AKNAD1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	AKNAD1
Entrez Gene ID	254268
Full Name	AKNA domain containing 1
Synonyms	C1orf62
General protein information	Preferred Names AKNA domain containing 1 Names protein AKNAD1
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 1 Map Location: 1p13.3
Summary	This gene encodes a protein which contains a domain found in an AT-hook-containing transcription factor. Alternative splicing results in multiple transcript variants. [provided by RefSeq, May 2012].

mRNA and Protein(s)

mRNA	Protein	Name
NM_152763.5	NP_689976.2	protein AKNAD1
NM_152763.4	NP_689976.2	protein AKNAD1

Pathways from BioSystems

Homologies

Bos taurus (cattle)	AKNAD1	XP_005204285.1
Mus musculus (house mouse)	Aknad1	NP_808527.2
Homo sapiens (human)	AKNAD1	NP_689976.2
Pan troglodytes (chimpanzee)	AKNAD1	XP_003308304.1
	AKNAD1	XP_001086220.1
Canis lupus familiaris (dog)	AKNAD1	XP_005621896.1
Rattus norvegicus (Norway rat)	Aknad1	NP_001037768.2

Gene Ontology
Bibliography

Related articles in PubMed

CNV Analysis Associates AKNAD1 with Type-2 Diabetes in Jordan Subpopulations.
Dajani R, Li J, Wei Z, Glessner JT, Chang X, Cardinale CJ, Pellegrino R, Wang T, Hakooz N, Khader Y, Sheshani A, Zandaki D, Hakonarson H
Scientific reports513391(2015 Aug)

Genome-wide association study of chemotherapeutic agent-induced severe neutropenia/leucopenia for patients in Biobank Japan.
Low SK, Chung S, Takahashi A, Zembutsu H, Mushiroda T, Kubo M, Nakamura Y
Cancer science104(8)1074-82(2013 Aug)

Genes linked to energy metabolism and immunoregulatory mechanisms are associated with subcutaneous adipose tissue distribution in HIV-infected men.
Irvin MR, Shrestha S, Chen YD, Wiener HW, Haritunians T, Vaughan LK, Tiwari HK, Taylor KD, Scherzer R, Saag MS, Grunfeld C, Rotter JI, Arnett DK
Pharmacogenetics and genomics21(12)798-807(2011 Dec)

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

a significant copy number variation in gene AKNAD1 associated with type-2 diabetes, was identified and experimentally validated.
Title: CNV Analysis Associates AKNAD1 with Type-2 Diabetes in Jordan Subpopulations.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

The following AKNAD1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AKNAD1 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)
OHu22028	NM_152763.5 Latest version!	Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$189.50-$265.30 $379.00
View Old Accession Versions >>
OHu22028	NM_152763.4	Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$189.50-$265.30 $379.00
Hide Old Accession Versions >>

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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.

Reference Sequences (Refseq)

