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USP9Y cDNA ORF clone, Homo sapiens (human)

Gene Symbol USP9Y
Entrez Gene ID 8287
Full Name ubiquitin specific peptidase 9, Y-linked
Synonyms DFFRY, SPGFY2
General protein information
Preferred Names
probable ubiquitin carboxyl-terminal hydrolase FAF-Y
Names
probable ubiquitin carboxyl-terminal hydrolase FAF-Y
ubiquitin thioesterase FAF-Y
deubiquitinating enzyme FAF-Y
ubiquitin thiolesterase FAF-Y
fat facets protein-related, Y-linked
ubiquitin-specific protease 9, Y chromosome
ubiquitin-specific processing protease FAF-Y
ubiquitin-specific-processing protease FAF-Y
ubiquitin specific peptidase 9, Y-linked (fat facets-like, Drosophila)
NP_004645.2
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

Y

Yq11.2

Summary This gene is a member of the peptidase C19 family. It encodes a protein that is similar to ubiquitin-specific proteases, which cleave the ubiquitin moiety from ubiquitin-fused precursors and ubiquitinylated proteins. [provided by RefSeq, Mar 2009]. lac of sum
Disorder MIM:

400005

Disorder Html: Azoospermia, 415000 (3)

mRNA and Protein(s)

mRNA Protein Name
XM_011531469 XP_011529771 probable ubiquitin carboxyl-terminal hydrolase FAF-Y isoform X1
XM_011531470 XP_011529772 probable ubiquitin carboxyl-terminal hydrolase FAF-Y isoform X2
NM_004654 NP_004645 probable ubiquitin carboxyl-terminal hydrolase FAF-Y


Homo sapiens (human) USP9Y NP_004645.2
Bos taurus (cattle) USP9Y NP_001138981.1
Mus musculus (house mouse) Usp9y NP_683745.2


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

The following USP9Y gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP9Y 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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu18493 XM_011531469 PREDICTED: Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 30 $1301.30
$1859.00
OHu61689 XM_011531470 PREDICTED: Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), transcript variant X2, mRNA. pcDNA3.1+/C-(K)DYK or customized vector 30 $1301.30
$1859.00
OHu18493 NM_004654 Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 30 $1301.30
$1859.00
Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OHu18493
Clone ID Related Accession (Same CDS sequence) NM_004654 , XM_011531469
Accession Version XM_011531469.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 7668bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product probable ubiquitin carboxyl-terminal hydrolase FAF-Y isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011875.13) 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 :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 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##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGACAGCCA TCACTCATGG CTCTCCAGTA GGAGGGAACG ACAGCCAGGG CCAGGTTCTT 
GATGGCCAGT CTCAGCATCT CTTCCAACAG AACCAGACTT CATCACCTGA TTCTTCCAAT
GAGAATTCCG TAGCAACTCC TCCTCCAGAG GAACAAGGGC AAGGTGATGC CCCACCACAG
CATGAAGATG AAGAGCCTGC ATTTCCACAT ACTGAGCTGG CAAACCTGGA TGACATGATC
AACAGGCCTC GATGGGTGGT TCCTGTTTTG CCAAAAGGGG AATTAGAAGT GCTTTTAGAA
GCTGCTATTG ATCTTAGTGT AAAAGGCCTT GATGTTAAAA GTGAAGCATG CCAACGTTTT
TTTCGAGATG GACTAACAAT ATCTTTCACT AAAATTCTTA TGGATGAGGC TGTGAGTGGC
TGGAAGTTTG AAATTCATAG ATGTATTATT AACAATACTC ATCGCCTAGT GGAGCTTTGT
GTGGCCAAGT TGTCCCAAGA TTGGTTTCCA CTTCTAGAAC TTCTCGCCAT GGCCTTAAAT
CCTCACTGCA AGTTTCATAT CTACAATGGT ACACGTCCGT GTGAATTAAT TTCCTCAAAT
GCTCAGTTGC CTGAAGATGA ATTATTTGCT CGTTCTTCAG ATCCTCGATC ACCAAAAGGT
TGGCTAGTGG ATCTCATCAA TAAATTTGGC ACATTAAATG GGTTCCAGAT TTTGCATGAT
CGTTTTTTTA ATGGATCAGC ATTAAATATT CAAATAATTG CAGCTCTTAT TAAACCATTT
GGACAATGCT ATGAGTTTCT CAGTCAACAT ACACTGAAAA AGTACTTCAT TCCAGTTATA
GAAATAGTTC CACATTTATT GGAAAACTTA ACTGATGAAG AACTGAAAAA GGAGGCAAAG
AATGAAGCCA AAAATGATGC CCTTTCAATG ATTATTAAAT CTTTGAAGAA CTTAGCTTCA
AGAATTTCAG GACAAGATGA GACTATAAAA AATTTGGAAA TTTTTAGGTT AAAGATGATA
CTCAGATTGT TGCAAATTTC CTCTTTTAAT GGAAAGATGA ATGCACTGAA TGAAATAAAT
AAGGTTATAT CTAGTGTATC ATATTATACT CATCGGCATA GTAATCCTGA GGAGGAAGAA
TGGCTGACAG CTGAGCGAAT GGCAGAATGG ATACAGCAAA ATAATATCTT ATCCATAGTC
TTGCAAGACA GTCTTCATCA ACCACAATAT GTAGAAAAGC TAGAGAAAAT TCTTCGTTTT
GTGATTAAAG AAAAGGCTCT TACATTACAG GACCTTGATA ATATCTGGGC AGCACAGGCA
GGAAAACATG AAGCCATTGT GAAGAATGTA CATGATCTGC TAGCAAAGTT GGCTTGGGAT
TTTTCTCCTG GACAACTTGA TCATCTTTTT GATTGCTTTA AGGCAAGTTG GACAAATGCA
AGTAAAAAGC AACGTGAAAA GCTCCTTGAG TTGATACGCC GTCTTGCAGA AGATGATAAA
GATGGTGTGA TGGCACACAA AGTGTTGAAC CTTCTTTGGA ACCTGGCTCA GAGTGATGAT
GTGCCTGTAG ACATCATGGA CCTTGCTCTT AGTGCCCACA TAAAAATACT AGATTATAGT
TGTTCCCAGG ATCGAGATGC ACAGAAGATC CAGTGGATAG ATCACTTTAT AGAAGAACTT
CGCACAAATG ACAAGTGGGT AATTCCTGCT CTGAAACAAA TAAGAGAAAT TTGTAGTTTG
TTTGGTGAAG CATCTCAAAA TTTGAGTCAA ACTCAGCGAA GTCCCCACAT ATTTTATCGC
CATGATTTAA TCAACCAGCT TCAACAAAAT CATGCTTTAG TTACTTTGGT AGCAGAAAAC
CTTGCAACCT ACATGAATAG CATCAGATTG TATGCTGGAG ATCATGAAGA CTATGATCCA
CAAACAGTGA GGCTTGGAAG TCGATACAGT CATGTTCAAG AAGTTCAAGA ACGACTAAAC
TTCCTTAGAT TTTTACTGAA GGATGGCCAA CTGTGGCTCT GTGCTCCTCA GGCAAAACAA
ATATGGAAGT GCTTAGCAGA AAATGCAGTT TATCTTTGTG ATCGTGAAGC CTGTTTTAAG
TGGTATTCCA AGTTAATGGG GGATGAACCA GACTTGGATC CTGATATTAA TAAGGACTTC
TTTGAAAGTA ATGTACTTCA GCTTGATCCT TCCCTTTTAA CTGAAAATGG AATGAAATGC
TTTGAAAGAT TTTTCAAAGC TGTCAATTGT CGAGAAAGGA AACTAATAGC AAAAAGAAGA
TCCTATATGA TGGATGATTT GGAATTAATT GGACTAGACT ACCTTTGGAG GGTTGTGATT
CAGAGTAGTG ACGAGATTGC TAACAGAGCT ATAGATCTTC TTAAAGAGAT ATACACAAAC
CTTGGCCCAA GATTAAAAGC CAATCAGGTG GTTATCCATG AAGACTTCAT TCAGTCTTGC
TTTGATCGTT TAAAAGCATC ATATGATACA CTGTGTGTTT TTGATGGTGA CAAAAACAGC
ATTAATTGTG CAAGACAAGA AGCCATTCGA ATGGTTAGAG TATTAACTGT TATAAAAGAG
