DCTN1 cDNA ORF clone, Loxodonta africana(African savanna elephant)

Gene
Clones
gRNAs

Summary

Gene Symbol	DCTN1
Entrez Gene ID	100656316
Full Name	dynactin subunit 1
Gene Type	protein-coding
Organism	Loxodonta africana(African savanna elephant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_023552788.1	XP_023408556.1	LOW QUALITY PROTEIN: dynactin subunit 1
XM_010593657.1	XP_010591959.1	LOW QUALITY PROTEIN: dynactin subunit 1

Pathways from BioSystems
Gene Ontology

The following DCTN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DCTN1 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	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OLo102457	XM_023552788.1 Latest version!	Loxodonta africana dynactin subunit 1 (DCTN1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OLo44395	XM_010593657.1 Latest version!	Loxodonta africana dynactin 1 (DCTN1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** 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.

Reference Sequences (Refseq)

DCTN1 ( XM_023552788.1 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_023408556.1 Loxodonta africana dynactin subunit 1 (DCTN1), mRNA.

Price & Availability↑

CloneID	OLo102457
Clone ID Related Accession (Same CDS sequence)	XM_023552788.1
Accession Version	XM_023552788.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3735bp) 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	1515945600000
Organism	Loxodonta africana(African savanna elephant)
Product	LOW QUALITY PROTEIN: dynactin subunit 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573447.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Loxodonta africana Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGAGCGCAG AGGCAAGCGC CCGGCCTCTG CGAGTGGGCT CCCGTGTGGA GGTGATTGGA 
AAAGGCTACC GAGGCACTGT TGCCTATGTT GGAGCCACAC TCTTCGCCAC TGGCAAATGG 
GTAGGCGTGA TCCTGGATGA AGCAAAGGGC AAGAATGATG GAACCGTCCA AGGCAGGAAG 
TACTTCACAT GTGACGAAGG GCATGGTATC TTTGTGCGCC AGTCCCAGAT CCAGATATTT 
GAAGATGGAG CAGACACCAC TTCCCCAGAG ACACCAGATT CTTCTGCCTC AAAGGTCCTC 
AAAAGAGAGG GAACTGATGC AGCTGCAAAG ACCAGCAAAC TGCCCACTCG CCCAGCCAGC 
ACTGGGGTGG CTGGGGCCAG TAGCTCCCTG GGCCCCTCTG GCTCAGCATC TGCAGGTGAG 
CTGAGCAGCA GCGAGCCCAG CACCCCAGCT CAGACTCCGC TGGCAGCACC CATCATCCCC 
ACGCCGGTCC TCACCTCCCC TGGAGCAGCC CCCCCACTTC TGTCCCCCTC CAAGGAGGAG 
GAGGGGCTGC GAGCCCAGGT GCGGGATCTG GAGGAGAAGC TGGAGACCCT ACGTCTGAAA 
CGGGCAGAAG ACAAGGCAAA GCTGAAAGAG CTGGAGAAAC ACAAGATCCA GTTGGAGCAG 
GTGCAGGAAT GGAAGAGCAA AATGCAGGAG CAGCAGGCGG ACCTGCAGCG GCGCCTCAAG 
GAGGCGCGGA AGGAAGCCAA GGAGGCGCTG GAGGCAAAGG AGCGCTACAT GGAGGAGATG 
GCTGACACTG CCGATGCCAT CGAGATGGCC ACTCTGGACA AGGAGATGGC TGAAGAGCGG 
GCTGAATCCT TGCAGCAGGA GGTGGAGGCA CTGAAGGAGC GGGTGGACGA GCTCACCACT 
GACTTAGAGA TCCTCAAGGC TGAGATTGAA GAGAAGGGCT CAGATGGGGC TGCGTCCAGT 
TACCAGCTCA AGCAGCTCGA GGAGCAGAAT GCCCGCCTAA AGGATGCCCT GGTGAGGATG 
CGGGATCTTT CTTCCTCAGA GAAGCAGGAG CATGTGAAGC TCCAGAAACT CATGGAAAAG 
