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XPO5 cDNA ORF clone, Homo sapiens (human)

Gene Symbol XPO5
Entrez Gene ID 57510
Full Name exportin 5
Synonyms exp5
General protein information
Preferred Names
exportin-5
Names
exportin-5
ran-binding protein 21
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

6

6p21.1

Summary This gene encodes a member of the karyopherin family that is required for the transport of small RNAs and double-stranded RNA-binding proteins from the nucleus to the cytoplasm. The encoded protein translocates cargo through the nuclear pore complex in a RanGTP-dependent process. [provided by RefSeq, Aug 2011]. lac of sum
Disorder MIM:

607845


mRNA and Protein(s)

mRNA Protein Name
NM_020750 NP_065801 exportin-5



Homo sapiens (human) XPO5 NP_065801.1
Pan troglodytes (chimpanzee) XPO5 XP_003311360.1
Macaca mulatta (Rhesus monkey) XPO5 XP_002803804.1
Canis lupus familiaris (dog) XPO5 XP_005627452.1
Bos taurus (cattle) XPO5 XP_002697347.1
Mus musculus (house mouse) Xpo5 NP_082474.1
Rattus norvegicus (Norway rat) Xpo5 NP_001102259.2
Gallus gallus (chicken) XPO5 NP_001264581.1
Danio rerio (zebrafish) xpo5 XP_001921422.4
Drosophila melanogaster (fruit fly) Ranbp21 NP_608339.2
Arabidopsis thaliana (thale cress) HST NP_187155.2
Xenopus (Silurana) tropicalis (western clawed frog) xpo5 NP_989112.2


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

The following XPO5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XPO5 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
OHu17570 NM_020750 Homo sapiens exportin 5 (XPO5), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 20 $643.30
$919.00

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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.


