA GGAGAAGAGC
GCCCTGGAGC AGATGCGCAA GTTCCTTTCG GACCCGCAGG TCCACACGGT GCTGGTGGAG
CGCTCCACGC TCAAAGAGGA CGTCGGTGAT GAAGGAGAAG AAGAAAAAGA ATTCATTTCC
TATAACATCA ACATAGACAT TCATTATGGG GTTAAATCCA ATAGCTTGGC ATTCATTAAA
CGTACTCCCG TGATTGATGC AGATAAACCC GTGTCTTCTC AGCTCCGGGT CCTTACACTC
AGTGAAGACT CGCCCTACGA AACTTTGCAT TCTTTCATTA GCAATGCAGT GGCTCCTTTT
TTTAAGTCCT ACATTAGAGA GTCTGGCAAG GCAGACAGGG ATGGTGATAA AATGGCTCCT
TCAGTTGAAA AGAAGATTGC AGAACTCGAA ATGGGACTCC TTCACTTGCA GCAAAATATT
GAAATTCCGG AGATCAGCCT GCCGATTCAT CCAATGATCA CAAATGTTGC AAAACAGTGT
TATGAGCGTG GAGAAAAGCC AAAAGTTACA GACTTTGGTG ATAAGGTTGA AGACCCAACA
TTTCTTAATC AGTTACAATC TGGAGTTAAC CGCTGGATCC GAGAAATTCA AAAAGTGACC
AAACTGGATC GAGATCCTGC ATCAGGAACT GCCTTACAGG AAATTAGTTT TTGGCTAAAC
TTGGAACGTG CGTTATACCG CATCCAGGAG AAACGGGAGA GCCCGGAAGT TCTCCTGACT
CTGGATATCT TGAAACATGG CAAGCGCTTC CATGCCACCG TCAGTTTTGA CACTGACACA
GGTCTAAAAC AGGCTTTGGA AACTGTGAAT GACTACAATC CTCTGATGAA AGATTTCCCT
CTGAATGATT TGCTGTCTGC CACGGAGCTG GACAAAATAA GACAGGCGCT TGTTGCCATT
TTCACACATT TGAGAAAGAT CCGAAACACA AAATATCCTA TTCAGAGGGC ACTGCGTTTG
GTGGAGGCAA TTTCAAGAGA CTTGAGTTCT CAATTACTCA AAGTATTGGG CACTAGGAAA
TTGATGCATG TTGCTTATGA AGAATTTGAA AAAGTTATGG TAGCATGCTT TGAAGTTTTT
CAGACTTGGG ATGATGAGTA TGAGAAACTT CAGGTATTGT TGAGAGACAT CGTCAAAAGA
AAAAGGGAAG AAAATCTGAA GATGGTGTGG CGTATCAACC CTGCCCACAG GAAGCTGCAG
GCCCGCCTTG ACCAGATGAG AAAATTTAGA CGCCAGCATG AACAGCTAAG AGCTGTTATC
GTCAGGGTCC TGAGGCCACA GGTCACGGCA GTTGCACAAC AGAATCAAGG AGAGGTCCCT
GAACCCCAAG ATATGAAAGT GGCTGAGGTT CTCTTTGATG CTGCAGATGC AAATGCCATT
GAGGAAGTAA ACCTTGCTTA TGAGAACGTC AAGGAAGTGG ATGGACTGGA TGTTTCCAAA
GAGGGCACGG AAGCCTGGGA GGCTGCTATG AAGAGGTACG ATGAGAGGAT CGACAGAGTG
GAGACCCGGA TCACCGCTCG CCTTCGGGAT CAGCTTGGCA CAGCCAAGAA TGCCAACGAG
ATGTTTAGGA TTTTCTCCAG GTTTAATGCA CTGTTTGTCA GGCCTCACAT CCGTGGGGCC
ATTCGCGAAT ACCAGACCCA GCTGATCCAG CGCGTGAAAG ATGACATTGA GTCTCTTCAC
GACAAGTTCA AGGTCCAGTA CCCACAGAGT CAGGCTTGTA AGATGAGTCA CGTTCGTGAC
TTGCCCCCTG TGTCAGGGTC TATCATCTGG GCTAAACAGA TCGACAGGCA GCTGACGGCC
TACATGAAGC GGGTGGAAGA TGTCCTTGGC AAGGGCTGGG AGAATCACGT GGAGGGGCAG
AAGCTGAAGC AGGATGGAGA CAGCTTCCGC ATGAAGCTCA ACACGCAGGA GATCTTTGAT
GACTGGGCAA GGAAGGTGCA GCAGCGCAAC CTCGGTGTCT CGGGGCGCAT TTTCACCATC
GAAAGTACTC GGGTTCGGGG CCGAACTGGA AATGTGCTTA AGCTGAAAGT TAACTTTCTT
CCTGAGATTA TCACACTATC CAAAGAAGTC CGGAACCTCA AATGGCTTGG TTTCCGCGTC
CCACTGGCGA TTGTGAACAA AGCCCATCAA GCAAACCAGC TTTACCCGTT TGCCATCTCA
CTGATCGAGA GCGTTCGTAC CTATGAACGG ACCTGCGAGA AGGTGGAGGA GCGGAACACC
ATTTCCCTTT TGGTGGCTGG CTTGAAAAAG GAAGTGCAGG CCCTGATCGC AGAAGGCATT
GCGTTGGTGT GGGAGTCCTA CAAACTTGAC CCATATGTAC AGCGCTTAGC AGAGACTGTC
TTCAACTTCC AAGAAAAGGT GGATGATCTG CTGATCATTG AAGAAAAAAT AGACCTAGAA
GTCCGTTCCT TGGAAACTTG TATGTATGAC CATAAGACAT TCTCGGAAAT CTTGAACAGA
GTCCAGAAAG CAGTGGATGA CTTAAATCTG CACTCCTATT CCAATTTGCC CATCTGGGTC
AACAAGCTTG ACATGGAGAT TGAAAGAATA TTGGGCGTCC GTCTGCAAGC TGGCCTGAGA
GCTTGGACGC AGGTTCTTCT TGGACAAGCT GAAGATAAAG CAGAAGTTGA CATGGACACA
GATGCTCCAC AAGTTAGTCA CAAGCCTGGT GGAGAGCCAA AGATCAAAAA TGTCGTTCAT
GAGCTAAGAA TAACCAATCA GGTAATCTAC TTGAATCCAC CAATTGAAGA GTGCAGATAC
AAGCTGTATC AGGAAATGTT TGCCTGGAAG ATGGTTGTAC TGTCTCTCCC CAGGATCCAG
AGTCAGAGGT ACCAGGTGGG TGTACATTAC GAATTGACTG AGGAAGAGAA ATTCTATCGG
AATGCTTTAA CACGGATGCC TGATGGCCCT GTTGCCCTGG AAGAGTCGTA TTCTGCTGTC
ATGGGCATTG TATCTGAAGT TGAACAGTAT GTCAAGGTTT GGCTTCAGTA TCAGTGTTTA
TGGGATATGC AAGCTGAAAA CATCTATAAC AGACTTGGAG AAGATCTCAA CAAATGGCAG
GCTCTCCTGG TCCAAATAAG GAAGGCCAGA GGAACCTTTG ACAATGCAGA AACCAAGAAA
GAGTTTGGAC CAGTAGTTAT AGATTATGGC AAGGTACAAT CTAAGGTGAA CTTGAAATAT
GACTCTTGGC ATAAGGAGGT TCTTAGCAAA TTTGGGCAGA TGCTAGGATC AAACATGACG
GAATTCCATT CCCAGATCTC AAAGTCCCGC CAAGAGTTGG AGCAGCACTC AGTAGACACG
GCCAGCACCT CCGATGCAGT GACCTTCATC ACCTATGTGC AGTCTTTGAA ACGGAAGATC
AAGCAGTTTG AGAAGCAAGT TGAGCTCTAC CGCAATGGCC AGCGCTTACT GGAAAAGCAA
AGGTTCCAGT TCCCACCTTC CTGGCTTTAT ATTGACAACA TCGAGGGAGA GTGGGGAGCC
TTCAATGACA TCATGCGGCG AAAGGACTCT GCCATTCAGC AGCAGGTGGC AAACCTGCAA
ATGAAGATTG TCCAGGAGGA TCGGGCCGTG GAAAGCCGCA CCACCGACCT GCTGACTGAC
TGGGAGAAGA CCAAGCCTGT CACGGGCAAC CTTCGCCCAG AAGAGGCACT TCAGGCTCTC
ACCATATATG AGGGGAAGTT TGGTAGGCTG AAGGACGACA GAGAGAAGTG TGCAAAGGCC
AAGGAGGCGC TGGAATTGAC AGATACTGGG CTTCTCAGTG GCAGTGAAGA GCGCGTGCAG
GTGGCCTTAG AAGAATTACA GGACCTCAAA GGCGTTTGGT CAGAACTTTC TAAGGTTTGG
GAGCAAATCG ATCAGATGAA GGAGCAACCC TGGGTTTCAG TACAGCCTCG AAAGCTTCGA
CAAAATTTGG ATGCCCTCCT GAACCAGCTG AAAAGCTTCC CTGCCCGGTT GCGACAGTAT
GCGTCCTATG AGTTTGTTCA GAGGCTTCTG AAAGGTTACA TGAAGATAAA TATGCTGGTG
ATTGAACTGA AATCCGAAGC ACTTAAAGAC CGCCATTGGA AACAGCTCAT GAAAAGGCTT
CACGTTAATT GGGTTGTTTC TGAGCTAACC CTTGGCCAAA TCTGGGATGT TGACTTGCAG
AAAAATGAAG CGATTGTCAA GGATGTACTG CTTGTGGCAC AAGGGGAGAT GGCTTTGGAA
GAATTTTTGA AGCAGATAAG AGAAGTGTGG AATACTTATG AACTAGACTT GGTTAATTAT
CAGAACAAGT GCCGCTTGAT CCGTGGCTGG GATGACCTCT TCAACAAGGT CAAAGAACAC
ATCAACAGCG TCTCGGCCAT GAAGCTCTCT CCGTATTACA AGGTTTTTGA AGAGGATGCT
CTCAGCTGGG AAGATAAGCT GAACAGGATC ATGGCTCTCT TTGATGTGTG GATTGATGTG
CAGAGGCGGT GGGTCTACCT GGAAGGTATC TTCACAGGCA GTGCAGATAT CAAGCACCTG
CTGCCAGTGG AAACCCAGCG GTTTCAGAGC ATCAGCACTG AGTTTTTGGC TCTAATGAAA