AKNAD1 ( NM_152763.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_689976.2 Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu22028
Clone ID Related Accession (Same CDS sequence)	NM_152763.5 , NM_152763.4
Accession Version	NM_152763.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2511bp) 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	2019-08-21
Organism	Homo sapiens(human)
Product	protein AKNAD1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AL832216.1 and AL449266.17. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_152763.4. Transcript Variant: This variant (1) encodes the functional protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AL832216.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968189, SAMEA1968540 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000370001.8/ ENSP00000359018.3 RefSeq Select criteria :: based on single protein-coding transcript ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGATGAGG CTGATTTTTC AGAACACACG ACTTATAAGC AGGAGGATTT GCCTTATGAT 
GGGGACCTCT CTCAGATTAA GATAGGCAAT GATTACAGTT TTACCTCAAA AAAGGATGGC 
CTTGAAGTCT TAAATCAAAT TATTTTCATA GCAGATGACC CTCAAGAGAA GGCTATGCAT 
AGTGAGACTT GTGGAAATAC AGCTGTGACC ATACCCCTGG GTAAAATTAC TGAAAATGCT 
GCCAACAAAA AAGACGAGAA AGAGAAACAA TGCACTGCAG CTCTTCATAT TCCAGCAAAT 
GAAGGAGACG CTTCTAAGTC AAGCATTTCT GATATTTTAC TTCATCATCT TTCCAAAGAG 
CCATTCTTAA GAGGTCAAGG CATTGATTGT GAAACCCTCC CAGAGATCTC AAATGCCGAC 
AGTTTTGAAG AGGAAGCTAT TATTAAAAGT ATTATTTCAT GTTATAATAA GAATTCTTGG 
CCAAAAGAAC AAACCCCAGA ACTCACTGAC CAACTCAACC CGAAAAGGGA TGGTGAAAAC 
AGCAATAAGC CTGGTTCTGC CACCACGACA GAGGAAAATA CCTCTGATTT AGAAGGGCCA 
GTGGCTGCTG GAGATAGCAG CCATCAAGAA AATGTGAATG TTCTAACTAA AACCAAGGGT 
CCAGGTGATA AACAAAAAAG TTATCAAGGG CAGTCACCCC AGAAACAGCA GACTGAAAAA 
GCAAATTCAG GCAACACGTT CAAATACGGC CAAGGTCAAG TTCATTACCA GCTCCCTGAT 
TTCTCTAAGA TTGCTCCCAA AGTGAAAATT CCTAAAAATA AGATAATTAA TAAACCACTT 
GCAATAGCTA AACAAGCCAG CTTTTCTTCC AAGTCGAGAG ATAAACCCAC TCTTGTGCAA 
GATAGTCTAG AAACCACGCC TGAGTCAAAC TGTGTTGAAA AACAACATCA AGAGCAGAAA 
GGGAAAATCA CTGAACCTTC ACAACAAATC CAGATGGAGC CCATAGTACA TATCCACCAA 
GAACTTCTCA CAGGAATAGA ATCTGAGGCA AGTCTCTCTA AGTTGTCACC AACCTCTCAG 
AAAGGCACTT CCTCAAGTTC TTCTTACATA TTTCAAAAGA TATCCCAAGG GAAACAGATG 
TGTCAGAAGT TGAAAGAACA GACTGATCAA CTGAAGACTA AAGTACAAGA ATTTTCCAAA 
AGAATAAAAC AGGACTCTCC TTACCATTTG CAAGACAAGA AGCTGGTCCT GGAGAAACTG 
CAGGGACACC TTGAACTGCT GGAGCAGAAC TTTCTGGCCA CCAAGGACAA GCATCTGACT 
TTGCAGCAGC AAGTCCACAA GCACGAATCA ACAATCGTTG GTGACTTTGA TCCAGAAAGA 
AAAGTGGAAG GTGAAATCTT CAAATTGGAG ATGCTGCTTG AAGATGTTAA AGAGAAAATG 
GATGAAAGCA AATATACTTC AGCTCCTTCC CTTCCTGTGA GTTCTCCAGT TACCCTGGAT 
GACTTGGCCT CCACCTTCTC TTCACTCTCA AATGAGATTC CCAAGGAGCA CCCCGGCCAC 
CCTTCTGGGC CTCGAGGCTC AGGTGGGAGT GAGGTAACAG GGACACCCCA AGGAGGGCCG 
CAGGAGGCCC CCAACGAGGA GCTCTGTGAG CTGGCCCCGC AGACTTACCT AAACGGTCAT 
TATGGAGATG CAGCTGCCCA GAACAAGCCA GACCAAGTGG CCATGAGGCT GTCTTCTAAC 
TCTGGGGAGG ATCCCAACGG CACTCCAAGA AGGCAGGATT GTGCAGAGAT GACGGCACCC 
AGTCCGAGCT GTGCCTTCTG TCGCAGGCTC CTTGAATGGA AGCAAAACGT GGAGAAAAAG 
GGCCACGGAA GGATCAACTG TGGAAGATTT TCAATTGTCC TTCATGAAAA GGCACCACAC 
TCAGATTCAA CTCCCAATTC TGATACAGGA CACAGCTTCT GTTCTGATTC TGGCACTGAA 
ATGCAGAGTA ACAAATGTCA GGACTGTGGC ACTAAGATTC CTACCTCCCG AAGAGCCTGC 
AGGAAAGAAC CAACTAAAGA ATTTCATTAT AGATACAACA CTCCAGGACA GAATTACTCA 
AATCATAGCA AAAGAGGTGC CTTTGTCCAG CCCCATTCTT TAGATGAAAG TAAAAACTCT 
TCACCCTCTT TTTTAAAACC CAAACGGATC TGTTCTCAGA GAGTGAATTC AAAATCCTTT 
AAAGGTGAAC ATGAGCCCAC ACCAGGAAAA AAAAAACTTC AGGCTTTCAT GACCTACAGC 
TCAGACCCTG CAACACCCTC ACCCCATTTC TACTCCTGCA GGATTTCTGG AAGCAAATCC 
TTATGTGACT TTGATAGCAC TGAAGAAATA AAATCTGAGA TTTTAAACTC GGCTTTGGAT 
CATGCCCTAA GGACAGCAAC CATTTTGAAA GAAACTACAG ATCAAATGAT TAAAACGATT 
GCAGAAGACC TTGCTAAAGC ACAGAGGTGG AGGAATCGAC TGAAATACTA G