CloneID OHu17570
Clone ID Related Accession (Same CDS sequence) NM_020750
Accession Version NM_020750.2 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 3615bp)
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 15-MAR-2015
Organism Homo sapiens (human)
Product exportin-5
Comment VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DB068849.1, AF298880.1, AB033117.2 and BF108994.1. On Jan 22, 2009 this sequence version replaced gi:22748936. 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 :: AB033117.2, AF298880.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
ATGGCGATGG ATCAAGTAAA CGCGCTGTGC GAGCAGCTGG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA ACTCCACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAGGAGTTT
AAAGAAAAGT GTCCTATCTG TGTCCCCTGT GGCTTGAGGT TGGCTGAGAA AACACAAGTT
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAACACG TTGTCAAGTT TCGGTGGAAC
GGCATGTCTC GATTGGAGAA GGTGTATCTG AAGAACAGTG TCATGGAGCT GATTGCAAAT
GGAACATTGA ACATTTTGGA AGAGGAGAAC CATATTAAAG ATGCTCTGTC TCGAATTGTA
GTGGAAATGA TCAAGCGAGA GTGGCCACAG CATTGGCCTG ACATGCTAAT AGAATTGGAC
ACTCTTTCCA AACAAGGGGA AACACAGACA GAATTGGTGA TGTTTATCCT TTTGCGACTG
GCAGAGGATG TAGTGACTTT TCAGACACTT CCCCCTCAAA GAAGAAGGGA CATCCAGCAA
ACATTAACCC AGAACATGGA AAGGATCTTC AGTTTTCTGC TTAACACACT TCAAGAAAAT
GTAAACAAGT ATCAGCAAGT GAAGACAGAT ACTTCTCAGG AGTCAAAGGC GCAAGCAAAC
TGTCGAGTAG GAGTTGCAGC ACTGAATACT CTAGCAGGCT ATATTGACTG GGTGTCTATG
AGTCACATCA CTGCTGAAAA CTGTAAACTC CTGGAGATAC TGTGTTTGCT GTTGAATGAA
CAGGAACTTC AGTTGGGAGC CGCTGAGTGT CTTCTCATTG CAGTCAGCAG AAAAGGCAAG
TTGGAAGACC GGAAGCCCTT GATGGTCTTA TTTGGAGATG TTGCCATGCA TTATATACTC
TCCGCCGCAC AGACTGCTGA TGGAGGAGGT TTGGTAGAAA AACACTACGT CTTTCTGAAG
AGGCTCTGTC AGGTGTTGTG TGCGCTGGGC AATCAGCTGT GTGCATTGCT GGGTGCAGAT
TCTGATGTAG AAACACCATC AAACTTTGGA AAATACCTGG AATCTTTTCT TGCTTTCACA
ACCCATCCAA GTCAGTTTCT ACGCTCTTCA ACTCAGATGA CTTGGGGAGC CCTCTTCAGG
CATGAAATCC TGTCCCGTGA TCCTTTGCTA TTAGCAATAA TACCAAAATA TCTTCGTGCT
TCCATGACTA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGACAGCCC TAGCTGTGAA
TATTCTCGGT TTGATTTTGA TAGCGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCCGA
GCACAACAAG GAGAGGTGAT GAGGTTGGCA TGTCGTTTGG ATCCCAAAAC TAGCTTCCAG
ATGGCTGGGG AGTGGCTAAA GTATCAACTA TCAACTTTTC TTGATGCTGG TTCTGTGAAT
TCTTGTTCTG CAGTTGGAAC TGGAGAAGGA AGCCTCTGTT CCGTCTTCTC ACCTTCATTC
GTGCAGTGGG AAGCCATGAC TCTTTTTTTG GAAAGTGTTA TCACCCAGAT GTTTCGAACA
CTAAATAGAG AAGAAATTCC TGTTAATGAT GGAATAGAGC TATTGCAGAT GGTTCTGAAC
TTTGATACCA AGGATCCCCT CATCCTGTCC TGCGTCCTTA CTAATGTCTC TGCACTCTTT
CCATTTGTCA CCTACAGACC AGAGTTCCTG CCCCAGGTCT TCTCTAAGCT ATTTTCATCT
GTCACTTTTG AAACTGTTGA AGAAAGTAAG GCCCCCAGAA CCCGGGCAGT GAGGAATGTG
AGGAGGCATG CTTGTTCCTC CATCATCAAG ATGTGTCGTG ACTACCCCCA GCTTGTGCTG
CCCAATTTTG ACATGCTTTA TAACCATGTG AAGCAACTCC TCTCCAATGA GCTACTCCTG
ACACAAATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCATTAGCAA CCAATTTAAG
AACTACGAGC GTCAGAAGGT GTTCCTAGAG GAGCTGATGG CACCAGTGGC CAGCATCTGG
CTTTCTCAAG ACATGCACAG AGTGCTGTCA GATGTTGATG CTTTCATTGC GTATGTGGGT
ACAGATCAGA AGAGCTGTGA CCCAGGCCTG GAGGATCCGT GTGGCTTAAA CCGTGCACGA
ATGAGCTTTT GTGTATACAG CATTCTGGGT GTGGTGAAAC GAACTTGCTG GCCCACTGAC
CTAGAAGAGG CCAAAGCTGG GGGATTTGTG GTGGGTTATA CATCCAGTGG AAATCCAATC
TTCCGTAACC CCTGCACAGA GCAGATTCTG AAACTTCTTG ACAATTTGCT TGCGCTTATA
AGAACCCACA ATACATTATA TGCACCAGAA ATGCTAGCCA AAATGGCAGA GCCTTTCACC
AAGGCTCTGG ATATGCTTGA CGCGGAAAAA TCTGCTATAT TAGGATTACC TCAACCTCTC
TTGGAACTCA ATGACTCTCC TGTCTTCAAA ACCGTCTTGG AAAGAATGCA GCGTTTCTTC
TCTACCCTCT ATGAAAACTG TTTTCATATC CTAGGGAAGG CAGGCCCTTC CATGCAGCAA
GACTTCTATA CTGTGGAGGA CCTTGCTACC CAGCTTCTCA GCTCAGCCTT TGTCAACTTG
AACAATATTC CTGACTACCG ACTCAGACCC ATGCTTCGTG TCTTTGTAAA GCCTCTGGTG
CTCTTCTGTC CCCCAGAGCA CTATGAAGCC CTGGTATCCC CCATCCTCGG ACCTCTTTTC
ACCTACCTCC ATATGAGGCT TTCTCAGAAA TGGCAAGTTA TCAACCAAAG GAGCCTGCTG
TGTGGAGAAG ATGAGGCTGC AGATGAAAAC CCAGAGTCTC AAGAGATGCT GGAGGAGCAA
CTGGTGAGGA TGTTAACCCG AGAAGTCATG GACCTAATCA CGGTTTGCTG TGTTTCAAAG
AAGGGTGCTG ACCACAGTAG TGCTCCCCCA GCAGATGGAG ACGATGAAGA AATGATGGCC
ACAGAGGTCA CCCCCTCAGC TATGGCAGAG CTTACAGACC TGGGCAAATG TCTGATGAAG
CATGAGGATG TTTGTACAGC GCTATTAATT ACAGCCTTCA ATTCCCTGGC CTGGAAAGAT
ACTCTGTCCT GCCAGAGGAC AACCTCACAG CTCTGCTGGC CTCTCCTCAA ACAAGTGCTG
TCAGGGACAC TGCTCGCAGA TGCAGTTACG TGGCTTTTCA CCAGTGTGCT GAAAGGCTTA
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCATCTGGC CTTCCAGATA
TACGAGGCAC TGCGCCCCAG GTACCTGGAG ATAAGAGCTG TAATGGAGCA AATCCCTGAA
ATACAGAAGG ACTCACTGGA CCAGTTTGAC TGCAAGCTTT TAAACCCCTC CCTGCAGAAA
GTGGCTGACA AGCGCCGAAA GGACCAATTC AAACGCCTCA TTGCTGGTTG CATTGGGAAA
CCCTTGGGAG AGCAGTTCCG AAAAGAAGTT CACATTAAGA ATCTTCCCTC ACTTTTCAAA
AAAACAAAGC CAATGCTGGA GACGGAGGTG CTGGACAATG ATGGGGGTGG CCTGGCCACC
ATCTTTGAAC CCTGA