AAAGTGTCCA AGTCTCCCCT TGTTATGGAT GTTCTGAACA TCCAGGGAGT ACAGAGGTCT
CTGGAAAGAT TGGCAGACCT GCTAGGAAAG ATCCAGAAAG CATTGGGAGA ATATCTGGAA
AGAGAGCGGT CATCTTTCCC CAGGTTCTAT TTTGTGGGTG ATGAAGATTT GCTTGAAATC
ATTGGAAACA GCAAGAATGT CGCTAAATTA CAGAAACACT TCAAGAAGAT GTTTGCTGGA
GTTTCGAGCA TCATCCTGAA CGAGGATAAC TCTGTTGTTT TGGGTATTTC ATCTCGGGAA
GGAGAGGAGG TTATGTTTAA AACTCCTGTG TCAATTACTG AACATCCCAA AATCAATGAG
TGGCTCACAT TGGTAGAAAA GGAGATGAGA GTCACCCTGG CCAAACTGCT TGCTGAGTCT
GTTACGGAAG TTGAGATTTT TGGTAAAGCA ACTTCAATTG ACCCAAATAC CTACATCACT
TGGATTGATA AATACCAGGC CCAGCTTGTG GTTTTGTCAG CCCAGATAGC CTGGTCTGAG
AACGTGGAGA CCGCACTGAG CAGCATGGGC GGAGGTGGAG ATGCCGCGCC CTTGCACTCT
GTGCTGAGCA ATGTGGAGGT CACCCTCAAT GTGTTAGCAG ACTCTGTCCT CATGGAGCAG
CCCCCACTCC GAAGGCGGAA GCTAGAACAC TTGATTACAG AGTTGGTTCA CCAGAGAGAT
GTTACAAGGT CCTTGATCAA AAGCAAGATT GACAACGCCA AATCTTTTGA ATGGCTCAGC
CAGATGCGAT TTTACTTTGA CCCTAAGCAA ACTGATGTGT TACAGCAGTT GTCAATTCAA
ATGGCAAATG CCAAATTTAA CTATGGCTTT GAGTACCTGG GTGTTCAGGA CAAACTGGTC
CAGACCCCCC TCACTGACCG CTGCTATTTG ACAATGACAC AAGCCTTGGA GGCCAGGCTG
GGGGGTTCCC CATTTGGACC TGCTGGAACT GGGAAAACAG AGTCTGTCAA AGCTCTTGGC
CATCAGCTTG GACGGTTTGT TTTAGTTTTC AACTGTGATG AAACCTTTGA TTTCCAGGCA
ATGGGCCGGA TCTTTGTGGG CCTTTGCCAG GTGGGTGCCT GGGGCTGCTT TGACGAGTTC
AACCGCCTGG AGGAGCGGAT GCTCTCGGCT GTGTCCCAGC AGGTGCAGTG CATACAGGAA
GCACTGCGTG AACATTCCAA CCCCAACTAC GACAAGACCT CTGCCCCCAT TACTTGTGAG
CTGCTGAACA AACAAGTCAA GGTGAGCCCG GACATGGCCA TCTTCATCAC CATGAACCCT
GGCTACGCGG GCCGGTCTAA CCTTCCTGAC AACTTGAAGA AGCTGTTCCG GAGCTTGGCC
ATGACCAAGC CCGACCGGCA GTTAATCGCC CAGGTCATGC TGTACTCACA GGGTTTCCGC
ACTGCTGAAG TGCTTGCCAA CAAAATCGTC CCGTTTTTTA AACTATGCGA TGAGCAGCTC
TCTTCCCAAA GCCATTATGA CTTCGGTCTT CGGGCTTTGA AGAGTGTGCT GGTGAGTGCA
GGCAATGTGA AGAGAGAGAG AATCCAGAAG ATAAAGAGGG AGAAAGAGGA ACGAGGGGAA
GCAGTTGATG AAGGAGAAAT TGCTGAAAAT CTCCCTGAAC AAGAGATTCT GATACAGAGC
GTCTGTGAGA CGATGGTGCC AAAGCTGGTG GCAGAGGACA TCCCGCTGCT CTTCAGCCTC
CTGTCGGACG TGTTCCCTGG AGTCCAGTAT CACAGGGGTG AGATGACTGC CCTTCGAGAG
GAGCTGAAGA AAGTGTGTCA GGAGATGTAT TTGACATATG GAGATGGAGA AGAAGTTGGT
GGAATGTGGG TTGAAAAGGT TCTCCAGCTC TATCAGATCA CCCAGATCAA TCATGGCCTG
ATGATGGTGG GGCCCTCGGG AAGTGGGAAG AGCATGGCCT GGCGTGTCCT GCTGAAGGCA
TTGGAGAGAC TCGAGGGTGT GGAAGGTGTG GCCCATATCA TCGACCCCAA GGCCATCAGC
AAAGACCACC TCTACGGAAC CCTGGACCCC AACACCAGGG AATGGACAGA TGGGCTCTTC
ACACACGTGC TGAGAAAGAT CATCGACAGC GTGAGAGGCG AGCTGCAGAA GCGCCAGTGG
ATCGTCTTCG ATGGCGATGT GGATCCAGAG TGGGTTGAGA ACTTGAACTC AGTGCTGGAT
GACAATAAGC TCCTAACTTT GCCCAATGGA GAGCGCCTCA GTCTTCCACC CAATGTGAGA
ATAATGTTTG AGGTACAGGA CTTGAAATAC GCGACCTTGG CCACAGTGTC GCGCTGCGGC
ATGGTCTGGT TCAGTGAGGA TGTGCTGAGC ACCGACATGA TCTTCAACAA CTTCCTGGCC
AGGCTGCGCA GCATCCCGCT GGATGAAGGG GAGGATGAGG CACAGCGGCG GCGTAAGGGC
AAAGAGGATG AGGGGGAGGA GGCCGCTTCC CCCATGCTGC AGATCCAAAG AGATGCAGCT
ACGATCATGC AACCGTACTT CACGTCCAAC GGCCTGGTCA CCAAGGCGCT AGAGCACGCC
TTCCAGCTGG AGCACATCAT GGACCTAACA CGCCTGCGCT GCCTGGGCTC GCTCTTCTCC
ATGCTGCACC AGGCCTGCCG CAACGTGGCG CAGTATAACG CCAACCATCC CGACTTCCCC
ATGCAGATCG AGCAGCTGGA GCGCTACATT CAGCGATATC TGGTTTATGC CATACTCTGG
TCCCTGTCTG GAGACAGCCG GCTAAAAATG AGAGCAGAGC TGGGTGAATA CATCAGAAGA
ATCACGACCG TGCCTCTGCC CACTGCGCCC AACATACCCA TTATCGATTA TGAGGTGTCC
ATCAGCGGAG AATGGTCTCC GTGGCAGGCC AAGGTGCCTC AGATTGAAGT GGAGACGCAC
AAGGTGGCAG CCCCTGATGT CGTCGTGCCA ACGCTGGACA CAGTCCGCCA CGAAGCCCTC
TTGTACACTT GGCTGGCCGA ACACAAGCCC CTGGTCTTGT GTGGCCCTCC TGGGTCTGGC
AAGACCATGA CACTCTTCAG CGCCCTCCGG GCCTTGCCTG ACATGGAGGT GGTGGGTCTC
AACTTCTCCA GTGCTACTAC TCCAGAGCTG CTTCTGAAGA CTTTTGATCA CTACTGCGAG
TACAGGCGCA CACCTAATGG GGTGGTTTTG GCTCCTGTTC AACTTGGAAA GTGGCTGGTG
TTGTTCTGTG ATGAAATCAA CTTGCCAGAT ATGGATAAAT ATGGGACCCA GAGGGTCATA
TCCTTCATCA GACAGATGGT GGAGCACGGA GGCTTTTACC GTACCTCAGA TCAAACATGG
GTGAAGCTGG AGAGAATCCA GTTTGTTGGG GCTTGTAATC CCCCCACAGA CCCTGGAAGA
AAGCCCCTCT CACACAGGTT CCTGCGCCAC GTGCCTGTCG TGTATGTGGA TTACCCGGGC
CCCGCCTCCC TCACACAGAT CTACGGCACC TTCAACCGCG CCATGCTGAG GCTCATTCCA
TCCCTGCGGA CGTATGCAGA GCCGCTCACT GCTGCCATGG TGGAGTTCTA CACCATGTCT
CAGGAGAGAT TCACCCAGGA TACACAACCT CACTATATCT ATTCACCCCG TGAAATGACT
AGGTGGGTGA GAGGCATCTT TGAAGCGCTG AGACCTCTGG AGACCCTGCC TGTTGAAGGC
CTCATTCGGA TTTGGGCACA TGAAGCTCTG CGTCTCTTCC AAGATAGACT CGTAGAGGAT
GAGGAGAGGC GTTGGACTGA TGAGAACATC GACACGGTTG CTCTGAAGCA CTTCCCTAAC
ATCGACAGAG AGAAGGCAAT GAGCCGACCC ATCTTGTACA GCAACTGGCT GTCAAAGGAT
TACATCCCAG TAGACCAAGA AGAGTTAAGA GATTATGTCA AAGCTAGGCT GAAGGTCTTT
TATGAAGAAG AACTTGATGT TCCGCTGGTG CTGTTTAATG AAGTCCTAGA CCACGTGCTG
AGGATTGACA GAATATTCCG TCAACCTCAA GGCCACTTGC TTCTGATTGG TGTTAGTGGA
GCAGGAAAAA CTACCCTGTC TCGTTTCGTC GCCTGGATGA ACGGTTTGAG TGTGTACCAG
ATTAAGGTCC ATAGGAAGTA CACAGGGGAA GACTTTGATG AAGATCTACG GACAGTGTTG
AGACGTTCTG GCTGTAAAAA TGAAAAGATA GCATTTATAA TGGATGAATC TAATGTGTTA
GATTCTGGAT TCCTGGAGCG AATGAATACC CTTCTGGCCA ATGGAGAGGT GCCTGGTCTC
TTTGAAGGAG ACGAGTATGC CACCTTGATG ACGCAGTGCA AAGAGGGGGC ACAGAAGGAA
GGCCTGATGC TGGACTCGCA CGAGGAGCTC TACAAGTGGT TCACTAGCCA GGTTATCCGC
AACCTCCACG TCGTGTTCAC CATGAACCCG TCCTCGGAGG GACTCAAGGA CCGGGCAGCT
ACATCACCAG CACTTTTCAA CAGGTGTGTG TTGAATTGGT TTGGAGACTG GTCCACCGAA
GCACTGTATC AGGTTGGCAA AGAATTCACA AGTAAGATGG ATCTGGAGAA GCCAAATTAC
