UPF1 cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	UPF1
Entrez Gene ID	102884453
Full Name	UPF1, RNA helicase and ATPase
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006904409.3	XP_006904471.1	regulator of nonsense transcripts 1
XM_006904409.2	XP_006904471.1	regulator of nonsense transcripts 1

Pathways from BioSystems
Gene Ontology

The following UPF1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UPF1 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)
OPt05540	XM_006904409.3 Latest version!	Pteropus alecto UPF1, RNA helicase and ATPase (UPF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
View Old Accession Versions >>
OPt05540	XM_006904409.2	Pteropus alecto UPF1 regulator of nonsense transcripts homolog (yeast) (UPF1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$629.30 $899.00
Hide Old Accession Versions >>

ORF Online Only Promotion

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.

Reference Sequences (Refseq)

UPF1 ( XM_006904409.3 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006904471.1 Pteropus alecto UPF1, RNA helicase and ATPase (UPF1), mRNA.

Price & Availability↑

CloneID	OPt05540
Clone ID Related Accession (Same CDS sequence)	XM_006904409.3 , XM_006904409.2
Accession Version	XM_006904409.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3345bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
Product	regulator of nonsense transcripts 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006429864.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 7, 2018 this sequence version replaced XM_006904409.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGGATAAAG GCCTGGAGAT GACGGAGAAC AAGGCAGCAT TCCTGGAACT GGGTGTGGTG 
GAGCCAGCTC ATGGCTCCGA GTTTGAGTTC ACCGACTTCA CTCTCCCCAG CCAGACGCAG 
ACGCCCCCCG GCGGCCCCGG CGGTCCTGGG GGTGGCGGCC CGGGGGGCCC GGTCGGTGCA 
GGCGCAGGAG TTGCGGCCGG ACAGCTCGAC GCGCAGGTCG GAGGACCTGA AGGCATCCTG 
CAGAATGGGG CCGTGGATGA CAGTGTGGCC AAGACCAGCC AGTTGTTGGC CGAATTGAAC 
TTCGAAGAAG ATGAAGAGGA TACTTATTAC ACAAAGGACC TCCCAGTACA TGCCTGCAGT 
TACTGTGGAA TACACGATCC TGCTTGCGTG GTTTACTGTA ATACCAGCAA GAAGTGGTTC 
TGTAACGGAC GTGGAAATAC TTCTGGCAGC CACATTGTAA ATCACCTTGT GAGGGCAAAA 
TGCAAAGAGG TGACTTTGCA CAAAGATGGG CCCCTGGGGG AGACGGTCCT GGAGTGTTAC 
AATTGTGGCT GCCGCAACGT CTTCCTCCTT GGCTTCATCC CTGCTAAGGC TGACTCGGTG 
GTAGTGCTGC TGTGCAGGCA GCCTTGTGCC AGTCAGAGCA GCCTCAAGGA CATCAACTGG 
GACAGCTCGC AATGGCAGCC CCTGATCCAG GACCGCTGCT TCCTGTCTTG GCTGGTCAAG 
ATCCCTTCAG AGCAGGAGCA GCTGCGGGCT CGGCAAATAA CCGCTCAGCA GATCAACAAA 
CTAGAGGAAT TGTGGAAGGA GAATCCTTCT GCCACCTTGG AGGACCTAGA GAAGCCGGGG 
GTGGATGAGG AGCCGCAGCA TGTCCTCTTG CGGTATGAGG ATGCCTACCA GTACCAGAAC 
ATATTCGGGC CTCTGGTCAA GCTGGAGGCC GATTATGACA AGAAGCTCAA AGAGTCCCAG 