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

RefSeq NP_065801.1
CDS212..3826
Misc Feature(1)215..535(+)
Misc Feature(2)215..217(+)
Misc Feature(3)308..511(+)
Misc Feature(4)536..955(+)
Misc Feature(5)1397..1399(+)
Misc Feature(6)1808..2131(+)
Misc Feature(7)2687..2689(+)
Exon (1)1..316
Gene:XPO5
Gene Synonym:
Exon (2)317..438
Gene:XPO5
Gene Synonym:
Exon (3)439..511
Gene:XPO5
Gene Synonym:
Exon (4)512..649
Gene:XPO5
Gene Synonym:
Exon (5)650..832
Gene:XPO5
Gene Synonym:
Exon (6)833..859
Gene:XPO5
Gene Synonym:
Exon (7)860..1045
Gene:XPO5
Gene Synonym:
Exon (8)1046..1122
Gene:XPO5
Gene Synonym:
Exon (9)1123..1222
Gene:XPO5
Gene Synonym:
Exon (10)1223..1306
Gene:XPO5
Gene Synonym:
Exon (11)1307..1432
Gene:XPO5
Gene Synonym:
Exon (12)1433..1523
Gene:XPO5
Gene Synonym:
Exon (13)1524..1652
Gene:XPO5
Gene Synonym:
Exon (14)1653..1783
Gene:XPO5
Gene Synonym:
Exon (15)1784..1939
Gene:XPO5
Gene Synonym:
Exon (16)1940..1981
Gene:XPO5
Gene Synonym:
Exon (17)1982..2071
Gene:XPO5
Gene Synonym:
Exon (18)2072..2271
Gene:XPO5
Gene Synonym:
Exon (19)2272..2371
Gene:XPO5
Gene Synonym:
Exon (20)2372..2553
Gene:XPO5
Gene Synonym:
Exon (21)2554..2654
Gene:XPO5
Gene Synonym:
Exon (22)2655..2751
Gene:XPO5
Gene Synonym:
Exon (23)2752..2888
Gene:XPO5
Gene Synonym:
Exon (24)2889..2986
Gene:XPO5
Gene Synonym:
Exon (25)2987..3033
Gene:XPO5
Gene Synonym:
Exon (26)3034..3131
Gene:XPO5
Gene Synonym:
Exon (27)3132..3194
Gene:XPO5
Gene Synonym:
Exon (28)3195..3277
Gene:XPO5
Gene Synonym:
Exon (29)3278..3385
Gene:XPO5
Gene Synonym:
Exon (30)3386..3523
Gene:XPO5
Gene Synonym:
Exon (31)3524..3688
Gene:XPO5
Gene Synonym:
Exon (32)3689..5364
Gene:XPO5
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_020750
Organism Homo sapiens (human)
Definition Homo sapiens exportin 5 (XPO5), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_020750