TACATTAATG AATGTGACAG TGATTATCAC AAGGAAAGAA TGATTCTACC TATGTCGAGA
GCATTTCGTG GCAAACACCT CTCTCTTATA GTTCGGTTTC CAAACCAGGG CAGACAGGTT
GATGAGTTGG ATATATGGTC TCATACGAAT GACACAATTG GTTCAGTACG GCGATGTATT
GTTAATCGTA TTAAAGCCAA TGTAGCCCAC AAAAAAATTG AACTTTTTGT GGGTGGTGAG
CTGATAGATT CTGAAGATGA CAGAAAGCTA ATTGGACAAT TAAACTTAAA AGATAAATCT
CTAATTACAG CCAAACTTAC ACAAATAAAT TTCAATATGC CATCAAGTCC TGATAGCTCT
TCCGATTCCT CAACTGCATC TCCTGGAAAC CACCGTAATC ATTACAATGA TGGTCCCAAT
CTAGAGGTGG AAAGTTGTTT GCCTGGGGTG ATAATGTCAG TGCATCCCAG ATACATCTCT
TTCCTTTGGC AAGTTGCAGA CTTAGGTAGC AACCTGAATA TGCCACCTCT TAGAGATGGA
GCAAGAGTAC TTATGAAACT TATGCCACCA GATAGAACAG CTGTAGAAAA ATTACGAGCT
GTTTGTTTGG ACCATGCAAA ACTTGGAGAA GGCAAACTTA GTCCACCCCT TGACTCTCTT
TTCTTTGGTC CTTCTGCCTC CCAAGTTCTA TACCTAACAG AGGTAGTTTA TGCCTTGTTA
ATGCCTGCTG GTGTGCCTCT AACTGATGGG TCCTCTGACT TTCAAGTTCA CTTCTTGAAA
AGTGGTGGCT TACCTCTTGT ACTGAGTATG CTAATAAGAA ATAACTTCTT GCCAAATACA
GATATGGAAA CTCGAAGGGG TGCTTATTTA AATGCTCTTA AAATAGCCAA ACTGTTGTTA
ACTGCGATTG GCTATGGCCA TGTTCGAGCT GTAGCAGAAG CTTGTCAGCC AGTTGTAGAT
GGTACAGACC CCATAACACA GATTAACCAA GTTACTCATG ATCAAGCAGT GGTGCTACAA
AGTGCCCTTC AGAGCATTCC TAATCCCTCA TCCGAGTGCG TACTTAGAAA TGAGTCCATA
CTTCTTGCTC AGGAAATATC TAATGAGGCT TCAAGATATA TGCCTGATAT TTGTGTAATT
AGGGCTATAC AGAAAATTAT CTGGGCATCA GCATGTGGGG CATTAGGACT AGTTTTTAGC
CCAAATGAAG AAATAACTAA AATTTATCAG ATGACCACCA ATGGAAGCAA TAAGCTGGAG
GTGGAAGATG AACAAGTTTG CTGTGAAGCA CTGGAAGTGA TGACCTTATG TTTTGCTTTA
CTTCCAACAG CGTTGGATGC ACTTAGTAAA GAAAAAGCCT GGCAGACCTT CATCATTGAC
TTATTATTGC ACTGTCCAAG CAAAACTGTT CGTCAGTTGG CACAGGAGCA GTTCTTTTTA
ATGTGCACCA GATGTTGCAT GGGACACAGG CCTCTGCTTT TCTTCATTAC TTTACTCTTT
ACCATACTGG GGAGCACAGC AAGAGAGAAG GGTAAATATT CAGGTGATTA TTTCACACTT
TTACGGCACC TTCTCAATTA TGCTTACAAT GGCAATATTA ACATACCCAA TGCTGAAGTT
CTTCTTGTCA GTGAAATTGA TTGGCTCAAA AGGATTAGGG ATAATGTTAA AAACACAGGT
GAAACAGGTG TCGAAGAGCC AATACTGGAA GGCCACCTTG GGGTAACAAA AGAGTTATTG
GCCTTTCAAA CTTCTGAGAA AAAGTATCAC TTTGGTTGTG AAAAAGGAGG TGCTAATCTC
ATTAAAGAAT TAATTGATGA TTTCATCTTT CCCGCATCCA AAGTTTACCT GCAGTATTTA
AGAAGTGGAG AACTACCAGC TGAGCAGGCT ATTCCAGTCT GTAGTTCACC CGTTACCATC
AATGCCGGTT TTGAGCTACT TGTAGCATTA GCTATTGGCT GTGTGAGGAA TCTCAAACAG
ATAGTAGACT GTTTGACTGA AATGTATTAC ATGGGCACAG CAATTACTAC TTGTGAAGCA
CTTACTGAGT GGGAATATCT GCCCCCTGTT GGACCCCGCC CACCAAAAGG ATTTGTGGGA
CTCAAAAATG CTGGTGCTAC GTGTTACATG AACTCTGTGA TCCAGCAGCT ATACATGATT
CCTTCTATCA GGAACAGTAT TCTTGCAATT GAAGGCACAG GTAGTGATTT ACACGATGAT
ATGTTCGGGG ATGAGAAGCA GGACAGTGAG AGTAATGTTG ATCCCCGAGA TGATGTATTT
GGATATCCTC ATCAATTTGA AGACAAGCCA GCATTAAGTA AGACAGAAGA TAGGAAAGAG
TATAATATTG GTGTCCTAAG ACACCTTCAG GTCATCTTTG GTCATTTAGC TGCTTCCCAA
CTACAATACT ATGTACCCAG AGGATTTTGG AAACAGTTCA GGCTTTGGGG TGAACCTGTT
AATCTCCGTG AACAACATGA TGCCTTAGAG TTTTTTAATT CTTTGGTGGA TAGTTTAGAT
GAAGCTTTAA AAGCTTTAGG ACACCCGGCT ATACTAAGTA AAGTCCTAGG AGGCTCCTTT
GCTGATCAGA AGATCTGCCA AGGCTGCCCA CATAGGTATG AATGTGAAGA ATCTTTTACA
ACTTTGAATG TGGATATTAG AAATCATCAA AATCTTCTTG ACTCTTTGGA ACAGTATATC
AAAGGAGATT TATTGGAAGG TGCAAATGCA TATCATTGTG AAAAATGTGA TAAAAAGGTT
GACACAGTAA AGCGCCTGCT AATTAAAAAA TTGCCTCGGG TTCTTGCTAT CCAACTCAAA
CGATTTGACT ATGACTGGGA AAGAGAATGT GCAATTAAAT TCAATGATTA TTTTGAATTT
CCTCGAGAGC TGGATATGGG ACCTTACACA GTAGCAGGTG TTGCAAACCT GGAAAGGGAT
AATGTAAACT CAGAAAATGA GTTGATTGAA CAGAAAGAGC AGTCTGACAA TGAAACTGCA
GGAGGCACAA AGTACAGACT TGTAGGAGTG CTTGTACACA GTGGTCAAGC AAGCGGTGGG
CATTATTATT CTTACATCAT TCAAAGGAAT GGTAAAGATG ATCAGACAGA TCACTGGTAT
AAATTTGATG ATGGAGATGT AACAGAATGC AAAATGGATG ATGATGAAGA AATGAAAAAT
CAGTGTTTTG GTGGAGAGTA CATGGGAGAA GTATTTGATC ACATGATGAA GCGCATGTCA
TATAGGCGAC AGAAGAGGTG GTGGAATGCT TACATACTTT TTTATGAACA AATGGATATG
ATAGATGAAG ATGATGAGAT GATAAGATAC ATATCAGAGC TAACTATTGC AAGACCCCAT
CAGATCATTA TGTCACCAGC CATTGAGAGA AGTGTACGGA AACAAAATGT GAAATTTATG
CATAACCGAT TGCAATATAG TTTAGAGTAT TTTCAGTTTG TGAAAAAACT GCTTACATGT
AATGGTGTTT ATTTAAACCC TGCTCCAGGG CAGGATTATT TGTTGCCTGA AGCAGAAGAA
ATTACTATGA TTAGTATTCA GCTTGCTGCT AGATTCCTCT TTACCACTGG ATTTCACACC
AAGAAAATAG TTCGTGGTCC TGCCAGTGAC TGGTATGATG CACTGTGCGT TCTTCTCCGT
CACAGCAAAA ATGTACGTTT TTGGTTTACT CATAATGTCC TTTTTAATGT ATCAAATCGC
TTCTCTGAAT ACCTTCTGGA GTGCCCTAGT GCAGAAGTGA GGGGTGCATT TGCAAAACTT
ATAGTGTTTA TTGCACACTT TTCCTTGCAA GATGGGTCTT GTCCTTCTCC TTTTGCATCT
CCAGGACCTT CTAGTCAGGC ATGTGATAAC TTGAGCTTGA GTGACCACTT ACTAAGAGCC
ACACTAAATC TCTTGAGAAG GGAAGTTTCA GAGCATGGAC ATCATTTACA GCAATATTTT
AATTTGTTTG TAATGTATGC CAATTTAGGT GTGGCAGAAA AAACACAGCT TCTGAAATTG
AATGTACCTG CTACCTTTAT GCTTGTGTCT TTAGACGAAG GACCAGGTCC TCCAATCAAA
TATCAGTATG CTGAATTAGG CAAGTTATAT TCAGTAGTGT CTCAGCTGAT TCGTTGTTGC
AATGTGTCAT CAACAATGCA GTCTTCAATC AATGGTAATC CCCCTCTCCC CAATCCTTTC
GGTGACCTTA ATTTATCACA GCCTATAATG CCAATTCAGC AGAATGTGTT AGACATTTTA
TTTGTGAGAA CAAGTTATGT GAAGAAAATT ATTGAAGACT GCAGTAACTC AGAGGATACC
ATCAAATTAC TTCGCTTTTG CTCTTGGGAG AATCCTCAGT TCTCATCTAC TGTCCTCAGC
GAACTTCTCT GGCAGGTTGC ATATTCATAT ACCTATGAAC TTCGGCCATA TTTAGATCTA
CTTTTCCAAA TTTTACTGAT TGAGGACTCC TGGCAGACTC ACAGAATTCA TAATGCACTT
AAAGGAATTC CAGATGACAG AGATGGGCTG TTCGATACAA TACAGCGCTC GAAGAATCAC
TATCAAAAAC GAGCATATCA GTGCATAAAA TGTATGGTAG CTCTATTTAG CAGTTGTCCT
GTTGCTTACC AGATCTTACA GGGTAACGGA GATCTTAAAA GAAAATGGAC CTGGGCAGTG
GAATGGCTAG GAGATGAACT TGAAAGAAGA CCATATACTG GCAATCCTCA GTATAGTTAC
AACAATTGGT CTCCTCCAGT ACAAAGCAAT GAAACAGCAA ATGGTTATTT CTTAGAAAGA
TCACATAGTG CTAGGATGAC ACTTGCAAAA GCTTGTGAAC TCTGTCCAGA AGAGGAGCCA
GATGACCAGG ATGCCCCAGA TGAGCATGAG CCCTCTCCAT CAGAAGATGC CCCATTATAT
CCTCATTCAC CTGCCTCTCA GTATCAACAG AATAATCATG TACATGGACA GCCATATACA
GGACCAGCAG CACATCACTT GAACAACCCT CAGAAAACAG GCCAACGAAC ACAAGAAAAT
TATGAAGGCA ATGAAGAAGT ATCCTCACCT CAGATGAAGG ATCAGTGA