ATCGTGCCTG ATTACATGCC AGTTGTGTAT GATAAGCTGC CGCAGCCACC ATCCCATCGG
GAAGCCATTG TGAACAGCTG TGTGTTTGTT CATCAGACTC TTCACCAGGC GAATGCTCGG
CTAGCAAAGC GAGGCGGCAG AACGATGGCC ATCACCCCTC GCCACTACCT GGACTTCATC
AATCACTATG CCAACCTGTT CCACGAGAAG CGGAGCGAGC TGGAGGAGCA GCAGATGCAC
TTGAACGTGG GGCTCAGGAA GATCAAAGAG ACAGTCGACC AGGTAGAAGA ACTGCGTCGT
GACTTGAGGA TAAAGAGCCA AGAGCTGGAG GTGAAGAATG CAGCAGCCAA TGACAAGCTG
AAAAAGATGG TGAAAGACCA GCAGGAGGCT GAAAAGAAGA AGGTTATGAG CCAAGAAATC
CAGGAACAGC TGCATAAGCA GCAGGAGGTA ATTGCAGACA AACAGATGAG TGTCAAAGAA
GATCTTGATA AGGTGGAACC TGCCGTCATT GAGGCCCAGA ATGCTGTGAA GTCGATCAAG
AAGCAGCACC TGGTGGAGGT GAGGTCCATG GCCAACCCTC CTGCTGCTGT GAAGCTGGCG
CTGGAGTCCA TCTGCCTGCT GCTGGGGGAA AGCACCACAG ACTGGAAGCA GATCCGCTCC
ATCATCATGC GGGAGAACTT CATCCCCACC ATCGTCAACT TCTCTGCAGA GGAGATCAGT
GACGCCATAA GGGAGAAGAT GAAGAAAAAT TACATGTCCA ATCCAAGTTA CAATTATGAA
ATTGTGAATC GGGCTTCCCT GGCTTGCGGC CCTATGGTGA AATGGGCAAT TGCACAGCTT
AACTATGCAG ACATGTTAAA GAGAGTGGAG CCCCTACGCA ATGAGCTGCA GAAGCTGGAA
GATGACGCCA AGGACAACCA GCAGAAGGCC AACGAGGTGG AGCAGATGAT CCGAGACCTG
GAAGCCAGCA TCGCCCGCTA CAAGGAGGAA TACGCCGTCC TGATCTCAGA GGCCCAGGCC
ATCAAGGCAG ACCTGGCAGC TGTCGAGGCA AAAGTAAACC GGAGCACTGC TCTTCTGAAG
AGCTTGTCTG CTGAACGTGA ACGATGGGAA AAAACAAGTG AAACTTTCAA AAACCAGATG
TCCACCATTG CTGGGGACTG TCTCTTGTCA GCTGCGTTCA TTGCCTACGC GGGTTACTTT
GACCAGCAGA TGCGTCAGAA CTTGTTCACT ACCTGGTCCC ATCACCTACA GCAAGCCAAC
ATCCAGTTCC GTACAGATAT TGCCAGGACG GAATACCTTT CCAATGCTGA TGAGCGTCTT
CGCTGGCAGG CCAGCTCCTT GCCTGCTGAT GACCTTTGCA CAGAAAATGC CATCATGCTG
AAACGATTCA ATAGGTATCC GCTGATCATT GACCCCTCTG GACAGGCCAC AGAATTCATT
ATGAATGAAT ATAAGGATCG TAAGATCACA CGGACCAGCT TCCTGGATGA CGCCTTCAGA
AAGAACTTAG AGAGTGCACT GAGATTCGGT AACCCCCTTC TGGTCCAGGA TGTGGAAAGC
TACGATCCAG TTTTGAACCC GGTGCTGAAC CGTGAAGTGC GGCGAACAGG GGGGAGAGTG
CTGATCACTC TCGGGGACCA GGACATAGAC CTGTCGCCAT CGTTTGTCAT CTTCCTGTCC
ACCCGGGATC CAACTGTCGA GTTCCCACCA GATCTCTGTT CCCGGGTTAC TTTTGTAAAC
TTCACAGTTA CCCGTAGCAG TTTACAAAGC CAGTGTCTAA ATGAAGTACT TAAAGCAGAA
AGACCTGATG TGGACGAGAA ACGATCTGAT CTTCTTAAAC TTCAAGGGGA ATTTCAGCTC
CGTTTGCGTC AGCTGGAAAA ATCTCTACTA CAAGCTCTGA ACGAGGTGAA AGGGCGCATT
TTGGATGACG ACACGATCAT AACCACTCTG GAGAACCTGA AGAGAGAGGC TGCAGAGGTC
ACCAGGAAAG TTGAGGAGAC GGACATTGTC ATGCAGGAGG TGGAGACCGT GTCCCAGCAG
TACCTCCCGC TCTCCACCGC CTGCAGCAGC ATCTACTTCA CCATGGAGTC CCTCAAGCAG
ATACACTTCT TGTACCAGTA CTCCCTCCAG TTTTTCCTGG ACATTTATCA CAACGTCCTA
TACGAGAACC CGAACCTGAA GGGTGTCACC GACCACACAC AGCGCCTGTC CATTATAACA
AAGGACCTCT TCCAGGTGGC GTTTAACCGA GTGGCTCGAG GCATGCTGCA TCAGGACCAC
ATTACCTTTG CCATGCTGCT GGCAAGAATC AAACTGAAGG GCACCGTGGG GGAGCCCACC
TACGATGCAG AATTCCAGCA CTTCTTGAGA GGAAATGAGA TTGTCCTGAG TGCTGGCTCC
ACCCCCAGGA TCCAGGGCCT GACTGTGGAG CAGGCGGAGG CGGTGGTGAG GCTGAGCTGC
CTTCCCGCGT TTAAGGACTT GATTGCAAAG GTTCAGGCAG ACGAGCAATT TGGCATCTGG
CTGGACAGCA GCTCCCCGGA GCAGACTGTG CCCTACCTCT GGAGTGAAGA AACACCTGCA
ACACCCATTG GCCAGGCCAT CCACCGCCTG CTCCTGATCC AGGCTTTCCG GCCCGATCGC
CTGTTGGCCA TGGCCCACAT GTTTGTTTCA ACAAACCTTG GGGAGTCTTT CATGTCCATC
ATGGAGCAGC CGCTCGACCT GACCCACATT GTGGGCACAG AGGTGAAGCC CAACACTCCT
GTCTTAATGT GCTCTGTGCC TGGTTATGAT GCCAGTGGAC ATGTCGAGGA CCTTGCAGCC
GAGCAGAACA CGCAGATCAC TTCAATTGCA ATCGGCTCTG CAGAAGGCTT TAACCAAGCA
GATAAGGCAA TAAACACCGC TGTAAAGTCG GGCAGGTGGG TGATGCTGAA GAATGTGCAT
CTGGCCCCAG GGTGGCTGAT GCAGCTGGAG AAGAAGTTGC ATTCCCTGCA GCCGCATGCC
TGCTTCCGAC TCTTCCTCAC CATGGAGATC AACCCCAAGG TGCCTGTGAA TCTGCTCCGT
GCGGGCCGCA TCTTTGTGTT CGAGCCACCG CCAGGGGTGA AGGCCAACAT GCTGAGGACG
TTCAGCAGCA TTCCCGTCTC ACGGATATGC AAGTCTCCCA ACGAGCGTGC CCGCTTGTAC
TTCCTGCTGG CCTGGTTTCA TGCGATCATC CAAGAACGCT TACGATACGC ACCACTGGGG
TGGTCAAAGA AGTATGAATT TGGAGAGTCT GACCTGCGGT CAGCTTGCGA TACGGTGGAC
ACGTGGCTGG ATGACACGGC CAAGGGCAGG CAGAACATCT CACCGGATAA GATCCCGTGG
TCTGCACTAA AGACCTTAAT GGCCCAGTCC ATTTATGGCG GGCGCGTGGA CAACGAGTTT
GACCAGCGTC TGCTCAACAC CTTCCTGGAG CGCCTGTTCA CAACCAGGAG TTTCGACAGT
GAGTTTAAGC TGGCATGCAA GGTCGACGGA CATAAAGACA TTCAAATGCC AGATGGCATC
AGGCGAGAGG AGTTTGTGCA GTGGGTGGAG TTGCTCCCCG ACACCCAGAC GCCCTCCTGG
CTGGGCCTGC CCAACAACGC CGAGAGAGTC CTCCTTACCA CACAGGGTGT GGACATGATC
AGTAAAATGC TGAAGATGCA GATGTTGGAG GATGAGGACG ACCTGGCCTA CGCAGAGACT
GAGAAGAAGA CGAGGACAGA CTCCACGTCC GACGGGCGCC CTGCCTGGAT GCGGACACTG
CACACCACCG CGTCCAACTG GCTGCACCTC ATCCCCCAGA CGCTGAGCCA CCTCAAGCGC
ACCGTGGAGA ATATCAAGGA TCCTTTGTTC AGGTTCTTTG AGAGAGAAGT GAAGATGGGC
GCAAAGCTGC TTCAGGACGT TCGCCAGGAC CTTGCAGATG TCGTCCAGGT GTGCGAAGGA
AAGAAGAAGC AGACCAACTA CTTGCGCACG CTGATCAACG AGCTAGTGAA AGGGATCTTG
CCTCGGAGCT GGTCCCACTA CACGGTGCCT GCCGGCATGA CCGTCATCCA GTGGGTGTCC
GACTTCAGCG AGAGGATCAA ACAGCTGCAG AACATCTCAC TGGCAGCTGC ATCTGGTGGC
GCCAAGGAGC TAAAGAACAT CCACGTGTGC CTGGGTGGCC TGTTCGTGCC TGAGGCGTAC
ATCACTGCCA CCAGGCAGTA TGTGGCCCAG GCCAACAGCT GGTCCCTGGA GGAGCTCTGC
CTGGAAGTCA ACGTCACCAC CTCACAGGGC GCCACCCTTG ACGCTTGCAG CTTCGGAGTC
ACGGGTTTGA AACTTCAAGG GGCCACGTGC AACAACAACA AGCTGTCACT GTCCAATGCC
ATCTCAACCG CCCTTCCCCT GACGCAGCTG CGCTGGGTCA AGCAGACAAA CACCGAGAAG
AAGGCCAGTG TGGTAACCTT ACCTGTCTAC CTGAACTTCA CCCGTGCAGA CCTCATCTTC
ACCGTGGACT TCGAAATTGC TACAAAGGAG GATCCTCGCA GCTTCTACGA GCGGGGTGTC
GCAGTCTTGT GCACAGAGTA A