ACTCAAGATA ACATCACAGT CAGGTGGGAC CTGGGCCTTA ACAAGAAGAG AATCGCCTAC 
TTCACTTTGC CCAAGACTGA CTCTGATATG CGGCTCATGC AGGGTGATGA GATATGCCTG 
CGATACAAAG GGGACCTAGC ACCCCTGTGG AAAGGGATCG GCCATGTCAT CAAGGTCCCT 
GATAATTACG GTGATGAGAT TGCCATTGAG CTGCGGAGCA GTGTGGGTGC ACCTGTGGAG 
GTGACGCATA ACTTCCAGGT GGACTTTGTG TGGAAATCCA CCTCGTTTGA CAGGATGCAG 
AGTGCACTGA AGACCTTTGC TGTGGATGAG ACCTCCGTGT CAGGTTATAT CTACCACAAG 
CTACTCGGCC ACGAAGTGGA GGACGTGATC ATCAAGTGCC AGCTACCCAA GCGCTTCACA 
GCACAGGGGC TCCCTGACCT CAACCACTCT CAGGTTTATG CTGTAAAGAC TGTGCTGCAG 
AGACCTCTAA GCCTGATCCA GGGACCACCA GGCACGGGGA AGACAGTAAC CTCAGCCACC 
ATCGTCTACC ATCTGGCACG GCAGGGCAAT GGGCCCGTGC TTGTCTGTGC TCCAAGTAAC 
ATAGCTGTGG ATCAGCTGAC GGAGAAGATC CACCAAACTG GGCTGAAAGT TGTGCGGCTC 
TGCGCCAAGA GCCGCGAGGC CATCGACTCC CCGGTGTCAT TCCTAGCCCT GCATAACCAG 
ATCCGGAACA TGGATAGCAT GCCAGAGCTG CAGAAGCTGC AGCAGCTGAA GGATGAGACT 
GGGGAGCTGT CATCTGCTGA TGAGAAGCGG TACCGAGCCC TGAAGCGCAC GGCCGAAAGG 
GAGCTGCTCA TGAATGCGGA TGTCATCTGC TGTACGTGTG TGGGTGCGGG GGACCCCAGG 
CTTGCCAAGA TGCAGTTCCG CTCCATTTTA ATTGACGAGA GCACCCAAGC CACCGAGCCA 
GAGTGCATGG TCCCTGTGGT CCTCGGAGCC AAGCAGCTGA TCCTTGTGGG TGACCACTGC 
CAGCTCGGCC CCGTGGTGAT GTGCAAGAAG GCGGCCAAGG CCGGGCTGTC TCAGTCGCTG 
TTCGAACGCC TCGTGGTGCT GGGCATCCGT CCGATCCGCT TGCAGGTCCA GTATCGGATG 
CACCCTGCGC TCAGCGCTTT TCCGTCCAAC ATCTTCTATG AGGGTTCTCT GCAGAATGGC 
GTCACGGCAG CGGAACGTGT AAAGAAAGGG TTTGACTTCC AGTGGCCCCA ACCTGATAAG 
CCGATGTTCT TCTATGTGAC CCAGGGCCAG GAAGAGATCG CTAGTTCGGG TACCTCCTAC 
CTGAACAGGA CGGAGGCTGC AAACGTGGAG AAGATCACCA CGAAGCTGTT AAAGGCAGGT 
GCCAAGCCAG ACCAGATTGG CATCATCACG CCCTATGAGG GGCAGCGCTC CTACTTGGTG 
CAGTATATGC AGTTCAGTGG CTCCCTGCAC ACCAAGCTCT ACCAGGAGGT GGAGATTGCC 
AGTGTGGATG CGTTCCAGGG GCGCGAGAAG GACTTCATCA TCCTCTCCTG CGTGCGGGCC 
AATGAGCACC AAGGCATTGG GTTTTTAAAC GACCCCAGAC GGCTTAATGT GGCCCTAACC 
CGAGCGCGAT ACGGGGTCAT CATTGTGGGG AACCCCAAGG CCCTATCCAA GCAGCCACTC 
TGGAACCACC TGCTGAATTA CTACAAGGAG CAGAAGGTGC TGGTGGAGGG GCCCCTGAAC 
AACCTGCGAG AGAGCCTAAT GCAATTCAGC AAGCCCCGGA AGCTGGTCAA CACCATCAAC 
CCTGGAGCTC GCTTCATGAC CACAGCCATG TATGACGCCC GGGAGGCCAT CATCCCAGGA 
TCAGTTTATG ATCGGAGCAG CCAGGGTCGG CCCTCGAACA TGTACTTCCA GACCCATGAC 
CAGCTCGGCA TGATCAGTGC TGGCCCCAGC CACGTGGCTG CCATGAACAT TCCCATCCCC 
TTCAACCTGG TCATGCCACC CATGCCACCC CCGGGGTATT TTGGACAGGC TAACGGGCCA 
GCTGCAGGCC GGGGCACCCC AAAAGGCAAA ACGGGTCGTG GCGGACGCCA GAAGAACCGC 
TTTGGGCTTC CTGGGCCCAG CCAGACAAAC CTGCCCAGCA GCCAGGCCAG CCAGGATGTG 
GCATCACAGC CCTTCTCACA GGGTGCCCTG ACGCAGGGCT ATATCTCCAT GAGCCAGCCC 
TCCCAGATGA GCCAGCCTGG CCTCTCCCAA CCTGAGCTGT CCCAGGACAG TTACCTTGGT 
GATGAGTTTA AGTCCCAGAT TGATGTGGCG CTGTCGCAAG ACTCCACATA CCAGGGAGAG 
CGGGCATACC AGCACGGCGG AGTGACGGGC CTGTCCCAGT ACTAG