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

RefSeq XP_011529771.1
CDS84..7751
Misc Feature(1)4752..5963(+)
Misc Feature(2)4755..5948(+)
Misc Feature(3)4770..5795(+)
Translation

Target ORF information:

RefSeq Version XM_011531469
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), transcript variant X1, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011531469

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGACAGCCA TCACTCATGG CTCTCCAGTA GGAGGGAACG ACAGCCAGGG CCAGGTTCTT 
GATGGCCAGT CTCAGCATCT CTTCCAACAG AACCAGACTT CATCACCTGA TTCTTCCAAT
GAGAATTCCG TAGCAACTCC TCCTCCAGAG GAACAAGGGC AAGGTGATGC CCCACCACAG
CATGAAGATG AAGAGCCTGC ATTTCCACAT ACTGAGCTGG CAAACCTGGA TGACATGATC
AACAGGCCTC GATGGGTGGT TCCTGTTTTG CCAAAAGGGG AATTAGAAGT GCTTTTAGAA
GCTGCTATTG ATCTTAGTGT AAAAGGCCTT GATGTTAAAA GTGAAGCATG CCAACGTTTT
TTTCGAGATG GACTAACAAT ATCTTTCACT AAAATTCTTA TGGATGAGGC TGTGAGTGGC
TGGAAGTTTG AAATTCATAG ATGTATTATT AACAATACTC ATCGCCTAGT GGAGCTTTGT
GTGGCCAAGT TGTCCCAAGA TTGGTTTCCA CTTCTAGAAC TTCTCGCCAT GGCCTTAAAT
CCTCACTGCA AGTTTCATAT CTACAATGGT ACACGTCCGT GTGAATTAAT TTCCTCAAAT
GCTCAGTTGC CTGAAGATGA ATTATTTGCT CGTTCTTCAG ATCCTCGATC ACCAAAAGGT
TGGCTAGTGG ATCTCATCAA TAAATTTGGC ACATTAAATG GGTTCCAGAT TTTGCATGAT
CGTTTTTTTA ATGGATCAGC ATTAAATATT CAAATAATTG CAGCTCTTAT TAAACCATTT
GGACAATGCT ATGAGTTTCT CAGTCAACAT ACACTGAAAA AGTACTTCAT TCCAGTTATA
GAAATAGTTC CACATTTATT GGAAAACTTA ACTGATGAAG AACTGAAAAA GGAGGCAAAG
AATGAAGCCA AAAATGATGC CCTTTCAATG ATTATTAAAT CTTTGAAGAA CTTAGCTTCA
AGAATTTCAG GACAAGATGA GACTATAAAA AATTTGGAAA TTTTTAGGTT AAAGATGATA
CTCAGATTGT TGCAAATTTC CTCTTTTAAT GGAAAGATGA ATGCACTGAA TGAAATAAAT
AAGGTTATAT CTAGTGTATC ATATTATACT CATCGGCATA GTAATCCTGA GGAGGAAGAA
TGGCTGACAG CTGAGCGAAT GGCAGAATGG ATACAGCAAA ATAATATCTT ATCCATAGTC
TTGCAAGACA GTCTTCATCA ACCACAATAT GTAGAAAAGC TAGAGAAAAT TCTTCGTTTT
GTGATTAAAG AAAAGGCTCT TACATTACAG GACCTTGATA ATATCTGGGC AGCACAGGCA
GGAAAACATG AAGCCATTGT GAAGAATGTA CATGATCTGC TAGCAAAGTT GGCTTGGGAT
TTTTCTCCTG GACAACTTGA TCATCTTTTT GATTGCTTTA AGGCAAGTTG GACAAATGCA
AGTAAAAAGC AACGTGAAAA GCTCCTTGAG TTGATACGCC GTCTTGCAGA AGATGATAAA
GATGGTGTGA TGGCACACAA AGTGTTGAAC CTTCTTTGGA ACCTGGCTCA GAGTGATGAT
GTGCCTGTAG ACATCATGGA CCTTGCTCTT AGTGCCCACA TAAAAATACT AGATTATAGT
TGTTCCCAGG ATCGAGATGC ACAGAAGATC CAGTGGATAG ATCACTTTAT AGAAGAACTT
CGCACAAATG ACAAGTGGGT AATTCCTGCT CTGAAACAAA TAAGAGAAAT TTGTAGTTTG
TTTGGTGAAG CATCTCAAAA TTTGAGTCAA ACTCAGCGAA GTCCCCACAT ATTTTATCGC
CATGATTTAA TCAACCAGCT TCAACAAAAT CATGCTTTAG TTACTTTGGT AGCAGAAAAC
CTTGCAACCT ACATGAATAG CATCAGATTG TATGCTGGAG ATCATGAAGA CTATGATCCA
CAAACAGTGA GGCTTGGAAG TCGATACAGT CATGTTCAAG AAGTTCAAGA ACGACTAAAC
TTCCTTAGAT TTTTACTGAA GGATGGCCAA CTGTGGCTCT GTGCTCCTCA GGCAAAACAA
ATATGGAAGT GCTTAGCAGA AAATGCAGTT TATCTTTGTG ATCGTGAAGC CTGTTTTAAG
TGGTATTCCA AGTTAATGGG GGATGAACCA GACTTGGATC CTGATATTAA TAAGGACTTC
TTTGAAAGTA ATGTACTTCA GCTTGATCCT TCCCTTTTAA CTGAAAATGG AATGAAATGC
TTTGAAAGAT TTTTCAAAGC TGTCAATTGT CGAGAAAGGA AACTAATAGC AAAAAGAAGA
TCCTATATGA TGGATGATTT GGAATTAATT GGACTAGACT ACCTTTGGAG GGTTGTGATT
CAGAGTAGTG ACGAGATTGC TAACAGAGCT ATAGATCTTC TTAAAGAGAT ATACACAAAC
CTTGGCCCAA GATTAAAAGC CAATCAGGTG GTTATCCATG AAGACTTCAT TCAGTCTTGC
TTTGATCGTT TAAAAGCATC ATATGATACA CTGTGTGTTT TTGATGGTGA CAAAAACAGC
ATTAATTGTG CAAGACAAGA AGCCATTCGA ATGGTTAGAG TATTAACTGT TATAAAAGAG
TACATTAATG AATGTGACAG TGATTATCAC AAGGAAAGAA TGATTCTACC TATGTCGAGA
GCATTTCGTG GCAAACACCT CTCTCTTATA GTTCGGTTTC CAAACCAGGG CAGACAGGTT
GATGAGTTGG ATATATGGTC TCATACGAAT GACACAATTG GTTCAGTACG GCGATGTATT
GTTAATCGTA TTAAAGCCAA TGTAGCCCAC AAAAAAATTG AACTTTTTGT GGGTGGTGAG
CTGATAGATT CTGAAGATGA CAGAAAGCTA ATTGGACAAT TAAACTTAAA AGATAAATCT
CTAATTACAG CCAAACTTAC ACAAATAAAT TTCAATATGC CATCAAGTCC TGATAGCTCT
TCCGATTCCT CAACTGCATC TCCTGGAAAC CACCGTAATC ATTACAATGA TGGTCCCAAT
CTAGAGGTGG AAAGTTGTTT GCCTGGGGTG ATAATGTCAG TGCATCCCAG ATACATCTCT
TTCCTTTGGC AAGTTGCAGA CTTAGGTAGC AACCTGAATA TGCCACCTCT TAGAGATGGA
GCAAGAGTAC TTATGAAACT TATGCCACCA GATAGAACAG CTGTAGAAAA ATTACGAGCT
GTTTGTTTGG ACCATGCAAA ACTTGGAGAA GGCAAACTTA GTCCACCCCT TGACTCTCTT
TTCTTTGGTC CTTCTGCCTC CCAAGTTCTA TACCTAACAG AGGTAGTTTA TGCCTTGTTA
ATGCCTGCTG GTGTGCCTCT AACTGATGGG TCCTCTGACT TTCAAGTTCA CTTCTTGAAA
AGTGGTGGCT TACCTCTTGT ACTGAGTATG CTAATAAGAA ATAACTTCTT GCCAAATACA
GATATGGAAA CTCGAAGGGG TGCTTATTTA AATGCTCTTA AAATAGCCAA ACTGTTGTTA
ACTGCGATTG GCTATGGCCA TGTTCGAGCT GTAGCAGAAG CTTGTCAGCC AGTTGTAGAT
GGTACAGACC CCATAACACA GATTAACCAA GTTACTCATG ATCAAGCAGT GGTGCTACAA
AGTGCCCTTC AGAGCATTCC TAATCCCTCA TCCGAGTGCG TACTTAGAAA TGAGTCCATA
CTTCTTGCTC AGGAAATATC TAATGAGGCT TCAAGATATA TGCCTGATAT TTGTGTAATT
AGGGCTATAC AGAAAATTAT CTGGGCATCA GCATGTGGGG CATTAGGACT AGTTTTTAGC
CCAAATGAAG AAATAACTAA AATTTATCAG ATGACCACCA ATGGAAGCAA TAAGCTGGAG
GTGGAAGATG AACAAGTTTG CTGTGAAGCA CTGGAAGTGA TGACCTTATG TTTTGCTTTA
CTTCCAACAG CGTTGGATGC ACTTAGTAAA GAAAAAGCCT GGCAGACCTT CATCATTGAC
TTATTATTGC ACTGTCCAAG CAAAACTGTT CGTCAGTTGG CACAGGAGCA GTTCTTTTTA
ATGTGCACCA GATGTTGCAT GGGACACAGG CCTCTGCTTT TCTTCATTAC TTTACTCTTT
ACCATACTGG GGAGCACAGC AAGAGAGAAG GGTAAATATT CAGGTGATTA TTTCACACTT
TTACGGCACC TTCTCAATTA TGCTTACAAT GGCAATATTA ACATACCCAA TGCTGAAGTT
CTTCTTGTCA GTGAAATTGA TTGGCTCAAA AGGATTAGGG ATAATGTTAA AAACACAGGT
GAAACAGGTG TCGAAGAGCC AATACTGGAA GGCCACCTTG GGGTAACAAA AGAGTTATTG
GCCTTTCAAA CTTCTGAGAA AAAGTATCAC TTTGGTTGTG AAAAAGGAGG TGCTAATCTC
ATTAAAGAAT TAATTGATGA TTTCATCTTT CCCGCATCCA AAGTTTACCT GCAGTATTTA
AGAAGTGGAG AACTACCAGC TGAGCAGGCT ATTCCAGTCT GTAGTTCACC CGTTACCATC
AATGCCGGTT TTGAGCTACT TGTAGCATTA GCTATTGGCT GTGTGAGGAA TCTCAAACAG
ATAGTAGACT GTTTGACTGA AATGTATTAC ATGGGCACAG CAATTACTAC TTGTGAAGCA
CTTACTGAGT GGGAATATCT GCCCCCTGTT GGACCCCGCC CACCAAAAGG ATTTGTGGGA
CTCAAAAATG CTGGTGCTAC GTGTTACATG AACTCTGTGA TCCAGCAGCT ATACATGATT
CCTTCTATCA GGAACAGTAT TCTTGCAATT GAAGGCACAG GTAGTGATTT ACACGATGAT
ATGTTCGGGG ATGAGAAGCA GGACAGTGAG AGTAATGTTG ATCCCCGAGA TGATGTATTT
GGATATCCTC ATCAATTTGA AGACAAGCCA GCATTAAGTA AGACAGAAGA TAGGAAAGAG
TATAATATTG GTGTCCTAAG ACACCTTCAG GTCATCTTTG GTCATTTAGC TGCTTCCCAA
CTACAATACT ATGTACCCAG AGGATTTTGG AAACAGTTCA GGCTTTGGGG TGAACCTGTT
AATCTCCGTG AACAACATGA TGCCTTAGAG TTTTTTAATT CTTTGGTGGA TAGTTTAGAT
GAAGCTTTAA AAGCTTTAGG ACACCCGGCT ATACTAAGTA AAGTCCTAGG AGGCTCCTTT
GCTGATCAGA AGATCTGCCA AGGCTGCCCA CATAGGTATG AATGTGAAGA ATCTTTTACA
ACTTTGAATG TGGATATTAG AAATCATCAA AATCTTCTTG ACTCTTTGGA ACAGTATATC
AAAGGAGATT TATTGGAAGG TGCAAATGCA TATCATTGTG AAAAATGTGA TAAAAAGGTT
GACACAGTAA AGCGCCTGCT AATTAAAAAA TTGCCTCGGG TTCTTGCTAT CCAACTCAAA
CGATTTGACT ATGACTGGGA AAGAGAATGT GCAATTAAAT TCAATGATTA TTTTGAATTT
CCTCGAGAGC TGGATATGGG ACCTTACACA GTAGCAGGTG TTGCAAACCT GGAAAGGGAT
AATGTAAACT CAGAAAATGA GTTGATTGAA CAGAAAGAGC AGTCTGACAA TGAAACTGCA
GGAGGCACAA AGTACAGACT TGTAGGAGTG CTTGTACACA GTGGTCAAGC AAGCGGTGGG
CATTATTATT CTTACATCAT TCAAAGGAAT GGTAAAGATG ATCAGACAGA TCACTGGTAT
AAATTTGATG ATGGAGATGT AACAGAATGC AAAATGGATG ATGATGAAGA AATGAAAAAT
CAGTGTTTTG GTGGAGAGTA CATGGGAGAA GTATTTGATC ACATGATGAA GCGCATGTCA
TATAGGCGAC AGAAGAGGTG GTGGAATGCT TACATACTTT TTTATGAACA AATGGATATG
ATAGATGAAG ATGATGAGAT GATAAGATAC ATATCAGAGC TAACTATTGC AAGACCCCAT
CAGATCATTA TGTCACCAGC CATTGAGAGA AGTGTACGGA AACAAAATGT GAAATTTATG
CATAACCGAT TGCAATATAG TTTAGAGTAT TTTCAGTTTG TGAAAAAACT GCTTACATGT
AATGGTGTTT ATTTAAACCC TGCTCCAGGG CAGGATTATT TGTTGCCTGA AGCAGAAGAA
ATTACTATGA TTAGTATTCA GCTTGCTGCT AGATTCCTCT TTACCACTGG ATTTCACACC
AAGAAAATAG TTCGTGGTCC TGCCAGTGAC TGGTATGATG CACTGTGCGT TCTTCTCCGT
CACAGCAAAA ATGTACGTTT TTGGTTTACT CATAATGTCC TTTTTAATGT ATCAAATCGC
TTCTCTGAAT ACCTTCTGGA GTGCCCTAGT GCAGAAGTGA GGGGTGCATT TGCAAAACTT
ATAGTGTTTA TTGCACACTT TTCCTTGCAA GATGGGTCTT GTCCTTCTCC TTTTGCATCT
CCAGGACCTT CTAGTCAGGC ATGTGATAAC TTGAGCTTGA GTGACCACTT ACTAAGAGCC
ACACTAAATC TCTTGAGAAG GGAAGTTTCA GAGCATGGAC ATCATTTACA GCAATATTTT
AATTTGTTTG TAATGTATGC CAATTTAGGT GTGGCAGAAA AAACACAGCT TCTGAAATTG
AATGTACCTG CTACCTTTAT GCTTGTGTCT TTAGACGAAG GACCAGGTCC TCCAATCAAA
TATCAGTATG CTGAATTAGG CAAGTTATAT TCAGTAGTGT CTCAGCTGAT TCGTTGTTGC
AATGTGTCAT CAACAATGCA GTCTTCAATC AATGGTAATC CCCCTCTCCC CAATCCTTTC
GGTGACCTTA ATTTATCACA GCCTATAATG CCAATTCAGC AGAATGTGTT AGACATTTTA
TTTGTGAGAA CAAGTTATGT GAAGAAAATT ATTGAAGACT GCAGTAACTC AGAGGATACC
ATCAAATTAC TTCGCTTTTG CTCTTGGGAG AATCCTCAGT TCTCATCTAC TGTCCTCAGC
GAACTTCTCT GGCAGGTTGC ATATTCATAT ACCTATGAAC TTCGGCCATA TTTAGATCTA
CTTTTCCAAA TTTTACTGAT TGAGGACTCC TGGCAGACTC ACAGAATTCA TAATGCACTT
AAAGGAATTC CAGATGACAG AGATGGGCTG TTCGATACAA TACAGCGCTC GAAGAATCAC
TATCAAAAAC GAGCATATCA GTGCATAAAA TGTATGGTAG CTCTATTTAG CAGTTGTCCT
GTTGCTTACC AGATCTTACA GGGTAACGGA GATCTTAAAA GAAAATGGAC CTGGGCAGTG
GAATGGCTAG GAGATGAACT TGAAAGAAGA CCATATACTG GCAATCCTCA GTATAGTTAC
AACAATTGGT CTCCTCCAGT ACAAAGCAAT GAAACAGCAA ATGGTTATTT CTTAGAAAGA
TCACATAGTG CTAGGATGAC ACTTGCAAAA GCTTGTGAAC TCTGTCCAGA AGAGGAGCCA
GATGACCAGG ATGCCCCAGA TGAGCATGAG CCCTCTCCAT CAGAAGATGC CCCATTATAT
CCTCATTCAC CTGCCTCTCA GTATCAACAG AATAATCATG TACATGGACA GCCATATACA
GGACCAGCAG CACATCACTT GAACAACCCT CAGAAAACAG GCCAACGAAC ACAAGAAAAT
TATGAAGGCA ATGAAGAAGT ATCCTCACCT CAGATGAAGG ATCAGTGA

