NBPF12 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	NBPF12
Entrez Gene ID	149013
Full Name	NBPF member 12
Synonyms	COAS1,KIAA1245
General protein information	Preferred Names NBPF member 12 Names neuroblastoma breakpoint family member 12 chomosome one amplified sequence 1 cyclophilin chromosome 1 amplified sequence 1
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 1 Map Location: 1q21.1
Summary	This gene is a member of the neuroblastoma breakpoint family (NBPF) which consists of dozens of recently duplicated genes primarily located in segmental duplications on human chromosome 1. This gene family has experienced its greatest expansion within the human lineage and has expanded, to a lesser extent, among primates in general. Members of this gene family are characterized by tandemly repeated copies of DUF1220 protein domains. Gene copy number variations in the human chromosomal region 1q21.1, where most DUF1220 domains are located, have been implicated in a number of developmental and neurogenetic diseases such as microcephaly, macrocephaly, autism, schizophrenia, cognitive disability, congenital heart disease, neuroblastoma, and congenital kidney and urinary tract anomalies. Altered expression of some gene family members is associated with several types of cancer. This gene family contains numerous pseudogenes. [provided by RefSeq, May 2013].
Disorder MIM:	608607

mRNA and Protein(s)

mRNA	Protein	Name
XM_024453443.1	XP_024309211.1	neuroblastoma breakpoint family member 12 isoform X1
NM_001278141.1	NP_001265070.1	neuroblastoma breakpoint family member 12

Pathways from BioSystems

Homologies

Homo sapiens (human)	NBPF11	NP_899228.4
Homo sapiens (human)	LOC102724250	XP_006724955.1
Homo sapiens (human)	NBPF14	NP_056198.2
Homo sapiens (human)	NBPF10	NP_001034792.4
Homo sapiens (human)	NBPF20	NP_001265196.1
Homo sapiens (human)	NBPF12	NP_001265070.1
Homo sapiens (human)	NBPF9	NP_001032764.2
Homo sapiens (human)	NBPF26	XP_005277561.1
Homo sapiens (human)	NBPF15	NP_001164226.1
Homo sapiens (human)	NBPF19	XP_005277530.1
Pan troglodytes (chimpanzee)	LOC458021	XP_003954190.1
Homo sapiens (human)	NBPF8	NP_001032590.2
Homo sapiens (human)	NBPF1	NP_060410.2

Gene Ontology
Bibliography

Related articles in PubMed

Evolutionary history and genome organization of DUF1220 protein domains.
O'Bleness MS, Dickens CM, Dumas LJ, Kehrer-Sawatzki H, Wyckoff GJ, Sikela JM
G3 (Bethesda, Md.)2(9)977-86(2012 Sep)

A novel gene family NBPF: intricate structure generated by gene duplications during primate evolution.
Vandepoele K, Van Roy N, Staes K, Speleman F, van Roy F
Molecular biology and evolution22(11)2265-74(2005 Nov)

Positional cloning identifies a novel cyclophilin as a candidate amplified oncogene in 1q21.
Meza-Zepeda LA, Forus A, Lygren B, Dahlberg AB, Godager LH, South AP, Marenholz I, Lioumi M, Fl?renes VA, Maelandsmo GM, Serra M, Mischke D, Nizetic D, Ragoussis J, Tarkkanen M, Nesland JM, Knuutila S, Myklebost O
Oncogene21(14)2261-9(2002 Mar)

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

Positional cloning identifies a novel cyclophilin as a candidate amplified oncogene in 1q21; (COAS1, COAS2, COAS3)
Title: Positional cloning identifies a novel cyclophilin as a candidate amplified oncogene in 1q21.

The following NBPF12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NBPF12 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
OHu103601	XM_024453443.1 Latest version!	Homo sapiens NBPF member 12 (NBPF12), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OHu05341	NM_001278141.1 Latest version!	Homo sapiens NBPF member 12 (NBPF12), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$727.30 $1039.00

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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)

