USPL1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	USPL1
Entrez Gene ID	100229100
Full Name	ubiquitin specific peptidase like 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002193245.3	XP_002193281.1	SUMO-specific isopeptidase USPL1
XM_030274558.1	XP_030130418.1	SUMO-specific isopeptidase USPL1 isoform X1
XM_030274565.1	XP_030130425.1	SUMO-specific isopeptidase USPL1 isoform X2

Pathways from BioSystems
Gene Ontology

The following USPL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USPL1 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)
OTd25145	XM_030274565.1 Latest version!	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd04501	XM_002193245.3 Latest version!	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd25144	XM_030274558.1 Latest version!	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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.

Reference Sequences (Refseq)

USPL1 ( XM_030274565.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030130425.1 Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OTd25145
Clone ID Related Accession (Same CDS sequence)	XM_030274565.1
Accession Version	XM_030274565.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2763bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	SUMO-specific isopeptidase USPL1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCAGAACA TGGATTTTGA AACAACCACC AAAACCAGCA ACTACCAAGA AAGTCCACCA 
AAGACTTCTA GTCCCAAAAC ACAACTGTTG CCAAATTCTG AGCTTCTGTC AACAGCATCT 
GAAATTTCAC TCAAAGAGGA TAAAAGTTCC ACTAATAAAA GAGATTTGTG TCTTCAGTGG 
AGAAACATAA ACAATCTTTG TTGGTTAGAT TGTATTTTGT CAGCACTAGT ACACTTAGAA 
ACATTAAAAT CTGCTCTAGC AGAAGAATAT AATGATGGAA AATGTTTACT CCAGAAACTC 
TTAACAAAGT ATAATCAAGC ATCTATTCTT CTGAATACCT GTAAAAGGAG TAAAGTAAAA 
GATGTTCTTC CAAAAGCAGA ATCTCAGCTC AATGAAATCA GAAACGTAAT GTTTACAGAG 
CTTCAGCCTC AGCTGAGGTG TGAATTGGGT AATATGAAGA ACCCAGTGTT TGCACTTCAG 
CTACTCTTAC AAGTGGATCA ACAAGCTGAG AGATTATTCT TGCATTCTTT TTCATGCAAG 
TCTGAATGTG TACATTGTGG CCACAATTAC CAGGACCGAT TGAAGAAAAC ACTAACAACG 
TTTACAAATG TAATCCCTGA TTGGCATCCA CTTAATGCTG TTCATATTGG ACCATGTATT 
ATATGTGGAA ATACATCTCA AAGACAGCAG ATGATCTTGG AAAAAGCACC GTCAATATTA 
ATGTTACATT TTGTGGAAGG CTTGCCACAT AACAACCTGG AGAAATACTC GTTTAAATTT 
GAGGAAGACA GCTACCAAAT AACATCTGTT GTTCAGTACC AAACAGATAA GAAGCACTTC 
ATAAGCTGGT CTTTGAATCC TGATGGAACT TGGCTTGAAT GTGATGACTT AAAGGGTCCA 
TATTGCCAGA AGCGTAAAAG ATTTGAAGTT CCTCCTTCAG AGATTCATAT TGTTATCTGG 
GAAAAGAAAG CATCCCATGT GCCACAAGAA CCGAATTCAC AGTTCCAAAG TAAAAATAGT 
GAAGATATTC CTTTTAATAA TGTACATTCA AATTCCACAG TGTTGCAAAC TGGTTTTGAT 
AACACTGTCG GCAAAACACC TGCAGAACAC CACAAAGAGG ATTCTGTGAG GAGTCCAGAG 
AAGAAACAAC AGCAAGTAAC TGAGGACAAA AGTATTGTTC ATCATGGTTC AGAAAATCTG 
GCAGATGGTG ACCTTGTAAC ACTGATGCTT GAAGAAGTTC CAGTTGACTC GGAAGATAAA 
TCAGTGCCTA ATGGACGGAT GGTGGGCAAT AACTTTCTTG ATGGATGGGG CACACCAGAA 
CAGGAGGAAC CAGCTTTTTC ACTTAGCACT CCATATGCAG GAGAGTTTGC TGGAACTAGT 
CTAGCTATGA ACAATAAATC CATGTTATAT GAAAATTCCA GTATTTGCTT ACCTCTAGAA 
GAGCTGAACT CAGTAAGTAT TACTGCTCCT GTGCCCAAAA AACATGATGC TGATTCATCT 
GACTCATTGC CTTCCCAATT AAATGAGAGA ACTAATTTAG CTAACAGAGA AAATGGATTA 
AATTCAGAAC TACTGCTAAA CAAGTTGCTA GCAGTAGAAA ATACTATACA AAATCCACCT 
GACTTGAAAG ATGCAAGCAA AACTGTAGTT AATTCTCAAG TTGGCAGTTC TTCTGGTGTC 
AGTAATTCAG TTCAGTCCTC ATACAAAGAC CGAAAAGGAG GATTTGTAGG AAGCTGGGTA 
AAGAAATTAA GCAAGAGTAC TTCTTTCATG CCTTCAAGTT CCTCAGCTCT CAAGAATGAG 
AGAAATTGCA AAACTCCCTC AGTGCAAAGA ATAAGTGAAG TTTGGTTGCC AATGAAGGGC 
GCAAGTAACT TTGGTGGATT TCAAAGCAGA GGTACAAAGA AAACAACTGA GACCCCGAAG 
TTACTGGCTC CTCAGAGTAA CAATGCTCAT CCTTTATCAA ATTTCAAAGG ATTTTCTCAA 
AGCACTTATC TTCCAACAGC AAATCATACC ACTATTGCAG GTCCAACTTG GACTAAGTCA 
GAAAGAACTT TGGGTACCCC AGGTAAAGTG ACTCAGTTCC CTTCACCTGG CTATAACTCT 
GGTAAGGCAG AAGAGTCAGA CAGTGACAAA ACAAAAAAAC TTCGCCTAAA ATTGTTAAAA 
AAACTTAATG CTAAAAAGAA GAGGTTGGCT TCACTGGATA GATTAGCAGT GGAACAGAGG 
AAACGGGAAA AACATGTGAG TGGAGACATA AGCACCCCAT CACAGACTGA GTCTCAAAAT 
GACAGTGAAT TATTGCAGAG CTTTTTAAGG GAGCTGCAGT ATCAGATTGA TGTCACAGGC 
CATCAATCTG ACTTGAATGC AAACACTGTG CCAGGGTGCA CTGGCCATGA TAACACTGAC 
GAAATACTGG CGGAATTACT GTCCCCTACT TCGACTGTCA CTTCCTTGGA GGCTCCAAAG 
AGCGAAGATG AGTGTATGTA CATGGAAATG GTGCACAGCA GCGTGGCAAC CACCGTGCCC 
TATGAGAGCA CCAGTGTGCC ACAGGCAGCA GTGACAAGTG AGGACCACAA TTACTACAGT 
CCTGTAAAGG ACACTAATTT GGAGCTTGAT GCAATAAACA AACACAGTGT GAAAAAACTT 
TCTTTTGAAA GTCCTACAAG AGATGATATC CTCGAAGACC TGTTCTCCAT TTCAGCACCA 
AGCTCAATGT CAGGTGACAT GGATTTACCT CATTTTGATG AAACTCTGTT TGAAACTTGG 
TAA