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

CloneID OHu61689
Clone ID Related Accession (Same CDS sequence) XM_011531470
Accession Version XM_011531470.1 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 7434bp)
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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product probable ubiquitin carboxyl-terminal hydrolase FAF-Y isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_011875.13) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 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##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
ATGATCAACA GGCCTCGATG GGTGGTTCCT GTTTTGCCAA AAGGGGAATT AGAAGTGCTT 
TTAGAAGCTG CTATTGATCT TAGTGTAAAA GGCCTTGATG TTAAAAGTGA AGCATGCCAA
CGTTTTTTTC GAGATGGACT AACAATATCT TTCACTAAAA TTCTTATGGA TGAGGCTGTG
AGTGGCTGGA AGTTTGAAAT TCATAGATGT ATTATTAACA ATACTCATCG CCTAGTGGAG
CTTTGTGTGG CCAAGTTGTC CCAAGATTGG TTTCCACTTC TAGAACTTCT CGCCATGGCC
TTAAATCCTC ACTGCAAGTT TCATATCTAC AATGGTACAC GTCCGTGTGA ATTAATTTCC
TCAAATGCTC AGTTGCCTGA AGATGAATTA TTTGCTCGTT CTTCAGATCC TCGATCACCA
AAAGGTTGGC TAGTGGATCT CATCAATAAA TTTGGCACAT TAAATGGGTT CCAGATTTTG
CATGATCGTT TTTTTAATGG ATCAGCATTA AATATTCAAA TAATTGCAGC TCTTATTAAA
CCATTTGGAC AATGCTATGA GTTTCTCAGT CAACATACAC TGAAAAAGTA CTTCATTCCA
GTTATAGAAA TAGTTCCACA TTTATTGGAA AACTTAACTG ATGAAGAACT GAAAAAGGAG
GCAAAGAATG AAGCCAAAAA TGATGCCCTT TCAATGATTA TTAAATCTTT GAAGAACTTA
GCTTCAAGAA TTTCAGGACA AGATGAGACT ATAAAAAATT TGGAAATTTT TAGGTTAAAG
ATGATACTCA GATTGTTGCA AATTTCCTCT TTTAATGGAA AGATGAATGC ACTGAATGAA
ATAAATAAGG TTATATCTAG TGTATCATAT TATACTCATC GGCATAGTAA TCCTGAGGAG
GAAGAATGGC TGACAGCTGA GCGAATGGCA GAATGGATAC AGCAAAATAA TATCTTATCC
ATAGTCTTGC AAGACAGTCT TCATCAACCA CAATATGTAG AAAAGCTAGA GAAAATTCTT
CGTTTTGTGA TTAAAGAAAA GGCTCTTACA TTACAGGACC TTGATAATAT CTGGGCAGCA
CAGGCAGGAA AACATGAAGC CATTGTGAAG AATGTACATG ATCTGCTAGC AAAGTTGGCT
TGGGATTTTT CTCCTGGACA ACTTGATCAT CTTTTTGATT GCTTTAAGGC AAGTTGGACA
AATGCAAGTA AAAAGCAACG TGAAAAGCTC CTTGAGTTGA TACGCCGTCT TGCAGAAGAT
GATAAAGATG GTGTGATGGC ACACAAAGTG TTGAACCTTC TTTGGAACCT GGCTCAGAGT
GATGATGTGC CTGTAGACAT CATGGACCTT GCTCTTAGTG CCCACATAAA AATACTAGAT
TATAGTTGTT CCCAGGATCG AGATGCACAG AAGATCCAGT GGATAGATCA CTTTATAGAA
GAACTTCGCA CAAATGACAA GTGGGTAATT CCTGCTCTGA AACAAATAAG AGAAATTTGT
AGTTTGTTTG GTGAAGCATC TCAAAATTTG AGTCAAACTC AGCGAAGTCC CCACATATTT
TATCGCCATG ATTTAATCAA CCAGCTTCAA CAAAATCATG CTTTAGTTAC TTTGGTAGCA
GAAAACCTTG CAACCTACAT GAATAGCATC AGATTGTATG CTGGAGATCA TGAAGACTAT
GATCCACAAA CAGTGAGGCT TGGAAGTCGA TACAGTCATG TTCAAGAAGT TCAAGAACGA
CTAAACTTCC TTAGATTTTT ACTGAAGGAT GGCCAACTGT GGCTCTGTGC TCCTCAGGCA
AAACAAATAT GGAAGTGCTT AGCAGAAAAT GCAGTTTATC TTTGTGATCG TGAAGCCTGT
TTTAAGTGGT ATTCCAAGTT AATGGGGGAT GAACCAGACT TGGATCCTGA TATTAATAAG
GACTTCTTTG AAAGTAATGT ACTTCAGCTT GATCCTTCCC TTTTAACTGA AAATGGAATG
AAATGCTTTG AAAGATTTTT CAAAGCTGTC AATTGTCGAG AAAGGAAACT AATAGCAAAA
AGAAGATCCT ATATGATGGA TGATTTGGAA TTAATTGGAC TAGACTACCT TTGGAGGGTT
GTGATTCAGA GTAGTGACGA GATTGCTAAC AGAGCTATAG ATCTTCTTAA AGAGATATAC
ACAAACCTTG GCCCAAGATT AAAAGCCAAT CAGGTGGTTA TCCATGAAGA CTTCATTCAG
TCTTGCTTTG ATCGTTTAAA AGCATCATAT GATACACTGT GTGTTTTTGA TGGTGACAAA
AACAGCATTA ATTGTGCAAG ACAAGAAGCC ATTCGAATGG TTAGAGTATT AACTGTTATA
AAAGAGTACA TTAATGAATG TGACAGTGAT TATCACAAGG AAAGAATGAT TCTACCTATG
TCGAGAGCAT TTCGTGGCAA ACACCTCTCT CTTATAGTTC GGTTTCCAAA CCAGGGCAGA
CAGGTTGATG AGTTGGATAT ATGGTCTCAT ACGAATGACA CAATTGGTTC AGTACGGCGA
TGTATTGTTA ATCGTATTAA AGCCAATGTA GCCCACAAAA AAATTGAACT TTTTGTGGGT
GGTGAGCTGA TAGATTCTGA AGATGACAGA AAGCTAATTG GACAATTAAA CTTAAAAGAT
AAATCTCTAA TTACAGCCAA ACTTACACAA ATAAATTTCA ATATGCCATC AAGTCCTGAT
AGCTCTTCCG ATTCCTCAAC TGCATCTCCT GGAAACCACC GTAATCATTA CAATGATGGT
CCCAATCTAG AGGTGGAAAG TTGTTTGCCT GGGGTGATAA TGTCAGTGCA TCCCAGATAC
ATCTCTTTCC TTTGGCAAGT TGCAGACTTA GGTAGCAACC TGAATATGCC ACCTCTTAGA
GATGGAGCAA GAGTACTTAT GAAACTTATG CCACCAGATA GAACAGCTGT AGAAAAATTA
CGAGCTGTTT GTTTGGACCA TGCAAAACTT GGAGAAGGCA AACTTAGTCC ACCCCTTGAC
TCTCTTTTCT TTGGTCCTTC TGCCTCCCAA GTTCTATACC TAACAGAGGT AGTTTATGCC
TTGTTAATGC CTGCTGGTGT GCCTCTAACT GATGGGTCCT CTGACTTTCA AGTTCACTTC
TTGAAAAGTG GTGGCTTACC TCTTGTACTG AGTATGCTAA TAAGAAATAA CTTCTTGCCA
AATACAGATA TGGAAACTCG AAGGGGTGCT TATTTAAATG CTCTTAAAAT AGCCAAACTG
TTGTTAACTG CGATTGGCTA TGGCCATGTT CGAGCTGTAG CAGAAGCTTG TCAGCCAGTT
GTAGATGGTA CAGACCCCAT AACACAGATT AACCAAGTTA CTCATGATCA AGCAGTGGTG
CTACAAAGTG CCCTTCAGAG CATTCCTAAT CCCTCATCCG AGTGCGTACT TAGAAATGAG
TCCATACTTC TTGCTCAGGA AATATCTAAT GAGGCTTCAA GATATATGCC TGATATTTGT
GTAATTAGGG CTATACAGAA AATTATCTGG GCATCAGCAT GTGGGGCATT AGGACTAGTT
TTTAGCCCAA ATGAAGAAAT AACTAAAATT TATCAGATGA CCACCAATGG AAGCAATAAG
CTGGAGGTGG AAGATGAACA AGTTTGCTGT GAAGCACTGG AAGTGATGAC CTTATGTTTT
GCTTTACTTC CAACAGCGTT GGATGCACTT AGTAAAGAAA AAGCCTGGCA GACCTTCATC
ATTGACTTAT TATTGCACTG TCCAAGCAAA ACTGTTCGTC AGTTGGCACA GGAGCAGTTC
TTTTTAATGT GCACCAGATG TTGCATGGGA CACAGGCCTC TGCTTTTCTT CATTACTTTA
CTCTTTACCA TACTGGGGAG CACAGCAAGA GAGAAGGGTA AATATTCAGG TGATTATTTC
ACACTTTTAC GGCACCTTCT CAATTATGCT TACAATGGCA ATATTAACAT ACCCAATGCT
GAAGTTCTTC TTGTCAGTGA AATTGATTGG CTCAAAAGGA TTAGGGATAA TGTTAAAAAC
ACAGGTGAAA CAGGTGTCGA AGAGCCAATA CTGGAAGGCC ACCTTGGGGT AACAAAAGAG
TTATTGGCCT TTCAAACTTC TGAGAAAAAG TATCACTTTG GTTGTGAAAA AGGAGGTGCT
AATCTCATTA AAGAATTAAT TGATGATTTC ATCTTTCCCG CATCCAAAGT TTACCTGCAG
TATTTAAGAA GTGGAGAACT ACCAGCTGAG CAGGCTATTC CAGTCTGTAG TTCACCCGTT
ACCATCAATG CCGGTTTTGA GCTACTTGTA GCATTAGCTA TTGGCTGTGT GAGGAATCTC
AAACAGATAG TAGACTGTTT GACTGAAATG TATTACATGG GCACAGCAAT TACTACTTGT
GAAGCACTTA CTGAGTGGGA ATATCTGCCC CCTGTTGGAC CCCGCCCACC AAAAGGATTT
GTGGGACTCA AAAATGCTGG TGCTACGTGT TACATGAACT CTGTGATCCA GCAGCTATAC
ATGATTCCTT CTATCAGGAA CAGTATTCTT GCAATTGAAG GCACAGGTAG TGATTTACAC
GATGATATGT TCGGGGATGA GAAGCAGGAC AGTGAGAGTA ATGTTGATCC CCGAGATGAT
GTATTTGGAT ATCCTCATCA ATTTGAAGAC AAGCCAGCAT TAAGTAAGAC AGAAGATAGG
AAAGAGTATA ATATTGGTGT CCTAAGACAC CTTCAGGTCA TCTTTGGTCA TTTAGCTGCT
TCCCAACTAC AATACTATGT ACCCAGAGGA TTTTGGAAAC AGTTCAGGCT TTGGGGTGAA
CCTGTTAATC TCCGTGAACA ACATGATGCC TTAGAGTTTT TTAATTCTTT GGTGGATAGT
TTAGATGAAG CTTTAAAAGC TTTAGGACAC CCGGCTATAC TAAGTAAAGT CCTAGGAGGC
TCCTTTGCTG ATCAGAAGAT CTGCCAAGGC TGCCCACATA GGTATGAATG TGAAGAATCT
TTTACAACTT TGAATGTGGA TATTAGAAAT CATCAAAATC TTCTTGACTC TTTGGAACAG
TATATCAAAG GAGATTTATT GGAAGGTGCA AATGCATATC ATTGTGAAAA ATGTGATAAA
AAGGTTGACA CAGTAAAGCG CCTGCTAATT AAAAAATTGC CTCGGGTTCT TGCTATCCAA
CTCAAACGAT TTGACTATGA CTGGGAAAGA GAATGTGCAA TTAAATTCAA TGATTATTTT
GAATTTCCTC GAGAGCTGGA TATGGGACCT TACACAGTAG CAGGTGTTGC AAACCTGGAA
AGGGATAATG TAAACTCAGA AAATGAGTTG ATTGAACAGA AAGAGCAGTC TGACAATGAA
ACTGCAGGAG GCACAAAGTA CAGACTTGTA GGAGTGCTTG TACACAGTGG TCAAGCAAGC
GGTGGGCATT ATTATTCTTA CATCATTCAA AGGAATGGTA AAGATGATCA GACAGATCAC
TGGTATAAAT TTGATGATGG AGATGTAACA GAATGCAAAA TGGATGATGA TGAAGAAATG
AAAAATCAGT GTTTTGGTGG AGAGTACATG GGAGAAGTAT TTGATCACAT GATGAAGCGC
ATGTCATATA GGCGACAGAA GAGGTGGTGG AATGCTTACA TACTTTTTTA TGAACAAATG
GATATGATAG ATGAAGATGA TGAGATGATA AGATACATAT CAGAGCTAAC TATTGCAAGA
CCCCATCAGA TCATTATGTC ACCAGCCATT GAGAGAAGTG TACGGAAACA AAATGTGAAA
TTTATGCATA ACCGATTGCA ATATAGTTTA GAGTATTTTC AGTTTGTGAA AAAACTGCTT
ACATGTAATG GTGTTTATTT AAACCCTGCT CCAGGGCAGG ATTATTTGTT GCCTGAAGCA
GAAGAAATTA CTATGATTAG TATTCAGCTT GCTGCTAGAT TCCTCTTTAC CACTGGATTT
CACACCAAGA AAATAGTTCG TGGTCCTGCC AGTGACTGGT ATGATGCACT GTGCGTTCTT
CTCCGTCACA GCAAAAATGT ACGTTTTTGG TTTACTCATA ATGTCCTTTT TAATGTATCA
AATCGCTTCT CTGAATACCT TCTGGAGTGC CCTAGTGCAG AAGTGAGGGG TGCATTTGCA
AAACTTATAG TGTTTATTGC ACACTTTTCC TTGCAAGATG GGTCTTGTCC TTCTCCTTTT
GCATCTCCAG GACCTTCTAG TCAGGCATGT GATAACTTGA GCTTGAGTGA CCACTTACTA
AGAGCCACAC TAAATCTCTT GAGAAGGGAA GTTTCAGAGC ATGGACATCA TTTACAGCAA
TATTTTAATT TGTTTGTAAT GTATGCCAAT TTAGGTGTGG CAGAAAAAAC ACAGCTTCTG
AAATTGAATG TACCTGCTAC CTTTATGCTT GTGTCTTTAG ACGAAGGACC AGGTCCTCCA
ATCAAATATC AGTATGCTGA ATTAGGCAAG TTATATTCAG TAGTGTCTCA GCTGATTCGT
TGTTGCAATG TGTCATCAAC AATGCAGTCT TCAATCAATG GTAATCCCCC TCTCCCCAAT
CCTTTCGGTG ACCTTAATTT ATCACAGCCT ATAATGCCAA TTCAGCAGAA TGTGTTAGAC
ATTTTATTTG TGAGAACAAG TTATGTGAAG AAAATTATTG AAGACTGCAG TAACTCAGAG
GATACCATCA AATTACTTCG CTTTTGCTCT TGGGAGAATC CTCAGTTCTC ATCTACTGTC
CTCAGCGAAC TTCTCTGGCA GGTTGCATAT TCATATACCT ATGAACTTCG GCCATATTTA
GATCTACTTT TCCAAATTTT ACTGATTGAG GACTCCTGGC AGACTCACAG AATTCATAAT
GCACTTAAAG GAATTCCAGA TGACAGAGAT GGGCTGTTCG ATACAATACA GCGCTCGAAG
AATCACTATC AAAAACGAGC ATATCAGTGC ATAAAATGTA TGGTAGCTCT ATTTAGCAGT
TGTCCTGTTG CTTACCAGAT CTTACAGGGT AACGGAGATC TTAAAAGAAA ATGGACCTGG
GCAGTGGAAT GGCTAGGAGA TGAACTTGAA AGAAGACCAT ATACTGGCAA TCCTCAGTAT
AGTTACAACA ATTGGTCTCC TCCAGTACAA AGCAATGAAA CAGCAAATGG TTATTTCTTA
GAAAGATCAC ATAGTGCTAG GATGACACTT GCAAAAGCTT GTGAACTCTG TCCAGAAGAG
GAGCCAGATG ACCAGGATGC CCCAGATGAG CATGAGCCCT CTCCATCAGA AGATGCCCCA
TTATATCCTC ATTCACCTGC CTCTCAGTAT CAACAGAATA ATCATGTACA TGGACAGCCA
TATACAGGAC CAGCAGCACA TCACTTGAAC AACCCTCAGA AAACAGGCCA ACGAACACAA
GAAAATTATG AAGGCAATGA AGAAGTATCC TCACCTCAGA TGAAGGATCA GTGA

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

RefSeq XP_011529772.1
CDS250..7683
Misc Feature(1)4684..5895(+)
Misc Feature(2)4687..5880(+)
Misc Feature(3)4702..5727(+)
Translation

Target ORF information:

RefSeq Version XM_011531470
Organism Homo sapiens (human)
Definition PREDICTED: Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), transcript variant X2, mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
XM_011531470