NBPF12 ( XM_024453443.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_024309211.1 Homo sapiens NBPF member 12 (NBPF12), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu103601
Clone ID Related Accession (Same CDS sequence)	XM_024453443.1
Accession Version	XM_024453443.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3561bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	neuroblastoma breakpoint family member 12 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000001.11) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGTGGTAT CAGCCGGCCC TTTGTCCAGC GAGAAGGCAG AGATGAACAT TCTAGAAATC 
AATGAGAAGT TGCGCCCCCA GCTGGCAGAG AAGAAACAGC AGTTCAGAAG CCTCAAAGAG 
AAATGTTTTG TAACTCAACT GGCCGGCTTC CTGGCCAAGC AGCAGAACAA ATACAAATAT 
GAAGAGTGCA AAGACCTCAT AAAATCTATG CTGAGGAATG AGCTACAGTT CAAGGAGGAG 
AAGCTTGCAG AGCAGCTGAA GCAAGCTGAG GAGCTCAGGC AATATAAAGT CCTGGTTCAC 
TCTCAGGAAC GAGAGCTGAC CCAGTTAAGG GAGAAGTTAC GGGAAGGGAG AGATGCCTCC 
CGCTCATTGA ATGAGCATCT CCAGGCCCTC CTCACTCCGG ATGAGCCGGA CAAGTCCCAG 
GGGCAGGACC TCCAAGAACA GCTGGCTGAG GGGTGTAGAC TGGCACAGCA CCTTGTCCAA 
AAGCTCAGCC CAGAAAATGA TGAAGATGAG GATGAAGATG TTCAAGTTGA GGAGGATGAG 
AAAGTGCTGG AATCATCTTC CCCCAGGGAG ATGCAGAAGG CTGAAGAAAG CAAAGTCCCT 
GAGGACTCAC TGGAGGAATG TGCCATCACT TGTTCAAATA GCCACGGCCC TTGTGACTCC 
AACCAGCCTC ACAAGAACAT CAAAATCACA TTTGAGGAAG ACAAAGTCAA CTCATCTCTG 
GTTGTAGACA GAGAATCCTC TCATGATGAA TGTCAGGATG CTCTAAACAT TCTCCCAGTC 
CCTGGCCCCA CCTCTTCTGC CACAAACGTC AGCATGGTGG TATCAGCCGG CCCTTTGTCC 
AGCGAGAAGG CAGAGATGAA CATTCTAGAA ATCAATGAGA AGTTGCGCCC CCAGCTGGCA 
GAGAAGAAAC AGCAGTTCAG AAGCCTCAAA GAGAAATGTT TTGTAACTCA AGTGGCCTGC 
TTCCTGGCCA AGCAGCAGAA CAAATACAAA TATGAAGAGT GCAAAGACCT CCTAAAATCT 
ATGCTGAGGA ATGAGCTACA GTTCAAGGAG GAGAAGCTTG CAGAGCAGCT GAAGCAAGCT 
GAGGAGCTCA GGCAATATAA AGTCCTGGTT CACTCTCAGG AACGAGAGCT GACCCAGTTA 
AGGGAGAAGT TACGGGAAGG GAGAGATGCC TCCCGCTCAT TGAATGAGCA TCTCCAGGCC 
CTCCTCACTC CGGATGAGCC GGACAAGTCC CAGGGGCAGG ACCTCCAAGA ACAGCTGGCT 
GAGGGGTGTA GACTGGCACA ACACCTTGTC CAAAAGCTCA GCCCAGAAAA TGATAACGAT 
GACGATGAAG ATGTTCAAGT TGAGGTGGCT GAGAAAGTGC AGAAATCGTC TTCCCCCAGG 
GAGATGCAGA AGGCTGAAGA AAAGGAAGTC CCTGAGGACT CACTGGAGGA GTGTGCCATC 
ACTTGTTCAA ATAGCCATGG CCCTTATGAC TCCAACCAGC CACATAGGAA AACCAAAATC 
ACATTTGAGG AAGACAAAGT CGACTCAACT CTCATTGGCT CATCCTCTCA TGTTGAATGG 
GAGGATGCTG TACACATTAT CCCAGAAAAT GAAAGTGATG ATGAGGAAGA GGAAGAAAAA 
GGGCCAGTGT CTCCCAGGAA TCTGCAGGAG TCTGAAGAGG AGGAAGTCCC CCAGGAGTCC 
TGGGATGAAG GTTATTCGAC TCTCTCAATT CCTCCTGAAA GGTTGGCCTC ATACCAGTCT 
TACAGCAGCA CATTTCACTC ATTAGAGGAA CAGCAAGTCT GCATGGCTGT TGACATAGGC 
AGACATCGGT GGGATCAAGT GAAAAAGGAG GACCAAGAGG CAACAGGTCC CAGGCTCAGC 
AGGGAGCTGC TGGCTGAGAA AGAGCCTGAA GTCTTGCAGG ACTCACTGGA TAGATGTTAT 
TCAACTCCTT CAGTTTATCT TGGACTGACT GACTCATGCC AGCCCTACAG AAGTGCCTTT 
TACGTATTGG AGCAACAGCG TGTTGGCTTG GCTGTTGACA TGGATGAAAT TGAAAAGTAC 
CAAGAAGTGG AAGAAGACCA AGACCCATCA TGCCCCAGGC TCAGCAGGGA GCTGCTGGCT 
GAGAAAGAGC CTGAAGTCTT GCAGGACTCA CTGGATAGAT GTTATTCGAC TCCTTCAGGT 
TATCTTGAAC TGCCTGACTT AGGCCAGCCC TACAGAAGTG CTGTTTACTC ATTGGAGGAA 
CAGTACCTTG GCTTGGCTCT TGACGTGGAC AGAATTAAAA AGGACCAAGA AGAGGAAGAA 
GACCAAGGCC CACCATGCCC CAGGCTCAGC AGGGAGCTGC TGGAGGTAGT AGAGCCTGAA 
GTCTTGCAGG ACTCACTGGA TAGATGTTAT TCAACTCCTT CCAGTTGTCT TGAACAGCCT 
GACTCCTGCC AGCCCTACAG AAGTTCCTTT TATGCATTGG AGGAAAAACA TGTTGGCTTT 
TCTCTTGACG TGGGAGAAAT TGAAAAGAAG GGGAAGGGGA AGAAAAGAAG GGGAAGAAGA 
TCAAAGAAGA AAAGAAGAAG GGGAAGAAAA GAAGGGGAAG AAGATCAAAA CCCACCATGC 
CCCAGGCTCA GCAGGGAGCT GCTGGCTGAG AAAGAGCCTG AAGTCTTGCA GGACTCACTG 
GATAGATGGT ATTCGACTCC TTCAGTTTAT CTTGGACTGA CTGACCCATG CCAGCCCTAC 
AGAAGTGCCT TTTACGTATT GGAGCAACAG CGTGTTGGCT TGGCTGTTGA CATGGATGAA 
ATTGAAAAGT ACCAAGAAGT GGAAGAAGAC CAAGACCCAT CATGCCCCAG GCTCAGCAGG 
GAGCTGCTGG CTGAGAAAGA GCCTGAAGTC TTGCAGGACT CACTGGATAG ATGTTATTCG 
ACTCCTTCAG GTTATCTTGA ACTGCCTGAC TTAGGCCAGC CCTACAGAAG TGCTGTTTAC 
TCATTGGAGG AACAGTACCT TGGCTTGGCT CTTGACGTGG ACAGAATTAA AAAGGACCAA 
GAAGAGGAAG AAGACCAAGG CCCACCATGC CCCAGGCTCA GCAGGGAGCT GCTGGAGGTA 
GTAGAGCCTG AAGTCTTGCA GGACTCACTG GATAGATGTT ATTCAACTCC TTCCAGTTGT 
CTTGAACAGC CTGACTCCTG CCAGCCCTAC AGAAGTTCCT TTTATGCATT GGAGGAAAAA 
CATGTTGGCT TTTCTCTTGA CGTGGGAGAA ATTGAAAAGA AGGGGAAGGG GAAGAAAAGA 
AGGGGAAGAA GATCAAAGAA GAAAAGAAGA AGGGGAAGAA AAGAAGGGGA AGAAGATCAA 
AACCCACCAT GCCCCAGGCT CAACAGCGTG CTGATGGAAG TGGAAGAGCC TGAAGTCTTG 
CAGGACTCAC TGGATAGATG TTATTCGACT CCATCAATGT ACTTTGAACT ACCTGACTCA 
TTCCAGCACT ACAGAAGTGT GTTTTACTCA TTTGAGGAAC AGCACATCAC CTTTGCCCTT 
GACATGGACA ATAGCTTTTT TACTTTGACG GTGACAAGTC TCCACCTGGT CTTCCAGATG 
GGAGTCATAT TCCCACAATA A