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

RefSeq	XP_006904471.1
CDS	1..3345
Translation	MDKGLEMTENKAAFLELGVVEPAHGSEFEFTDFTLPSQTQTPPGGPGGPGGGGPGGPVGAGAGVAAGQLDAQVGGPEGILQNGAVDDSVAKTSQLLAELNFEEDEEDTYYTKDLPVHACSYCGIHDPACVVYCNTSKKWFCNGRGNTSGSHIVNHLVRAKCKEVTLHKDGPLGETVLECYNCGCRNVFLLGFIPAKADSVVVLLCRQPCASQSSLKDINWDSSQWQPLIQDRCFLSWLVKIPSEQEQLRARQITAQQINKLEELWKENPSATLEDLEKPGVDEEPQHVLLRYEDAYQYQNIFGPLVKLEADYDKKLKESQTQDNITVRWDLGLNKKRIAYFTLPKTDSDMRLMQGDEICLRYKGDLAPLWKGIGHVIKVPDNYGDEIAIELRSSVGAPVEVTHNFQVDFVWKSTSFDRMQSALKTFAVDETSVSGYIYHKLLGHEVEDVIIKCQLPKRFTAQGLPDLNHSQVYAVKTVLQRPLSLIQGPPGTGKTVTSATIVYHLARQGNGPVLVCAPSNIAVDQLTEKIHQTGLKVVRLCAKSREAIDSPVSFLALHNQIRNMDSMPELQKLQQLKDETGELSSADEKRYRALKRTAERELLMNADVICCTCVGAGDPRLAKMQFRSILIDESTQATEPECMVPVVLGAKQLILVGDHCQLGPVVMCKKAAKAGLSQSLFERLVVLGIRPIRLQVQYRMHPALSAFPSNIFYEGSLQNGVTAAERVKKGFDFQWPQPDKPMFFYVTQGQEEIASSGTSYLNRTEAANVEKITTKLLKAGAKPDQIGIITPYEGQRSYLVQYMQFSGSLHTKLYQEVEIASVDAFQGREKDFIILSCVRANEHQGIGFLNDPRRLNVALTRARYGVIIVGNPKALSKQPLWNHLLNYYKEQKVLVEGPLNNLRESLMQFSKPRKLVNTINPGARFMTTAMYDAREAIIPGSVYDRSSQGRPSNMYFQTHDQLGMISAGPSHVAAMNIPIPFNLVMPPMPPPGYFGQANGPAAGRGTPKGKTGRGGRQKNRFGLPGPSQTNLPSSQASQDVASQPFSQGALTQGYISMSQPSQMSQPGLSQPELSQDSYLGDEFKSQIDVALSQDSTYQGERAYQHGGVTGLSQY

Target ORF information:

RefSeq Version	XM_006904409.3
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto UPF1, RNA helicase and ATPase (UPF1), mRNA.

Target ORF information:

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

XM_006904409.3

ORF Insert Sequence:

ATGGATAAAG GCCTGGAGAT GACGGAGAAC AAGGCAGCAT TCCTGGAACT GGGTGTGGTG 
GAGCCAGCTC ATGGCTCCGA GTTTGAGTTC ACCGACTTCA CTCTCCCCAG CCAGACGCAG 
ACGCCCCCCG GCGGCCCCGG CGGTCCTGGG GGTGGCGGCC CGGGGGGCCC GGTCGGTGCA 
GGCGCAGGAG TTGCGGCCGG ACAGCTCGAC GCGCAGGTCG GAGGACCTGA AGGCATCCTG 
CAGAATGGGG CCGTGGATGA CAGTGTGGCC AAGACCAGCC AGTTGTTGGC CGAATTGAAC 
TTCGAAGAAG ATGAAGAGGA TACTTATTAC ACAAAGGACC TCCCAGTACA TGCCTGCAGT 
TACTGTGGAA TACACGATCC TGCTTGCGTG GTTTACTGTA ATACCAGCAA GAAGTGGTTC 
TGTAACGGAC GTGGAAATAC TTCTGGCAGC CACATTGTAA ATCACCTTGT GAGGGCAAAA 
TGCAAAGAGG TGACTTTGCA CAAAGATGGG CCCCTGGGGG AGACGGTCCT GGAGTGTTAC 
AATTGTGGCT GCCGCAACGT CTTCCTCCTT GGCTTCATCC CTGCTAAGGC TGACTCGGTG 
GTAGTGCTGC TGTGCAGGCA GCCTTGTGCC AGTCAGAGCA GCCTCAAGGA CATCAACTGG 
GACAGCTCGC AATGGCAGCC CCTGATCCAG GACCGCTGCT TCCTGTCTTG GCTGGTCAAG 
ATCCCTTCAG AGCAGGAGCA GCTGCGGGCT CGGCAAATAA CCGCTCAGCA GATCAACAAA 
CTAGAGGAAT TGTGGAAGGA GAATCCTTCT GCCACCTTGG AGGACCTAGA GAAGCCGGGG 
GTGGATGAGG AGCCGCAGCA TGTCCTCTTG CGGTATGAGG ATGCCTACCA GTACCAGAAC 
ATATTCGGGC CTCTGGTCAA GCTGGAGGCC GATTATGACA AGAAGCTCAA AGAGTCCCAG 
ACTCAAGATA ACATCACAGT CAGGTGGGAC CTGGGCCTTA ACAAGAAGAG AATCGCCTAC 
TTCACTTTGC CCAAGACTGA CTCTGATATG CGGCTCATGC AGGGTGATGA GATATGCCTG 
CGATACAAAG GGGACCTAGC ACCCCTGTGG AAAGGGATCG GCCATGTCAT CAAGGTCCCT 
GATAATTACG GTGATGAGAT TGCCATTGAG CTGCGGAGCA GTGTGGGTGC ACCTGTGGAG 
GTGACGCATA ACTTCCAGGT GGACTTTGTG TGGAAATCCA CCTCGTTTGA CAGGATGCAG 
AGTGCACTGA AGACCTTTGC TGTGGATGAG ACCTCCGTGT CAGGTTATAT CTACCACAAG 
CTACTCGGCC ACGAAGTGGA GGACGTGATC ATCAAGTGCC AGCTACCCAA GCGCTTCACA 
GCACAGGGGC TCCCTGACCT CAACCACTCT CAGGTTTATG CTGTAAAGAC TGTGCTGCAG 
AGACCTCTAA GCCTGATCCA GGGACCACCA GGCACGGGGA AGACAGTAAC CTCAGCCACC 
ATCGTCTACC ATCTGGCACG GCAGGGCAAT GGGCCCGTGC TTGTCTGTGC TCCAAGTAAC 
ATAGCTGTGG ATCAGCTGAC GGAGAAGATC CACCAAACTG GGCTGAAAGT TGTGCGGCTC 
TGCGCCAAGA GCCGCGAGGC CATCGACTCC CCGGTGTCAT TCCTAGCCCT GCATAACCAG 
ATCCGGAACA TGGATAGCAT GCCAGAGCTG CAGAAGCTGC AGCAGCTGAA GGATGAGACT 
GGGGAGCTGT CATCTGCTGA TGAGAAGCGG TACCGAGCCC TGAAGCGCAC GGCCGAAAGG 
GAGCTGCTCA TGAATGCGGA TGTCATCTGC TGTACGTGTG TGGGTGCGGG GGACCCCAGG 
CTTGCCAAGA TGCAGTTCCG CTCCATTTTA ATTGACGAGA GCACCCAAGC CACCGAGCCA 
GAGTGCATGG TCCCTGTGGT CCTCGGAGCC AAGCAGCTGA TCCTTGTGGG TGACCACTGC 
CAGCTCGGCC CCGTGGTGAT GTGCAAGAAG GCGGCCAAGG CCGGGCTGTC TCAGTCGCTG 
TTCGAACGCC TCGTGGTGCT GGGCATCCGT CCGATCCGCT TGCAGGTCCA GTATCGGATG 
CACCCTGCGC TCAGCGCTTT TCCGTCCAAC ATCTTCTATG AGGGTTCTCT GCAGAATGGC 
GTCACGGCAG CGGAACGTGT AAAGAAAGGG TTTGACTTCC AGTGGCCCCA ACCTGATAAG 
CCGATGTTCT TCTATGTGAC CCAGGGCCAG GAAGAGATCG CTAGTTCGGG TACCTCCTAC 
CTGAACAGGA CGGAGGCTGC AAACGTGGAG AAGATCACCA CGAAGCTGTT AAAGGCAGGT 
GCCAAGCCAG ACCAGATTGG CATCATCACG CCCTATGAGG GGCAGCGCTC CTACTTGGTG 
CAGTATATGC AGTTCAGTGG CTCCCTGCAC ACCAAGCTCT ACCAGGAGGT GGAGATTGCC 
AGTGTGGATG CGTTCCAGGG GCGCGAGAAG GACTTCATCA TCCTCTCCTG CGTGCGGGCC 
AATGAGCACC AAGGCATTGG GTTTTTAAAC GACCCCAGAC GGCTTAATGT GGCCCTAACC 
CGAGCGCGAT ACGGGGTCAT CATTGTGGGG AACCCCAAGG CCCTATCCAA GCAGCCACTC 
TGGAACCACC TGCTGAATTA CTACAAGGAG CAGAAGGTGC TGGTGGAGGG GCCCCTGAAC 
AACCTGCGAG AGAGCCTAAT GCAATTCAGC AAGCCCCGGA AGCTGGTCAA CACCATCAAC 
CCTGGAGCTC GCTTCATGAC CACAGCCATG TATGACGCCC GGGAGGCCAT CATCCCAGGA 
TCAGTTTATG ATCGGAGCAG CCAGGGTCGG CCCTCGAACA TGTACTTCCA GACCCATGAC 
CAGCTCGGCA TGATCAGTGC TGGCCCCAGC CACGTGGCTG CCATGAACAT TCCCATCCCC 
TTCAACCTGG TCATGCCACC CATGCCACCC CCGGGGTATT TTGGACAGGC TAACGGGCCA 
GCTGCAGGCC GGGGCACCCC AAAAGGCAAA ACGGGTCGTG GCGGACGCCA GAAGAACCGC 
TTTGGGCTTC CTGGGCCCAG CCAGACAAAC CTGCCCAGCA GCCAGGCCAG CCAGGATGTG 
GCATCACAGC CCTTCTCACA GGGTGCCCTG ACGCAGGGCT ATATCTCCAT GAGCCAGCCC 
TCCCAGATGA GCCAGCCTGG CCTCTCCCAA CCTGAGCTGT CCCAGGACAG TTACCTTGGT 
GATGAGTTTA AGTCCCAGAT TGATGTGGCG CTGTCGCAAG ACTCCACATA CCAGGGAGAG 
CGGGCATACC AGCACGGCGG AGTGACGGGC CTGTCCCAGT ACTAG