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
ATGATCAACA GGCCTCGATG GGTGGTTCCT GTTTTGCCAA AAGGGGAATT AGAAGTGCTT 
TTAGAAGCTG CTATTGATCT TAGTGTAAAA GGCCTTGATG TTAAAAGTGA AGCATGCCAA
CGTTTTTTTC GAGATGGACT AACAATATCT TTCACTAAAA TTCTTATGGA TGAGGCTGTG
AGTGGCTGGA AGTTTGAAAT TCATAGATGT ATTATTAACA ATACTCATCG CCTAGTGGAG
CTTTGTGTGG CCAAGTTGTC CCAAGATTGG TTTCCACTTC TAGAACTTCT CGCCATGGCC
TTAAATCCTC ACTGCAAGTT TCATATCTAC AATGGTACAC GTCCGTGTGA ATTAATTTCC
TCAAATGCTC AGTTGCCTGA AGATGAATTA TTTGCTCGTT CTTCAGATCC TCGATCACCA
AAAGGTTGGC TAGTGGATCT CATCAATAAA TTTGGCACAT TAAATGGGTT CCAGATTTTG
CATGATCGTT TTTTTAATGG ATCAGCATTA AATATTCAAA TAATTGCAGC TCTTATTAAA
CCATTTGGAC AATGCTATGA GTTTCTCAGT CAACATACAC TGAAAAAGTA CTTCATTCCA
GTTATAGAAA TAGTTCCACA TTTATTGGAA AACTTAACTG ATGAAGAACT GAAAAAGGAG
GCAAAGAATG AAGCCAAAAA TGATGCCCTT TCAATGATTA TTAAATCTTT GAAGAACTTA
GCTTCAAGAA TTTCAGGACA AGATGAGACT ATAAAAAATT TGGAAATTTT TAGGTTAAAG
ATGATACTCA GATTGTTGCA AATTTCCTCT TTTAATGGAA AGATGAATGC ACTGAATGAA
ATAAATAAGG TTATATCTAG TGTATCATAT TATACTCATC GGCATAGTAA TCCTGAGGAG
GAAGAATGGC TGACAGCTGA GCGAATGGCA GAATGGATAC AGCAAAATAA TATCTTATCC
ATAGTCTTGC AAGACAGTCT TCATCAACCA CAATATGTAG AAAAGCTAGA GAAAATTCTT
CGTTTTGTGA TTAAAGAAAA GGCTCTTACA TTACAGGACC TTGATAATAT CTGGGCAGCA
CAGGCAGGAA AACATGAAGC CATTGTGAAG AATGTACATG ATCTGCTAGC AAAGTTGGCT
TGGGATTTTT CTCCTGGACA ACTTGATCAT CTTTTTGATT GCTTTAAGGC AAGTTGGACA
AATGCAAGTA AAAAGCAACG TGAAAAGCTC CTTGAGTTGA TACGCCGTCT TGCAGAAGAT
GATAAAGATG GTGTGATGGC ACACAAAGTG TTGAACCTTC TTTGGAACCT GGCTCAGAGT
GATGATGTGC CTGTAGACAT CATGGACCTT GCTCTTAGTG CCCACATAAA AATACTAGAT
TATAGTTGTT CCCAGGATCG AGATGCACAG AAGATCCAGT GGATAGATCA CTTTATAGAA
GAACTTCGCA CAAATGACAA GTGGGTAATT CCTGCTCTGA AACAAATAAG AGAAATTTGT
AGTTTGTTTG GTGAAGCATC TCAAAATTTG AGTCAAACTC AGCGAAGTCC CCACATATTT
TATCGCCATG ATTTAATCAA CCAGCTTCAA CAAAATCATG CTTTAGTTAC TTTGGTAGCA
GAAAACCTTG CAACCTACAT GAATAGCATC AGATTGTATG CTGGAGATCA TGAAGACTAT
GATCCACAAA CAGTGAGGCT TGGAAGTCGA TACAGTCATG TTCAAGAAGT TCAAGAACGA
CTAAACTTCC TTAGATTTTT ACTGAAGGAT GGCCAACTGT GGCTCTGTGC TCCTCAGGCA
AAACAAATAT GGAAGTGCTT AGCAGAAAAT GCAGTTTATC TTTGTGATCG TGAAGCCTGT
TTTAAGTGGT ATTCCAAGTT AATGGGGGAT GAACCAGACT TGGATCCTGA TATTAATAAG
GACTTCTTTG AAAGTAATGT ACTTCAGCTT GATCCTTCCC TTTTAACTGA AAATGGAATG
AAATGCTTTG AAAGATTTTT CAAAGCTGTC AATTGTCGAG AAAGGAAACT AATAGCAAAA
AGAAGATCCT ATATGATGGA TGATTTGGAA TTAATTGGAC TAGACTACCT TTGGAGGGTT
GTGATTCAGA GTAGTGACGA GATTGCTAAC AGAGCTATAG ATCTTCTTAA AGAGATATAC
ACAAACCTTG GCCCAAGATT AAAAGCCAAT CAGGTGGTTA TCCATGAAGA CTTCATTCAG
TCTTGCTTTG ATCGTTTAAA AGCATCATAT GATACACTGT GTGTTTTTGA TGGTGACAAA
AACAGCATTA ATTGTGCAAG ACAAGAAGCC ATTCGAATGG TTAGAGTATT AACTGTTATA
AAAGAGTACA TTAATGAATG TGACAGTGAT TATCACAAGG AAAGAATGAT TCTACCTATG
TCGAGAGCAT TTCGTGGCAA ACACCTCTCT CTTATAGTTC GGTTTCCAAA CCAGGGCAGA
CAGGTTGATG AGTTGGATAT ATGGTCTCAT ACGAATGACA CAATTGGTTC AGTACGGCGA
TGTATTGTTA ATCGTATTAA AGCCAATGTA GCCCACAAAA AAATTGAACT TTTTGTGGGT
GGTGAGCTGA TAGATTCTGA AGATGACAGA AAGCTAATTG GACAATTAAA CTTAAAAGAT
AAATCTCTAA TTACAGCCAA ACTTACACAA ATAAATTTCA ATATGCCATC AAGTCCTGAT
AGCTCTTCCG ATTCCTCAAC TGCATCTCCT GGAAACCACC GTAATCATTA CAATGATGGT
CCCAATCTAG AGGTGGAAAG TTGTTTGCCT GGGGTGATAA TGTCAGTGCA TCCCAGATAC
ATCTCTTTCC TTTGGCAAGT TGCAGACTTA GGTAGCAACC TGAATATGCC ACCTCTTAGA
GATGGAGCAA GAGTACTTAT GAAACTTATG CCACCAGATA GAACAGCTGT AGAAAAATTA
CGAGCTGTTT GTTTGGACCA TGCAAAACTT GGAGAAGGCA AACTTAGTCC ACCCCTTGAC
TCTCTTTTCT TTGGTCCTTC TGCCTCCCAA GTTCTATACC TAACAGAGGT AGTTTATGCC
TTGTTAATGC CTGCTGGTGT GCCTCTAACT GATGGGTCCT CTGACTTTCA AGTTCACTTC
TTGAAAAGTG GTGGCTTACC TCTTGTACTG AGTATGCTAA TAAGAAATAA CTTCTTGCCA
AATACAGATA TGGAAACTCG AAGGGGTGCT TATTTAAATG CTCTTAAAAT AGCCAAACTG
TTGTTAACTG CGATTGGCTA TGGCCATGTT CGAGCTGTAG CAGAAGCTTG TCAGCCAGTT
GTAGATGGTA CAGACCCCAT AACACAGATT AACCAAGTTA CTCATGATCA AGCAGTGGTG
CTACAAAGTG CCCTTCAGAG CATTCCTAAT CCCTCATCCG AGTGCGTACT TAGAAATGAG
TCCATACTTC TTGCTCAGGA AATATCTAAT GAGGCTTCAA GATATATGCC TGATATTTGT
GTAATTAGGG CTATACAGAA AATTATCTGG GCATCAGCAT GTGGGGCATT AGGACTAGTT
TTTAGCCCAA ATGAAGAAAT AACTAAAATT TATCAGATGA CCACCAATGG AAGCAATAAG
CTGGAGGTGG AAGATGAACA AGTTTGCTGT GAAGCACTGG AAGTGATGAC CTTATGTTTT
GCTTTACTTC CAACAGCGTT GGATGCACTT AGTAAAGAAA AAGCCTGGCA GACCTTCATC
ATTGACTTAT TATTGCACTG TCCAAGCAAA ACTGTTCGTC AGTTGGCACA GGAGCAGTTC
TTTTTAATGT GCACCAGATG TTGCATGGGA CACAGGCCTC TGCTTTTCTT CATTACTTTA
CTCTTTACCA TACTGGGGAG CACAGCAAGA GAGAAGGGTA AATATTCAGG TGATTATTTC
ACACTTTTAC GGCACCTTCT CAATTATGCT TACAATGGCA ATATTAACAT ACCCAATGCT
GAAGTTCTTC TTGTCAGTGA AATTGATTGG CTCAAAAGGA TTAGGGATAA TGTTAAAAAC
ACAGGTGAAA CAGGTGTCGA AGAGCCAATA CTGGAAGGCC ACCTTGGGGT AACAAAAGAG
TTATTGGCCT TTCAAACTTC TGAGAAAAAG TATCACTTTG GTTGTGAAAA AGGAGGTGCT
AATCTCATTA AAGAATTAAT TGATGATTTC ATCTTTCCCG CATCCAAAGT TTACCTGCAG
TATTTAAGAA GTGGAGAACT ACCAGCTGAG CAGGCTATTC CAGTCTGTAG TTCACCCGTT
ACCATCAATG CCGGTTTTGA GCTACTTGTA GCATTAGCTA TTGGCTGTGT GAGGAATCTC
AAACAGATAG TAGACTGTTT GACTGAAATG TATTACATGG GCACAGCAAT TACTACTTGT
GAAGCACTTA CTGAGTGGGA ATATCTGCCC CCTGTTGGAC CCCGCCCACC AAAAGGATTT
GTGGGACTCA AAAATGCTGG TGCTACGTGT TACATGAACT CTGTGATCCA GCAGCTATAC
ATGATTCCTT CTATCAGGAA CAGTATTCTT GCAATTGAAG GCACAGGTAG TGATTTACAC
GATGATATGT TCGGGGATGA GAAGCAGGAC AGTGAGAGTA ATGTTGATCC CCGAGATGAT
GTATTTGGAT ATCCTCATCA ATTTGAAGAC AAGCCAGCAT TAAGTAAGAC AGAAGATAGG
AAAGAGTATA ATATTGGTGT CCTAAGACAC CTTCAGGTCA TCTTTGGTCA TTTAGCTGCT
TCCCAACTAC AATACTATGT ACCCAGAGGA TTTTGGAAAC AGTTCAGGCT TTGGGGTGAA
CCTGTTAATC TCCGTGAACA ACATGATGCC TTAGAGTTTT TTAATTCTTT GGTGGATAGT
TTAGATGAAG CTTTAAAAGC TTTAGGACAC CCGGCTATAC TAAGTAAAGT CCTAGGAGGC
TCCTTTGCTG ATCAGAAGAT CTGCCAAGGC TGCCCACATA GGTATGAATG TGAAGAATCT
TTTACAACTT TGAATGTGGA TATTAGAAAT CATCAAAATC TTCTTGACTC TTTGGAACAG
TATATCAAAG GAGATTTATT GGAAGGTGCA AATGCATATC ATTGTGAAAA ATGTGATAAA
AAGGTTGACA CAGTAAAGCG CCTGCTAATT AAAAAATTGC CTCGGGTTCT TGCTATCCAA
CTCAAACGAT TTGACTATGA CTGGGAAAGA GAATGTGCAA TTAAATTCAA TGATTATTTT
GAATTTCCTC GAGAGCTGGA TATGGGACCT TACACAGTAG CAGGTGTTGC AAACCTGGAA
AGGGATAATG TAAACTCAGA AAATGAGTTG ATTGAACAGA AAGAGCAGTC TGACAATGAA
ACTGCAGGAG GCACAAAGTA CAGACTTGTA GGAGTGCTTG TACACAGTGG TCAAGCAAGC
GGTGGGCATT ATTATTCTTA CATCATTCAA AGGAATGGTA AAGATGATCA GACAGATCAC
TGGTATAAAT TTGATGATGG AGATGTAACA GAATGCAAAA TGGATGATGA TGAAGAAATG
AAAAATCAGT GTTTTGGTGG AGAGTACATG GGAGAAGTAT TTGATCACAT GATGAAGCGC
ATGTCATATA GGCGACAGAA GAGGTGGTGG AATGCTTACA TACTTTTTTA TGAACAAATG
GATATGATAG ATGAAGATGA TGAGATGATA AGATACATAT CAGAGCTAAC TATTGCAAGA
CCCCATCAGA TCATTATGTC ACCAGCCATT GAGAGAAGTG TACGGAAACA AAATGTGAAA
TTTATGCATA ACCGATTGCA ATATAGTTTA GAGTATTTTC AGTTTGTGAA AAAACTGCTT
ACATGTAATG GTGTTTATTT AAACCCTGCT CCAGGGCAGG ATTATTTGTT GCCTGAAGCA
GAAGAAATTA CTATGATTAG TATTCAGCTT GCTGCTAGAT TCCTCTTTAC CACTGGATTT
CACACCAAGA AAATAGTTCG TGGTCCTGCC AGTGACTGGT ATGATGCACT GTGCGTTCTT
CTCCGTCACA GCAAAAATGT ACGTTTTTGG TTTACTCATA ATGTCCTTTT TAATGTATCA
AATCGCTTCT CTGAATACCT TCTGGAGTGC CCTAGTGCAG AAGTGAGGGG TGCATTTGCA
AAACTTATAG TGTTTATTGC ACACTTTTCC TTGCAAGATG GGTCTTGTCC TTCTCCTTTT
GCATCTCCAG GACCTTCTAG TCAGGCATGT GATAACTTGA GCTTGAGTGA CCACTTACTA
AGAGCCACAC TAAATCTCTT GAGAAGGGAA GTTTCAGAGC ATGGACATCA TTTACAGCAA
TATTTTAATT TGTTTGTAAT GTATGCCAAT TTAGGTGTGG CAGAAAAAAC ACAGCTTCTG
AAATTGAATG TACCTGCTAC CTTTATGCTT GTGTCTTTAG ACGAAGGACC AGGTCCTCCA
ATCAAATATC AGTATGCTGA ATTAGGCAAG TTATATTCAG TAGTGTCTCA GCTGATTCGT
TGTTGCAATG TGTCATCAAC AATGCAGTCT TCAATCAATG GTAATCCCCC TCTCCCCAAT
CCTTTCGGTG ACCTTAATTT ATCACAGCCT ATAATGCCAA TTCAGCAGAA TGTGTTAGAC
ATTTTATTTG TGAGAACAAG TTATGTGAAG AAAATTATTG AAGACTGCAG TAACTCAGAG
GATACCATCA AATTACTTCG CTTTTGCTCT TGGGAGAATC CTCAGTTCTC ATCTACTGTC
CTCAGCGAAC TTCTCTGGCA GGTTGCATAT TCATATACCT ATGAACTTCG GCCATATTTA
GATCTACTTT TCCAAATTTT ACTGATTGAG GACTCCTGGC AGACTCACAG AATTCATAAT
GCACTTAAAG GAATTCCAGA TGACAGAGAT GGGCTGTTCG ATACAATACA GCGCTCGAAG
AATCACTATC AAAAACGAGC ATATCAGTGC ATAAAATGTA TGGTAGCTCT ATTTAGCAGT
TGTCCTGTTG CTTACCAGAT CTTACAGGGT AACGGAGATC TTAAAAGAAA ATGGACCTGG
GCAGTGGAAT GGCTAGGAGA TGAACTTGAA AGAAGACCAT ATACTGGCAA TCCTCAGTAT
AGTTACAACA ATTGGTCTCC TCCAGTACAA AGCAATGAAA CAGCAAATGG TTATTTCTTA
GAAAGATCAC ATAGTGCTAG GATGACACTT GCAAAAGCTT GTGAACTCTG TCCAGAAGAG
GAGCCAGATG ACCAGGATGC CCCAGATGAG CATGAGCCCT CTCCATCAGA AGATGCCCCA
TTATATCCTC ATTCACCTGC CTCTCAGTAT CAACAGAATA ATCATGTACA TGGACAGCCA
TATACAGGAC CAGCAGCACA TCACTTGAAC AACCCTCAGA AAACAGGCCA ACGAACACAA
GAAAATTATG AAGGCAATGA AGAAGTATCC TCACCTCAGA TGAAGGATCA GTGA