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

RefSeq	XP_024309211.1
CDS	330..3890
Translation	MVVSAGPLSSEKAEMNILEINEKLRPQLAEKKQQFRSLKEKCFVTQLAGFLAKQQNKYKYEECKDLIKSMLRNELQFKEEKLAEQLKQAEELRQYKVLVHSQERELTQLREKLREGRDASRSLNEHLQALLTPDEPDKSQGQDLQEQLAEGCRLAQHLVQKLSPENDEDEDEDVQVEEDEKVLESSSPREMQKAEESKVPEDSLEECAITCSNSHGPCDSNQPHKNIKITFEEDKVNSSLVVDRESSHDECQDALNILPVPGPTSSATNVSMVVSAGPLSSEKAEMNILEINEKLRPQLAEKKQQFRSLKEKCFVTQVACFLAKQQNKYKYEECKDLLKSMLRNELQFKEEKLAEQLKQAEELRQYKVLVHSQERELTQLREKLREGRDASRSLNEHLQALLTPDEPDKSQGQDLQEQLAEGCRLAQHLVQKLSPENDNDDDEDVQVEVAEKVQKSSSPREMQKAEEKEVPEDSLEECAITCSNSHGPYDSNQPHRKTKITFEEDKVDSTLIGSSSHVEWEDAVHIIPENESDDEEEEEKGPVSPRNLQESEEEEVPQESWDEGYSTLSIPPERLASYQSYSSTFHSLEEQQVCMAVDIGRHRWDQVKKEDQEATGPRLSRELLAEKEPEVLQDSLDRCYSTPSVYLGLTDSCQPYRSAFYVLEQQRVGLAVDMDEIEKYQEVEEDQDPSCPRLSRELLAEKEPEVLQDSLDRCYSTPSGYLELPDLGQPYRSAVYSLEEQYLGLALDVDRIKKDQEEEEDQGPPCPRLSRELLEVVEPEVLQDSLDRCYSTPSSCLEQPDSCQPYRSSFYALEEKHVGFSLDVGEIEKKGKGKKRRGRRSKKKRRRGRKEGEEDQNPPCPRLSRELLAEKEPEVLQDSLDRWYSTPSVYLGLTDPCQPYRSAFYVLEQQRVGLAVDMDEIEKYQEVEEDQDPSCPRLSRELLAEKEPEVLQDSLDRCYSTPSGYLELPDLGQPYRSAVYSLEEQYLGLALDVDRIKKDQEEEEDQGPPCPRLSRELLEVVEPEVLQDSLDRCYSTPSSCLEQPDSCQPYRSSFYALEEKHVGFSLDVGEIEKKGKGKKRRGRRSKKKRRRGRKEGEEDQNPPCPRLNSVLMEVEEPEVLQDSLDRCYSTPSMYFELPDSFQHYRSVFYSFEEQHITFALDMDNSFFTLTVTSLHLVFQMGVIFPQ

Target ORF information:

RefSeq Version	XM_024453443.1
Organism	Homo sapiens(human)
Definition	Homo sapiens NBPF member 12 (NBPF12), transcript variant X1, mRNA.

Target ORF information:

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

XM_024453443.1

ORF Insert Sequence:

ATGGTGGTAT CAGCCGGCCC TTTGTCCAGC GAGAAGGCAG AGATGAACAT TCTAGAAATC 
AATGAGAAGT TGCGCCCCCA GCTGGCAGAG AAGAAACAGC AGTTCAGAAG CCTCAAAGAG 
AAATGTTTTG TAACTCAACT GGCCGGCTTC CTGGCCAAGC AGCAGAACAA ATACAAATAT 
GAAGAGTGCA AAGACCTCAT AAAATCTATG CTGAGGAATG AGCTACAGTT CAAGGAGGAG 
AAGCTTGCAG AGCAGCTGAA GCAAGCTGAG GAGCTCAGGC AATATAAAGT CCTGGTTCAC 
TCTCAGGAAC GAGAGCTGAC CCAGTTAAGG GAGAAGTTAC GGGAAGGGAG AGATGCCTCC 
CGCTCATTGA ATGAGCATCT CCAGGCCCTC CTCACTCCGG ATGAGCCGGA CAAGTCCCAG 
GGGCAGGACC TCCAAGAACA GCTGGCTGAG GGGTGTAGAC TGGCACAGCA CCTTGTCCAA 
AAGCTCAGCC CAGAAAATGA TGAAGATGAG GATGAAGATG TTCAAGTTGA GGAGGATGAG 
AAAGTGCTGG AATCATCTTC CCCCAGGGAG ATGCAGAAGG CTGAAGAAAG CAAAGTCCCT 
GAGGACTCAC TGGAGGAATG TGCCATCACT TGTTCAAATA GCCACGGCCC TTGTGACTCC 
AACCAGCCTC ACAAGAACAT CAAAATCACA TTTGAGGAAG ACAAAGTCAA CTCATCTCTG 
GTTGTAGACA GAGAATCCTC TCATGATGAA TGTCAGGATG CTCTAAACAT TCTCCCAGTC 
CCTGGCCCCA CCTCTTCTGC CACAAACGTC AGCATGGTGG TATCAGCCGG CCCTTTGTCC 
AGCGAGAAGG CAGAGATGAA CATTCTAGAA ATCAATGAGA AGTTGCGCCC CCAGCTGGCA 
GAGAAGAAAC AGCAGTTCAG AAGCCTCAAA GAGAAATGTT TTGTAACTCA AGTGGCCTGC 
TTCCTGGCCA AGCAGCAGAA CAAATACAAA TATGAAGAGT GCAAAGACCT CCTAAAATCT 
ATGCTGAGGA ATGAGCTACA GTTCAAGGAG GAGAAGCTTG CAGAGCAGCT GAAGCAAGCT 
GAGGAGCTCA GGCAATATAA AGTCCTGGTT CACTCTCAGG AACGAGAGCT GACCCAGTTA 
AGGGAGAAGT TACGGGAAGG GAGAGATGCC TCCCGCTCAT TGAATGAGCA TCTCCAGGCC 
CTCCTCACTC CGGATGAGCC GGACAAGTCC CAGGGGCAGG ACCTCCAAGA ACAGCTGGCT 
GAGGGGTGTA GACTGGCACA ACACCTTGTC CAAAAGCTCA GCCCAGAAAA TGATAACGAT 
GACGATGAAG ATGTTCAAGT TGAGGTGGCT GAGAAAGTGC AGAAATCGTC TTCCCCCAGG 
GAGATGCAGA AGGCTGAAGA AAAGGAAGTC CCTGAGGACT CACTGGAGGA GTGTGCCATC 
ACTTGTTCAA ATAGCCATGG CCCTTATGAC TCCAACCAGC CACATAGGAA AACCAAAATC 
ACATTTGAGG AAGACAAAGT CGACTCAACT CTCATTGGCT CATCCTCTCA TGTTGAATGG 
GAGGATGCTG TACACATTAT CCCAGAAAAT GAAAGTGATG ATGAGGAAGA GGAAGAAAAA 
GGGCCAGTGT CTCCCAGGAA TCTGCAGGAG TCTGAAGAGG AGGAAGTCCC CCAGGAGTCC 
TGGGATGAAG GTTATTCGAC TCTCTCAATT CCTCCTGAAA GGTTGGCCTC ATACCAGTCT 
TACAGCAGCA CATTTCACTC ATTAGAGGAA CAGCAAGTCT GCATGGCTGT TGACATAGGC 
AGACATCGGT GGGATCAAGT GAAAAAGGAG GACCAAGAGG CAACAGGTCC CAGGCTCAGC 
AGGGAGCTGC TGGCTGAGAA AGAGCCTGAA GTCTTGCAGG ACTCACTGGA TAGATGTTAT 
TCAACTCCTT CAGTTTATCT TGGACTGACT GACTCATGCC AGCCCTACAG AAGTGCCTTT 
TACGTATTGG AGCAACAGCG TGTTGGCTTG GCTGTTGACA TGGATGAAAT TGAAAAGTAC 
CAAGAAGTGG AAGAAGACCA AGACCCATCA TGCCCCAGGC TCAGCAGGGA GCTGCTGGCT 
GAGAAAGAGC CTGAAGTCTT GCAGGACTCA CTGGATAGAT GTTATTCGAC TCCTTCAGGT 
TATCTTGAAC TGCCTGACTT AGGCCAGCCC TACAGAAGTG CTGTTTACTC ATTGGAGGAA 
CAGTACCTTG GCTTGGCTCT TGACGTGGAC AGAATTAAAA AGGACCAAGA AGAGGAAGAA 
GACCAAGGCC CACCATGCCC CAGGCTCAGC AGGGAGCTGC TGGAGGTAGT AGAGCCTGAA 
GTCTTGCAGG ACTCACTGGA TAGATGTTAT TCAACTCCTT CCAGTTGTCT TGAACAGCCT 
GACTCCTGCC AGCCCTACAG AAGTTCCTTT TATGCATTGG AGGAAAAACA TGTTGGCTTT 
TCTCTTGACG TGGGAGAAAT TGAAAAGAAG GGGAAGGGGA AGAAAAGAAG GGGAAGAAGA 
TCAAAGAAGA AAAGAAGAAG GGGAAGAAAA GAAGGGGAAG AAGATCAAAA CCCACCATGC 
CCCAGGCTCA GCAGGGAGCT GCTGGCTGAG AAAGAGCCTG AAGTCTTGCA GGACTCACTG 
GATAGATGGT ATTCGACTCC TTCAGTTTAT CTTGGACTGA CTGACCCATG CCAGCCCTAC 
AGAAGTGCCT TTTACGTATT GGAGCAACAG CGTGTTGGCT TGGCTGTTGA CATGGATGAA 
ATTGAAAAGT ACCAAGAAGT GGAAGAAGAC CAAGACCCAT CATGCCCCAG GCTCAGCAGG 
GAGCTGCTGG CTGAGAAAGA GCCTGAAGTC TTGCAGGACT CACTGGATAG ATGTTATTCG 
ACTCCTTCAG GTTATCTTGA ACTGCCTGAC TTAGGCCAGC CCTACAGAAG TGCTGTTTAC 
TCATTGGAGG AACAGTACCT TGGCTTGGCT CTTGACGTGG ACAGAATTAA AAAGGACCAA 
GAAGAGGAAG AAGACCAAGG CCCACCATGC CCCAGGCTCA GCAGGGAGCT GCTGGAGGTA 
GTAGAGCCTG AAGTCTTGCA GGACTCACTG GATAGATGTT ATTCAACTCC TTCCAGTTGT 
CTTGAACAGC CTGACTCCTG CCAGCCCTAC AGAAGTTCCT TTTATGCATT GGAGGAAAAA 
CATGTTGGCT TTTCTCTTGA CGTGGGAGAA ATTGAAAAGA AGGGGAAGGG GAAGAAAAGA 
AGGGGAAGAA GATCAAAGAA GAAAAGAAGA AGGGGAAGAA AAGAAGGGGA AGAAGATCAA 
AACCCACCAT GCCCCAGGCT CAACAGCGTG CTGATGGAAG TGGAAGAGCC TGAAGTCTTG 
CAGGACTCAC TGGATAGATG TTATTCGACT CCATCAATGT ACTTTGAACT ACCTGACTCA 
TTCCAGCACT ACAGAAGTGT GTTTTACTCA TTTGAGGAAC AGCACATCAC CTTTGCCCTT 
GACATGGACA ATAGCTTTTT TACTTTGACG GTGACAAGTC TCCACCTGGT CTTCCAGATG 
GGAGTCATAT TCCCACAATA A

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

NBPF12 ( NM_001278141.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265070.1 Homo sapiens NBPF member 12 (NBPF12), mRNA.

Price & Availability↑

CloneID	OHu05341
Clone ID Related Accession (Same CDS sequence)	NM_001278141.1
Accession Version	NM_001278141.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4374bp) 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	2019-04-30
Organism	Homo sapiens(human)
Product	neuroblastoma breakpoint family member 12
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC244394.3. On or before May 12, 2013 this sequence version replaced XM_003960219.1, XM_003960220.1, XM_003960221.1, XM_003960222.1, XM_003960223.1, XM_003960224.1, XM_003960225.1, XM_003960226.1, XM_003960227.1, XM_003960049.1, XM_003960050.1, XM_003960051.1, XM_003960052.1, XM_003119146.4, XM_003960053.1, XM_003960054.1, XM_003960055.1, XM_003960056.1, XM_003960057.1, XM_003846733.2, XM_003960194.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: PMID: 22973535 RefSeq Select criteria :: based on expression, longest protein ##RefSeq-Attributes-END##