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
ATGGCGATGG ATCAAGTAAA CGCGCTGTGC GAGCAGCTGG TGAAAGCGGT GACGGTCATG 
ATGGACCCCA ACTCCACCCA GCGCTACCGG CTGGAAGCCC TCAAGTTTTG TGAGGAGTTT
AAAGAAAAGT GTCCTATCTG TGTCCCCTGT GGCTTGAGGT TGGCTGAGAA AACACAAGTT
GCCATCGTCA GACATTTTGG CCTTCAGATC CTGGAACACG TTGTCAAGTT TCGGTGGAAC
GGCATGTCTC GATTGGAGAA GGTGTATCTG AAGAACAGTG TCATGGAGCT GATTGCAAAT
GGAACATTGA ACATTTTGGA AGAGGAGAAC CATATTAAAG ATGCTCTGTC TCGAATTGTA
GTGGAAATGA TCAAGCGAGA GTGGCCACAG CATTGGCCTG ACATGCTAAT AGAATTGGAC
ACTCTTTCCA AACAAGGGGA AACACAGACA GAATTGGTGA TGTTTATCCT TTTGCGACTG
GCAGAGGATG TAGTGACTTT TCAGACACTT CCCCCTCAAA GAAGAAGGGA CATCCAGCAA
ACATTAACCC AGAACATGGA AAGGATCTTC AGTTTTCTGC TTAACACACT TCAAGAAAAT
GTAAACAAGT ATCAGCAAGT GAAGACAGAT ACTTCTCAGG AGTCAAAGGC GCAAGCAAAC
TGTCGAGTAG GAGTTGCAGC ACTGAATACT CTAGCAGGCT ATATTGACTG GGTGTCTATG
AGTCACATCA CTGCTGAAAA CTGTAAACTC CTGGAGATAC TGTGTTTGCT GTTGAATGAA
CAGGAACTTC AGTTGGGAGC CGCTGAGTGT CTTCTCATTG CAGTCAGCAG AAAAGGCAAG
TTGGAAGACC GGAAGCCCTT GATGGTCTTA TTTGGAGATG TTGCCATGCA TTATATACTC
TCCGCCGCAC AGACTGCTGA TGGAGGAGGT TTGGTAGAAA AACACTACGT CTTTCTGAAG
AGGCTCTGTC AGGTGTTGTG TGCGCTGGGC AATCAGCTGT GTGCATTGCT GGGTGCAGAT
TCTGATGTAG AAACACCATC AAACTTTGGA AAATACCTGG AATCTTTTCT TGCTTTCACA
ACCCATCCAA GTCAGTTTCT ACGCTCTTCA ACTCAGATGA CTTGGGGAGC CCTCTTCAGG
CATGAAATCC TGTCCCGTGA TCCTTTGCTA TTAGCAATAA TACCAAAATA TCTTCGTGCT
TCCATGACTA ACTTGGTCAA GATGGGCTTT CCTTCTAAAA CAGACAGCCC TAGCTGTGAA
TATTCTCGGT TTGATTTTGA TAGCGATGAG GACTTCAATG CTTTCTTCAA CTCCTCCCGA
GCACAACAAG GAGAGGTGAT GAGGTTGGCA TGTCGTTTGG ATCCCAAAAC TAGCTTCCAG
ATGGCTGGGG AGTGGCTAAA GTATCAACTA TCAACTTTTC TTGATGCTGG TTCTGTGAAT
TCTTGTTCTG CAGTTGGAAC TGGAGAAGGA AGCCTCTGTT CCGTCTTCTC ACCTTCATTC
GTGCAGTGGG AAGCCATGAC TCTTTTTTTG GAAAGTGTTA TCACCCAGAT GTTTCGAACA
CTAAATAGAG AAGAAATTCC TGTTAATGAT GGAATAGAGC TATTGCAGAT GGTTCTGAAC
TTTGATACCA AGGATCCCCT CATCCTGTCC TGCGTCCTTA CTAATGTCTC TGCACTCTTT
CCATTTGTCA CCTACAGACC AGAGTTCCTG CCCCAGGTCT TCTCTAAGCT ATTTTCATCT
GTCACTTTTG AAACTGTTGA AGAAAGTAAG GCCCCCAGAA CCCGGGCAGT GAGGAATGTG