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

CloneID OHu18493
Clone ID Related Accession (Same CDS sequence) NM_004654 , XM_011531469
Accession Version NM_004654.3 Documents for ORF clone product in dufault vector
Sequence Information ORF Nucleotide Sequence (Length: 7668bp)
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
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product probable ubiquitin carboxyl-terminal hydrolase FAF-Y
Comment REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF000986.2, Y13618.1, BI754571.1 and CK823170.1. This sequence is a reference standard in the RefSeqGene project. On Sep 9, 2005 this sequence version replaced gi:11641426. 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 :: AF000986.2 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1966682, SAMEA1968832 [ECO:0000348] ##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
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGACAGCCA TCACTCATGG CTCTCCAGTA GGAGGGAACG ACAGCCAGGG CCAGGTTCTT 
GATGGCCAGT CTCAGCATCT CTTCCAACAG AACCAGACTT CATCACCTGA TTCTTCCAAT
GAGAATTCCG TAGCAACTCC TCCTCCAGAG GAACAAGGGC AAGGTGATGC CCCACCACAG
CATGAAGATG AAGAGCCTGC ATTTCCACAT ACTGAGCTGG CAAACCTGGA TGACATGATC
AACAGGCCTC GATGGGTGGT TCCTGTTTTG CCAAAAGGGG AATTAGAAGT GCTTTTAGAA
GCTGCTATTG ATCTTAGTGT AAAAGGCCTT GATGTTAAAA GTGAAGCATG CCAACGTTTT
TTTCGAGATG GACTAACAAT ATCTTTCACT AAAATTCTTA TGGATGAGGC TGTGAGTGGC
TGGAAGTTTG AAATTCATAG ATGTATTATT AACAATACTC ATCGCCTAGT GGAGCTTTGT
GTGGCCAAGT TGTCCCAAGA TTGGTTTCCA CTTCTAGAAC TTCTCGCCAT GGCCTTAAAT
CCTCACTGCA AGTTTCATAT CTACAATGGT ACACGTCCGT GTGAATTAAT TTCCTCAAAT
GCTCAGTTGC CTGAAGATGA ATTATTTGCT CGTTCTTCAG ATCCTCGATC ACCAAAAGGT
TGGCTAGTGG ATCTCATCAA TAAATTTGGC ACATTAAATG GGTTCCAGAT TTTGCATGAT
CGTTTTTTTA ATGGATCAGC ATTAAATATT CAAATAATTG CAGCTCTTAT TAAACCATTT
GGACAATGCT ATGAGTTTCT CAGTCAACAT ACACTGAAAA AGTACTTCAT TCCAGTTATA
GAAATAGTTC CACATTTATT GGAAAACTTA ACTGATGAAG AACTGAAAAA GGAGGCAAAG
AATGAAGCCA AAAATGATGC CCTTTCAATG ATTATTAAAT CTTTGAAGAA CTTAGCTTCA
AGAATTTCAG GACAAGATGA GACTATAAAA AATTTGGAAA TTTTTAGGTT AAAGATGATA
CTCAGATTGT TGCAAATTTC CTCTTTTAAT GGAAAGATGA ATGCACTGAA TGAAATAAAT
AAGGTTATAT CTAGTGTATC ATATTATACT CATCGGCATA GTAATCCTGA GGAGGAAGAA
TGGCTGACAG CTGAGCGAAT GGCAGAATGG ATACAGCAAA ATAATATCTT ATCCATAGTC
TTGCAAGACA GTCTTCATCA ACCACAATAT GTAGAAAAGC TAGAGAAAAT TCTTCGTTTT
GTGATTAAAG AAAAGGCTCT TACATTACAG GACCTTGATA ATATCTGGGC AGCACAGGCA
GGAAAACATG AAGCCATTGT GAAGAATGTA CATGATCTGC TAGCAAAGTT GGCTTGGGAT
TTTTCTCCTG GACAACTTGA TCATCTTTTT GATTGCTTTA AGGCAAGTTG GACAAATGCA
AGTAAAAAGC AACGTGAAAA GCTCCTTGAG TTGATACGCC GTCTTGCAGA AGATGATAAA
GATGGTGTGA TGGCACACAA AGTGTTGAAC CTTCTTTGGA ACCTGGCTCA GAGTGATGAT
GTGCCTGTAG ACATCATGGA CCTTGCTCTT AGTGCCCACA TAAAAATACT AGATTATAGT
TGTTCCCAGG ATCGAGATGC ACAGAAGATC CAGTGGATAG ATCACTTTAT AGAAGAACTT
CGCACAAATG ACAAGTGGGT AATTCCTGCT CTGAAACAAA TAAGAGAAAT TTGTAGTTTG
TTTGGTGAAG CATCTCAAAA TTTGAGTCAA ACTCAGCGAA GTCCCCACAT ATTTTATCGC
CATGATTTAA TCAACCAGCT TCAACAAAAT CATGCTTTAG TTACTTTGGT AGCAGAAAAC
CTTGCAACCT ACATGAATAG CATCAGATTG TATGCTGGAG ATCATGAAGA CTATGATCCA
CAAACAGTGA GGCTTGGAAG TCGATACAGT CATGTTCAAG AAGTTCAAGA ACGACTAAAC
TTCCTTAGAT TTTTACTGAA GGATGGCCAA CTGTGGCTCT GTGCTCCTCA GGCAAAACAA
ATATGGAAGT GCTTAGCAGA AAATGCAGTT TATCTTTGTG ATCGTGAAGC CTGTTTTAAG
TGGTATTCCA AGTTAATGGG GGATGAACCA GACTTGGATC CTGATATTAA TAAGGACTTC
TTTGAAAGTA ATGTACTTCA GCTTGATCCT TCCCTTTTAA CTGAAAATGG AATGAAATGC
TTTGAAAGAT TTTTCAAAGC TGTCAATTGT CGAGAAAGGA AACTAATAGC AAAAAGAAGA
TCCTATATGA TGGATGATTT GGAATTAATT GGACTAGACT ACCTTTGGAG GGTTGTGATT
CAGAGTAGTG ACGAGATTGC TAACAGAGCT ATAGATCTTC TTAAAGAGAT ATACACAAAC
CTTGGCCCAA GATTAAAAGC CAATCAGGTG GTTATCCATG AAGACTTCAT TCAGTCTTGC
TTTGATCGTT TAAAAGCATC ATATGATACA CTGTGTGTTT TTGATGGTGA CAAAAACAGC
ATTAATTGTG CAAGACAAGA AGCCATTCGA ATGGTTAGAG TATTAACTGT TATAAAAGAG
TACATTAATG AATGTGACAG TGATTATCAC AAGGAAAGAA TGATTCTACC TATGTCGAGA
GCATTTCGTG GCAAACACCT CTCTCTTATA GTTCGGTTTC CAAACCAGGG CAGACAGGTT
GATGAGTTGG ATATATGGTC TCATACGAAT GACACAATTG GTTCAGTACG GCGATGTATT
GTTAATCGTA TTAAAGCCAA TGTAGCCCAC AAAAAAATTG AACTTTTTGT GGGTGGTGAG
CTGATAGATT CTGAAGATGA CAGAAAGCTA ATTGGACAAT TAAACTTAAA AGATAAATCT
CTAATTACAG CCAAACTTAC ACAAATAAAT TTCAATATGC CATCAAGTCC TGATAGCTCT
TCCGATTCCT CAACTGCATC TCCTGGAAAC CACCGTAATC ATTACAATGA TGGTCCCAAT
CTAGAGGTGG AAAGTTGTTT GCCTGGGGTG ATAATGTCAG TGCATCCCAG ATACATCTCT
TTCCTTTGGC AAGTTGCAGA CTTAGGTAGC AACCTGAATA TGCCACCTCT TAGAGATGGA
GCAAGAGTAC TTATGAAACT TATGCCACCA GATAGAACAG CTGTAGAAAA ATTACGAGCT
GTTTGTTTGG ACCATGCAAA ACTTGGAGAA GGCAAACTTA GTCCACCCCT TGACTCTCTT
TTCTTTGGTC CTTCTGCCTC CCAAGTTCTA TACCTAACAG AGGTAGTTTA TGCCTTGTTA
ATGCCTGCTG GTGTGCCTCT AACTGATGGG TCCTCTGACT TTCAAGTTCA CTTCTTGAAA
AGTGGTGGCT TACCTCTTGT ACTGAGTATG CTAATAAGAA ATAACTTCTT GCCAAATACA
GATATGGAAA CTCGAAGGGG TGCTTATTTA AATGCTCTTA AAATAGCCAA ACTGTTGTTA
ACTGCGATTG GCTATGGCCA TGTTCGAGCT GTAGCAGAAG CTTGTCAGCC AGTTGTAGAT
GGTACAGACC CCATAACACA GATTAACCAA GTTACTCATG ATCAAGCAGT GGTGCTACAA
AGTGCCCTTC AGAGCATTCC TAATCCCTCA TCCGAGTGCG TACTTAGAAA TGAGTCCATA
CTTCTTGCTC AGGAAATATC TAATGAGGCT TCAAGATATA TGCCTGATAT TTGTGTAATT
AGGGCTATAC AGAAAATTAT CTGGGCATCA GCATGTGGGG CATTAGGACT AGTTTTTAGC
CCAAATGAAG AAATAACTAA AATTTATCAG ATGACCACCA ATGGAAGCAA TAAGCTGGAG
GTGGAAGATG AACAAGTTTG CTGTGAAGCA CTGGAAGTGA TGACCTTATG TTTTGCTTTA
CTTCCAACAG CGTTGGATGC ACTTAGTAAA GAAAAAGCCT GGCAGACCTT CATCATTGAC
TTATTATTGC ACTGTCCAAG CAAAACTGTT CGTCAGTTGG CACAGGAGCA GTTCTTTTTA
ATGTGCACCA GATGTTGCAT GGGACACAGG CCTCTGCTTT TCTTCATTAC TTTACTCTTT
ACCATACTGG GGAGCACAGC AAGAGAGAAG GGTAAATATT CAGGTGATTA TTTCACACTT
TTACGGCACC TTCTCAATTA TGCTTACAAT GGCAATATTA ACATACCCAA TGCTGAAGTT
CTTCTTGTCA GTGAAATTGA TTGGCTCAAA AGGATTAGGG ATAATGTTAA AAACACAGGT
GAAACAGGTG TCGAAGAGCC AATACTGGAA GGCCACCTTG GGGTAACAAA AGAGTTATTG
GCCTTTCAAA CTTCTGAGAA AAAGTATCAC TTTGGTTGTG AAAAAGGAGG TGCTAATCTC
ATTAAAGAAT TAATTGATGA TTTCATCTTT CCCGCATCCA AAGTTTACCT GCAGTATTTA
AGAAGTGGAG AACTACCAGC TGAGCAGGCT ATTCCAGTCT GTAGTTCACC CGTTACCATC
AATGCCGGTT TTGAGCTACT TGTAGCATTA GCTATTGGCT GTGTGAGGAA TCTCAAACAG
ATAGTAGACT GTTTGACTGA AATGTATTAC ATGGGCACAG CAATTACTAC TTGTGAAGCA
CTTACTGAGT GGGAATATCT GCCCCCTGTT GGACCCCGCC CACCAAAAGG ATTTGTGGGA
CTCAAAAATG CTGGTGCTAC GTGTTACATG AACTCTGTGA TCCAGCAGCT ATACATGATT
CCTTCTATCA GGAACAGTAT TCTTGCAATT GAAGGCACAG GTAGTGATTT ACACGATGAT
ATGTTCGGGG ATGAGAAGCA GGACAGTGAG AGTAATGTTG ATCCCCGAGA TGATGTATTT
GGATATCCTC ATCAATTTGA AGACAAGCCA GCATTAAGTA AGACAGAAGA TAGGAAAGAG
TATAATATTG GTGTCCTAAG ACACCTTCAG GTCATCTTTG GTCATTTAGC TGCTTCCCAA
CTACAATACT ATGTACCCAG AGGATTTTGG AAACAGTTCA GGCTTTGGGG TGAACCTGTT
AATCTCCGTG AACAACATGA TGCCTTAGAG TTTTTTAATT CTTTGGTGGA TAGTTTAGAT
GAAGCTTTAA AAGCTTTAGG ACACCCGGCT ATACTAAGTA AAGTCCTAGG AGGCTCCTTT
GCTGATCAGA AGATCTGCCA AGGCTGCCCA CATAGGTATG AATGTGAAGA ATCTTTTACA
ACTTTGAATG TGGATATTAG AAATCATCAA AATCTTCTTG ACTCTTTGGA ACAGTATATC
AAAGGAGATT TATTGGAAGG TGCAAATGCA TATCATTGTG AAAAATGTGA TAAAAAGGTT
GACACAGTAA AGCGCCTGCT AATTAAAAAA TTGCCTCGGG TTCTTGCTAT CCAACTCAAA
CGATTTGACT ATGACTGGGA AAGAGAATGT GCAATTAAAT TCAATGATTA TTTTGAATTT
CCTCGAGAGC TGGATATGGG ACCTTACACA GTAGCAGGTG TTGCAAACCT GGAAAGGGAT
AATGTAAACT CAGAAAATGA GTTGATTGAA CAGAAAGAGC AGTCTGACAA TGAAACTGCA
GGAGGCACAA AGTACAGACT TGTAGGAGTG CTTGTACACA GTGGTCAAGC AAGCGGTGGG
CATTATTATT CTTACATCAT TCAAAGGAAT GGTAAAGATG ATCAGACAGA TCACTGGTAT
AAATTTGATG ATGGAGATGT AACAGAATGC AAAATGGATG ATGATGAAGA AATGAAAAAT
CAGTGTTTTG GTGGAGAGTA CATGGGAGAA GTATTTGATC ACATGATGAA GCGCATGTCA
TATAGGCGAC AGAAGAGGTG GTGGAATGCT TACATACTTT TTTATGAACA AATGGATATG
ATAGATGAAG ATGATGAGAT GATAAGATAC ATATCAGAGC TAACTATTGC AAGACCCCAT
CAGATCATTA TGTCACCAGC CATTGAGAGA AGTGTACGGA AACAAAATGT GAAATTTATG
CATAACCGAT TGCAATATAG TTTAGAGTAT TTTCAGTTTG TGAAAAAACT GCTTACATGT
AATGGTGTTT ATTTAAACCC TGCTCCAGGG CAGGATTATT TGTTGCCTGA AGCAGAAGAA
ATTACTATGA TTAGTATTCA GCTTGCTGCT AGATTCCTCT TTACCACTGG ATTTCACACC
AAGAAAATAG TTCGTGGTCC TGCCAGTGAC TGGTATGATG CACTGTGCGT TCTTCTCCGT
CACAGCAAAA ATGTACGTTT TTGGTTTACT CATAATGTCC TTTTTAATGT ATCAAATCGC
TTCTCTGAAT ACCTTCTGGA GTGCCCTAGT GCAGAAGTGA GGGGTGCATT TGCAAAACTT
ATAGTGTTTA TTGCACACTT TTCCTTGCAA GATGGGTCTT GTCCTTCTCC TTTTGCATCT
CCAGGACCTT CTAGTCAGGC ATGTGATAAC TTGAGCTTGA GTGACCACTT ACTAAGAGCC
ACACTAAATC TCTTGAGAAG GGAAGTTTCA GAGCATGGAC ATCATTTACA GCAATATTTT
AATTTGTTTG TAATGTATGC CAATTTAGGT GTGGCAGAAA AAACACAGCT TCTGAAATTG
AATGTACCTG CTACCTTTAT GCTTGTGTCT TTAGACGAAG GACCAGGTCC TCCAATCAAA
TATCAGTATG CTGAATTAGG CAAGTTATAT TCAGTAGTGT CTCAGCTGAT TCGTTGTTGC
AATGTGTCAT CAACAATGCA GTCTTCAATC AATGGTAATC CCCCTCTCCC CAATCCTTTC
GGTGACCTTA ATTTATCACA GCCTATAATG CCAATTCAGC AGAATGTGTT AGACATTTTA
TTTGTGAGAA CAAGTTATGT GAAGAAAATT ATTGAAGACT GCAGTAACTC AGAGGATACC
ATCAAATTAC TTCGCTTTTG CTCTTGGGAG AATCCTCAGT TCTCATCTAC TGTCCTCAGC
GAACTTCTCT GGCAGGTTGC ATATTCATAT ACCTATGAAC TTCGGCCATA TTTAGATCTA
CTTTTCCAAA TTTTACTGAT TGAGGACTCC TGGCAGACTC ACAGAATTCA TAATGCACTT
AAAGGAATTC CAGATGACAG AGATGGGCTG TTCGATACAA TACAGCGCTC GAAGAATCAC
TATCAAAAAC GAGCATATCA GTGCATAAAA TGTATGGTAG CTCTATTTAG CAGTTGTCCT
GTTGCTTACC AGATCTTACA GGGTAACGGA GATCTTAAAA GAAAATGGAC CTGGGCAGTG
GAATGGCTAG GAGATGAACT TGAAAGAAGA CCATATACTG GCAATCCTCA GTATAGTTAC
AACAATTGGT CTCCTCCAGT ACAAAGCAAT GAAACAGCAA ATGGTTATTT CTTAGAAAGA
TCACATAGTG CTAGGATGAC ACTTGCAAAA GCTTGTGAAC TCTGTCCAGA AGAGGAGCCA
GATGACCAGG ATGCCCCAGA TGAGCATGAG CCCTCTCCAT CAGAAGATGC CCCATTATAT
CCTCATTCAC CTGCCTCTCA GTATCAACAG AATAATCATG TACATGGACA GCCATATACA
GGACCAGCAG CACATCACTT GAACAACCCT CAGAAAACAG GCCAACGAAC ACAAGAAAAT
TATGAAGGCA ATGAAGAAGT ATCCTCACCT CAGATGAAGG ATCAGTGA