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

RefSeq	XP_030130425.1
CDS	446..3208
Translation	MQNMDFETTTKTSNYQESPPKTSSPKTQLLPNSELLSTASEISLKEDKSSTNKRDLCLQWRNINNLCWLDCILSALVHLETLKSALAEEYNDGKCLLQKLLTKYNQASILLNTCKRSKVKDVLPKAESQLNEIRNVMFTELQPQLRCELGNMKNPVFALQLLLQVDQQAERLFLHSFSCKSECVHCGHNYQDRLKKTLTTFTNVIPDWHPLNAVHIGPCIICGNTSQRQQMILEKAPSILMLHFVEGLPHNNLEKYSFKFEEDSYQITSVVQYQTDKKHFISWSLNPDGTWLECDDLKGPYCQKRKRFEVPPSEIHIVIWEKKASHVPQEPNSQFQSKNSEDIPFNNVHSNSTVLQTGFDNTVGKTPAEHHKEDSVRSPEKKQQQVTEDKSIVHHGSENLADGDLVTLMLEEVPVDSEDKSVPNGRMVGNNFLDGWGTPEQEEPAFSLSTPYAGEFAGTSLAMNNKSMLYENSSICLPLEELNSVSITAPVPKKHDADSSDSLPSQLNERTNLANRENGLNSELLLNKLLAVENTIQNPPDLKDASKTVVNSQVGSSSGVSNSVQSSYKDRKGGFVGSWVKKLSKSTSFMPSSSSALKNERNCKTPSVQRISEVWLPMKGASNFGGFQSRGTKKTTETPKLLAPQSNNAHPLSNFKGFSQSTYLPTANHTTIAGPTWTKSERTLGTPGKVTQFPSPGYNSGKAEESDSDKTKKLRLKLLKKLNAKKKRLASLDRLAVEQRKREKHVSGDISTPSQTESQNDSELLQSFLRELQYQIDVTGHQSDLNANTVPGCTGHDNTDEILAELLSPTSTVTSLEAPKSEDECMYMEMVHSSVATTVPYESTSVPQAAVTSEDHNYYSPVKDTNLELDAINKHSVKKLSFESPTRDDILEDLFSISAPSSMSGDMDLPHFDETLFETW

Target ORF information:

RefSeq Version	XM_030274565.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030274565.1

ORF Insert Sequence:

ATGCAGAACA TGGATTTTGA AACAACCACC AAAACCAGCA ACTACCAAGA AAGTCCACCA 
AAGACTTCTA GTCCCAAAAC ACAACTGTTG CCAAATTCTG AGCTTCTGTC AACAGCATCT 
GAAATTTCAC TCAAAGAGGA TAAAAGTTCC ACTAATAAAA GAGATTTGTG TCTTCAGTGG 
AGAAACATAA ACAATCTTTG TTGGTTAGAT TGTATTTTGT CAGCACTAGT ACACTTAGAA 
ACATTAAAAT CTGCTCTAGC AGAAGAATAT AATGATGGAA AATGTTTACT CCAGAAACTC 
TTAACAAAGT ATAATCAAGC ATCTATTCTT CTGAATACCT GTAAAAGGAG TAAAGTAAAA 
GATGTTCTTC CAAAAGCAGA ATCTCAGCTC AATGAAATCA GAAACGTAAT GTTTACAGAG 
CTTCAGCCTC AGCTGAGGTG TGAATTGGGT AATATGAAGA ACCCAGTGTT TGCACTTCAG 
CTACTCTTAC AAGTGGATCA ACAAGCTGAG AGATTATTCT TGCATTCTTT TTCATGCAAG 
TCTGAATGTG TACATTGTGG CCACAATTAC CAGGACCGAT TGAAGAAAAC ACTAACAACG 
TTTACAAATG TAATCCCTGA TTGGCATCCA CTTAATGCTG TTCATATTGG ACCATGTATT 
ATATGTGGAA ATACATCTCA AAGACAGCAG ATGATCTTGG AAAAAGCACC GTCAATATTA 
ATGTTACATT TTGTGGAAGG CTTGCCACAT AACAACCTGG AGAAATACTC GTTTAAATTT 
GAGGAAGACA GCTACCAAAT AACATCTGTT GTTCAGTACC AAACAGATAA GAAGCACTTC 
ATAAGCTGGT CTTTGAATCC TGATGGAACT TGGCTTGAAT GTGATGACTT AAAGGGTCCA 
TATTGCCAGA AGCGTAAAAG ATTTGAAGTT CCTCCTTCAG AGATTCATAT TGTTATCTGG 
GAAAAGAAAG CATCCCATGT GCCACAAGAA CCGAATTCAC AGTTCCAAAG TAAAAATAGT 
GAAGATATTC CTTTTAATAA TGTACATTCA AATTCCACAG TGTTGCAAAC TGGTTTTGAT 
AACACTGTCG GCAAAACACC TGCAGAACAC CACAAAGAGG ATTCTGTGAG GAGTCCAGAG 
AAGAAACAAC AGCAAGTAAC TGAGGACAAA AGTATTGTTC ATCATGGTTC AGAAAATCTG 
GCAGATGGTG ACCTTGTAAC ACTGATGCTT GAAGAAGTTC CAGTTGACTC GGAAGATAAA 
TCAGTGCCTA ATGGACGGAT GGTGGGCAAT AACTTTCTTG ATGGATGGGG CACACCAGAA 
CAGGAGGAAC CAGCTTTTTC ACTTAGCACT CCATATGCAG GAGAGTTTGC TGGAACTAGT 
CTAGCTATGA ACAATAAATC CATGTTATAT GAAAATTCCA GTATTTGCTT ACCTCTAGAA 
GAGCTGAACT CAGTAAGTAT TACTGCTCCT GTGCCCAAAA AACATGATGC TGATTCATCT 
GACTCATTGC CTTCCCAATT AAATGAGAGA ACTAATTTAG CTAACAGAGA AAATGGATTA 
AATTCAGAAC TACTGCTAAA CAAGTTGCTA GCAGTAGAAA ATACTATACA AAATCCACCT 
GACTTGAAAG ATGCAAGCAA AACTGTAGTT AATTCTCAAG TTGGCAGTTC TTCTGGTGTC 
AGTAATTCAG TTCAGTCCTC ATACAAAGAC CGAAAAGGAG GATTTGTAGG AAGCTGGGTA 
AAGAAATTAA GCAAGAGTAC TTCTTTCATG CCTTCAAGTT CCTCAGCTCT CAAGAATGAG 
AGAAATTGCA AAACTCCCTC AGTGCAAAGA ATAAGTGAAG TTTGGTTGCC AATGAAGGGC 
GCAAGTAACT TTGGTGGATT TCAAAGCAGA GGTACAAAGA AAACAACTGA GACCCCGAAG 
TTACTGGCTC CTCAGAGTAA CAATGCTCAT CCTTTATCAA ATTTCAAAGG ATTTTCTCAA 
AGCACTTATC TTCCAACAGC AAATCATACC ACTATTGCAG GTCCAACTTG GACTAAGTCA 
GAAAGAACTT TGGGTACCCC AGGTAAAGTG ACTCAGTTCC CTTCACCTGG CTATAACTCT 
GGTAAGGCAG AAGAGTCAGA CAGTGACAAA ACAAAAAAAC TTCGCCTAAA ATTGTTAAAA 
AAACTTAATG CTAAAAAGAA GAGGTTGGCT TCACTGGATA GATTAGCAGT GGAACAGAGG 
AAACGGGAAA AACATGTGAG TGGAGACATA AGCACCCCAT CACAGACTGA GTCTCAAAAT 
GACAGTGAAT TATTGCAGAG CTTTTTAAGG GAGCTGCAGT ATCAGATTGA TGTCACAGGC 
CATCAATCTG ACTTGAATGC AAACACTGTG CCAGGGTGCA CTGGCCATGA TAACACTGAC 
GAAATACTGG CGGAATTACT GTCCCCTACT TCGACTGTCA CTTCCTTGGA GGCTCCAAAG 
AGCGAAGATG AGTGTATGTA CATGGAAATG GTGCACAGCA GCGTGGCAAC CACCGTGCCC 
TATGAGAGCA CCAGTGTGCC ACAGGCAGCA GTGACAAGTG AGGACCACAA TTACTACAGT 
CCTGTAAAGG ACACTAATTT GGAGCTTGAT GCAATAAACA AACACAGTGT GAAAAAACTT 
TCTTTTGAAA GTCCTACAAG AGATGATATC CTCGAAGACC TGTTCTCCAT TTCAGCACCA 
AGCTCAATGT CAGGTGACAT GGATTTACCT CATTTTGATG AAACTCTGTT TGAAACTTGG 
TAA