ATGGTGGTAT CAGCCGGCCC TTGGTCCAGC GAGAAGGCAG AGATGAACAT TCTAGAAATC 
AACGAGAAAT TGCGCCCCCA GTTGGCAGAG AACAAACAGC AGTTCAGAAA CCTCAAAGAG 
AGATGTTTTC TAACTCAACT GGCCGGCTTC CTGGCCAACC GACAGAAGAA ATACAAGTAT 
GAAGAGTGTA AAGACCTCAT AAAATTTATG CTGAGGAATG AGCGACAGTT CAAGGAGGAG 
AAGCTTGCAG AGCAGCTGAA ACAAGCTGAG GAGCTCAGGC AATATAAAGT CCTGGTTCAC 
TCTCAGGAAC GAGAGCTGAC CCAGTTAAGG GAGAAGTTAC GGGAAGGGAG AGATGCCTCC 
CGCTCATTGA ATGAGCATCT CCAGGCCCTC CTCACTCCGG ATGAGCCGGA CAAGTCCCAG 
GGGCAGGACC TCCAAGAACA GCTGGCTGAG GGGTGTAGAC TGGCACAGCA ACTTGTCCAA 
AAGCTCAGCC CAGAAAATGA TGAAGATGAG GATGAAGATG TTCAAGTTGA GGAGGATGAG 
AAAGTACTGG AATCATCTGC CCCCAGGGAG GTGCAGAAGG CTGAAGAGAG CAAAGTCCCT 
GAGGACTCAC TGGAGGAATG TGCCATCACT TGTTCAAATA GCCACGGCCC TTGTGACTCC 
ATCCAGCCTC ACAAGAACAT CAAAATCACA TTTGAGGAAG ACAAAGTCAA CTCAACTGTG 
GTTGTAGACA GAAAATCCTC TCATGATGAA TGTCAGGATG CTCTAAACAT TCTCCCAGTC 
CCTGGCCCCA CCTCTTCTGC CACAAACGTC AGCATGGTGG TATCAGCCGG CCCTTTGTCC 
AGCGAGAAGG CAGAGATGAA CATTCTAGAA ATCAATGAGA AGTTGCGCCC CCAGCTGGCA 
GAGAAGAAAC AGCAGTTCAG AAGCCTCAAA GAGAAATGTT TTGTAACTCA ACTGGCCGGC 
TTCCTGGCCA AGCAGCAGAA CAAATACAAA TATGAAGAGT GCAAAGACCT CATAAAATCT 
ATGCTGAGGA ATGAGCTACA GTTCAAGGAG GAGAAGCTTG CAGAGCAGCT GAAGCAAGCT 
GAGGAGCTCA GGCAATATAA AGTCCTGGTT CACTCTCAGG AACGAGAGCT GACCCAGTTA 
AGGGAGAAGT TACGGGAAGG GAGAGATGCC TCCCGCTCAT TGAATGAGCA TCTCCAGGCC 
CTCCTCACTC CGGATGAGCC GGACAAGTCC CAGGGGCAGG ACCTCCAAGA ACAGCTGGCT 
GAGGGGTGTA GACTGGCACA GCACCTTGTC CAAAAGCTCA GCCCAGAAAA TGATGAAGAT 
GAGGATGAAG ATGTTCAAGT TGAGGAGGAT GAGAAAGTGC TGGAATCATC TTCCCCCAGG 
GAGATGCAGA AGGCTGAAGA AAGCAAAGTC CCTGAGGACT CACTGGAGGA ATGTGCCATC 
ACTTGTTCAA ATAGCCACGG CCCTTGTGAC TCCAACCAGC CTCACAAGAA CATCAAAATC 
ACATTTGAGG AAGACAAAGT CAACTCATCT CTGGTTGTAG ACAGAGAATC CTCTCATGAT 
GAATGTCAGG ATGCTCTAAA CATTCTCCCA GTCCCTGGCC CCACCTCTTC TGCCACAAAC 
GTCAGCATGG TGGTATCAGC CGGCCCTTTG TCCAGCGAGA AGGCAGAGAT GAACATTCTA 
GAAATCAATG AGAAGTTGCG CCCCCAGCTG GCAGAGAAGA AACAGCAGTT CAGAAGCCTC 
AAAGAGAAAT GTTTTGTAAC TCAAGTGGCC TGCTTCCTGG CCAAGCAGCA GAACAAATAC 
AAATATGAAG AGTGCAAAGA CCTCCTAAAA TCTATGCTGA GGAATGAGCT ACAGTTCAAG 
GAGGAGAAGC TTGCAGAGCA GCTGAAGCAA GCTGAGGAGC TCAGGCAATA TAAAGTCCTG 
GTTCACTCTC AGGAACGAGA GCTGACCCAG TTAAGGGAGA AGTTACGGGA AGGGAGAGAT 
GCCTCCCGCT CATTGAATGA GCATCTCCAG GCCCTCCTCA CTCCGGATGA GCCGGACAAG 
TCCCAGGGGC AGGACCTCCA AGAACAGCTG GCTGAGGGGT GTAGACTGGC ACAACACCTT 
GTCCAAAAGC TCAGCCCAGA AAATGATAAC GATGACGATG AAGATGTTCA AGTTGAGGTG 
GCTGAGAAAG TGCAGAAATC GTCTTCCCCC AGGGAGATGC AGAAGGCTGA AGAAAAGGAA 
GTCCCTGAGG ACTCACTGGA GGAGTGTGCC ATCACTTGTT CAAATAGCCA TGGCCCTTAT 
GACTCCAACC AGCCACATAG GAAAACCAAA ATCACATTTG AGGAAGACAA AGTCGACTCA 
ACTCTCATTG GCTCATCCTC TCATGTTGAA TGGGAGGATG CTGTACACAT TATCCCAGAA 
AATGAAAGTG ATGATGAGGA AGAGGAAGAA AAAGGGCCAG TGTCTCCCAG GAATCTGCAG 
GAGTCTGAAG AGGAGGAAGT CCCCCAGGAG TCCTGGGATG AAGGTTATTC GACTCTCTCA 
ATTCCTCCTG AAAGGTTGGC CTCATACCAG TCTTACAGCA GCACATTTCA CTCATTAGAG 
GAACAGCAAG TCTGCATGGC TGTTGACATA GGCAGACATC GGTGGGATCA AGTGAAAAAG 
GAGGACCAAG AGGCAACAGG TCCCAGGCTC AGCAGGGAGC TGCTGGCTGA GAAAGAGCCT 
GAAGTCTTGC AGGACTCACT GGATAGATGT TATTCAACTC CTTCAGTTTA TCTTGGACTG 
ACTGACTCAT GCCAGCCCTA CAGAAGTGCC TTTTACGTAT TGGAGCAACA GCGTGTTGGC 
TTGGCTGTTG ACATGGATGA AATTGAAAAG TACCAAGAAG TGGAAGAAGA CCAAGACCCA 
TCATGCCCCA GGCTCAGCAG GGAGCTGCTG GCTGAGAAAG AGCCTGAAGT CTTGCAGGAC 
TCACTGGATA GATGTTATTC GACTCCTTCA GGTTATCTTG AACTGCCTGA CTTAGGCCAG 
CCCTACAGAA GTGCTGTTTA CTCATTGGAG GAACAGTACC TTGGCTTGGC TCTTGACGTG 
GACAGAATTA AAAAGGACCA AGAAGAGGAA GAAGACCAAG GCCCACCATG CCCCAGGCTC 
AGCAGGGAGC TGCTGGAGGT AGTAGAGCCT GAAGTCTTGC AGGACTCACT GGATAGATGT 
TATTCAACTC CTTCCAGTTG TCTTGAACAG CCTGACTCCT GCCAGCCCTA CAGAAGTTCC 
TTTTATGCAT TGGAGGAAAA ACATGTTGGC TTTTCTCTTG ACGTGGGAGA AATTGAAAAG 
AAGGGGAAGG GGAAGAAAAG AAGGGGAAGA AGATCAAAGA AGAAAAGAAG AAGGGGAAGA 
AAAGAAGGGG AAGAAGATCA AAACCCACCA TGCCCCAGGC TCAGCAGGGA GCTGCTGGCT 
GAGAAAGAGC CTGAAGTCTT GCAGGACTCA CTGGATAGAT GGTATTCGAC TCCTTCAGTT 
TATCTTGGAC TGACTGACCC ATGCCAGCCC TACAGAAGTG CCTTTTACGT ATTGGAGCAA 
CAGCGTGTTG GCTTGGCTGT TGACATGGAT GAAATTGAAA AGTACCAAGA AGTGGAAGAA 
GACCAAGACC CATCATGCCC CAGGCTCAGC AGGGAGCTGC TGGCTGAGAA AGAGCCTGAA 
GTCTTGCAGG ACTCACTGGA TAGATGTTAT TCGACTCCTT CAGGTTATCT TGAACTGCCT 
GACTTAGGCC AGCCCTACAG AAGTGCTGTT TACTCATTGG AGGAACAGTA CCTTGGCTTG 
GCTCTTGACG TGGACAGAAT TAAAAAGGAC CAAGAAGAGG AAGAAGACCA AGGCCCACCA 
TGCCCCAGGC TCAGCAGGGA GCTGCTGGAG GTAGTAGAGC CTGAAGTCTT GCAGGACTCA 
CTGGATAGAT GTTATTCAAC TCCTTCCAGT TGTCTTGAAC AGCCTGACTC CTGCCAGCCC 
TACAGAAGTT CCTTTTATGC ATTGGAGGAA AAACATGTTG GCTTTTCTCT TGACGTGGGA 
GAAATTGAAA AGAAGGGGAA GGGGAAGAAA AGAAGGGGAA GAAGATCAAA GAAGAAAAGA 
AGAAGGGGAA GAAAAGAAGG GGAAGAAGAT CAAAACCCAC CATGCCCCAG GCTCAACAGC 
GTGCTGATGG AAGTGGAAGA GCCTGAAGTC TTGCAGGACT CACTGGATAG ATGTTATTCG 
ACTCCATCAA TGTACTTTGA ACTACCTGAC TCATTCCAGC ACTACAGAAG TGTGTTTTAC 
TCATTTGAGG AACAGCACAT CACCTTTGCC CTTGACATGG ACAATAGCTT TTTTACTTTG 
ACGGTGACAA GTCTCCACCT GGTCTTCCAG ATGGGAGTCA TATTCCCACA ATAA