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

RefSeq	NP_689976.2
CDS	270..2780
Translation	MDEADFSEHTTYKQEDLPYDGDLSQIKIGNDYSFTSKKDGLEVLNQIIFIADDPQEKAMHSETCGNTAVTIPLGKITENAANKKDEKEKQCTAALHIPANEGDASKSSISDILLHHLSKEPFLRGQGIDCETLPEISNADSFEEEAIIKSIISCYNKNSWPKEQTPELTDQLNPKRDGENSNKPGSATTTEENTSDLEGPVAAGDSSHQENVNVLTKTKGPGDKQKSYQGQSPQKQQTEKANSGNTFKYGQGQVHYQLPDFSKIAPKVKIPKNKIINKPLAIAKQASFSSKSRDKPTLVQDSLETTPESNCVEKQHQEQKGKITEPSQQIQMEPIVHIHQELLTGIESEASLSKLSPTSQKGTSSSSSYIFQKISQGKQMCQKLKEQTDQLKTKVQEFSKRIKQDSPYHLQDKKLVLEKLQGHLELLEQNFLATKDKHLTLQQQVHKHESTIVGDFDPERKVEGEIFKLEMLLEDVKEKMDESKYTSAPSLPVSSPVTLDDLASTFSSLSNEIPKEHPGHPSGPRGSGGSEVTGTPQGGPQEAPNEELCELAPQTYLNGHYGDAAAQNKPDQVAMRLSSNSGEDPNGTPRRQDCAEMTAPSPSCAFCRRLLEWKQNVEKKGHGRINCGRFSIVLHEKAPHSDSTPNSDTGHSFCSDSGTEMQSNKCQDCGTKIPTSRRACRKEPTKEFHYRYNTPGQNYSNHSKRGAFVQPHSLDESKNSSPSFLKPKRICSQRVNSKSFKGEHEPTPGKKKLQAFMTYSSDPATPSPHFYSCRISGSKSLCDFDSTEEIKSEILNSALDHALRTATILKETTDQMIKTIAEDLAKAQRWRNRLKY

Target ORF information:

RefSeq Version	NM_152763.5
Organism	Homo sapiens(human)
Definition	Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.

Target ORF information:

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

NM_152763.5

ORF Insert Sequence:

ATGGATGAGG CTGATTTTTC AGAACACACG ACTTATAAGC AGGAGGATTT GCCTTATGAT 
GGGGACCTCT CTCAGATTAA GATAGGCAAT GATTACAGTT TTACCTCAAA AAAGGATGGC 
CTTGAAGTCT TAAATCAAAT TATTTTCATA GCAGATGACC CTCAAGAGAA GGCTATGCAT 
AGTGAGACTT GTGGAAATAC AGCTGTGACC ATACCCCTGG GTAAAATTAC TGAAAATGCT 
GCCAACAAAA AAGACGAGAA AGAGAAACAA TGCACTGCAG CTCTTCATAT TCCAGCAAAT 
GAAGGAGACG CTTCTAAGTC AAGCATTTCT GATATTTTAC TTCATCATCT TTCCAAAGAG 
CCATTCTTAA GAGGTCAAGG CATTGATTGT GAAACCCTCC CAGAGATCTC AAATGCCGAC 
AGTTTTGAAG AGGAAGCTAT TATTAAAAGT ATTATTTCAT GTTATAATAA GAATTCTTGG 
CCAAAAGAAC AAACCCCAGA ACTCACTGAC CAACTCAACC CGAAAAGGGA TGGTGAAAAC 
AGCAATAAGC CTGGTTCTGC CACCACGACA GAGGAAAATA CCTCTGATTT AGAAGGGCCA 
GTGGCTGCTG GAGATAGCAG CCATCAAGAA AATGTGAATG TTCTAACTAA AACCAAGGGT 
CCAGGTGATA AACAAAAAAG TTATCAAGGG CAGTCACCCC AGAAACAGCA GACTGAAAAA 
GCAAATTCAG GCAACACGTT CAAATACGGC CAAGGTCAAG TTCATTACCA GCTCCCTGAT 
TTCTCTAAGA TTGCTCCCAA AGTGAAAATT CCTAAAAATA AGATAATTAA TAAACCACTT 
GCAATAGCTA AACAAGCCAG CTTTTCTTCC AAGTCGAGAG ATAAACCCAC TCTTGTGCAA 
GATAGTCTAG AAACCACGCC TGAGTCAAAC TGTGTTGAAA AACAACATCA AGAGCAGAAA 
GGGAAAATCA CTGAACCTTC ACAACAAATC CAGATGGAGC CCATAGTACA TATCCACCAA 
GAACTTCTCA CAGGAATAGA ATCTGAGGCA AGTCTCTCTA AGTTGTCACC AACCTCTCAG 
AAAGGCACTT CCTCAAGTTC TTCTTACATA TTTCAAAAGA TATCCCAAGG GAAACAGATG 
TGTCAGAAGT TGAAAGAACA GACTGATCAA CTGAAGACTA AAGTACAAGA ATTTTCCAAA 
AGAATAAAAC AGGACTCTCC TTACCATTTG CAAGACAAGA AGCTGGTCCT GGAGAAACTG 
CAGGGACACC TTGAACTGCT GGAGCAGAAC TTTCTGGCCA CCAAGGACAA GCATCTGACT 
TTGCAGCAGC AAGTCCACAA GCACGAATCA ACAATCGTTG GTGACTTTGA TCCAGAAAGA 
AAAGTGGAAG GTGAAATCTT CAAATTGGAG ATGCTGCTTG AAGATGTTAA AGAGAAAATG 
GATGAAAGCA AATATACTTC AGCTCCTTCC CTTCCTGTGA GTTCTCCAGT TACCCTGGAT 
GACTTGGCCT CCACCTTCTC TTCACTCTCA AATGAGATTC CCAAGGAGCA CCCCGGCCAC 
CCTTCTGGGC CTCGAGGCTC AGGTGGGAGT GAGGTAACAG GGACACCCCA AGGAGGGCCG 
CAGGAGGCCC CCAACGAGGA GCTCTGTGAG CTGGCCCCGC AGACTTACCT AAACGGTCAT 
TATGGAGATG CAGCTGCCCA GAACAAGCCA GACCAAGTGG CCATGAGGCT GTCTTCTAAC 
TCTGGGGAGG ATCCCAACGG CACTCCAAGA AGGCAGGATT GTGCAGAGAT GACGGCACCC 
AGTCCGAGCT GTGCCTTCTG TCGCAGGCTC CTTGAATGGA AGCAAAACGT GGAGAAAAAG 
GGCCACGGAA GGATCAACTG TGGAAGATTT TCAATTGTCC TTCATGAAAA GGCACCACAC 
TCAGATTCAA CTCCCAATTC TGATACAGGA CACAGCTTCT GTTCTGATTC TGGCACTGAA 
ATGCAGAGTA ACAAATGTCA GGACTGTGGC ACTAAGATTC CTACCTCCCG AAGAGCCTGC 
AGGAAAGAAC CAACTAAAGA ATTTCATTAT AGATACAACA CTCCAGGACA GAATTACTCA 
AATCATAGCA AAAGAGGTGC CTTTGTCCAG CCCCATTCTT TAGATGAAAG TAAAAACTCT 
TCACCCTCTT TTTTAAAACC CAAACGGATC TGTTCTCAGA GAGTGAATTC AAAATCCTTT 
AAAGGTGAAC ATGAGCCCAC ACCAGGAAAA AAAAAACTTC AGGCTTTCAT GACCTACAGC 
TCAGACCCTG CAACACCCTC ACCCCATTTC TACTCCTGCA GGATTTCTGG AAGCAAATCC 
TTATGTGACT TTGATAGCAC TGAAGAAATA AAATCTGAGA TTTTAAACTC GGCTTTGGAT 
CATGCCCTAA GGACAGCAAC CATTTTGAAA GAAACTACAG ATCAAATGAT TAAAACGATT 
GCAGAAGACC TTGCTAAAGC ACAGAGGTGG AGGAATCGAC TGAAATACTA G