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

RefSeq NP_001367.2
CDS165..14105
Misc Feature(1)114..116(+)
Misc Feature(2)168..170(+)
Misc Feature(3)321..5765(+)
Misc Feature(4)876..2666(+)
Misc Feature(5)1506..2273(+)
Misc Feature(6)2115..2570(+)
Misc Feature(7)3300..13151(+)
Misc Feature(8)3537..3539(+)
Misc Feature(9)4122..5339(+)
Misc Feature(10)5766..6479(+)
Misc Feature(11)5766..6461(+)
Misc Feature(12)6702..7520(+)
Misc Feature(13)6819..7241(+)
Misc Feature(14)7392..7394(+)
Misc Feature(15)7830..8579(+)
Misc Feature(16)7872..8363(+)
Misc Feature(17)7947..7970(+)
Misc Feature(18)7950..8303(+)
Misc Feature(19)8142..8159(+)
Misc Feature(20)8340..8342(+)
Misc Feature(21)8859..9668(+)
Misc Feature(22)8928..>9200(+)
Misc Feature(23)8973..8996(+)
Misc Feature(24)8976..9149(+)
Misc Feature(25)9135..9152(+)
Misc Feature(26)9729..10664(+)
Misc Feature(27)9765..10760(+)
Misc Feature(28)10602..10604(+)
Misc Feature(29)10821..11510(+)
Misc Feature(30)10848..11504(+)
Misc Feature(31)11907..14099(+)
Misc Feature(32)12177..12827(+)
Misc Feature(33)13011..13013(+)
Misc Feature(34)13266..13268(+)
Misc Feature(35)13266..13268(+)
Exon (1)1..420
Gene:DYNC1H1
Gene Synonym:
Exon (2)421..508
Gene:DYNC1H1
Gene Synonym:
Exon (3)509..682
Gene:DYNC1H1
Gene Synonym:
Exon (4)683..938
Gene:DYNC1H1
Gene Synonym:
Exon (5)939..1125
Gene:DYNC1H1
Gene Synonym:
Exon (6)1126..1397
Gene:DYNC1H1
Gene Synonym:
Exon (7)1398..1625
Gene:DYNC1H1
Gene Synonym:
Exon (8)1626..2702
Gene:DYNC1H1
Gene Synonym:
Exon (9)2703..2882
Gene:DYNC1H1
Gene Synonym:
Exon (10)2883..3032
Gene:DYNC1H1
Gene Synonym:
Exon (11)3033..3179
Gene:DYNC1H1
Gene Synonym:
Exon (12)3180..3320
Gene:DYNC1H1
Gene Synonym:
Exon (13)3321..3497
Gene:DYNC1H1
Gene Synonym:
Exon (14)3498..3608
Gene:DYNC1H1
Gene Synonym:
Exon (15)3609..3728
Gene:DYNC1H1
Gene Synonym:
Exon (16)3729..3968
Gene:DYNC1H1
Gene Synonym:
Exon (17)3969..4124
Gene:DYNC1H1
Gene Synonym:
Exon (18)4125..4238
Gene:DYNC1H1
Gene Synonym:
Exon (19)4239..4349
Gene:DYNC1H1
Gene Synonym:
Exon (20)4350..4559
Gene:DYNC1H1
Gene Synonym:
Exon (21)4560..4706
Gene:DYNC1H1
Gene Synonym:
Exon (22)4707..4873
Gene:DYNC1H1
Gene Synonym:
Exon (23)4874..5047
Gene:DYNC1H1
Gene Synonym:
Exon (24)5048..5213
Gene:DYNC1H1
Gene Synonym:
Exon (25)5214..5402
Gene:DYNC1H1
Gene Synonym:
Exon (26)5403..5597
Gene:DYNC1H1
Gene Synonym:
Exon (27)5598..5880
Gene:DYNC1H1
Gene Synonym:
Exon (28)5881..5981
Gene:DYNC1H1
Gene Synonym:
Exon (29)5982..6141
Gene:DYNC1H1
Gene Synonym:
Exon (30)6142..6385
Gene:DYNC1H1
Gene Synonym:
Exon (31)6386..6569
Gene:DYNC1H1
Gene Synonym:
Exon (32)6570..6782
Gene:DYNC1H1
Gene Synonym:
Exon (33)6783..7021
Gene:DYNC1H1
Gene Synonym:
Exon (34)7022..7178
Gene:DYNC1H1
Gene Synonym:
Exon (35)7179..7406
Gene:DYNC1H1
Gene Synonym:
Exon (36)7407..7637
Gene:DYNC1H1
Gene Synonym:
Exon (37)7638..7778
Gene:DYNC1H1
Gene Synonym:
Exon (38)7779..8012
Gene:DYNC1H1
Gene Synonym:
Exon (39)8013..8219
Gene:DYNC1H1
Gene Synonym:
Exon (40)8220..8341
Gene:DYNC1H1
Gene Synonym:
Exon (41)8342..8507
Gene:DYNC1H1
Gene Synonym:
Exon (42)8508..8671
Gene:DYNC1H1
Gene Synonym:
Exon (43)8672..8801
Gene:DYNC1H1
Gene Synonym:
Exon (44)8802..8935
Gene:DYNC1H1
Gene Synonym:
Exon (45)8936..9050
Gene:DYNC1H1
Gene Synonym:
Exon (46)9051..9212
Gene:DYNC1H1
Gene Synonym:
Exon (47)9213..9427
Gene:DYNC1H1
Gene Synonym:
Exon (48)9428..9632
Gene:DYNC1H1
Gene Synonym:
Exon (49)9633..9806
Gene:DYNC1H1
Gene Synonym:
Exon (50)9807..9926
Gene:DYNC1H1
Gene Synonym:
Exon (51)9927..10047
Gene:DYNC1H1
Gene Synonym:
Exon (52)10048..10243
Gene:DYNC1H1
Gene Synonym:
Exon (53)10244..10361
Gene:DYNC1H1
Gene Synonym:
Exon (54)10362..10577
Gene:DYNC1H1
Gene Synonym:
Exon (55)10578..10790
Gene:DYNC1H1
Gene Synonym:
Exon (56)10791..10918
Gene:DYNC1H1
Gene Synonym:
Exon (57)10919..11072
Gene:DYNC1H1
Gene Synonym:
Exon (58)11073..11219
Gene:DYNC1H1
Gene Synonym:
Exon (59)11220..11370
Gene:DYNC1H1
Gene Synonym:
Exon (60)11371..11624
Gene:DYNC1H1
Gene Synonym:
Exon (61)11625..11759
Gene:DYNC1H1
Gene Synonym:
Exon (62)11760..11854
Gene:DYNC1H1
Gene Synonym:
Exon (63)11855..12029
Gene:DYNC1H1
Gene Synonym:
Exon (64)12030..12105
Gene:DYNC1H1
Gene Synonym:
Exon (65)12106..12266
Gene:DYNC1H1
Gene Synonym:
Exon (66)12267..12378
Gene:DYNC1H1
Gene Synonym:
Exon (67)12379..12439
Gene:DYNC1H1
Gene Synonym:
Exon (68)12440..12563
Gene:DYNC1H1
Gene Synonym:
Exon (69)12564..12677
Gene:DYNC1H1
Gene Synonym:
Exon (70)12678..12848
Gene:DYNC1H1
Gene Synonym:
Exon (71)12849..13066
Gene:DYNC1H1
Gene Synonym:
Exon (72)13067..13170
Gene:DYNC1H1
Gene Synonym:
Exon (73)13171..13382
Gene:DYNC1H1
Gene Synonym:
Exon (74)13383..13536
Gene:DYNC1H1
Gene Synonym:
Exon (75)13537..13679
Gene:DYNC1H1
Gene Synonym:
Exon (76)13680..13848
Gene:DYNC1H1
Gene Synonym:
Exon (77)13849..13976
Gene:DYNC1H1
Gene Synonym:
Exon (78)13977..14340
Gene:DYNC1H1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001376
Organism Homo sapiens (human)
Definition Homo sapiens dynein, cytoplasmic 1, heavy chain 1 (DYNC1H1), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_001376