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

RefSeq NP_004645.2
CDS946..8613
Misc Feature(1)709..711(+)
Misc Feature(2)5614..6825(+)
Misc Feature(3)5617..6810(+)
Misc Feature(4)5632..6657(+)
Exon (1)1..825
Gene:USP9Y
Gene Synonym:
Exon (2)826..885
Gene:USP9Y
Gene Synonym:
Exon (3)886..1041
Gene:USP9Y
Gene Synonym:
Exon (4)1042..1190
Gene:USP9Y
Gene Synonym:
Exon (5)1191..1270
Gene:USP9Y
Gene Synonym:
Exon (6)1271..1383
Gene:USP9Y
Gene Synonym:
Exon (7)1384..1602
Gene:USP9Y
Gene Synonym:
Exon (8)1603..1718
Gene:USP9Y
Gene Synonym:
Exon (9)1719..1970
Gene:USP9Y
Gene Synonym:
Exon (10)1971..2109
Gene:USP9Y
Gene Synonym:
Exon (11)2110..2262
Gene:USP9Y
Gene Synonym:
Exon (12)2263..2367
Gene:USP9Y
Gene Synonym:
Exon (13)2368..2574
Gene:USP9Y
Gene Synonym:
Exon (14)2575..2711
Gene:USP9Y
Gene Synonym:
Exon (15)2712..2845
Gene:USP9Y
Gene Synonym:
Exon (16)2846..2933
Gene:USP9Y
Gene Synonym:
Exon (17)2934..3276
Gene:USP9Y
Gene Synonym:
Exon (18)3277..3372
Gene:USP9Y
Gene Synonym:
Exon (19)3373..3584
Gene:USP9Y
Gene Synonym:
Exon (20)3585..3825
Gene:USP9Y
Gene Synonym:
Exon (21)3826..3975
Gene:USP9Y
Gene Synonym:
Exon (22)3976..4096
Gene:USP9Y
Gene Synonym:
Exon (23)4097..4227
Gene:USP9Y
Gene Synonym:
Exon (24)4228..4506
Gene:USP9Y
Gene Synonym:
Exon (25)4507..4632
Gene:USP9Y
Gene Synonym:
Exon (26)4633..4758
Gene:USP9Y
Gene Synonym:
Exon (27)4759..4928
Gene:USP9Y
Gene Synonym:
Exon (28)4929..5037
Gene:USP9Y
Gene Synonym:
Exon (29)5038..5184
Gene:USP9Y
Gene Synonym:
Exon (30)5185..5331
Gene:USP9Y
Gene Synonym:
Exon (31)5332..5554
Gene:USP9Y
Gene Synonym:
Exon (32)5555..5775
Gene:USP9Y
Gene Synonym:
Exon (33)5776..5966
Gene:USP9Y
Gene Synonym:
Exon (34)5967..6140
Gene:USP9Y
Gene Synonym:
Exon (35)6141..6282
Gene:USP9Y
Gene Synonym:
Exon (36)6283..7033
Gene:USP9Y
Gene Synonym:
Exon (37)7034..7157
Gene:USP9Y
Gene Synonym:
Exon (38)7158..7383
Gene:USP9Y
Gene Synonym:
Exon (39)7384..7513
Gene:USP9Y
Gene Synonym:
Exon (40)7514..7699
Gene:USP9Y
Gene Synonym:
Exon (41)7700..7920
Gene:USP9Y
Gene Synonym:
Exon (42)7921..8009
Gene:USP9Y
Gene Synonym:
Exon (43)8010..8166
Gene:USP9Y
Gene Synonym:
Exon (44)8167..8379
Gene:USP9Y
Gene Synonym:
Exon (45)8380..8475
Gene:USP9Y
Gene Synonym:
Exon (46)8476..10040
Gene:USP9Y
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_004654
Organism Homo sapiens (human)
Definition Homo sapiens ubiquitin specific peptidase 9, Y-linked (USP9Y), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
NM_004654