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

AKNAD1 ( NM_152763.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_689976.2 Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.

Price & Availability↑

CloneID	OHu22028
Clone ID Related Accession (Same CDS sequence)	NM_152763.5 , NM_152763.4
Accession Version	NM_152763.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2511bp) 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	2017-10-02
Organism	Homo sapiens(human)
Product	protein AKNAD1
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB054557.1, AL832216.1 and AL449266.17. This sequence is a reference standard in the RefSeqGene project. On May 24, 2012 this sequence version replaced NM_152763.3. Transcript Variant: This variant (1) encodes the functional protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: AL832216.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1968189, SAMEA1968540 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGATGAGG CTGATTTTTC AGAACACACG ACTTATAAGC AGGAGGATTT GCCTTATGAT 
GGGGACCTCT CTCAGATTAA GATAGGCAAT GATTACAGTT TTACCTCAAA AAAGGATGGC 
CTTGAAGTCT TAAATCAAAT TATTTTCATA GCAGATGACC CTCAAGAGAA GGCTATGCAT 
AGTGAGACTT GTGGAAATAC AGCTGTGACC ATACCCCTGG GTAAAATTAC TGAAAATGCT 
GCCAACAAAA AAGACGAGAA AGAGAAACAA TGCACTGCAG CTCTTCATAT TCCAGCAAAT 
GAAGGAGACG CTTCTAAGTC AAGCATTTCT GATATTTTAC TTCATCATCT TTCCAAAGAG 
CCATTCTTAA GAGGTCAAGG CATTGATTGT GAAACCCTCC CAGAGATCTC AAATGCCGAC 
AGTTTTGAAG AGGAAGCTAT TATTAAAAGT ATTATTTCAT GTTATAATAA GAATTCTTGG 
CCAAAAGAAC AAACCCCAGA ACTCACTGAC CAACTCAACC CGAAAAGGGA TGGTGAAAAC 
AGCAATAAGC CTGGTTCTGC CACCACGACA GAGGAAAATA CCTCTGATTT AGAAGGGCCA 
GTGGCTGCTG GAGATAGCAG CCATCAAGAA AATGTGAATG TTCTAACTAA AACCAAGGGT 
CCAGGTGATA AACAAAAAAG TTATCAAGGG CAGTCACCCC AGAAACAGCA GACTGAAAAA 
GCAAATTCAG GCAACACGTT CAAATACGGC CAAGGTCAAG TTCATTACCA GCTCCCTGAT 
TTCTCTAAGA TTGCTCCCAA AGTGAAAATT CCTAAAAATA AGATAATTAA TAAACCACTT 
GCAATAGCTA AACAAGCCAG CTTTTCTTCC AAGTCGAGAG ATAAACCCAC TCTTGTGCAA 
GATAGTCTAG AAACCACGCC TGAGTCAAAC TGTGTTGAAA AACAACATCA AGAGCAGAAA 
GGGAAAATCA CTGAACCTTC ACAACAAATC CAGATGGAGC CCATAGTACA TATCCACCAA 
GAACTTCTCA CAGGAATAGA ATCTGAGGCA AGTCTCTCTA AGTTGTCACC AACCTCTCAG 
AAAGGCACTT CCTCAAGTTC TTCTTACATA TTTCAAAAGA TATCCCAAGG GAAACAGATG 
TGTCAGAAGT TGAAAGAACA GACTGATCAA CTGAAGACTA AAGTACAAGA ATTTTCCAAA 
AGAATAAAAC AGGACTCTCC TTACCATTTG CAAGACAAGA AGCTGGTCCT GGAGAAACTG 
CAGGGACACC TTGAACTGCT GGAGCAGAAC TTTCTGGCCA CCAAGGACAA GCATCTGACT 
TTGCAGCAGC AAGTCCACAA GCACGAATCA ACAATCGTTG GTGACTTTGA TCCAGAAAGA 
AAAGTGGAAG GTGAAATCTT CAAATTGGAG ATGCTGCTTG AAGATGTTAA AGAGAAAATG 
GATGAAAGCA AATATACTTC AGCTCCTTCC CTTCCTGTGA GTTCTCCAGT TACCCTGGAT 
GACTTGGCCT CCACCTTCTC TTCACTCTCA AATGAGATTC CCAAGGAGCA CCCCGGCCAC 
CCTTCTGGGC CTCGAGGCTC AGGTGGGAGT GAGGTAACAG GGACACCCCA AGGAGGGCCG 
CAGGAGGCCC CCAACGAGGA GCTCTGTGAG CTGGCCCCGC AGACTTACCT AAACGGTCAT 
TATGGAGATG CAGCTGCCCA GAACAAGCCA GACCAAGTGG CCATGAGGCT GTCTTCTAAC 
TCTGGGGAGG ATCCCAACGG CACTCCAAGA AGGCAGGATT GTGCAGAGAT GACGGCACCC 
AGTCCGAGCT GTGCCTTCTG TCGCAGGCTC CTTGAATGGA AGCAAAACGT GGAGAAAAAG 
GGCCACGGAA GGATCAACTG TGGAAGATTT TCAATTGTCC TTCATGAAAA GGCACCACAC 
TCAGATTCAA CTCCCAATTC TGATACAGGA CACAGCTTCT GTTCTGATTC TGGCACTGAA 
ATGCAGAGTA ACAAATGTCA GGACTGTGGC ACTAAGATTC CTACCTCCCG AAGAGCCTGC 
AGGAAAGAAC CAACTAAAGA ATTTCATTAT AGATACAACA CTCCAGGACA GAATTACTCA 
AATCATAGCA AAAGAGGTGC CTTTGTCCAG CCCCATTCTT TAGATGAAAG TAAAAACTCT 
TCACCCTCTT TTTTAAAACC CAAACGGATC TGTTCTCAGA GAGTGAATTC AAAATCCTTT 
AAAGGTGAAC ATGAGCCCAC ACCAGGAAAA AAAAAACTTC AGGCTTTCAT GACCTACAGC 
TCAGACCCTG CAACACCCTC ACCCCATTTC TACTCCTGCA GGATTTCTGG AAGCAAATCC 
TTATGTGACT TTGATAGCAC TGAAGAAATA AAATCTGAGA TTTTAAACTC GGCTTTGGAT 
CATGCCCTAA GGACAGCAAC CATTTTGAAA GAAACTACAG ATCAAATGAT TAAAACGATT 
GCAGAAGACC TTGCTAAAGC ACAGAGGTGG AGGAATCGAC TGAAATACTA G