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

UPF1 ( XM_006904409.2 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006904471.1 Pteropus alecto UPF1 regulator of nonsense transcripts homolog (yeast) (UPF1), mRNA.

Price & Availability↑

CloneID	OPt05540
Clone ID Related Accession (Same CDS sequence)	XM_006904409.3 , XM_006904409.2
Accession Version	XM_006904409.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3345bp) 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	2016-02-09
Organism	Pteropus alecto(black flying fox)
Product	regulator of nonsense transcripts 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006429864.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 10, 2016 this sequence version replaced XM_006904409.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pteropus alecto Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGGATAAAG GCCTGGAGAT GACGGAGAAC AAGGCAGCAT TCCTGGAACT GGGTGTGGTG 
GAGCCAGCTC ATGGCTCCGA GTTTGAGTTC ACCGACTTCA CTCTCCCCAG CCAGACGCAG 
ACGCCCCCCG GCGGCCCCGG CGGTCCTGGG GGTGGCGGCC CGGGGGGCCC GGTCGGTGCA 
GGCGCAGGAG TTGCGGCCGG ACAGCTCGAC GCGCAGGTCG GAGGACCTGA AGGCATCCTG 
CAGAATGGGG CCGTGGATGA CAGTGTGGCC AAGACCAGCC AGTTGTTGGC CGAATTGAAC 
TTCGAAGAAG ATGAAGAGGA TACTTATTAC ACAAAGGACC TCCCAGTACA TGCCTGCAGT 
TACTGTGGAA TACACGATCC TGCTTGCGTG GTTTACTGTA ATACCAGCAA GAAGTGGTTC 
TGTAACGGAC GTGGAAATAC TTCTGGCAGC CACATTGTAA ATCACCTTGT GAGGGCAAAA 
TGCAAAGAGG TGACTTTGCA CAAAGATGGG CCCCTGGGGG AGACGGTCCT GGAGTGTTAC 
AATTGTGGCT GCCGCAACGT CTTCCTCCTT GGCTTCATCC CTGCTAAGGC TGACTCGGTG 
GTAGTGCTGC TGTGCAGGCA GCCTTGTGCC AGTCAGAGCA GCCTCAAGGA CATCAACTGG 
GACAGCTCGC AATGGCAGCC CCTGATCCAG GACCGCTGCT TCCTGTCTTG GCTGGTCAAG 
ATCCCTTCAG AGCAGGAGCA GCTGCGGGCT CGGCAAATAA CCGCTCAGCA GATCAACAAA 
CTAGAGGAAT TGTGGAAGGA GAATCCTTCT GCCACCTTGG AGGACCTAGA GAAGCCGGGG 
GTGGATGAGG AGCCGCAGCA TGTCCTCTTG CGGTATGAGG ATGCCTACCA GTACCAGAAC 
ATATTCGGGC CTCTGGTCAA GCTGGAGGCC GATTATGACA AGAAGCTCAA AGAGTCCCAG 
ACTCAAGATA ACATCACAGT CAGGTGGGAC CTGGGCCTTA ACAAGAAGAG AATCGCCTAC 
TTCACTTTGC CCAAGACTGA CTCTGATATG CGGCTCATGC AGGGTGATGA GATATGCCTG 
CGATACAAAG GGGACCTAGC ACCCCTGTGG AAAGGGATCG GCCATGTCAT CAAGGTCCCT 
GATAATTACG GTGATGAGAT TGCCATTGAG CTGCGGAGCA GTGTGGGTGC ACCTGTGGAG 
GTGACGCATA ACTTCCAGGT GGACTTTGTG TGGAAATCCA CCTCGTTTGA CAGGATGCAG 