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
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
10381
10441
10501
10561
10621
10681
10741
10801
10861
10921
10981
11041
11101
11161
11221
11281
11341
11401
11461
11521
11581
11641
11701
11761
11821
11881
11941
12001
12061
12121
12181
12241
12301
12361
12421
12481
12541
12601
12661
12721
12781
12841
12901
12961
13021
13081
13141
13201
13261
13321
13381
13441
13501
13561
13621
13681
13741
13801
13861
13921
ATGTCGGAGC CCGGGGGCGG CGGCGGCGAG GACGGCTCGG CCGGATTGGA AGTGTCGGCC 
GTGCAGAATG TGGCGGACGT GTCGGTGCTG CAGAAGCACC TGCGCAAGCT GGTGCCGCTG
CTGCTGGAGG ACGGCGGCGA GGCGCCGGCC GCGCTGGAGG CGGCGCTGGA GGAGAAGAGC
GCCCTGGAGC AGATGCGCAA GTTCCTTTCG GACCCGCAGG TCCACACGGT GCTGGTGGAG
CGCTCCACGC TCAAAGAGGA CGTCGGTGAT GAAGGAGAAG AAGAAAAAGA ATTCATTTCC
TATAACATCA ACATAGACAT TCATTATGGG GTTAAATCCA ATAGCTTGGC ATTCATTAAA
CGTACTCCCG TGATTGATGC AGATAAACCC GTGTCTTCTC AGCTCCGGGT CCTTACACTC
AGTGAAGACT CGCCCTACGA AACTTTGCAT TCTTTCATTA GCAATGCAGT GGCTCCTTTT
TTTAAGTCCT ACATTAGAGA GTCTGGCAAG GCAGACAGGG ATGGTGATAA AATGGCTCCT
TCAGTTGAAA AGAAGATTGC AGAACTCGAA ATGGGACTCC TTCACTTGCA GCAAAATATT
GAAATTCCGG AGATCAGCCT GCCGATTCAT CCAATGATCA CAAATGTTGC AAAACAGTGT
TATGAGCGTG GAGAAAAGCC AAAAGTTACA GACTTTGGTG ATAAGGTTGA AGACCCAACA
TTTCTTAATC AGTTACAATC TGGAGTTAAC CGCTGGATCC GAGAAATTCA AAAAGTGACC
AAACTGGATC GAGATCCTGC ATCAGGAACT GCCTTACAGG AAATTAGTTT TTGGCTAAAC
TTGGAACGTG CGTTATACCG CATCCAGGAG AAACGGGAGA GCCCGGAAGT TCTCCTGACT
CTGGATATCT TGAAACATGG CAAGCGCTTC CATGCCACCG TCAGTTTTGA CACTGACACA
GGTCTAAAAC AGGCTTTGGA AACTGTGAAT GACTACAATC CTCTGATGAA AGATTTCCCT
CTGAATGATT TGCTGTCTGC CACGGAGCTG GACAAAATAA GACAGGCGCT TGTTGCCATT
TTCACACATT TGAGAAAGAT CCGAAACACA AAATATCCTA TTCAGAGGGC ACTGCGTTTG
GTGGAGGCAA TTTCAAGAGA CTTGAGTTCT CAATTACTCA AAGTATTGGG CACTAGGAAA
TTGATGCATG TTGCTTATGA AGAATTTGAA AAAGTTATGG TAGCATGCTT TGAAGTTTTT
CAGACTTGGG ATGATGAGTA TGAGAAACTT CAGGTATTGT TGAGAGACAT CGTCAAAAGA
AAAAGGGAAG AAAATCTGAA GATGGTGTGG CGTATCAACC CTGCCCACAG GAAGCTGCAG
GCCCGCCTTG ACCAGATGAG AAAATTTAGA CGCCAGCATG AACAGCTAAG AGCTGTTATC
GTCAGGGTCC TGAGGCCACA GGTCACGGCA GTTGCACAAC AGAATCAAGG AGAGGTCCCT
GAACCCCAAG ATATGAAAGT GGCTGAGGTT CTCTTTGATG CTGCAGATGC AAATGCCATT
GAGGAAGTAA ACCTTGCTTA TGAGAACGTC AAGGAAGTGG ATGGACTGGA TGTTTCCAAA
GAGGGCACGG AAGCCTGGGA GGCTGCTATG AAGAGGTACG ATGAGAGGAT CGACAGAGTG
GAGACCCGGA TCACCGCTCG CCTTCGGGAT CAGCTTGGCA CAGCCAAGAA TGCCAACGAG
ATGTTTAGGA TTTTCTCCAG GTTTAATGCA CTGTTTGTCA GGCCTCACAT CCGTGGGGCC
ATTCGCGAAT ACCAGACCCA GCTGATCCAG CGCGTGAAAG ATGACATTGA GTCTCTTCAC
GACAAGTTCA AGGTCCAGTA CCCACAGAGT CAGGCTTGTA AGATGAGTCA CGTTCGTGAC
TTGCCCCCTG TGTCAGGGTC TATCATCTGG GCTAAACAGA TCGACAGGCA GCTGACGGCC
TACATGAAGC GGGTGGAAGA TGTCCTTGGC AAGGGCTGGG AGAATCACGT GGAGGGGCAG
AAGCTGAAGC AGGATGGAGA CAGCTTCCGC ATGAAGCTCA ACACGCAGGA GATCTTTGAT
GACTGGGCAA GGAAGGTGCA GCAGCGCAAC CTCGGTGTCT CGGGGCGCAT TTTCACCATC
GAAAGTACTC GGGTTCGGGG CCGAACTGGA AATGTGCTTA AGCTGAAAGT TAACTTTCTT
CCTGAGATTA TCACACTATC CAAAGAAGTC CGGAACCTCA AATGGCTTGG TTTCCGCGTC
CCACTGGCGA TTGTGAACAA AGCCCATCAA GCAAACCAGC TTTACCCGTT TGCCATCTCA
CTGATCGAGA GCGTTCGTAC CTATGAACGG ACCTGCGAGA AGGTGGAGGA GCGGAACACC
ATTTCCCTTT TGGTGGCTGG CTTGAAAAAG GAAGTGCAGG CCCTGATCGC AGAAGGCATT
GCGTTGGTGT GGGAGTCCTA CAAACTTGAC CCATATGTAC AGCGCTTAGC AGAGACTGTC
TTCAACTTCC AAGAAAAGGT GGATGATCTG CTGATCATTG AAGAAAAAAT AGACCTAGAA
GTCCGTTCCT TGGAAACTTG TATGTATGAC CATAAGACAT TCTCGGAAAT CTTGAACAGA
GTCCAGAAAG CAGTGGATGA CTTAAATCTG CACTCCTATT CCAATTTGCC CATCTGGGTC
AACAAGCTTG ACATGGAGAT TGAAAGAATA TTGGGCGTCC GTCTGCAAGC TGGCCTGAGA
GCTTGGACGC AGGTTCTTCT TGGACAAGCT GAAGATAAAG CAGAAGTTGA CATGGACACA
GATGCTCCAC AAGTTAGTCA CAAGCCTGGT GGAGAGCCAA AGATCAAAAA TGTCGTTCAT
GAGCTAAGAA TAACCAATCA GGTAATCTAC TTGAATCCAC CAATTGAAGA GTGCAGATAC
AAGCTGTATC AGGAAATGTT TGCCTGGAAG ATGGTTGTAC TGTCTCTCCC CAGGATCCAG
AGTCAGAGGT ACCAGGTGGG TGTACATTAC GAATTGACTG AGGAAGAGAA ATTCTATCGG
AATGCTTTAA CACGGATGCC TGATGGCCCT GTTGCCCTGG AAGAGTCGTA TTCTGCTGTC
ATGGGCATTG TATCTGAAGT TGAACAGTAT GTCAAGGTTT GGCTTCAGTA TCAGTGTTTA
TGGGATATGC AAGCTGAAAA CATCTATAAC AGACTTGGAG AAGATCTCAA CAAATGGCAG
GCTCTCCTGG TCCAAATAAG GAAGGCCAGA GGAACCTTTG ACAATGCAGA AACCAAGAAA
GAGTTTGGAC CAGTAGTTAT AGATTATGGC AAGGTACAAT CTAAGGTGAA CTTGAAATAT
GACTCTTGGC ATAAGGAGGT TCTTAGCAAA TTTGGGCAGA TGCTAGGATC AAACATGACG
GAATTCCATT CCCAGATCTC AAAGTCCCGC CAAGAGTTGG AGCAGCACTC AGTAGACACG
GCCAGCACCT CCGATGCAGT GACCTTCATC ACCTATGTGC AGTCTTTGAA ACGGAAGATC
AAGCAGTTTG AGAAGCAAGT TGAGCTCTAC CGCAATGGCC AGCGCTTACT GGAAAAGCAA
AGGTTCCAGT TCCCACCTTC CTGGCTTTAT ATTGACAACA TCGAGGGAGA GTGGGGAGCC
TTCAATGACA TCATGCGGCG AAAGGACTCT GCCATTCAGC AGCAGGTGGC AAACCTGCAA
ATGAAGATTG TCCAGGAGGA TCGGGCCGTG GAAAGCCGCA CCACCGACCT GCTGACTGAC
TGGGAGAAGA CCAAGCCTGT CACGGGCAAC CTTCGCCCAG AAGAGGCACT TCAGGCTCTC
ACCATATATG AGGGGAAGTT TGGTAGGCTG AAGGACGACA GAGAGAAGTG TGCAAAGGCC
AAGGAGGCGC TGGAATTGAC AGATACTGGG CTTCTCAGTG GCAGTGAAGA GCGCGTGCAG
GTGGCCTTAG AAGAATTACA GGACCTCAAA GGCGTTTGGT CAGAACTTTC TAAGGTTTGG
GAGCAAATCG ATCAGATGAA GGAGCAACCC TGGGTTTCAG TACAGCCTCG AAAGCTTCGA
CAAAATTTGG ATGCCCTCCT GAACCAGCTG AAAAGCTTCC CTGCCCGGTT GCGACAGTAT
GCGTCCTATG AGTTTGTTCA GAGGCTTCTG AAAGGTTACA TGAAGATAAA TATGCTGGTG
ATTGAACTGA AATCCGAAGC ACTTAAAGAC CGCCATTGGA AACAGCTCAT GAAAAGGCTT
CACGTTAATT GGGTTGTTTC TGAGCTAACC CTTGGCCAAA TCTGGGATGT TGACTTGCAG
AAAAATGAAG CGATTGTCAA GGATGTACTG CTTGTGGCAC AAGGGGAGAT GGCTTTGGAA