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

USPL1 ( XM_002193245.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002193281.1 Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), mRNA.

Price & Availability↑

CloneID	OTd04501
Clone ID Related Accession (Same CDS sequence)	XM_002193245.3
Accession Version	XM_002193245.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3288bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	SUMO-specific isopeptidase USPL1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197691.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002193245.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGATA CCCAGAAGAC TACAAATGGT TTGCAAGTGA TTGGAGAAGG GACTGGTATA 
GGGAAATCGA CACTCCACAT GGTGGGGTAT TTGGGAAAAA ACTGTAGTCC TGTGGAAACA 
GCTGCACATG AATGTTGTCC AGTCTGCAAA GAGAAGGGTC AGATCCAAGG CTTACGGACT 
TACCGCCTTA ATTTTCAAGA GTCCATTTTC CTTTGTGAAA ATCCTCAGTG CATCTACCCA 
CTTGGTTATA AACCATTAAA CAGCATAATT ACTTCTACTG GTTCAGAAAA TCACCAAGTT 
CCATCTACTC ACAAGAAAAG GAAATTAGGT GGTACCAGTG ACTTTTCTGC TGTTGGATCA 
GATCCAAAAA AAGCACAAAC TAACAACGTG CTCAATGTTG AGCACACCAT TAGTGCAGAC 
TCCATTGTGC AAGGCTGCCA AAATAGTTTG TGTATTCCCA AGACAAGCCT CCACGATGTA 
TTACAAAATG ACCAGCAAAA TCCTGGCAAC CATGTGGGAT CCTGCATGCA GAACATGGAT 
TTTGAAACAA CCACCAAAAC CAGCAACTAC CAAGAAAGTC CACCAAAGAC TTCTAGTCCC 
AAAACACAAC TGTTGCCAAA TTCTGAGCTT CTATCAACAG CATCTGAAAT TTCACTCAAA 
GAGGATAAAA GTTCCACTAA TAAAAGAGAT TTGTGTCTTC AGTGGAGAAA CATAAACAAT 
CTTTGTTGGT TAGATTGTAT TTTGTCAGCA CTAGTACACT TAGAAACATT AAAATCTGCT 
CTAGCAGAAG ACTATAATGA TGGAAAATGT TTACTCCAGA AACTCTTAAC AAAGTATAAT 
CAAGCATCTA TTCTTCTGAA TACCTGTAAA AGGAGTAAAG TAAAAGATGT TCTTCCAAAA 
GCAGAATCTC AGCTCAATGA AATCAGAAAC GTAATGTTTA CAGAGCTTCA GCCTCAGCTG 
AGGTGTGAAT TGGGTAATAT GAAGAACCCA GTGTTTGCAC TTCAGCTACT CTTACAAGTG 
GATCAACAAG CTGAGAGATT ATTCTTGCAT TCTTTTTCAT GCAAGTCTGA ATGTGTACAT 
TGTGGCCACA ATTACCAGGA CCGATTGAAG AAAACACTAA CAACGTTTAC AAATGTAATC 
CCTGATTGGC ATCCACTTAA TGCTGTTCAT ATTGGACCAT GTATTATATG TGGAAATACA 
TCTCAAAGAC AGCAGATGAT CTTGGAAAAA GCACCGTCAA TATTAATGTT ACATTTTGTG 
GAAGGCTTGC CACATAACAA CCTGGAGAAA TACTCGTTTA AATTTGAGGA AGACAGCTAC 
CAAATAACAT CTGTTGTTCA GTGCCAAACA GATAAGAAGC ACTTCATAAG CTGGTCTTTG 
AATCCTGATG GAACTTGGCT TGAATGTGAT GACTTAAAGG GTCCATATTG CCAGAAGCGT 
AAAAGATTTG AAGTTCCTCC TTCAGAGATT CATATTGTTA TCTGGGAAAA GAAAGCATCC 
CATGTGCCAC AAGAACCGAA TTCACAGTTC CAAAGTAAAA ATAGTGAAGA TATTCCTTTT 
AATAATGTAC ATTCAAATTC CACAGTGTTG CAAACTGGTT TTGATAACAC TGTCGGCAAA 
ACACCTGCAG AACACCACAA AGAGGATTCT GTGAGGAGTC CAGAGAAGAA ACAACAGCAA 
GTAACTGAGG ACAAAAGTAT TGTTCATCAT GGTTCAGAAA ATCTGGCAGA TGGTGACCTT 
GTAACACTGA TGCTTGAAGA AGTTCCAGTT GACTCAGAAG ATAAATCAGT GCCTAACGGA 
CGGATGGTGG GCAATAACTT TCTTGATGGA TGGGGCACAC CAGAACAGGA GGAACCAGCT 
TTTTCACTTA GCACTCCATA TGCAGGAGAG TTTGCTGGAA CTAGTCTAGC TATGAACAAT 