AGTGCACTGA AGACCTTTGC TGTGGATGAG ACCTCCGTGT CAGGTTATAT CTACCACAAG 
CTACTCGGCC ACGAAGTGGA GGACGTGATC ATCAAGTGCC AGCTACCCAA GCGCTTCACA 
GCACAGGGGC TCCCTGACCT CAACCACTCT CAGGTTTATG CTGTAAAGAC TGTGCTGCAG 
AGACCTCTAA GCCTGATCCA GGGACCACCA GGCACGGGGA AGACAGTAAC CTCAGCCACC 
ATCGTCTACC ATCTGGCACG GCAGGGCAAT GGGCCCGTGC TTGTCTGTGC TCCAAGTAAC 
ATAGCTGTGG ATCAGCTGAC GGAGAAGATC CACCAAACTG GGCTGAAAGT TGTGCGGCTC 
TGCGCCAAGA GCCGCGAGGC CATCGACTCC CCGGTGTCAT TCCTAGCCCT GCATAACCAG 
ATCCGGAACA TGGATAGCAT GCCAGAGCTG CAGAAGCTGC AGCAGCTGAA GGATGAGACT 
GGGGAGCTGT CATCTGCTGA TGAGAAGCGG TACCGAGCCC TGAAGCGCAC GGCCGAAAGG 
GAGCTGCTCA TGAATGCGGA TGTCATCTGC TGTACGTGTG TGGGTGCGGG GGACCCCAGG 
CTTGCCAAGA TGCAGTTCCG CTCCATTTTA ATTGACGAGA GCACCCAAGC CACCGAGCCA 
GAGTGCATGG TCCCTGTGGT CCTCGGAGCC AAGCAGCTGA TCCTTGTGGG TGACCACTGC 
CAGCTCGGCC CCGTGGTGAT GTGCAAGAAG GCGGCCAAGG CCGGGCTGTC TCAGTCGCTG 
TTCGAACGCC TCGTGGTGCT GGGCATCCGT CCGATCCGCT TGCAGGTCCA GTATCGGATG 
CACCCTGCGC TCAGCGCTTT TCCGTCCAAC ATCTTCTATG AGGGTTCTCT GCAGAATGGC 
GTCACGGCAG CGGAACGTGT AAAGAAAGGG TTTGACTTCC AGTGGCCCCA ACCTGATAAG 
CCGATGTTCT TCTATGTGAC CCAGGGCCAG GAAGAGATCG CTAGTTCGGG TACCTCCTAC 
CTGAACAGGA CGGAGGCTGC AAACGTGGAG AAGATCACCA CGAAGCTGTT AAAGGCAGGT 
GCCAAGCCAG ACCAGATTGG CATCATCACG CCCTATGAGG GGCAGCGCTC CTACTTGGTG 
CAGTATATGC AGTTCAGTGG CTCCCTGCAC ACCAAGCTCT ACCAGGAGGT GGAGATTGCC 
AGTGTGGATG CGTTCCAGGG GCGCGAGAAG GACTTCATCA TCCTCTCCTG CGTGCGGGCC 
AATGAGCACC AAGGCATTGG GTTTTTAAAC GACCCCAGAC GGCTTAATGT GGCCCTAACC 
CGAGCGCGAT ACGGGGTCAT CATTGTGGGG AACCCCAAGG CCCTATCCAA GCAGCCACTC 
TGGAACCACC TGCTGAATTA CTACAAGGAG CAGAAGGTGC TGGTGGAGGG GCCCCTGAAC 
AACCTGCGAG AGAGCCTAAT GCAATTCAGC AAGCCCCGGA AGCTGGTCAA CACCATCAAC 
CCTGGAGCTC GCTTCATGAC CACAGCCATG TATGACGCCC GGGAGGCCAT CATCCCAGGA 
TCAGTTTATG ATCGGAGCAG CCAGGGTCGG CCCTCGAACA TGTACTTCCA GACCCATGAC 
CAGCTCGGCA TGATCAGTGC TGGCCCCAGC CACGTGGCTG CCATGAACAT TCCCATCCCC 
TTCAACCTGG TCATGCCACC CATGCCACCC CCGGGGTATT TTGGACAGGC TAACGGGCCA 
GCTGCAGGCC GGGGCACCCC AAAAGGCAAA ACGGGTCGTG GCGGACGCCA GAAGAACCGC 
TTTGGGCTTC CTGGGCCCAG CCAGACAAAC CTGCCCAGCA GCCAGGCCAG CCAGGATGTG 
GCATCACAGC CCTTCTCACA GGGTGCCCTG ACGCAGGGCT ATATCTCCAT GAGCCAGCCC 
TCCCAGATGA GCCAGCCTGG CCTCTCCCAA CCTGAGCTGT CCCAGGACAG TTACCTTGGT 
GATGAGTTTA AGTCCCAGAT TGATGTGGCG CTGTCGCAAG ACTCCACATA CCAGGGAGAG 
CGGGCATACC AGCACGGCGG AGTGACGGGC CTGTCCCAGT ACTAG