AAGAACCAAG AGTTGGAAGT TGTGAGGCAA CAGCGAGAGC GTCTACAGGA GGAGCTGAGC 
CAGGCAGAGA GCACCATTGA TGAGCTCAAG GAGCAGGTGG ATGCTGCTCT GGGAGCCGAG 
GAGATGGTGG AGATGCTGAC AGACCGGAAC CTGAATCTGG AAGAGAAAGT GCGGGAGTTG 
AGAGAGACCG TGGGGGACTT GGAAGCAATG AATGAGATGA ATGATGAGCT ACAGGAGAAC 
GCGCGTGAGA CAGAACTGGA GCTGCGGGAG CAGCTGGACA TGGCAGGTGC CCGGGTGCGC 
GAGGCCCAGA AACGCGTGGA GGCAGCCCAG GAGACAGTTG CAGACTACCA GCAAACCATC 
AAGAAATACC GCCAGCTGAC TGCCCACCTA CAGGATGTGA ATCGGGAGCT GACAAACCAG 
CAGGAAGCAT CTGTGGAAAG GCAGCAGCAG CCACCTCCAG AGACTTTTGA CTTCAAAATC 
AAGTTTGCTG AGACTAAGGC CCATGCTAAG GCAATTGAGA TGGAGTTGAG GCAGATGGAG 
GTGGCCCAGG CCAACCGGCA CATGTCCCTG CTGACAGCCT TCATGCCCGA CAGCTTCCTT 
CGGCCAGGTG GGGACCATGA CTGTGTCCTG GTGCTGCTGC TCATGCCCCG TCTCATTTGC 
AAGGCCGAGT TGATCCGGAA ACAGGCCCAG GAGAAGTTTG AACTAAGTGA AAACTGTTCA 
GAGCGGCCCG GGCTGCGAGG AGCTGCGGGG GAACAGCTCA GTTTTGCTGC TGGGCTGGTG 
TACTCGCTGA GCCTGCTGCA GGCCACACTA CACCGCTACG AGCATGCCCT CTCTCAGTGT 
GGTGTGGATG TGTATAAGAA GGTGGGTAGC CTGTACCCTG AGATGAGTGC CCATGAGCGC 
TCCTTGGATT TCCTCATTGA GCTGCTGCAC AAGGATCAGC TGGACGAGAC AGTTAACGTG 
GAGCCTCTCA CCAAGGCCAT CAAGTACTAC CAGCATCTGT ATAGCATCCA CCTTGCCGAA 
CAGCCTGAGG ACTGTACCAT GCAGCTGGCC GACCACATTA AGTTCACCCA GAGTGCCCTG 
GACTGCATGA GCGTGGAGGT GGGACGGCTG CGTGCCTTTC TGCAAAGTGG GCAGGAGGCT 
TCAGATATCG CCCTCCTGCT CCGGGACCTG GAAACATCGT GCAGCGACAC CCGCCAGTTC 
TGTAAGAAGA TCCGGAGGCG GATGCCAGGG ACGGATGCTC CTGGGATTCC AGCTGCTGTG 
GCCTTTGGAG CACAGGTATC TGACACACTC CTAGACTGCA GGAAACACCT GACGTGGGTG 
GTGGCCGTGC TGCAGGAGGT GGCAGCTGCT GCCGCCCAGC TCATTGCCCC GCTGGCAGAG 
AACGAGGGGC TGCCTGTAGC TACCCTGGAG GAGCTGGCTT TCAAAGCAAA TGAGCAGATC 
TACGGGAGCT CCTCTAGCAC CCCCTATGAG TGTCTGCGCC AGTCGTGCAG CGTCCTCATC 
AGCACAATGA ACAAGCTGGC CACAGCCATG CAGGAGGGGG AGTACGACGC CGAGCGGCCC 
CCCAGCAAGC CTCCCCCGGT TGAGCTGCGG GCCGCTGCCC TTCGTGCCGA GATCACGGAT 
GCTGAAGGCC TGGGCTTGAA GCTTGAAGAT CGAGAGACGG TTATCAAGGA GCTGAAGAAG 
TCACTCAAGA TCAAGGGAGA AGAACTGAGT GAGGCCAATG TACGGCTCAG CCTCCTGGAG 
AAGAAGCTGG ACAGTGCTGC CAAAGATGCG GACGAGCGGA TCGACAGAGT CCAGACTCGG 
CTAGAGGAGA CCCAGGCGCT GCTGCGGAAG AAGGAGAAAG AATTTGAGGA GACGATGGAT 
GCTCTCCAGG CTGACATCGA CCAGCTGGAA GCAGAGAAGG CGGAGCTAAA GCTGCGACTG 
AACAGCCAGT CCAAGCGCAC CATCGAGGGG CTCCGGGGGC CCCCTCCCTC AGGCATAGCT 
ACCCTCGTTT CTGGCATCGC TGGTGAAGAA CAGCAGCGAG CAGGAGCCCC TGGGCAGGCT 
CCGGGCTCCG TGGCAGGCCC AGGCCTGGTG AAGGACTCAC CACTGCTGCT TCAGCAAATC 
TCTGCCATGA GGCTGCACAT CTCCCAGCTC CAGCATGAGA ACAGCGTCCT CAAGGGAGCC 
CAGATGAAGG CAGCCTTGGC AGCCCTACCC CCTTTGCATG TGGCAAAGGT GTCCCTCCCA 
CCTCACGAAG GCCCTGGCGG TGATATAGCA GCTGGAGCAC TCTATCGTAA GACCAGCCAG 
CTGCTGGAGA CAGTGAATCA GCTGAGCACG CACACCCACG TGGTAGACAT CACCCGCACC 
AGCCCCGCTG CCAAGAGCCC ATCGGCCCAG CTCCTGGAGC AGGTGGCTCA GCTCAAGTCC 
CTAAGTGACA CCATCGAGAA GCTCAAGGAT GAGGTCTTCA AGGAGACGGT ATCTCAGCGC 
CCTGGAGCCA CAGTCCCCAC TGACTTTGCC ACCTTCCCTT CCTCAGCCTT CCTCAGGGCC 
AAGGAGGAGC AGCAGGAAGA CACAGTCTAC GTGGGCAAAG TGACCTTCTC ATGTGCAGCT 
GGCCTTGGAC AGCGACACCG GCTGGTGCTG ACCCAGGAGC AGCTGCGCCG GCTTCACGGC 
CGCCTCATCT CCTGA