AAATCCATGT TATATGAAAA TTCCAGTATT TGCTTACCTC TAGAAGAGTT GAACTCAGTA 
AGTATTACTG CTCCTGTGCC CAAAAAACAT GACGCTGATT CATCTGACTC ATTGCCTTCC 
CAATTAAATG AGAGAACTAA TTTAGCTAAC AGAGAAAATG GATTAAATTC AGAACTACTG 
CTAAACAAGT TGCTAGCAGT AGAAAATACT ATACAAAATC CACCTGACTT GAAAGATGCA 
AGCAAAACTG TAGTTAATTC TCAAGTTGGC AGTTCTTCTG GTGTCAGTAA TTCAGTTCAG 
TCCTCATACA AAGACCGAAA AGGAGGATTT GTAGGAAGCT GGGTAAAGAA ATTAAGCAAG 
AGTACTTCTT TCATGCCTTC AAGTTCCTCA GCTCTCAAGA ATGAGAGAAA TTGCAAAACT 
CCCTCAGTGC AAAGAATAAG TGAAGTTTGG TTGCCAATGA AGGGCGCAAG TAACTTTGGT 
GGATTTCAAA GCAGAGGTAC AAAGAAAACA ACTGAGACCC CGAAGTTACT GGCTCCTCAG 
AGTAACAATG CTCATCCTTT ATCAAATTTC AAAGGATTTT CTCAAAGCAC TTATCTTCCA 
ACAGCAAATC ATACCACTAT TGCAGGTCCA ACTTGGACTA AGTCAGAAAG AACTTTGGGT 
ACCCCAGGTA AAGTGACTCA GTTCCCTTCA CCTGGCTATA ACTCTGGTAA GGCAGAAGAG 
TCAGACAGTG ACAAAACAAA AAAACTTCGC CTAAAATTGT TAAAAAAACT TAATGCTAAA 
AAGAAGAGGT TGGCTTCACT GGATAGATTA GCAGTGGAAC AGAGGAAACG GGAAAAACAT 
GTGAGTGGAG ACATAAGCAC CCCATCACAG ACTGAGTCTC AAAATGACAG TGAATTATTG 
CAGAGCTTTT TAAGGGAGCT GCAGTATCAG ATTGATGTCA CAGGCCATCA ATCTGACTTG 
AATGCAAACA CTGTGCCAGG GTGCACTGGC CATGATAACA CTGACGAAAT ACTGGCGGAA 
TTACTGTCCC CTACTTCGAC TGTCACTTCC TTGGAGGCTC CAAAGAGCGA AGATGAGTGT 
ATGTACATGG AAATGGTGCA CAGCAGCGTG GCAACCACCG TGCCCTATGA GAGCACCAGT 
GTGCCACAGG CAGCAGTGAC AAGTGAGGAC CACAATTACT ACAGTCCTGT AAAGGACACT 
AATTTGGAGC TTGATGCAAT AAACAAACAC AGTGTGAAAA AACTTTCTTT TGAAAGTCCT 
ACAAGAGATG ATATCCTCGA AGACCTGTTC TCCATTTCAG CACCAAGCTC AATGTCAGGT 
GACATGGATT TACCTCATTT TGATGAAACT CTGTTTGAAA CTTGGTAA

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

RefSeq	XP_002193281.1
CDS	72..3359
Translation	MMDTQKTTNGLQVIGEGTGIGKSTLHMVGYLGKNCSPVETAAHECCPVCKEKGQIQGLRTYRLNFQESIFLCENPQCIYPLGYKPLNSIITSTGSENHQVPSTHKKRKLGGTSDFSAVGSDPKKAQTNNVLNVEHTISADSIVQGCQNSLCIPKTSLHDVLQNDQQNPGNHVGSCMQNMDFETTTKTSNYQESPPKTSSPKTQLLPNSELLSTASEISLKEDKSSTNKRDLCLQWRNINNLCWLDCILSALVHLETLKSALAEDYNDGKCLLQKLLTKYNQASILLNTCKRSKVKDVLPKAESQLNEIRNVMFTELQPQLRCELGNMKNPVFALQLLLQVDQQAERLFLHSFSCKSECVHCGHNYQDRLKKTLTTFTNVIPDWHPLNAVHIGPCIICGNTSQRQQMILEKAPSILMLHFVEGLPHNNLEKYSFKFEEDSYQITSVVQCQTDKKHFISWSLNPDGTWLECDDLKGPYCQKRKRFEVPPSEIHIVIWEKKASHVPQEPNSQFQSKNSEDIPFNNVHSNSTVLQTGFDNTVGKTPAEHHKEDSVRSPEKKQQQVTEDKSIVHHGSENLADGDLVTLMLEEVPVDSEDKSVPNGRMVGNNFLDGWGTPEQEEPAFSLSTPYAGEFAGTSLAMNNKSMLYENSSICLPLEELNSVSITAPVPKKHDADSSDSLPSQLNERTNLANRENGLNSELLLNKLLAVENTIQNPPDLKDASKTVVNSQVGSSSGVSNSVQSSYKDRKGGFVGSWVKKLSKSTSFMPSSSSALKNERNCKTPSVQRISEVWLPMKGASNFGGFQSRGTKKTTETPKLLAPQSNNAHPLSNFKGFSQSTYLPTANHTTIAGPTWTKSERTLGTPGKVTQFPSPGYNSGKAEESDSDKTKKLRLKLLKKLNAKKKRLASLDRLAVEQRKREKHVSGDISTPSQTESQNDSELLQSFLRELQYQIDVTGHQSDLNANTVPGCTGHDNTDEILAELLSPTSTVTSLEAPKSEDECMYMEMVHSSVATTVPYESTSVPQAAVTSEDHNYYSPVKDTNLELDAINKHSVKKLSFESPTRDDILEDLFSISAPSSMSGDMDLPHFDETLFETW

Target ORF information:

RefSeq Version	XM_002193245.3
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), mRNA.