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

RefSeq	NP_689976.2
CDS	280..2790
Translation	MDEADFSEHTTYKQEDLPYDGDLSQIKIGNDYSFTSKKDGLEVLNQIIFIADDPQEKAMHSETCGNTAVTIPLGKITENAANKKDEKEKQCTAALHIPANEGDASKSSISDILLHHLSKEPFLRGQGIDCETLPEISNADSFEEEAIIKSIISCYNKNSWPKEQTPELTDQLNPKRDGENSNKPGSATTTEENTSDLEGPVAAGDSSHQENVNVLTKTKGPGDKQKSYQGQSPQKQQTEKANSGNTFKYGQGQVHYQLPDFSKIAPKVKIPKNKIINKPLAIAKQASFSSKSRDKPTLVQDSLETTPESNCVEKQHQEQKGKITEPSQQIQMEPIVHIHQELLTGIESEASLSKLSPTSQKGTSSSSSYIFQKISQGKQMCQKLKEQTDQLKTKVQEFSKRIKQDSPYHLQDKKLVLEKLQGHLELLEQNFLATKDKHLTLQQQVHKHESTIVGDFDPERKVEGEIFKLEMLLEDVKEKMDESKYTSAPSLPVSSPVTLDDLASTFSSLSNEIPKEHPGHPSGPRGSGGSEVTGTPQGGPQEAPNEELCELAPQTYLNGHYGDAAAQNKPDQVAMRLSSNSGEDPNGTPRRQDCAEMTAPSPSCAFCRRLLEWKQNVEKKGHGRINCGRFSIVLHEKAPHSDSTPNSDTGHSFCSDSGTEMQSNKCQDCGTKIPTSRRACRKEPTKEFHYRYNTPGQNYSNHSKRGAFVQPHSLDESKNSSPSFLKPKRICSQRVNSKSFKGEHEPTPGKKKLQAFMTYSSDPATPSPHFYSCRISGSKSLCDFDSTEEIKSEILNSALDHALRTATILKETTDQMIKTIAEDLAKAQRWRNRLKY