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

RefSeq	NP_001265070.1
CDS	1218..5591
Translation	MVVSAGPWSSEKAEMNILEINEKLRPQLAENKQQFRNLKERCFLTQLAGFLANRQKKYKYEECKDLIKFMLRNERQFKEEKLAEQLKQAEELRQYKVLVHSQERELTQLREKLREGRDASRSLNEHLQALLTPDEPDKSQGQDLQEQLAEGCRLAQQLVQKLSPENDEDEDEDVQVEEDEKVLESSAPREVQKAEESKVPEDSLEECAITCSNSHGPCDSIQPHKNIKITFEEDKVNSTVVVDRKSSHDECQDALNILPVPGPTSSATNVSMVVSAGPLSSEKAEMNILEINEKLRPQLAEKKQQFRSLKEKCFVTQLAGFLAKQQNKYKYEECKDLIKSMLRNELQFKEEKLAEQLKQAEELRQYKVLVHSQERELTQLREKLREGRDASRSLNEHLQALLTPDEPDKSQGQDLQEQLAEGCRLAQHLVQKLSPENDEDEDEDVQVEEDEKVLESSSPREMQKAEESKVPEDSLEECAITCSNSHGPCDSNQPHKNIKITFEEDKVNSSLVVDRESSHDECQDALNILPVPGPTSSATNVSMVVSAGPLSSEKAEMNILEINEKLRPQLAEKKQQFRSLKEKCFVTQVACFLAKQQNKYKYEECKDLLKSMLRNELQFKEEKLAEQLKQAEELRQYKVLVHSQERELTQLREKLREGRDASRSLNEHLQALLTPDEPDKSQGQDLQEQLAEGCRLAQHLVQKLSPENDNDDDEDVQVEVAEKVQKSSSPREMQKAEEKEVPEDSLEECAITCSNSHGPYDSNQPHRKTKITFEEDKVDSTLIGSSSHVEWEDAVHIIPENESDDEEEEEKGPVSPRNLQESEEEEVPQESWDEGYSTLSIPPERLASYQSYSSTFHSLEEQQVCMAVDIGRHRWDQVKKEDQEATGPRLSRELLAEKEPEVLQDSLDRCYSTPSVYLGLTDSCQPYRSAFYVLEQQRVGLAVDMDEIEKYQEVEEDQDPSCPRLSRELLAEKEPEVLQDSLDRCYSTPSGYLELPDLGQPYRSAVYSLEEQYLGLALDVDRIKKDQEEEEDQGPPCPRLSRELLEVVEPEVLQDSLDRCYSTPSSCLEQPDSCQPYRSSFYALEEKHVGFSLDVGEIEKKGKGKKRRGRRSKKKRRRGRKEGEEDQNPPCPRLSRELLAEKEPEVLQDSLDRWYSTPSVYLGLTDPCQPYRSAFYVLEQQRVGLAVDMDEIEKYQEVEEDQDPSCPRLSRELLAEKEPEVLQDSLDRCYSTPSGYLELPDLGQPYRSAVYSLEEQYLGLALDVDRIKKDQEEEEDQGPPCPRLSRELLEVVEPEVLQDSLDRCYSTPSSCLEQPDSCQPYRSSFYALEEKHVGFSLDVGEIEKKGKGKKRRGRRSKKKRRRGRKEGEEDQNPPCPRLNSVLMEVEEPEVLQDSLDRCYSTPSMYFELPDSFQHYRSVFYSFEEQHITFALDMDNSFFTLTVTSLHLVFQMGVIFPQ