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

RefSeq	XP_023408556.1
CDS	82..3816
Translation	MSAEASARPLRVGSRVEVIGKGYRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQIFEDGADTTSPETPDSSASKVLKREGTDAAAKTSKLPTRPASTGVAGASSSLGPSGSASAGELSSSEPSTPAQTPLAAPIIPTPVLTSPGAAPPLLSPSKEEEGLRAQVRDLEEKLETLRLKRAEDKAKLKELEKHKIQLEQVQEWKSKMQEQQADLQRRLKEARKEAKEALEAKERYMEEMADTADAIEMATLDKEMAEERAESLQQEVEALKERVDELTTDLEILKAEIEEKGSDGAASSYQLKQLEEQNARLKDALVRMRDLSSSEKQEHVKLQKLMEKKNQELEVVRQQRERLQEELSQAESTIDELKEQVDAALGAEEMVEMLTDRNLNLEEKVRELRETVGDLEAMNEMNDELQENARETELELREQLDMAGARVREAQKRVEAAQETVADYQQTIKKYRQLTAHLQDVNRELTNQQEASVERQQQPPPETFDFKIKFAETKAHAKAIEMELRQMEVAQANRHMSLLTAFMPDSFLRPGGDHDCVLVLLLMPRLICKAELIRKQAQEKFELSENCSERPGLRGAAGEQLSFAAGLVYSLSLLQATLHRYEHALSQCGVDVYKKVGSLYPEMSAHERSLDFLIELLHKDQLDETVNVEPLTKAIKYYQHLYSIHLAEQPEDCTMQLADHIKFTQSALDCMSVEVGRLRAFLQSGQEASDIALLLRDLETSCSDTRQFCKKIRRRMPGTDAPGIPAAVAFGAQVSDTLLDCRKHLTWVVAVLQEVAAAAAQLIAPLAENEGLPVATLEELAFKANEQIYGSSSSTPYECLRQSCSVLISTMNKLATAMQEGEYDAERPPSKPPPVELRAAALRAEITDAEGLGLKLEDRETVIKELKKSLKIKGEELSEANVRLSLLEKKLDSAAKDADERIDRVQTRLEETQALLRKKEKEFEETMDALQADIDQLEAEKAELKLRLNSQSKRTIEGLRGPPPSGIATLVSGIAGEEQQRAGAPGQAPGSVAGPGLVKDSPLLLQQISAMRLHISQLQHENSVLKGAQMKAALAALPPLHVAKVSLPPHEGPGGDIAAGALYRKTSQLLETVNQLSTHTHVVDITRTSPAAKSPSAQLLEQVAQLKSLSDTIEKLKDEVFKETVSQRPGATVPTDFATFPSSAFLRAKEEQQEDTVYVGKVTFSCAAGLGQRHRLVLTQEQLRRLHGRLIS

Target ORF information:

RefSeq Version	XM_023552788.1
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana dynactin subunit 1 (DCTN1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_023552788.1

ORF Insert Sequence:

ATGAGCGCAG AGGCAAGCGC CCGGCCTCTG CGAGTGGGCT CCCGTGTGGA GGTGATTGGA 
AAAGGCTACC GAGGCACTGT TGCCTATGTT GGAGCCACAC TCTTCGCCAC TGGCAAATGG 
GTAGGCGTGA TCCTGGATGA AGCAAAGGGC AAGAATGATG GAACCGTCCA AGGCAGGAAG 
TACTTCACAT GTGACGAAGG GCATGGTATC TTTGTGCGCC AGTCCCAGAT CCAGATATTT 
GAAGATGGAG CAGACACCAC TTCCCCAGAG ACACCAGATT CTTCTGCCTC AAAGGTCCTC 
AAAAGAGAGG GAACTGATGC AGCTGCAAAG ACCAGCAAAC TGCCCACTCG CCCAGCCAGC 
ACTGGGGTGG CTGGGGCCAG TAGCTCCCTG GGCCCCTCTG GCTCAGCATC TGCAGGTGAG 
CTGAGCAGCA GCGAGCCCAG CACCCCAGCT CAGACTCCGC TGGCAGCACC CATCATCCCC 
ACGCCGGTCC TCACCTCCCC TGGAGCAGCC CCCCCACTTC TGTCCCCCTC CAAGGAGGAG 
GAGGGGCTGC GAGCCCAGGT GCGGGATCTG GAGGAGAAGC TGGAGACCCT ACGTCTGAAA 
CGGGCAGAAG ACAAGGCAAA GCTGAAAGAG CTGGAGAAAC ACAAGATCCA GTTGGAGCAG 
GTGCAGGAAT GGAAGAGCAA AATGCAGGAG CAGCAGGCGG ACCTGCAGCG GCGCCTCAAG 
GAGGCGCGGA AGGAAGCCAA GGAGGCGCTG GAGGCAAAGG AGCGCTACAT GGAGGAGATG 
GCTGACACTG CCGATGCCAT CGAGATGGCC ACTCTGGACA AGGAGATGGC TGAAGAGCGG 
GCTGAATCCT TGCAGCAGGA GGTGGAGGCA CTGAAGGAGC GGGTGGACGA GCTCACCACT 
GACTTAGAGA TCCTCAAGGC TGAGATTGAA GAGAAGGGCT CAGATGGGGC TGCGTCCAGT 
TACCAGCTCA AGCAGCTCGA GGAGCAGAAT GCCCGCCTAA AGGATGCCCT GGTGAGGATG 
CGGGATCTTT CTTCCTCAGA GAAGCAGGAG CATGTGAAGC TCCAGAAACT CATGGAAAAG 
AAGAACCAAG AGTTGGAAGT TGTGAGGCAA CAGCGAGAGC GTCTACAGGA GGAGCTGAGC 
CAGGCAGAGA GCACCATTGA TGAGCTCAAG GAGCAGGTGG ATGCTGCTCT GGGAGCCGAG 
GAGATGGTGG AGATGCTGAC AGACCGGAAC CTGAATCTGG AAGAGAAAGT GCGGGAGTTG 
AGAGAGACCG TGGGGGACTT GGAAGCAATG AATGAGATGA ATGATGAGCT ACAGGAGAAC 
GCGCGTGAGA CAGAACTGGA GCTGCGGGAG CAGCTGGACA TGGCAGGTGC CCGGGTGCGC 
GAGGCCCAGA AACGCGTGGA GGCAGCCCAG GAGACAGTTG CAGACTACCA GCAAACCATC 
AAGAAATACC GCCAGCTGAC TGCCCACCTA CAGGATGTGA ATCGGGAGCT GACAAACCAG 
CAGGAAGCAT CTGTGGAAAG GCAGCAGCAG CCACCTCCAG AGACTTTTGA CTTCAAAATC 
AAGTTTGCTG AGACTAAGGC CCATGCTAAG GCAATTGAGA TGGAGTTGAG GCAGATGGAG 
GTGGCCCAGG CCAACCGGCA CATGTCCCTG CTGACAGCCT TCATGCCCGA CAGCTTCCTT 
CGGCCAGGTG GGGACCATGA CTGTGTCCTG GTGCTGCTGC TCATGCCCCG TCTCATTTGC 
AAGGCCGAGT TGATCCGGAA ACAGGCCCAG GAGAAGTTTG AACTAAGTGA AAACTGTTCA 
GAGCGGCCCG GGCTGCGAGG AGCTGCGGGG GAACAGCTCA GTTTTGCTGC TGGGCTGGTG 
TACTCGCTGA GCCTGCTGCA GGCCACACTA CACCGCTACG AGCATGCCCT CTCTCAGTGT 
GGTGTGGATG TGTATAAGAA GGTGGGTAGC CTGTACCCTG AGATGAGTGC CCATGAGCGC 
TCCTTGGATT TCCTCATTGA GCTGCTGCAC AAGGATCAGC TGGACGAGAC AGTTAACGTG 
GAGCCTCTCA CCAAGGCCAT CAAGTACTAC CAGCATCTGT ATAGCATCCA CCTTGCCGAA 
CAGCCTGAGG ACTGTACCAT GCAGCTGGCC GACCACATTA AGTTCACCCA GAGTGCCCTG 
GACTGCATGA GCGTGGAGGT GGGACGGCTG CGTGCCTTTC TGCAAAGTGG GCAGGAGGCT 
TCAGATATCG CCCTCCTGCT CCGGGACCTG GAAACATCGT GCAGCGACAC CCGCCAGTTC 
TGTAAGAAGA TCCGGAGGCG GATGCCAGGG ACGGATGCTC CTGGGATTCC AGCTGCTGTG 
GCCTTTGGAG CACAGGTATC TGACACACTC CTAGACTGCA GGAAACACCT GACGTGGGTG 
GTGGCCGTGC TGCAGGAGGT GGCAGCTGCT GCCGCCCAGC TCATTGCCCC GCTGGCAGAG 
AACGAGGGGC TGCCTGTAGC TACCCTGGAG GAGCTGGCTT TCAAAGCAAA TGAGCAGATC 
TACGGGAGCT CCTCTAGCAC CCCCTATGAG TGTCTGCGCC AGTCGTGCAG CGTCCTCATC 
AGCACAATGA ACAAGCTGGC CACAGCCATG CAGGAGGGGG AGTACGACGC CGAGCGGCCC 
CCCAGCAAGC CTCCCCCGGT TGAGCTGCGG GCCGCTGCCC TTCGTGCCGA GATCACGGAT 
GCTGAAGGCC TGGGCTTGAA GCTTGAAGAT CGAGAGACGG TTATCAAGGA GCTGAAGAAG 
TCACTCAAGA TCAAGGGAGA AGAACTGAGT GAGGCCAATG TACGGCTCAG CCTCCTGGAG 
AAGAAGCTGG ACAGTGCTGC CAAAGATGCG GACGAGCGGA TCGACAGAGT CCAGACTCGG 
CTAGAGGAGA CCCAGGCGCT GCTGCGGAAG AAGGAGAAAG AATTTGAGGA GACGATGGAT 
GCTCTCCAGG CTGACATCGA CCAGCTGGAA GCAGAGAAGG CGGAGCTAAA GCTGCGACTG 
AACAGCCAGT CCAAGCGCAC CATCGAGGGG CTCCGGGGGC CCCCTCCCTC AGGCATAGCT 
ACCCTCGTTT CTGGCATCGC TGGTGAAGAA CAGCAGCGAG CAGGAGCCCC TGGGCAGGCT 
CCGGGCTCCG TGGCAGGCCC AGGCCTGGTG AAGGACTCAC CACTGCTGCT TCAGCAAATC 
TCTGCCATGA GGCTGCACAT CTCCCAGCTC CAGCATGAGA ACAGCGTCCT CAAGGGAGCC 
CAGATGAAGG CAGCCTTGGC AGCCCTACCC CCTTTGCATG TGGCAAAGGT GTCCCTCCCA 
CCTCACGAAG GCCCTGGCGG TGATATAGCA GCTGGAGCAC TCTATCGTAA GACCAGCCAG 
CTGCTGGAGA CAGTGAATCA GCTGAGCACG CACACCCACG TGGTAGACAT CACCCGCACC 
AGCCCCGCTG CCAAGAGCCC ATCGGCCCAG CTCCTGGAGC AGGTGGCTCA GCTCAAGTCC 
CTAAGTGACA CCATCGAGAA GCTCAAGGAT GAGGTCTTCA AGGAGACGGT ATCTCAGCGC 
CCTGGAGCCA CAGTCCCCAC TGACTTTGCC ACCTTCCCTT CCTCAGCCTT CCTCAGGGCC 
AAGGAGGAGC AGCAGGAAGA CACAGTCTAC GTGGGCAAAG TGACCTTCTC ATGTGCAGCT 
GGCCTTGGAC AGCGACACCG GCTGGTGCTG ACCCAGGAGC AGCTGCGCCG GCTTCACGGC 
CGCCTCATCT CCTGA

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

DCTN1 ( XM_010593657.1 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_010591959.1 Loxodonta africana dynactin 1 (DCTN1), mRNA.