Target ORF information:

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

XM_002193245.3

ORF Insert Sequence:

ATGATGGATA CCCAGAAGAC TACAAATGGT TTGCAAGTGA TTGGAGAAGG GACTGGTATA 
GGGAAATCGA CACTCCACAT GGTGGGGTAT TTGGGAAAAA ACTGTAGTCC TGTGGAAACA 
GCTGCACATG AATGTTGTCC AGTCTGCAAA GAGAAGGGTC AGATCCAAGG CTTACGGACT 
TACCGCCTTA ATTTTCAAGA GTCCATTTTC CTTTGTGAAA ATCCTCAGTG CATCTACCCA 
CTTGGTTATA AACCATTAAA CAGCATAATT ACTTCTACTG GTTCAGAAAA TCACCAAGTT 
CCATCTACTC ACAAGAAAAG GAAATTAGGT GGTACCAGTG ACTTTTCTGC TGTTGGATCA 
GATCCAAAAA AAGCACAAAC TAACAACGTG CTCAATGTTG AGCACACCAT TAGTGCAGAC 
TCCATTGTGC AAGGCTGCCA AAATAGTTTG TGTATTCCCA AGACAAGCCT CCACGATGTA 
TTACAAAATG ACCAGCAAAA TCCTGGCAAC CATGTGGGAT CCTGCATGCA GAACATGGAT 
TTTGAAACAA CCACCAAAAC CAGCAACTAC CAAGAAAGTC CACCAAAGAC TTCTAGTCCC 
AAAACACAAC TGTTGCCAAA TTCTGAGCTT CTATCAACAG CATCTGAAAT TTCACTCAAA 
GAGGATAAAA GTTCCACTAA TAAAAGAGAT TTGTGTCTTC AGTGGAGAAA CATAAACAAT 
CTTTGTTGGT TAGATTGTAT TTTGTCAGCA CTAGTACACT TAGAAACATT AAAATCTGCT 
CTAGCAGAAG ACTATAATGA TGGAAAATGT TTACTCCAGA AACTCTTAAC AAAGTATAAT 
CAAGCATCTA TTCTTCTGAA TACCTGTAAA AGGAGTAAAG TAAAAGATGT TCTTCCAAAA 
GCAGAATCTC AGCTCAATGA AATCAGAAAC GTAATGTTTA CAGAGCTTCA GCCTCAGCTG 
AGGTGTGAAT TGGGTAATAT GAAGAACCCA GTGTTTGCAC TTCAGCTACT CTTACAAGTG 
GATCAACAAG CTGAGAGATT ATTCTTGCAT TCTTTTTCAT GCAAGTCTGA ATGTGTACAT 
TGTGGCCACA ATTACCAGGA CCGATTGAAG AAAACACTAA CAACGTTTAC AAATGTAATC 
CCTGATTGGC ATCCACTTAA TGCTGTTCAT ATTGGACCAT GTATTATATG TGGAAATACA 
TCTCAAAGAC AGCAGATGAT CTTGGAAAAA GCACCGTCAA TATTAATGTT ACATTTTGTG 
GAAGGCTTGC CACATAACAA CCTGGAGAAA TACTCGTTTA AATTTGAGGA AGACAGCTAC 
CAAATAACAT CTGTTGTTCA GTGCCAAACA GATAAGAAGC ACTTCATAAG CTGGTCTTTG 
AATCCTGATG GAACTTGGCT TGAATGTGAT GACTTAAAGG GTCCATATTG CCAGAAGCGT 
AAAAGATTTG AAGTTCCTCC TTCAGAGATT CATATTGTTA TCTGGGAAAA GAAAGCATCC 
CATGTGCCAC AAGAACCGAA TTCACAGTTC CAAAGTAAAA ATAGTGAAGA TATTCCTTTT 
AATAATGTAC ATTCAAATTC CACAGTGTTG CAAACTGGTT TTGATAACAC TGTCGGCAAA 
ACACCTGCAG AACACCACAA AGAGGATTCT GTGAGGAGTC CAGAGAAGAA ACAACAGCAA 
GTAACTGAGG ACAAAAGTAT TGTTCATCAT GGTTCAGAAA ATCTGGCAGA TGGTGACCTT 
GTAACACTGA TGCTTGAAGA AGTTCCAGTT GACTCAGAAG ATAAATCAGT GCCTAACGGA 
CGGATGGTGG GCAATAACTT TCTTGATGGA TGGGGCACAC CAGAACAGGA GGAACCAGCT 
TTTTCACTTA GCACTCCATA TGCAGGAGAG TTTGCTGGAA CTAGTCTAGC TATGAACAAT 
AAATCCATGT TATATGAAAA TTCCAGTATT TGCTTACCTC TAGAAGAGTT GAACTCAGTA 
AGTATTACTG CTCCTGTGCC CAAAAAACAT GACGCTGATT CATCTGACTC ATTGCCTTCC 
CAATTAAATG AGAGAACTAA TTTAGCTAAC AGAGAAAATG GATTAAATTC AGAACTACTG 
CTAAACAAGT TGCTAGCAGT AGAAAATACT ATACAAAATC CACCTGACTT GAAAGATGCA 
AGCAAAACTG TAGTTAATTC TCAAGTTGGC AGTTCTTCTG GTGTCAGTAA TTCAGTTCAG 
TCCTCATACA AAGACCGAAA AGGAGGATTT GTAGGAAGCT GGGTAAAGAA ATTAAGCAAG 
AGTACTTCTT TCATGCCTTC AAGTTCCTCA GCTCTCAAGA ATGAGAGAAA TTGCAAAACT 
CCCTCAGTGC AAAGAATAAG TGAAGTTTGG TTGCCAATGA AGGGCGCAAG TAACTTTGGT 
GGATTTCAAA GCAGAGGTAC AAAGAAAACA ACTGAGACCC CGAAGTTACT GGCTCCTCAG 
AGTAACAATG CTCATCCTTT ATCAAATTTC AAAGGATTTT CTCAAAGCAC TTATCTTCCA 
ACAGCAAATC ATACCACTAT TGCAGGTCCA ACTTGGACTA AGTCAGAAAG AACTTTGGGT 
ACCCCAGGTA AAGTGACTCA GTTCCCTTCA CCTGGCTATA ACTCTGGTAA GGCAGAAGAG 
TCAGACAGTG ACAAAACAAA AAAACTTCGC CTAAAATTGT TAAAAAAACT TAATGCTAAA 
AAGAAGAGGT TGGCTTCACT GGATAGATTA GCAGTGGAAC AGAGGAAACG GGAAAAACAT 
GTGAGTGGAG ACATAAGCAC CCCATCACAG ACTGAGTCTC AAAATGACAG TGAATTATTG 
CAGAGCTTTT TAAGGGAGCT GCAGTATCAG ATTGATGTCA CAGGCCATCA ATCTGACTTG 
AATGCAAACA CTGTGCCAGG GTGCACTGGC CATGATAACA CTGACGAAAT ACTGGCGGAA 
TTACTGTCCC CTACTTCGAC TGTCACTTCC TTGGAGGCTC CAAAGAGCGA AGATGAGTGT 
ATGTACATGG AAATGGTGCA CAGCAGCGTG GCAACCACCG TGCCCTATGA GAGCACCAGT 
GTGCCACAGG CAGCAGTGAC AAGTGAGGAC CACAATTACT ACAGTCCTGT AAAGGACACT 
AATTTGGAGC TTGATGCAAT AAACAAACAC AGTGTGAAAA AACTTTCTTT TGAAAGTCCT 
ACAAGAGATG ATATCCTCGA AGACCTGTTC TCCATTTCAG CACCAAGCTC AATGTCAGGT 
GACATGGATT TACCTCATTT TGATGAAACT CTGTTTGAAA CTTGGTAA