Target ORF information:

RefSeq Version	NM_152763.4
Organism	Homo sapiens(human)
Definition	Homo sapiens AKNA domain containing 1 (AKNAD1), transcript variant 1, mRNA.

Target ORF information:

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

NM_152763.4

ORF Insert Sequence:

ATGGATGAGG CTGATTTTTC AGAACACACG ACTTATAAGC AGGAGGATTT GCCTTATGAT 
GGGGACCTCT CTCAGATTAA GATAGGCAAT GATTACAGTT TTACCTCAAA AAAGGATGGC 
CTTGAAGTCT TAAATCAAAT TATTTTCATA GCAGATGACC CTCAAGAGAA GGCTATGCAT 
AGTGAGACTT GTGGAAATAC AGCTGTGACC ATACCCCTGG GTAAAATTAC TGAAAATGCT 
GCCAACAAAA AAGACGAGAA AGAGAAACAA TGCACTGCAG CTCTTCATAT TCCAGCAAAT 
GAAGGAGACG CTTCTAAGTC AAGCATTTCT GATATTTTAC TTCATCATCT TTCCAAAGAG 
CCATTCTTAA GAGGTCAAGG CATTGATTGT GAAACCCTCC CAGAGATCTC AAATGCCGAC 
AGTTTTGAAG AGGAAGCTAT TATTAAAAGT ATTATTTCAT GTTATAATAA GAATTCTTGG 
CCAAAAGAAC AAACCCCAGA ACTCACTGAC CAACTCAACC CGAAAAGGGA TGGTGAAAAC 
AGCAATAAGC CTGGTTCTGC CACCACGACA GAGGAAAATA CCTCTGATTT AGAAGGGCCA 
GTGGCTGCTG GAGATAGCAG CCATCAAGAA AATGTGAATG TTCTAACTAA AACCAAGGGT 
CCAGGTGATA AACAAAAAAG TTATCAAGGG CAGTCACCCC AGAAACAGCA GACTGAAAAA 
GCAAATTCAG GCAACACGTT CAAATACGGC CAAGGTCAAG TTCATTACCA GCTCCCTGAT 
TTCTCTAAGA TTGCTCCCAA AGTGAAAATT CCTAAAAATA AGATAATTAA TAAACCACTT 
GCAATAGCTA AACAAGCCAG CTTTTCTTCC AAGTCGAGAG ATAAACCCAC TCTTGTGCAA 
GATAGTCTAG AAACCACGCC TGAGTCAAAC TGTGTTGAAA AACAACATCA AGAGCAGAAA 
GGGAAAATCA CTGAACCTTC ACAACAAATC CAGATGGAGC CCATAGTACA TATCCACCAA 
GAACTTCTCA CAGGAATAGA ATCTGAGGCA AGTCTCTCTA AGTTGTCACC AACCTCTCAG 
AAAGGCACTT CCTCAAGTTC TTCTTACATA TTTCAAAAGA TATCCCAAGG GAAACAGATG 
TGTCAGAAGT TGAAAGAACA GACTGATCAA CTGAAGACTA AAGTACAAGA ATTTTCCAAA 
AGAATAAAAC AGGACTCTCC TTACCATTTG CAAGACAAGA AGCTGGTCCT GGAGAAACTG 
CAGGGACACC TTGAACTGCT GGAGCAGAAC TTTCTGGCCA CCAAGGACAA GCATCTGACT 
TTGCAGCAGC AAGTCCACAA GCACGAATCA ACAATCGTTG GTGACTTTGA TCCAGAAAGA 
AAAGTGGAAG GTGAAATCTT CAAATTGGAG ATGCTGCTTG AAGATGTTAA AGAGAAAATG 
GATGAAAGCA AATATACTTC AGCTCCTTCC CTTCCTGTGA GTTCTCCAGT TACCCTGGAT 
GACTTGGCCT CCACCTTCTC TTCACTCTCA AATGAGATTC CCAAGGAGCA CCCCGGCCAC 
CCTTCTGGGC CTCGAGGCTC AGGTGGGAGT GAGGTAACAG GGACACCCCA AGGAGGGCCG 