Target ORF information:

RefSeq Version	NM_001278141.1
Organism	Homo sapiens(human)
Definition	Homo sapiens NBPF member 12 (NBPF12), mRNA.

Target ORF information:

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

NM_001278141.1

ORF Insert Sequence:

ATGGTGGTAT CAGCCGGCCC TTGGTCCAGC GAGAAGGCAG AGATGAACAT TCTAGAAATC 
AACGAGAAAT TGCGCCCCCA GTTGGCAGAG AACAAACAGC AGTTCAGAAA CCTCAAAGAG 
AGATGTTTTC TAACTCAACT GGCCGGCTTC CTGGCCAACC GACAGAAGAA ATACAAGTAT 
GAAGAGTGTA AAGACCTCAT AAAATTTATG CTGAGGAATG AGCGACAGTT CAAGGAGGAG 
AAGCTTGCAG AGCAGCTGAA ACAAGCTGAG GAGCTCAGGC AATATAAAGT CCTGGTTCAC 
TCTCAGGAAC GAGAGCTGAC CCAGTTAAGG GAGAAGTTAC GGGAAGGGAG AGATGCCTCC 
CGCTCATTGA ATGAGCATCT CCAGGCCCTC CTCACTCCGG ATGAGCCGGA CAAGTCCCAG 
GGGCAGGACC TCCAAGAACA GCTGGCTGAG GGGTGTAGAC TGGCACAGCA ACTTGTCCAA 
AAGCTCAGCC CAGAAAATGA TGAAGATGAG GATGAAGATG TTCAAGTTGA GGAGGATGAG 
AAAGTACTGG AATCATCTGC CCCCAGGGAG GTGCAGAAGG CTGAAGAGAG CAAAGTCCCT 
GAGGACTCAC TGGAGGAATG TGCCATCACT TGTTCAAATA GCCACGGCCC TTGTGACTCC 
ATCCAGCCTC ACAAGAACAT CAAAATCACA TTTGAGGAAG ACAAAGTCAA CTCAACTGTG 
GTTGTAGACA GAAAATCCTC TCATGATGAA TGTCAGGATG CTCTAAACAT TCTCCCAGTC 
CCTGGCCCCA CCTCTTCTGC CACAAACGTC AGCATGGTGG TATCAGCCGG CCCTTTGTCC 
AGCGAGAAGG CAGAGATGAA CATTCTAGAA ATCAATGAGA AGTTGCGCCC CCAGCTGGCA 
GAGAAGAAAC AGCAGTTCAG AAGCCTCAAA GAGAAATGTT TTGTAACTCA ACTGGCCGGC 
TTCCTGGCCA AGCAGCAGAA CAAATACAAA TATGAAGAGT GCAAAGACCT CATAAAATCT 
ATGCTGAGGA ATGAGCTACA GTTCAAGGAG GAGAAGCTTG CAGAGCAGCT GAAGCAAGCT 
GAGGAGCTCA GGCAATATAA AGTCCTGGTT CACTCTCAGG AACGAGAGCT GACCCAGTTA 
AGGGAGAAGT TACGGGAAGG GAGAGATGCC TCCCGCTCAT TGAATGAGCA TCTCCAGGCC 
CTCCTCACTC CGGATGAGCC GGACAAGTCC CAGGGGCAGG ACCTCCAAGA ACAGCTGGCT 
GAGGGGTGTA GACTGGCACA GCACCTTGTC CAAAAGCTCA GCCCAGAAAA TGATGAAGAT 
GAGGATGAAG ATGTTCAAGT TGAGGAGGAT GAGAAAGTGC TGGAATCATC TTCCCCCAGG 
GAGATGCAGA AGGCTGAAGA AAGCAAAGTC CCTGAGGACT CACTGGAGGA ATGTGCCATC 
ACTTGTTCAA ATAGCCACGG CCCTTGTGAC TCCAACCAGC CTCACAAGAA CATCAAAATC 
ACATTTGAGG AAGACAAAGT CAACTCATCT CTGGTTGTAG ACAGAGAATC CTCTCATGAT 
GAATGTCAGG ATGCTCTAAA CATTCTCCCA GTCCCTGGCC CCACCTCTTC TGCCACAAAC 
GTCAGCATGG TGGTATCAGC CGGCCCTTTG TCCAGCGAGA AGGCAGAGAT GAACATTCTA 
GAAATCAATG AGAAGTTGCG CCCCCAGCTG GCAGAGAAGA AACAGCAGTT CAGAAGCCTC 
AAAGAGAAAT GTTTTGTAAC TCAAGTGGCC TGCTTCCTGG CCAAGCAGCA GAACAAATAC 
AAATATGAAG AGTGCAAAGA CCTCCTAAAA TCTATGCTGA GGAATGAGCT ACAGTTCAAG 
GAGGAGAAGC TTGCAGAGCA GCTGAAGCAA GCTGAGGAGC TCAGGCAATA TAAAGTCCTG 
GTTCACTCTC AGGAACGAGA GCTGACCCAG TTAAGGGAGA AGTTACGGGA AGGGAGAGAT 
GCCTCCCGCT CATTGAATGA GCATCTCCAG GCCCTCCTCA CTCCGGATGA GCCGGACAAG 
TCCCAGGGGC AGGACCTCCA AGAACAGCTG GCTGAGGGGT GTAGACTGGC ACAACACCTT 
GTCCAAAAGC TCAGCCCAGA AAATGATAAC GATGACGATG AAGATGTTCA AGTTGAGGTG 
GCTGAGAAAG TGCAGAAATC GTCTTCCCCC AGGGAGATGC AGAAGGCTGA AGAAAAGGAA 
GTCCCTGAGG ACTCACTGGA GGAGTGTGCC ATCACTTGTT CAAATAGCCA TGGCCCTTAT 
GACTCCAACC AGCCACATAG GAAAACCAAA ATCACATTTG AGGAAGACAA AGTCGACTCA 
ACTCTCATTG GCTCATCCTC TCATGTTGAA TGGGAGGATG CTGTACACAT TATCCCAGAA 
AATGAAAGTG ATGATGAGGA AGAGGAAGAA AAAGGGCCAG TGTCTCCCAG GAATCTGCAG 
GAGTCTGAAG AGGAGGAAGT CCCCCAGGAG TCCTGGGATG AAGGTTATTC GACTCTCTCA 