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

USPL1 ( XM_030274558.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030130418.1 Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X1, mRNA.

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CloneID	OTd25144
Clone ID Related Accession (Same CDS sequence)	XM_030274558.1
Accession Version	XM_030274558.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3288bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	SUMO-specific isopeptidase USPL1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGATA CCCAGAAGAC TACAAATGGT TTGCAAGTGA TTGGAGAAGG GACTGGTATA 
GGGAAATCGA CACTCCACAT GGTGGGGTAT TTGGGAAAAA ACTGTAGTCC TGTGGAAACA 
GCTGCACATG AATATTGTCC AGTCTGCAAA GAGAAGGGTC AGATCCAAGG CTTACGGACT 
TACCGCCTTA ATTTTCAAGA GTCCATTTTC CTTTGTGAAA ATCCTCAGTG CATCTACCCA 
CTTGGTTATA AACCATTAAA CAGCATAATT ACTTCTACTG GTTCAGAAAA TCACCAAGTC 
CCATCTACTC ACAAGAAAAG GAAATTAGGT GGTACCAGTG ACTTTTCTGC TGTTGGATCA 
GATCCAAAAA AAGCACAAAC TAACAACGTG CTCAATGTTG AGCACACCAT TAGTGCAGAC 
TCCATTGTGC AAGGCTGCCA AAATAGTTTG TGTATTCCCA AGACAAGCCT CCACGATGTA 
TTACAAAATG ACCAGCAAAA TCCTGGCAAC CATGTGGGAT CCTGCATGCA GAACATGGAT 
TTTGAAACAA CCACCAAAAC CAGCAACTAC CAAGAAAGTC CACCAAAGAC TTCTAGTCCC 
AAAACACAAC TGTTGCCAAA TTCTGAGCTT CTGTCAACAG CATCTGAAAT TTCACTCAAA 
GAGGATAAAA GTTCCACTAA TAAAAGAGAT TTGTGTCTTC AGTGGAGAAA CATAAACAAT 
CTTTGTTGGT TAGATTGTAT TTTGTCAGCA CTAGTACACT TAGAAACATT AAAATCTGCT 
CTAGCAGAAG AATATAATGA TGGAAAATGT TTACTCCAGA AACTCTTAAC AAAGTATAAT 
CAAGCATCTA TTCTTCTGAA TACCTGTAAA AGGAGTAAAG TAAAAGATGT TCTTCCAAAA 
GCAGAATCTC AGCTCAATGA AATCAGAAAC GTAATGTTTA CAGAGCTTCA GCCTCAGCTG 
AGGTGTGAAT TGGGTAATAT GAAGAACCCA GTGTTTGCAC TTCAGCTACT CTTACAAGTG 
GATCAACAAG CTGAGAGATT ATTCTTGCAT TCTTTTTCAT GCAAGTCTGA ATGTGTACAT 
TGTGGCCACA ATTACCAGGA CCGATTGAAG AAAACACTAA CAACGTTTAC AAATGTAATC 
CCTGATTGGC ATCCACTTAA TGCTGTTCAT ATTGGACCAT GTATTATATG TGGAAATACA 
TCTCAAAGAC AGCAGATGAT CTTGGAAAAA GCACCGTCAA TATTAATGTT ACATTTTGTG 
GAAGGCTTGC CACATAACAA CCTGGAGAAA TACTCGTTTA AATTTGAGGA AGACAGCTAC 
CAAATAACAT CTGTTGTTCA GTACCAAACA GATAAGAAGC ACTTCATAAG CTGGTCTTTG 
AATCCTGATG GAACTTGGCT TGAATGTGAT GACTTAAAGG GTCCATATTG CCAGAAGCGT 
AAAAGATTTG AAGTTCCTCC TTCAGAGATT CATATTGTTA TCTGGGAAAA GAAAGCATCC 
CATGTGCCAC AAGAACCGAA TTCACAGTTC CAAAGTAAAA ATAGTGAAGA TATTCCTTTT 
AATAATGTAC ATTCAAATTC CACAGTGTTG CAAACTGGTT TTGATAACAC TGTCGGCAAA 
ACACCTGCAG AACACCACAA AGAGGATTCT GTGAGGAGTC CAGAGAAGAA ACAACAGCAA 
GTAACTGAGG ACAAAAGTAT TGTTCATCAT GGTTCAGAAA ATCTGGCAGA TGGTGACCTT 
GTAACACTGA TGCTTGAAGA AGTTCCAGTT GACTCGGAAG ATAAATCAGT GCCTAATGGA 
CGGATGGTGG GCAATAACTT TCTTGATGGA TGGGGCACAC CAGAACAGGA GGAACCAGCT 
TTTTCACTTA GCACTCCATA TGCAGGAGAG TTTGCTGGAA CTAGTCTAGC TATGAACAAT 
AAATCCATGT TATATGAAAA TTCCAGTATT TGCTTACCTC TAGAAGAGCT GAACTCAGTA 
AGTATTACTG CTCCTGTGCC CAAAAAACAT GATGCTGATT CATCTGACTC ATTGCCTTCC 
CAATTAAATG AGAGAACTAA TTTAGCTAAC AGAGAAAATG GATTAAATTC AGAACTACTG 
CTAAACAAGT TGCTAGCAGT AGAAAATACT ATACAAAATC CACCTGACTT GAAAGATGCA 
AGCAAAACTG TAGTTAATTC TCAAGTTGGC AGTTCTTCTG GTGTCAGTAA TTCAGTTCAG 
TCCTCATACA AAGACCGAAA AGGAGGATTT GTAGGAAGCT GGGTAAAGAA ATTAAGCAAG 
AGTACTTCTT TCATGCCTTC AAGTTCCTCA GCTCTCAAGA ATGAGAGAAA TTGCAAAACT 
CCCTCAGTGC AAAGAATAAG TGAAGTTTGG TTGCCAATGA AGGGCGCAAG TAACTTTGGT 
GGATTTCAAA GCAGAGGTAC AAAGAAAACA ACTGAGACCC CGAAGTTACT GGCTCCTCAG 
AGTAACAATG CTCATCCTTT ATCAAATTTC AAAGGATTTT CTCAAAGCAC TTATCTTCCA 
ACAGCAAATC ATACCACTAT TGCAGGTCCA ACTTGGACTA AGTCAGAAAG AACTTTGGGT 
ACCCCAGGTA AAGTGACTCA GTTCCCTTCA CCTGGCTATA ACTCTGGTAA GGCAGAAGAG 
TCAGACAGTG ACAAAACAAA AAAACTTCGC CTAAAATTGT TAAAAAAACT TAATGCTAAA 
AAGAAGAGGT TGGCTTCACT GGATAGATTA GCAGTGGAAC AGAGGAAACG GGAAAAACAT 
GTGAGTGGAG ACATAAGCAC CCCATCACAG ACTGAGTCTC AAAATGACAG TGAATTATTG 
CAGAGCTTTT TAAGGGAGCT GCAGTATCAG ATTGATGTCA CAGGCCATCA ATCTGACTTG 
AATGCAAACA CTGTGCCAGG GTGCACTGGC CATGATAACA CTGACGAAAT ACTGGCGGAA 
TTACTGTCCC CTACTTCGAC TGTCACTTCC TTGGAGGCTC CAAAGAGCGA AGATGAGTGT 
ATGTACATGG AAATGGTGCA CAGCAGCGTG GCAACCACCG TGCCCTATGA GAGCACCAGT 
GTGCCACAGG CAGCAGTGAC AAGTGAGGAC CACAATTACT ACAGTCCTGT AAAGGACACT 
AATTTGGAGC TTGATGCAAT AAACAAACAC AGTGTGAAAA AACTTTCTTT TGAAAGTCCT 
ACAAGAGATG ATATCCTCGA AGACCTGTTC TCCATTTCAG CACCAAGCTC AATGTCAGGT 
GACATGGATT TACCTCATTT TGATGAAACT CTGTTTGAAA CTTGGTAA