AGGAGGCATG CTTGTTCCTC CATCATCAAG ATGTGTCGTG ACTACCCCCA GCTTGTGCTG
CCCAATTTTG ACATGCTTTA TAACCATGTG AAGCAACTCC TCTCCAATGA GCTACTCCTG
ACACAAATGG AGAAGTGTGC CCTCATGGAA GCCCTGGTTC TCATTAGCAA CCAATTTAAG
AACTACGAGC GTCAGAAGGT GTTCCTAGAG GAGCTGATGG CACCAGTGGC CAGCATCTGG
CTTTCTCAAG ACATGCACAG AGTGCTGTCA GATGTTGATG CTTTCATTGC GTATGTGGGT
ACAGATCAGA AGAGCTGTGA CCCAGGCCTG GAGGATCCGT GTGGCTTAAA CCGTGCACGA
ATGAGCTTTT GTGTATACAG CATTCTGGGT GTGGTGAAAC GAACTTGCTG GCCCACTGAC
CTAGAAGAGG CCAAAGCTGG GGGATTTGTG GTGGGTTATA CATCCAGTGG AAATCCAATC
TTCCGTAACC CCTGCACAGA GCAGATTCTG AAACTTCTTG ACAATTTGCT TGCGCTTATA
AGAACCCACA ATACATTATA TGCACCAGAA ATGCTAGCCA AAATGGCAGA GCCTTTCACC
AAGGCTCTGG ATATGCTTGA CGCGGAAAAA TCTGCTATAT TAGGATTACC TCAACCTCTC
TTGGAACTCA ATGACTCTCC TGTCTTCAAA ACCGTCTTGG AAAGAATGCA GCGTTTCTTC
TCTACCCTCT ATGAAAACTG TTTTCATATC CTAGGGAAGG CAGGCCCTTC CATGCAGCAA
GACTTCTATA CTGTGGAGGA CCTTGCTACC CAGCTTCTCA GCTCAGCCTT TGTCAACTTG
AACAATATTC CTGACTACCG ACTCAGACCC ATGCTTCGTG TCTTTGTAAA GCCTCTGGTG
CTCTTCTGTC CCCCAGAGCA CTATGAAGCC CTGGTATCCC CCATCCTCGG ACCTCTTTTC
ACCTACCTCC ATATGAGGCT TTCTCAGAAA TGGCAAGTTA TCAACCAAAG GAGCCTGCTG
TGTGGAGAAG ATGAGGCTGC AGATGAAAAC CCAGAGTCTC AAGAGATGCT GGAGGAGCAA
CTGGTGAGGA TGTTAACCCG AGAAGTCATG GACCTAATCA CGGTTTGCTG TGTTTCAAAG
AAGGGTGCTG ACCACAGTAG TGCTCCCCCA GCAGATGGAG ACGATGAAGA AATGATGGCC
ACAGAGGTCA CCCCCTCAGC TATGGCAGAG CTTACAGACC TGGGCAAATG TCTGATGAAG
CATGAGGATG TTTGTACAGC GCTATTAATT ACAGCCTTCA ATTCCCTGGC CTGGAAAGAT
ACTCTGTCCT GCCAGAGGAC AACCTCACAG CTCTGCTGGC CTCTCCTCAA ACAAGTGCTG
TCAGGGACAC TGCTCGCAGA TGCAGTTACG TGGCTTTTCA CCAGTGTGCT GAAAGGCTTA
CAGATGCACG GGCAGCACGA CGGGTGCATG GCTTCCCTGG TCCATCTGGC CTTCCAGATA
TACGAGGCAC TGCGCCCCAG GTACCTGGAG ATAAGAGCTG TAATGGAGCA AATCCCTGAA
ATACAGAAGG ACTCACTGGA CCAGTTTGAC TGCAAGCTTT TAAACCCCTC CCTGCAGAAA
GTGGCTGACA AGCGCCGAAA GGACCAATTC AAACGCCTCA TTGCTGGTTG CATTGGGAAA
CCCTTGGGAG AGCAGTTCCG AAAAGAAGTT CACATTAAGA ATCTTCCCTC ACTTTTCAAA
AAAACAAAGC CAATGCTGGA GACGGAGGTG CTGGACAATG ATGGGGGTGG CCTGGCCACC
ATCTTTGAAC CCTGA