ATTCCTCCTG AAAGGTTGGC CTCATACCAG TCTTACAGCA GCACATTTCA CTCATTAGAG 
GAACAGCAAG TCTGCATGGC TGTTGACATA GGCAGACATC GGTGGGATCA AGTGAAAAAG 
GAGGACCAAG AGGCAACAGG TCCCAGGCTC AGCAGGGAGC TGCTGGCTGA GAAAGAGCCT 
GAAGTCTTGC AGGACTCACT GGATAGATGT TATTCAACTC CTTCAGTTTA TCTTGGACTG 
ACTGACTCAT GCCAGCCCTA CAGAAGTGCC TTTTACGTAT TGGAGCAACA GCGTGTTGGC 
TTGGCTGTTG ACATGGATGA AATTGAAAAG TACCAAGAAG TGGAAGAAGA CCAAGACCCA 
TCATGCCCCA GGCTCAGCAG GGAGCTGCTG GCTGAGAAAG AGCCTGAAGT CTTGCAGGAC 
TCACTGGATA GATGTTATTC GACTCCTTCA GGTTATCTTG AACTGCCTGA CTTAGGCCAG 
CCCTACAGAA GTGCTGTTTA CTCATTGGAG GAACAGTACC TTGGCTTGGC TCTTGACGTG 
GACAGAATTA AAAAGGACCA AGAAGAGGAA GAAGACCAAG GCCCACCATG CCCCAGGCTC 
AGCAGGGAGC TGCTGGAGGT AGTAGAGCCT GAAGTCTTGC AGGACTCACT GGATAGATGT 
TATTCAACTC CTTCCAGTTG TCTTGAACAG CCTGACTCCT GCCAGCCCTA CAGAAGTTCC 
TTTTATGCAT TGGAGGAAAA ACATGTTGGC TTTTCTCTTG ACGTGGGAGA AATTGAAAAG 
AAGGGGAAGG GGAAGAAAAG AAGGGGAAGA AGATCAAAGA AGAAAAGAAG AAGGGGAAGA 
AAAGAAGGGG AAGAAGATCA AAACCCACCA TGCCCCAGGC TCAGCAGGGA GCTGCTGGCT 
GAGAAAGAGC CTGAAGTCTT GCAGGACTCA CTGGATAGAT GGTATTCGAC TCCTTCAGTT 
TATCTTGGAC TGACTGACCC ATGCCAGCCC TACAGAAGTG CCTTTTACGT ATTGGAGCAA 
CAGCGTGTTG GCTTGGCTGT TGACATGGAT GAAATTGAAA AGTACCAAGA AGTGGAAGAA 
GACCAAGACC CATCATGCCC CAGGCTCAGC AGGGAGCTGC TGGCTGAGAA AGAGCCTGAA 
GTCTTGCAGG ACTCACTGGA TAGATGTTAT TCGACTCCTT CAGGTTATCT TGAACTGCCT 
GACTTAGGCC AGCCCTACAG AAGTGCTGTT TACTCATTGG AGGAACAGTA CCTTGGCTTG 
GCTCTTGACG TGGACAGAAT TAAAAAGGAC CAAGAAGAGG AAGAAGACCA AGGCCCACCA 
TGCCCCAGGC TCAGCAGGGA GCTGCTGGAG GTAGTAGAGC CTGAAGTCTT GCAGGACTCA 
CTGGATAGAT GTTATTCAAC TCCTTCCAGT TGTCTTGAAC AGCCTGACTC CTGCCAGCCC 
TACAGAAGTT CCTTTTATGC ATTGGAGGAA AAACATGTTG GCTTTTCTCT TGACGTGGGA 
GAAATTGAAA AGAAGGGGAA GGGGAAGAAA AGAAGGGGAA GAAGATCAAA GAAGAAAAGA 
AGAAGGGGAA GAAAAGAAGG GGAAGAAGAT CAAAACCCAC CATGCCCCAG GCTCAACAGC 
GTGCTGATGG AAGTGGAAGA GCCTGAAGTC TTGCAGGACT CACTGGATAG ATGTTATTCG 
ACTCCATCAA TGTACTTTGA ACTACCTGAC TCATTCCAGC ACTACAGAAG TGTGTTTTAC 
TCATTTGAGG AACAGCACAT CACCTTTGCC CTTGACATGG ACAATAGCTT TTTTACTTTG 
ACGGTGACAA GTCTCCACCT GGTCTTCCAG ATGGGAGTCA TATTCCCACA ATAA

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

PubMed

Evolutionary history and genome organization of DUF1220 protein domains.
G3 (Bethesda, Md.)2(9)977-86(2012 Sep)
O'Bleness MS,Dickens CM,Dumas LJ,Kehrer-Sawatzki H,Wyckoff GJ,Sikela JM

A novel gene family NBPF: intricate structure generated by gene duplications during primate evolution.
Molecular biology and evolution22(11)2265-74(2005 Nov)
Vandepoele K,Van Roy N,Staes K,Speleman F,van Roy F

Positional cloning identifies a novel cyclophilin as a candidate amplified oncogene in 1q21.
Oncogene21(14)2261-9(2002 Mar)
Meza-Zepeda LA,Forus A,Lygren B,Dahlberg AB,Godager LH,South AP,Marenholz I,Lioumi M,Fl?renes VA,Maelandsmo GM,Serra M,Mischke D,Nizetic D,Ragoussis J,Tarkkanen M,Nesland JM,Knuutila S,Myklebost O

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NBPF12 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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