GAATTTTTGA AGCAGATAAG AGAAGTGTGG AATACTTATG AACTAGACTT GGTTAATTAT
CAGAACAAGT GCCGCTTGAT CCGTGGCTGG GATGACCTCT TCAACAAGGT CAAAGAACAC
ATCAACAGCG TCTCGGCCAT GAAGCTCTCT CCGTATTACA AGGTTTTTGA AGAGGATGCT
CTCAGCTGGG AAGATAAGCT GAACAGGATC ATGGCTCTCT TTGATGTGTG GATTGATGTG
CAGAGGCGGT GGGTCTACCT GGAAGGTATC TTCACAGGCA GTGCAGATAT CAAGCACCTG
CTGCCAGTGG AAACCCAGCG GTTTCAGAGC ATCAGCACTG AGTTTTTGGC TCTAATGAAA
AAAGTGTCCA AGTCTCCCCT TGTTATGGAT GTTCTGAACA TCCAGGGAGT ACAGAGGTCT
CTGGAAAGAT TGGCAGACCT GCTAGGAAAG ATCCAGAAAG CATTGGGAGA ATATCTGGAA
AGAGAGCGGT CATCTTTCCC CAGGTTCTAT TTTGTGGGTG ATGAAGATTT GCTTGAAATC
ATTGGAAACA GCAAGAATGT CGCTAAATTA CAGAAACACT TCAAGAAGAT GTTTGCTGGA
GTTTCGAGCA TCATCCTGAA CGAGGATAAC TCTGTTGTTT TGGGTATTTC ATCTCGGGAA
GGAGAGGAGG TTATGTTTAA AACTCCTGTG TCAATTACTG AACATCCCAA AATCAATGAG
TGGCTCACAT TGGTAGAAAA GGAGATGAGA GTCACCCTGG CCAAACTGCT TGCTGAGTCT
GTTACGGAAG TTGAGATTTT TGGTAAAGCA ACTTCAATTG ACCCAAATAC CTACATCACT
TGGATTGATA AATACCAGGC CCAGCTTGTG GTTTTGTCAG CCCAGATAGC CTGGTCTGAG
AACGTGGAGA CCGCACTGAG CAGCATGGGC GGAGGTGGAG ATGCCGCGCC CTTGCACTCT
GTGCTGAGCA ATGTGGAGGT CACCCTCAAT GTGTTAGCAG ACTCTGTCCT CATGGAGCAG
CCCCCACTCC GAAGGCGGAA GCTAGAACAC TTGATTACAG AGTTGGTTCA CCAGAGAGAT
GTTACAAGGT CCTTGATCAA AAGCAAGATT GACAACGCCA AATCTTTTGA ATGGCTCAGC
CAGATGCGAT TTTACTTTGA CCCTAAGCAA ACTGATGTGT TACAGCAGTT GTCAATTCAA
ATGGCAAATG CCAAATTTAA CTATGGCTTT GAGTACCTGG GTGTTCAGGA CAAACTGGTC
CAGACCCCCC TCACTGACCG CTGCTATTTG ACAATGACAC AAGCCTTGGA GGCCAGGCTG
GGGGGTTCCC CATTTGGACC TGCTGGAACT GGGAAAACAG AGTCTGTCAA AGCTCTTGGC
CATCAGCTTG GACGGTTTGT TTTAGTTTTC AACTGTGATG AAACCTTTGA TTTCCAGGCA
ATGGGCCGGA TCTTTGTGGG CCTTTGCCAG GTGGGTGCCT GGGGCTGCTT TGACGAGTTC
AACCGCCTGG AGGAGCGGAT GCTCTCGGCT GTGTCCCAGC AGGTGCAGTG CATACAGGAA
GCACTGCGTG AACATTCCAA CCCCAACTAC GACAAGACCT CTGCCCCCAT TACTTGTGAG
CTGCTGAACA AACAAGTCAA GGTGAGCCCG GACATGGCCA TCTTCATCAC CATGAACCCT
GGCTACGCGG GCCGGTCTAA CCTTCCTGAC AACTTGAAGA AGCTGTTCCG GAGCTTGGCC
ATGACCAAGC CCGACCGGCA GTTAATCGCC CAGGTCATGC TGTACTCACA GGGTTTCCGC
ACTGCTGAAG TGCTTGCCAA CAAAATCGTC CCGTTTTTTA AACTATGCGA TGAGCAGCTC
TCTTCCCAAA GCCATTATGA CTTCGGTCTT CGGGCTTTGA AGAGTGTGCT GGTGAGTGCA
GGCAATGTGA AGAGAGAGAG AATCCAGAAG ATAAAGAGGG AGAAAGAGGA ACGAGGGGAA
GCAGTTGATG AAGGAGAAAT TGCTGAAAAT CTCCCTGAAC AAGAGATTCT GATACAGAGC
GTCTGTGAGA CGATGGTGCC AAAGCTGGTG GCAGAGGACA TCCCGCTGCT CTTCAGCCTC
CTGTCGGACG TGTTCCCTGG AGTCCAGTAT CACAGGGGTG AGATGACTGC CCTTCGAGAG
GAGCTGAAGA AAGTGTGTCA GGAGATGTAT TTGACATATG GAGATGGAGA AGAAGTTGGT
GGAATGTGGG TTGAAAAGGT TCTCCAGCTC TATCAGATCA CCCAGATCAA TCATGGCCTG
ATGATGGTGG GGCCCTCGGG AAGTGGGAAG AGCATGGCCT GGCGTGTCCT GCTGAAGGCA
TTGGAGAGAC TCGAGGGTGT GGAAGGTGTG GCCCATATCA TCGACCCCAA GGCCATCAGC
AAAGACCACC TCTACGGAAC CCTGGACCCC AACACCAGGG AATGGACAGA TGGGCTCTTC
ACACACGTGC TGAGAAAGAT CATCGACAGC GTGAGAGGCG AGCTGCAGAA GCGCCAGTGG
ATCGTCTTCG ATGGCGATGT GGATCCAGAG TGGGTTGAGA ACTTGAACTC AGTGCTGGAT
GACAATAAGC TCCTAACTTT GCCCAATGGA GAGCGCCTCA GTCTTCCACC CAATGTGAGA
ATAATGTTTG AGGTACAGGA CTTGAAATAC GCGACCTTGG CCACAGTGTC GCGCTGCGGC
ATGGTCTGGT TCAGTGAGGA TGTGCTGAGC ACCGACATGA TCTTCAACAA CTTCCTGGCC
AGGCTGCGCA GCATCCCGCT GGATGAAGGG GAGGATGAGG CACAGCGGCG GCGTAAGGGC
AAAGAGGATG AGGGGGAGGA GGCCGCTTCC CCCATGCTGC AGATCCAAAG AGATGCAGCT
ACGATCATGC AACCGTACTT CACGTCCAAC GGCCTGGTCA CCAAGGCGCT AGAGCACGCC
TTCCAGCTGG AGCACATCAT GGACCTAACA CGCCTGCGCT GCCTGGGCTC GCTCTTCTCC
ATGCTGCACC AGGCCTGCCG CAACGTGGCG CAGTATAACG CCAACCATCC CGACTTCCCC
ATGCAGATCG AGCAGCTGGA GCGCTACATT CAGCGATATC TGGTTTATGC CATACTCTGG
TCCCTGTCTG GAGACAGCCG GCTAAAAATG AGAGCAGAGC TGGGTGAATA CATCAGAAGA
ATCACGACCG TGCCTCTGCC CACTGCGCCC AACATACCCA TTATCGATTA TGAGGTGTCC
ATCAGCGGAG AATGGTCTCC GTGGCAGGCC AAGGTGCCTC AGATTGAAGT GGAGACGCAC
AAGGTGGCAG CCCCTGATGT CGTCGTGCCA ACGCTGGACA CAGTCCGCCA CGAAGCCCTC
TTGTACACTT GGCTGGCCGA ACACAAGCCC CTGGTCTTGT GTGGCCCTCC TGGGTCTGGC
AAGACCATGA CACTCTTCAG CGCCCTCCGG GCCTTGCCTG ACATGGAGGT GGTGGGTCTC
AACTTCTCCA GTGCTACTAC TCCAGAGCTG CTTCTGAAGA CTTTTGATCA CTACTGCGAG
TACAGGCGCA CACCTAATGG GGTGGTTTTG GCTCCTGTTC AACTTGGAAA GTGGCTGGTG
TTGTTCTGTG ATGAAATCAA CTTGCCAGAT ATGGATAAAT ATGGGACCCA GAGGGTCATA
TCCTTCATCA GACAGATGGT GGAGCACGGA GGCTTTTACC GTACCTCAGA TCAAACATGG
GTGAAGCTGG AGAGAATCCA GTTTGTTGGG GCTTGTAATC CCCCCACAGA CCCTGGAAGA
AAGCCCCTCT CACACAGGTT CCTGCGCCAC GTGCCTGTCG TGTATGTGGA TTACCCGGGC
CCCGCCTCCC TCACACAGAT CTACGGCACC TTCAACCGCG CCATGCTGAG GCTCATTCCA
TCCCTGCGGA CGTATGCAGA GCCGCTCACT GCTGCCATGG TGGAGTTCTA CACCATGTCT
CAGGAGAGAT TCACCCAGGA TACACAACCT CACTATATCT ATTCACCCCG TGAAATGACT
AGGTGGGTGA GAGGCATCTT TGAAGCGCTG AGACCTCTGG AGACCCTGCC TGTTGAAGGC
CTCATTCGGA TTTGGGCACA TGAAGCTCTG CGTCTCTTCC AAGATAGACT CGTAGAGGAT
GAGGAGAGGC GTTGGACTGA TGAGAACATC GACACGGTTG CTCTGAAGCA CTTCCCTAAC
ATCGACAGAG AGAAGGCAAT GAGCCGACCC ATCTTGTACA GCAACTGGCT GTCAAAGGAT
TACATCCCAG TAGACCAAGA AGAGTTAAGA GATTATGTCA AAGCTAGGCT GAAGGTCTTT
TATGAAGAAG AACTTGATGT TCCGCTGGTG CTGTTTAATG AAGTCCTAGA CCACGTGCTG
AGGATTGACA GAATATTCCG TCAACCTCAA GGCCACTTGC TTCTGATTGG TGTTAGTGGA
GCAGGAAAAA CTACCCTGTC TCGTTTCGTC GCCTGGATGA ACGGTTTGAG TGTGTACCAG
ATTAAGGTCC ATAGGAAGTA CACAGGGGAA GACTTTGATG AAGATCTACG GACAGTGTTG
AGACGTTCTG GCTGTAAAAA TGAAAAGATA GCATTTATAA TGGATGAATC TAATGTGTTA
GATTCTGGAT TCCTGGAGCG AATGAATACC CTTCTGGCCA ATGGAGAGGT GCCTGGTCTC
TTTGAAGGAG ACGAGTATGC CACCTTGATG ACGCAGTGCA AAGAGGGGGC ACAGAAGGAA
GGCCTGATGC TGGACTCGCA CGAGGAGCTC TACAAGTGGT TCACTAGCCA GGTTATCCGC