Price & Availability↑

CloneID	OLo44395
Clone ID Related Accession (Same CDS sequence)	XM_010593657.1
Accession Version	XM_010593657.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3720bp) 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	1418140800000
Organism	Loxodonta africana(African savanna elephant)
Product	LOW QUALITY PROTEIN: dynactin subunit 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573447.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Loxodonta africana Annotation Release 101 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## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGAGCGCAG AGGCAAGCGC CCGGCCTCTG CGAGTGGGCT CCCGTGTGGA GGTGATTGGA 
AAAGGCTACC GAGGCACTGT TGCCTATGTT GGAGCCACAC TCTTCGCCAC TGGCAAATGG 
GTAGGCGTGA TCCTGGATGA AGCAAAGGGC AAGAATGATG GAACCGTCCA AGGCAGGAAG 
TACTTCACAT GTGACGAAGG GCATGGTATC TTTGTGCGCC AGTCCCAGAT CCAGATATTT 
GAAGATGGAG CAGACACCAC TTCCCCAGAG ACACCAGATT CTTCTGCCTC AAAGGTCCTC 
AAAAGAGAGG GAACTGATGC AGCTGCAAAG ACCAGCAAAC TGCCCACTCG CCCAGCCAGC 
ACTGGGGTGG CTGGGGCCAG TAGCTCCCTG GGCCCCTCTG GCTCAGCATC TGCAGGTGAG 
CTGAGCAGCA GCGAGCCCAG CACCCCAGCT CAGACTCCGC TGGCAGCACC CATCATCCCC 
ACGCCGGTCC TCACCTCCCC TGGAGCAGCC CCCCCACTTC TGTCCCCCTC CAAGGAGGAG 
GAGGGGCTGC GAGCCCAGGT GCGGGATCTG GAGGAGAAGC TGGAGACCCT ACGTCTGAAA 
CGGGCAGAAG ACAAGGCAAA GCTGAAAGAG CTGGAGAAAC ACAAGATCCA GTTGGAGCAG 
GTGCAGGAAT GGAAGAGCAA AATGCAGGAG CAGCAGGCGG ACCTGCAGCG GCGCCTCAAG 
GAGGCGCGGA AGGAAGCCAA GGAGGCGCTG GAGGCAAAGG AGCGCTACAT GGAGGAGATG 
GCTGACACTG CCGATGCCAT CGAGATGGCC ACTCTGGACA AGGAGATGGC TGAAGAGCGG 
GCTGAATCCT TGCAGCAGGA GGTGGAGGCA CTGAAGGAGC GGGTGGACGA GCTCACCACT 
GACTTAGAGA TCCTCAAGGC TGAGATTGAA GAGAAGGGCT CAGATGGGGC TGCGTCCAGT 
TACCAGCTCA AGCAGCTCGA GGAGCAGAAT GCCCGCCTAA AGGATGCCCT GGTGAGGATG 
CGGGATCTTT CTTCCTCAGA GAAGCAGGAG CATGTGAAGC TCCAGAAACT CATGGAAAAG 
AAGAACCAAG AGTTGGAAGT TGTGAGGCAA CAGCGAGAGC GTCTACAGGA GGAGCTGAGC 
CAGGCAGAGA GCACCATTGA TGAGCTCAAG GAGCAGGTGG ATGCTGCTCT GGGAGCCGAG 
GAGATGGTGG AGATGCTGAC AGACCGGAAC CTGAATCTGG AAGAGAAAGT GCGGGAGTTG 
AGAGAGACCG TGGGGGACTT GGAAGCAATG AATGAGATGA ATGATGAGCT ACAGGAGAAC 
GCGCGTGAGA CAGAACTGGA GCTGCGGGAG CAGCTGGACA TGGCAGGTGC CCGGGTGCGC 
GAGGCCCAGA AACGCGTGGA GGCAGCCCAG GAGACAGTTG CAGACTACCA GCAAACCATC 
AAGAAATACC GCCAGCTGAC TGCCCACCTA CAGGATGTGA ATCGGGAGCT GACAAACCAG 
CAGGAAGCAT CTGTGGAAAG GCAGCAGCAG CCACCTCCAG AGACTTTTGA CTTCAAAATC 