CAGGAGGCCC CCAACGAGGA GCTCTGTGAG CTGGCCCCGC AGACTTACCT AAACGGTCAT 
TATGGAGATG CAGCTGCCCA GAACAAGCCA GACCAAGTGG CCATGAGGCT GTCTTCTAAC 
TCTGGGGAGG ATCCCAACGG CACTCCAAGA AGGCAGGATT GTGCAGAGAT GACGGCACCC 
AGTCCGAGCT GTGCCTTCTG TCGCAGGCTC CTTGAATGGA AGCAAAACGT GGAGAAAAAG 
GGCCACGGAA GGATCAACTG TGGAAGATTT TCAATTGTCC TTCATGAAAA GGCACCACAC 
TCAGATTCAA CTCCCAATTC TGATACAGGA CACAGCTTCT GTTCTGATTC TGGCACTGAA 
ATGCAGAGTA ACAAATGTCA GGACTGTGGC ACTAAGATTC CTACCTCCCG AAGAGCCTGC 
AGGAAAGAAC CAACTAAAGA ATTTCATTAT AGATACAACA CTCCAGGACA GAATTACTCA 
AATCATAGCA AAAGAGGTGC CTTTGTCCAG CCCCATTCTT TAGATGAAAG TAAAAACTCT 
TCACCCTCTT TTTTAAAACC CAAACGGATC TGTTCTCAGA GAGTGAATTC AAAATCCTTT 
AAAGGTGAAC ATGAGCCCAC ACCAGGAAAA AAAAAACTTC AGGCTTTCAT GACCTACAGC 
TCAGACCCTG CAACACCCTC ACCCCATTTC TACTCCTGCA GGATTTCTGG AAGCAAATCC 
TTATGTGACT TTGATAGCAC TGAAGAAATA AAATCTGAGA TTTTAAACTC GGCTTTGGAT 
CATGCCCTAA GGACAGCAAC CATTTTGAAA GAAACTACAG ATCAAATGAT TAAAACGATT 
GCAGAAGACC TTGCTAAAGC ACAGAGGTGG AGGAATCGAC TGAAATACTA G

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

PubMed

CNV Analysis Associates AKNAD1 with Type-2 Diabetes in Jordan Subpopulations.
Scientific reports513391(2015 Aug)
Dajani R,Li J,Wei Z,Glessner JT,Chang X,Cardinale CJ,Pellegrino R,Wang T,Hakooz N,Khader Y,Sheshani A,Zandaki D,Hakonarson H

Genome-wide association study of chemotherapeutic agent-induced severe neutropenia/leucopenia for patients in Biobank Japan.
Cancer science104(8)1074-82(2013 Aug)
Low SK,Chung S,Takahashi A,Zembutsu H,Mushiroda T,Kubo M,Nakamura Y

Genes linked to energy metabolism and immunoregulatory mechanisms are associated with subcutaneous adipose tissue distribution in HIV-infected men.
Pharmacogenetics and genomics21(12)798-807(2011 Dec)
Irvin MR,Shrestha S,Chen YD,Wiener HW,Haritunians T,Vaughan LK,Tiwari HK,Taylor KD,Scherzer R,Saag MS,Grunfeld C,Rotter JI,Arnett DK

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AKNAD1 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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