AACCTCCACG TCGTGTTCAC CATGAACCCG TCCTCGGAGG GACTCAAGGA CCGGGCAGCT
ACATCACCAG CACTTTTCAA CAGGTGTGTG TTGAATTGGT TTGGAGACTG GTCCACCGAA
GCACTGTATC AGGTTGGCAA AGAATTCACA AGTAAGATGG ATCTGGAGAA GCCAAATTAC
ATCGTGCCTG ATTACATGCC AGTTGTGTAT GATAAGCTGC CGCAGCCACC ATCCCATCGG
GAAGCCATTG TGAACAGCTG TGTGTTTGTT CATCAGACTC TTCACCAGGC GAATGCTCGG
CTAGCAAAGC GAGGCGGCAG AACGATGGCC ATCACCCCTC GCCACTACCT GGACTTCATC
AATCACTATG CCAACCTGTT CCACGAGAAG CGGAGCGAGC TGGAGGAGCA GCAGATGCAC
TTGAACGTGG GGCTCAGGAA GATCAAAGAG ACAGTCGACC AGGTAGAAGA ACTGCGTCGT
GACTTGAGGA TAAAGAGCCA AGAGCTGGAG GTGAAGAATG CAGCAGCCAA TGACAAGCTG
AAAAAGATGG TGAAAGACCA GCAGGAGGCT GAAAAGAAGA AGGTTATGAG CCAAGAAATC
CAGGAACAGC TGCATAAGCA GCAGGAGGTA ATTGCAGACA AACAGATGAG TGTCAAAGAA
GATCTTGATA AGGTGGAACC TGCCGTCATT GAGGCCCAGA ATGCTGTGAA GTCGATCAAG
AAGCAGCACC TGGTGGAGGT GAGGTCCATG GCCAACCCTC CTGCTGCTGT GAAGCTGGCG
CTGGAGTCCA TCTGCCTGCT GCTGGGGGAA AGCACCACAG ACTGGAAGCA GATCCGCTCC
ATCATCATGC GGGAGAACTT CATCCCCACC ATCGTCAACT TCTCTGCAGA GGAGATCAGT
GACGCCATAA GGGAGAAGAT GAAGAAAAAT TACATGTCCA ATCCAAGTTA CAATTATGAA
ATTGTGAATC GGGCTTCCCT GGCTTGCGGC CCTATGGTGA AATGGGCAAT TGCACAGCTT
AACTATGCAG ACATGTTAAA GAGAGTGGAG CCCCTACGCA ATGAGCTGCA GAAGCTGGAA
GATGACGCCA AGGACAACCA GCAGAAGGCC AACGAGGTGG AGCAGATGAT CCGAGACCTG
GAAGCCAGCA TCGCCCGCTA CAAGGAGGAA TACGCCGTCC TGATCTCAGA GGCCCAGGCC
ATCAAGGCAG ACCTGGCAGC TGTCGAGGCA AAAGTAAACC GGAGCACTGC TCTTCTGAAG
AGCTTGTCTG CTGAACGTGA ACGATGGGAA AAAACAAGTG AAACTTTCAA AAACCAGATG
TCCACCATTG CTGGGGACTG TCTCTTGTCA GCTGCGTTCA TTGCCTACGC GGGTTACTTT
GACCAGCAGA TGCGTCAGAA CTTGTTCACT ACCTGGTCCC ATCACCTACA GCAAGCCAAC
ATCCAGTTCC GTACAGATAT TGCCAGGACG GAATACCTTT CCAATGCTGA TGAGCGTCTT
CGCTGGCAGG CCAGCTCCTT GCCTGCTGAT GACCTTTGCA CAGAAAATGC CATCATGCTG
AAACGATTCA ATAGGTATCC GCTGATCATT GACCCCTCTG GACAGGCCAC AGAATTCATT
ATGAATGAAT ATAAGGATCG TAAGATCACA CGGACCAGCT TCCTGGATGA CGCCTTCAGA
AAGAACTTAG AGAGTGCACT GAGATTCGGT AACCCCCTTC TGGTCCAGGA TGTGGAAAGC
TACGATCCAG TTTTGAACCC GGTGCTGAAC CGTGAAGTGC GGCGAACAGG GGGGAGAGTG
CTGATCACTC TCGGGGACCA GGACATAGAC CTGTCGCCAT CGTTTGTCAT CTTCCTGTCC
ACCCGGGATC CAACTGTCGA GTTCCCACCA GATCTCTGTT CCCGGGTTAC TTTTGTAAAC
TTCACAGTTA CCCGTAGCAG TTTACAAAGC CAGTGTCTAA ATGAAGTACT TAAAGCAGAA
AGACCTGATG TGGACGAGAA ACGATCTGAT CTTCTTAAAC TTCAAGGGGA ATTTCAGCTC
CGTTTGCGTC AGCTGGAAAA ATCTCTACTA CAAGCTCTGA ACGAGGTGAA AGGGCGCATT
TTGGATGACG ACACGATCAT AACCACTCTG GAGAACCTGA AGAGAGAGGC TGCAGAGGTC
ACCAGGAAAG TTGAGGAGAC GGACATTGTC ATGCAGGAGG TGGAGACCGT GTCCCAGCAG
TACCTCCCGC TCTCCACCGC CTGCAGCAGC ATCTACTTCA CCATGGAGTC CCTCAAGCAG
ATACACTTCT TGTACCAGTA CTCCCTCCAG TTTTTCCTGG ACATTTATCA CAACGTCCTA
TACGAGAACC CGAACCTGAA GGGTGTCACC GACCACACAC AGCGCCTGTC CATTATAACA
AAGGACCTCT TCCAGGTGGC GTTTAACCGA GTGGCTCGAG GCATGCTGCA TCAGGACCAC
ATTACCTTTG CCATGCTGCT GGCAAGAATC AAACTGAAGG GCACCGTGGG GGAGCCCACC
TACGATGCAG AATTCCAGCA CTTCTTGAGA GGAAATGAGA TTGTCCTGAG TGCTGGCTCC
ACCCCCAGGA TCCAGGGCCT GACTGTGGAG CAGGCGGAGG CGGTGGTGAG GCTGAGCTGC
CTTCCCGCGT TTAAGGACTT GATTGCAAAG GTTCAGGCAG ACGAGCAATT TGGCATCTGG
CTGGACAGCA GCTCCCCGGA GCAGACTGTG CCCTACCTCT GGAGTGAAGA AACACCTGCA
ACACCCATTG GCCAGGCCAT CCACCGCCTG CTCCTGATCC AGGCTTTCCG GCCCGATCGC
CTGTTGGCCA TGGCCCACAT GTTTGTTTCA ACAAACCTTG GGGAGTCTTT CATGTCCATC
ATGGAGCAGC CGCTCGACCT GACCCACATT GTGGGCACAG AGGTGAAGCC CAACACTCCT
GTCTTAATGT GCTCTGTGCC TGGTTATGAT GCCAGTGGAC ATGTCGAGGA CCTTGCAGCC
GAGCAGAACA CGCAGATCAC TTCAATTGCA ATCGGCTCTG CAGAAGGCTT TAACCAAGCA
GATAAGGCAA TAAACACCGC TGTAAAGTCG GGCAGGTGGG TGATGCTGAA GAATGTGCAT
CTGGCCCCAG GGTGGCTGAT GCAGCTGGAG AAGAAGTTGC ATTCCCTGCA GCCGCATGCC
TGCTTCCGAC TCTTCCTCAC CATGGAGATC AACCCCAAGG TGCCTGTGAA TCTGCTCCGT
GCGGGCCGCA TCTTTGTGTT CGAGCCACCG CCAGGGGTGA AGGCCAACAT GCTGAGGACG
TTCAGCAGCA TTCCCGTCTC ACGGATATGC AAGTCTCCCA ACGAGCGTGC CCGCTTGTAC
TTCCTGCTGG CCTGGTTTCA TGCGATCATC CAAGAACGCT TACGATACGC ACCACTGGGG
TGGTCAAAGA AGTATGAATT TGGAGAGTCT GACCTGCGGT CAGCTTGCGA TACGGTGGAC
ACGTGGCTGG ATGACACGGC CAAGGGCAGG CAGAACATCT CACCGGATAA GATCCCGTGG
TCTGCACTAA AGACCTTAAT GGCCCAGTCC ATTTATGGCG GGCGCGTGGA CAACGAGTTT
GACCAGCGTC TGCTCAACAC CTTCCTGGAG CGCCTGTTCA CAACCAGGAG TTTCGACAGT
GAGTTTAAGC TGGCATGCAA GGTCGACGGA CATAAAGACA TTCAAATGCC AGATGGCATC
AGGCGAGAGG AGTTTGTGCA GTGGGTGGAG TTGCTCCCCG ACACCCAGAC GCCCTCCTGG
CTGGGCCTGC CCAACAACGC CGAGAGAGTC CTCCTTACCA CACAGGGTGT GGACATGATC
AGTAAAATGC TGAAGATGCA GATGTTGGAG GATGAGGACG ACCTGGCCTA CGCAGAGACT
GAGAAGAAGA CGAGGACAGA CTCCACGTCC GACGGGCGCC CTGCCTGGAT GCGGACACTG
CACACCACCG CGTCCAACTG GCTGCACCTC ATCCCCCAGA CGCTGAGCCA CCTCAAGCGC
ACCGTGGAGA ATATCAAGGA TCCTTTGTTC AGGTTCTTTG AGAGAGAAGT GAAGATGGGC
GCAAAGCTGC TTCAGGACGT TCGCCAGGAC CTTGCAGATG TCGTCCAGGT GTGCGAAGGA
AAGAAGAAGC AGACCAACTA CTTGCGCACG CTGATCAACG AGCTAGTGAA AGGGATCTTG
CCTCGGAGCT GGTCCCACTA CACGGTGCCT GCCGGCATGA CCGTCATCCA GTGGGTGTCC
GACTTCAGCG AGAGGATCAA ACAGCTGCAG AACATCTCAC TGGCAGCTGC ATCTGGTGGC
GCCAAGGAGC TAAAGAACAT CCACGTGTGC CTGGGTGGCC TGTTCGTGCC TGAGGCGTAC
ATCACTGCCA CCAGGCAGTA TGTGGCCCAG GCCAACAGCT GGTCCCTGGA GGAGCTCTGC
CTGGAAGTCA ACGTCACCAC CTCACAGGGC GCCACCCTTG ACGCTTGCAG CTTCGGAGTC
ACGGGTTTGA AACTTCAAGG GGCCACGTGC AACAACAACA AGCTGTCACT GTCCAATGCC
ATCTCAACCG CCCTTCCCCT GACGCAGCTG CGCTGGGTCA AGCAGACAAA CACCGAGAAG
AAGGCCAGTG TGGTAACCTT ACCTGTCTAC CTGAACTTCA CCCGTGCAGA CCTCATCTTC
ACCGTGGACT TCGAAATTGC TACAAAGGAG GATCCTCGCA GCTTCTACGA GCGGGGTGTC
GCAGTCTTGT GCACAGAGTA A