AAGTTTGCTG AGACTAAGGC CCATGCTAAG GCAATTGAGA TGGAGTTGAG GCAGATGGAG 
GTGGCCCAGG CCAACCGGCA CATGTCCCTG CTGACAGCCT TCATGCCCGA CAGCTTCCTT 
CGGCCAGGTG GGGACCATGA CTGTGTCCTG GTGCTGCTGC TCATGCCCCG TCTCATTTGC 
AAGGCCGAGT TGATCCGGAA ACAGGCCCAG GAGAAGTTTG AACTAAGTGA AAACTGTTCA 
GAGCGGCCCG GGCTGCGAGG AGCTGCGGGG GAACAGCTCA GTTTTGCTGC TGGGCTGGTG 
TACTCGCTGA GCCTGCTGCA GGCCACACTA CACCGCTACG AGCATGCCCT CTCTCAGTGT 
GGTGTGGATG TGTATAAGAA GGTGGGTAGC CTGTACCCTG AGATGAGTGC CCATGAGCGC 
TCCTTGGATT TCCTCATTGA GCTGCTGCAC AAGGATCAGC TGGACGAGAC AGTTAACGTG 
GAGCCTCTCA CCAAGGCCAT CAAGTACTAC CAGCATCTGT ATAGCATCCA CCTTGCCGAA 
CAGCCTGAGG ACTGTACCAT GCAGCTGGCC GACCACATTA AGTTCACCCA GAGTGCCCTG 
GACTGCATGA GCGTGGAGGT GGGACGGCTG CGTGCCTTTC TGCAAAGTGG GCAGGAGGCT 
TCAGATATCG CCCTCCTGCT CCGGGACCTG GAAACATCGT GCAGCGACAC CCGCCAGTTC 
TGTAAGAAGA TCCGGAGGCG GATGCCAGGG ACGGATGCTC CTGGGATTCC AGCTGCTGTG 
GCCTTTGGAG CACAGGTATC TGACACACTC CTAGACTGCA GGAAACACCT GACGTGGGTG 
GTGGCCGTGC TGCAGGAGGT GGCAGCTGCT GCCGCCCAGC TCATTGCCCC GCTGGCAGAG 
AACGAGGGGC TGCCTGTAGC TACCCTGGAG GAGCTGGCTT TCAAAGCAAA TGAGCAGATC 
TACGGGAGCT CCTCTAGCAC CCCCTATGAG TGTCTGCGCC AGTCGTGCAG CGTCCTCATC 
AGCACAATGA ACAAGCTGGC CACAGCCATG CAGGAGGGGG AGTACGACGC CGAGCGGCCC 
CCCAGCAAGC CTCCCCCGGT TGAGCTGCGG GCCGCTGCCC TTCGTGCCGA GATCACGGAT 
GCTGAAGGCC TGGGCTTGAA GCTTGAAGAT CGAGAGACGG TTATCAAGGA GCTGAAGAAG 
TCACTCAAGA TCAAGGGAGA AGAACTGAGT GAGGCCAATG TACGGCTCAG CCTCCTGGAG 
AAGAAGCTGG ACAGTGCTGC CAAAGATGCG GACGAGCGGA TCGACAGAGT CCAGACTCGG 
CTAGAGGAGA CCCAGGCGCT GCTGCGGAAG AAGGAGAAAG AATTTGAGGA GACGATGGAT 
GCTCTCCAGG CTGACATCGA CCAGCTGGAA GCAGAGAAGG CGGAGCTAAA GCTGCGACTG 
AACAGCCAGT CCAAGCGCAC CATCGAGGGG CTCCGGGGGC CCCCTCCCTC AGGCATAGCT 
ACCCTCGTTT CTGGCATCGC TGGTGCAGGA GCCCCTGGGC AGGCTCCGGG CTCCGTGGCA 
GGCCCAGGCC TGGTGAAGGA CTCACCACTG CTGCTTCAGC AAATCTCTGC CATGAGGCTG 
CACATCTCCC AGCTCCAGCA TGAGAACAGC GTCCTCAAGG GAGCCCAGAT GAAGGCAGCC 
TTGGCAGCCC TACCCCCTTT GCATGTGGCA AAGGTGTCCC TCCCACCTCA CGAAGGCCCT 
GGCGGTGATA TAGCAGCTGG AGCACTCTAT CGTAAGACCA GCCAGCTGCT GGAGACAGTG 
AATCAGCTGA GCACGCACAC CCACGTGGTA GACATCACCC GCACCAGCCC CGCTGCCAAG 
AGCCCATCGG CCCAGCTCCT GGAGCAGGTG GCTCAGCTCA AGTCCCTAAG TGACACCATC 
GAGAAGCTCA AGGATGAGGT CTTCAAGGAG ACGGTATCTC AGCGCCCTGG AGCCACAGTC 
CCCACTGACT TTGCCACCTT CCCTTCCTCA GCCTTCCTCA GGGCCAAGGA GGAGCAGCAG 
GAAGACACAG TCTACGTGGG CAAAGTGACC TTCTCATGTG CAGCTGGCCT TGGACAGCGA 
CACCGGCTGG TGCTGACCCA GGAGCAGCTG CGCCGGCTTC ACGGCCGCCT CATCTCCTGA