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

book

MiR-138 downregulates miRNA processing in HeLa cells by targeting RMND5A and decreasing Exportin-5 stability
Nucleic Acids Res. 42 (1), 458-474 (2014)
Li J, Chen Y, Qin X, Wen J, Ding H, Xia W, Li S, Su X, Wang W, Li H, Zhao Q, Fang T, Qu L and Shao N.


book

Association of polymorphisms in microRNA machinery genes (DROSHA, DICER1, RAN, and XPO5) with risk of idiopathic primary ovarian insufficiency in Korean women
Menopause 20 (10), 1067-1073 (2013)
Rah H, Jeon YJ, Lee BE, Kim JO, Shim SH, Lee WS, Choi DH, Kim JH and Kim NK.


book

Inducing cell proliferation inhibition and apoptosis via silencing Dicer, Drosha, and Exportin 5 in urothelial carcinoma of the bladder
J Surg Oncol 107 (2), 201-205 (2013)
Han Y, Liu Y, Gui Y and Cai Z.


book

Impact of MiRSNPs on survival and progression in patients with multiple myeloma undergoing autologous stem cell transplantation
Clin. Cancer Res. 18 (13), 3697-3704 (2012)
de Larrea CF, Navarro A, Tejero R, Tovar N, Diaz T, Cibeira MT, Rosinol L, Ferrer G, Rovira M, Rozman M, Monzo M and Blade J.


book

Competition for XPO5 binding between Dicer mRNA, pre-miRNA and viral RNA regulates human Dicer levels
Nat. Struct. Mol. Biol. 18 (3), 323-327 (2011)
Bennasser Y, Chable-Bessia C, Triboulet R, Gibbings D, Gwizdek C, Dargemont C, Kremer EJ, Voinnet O and Benkirane M.


book

Fas-associated death domain protein interacts with methyl-CpG binding domain protein 4: a potential link between genome surveillance and apoptosis
Proc. Natl. Acad. Sci. U.S.A. 100 (9), 5211-5216 (2003)
Screaton RA, Kiessling S, Sansom OJ, Millar CB, Maddison K, Bird A, Clarke AR and Frisch SM.


book

Exportin-5 mediates nuclear export of minihelix-containing RNAs
J. Biol. Chem. 278 (8), 5505-5508 (2003)
Gwizdek C, Ossareh-Nazari B, Brownawell AM, Doglio A, Bertrand E, Macara IG and Dargemont C.


book

Exportin-5-mediated nuclear export of eukaryotic elongation factor 1A and tRNA
EMBO J. 21 (22), 6216-6224 (2002)
Calado A, Treichel N, Muller EC, Otto A and Kutay U.


book

Exp5 exports eEF1A via tRNA from nuclei and synergizes with other transport pathways to confine translation to the cytoplasm
EMBO J. 21 (22), 6205-6215 (2002)
Bohnsack MT, Regener K, Schwappach B, Saffrich R, Paraskeva E, Hartmann E and Gorlich D.


book

Exportin-5, a novel karyopherin, mediates nuclear export of double-stranded RNA binding proteins
J. Cell Biol. 156 (1), 53-64 (2002)
Brownawell AM and Macara IG.


 
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