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

book

Novel mutations expand the clinical spectrum of DYNC1H1-associated spinal muscular atrophy
Neurology 84 (7), 668-679 (2015)
Scoto M, Rossor AM, Harms MB, Cirak S, Calissano M, Robb S, Manzur AY, Martinez Arroyo A, Rodriguez Sanz A, Mansour S, Fallon P, Hadjikoumi I, Klein A, Yang M, De Visser M, Overweg-Plandsoen WC, Baas F, Taylor JP, Benatar M, Connolly AM, Al-Lozi MT, Nixon J, de Goede CG, Foley AR, Mcwilliam C, Pitt M, Sewry C, Phadke R, Hafezparast M, Chong WK, Mercuri E, Baloh RH, Reilly MM and Muntoni F.


book

Conformational changes in the adenovirus hexon subunit responsible for regulating cytoplasmic dynein recruitment
J. Virol. 89 (2), 1013-1023 (2015)
Scherer J and Vallee RB.


book

HIV-1 uncoating is facilitated by dynein and kinesin 1
J. Virol. 88 (23), 13613-13625 (2014)
Lukic Z, Dharan A, Fricke T, Diaz-Griffero F and Campbell EM.


book

Autoinhibition and cooperative activation mechanisms of cytoplasmic dynein
Nat. Cell Biol. 16 (11), 1118-1124 (2014)
Torisawa T, Ichikawa M, Furuta A, Saito K, Oiwa K, Kojima H, Toyoshima YY and Furuta K.


book

Mammalian cells express three distinct dynein heavy chains that are localized to different cytoplasmic organelles
J. Cell Biol. 133 (4), 831-842 (1996)
Vaisberg EA, Grissom PM and McIntosh JR.


book

Cell cycle regulation of the activity and subcellular localization of Plk1, a human protein kinase implicated in mitotic spindle function
J. Cell Biol. 129 (6), 1617-1628 (1995)
Golsteyn RM, Mundt KE, Fry AM and Nigg EA.


book

Localization of the human cytoplasmic dynein heavy chain (DNECL) to 14qter by fluorescence in situ hybridization
Genomics 22 (3), 660-661 (1994)
Narayan D, Desai T, Banks A, Patanjali SR, Ravikumar TS and Ward DC.


book

Cytoplasmic dynein plays a role in mammalian mitotic spindle formation
J. Cell Biol. 123 (4), 849-858 (1993)
Vaisberg EA, Koonce MP and McIntosh JR.


book

Charcot-Marie-Tooth Hereditary Neuropathy Overview
(in) Pagon RA, Adam MP, Ardinger HH, Wallace SE, Amemiya A, Bean LJH, Bird TD, Dolan CR, Fong CT, Smith RJH and Stephens K (Eds.); GENEREVIEWS(R); (1993)
Bird,T.D.


book

Charcot-Marie-Tooth Neuropathy Type 2
(in) Pagon RA, Adam MP, Ardinger HH, Wallace SE, Amemiya A, Bean LJH, Bird TD, Dolan CR, Fong CT, Smith RJH and Stephens K (Eds.); GENEREVIEWS(R); (1993)
Bird,T.D.


 
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