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

RefSeq	XP_010591959.1
CDS	56..3775
Translation	MSAEASARPLRVGSRVEVIGKGYRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQIFEDGADTTSPETPDSSASKVLKREGTDAAAKTSKLPTRPASTGVAGASSSLGPSGSASAGELSSSEPSTPAQTPLAAPIIPTPVLTSPGAAPPLLSPSKEEEGLRAQVRDLEEKLETLRLKRAEDKAKLKELEKHKIQLEQVQEWKSKMQEQQADLQRRLKEARKEAKEALEAKERYMEEMADTADAIEMATLDKEMAEERAESLQQEVEALKERVDELTTDLEILKAEIEEKGSDGAASSYQLKQLEEQNARLKDALVRMRDLSSSEKQEHVKLQKLMEKKNQELEVVRQQRERLQEELSQAESTIDELKEQVDAALGAEEMVEMLTDRNLNLEEKVRELRETVGDLEAMNEMNDELQENARETELELREQLDMAGARVREAQKRVEAAQETVADYQQTIKKYRQLTAHLQDVNRELTNQQEASVERQQQPPPETFDFKIKFAETKAHAKAIEMELRQMEVAQANRHMSLLTAFMPDSFLRPGGDHDCVLVLLLMPRLICKAELIRKQAQEKFELSENCSERPGLRGAAGEQLSFAAGLVYSLSLLQATLHRYEHALSQCGVDVYKKVGSLYPEMSAHERSLDFLIELLHKDQLDETVNVEPLTKAIKYYQHLYSIHLAEQPEDCTMQLADHIKFTQSALDCMSVEVGRLRAFLQSGQEASDIALLLRDLETSCSDTRQFCKKIRRRMPGTDAPGIPAAVAFGAQVSDTLLDCRKHLTWVVAVLQEVAAAAAQLIAPLAENEGLPVATLEELAFKANEQIYGSSSSTPYECLRQSCSVLISTMNKLATAMQEGEYDAERPPSKPPPVELRAAALRAEITDAEGLGLKLEDRETVIKELKKSLKIKGEELSEANVRLSLLEKKLDSAAKDADERIDRVQTRLEETQALLRKKEKEFEETMDALQADIDQLEAEKAELKLRLNSQSKRTIEGLRGPPPSGIATLVSGIAGAGAPGQAPGSVAGPGLVKDSPLLLQQISAMRLHISQLQHENSVLKGAQMKAALAALPPLHVAKVSLPPHEGPGGDIAAGALYRKTSQLLETVNQLSTHTHVVDITRTSPAAKSPSAQLLEQVAQLKSLSDTIEKLKDEVFKETVSQRPGATVPTDFATFPSSAFLRAKEEQQEDTVYVGKVTFSCAAGLGQRHRLVLTQEQLRRLHGRLIS

Target ORF information:

RefSeq Version	XM_010593657.1
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana dynactin 1 (DCTN1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_010593657.1

ORF Insert Sequence:

ATGAGCGCAG AGGCAAGCGC CCGGCCTCTG CGAGTGGGCT CCCGTGTGGA GGTGATTGGA 
AAAGGCTACC GAGGCACTGT TGCCTATGTT GGAGCCACAC TCTTCGCCAC TGGCAAATGG 
GTAGGCGTGA TCCTGGATGA AGCAAAGGGC AAGAATGATG GAACCGTCCA AGGCAGGAAG 
TACTTCACAT GTGACGAAGG GCATGGTATC TTTGTGCGCC AGTCCCAGAT CCAGATATTT 
GAAGATGGAG CAGACACCAC TTCCCCAGAG ACACCAGATT CTTCTGCCTC AAAGGTCCTC 
AAAAGAGAGG GAACTGATGC AGCTGCAAAG ACCAGCAAAC TGCCCACTCG CCCAGCCAGC 
ACTGGGGTGG CTGGGGCCAG TAGCTCCCTG GGCCCCTCTG GCTCAGCATC TGCAGGTGAG 
CTGAGCAGCA GCGAGCCCAG CACCCCAGCT CAGACTCCGC TGGCAGCACC CATCATCCCC 
ACGCCGGTCC TCACCTCCCC TGGAGCAGCC CCCCCACTTC TGTCCCCCTC CAAGGAGGAG 
GAGGGGCTGC GAGCCCAGGT GCGGGATCTG GAGGAGAAGC TGGAGACCCT ACGTCTGAAA 
CGGGCAGAAG ACAAGGCAAA GCTGAAAGAG CTGGAGAAAC ACAAGATCCA GTTGGAGCAG 
GTGCAGGAAT GGAAGAGCAA AATGCAGGAG CAGCAGGCGG ACCTGCAGCG GCGCCTCAAG 
GAGGCGCGGA AGGAAGCCAA GGAGGCGCTG GAGGCAAAGG AGCGCTACAT GGAGGAGATG 
GCTGACACTG CCGATGCCAT CGAGATGGCC ACTCTGGACA AGGAGATGGC TGAAGAGCGG 
GCTGAATCCT TGCAGCAGGA GGTGGAGGCA CTGAAGGAGC GGGTGGACGA GCTCACCACT 
GACTTAGAGA TCCTCAAGGC TGAGATTGAA GAGAAGGGCT CAGATGGGGC TGCGTCCAGT 
TACCAGCTCA AGCAGCTCGA GGAGCAGAAT GCCCGCCTAA AGGATGCCCT GGTGAGGATG 
CGGGATCTTT CTTCCTCAGA GAAGCAGGAG CATGTGAAGC TCCAGAAACT CATGGAAAAG 
AAGAACCAAG AGTTGGAAGT TGTGAGGCAA CAGCGAGAGC GTCTACAGGA GGAGCTGAGC 
CAGGCAGAGA GCACCATTGA TGAGCTCAAG GAGCAGGTGG ATGCTGCTCT GGGAGCCGAG 
GAGATGGTGG AGATGCTGAC AGACCGGAAC CTGAATCTGG AAGAGAAAGT GCGGGAGTTG 
AGAGAGACCG TGGGGGACTT GGAAGCAATG AATGAGATGA ATGATGAGCT ACAGGAGAAC 
GCGCGTGAGA CAGAACTGGA GCTGCGGGAG CAGCTGGACA TGGCAGGTGC CCGGGTGCGC 
GAGGCCCAGA AACGCGTGGA GGCAGCCCAG GAGACAGTTG CAGACTACCA GCAAACCATC 
AAGAAATACC GCCAGCTGAC TGCCCACCTA CAGGATGTGA ATCGGGAGCT GACAAACCAG 
CAGGAAGCAT CTGTGGAAAG GCAGCAGCAG CCACCTCCAG AGACTTTTGA CTTCAAAATC 
AAGTTTGCTG AGACTAAGGC CCATGCTAAG GCAATTGAGA TGGAGTTGAG GCAGATGGAG 
GTGGCCCAGG CCAACCGGCA CATGTCCCTG CTGACAGCCT TCATGCCCGA CAGCTTCCTT 
CGGCCAGGTG GGGACCATGA CTGTGTCCTG GTGCTGCTGC TCATGCCCCG TCTCATTTGC 
AAGGCCGAGT TGATCCGGAA ACAGGCCCAG GAGAAGTTTG AACTAAGTGA AAACTGTTCA 
GAGCGGCCCG GGCTGCGAGG AGCTGCGGGG GAACAGCTCA GTTTTGCTGC TGGGCTGGTG 
TACTCGCTGA GCCTGCTGCA GGCCACACTA CACCGCTACG AGCATGCCCT CTCTCAGTGT 
GGTGTGGATG TGTATAAGAA GGTGGGTAGC CTGTACCCTG AGATGAGTGC CCATGAGCGC 
TCCTTGGATT TCCTCATTGA GCTGCTGCAC AAGGATCAGC TGGACGAGAC AGTTAACGTG 
GAGCCTCTCA CCAAGGCCAT CAAGTACTAC CAGCATCTGT ATAGCATCCA CCTTGCCGAA 
CAGCCTGAGG ACTGTACCAT GCAGCTGGCC GACCACATTA AGTTCACCCA GAGTGCCCTG 
GACTGCATGA GCGTGGAGGT GGGACGGCTG CGTGCCTTTC TGCAAAGTGG GCAGGAGGCT 
TCAGATATCG CCCTCCTGCT CCGGGACCTG GAAACATCGT GCAGCGACAC CCGCCAGTTC 
TGTAAGAAGA TCCGGAGGCG GATGCCAGGG ACGGATGCTC CTGGGATTCC AGCTGCTGTG 
GCCTTTGGAG CACAGGTATC TGACACACTC CTAGACTGCA GGAAACACCT GACGTGGGTG 
GTGGCCGTGC TGCAGGAGGT GGCAGCTGCT GCCGCCCAGC TCATTGCCCC GCTGGCAGAG 
AACGAGGGGC TGCCTGTAGC TACCCTGGAG GAGCTGGCTT TCAAAGCAAA TGAGCAGATC 
TACGGGAGCT CCTCTAGCAC CCCCTATGAG TGTCTGCGCC AGTCGTGCAG CGTCCTCATC 
AGCACAATGA ACAAGCTGGC CACAGCCATG CAGGAGGGGG AGTACGACGC CGAGCGGCCC 
CCCAGCAAGC CTCCCCCGGT TGAGCTGCGG GCCGCTGCCC TTCGTGCCGA GATCACGGAT 
GCTGAAGGCC TGGGCTTGAA GCTTGAAGAT CGAGAGACGG TTATCAAGGA GCTGAAGAAG 
TCACTCAAGA TCAAGGGAGA AGAACTGAGT GAGGCCAATG TACGGCTCAG CCTCCTGGAG 
AAGAAGCTGG ACAGTGCTGC CAAAGATGCG GACGAGCGGA TCGACAGAGT CCAGACTCGG 
CTAGAGGAGA CCCAGGCGCT GCTGCGGAAG AAGGAGAAAG AATTTGAGGA GACGATGGAT 
GCTCTCCAGG CTGACATCGA CCAGCTGGAA GCAGAGAAGG CGGAGCTAAA GCTGCGACTG 
AACAGCCAGT CCAAGCGCAC CATCGAGGGG CTCCGGGGGC CCCCTCCCTC AGGCATAGCT 
ACCCTCGTTT CTGGCATCGC TGGTGCAGGA GCCCCTGGGC AGGCTCCGGG CTCCGTGGCA 
GGCCCAGGCC TGGTGAAGGA CTCACCACTG CTGCTTCAGC AAATCTCTGC CATGAGGCTG 
CACATCTCCC AGCTCCAGCA TGAGAACAGC GTCCTCAAGG GAGCCCAGAT GAAGGCAGCC 
TTGGCAGCCC TACCCCCTTT GCATGTGGCA AAGGTGTCCC TCCCACCTCA CGAAGGCCCT 
GGCGGTGATA TAGCAGCTGG AGCACTCTAT CGTAAGACCA GCCAGCTGCT GGAGACAGTG 
AATCAGCTGA GCACGCACAC CCACGTGGTA GACATCACCC GCACCAGCCC CGCTGCCAAG 
AGCCCATCGG CCCAGCTCCT GGAGCAGGTG GCTCAGCTCA AGTCCCTAAG TGACACCATC 
GAGAAGCTCA AGGATGAGGT CTTCAAGGAG ACGGTATCTC AGCGCCCTGG AGCCACAGTC 
CCCACTGACT TTGCCACCTT CCCTTCCTCA GCCTTCCTCA GGGCCAAGGA GGAGCAGCAG 
GAAGACACAG TCTACGTGGG CAAAGTGACC TTCTCATGTG CAGCTGGCCT TGGACAGCGA 
CACCGGCTGG TGCTGACCCA GGAGCAGCTG CGCCGGCTTC ACGGCCGCCT CATCTCCTGA

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

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DCTN1 cDNA ORF clone, Loxodonta africana(African savanna elephant)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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