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

RefSeq	XP_030130418.1
CDS	90..3377
Translation	MMDTQKTTNGLQVIGEGTGIGKSTLHMVGYLGKNCSPVETAAHEYCPVCKEKGQIQGLRTYRLNFQESIFLCENPQCIYPLGYKPLNSIITSTGSENHQVPSTHKKRKLGGTSDFSAVGSDPKKAQTNNVLNVEHTISADSIVQGCQNSLCIPKTSLHDVLQNDQQNPGNHVGSCMQNMDFETTTKTSNYQESPPKTSSPKTQLLPNSELLSTASEISLKEDKSSTNKRDLCLQWRNINNLCWLDCILSALVHLETLKSALAEEYNDGKCLLQKLLTKYNQASILLNTCKRSKVKDVLPKAESQLNEIRNVMFTELQPQLRCELGNMKNPVFALQLLLQVDQQAERLFLHSFSCKSECVHCGHNYQDRLKKTLTTFTNVIPDWHPLNAVHIGPCIICGNTSQRQQMILEKAPSILMLHFVEGLPHNNLEKYSFKFEEDSYQITSVVQYQTDKKHFISWSLNPDGTWLECDDLKGPYCQKRKRFEVPPSEIHIVIWEKKASHVPQEPNSQFQSKNSEDIPFNNVHSNSTVLQTGFDNTVGKTPAEHHKEDSVRSPEKKQQQVTEDKSIVHHGSENLADGDLVTLMLEEVPVDSEDKSVPNGRMVGNNFLDGWGTPEQEEPAFSLSTPYAGEFAGTSLAMNNKSMLYENSSICLPLEELNSVSITAPVPKKHDADSSDSLPSQLNERTNLANRENGLNSELLLNKLLAVENTIQNPPDLKDASKTVVNSQVGSSSGVSNSVQSSYKDRKGGFVGSWVKKLSKSTSFMPSSSSALKNERNCKTPSVQRISEVWLPMKGASNFGGFQSRGTKKTTETPKLLAPQSNNAHPLSNFKGFSQSTYLPTANHTTIAGPTWTKSERTLGTPGKVTQFPSPGYNSGKAEESDSDKTKKLRLKLLKKLNAKKKRLASLDRLAVEQRKREKHVSGDISTPSQTESQNDSELLQSFLRELQYQIDVTGHQSDLNANTVPGCTGHDNTDEILAELLSPTSTVTSLEAPKSEDECMYMEMVHSSVATTVPYESTSVPQAAVTSEDHNYYSPVKDTNLELDAINKHSVKKLSFESPTRDDILEDLFSISAPSSMSGDMDLPHFDETLFETW

Target ORF information:

RefSeq Version	XM_030274558.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata ubiquitin specific peptidase like 1 (USPL1), transcript variant X1, mRNA.

Target ORF information:

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

XM_030274558.1

ORF Insert Sequence:

ATGATGGATA CCCAGAAGAC TACAAATGGT TTGCAAGTGA TTGGAGAAGG GACTGGTATA 
GGGAAATCGA CACTCCACAT GGTGGGGTAT TTGGGAAAAA ACTGTAGTCC TGTGGAAACA 
GCTGCACATG AATATTGTCC AGTCTGCAAA GAGAAGGGTC AGATCCAAGG CTTACGGACT 
TACCGCCTTA ATTTTCAAGA GTCCATTTTC CTTTGTGAAA ATCCTCAGTG CATCTACCCA 
CTTGGTTATA AACCATTAAA CAGCATAATT ACTTCTACTG GTTCAGAAAA TCACCAAGTC 
CCATCTACTC ACAAGAAAAG GAAATTAGGT GGTACCAGTG ACTTTTCTGC TGTTGGATCA 
GATCCAAAAA AAGCACAAAC TAACAACGTG CTCAATGTTG AGCACACCAT TAGTGCAGAC 
TCCATTGTGC AAGGCTGCCA AAATAGTTTG TGTATTCCCA AGACAAGCCT CCACGATGTA 
TTACAAAATG ACCAGCAAAA TCCTGGCAAC CATGTGGGAT CCTGCATGCA GAACATGGAT 
TTTGAAACAA CCACCAAAAC CAGCAACTAC CAAGAAAGTC CACCAAAGAC TTCTAGTCCC 
AAAACACAAC TGTTGCCAAA TTCTGAGCTT CTGTCAACAG CATCTGAAAT TTCACTCAAA 
GAGGATAAAA GTTCCACTAA TAAAAGAGAT TTGTGTCTTC AGTGGAGAAA CATAAACAAT 
CTTTGTTGGT TAGATTGTAT TTTGTCAGCA CTAGTACACT TAGAAACATT AAAATCTGCT 
CTAGCAGAAG AATATAATGA TGGAAAATGT TTACTCCAGA AACTCTTAAC AAAGTATAAT 
CAAGCATCTA TTCTTCTGAA TACCTGTAAA AGGAGTAAAG TAAAAGATGT TCTTCCAAAA 
GCAGAATCTC AGCTCAATGA AATCAGAAAC GTAATGTTTA CAGAGCTTCA GCCTCAGCTG 
AGGTGTGAAT TGGGTAATAT GAAGAACCCA GTGTTTGCAC TTCAGCTACT CTTACAAGTG 
GATCAACAAG CTGAGAGATT ATTCTTGCAT TCTTTTTCAT GCAAGTCTGA ATGTGTACAT 
TGTGGCCACA ATTACCAGGA CCGATTGAAG AAAACACTAA CAACGTTTAC AAATGTAATC 
CCTGATTGGC ATCCACTTAA TGCTGTTCAT ATTGGACCAT GTATTATATG TGGAAATACA 
TCTCAAAGAC AGCAGATGAT CTTGGAAAAA GCACCGTCAA TATTAATGTT ACATTTTGTG 
GAAGGCTTGC CACATAACAA CCTGGAGAAA TACTCGTTTA AATTTGAGGA AGACAGCTAC 
CAAATAACAT CTGTTGTTCA GTACCAAACA GATAAGAAGC ACTTCATAAG CTGGTCTTTG 
AATCCTGATG GAACTTGGCT TGAATGTGAT GACTTAAAGG GTCCATATTG CCAGAAGCGT 
AAAAGATTTG AAGTTCCTCC TTCAGAGATT CATATTGTTA TCTGGGAAAA GAAAGCATCC 
CATGTGCCAC AAGAACCGAA TTCACAGTTC CAAAGTAAAA ATAGTGAAGA TATTCCTTTT 
AATAATGTAC ATTCAAATTC CACAGTGTTG CAAACTGGTT TTGATAACAC TGTCGGCAAA 
ACACCTGCAG AACACCACAA AGAGGATTCT GTGAGGAGTC CAGAGAAGAA ACAACAGCAA 
GTAACTGAGG ACAAAAGTAT TGTTCATCAT GGTTCAGAAA ATCTGGCAGA TGGTGACCTT 
GTAACACTGA TGCTTGAAGA AGTTCCAGTT GACTCGGAAG ATAAATCAGT GCCTAATGGA 
CGGATGGTGG GCAATAACTT TCTTGATGGA TGGGGCACAC CAGAACAGGA GGAACCAGCT 
TTTTCACTTA GCACTCCATA TGCAGGAGAG TTTGCTGGAA CTAGTCTAGC TATGAACAAT 
AAATCCATGT TATATGAAAA TTCCAGTATT TGCTTACCTC TAGAAGAGCT GAACTCAGTA 
AGTATTACTG CTCCTGTGCC CAAAAAACAT GATGCTGATT CATCTGACTC ATTGCCTTCC 
CAATTAAATG AGAGAACTAA TTTAGCTAAC AGAGAAAATG GATTAAATTC AGAACTACTG 
CTAAACAAGT TGCTAGCAGT AGAAAATACT ATACAAAATC CACCTGACTT GAAAGATGCA 
AGCAAAACTG TAGTTAATTC TCAAGTTGGC AGTTCTTCTG GTGTCAGTAA TTCAGTTCAG 
TCCTCATACA AAGACCGAAA AGGAGGATTT GTAGGAAGCT GGGTAAAGAA ATTAAGCAAG 
AGTACTTCTT TCATGCCTTC AAGTTCCTCA GCTCTCAAGA ATGAGAGAAA TTGCAAAACT 
CCCTCAGTGC AAAGAATAAG TGAAGTTTGG TTGCCAATGA AGGGCGCAAG TAACTTTGGT 
GGATTTCAAA GCAGAGGTAC AAAGAAAACA ACTGAGACCC CGAAGTTACT GGCTCCTCAG 
AGTAACAATG CTCATCCTTT ATCAAATTTC AAAGGATTTT CTCAAAGCAC TTATCTTCCA 
ACAGCAAATC ATACCACTAT TGCAGGTCCA ACTTGGACTA AGTCAGAAAG AACTTTGGGT 
ACCCCAGGTA AAGTGACTCA GTTCCCTTCA CCTGGCTATA ACTCTGGTAA GGCAGAAGAG 
TCAGACAGTG ACAAAACAAA AAAACTTCGC CTAAAATTGT TAAAAAAACT TAATGCTAAA 
AAGAAGAGGT TGGCTTCACT GGATAGATTA GCAGTGGAAC AGAGGAAACG GGAAAAACAT 
GTGAGTGGAG ACATAAGCAC CCCATCACAG ACTGAGTCTC AAAATGACAG TGAATTATTG 
CAGAGCTTTT TAAGGGAGCT GCAGTATCAG ATTGATGTCA CAGGCCATCA ATCTGACTTG 
AATGCAAACA CTGTGCCAGG GTGCACTGGC CATGATAACA CTGACGAAAT ACTGGCGGAA 
TTACTGTCCC CTACTTCGAC TGTCACTTCC TTGGAGGCTC CAAAGAGCGA AGATGAGTGT 
ATGTACATGG AAATGGTGCA CAGCAGCGTG GCAACCACCG TGCCCTATGA GAGCACCAGT 
GTGCCACAGG CAGCAGTGAC AAGTGAGGAC CACAATTACT ACAGTCCTGT AAAGGACACT 
AATTTGGAGC TTGATGCAAT AAACAAACAC AGTGTGAAAA AACTTTCTTT TGAAAGTCCT 
ACAAGAGATG ATATCCTCGA AGACCTGTTC TCCATTTCAG CACCAAGCTC AATGTCAGGT 
GACATGGATT TACCTCATTT TGATGAAACT CTGTTTGAAA CTTGGTAA

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

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USPL1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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