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
ATGACAGCCA TCACTCATGG CTCTCCAGTA GGAGGGAACG ACAGCCAGGG CCAGGTTCTT 
GATGGCCAGT CTCAGCATCT CTTCCAACAG AACCAGACTT CATCACCTGA TTCTTCCAAT
GAGAATTCCG TAGCAACTCC TCCTCCAGAG GAACAAGGGC AAGGTGATGC CCCACCACAG
CATGAAGATG AAGAGCCTGC ATTTCCACAT ACTGAGCTGG CAAACCTGGA TGACATGATC
AACAGGCCTC GATGGGTGGT TCCTGTTTTG CCAAAAGGGG AATTAGAAGT GCTTTTAGAA
GCTGCTATTG ATCTTAGTGT AAAAGGCCTT GATGTTAAAA GTGAAGCATG CCAACGTTTT
TTTCGAGATG GACTAACAAT ATCTTTCACT AAAATTCTTA TGGATGAGGC TGTGAGTGGC
TGGAAGTTTG AAATTCATAG ATGTATTATT AACAATACTC ATCGCCTAGT GGAGCTTTGT
GTGGCCAAGT TGTCCCAAGA TTGGTTTCCA CTTCTAGAAC TTCTCGCCAT GGCCTTAAAT
CCTCACTGCA AGTTTCATAT CTACAATGGT ACACGTCCGT GTGAATTAAT TTCCTCAAAT
GCTCAGTTGC CTGAAGATGA ATTATTTGCT CGTTCTTCAG ATCCTCGATC ACCAAAAGGT
TGGCTAGTGG ATCTCATCAA TAAATTTGGC ACATTAAATG GGTTCCAGAT TTTGCATGAT
CGTTTTTTTA ATGGATCAGC ATTAAATATT CAAATAATTG CAGCTCTTAT TAAACCATTT
GGACAATGCT ATGAGTTTCT CAGTCAACAT ACACTGAAAA AGTACTTCAT TCCAGTTATA
GAAATAGTTC CACATTTATT GGAAAACTTA ACTGATGAAG AACTGAAAAA GGAGGCAAAG
AATGAAGCCA AAAATGATGC CCTTTCAATG ATTATTAAAT CTTTGAAGAA CTTAGCTTCA
AGAATTTCAG GACAAGATGA GACTATAAAA AATTTGGAAA TTTTTAGGTT AAAGATGATA
CTCAGATTGT TGCAAATTTC CTCTTTTAAT GGAAAGATGA ATGCACTGAA TGAAATAAAT
AAGGTTATAT CTAGTGTATC ATATTATACT CATCGGCATA GTAATCCTGA GGAGGAAGAA
TGGCTGACAG CTGAGCGAAT GGCAGAATGG ATACAGCAAA ATAATATCTT ATCCATAGTC
TTGCAAGACA GTCTTCATCA ACCACAATAT GTAGAAAAGC TAGAGAAAAT TCTTCGTTTT
GTGATTAAAG AAAAGGCTCT TACATTACAG GACCTTGATA ATATCTGGGC AGCACAGGCA
GGAAAACATG AAGCCATTGT GAAGAATGTA CATGATCTGC TAGCAAAGTT GGCTTGGGAT
TTTTCTCCTG GACAACTTGA TCATCTTTTT GATTGCTTTA AGGCAAGTTG GACAAATGCA
AGTAAAAAGC AACGTGAAAA GCTCCTTGAG TTGATACGCC GTCTTGCAGA AGATGATAAA
GATGGTGTGA TGGCACACAA AGTGTTGAAC CTTCTTTGGA ACCTGGCTCA GAGTGATGAT
GTGCCTGTAG ACATCATGGA CCTTGCTCTT AGTGCCCACA TAAAAATACT AGATTATAGT
TGTTCCCAGG ATCGAGATGC ACAGAAGATC CAGTGGATAG ATCACTTTAT AGAAGAACTT
CGCACAAATG ACAAGTGGGT AATTCCTGCT CTGAAACAAA TAAGAGAAAT TTGTAGTTTG
TTTGGTGAAG CATCTCAAAA TTTGAGTCAA ACTCAGCGAA GTCCCCACAT ATTTTATCGC
CATGATTTAA TCAACCAGCT TCAACAAAAT CATGCTTTAG TTACTTTGGT AGCAGAAAAC
CTTGCAACCT ACATGAATAG CATCAGATTG TATGCTGGAG ATCATGAAGA CTATGATCCA
CAAACAGTGA GGCTTGGAAG TCGATACAGT CATGTTCAAG AAGTTCAAGA ACGACTAAAC
TTCCTTAGAT TTTTACTGAA GGATGGCCAA CTGTGGCTCT GTGCTCCTCA GGCAAAACAA
ATATGGAAGT GCTTAGCAGA AAATGCAGTT TATCTTTGTG ATCGTGAAGC CTGTTTTAAG
TGGTATTCCA AGTTAATGGG GGATGAACCA GACTTGGATC CTGATATTAA TAAGGACTTC
TTTGAAAGTA ATGTACTTCA GCTTGATCCT TCCCTTTTAA CTGAAAATGG AATGAAATGC
TTTGAAAGAT TTTTCAAAGC TGTCAATTGT CGAGAAAGGA AACTAATAGC AAAAAGAAGA
TCCTATATGA TGGATGATTT GGAATTAATT GGACTAGACT ACCTTTGGAG GGTTGTGATT
CAGAGTAGTG ACGAGATTGC TAACAGAGCT ATAGATCTTC TTAAAGAGAT ATACACAAAC
CTTGGCCCAA GATTAAAAGC CAATCAGGTG GTTATCCATG AAGACTTCAT TCAGTCTTGC
TTTGATCGTT TAAAAGCATC ATATGATACA CTGTGTGTTT TTGATGGTGA CAAAAACAGC
ATTAATTGTG CAAGACAAGA AGCCATTCGA ATGGTTAGAG TATTAACTGT TATAAAAGAG
TACATTAATG AATGTGACAG TGATTATCAC AAGGAAAGAA TGATTCTACC TATGTCGAGA
GCATTTCGTG GCAAACACCT CTCTCTTATA GTTCGGTTTC CAAACCAGGG CAGACAGGTT
GATGAGTTGG ATATATGGTC TCATACGAAT GACACAATTG GTTCAGTACG GCGATGTATT
GTTAATCGTA TTAAAGCCAA TGTAGCCCAC AAAAAAATTG AACTTTTTGT GGGTGGTGAG
CTGATAGATT CTGAAGATGA CAGAAAGCTA ATTGGACAAT TAAACTTAAA AGATAAATCT
CTAATTACAG CCAAACTTAC ACAAATAAAT TTCAATATGC CATCAAGTCC TGATAGCTCT
TCCGATTCCT CAACTGCATC TCCTGGAAAC CACCGTAATC ATTACAATGA TGGTCCCAAT
CTAGAGGTGG AAAGTTGTTT GCCTGGGGTG ATAATGTCAG TGCATCCCAG ATACATCTCT
TTCCTTTGGC AAGTTGCAGA CTTAGGTAGC AACCTGAATA TGCCACCTCT TAGAGATGGA
GCAAGAGTAC TTATGAAACT TATGCCACCA GATAGAACAG CTGTAGAAAA ATTACGAGCT
GTTTGTTTGG ACCATGCAAA ACTTGGAGAA GGCAAACTTA GTCCACCCCT TGACTCTCTT
TTCTTTGGTC CTTCTGCCTC CCAAGTTCTA TACCTAACAG AGGTAGTTTA TGCCTTGTTA
ATGCCTGCTG GTGTGCCTCT AACTGATGGG TCCTCTGACT TTCAAGTTCA CTTCTTGAAA
AGTGGTGGCT TACCTCTTGT ACTGAGTATG CTAATAAGAA ATAACTTCTT GCCAAATACA
GATATGGAAA CTCGAAGGGG TGCTTATTTA AATGCTCTTA AAATAGCCAA ACTGTTGTTA
ACTGCGATTG GCTATGGCCA TGTTCGAGCT GTAGCAGAAG CTTGTCAGCC AGTTGTAGAT
GGTACAGACC CCATAACACA GATTAACCAA GTTACTCATG ATCAAGCAGT GGTGCTACAA
AGTGCCCTTC AGAGCATTCC TAATCCCTCA TCCGAGTGCG TACTTAGAAA TGAGTCCATA
CTTCTTGCTC AGGAAATATC TAATGAGGCT TCAAGATATA TGCCTGATAT TTGTGTAATT
AGGGCTATAC AGAAAATTAT CTGGGCATCA GCATGTGGGG CATTAGGACT AGTTTTTAGC
CCAAATGAAG AAATAACTAA AATTTATCAG ATGACCACCA ATGGAAGCAA TAAGCTGGAG
GTGGAAGATG AACAAGTTTG CTGTGAAGCA CTGGAAGTGA TGACCTTATG TTTTGCTTTA
CTTCCAACAG CGTTGGATGC ACTTAGTAAA GAAAAAGCCT GGCAGACCTT CATCATTGAC
TTATTATTGC ACTGTCCAAG CAAAACTGTT CGTCAGTTGG CACAGGAGCA GTTCTTTTTA
ATGTGCACCA GATGTTGCAT GGGACACAGG CCTCTGCTTT TCTTCATTAC TTTACTCTTT
ACCATACTGG GGAGCACAGC AAGAGAGAAG GGTAAATATT CAGGTGATTA TTTCACACTT
TTACGGCACC TTCTCAATTA TGCTTACAAT GGCAATATTA ACATACCCAA TGCTGAAGTT
CTTCTTGTCA GTGAAATTGA TTGGCTCAAA AGGATTAGGG ATAATGTTAA AAACACAGGT
GAAACAGGTG TCGAAGAGCC AATACTGGAA GGCCACCTTG GGGTAACAAA AGAGTTATTG
GCCTTTCAAA CTTCTGAGAA AAAGTATCAC TTTGGTTGTG AAAAAGGAGG TGCTAATCTC
ATTAAAGAAT TAATTGATGA TTTCATCTTT CCCGCATCCA AAGTTTACCT GCAGTATTTA
AGAAGTGGAG AACTACCAGC TGAGCAGGCT ATTCCAGTCT GTAGTTCACC CGTTACCATC
AATGCCGGTT TTGAGCTACT TGTAGCATTA GCTATTGGCT GTGTGAGGAA TCTCAAACAG
ATAGTAGACT GTTTGACTGA AATGTATTAC ATGGGCACAG CAATTACTAC TTGTGAAGCA
CTTACTGAGT GGGAATATCT GCCCCCTGTT GGACCCCGCC CACCAAAAGG ATTTGTGGGA
CTCAAAAATG CTGGTGCTAC GTGTTACATG AACTCTGTGA TCCAGCAGCT ATACATGATT
CCTTCTATCA GGAACAGTAT TCTTGCAATT GAAGGCACAG GTAGTGATTT ACACGATGAT
ATGTTCGGGG ATGAGAAGCA GGACAGTGAG AGTAATGTTG ATCCCCGAGA TGATGTATTT
GGATATCCTC ATCAATTTGA AGACAAGCCA GCATTAAGTA AGACAGAAGA TAGGAAAGAG
TATAATATTG GTGTCCTAAG ACACCTTCAG GTCATCTTTG GTCATTTAGC TGCTTCCCAA
CTACAATACT ATGTACCCAG AGGATTTTGG AAACAGTTCA GGCTTTGGGG TGAACCTGTT
AATCTCCGTG AACAACATGA TGCCTTAGAG TTTTTTAATT CTTTGGTGGA TAGTTTAGAT
GAAGCTTTAA AAGCTTTAGG ACACCCGGCT ATACTAAGTA AAGTCCTAGG AGGCTCCTTT
GCTGATCAGA AGATCTGCCA AGGCTGCCCA CATAGGTATG AATGTGAAGA ATCTTTTACA
ACTTTGAATG TGGATATTAG AAATCATCAA AATCTTCTTG ACTCTTTGGA ACAGTATATC
AAAGGAGATT TATTGGAAGG TGCAAATGCA TATCATTGTG AAAAATGTGA TAAAAAGGTT
GACACAGTAA AGCGCCTGCT AATTAAAAAA TTGCCTCGGG TTCTTGCTAT CCAACTCAAA
CGATTTGACT ATGACTGGGA AAGAGAATGT GCAATTAAAT TCAATGATTA TTTTGAATTT
CCTCGAGAGC TGGATATGGG ACCTTACACA GTAGCAGGTG TTGCAAACCT GGAAAGGGAT
AATGTAAACT CAGAAAATGA GTTGATTGAA CAGAAAGAGC AGTCTGACAA TGAAACTGCA
GGAGGCACAA AGTACAGACT TGTAGGAGTG CTTGTACACA GTGGTCAAGC AAGCGGTGGG
CATTATTATT CTTACATCAT TCAAAGGAAT GGTAAAGATG ATCAGACAGA TCACTGGTAT
AAATTTGATG ATGGAGATGT AACAGAATGC AAAATGGATG ATGATGAAGA AATGAAAAAT
CAGTGTTTTG GTGGAGAGTA CATGGGAGAA GTATTTGATC ACATGATGAA GCGCATGTCA
TATAGGCGAC AGAAGAGGTG GTGGAATGCT TACATACTTT TTTATGAACA AATGGATATG
ATAGATGAAG ATGATGAGAT GATAAGATAC ATATCAGAGC TAACTATTGC AAGACCCCAT
CAGATCATTA TGTCACCAGC CATTGAGAGA AGTGTACGGA AACAAAATGT GAAATTTATG
CATAACCGAT TGCAATATAG TTTAGAGTAT TTTCAGTTTG TGAAAAAACT GCTTACATGT
AATGGTGTTT ATTTAAACCC TGCTCCAGGG CAGGATTATT TGTTGCCTGA AGCAGAAGAA
ATTACTATGA TTAGTATTCA GCTTGCTGCT AGATTCCTCT TTACCACTGG ATTTCACACC
AAGAAAATAG TTCGTGGTCC TGCCAGTGAC TGGTATGATG CACTGTGCGT TCTTCTCCGT
CACAGCAAAA ATGTACGTTT TTGGTTTACT CATAATGTCC TTTTTAATGT ATCAAATCGC
TTCTCTGAAT ACCTTCTGGA GTGCCCTAGT GCAGAAGTGA GGGGTGCATT TGCAAAACTT
ATAGTGTTTA TTGCACACTT TTCCTTGCAA GATGGGTCTT GTCCTTCTCC TTTTGCATCT
CCAGGACCTT CTAGTCAGGC ATGTGATAAC TTGAGCTTGA GTGACCACTT ACTAAGAGCC
ACACTAAATC TCTTGAGAAG GGAAGTTTCA GAGCATGGAC ATCATTTACA GCAATATTTT
AATTTGTTTG TAATGTATGC CAATTTAGGT GTGGCAGAAA AAACACAGCT TCTGAAATTG
AATGTACCTG CTACCTTTAT GCTTGTGTCT TTAGACGAAG GACCAGGTCC TCCAATCAAA
TATCAGTATG CTGAATTAGG CAAGTTATAT TCAGTAGTGT CTCAGCTGAT TCGTTGTTGC
AATGTGTCAT CAACAATGCA GTCTTCAATC AATGGTAATC CCCCTCTCCC CAATCCTTTC
GGTGACCTTA ATTTATCACA GCCTATAATG CCAATTCAGC AGAATGTGTT AGACATTTTA
TTTGTGAGAA CAAGTTATGT GAAGAAAATT ATTGAAGACT GCAGTAACTC AGAGGATACC
ATCAAATTAC TTCGCTTTTG CTCTTGGGAG AATCCTCAGT TCTCATCTAC TGTCCTCAGC
GAACTTCTCT GGCAGGTTGC ATATTCATAT ACCTATGAAC TTCGGCCATA TTTAGATCTA
CTTTTCCAAA TTTTACTGAT TGAGGACTCC TGGCAGACTC ACAGAATTCA TAATGCACTT
AAAGGAATTC CAGATGACAG AGATGGGCTG TTCGATACAA TACAGCGCTC GAAGAATCAC
TATCAAAAAC GAGCATATCA GTGCATAAAA TGTATGGTAG CTCTATTTAG CAGTTGTCCT
GTTGCTTACC AGATCTTACA GGGTAACGGA GATCTTAAAA GAAAATGGAC CTGGGCAGTG
GAATGGCTAG GAGATGAACT TGAAAGAAGA CCATATACTG GCAATCCTCA GTATAGTTAC
AACAATTGGT CTCCTCCAGT ACAAAGCAAT GAAACAGCAA ATGGTTATTT CTTAGAAAGA
TCACATAGTG CTAGGATGAC ACTTGCAAAA GCTTGTGAAC TCTGTCCAGA AGAGGAGCCA
GATGACCAGG ATGCCCCAGA TGAGCATGAG CCCTCTCCAT CAGAAGATGC CCCATTATAT
CCTCATTCAC CTGCCTCTCA GTATCAACAG AATAATCATG TACATGGACA GCCATATACA
GGACCAGCAG CACATCACTT GAACAACCCT CAGAAAACAG GCCAACGAAC ACAAGAAAAT
TATGAAGGCA ATGAAGAAGT ATCCTCACCT CAGATGAAGG ATCAGTGA

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

 
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