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

RefSeq	XP_006904471.1
CDS	1..3345
Translation	MDKGLEMTENKAAFLELGVVEPAHGSEFEFTDFTLPSQTQTPPGGPGGPGGGGPGGPVGAGAGVAAGQLDAQVGGPEGILQNGAVDDSVAKTSQLLAELNFEEDEEDTYYTKDLPVHACSYCGIHDPACVVYCNTSKKWFCNGRGNTSGSHIVNHLVRAKCKEVTLHKDGPLGETVLECYNCGCRNVFLLGFIPAKADSVVVLLCRQPCASQSSLKDINWDSSQWQPLIQDRCFLSWLVKIPSEQEQLRARQITAQQINKLEELWKENPSATLEDLEKPGVDEEPQHVLLRYEDAYQYQNIFGPLVKLEADYDKKLKESQTQDNITVRWDLGLNKKRIAYFTLPKTDSDMRLMQGDEICLRYKGDLAPLWKGIGHVIKVPDNYGDEIAIELRSSVGAPVEVTHNFQVDFVWKSTSFDRMQSALKTFAVDETSVSGYIYHKLLGHEVEDVIIKCQLPKRFTAQGLPDLNHSQVYAVKTVLQRPLSLIQGPPGTGKTVTSATIVYHLARQGNGPVLVCAPSNIAVDQLTEKIHQTGLKVVRLCAKSREAIDSPVSFLALHNQIRNMDSMPELQKLQQLKDETGELSSADEKRYRALKRTAERELLMNADVICCTCVGAGDPRLAKMQFRSILIDESTQATEPECMVPVVLGAKQLILVGDHCQLGPVVMCKKAAKAGLSQSLFERLVVLGIRPIRLQVQYRMHPALSAFPSNIFYEGSLQNGVTAAERVKKGFDFQWPQPDKPMFFYVTQGQEEIASSGTSYLNRTEAANVEKITTKLLKAGAKPDQIGIITPYEGQRSYLVQYMQFSGSLHTKLYQEVEIASVDAFQGREKDFIILSCVRANEHQGIGFLNDPRRLNVALTRARYGVIIVGNPKALSKQPLWNHLLNYYKEQKVLVEGPLNNLRESLMQFSKPRKLVNTINPGARFMTTAMYDAREAIIPGSVYDRSSQGRPSNMYFQTHDQLGMISAGPSHVAAMNIPIPFNLVMPPMPPPGYFGQANGPAAGRGTPKGKTGRGGRQKNRFGLPGPSQTNLPSSQASQDVASQPFSQGALTQGYISMSQPSQMSQPGLSQPELSQDSYLGDEFKSQIDVALSQDSTYQGERAYQHGGVTGLSQY

Target ORF information:

RefSeq Version	XM_006904409.2
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto UPF1 regulator of nonsense transcripts homolog (yeast) (UPF1), mRNA.

Target ORF information:

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

XM_006904409.2

ORF Insert Sequence:

ATGGATAAAG GCCTGGAGAT GACGGAGAAC AAGGCAGCAT TCCTGGAACT GGGTGTGGTG 
GAGCCAGCTC ATGGCTCCGA GTTTGAGTTC ACCGACTTCA CTCTCCCCAG CCAGACGCAG 
ACGCCCCCCG GCGGCCCCGG CGGTCCTGGG GGTGGCGGCC CGGGGGGCCC GGTCGGTGCA 
GGCGCAGGAG TTGCGGCCGG ACAGCTCGAC GCGCAGGTCG GAGGACCTGA AGGCATCCTG 
CAGAATGGGG CCGTGGATGA CAGTGTGGCC AAGACCAGCC AGTTGTTGGC CGAATTGAAC 
TTCGAAGAAG ATGAAGAGGA TACTTATTAC ACAAAGGACC TCCCAGTACA TGCCTGCAGT 
TACTGTGGAA TACACGATCC TGCTTGCGTG GTTTACTGTA ATACCAGCAA GAAGTGGTTC 
TGTAACGGAC GTGGAAATAC TTCTGGCAGC CACATTGTAA ATCACCTTGT GAGGGCAAAA 
TGCAAAGAGG TGACTTTGCA CAAAGATGGG CCCCTGGGGG AGACGGTCCT GGAGTGTTAC 
AATTGTGGCT GCCGCAACGT CTTCCTCCTT GGCTTCATCC CTGCTAAGGC TGACTCGGTG 
GTAGTGCTGC TGTGCAGGCA GCCTTGTGCC AGTCAGAGCA GCCTCAAGGA CATCAACTGG 
GACAGCTCGC AATGGCAGCC CCTGATCCAG GACCGCTGCT TCCTGTCTTG GCTGGTCAAG 
ATCCCTTCAG AGCAGGAGCA GCTGCGGGCT CGGCAAATAA CCGCTCAGCA GATCAACAAA 
CTAGAGGAAT TGTGGAAGGA GAATCCTTCT GCCACCTTGG AGGACCTAGA GAAGCCGGGG 
GTGGATGAGG AGCCGCAGCA TGTCCTCTTG CGGTATGAGG ATGCCTACCA GTACCAGAAC 
ATATTCGGGC CTCTGGTCAA GCTGGAGGCC GATTATGACA AGAAGCTCAA AGAGTCCCAG 
ACTCAAGATA ACATCACAGT CAGGTGGGAC CTGGGCCTTA ACAAGAAGAG AATCGCCTAC 
TTCACTTTGC CCAAGACTGA CTCTGATATG CGGCTCATGC AGGGTGATGA GATATGCCTG 
CGATACAAAG GGGACCTAGC ACCCCTGTGG AAAGGGATCG GCCATGTCAT CAAGGTCCCT 
GATAATTACG GTGATGAGAT TGCCATTGAG CTGCGGAGCA GTGTGGGTGC ACCTGTGGAG 
GTGACGCATA ACTTCCAGGT GGACTTTGTG TGGAAATCCA CCTCGTTTGA CAGGATGCAG 
AGTGCACTGA AGACCTTTGC TGTGGATGAG ACCTCCGTGT CAGGTTATAT CTACCACAAG 
CTACTCGGCC ACGAAGTGGA GGACGTGATC ATCAAGTGCC AGCTACCCAA GCGCTTCACA 
GCACAGGGGC TCCCTGACCT CAACCACTCT CAGGTTTATG CTGTAAAGAC TGTGCTGCAG 
AGACCTCTAA GCCTGATCCA GGGACCACCA GGCACGGGGA AGACAGTAAC CTCAGCCACC 
ATCGTCTACC ATCTGGCACG GCAGGGCAAT GGGCCCGTGC TTGTCTGTGC TCCAAGTAAC 
ATAGCTGTGG ATCAGCTGAC GGAGAAGATC CACCAAACTG GGCTGAAAGT TGTGCGGCTC 
TGCGCCAAGA GCCGCGAGGC CATCGACTCC CCGGTGTCAT TCCTAGCCCT GCATAACCAG 
ATCCGGAACA TGGATAGCAT GCCAGAGCTG CAGAAGCTGC AGCAGCTGAA GGATGAGACT 
GGGGAGCTGT CATCTGCTGA TGAGAAGCGG TACCGAGCCC TGAAGCGCAC GGCCGAAAGG 
GAGCTGCTCA TGAATGCGGA TGTCATCTGC TGTACGTGTG TGGGTGCGGG GGACCCCAGG 
CTTGCCAAGA TGCAGTTCCG CTCCATTTTA ATTGACGAGA GCACCCAAGC CACCGAGCCA 
GAGTGCATGG TCCCTGTGGT CCTCGGAGCC AAGCAGCTGA TCCTTGTGGG TGACCACTGC 
CAGCTCGGCC CCGTGGTGAT GTGCAAGAAG GCGGCCAAGG CCGGGCTGTC TCAGTCGCTG 
TTCGAACGCC TCGTGGTGCT GGGCATCCGT CCGATCCGCT TGCAGGTCCA GTATCGGATG 
CACCCTGCGC TCAGCGCTTT TCCGTCCAAC ATCTTCTATG AGGGTTCTCT GCAGAATGGC 
GTCACGGCAG CGGAACGTGT AAAGAAAGGG TTTGACTTCC AGTGGCCCCA ACCTGATAAG 
CCGATGTTCT TCTATGTGAC CCAGGGCCAG GAAGAGATCG CTAGTTCGGG TACCTCCTAC 
CTGAACAGGA CGGAGGCTGC AAACGTGGAG AAGATCACCA CGAAGCTGTT AAAGGCAGGT 
GCCAAGCCAG ACCAGATTGG CATCATCACG CCCTATGAGG GGCAGCGCTC CTACTTGGTG 
CAGTATATGC AGTTCAGTGG CTCCCTGCAC ACCAAGCTCT ACCAGGAGGT GGAGATTGCC 
AGTGTGGATG CGTTCCAGGG GCGCGAGAAG GACTTCATCA TCCTCTCCTG CGTGCGGGCC 
AATGAGCACC AAGGCATTGG GTTTTTAAAC GACCCCAGAC GGCTTAATGT GGCCCTAACC 
CGAGCGCGAT ACGGGGTCAT CATTGTGGGG AACCCCAAGG CCCTATCCAA GCAGCCACTC 
TGGAACCACC TGCTGAATTA CTACAAGGAG CAGAAGGTGC TGGTGGAGGG GCCCCTGAAC 
AACCTGCGAG AGAGCCTAAT GCAATTCAGC AAGCCCCGGA AGCTGGTCAA CACCATCAAC 
CCTGGAGCTC GCTTCATGAC CACAGCCATG TATGACGCCC GGGAGGCCAT CATCCCAGGA 
TCAGTTTATG ATCGGAGCAG CCAGGGTCGG CCCTCGAACA TGTACTTCCA GACCCATGAC 
CAGCTCGGCA TGATCAGTGC TGGCCCCAGC CACGTGGCTG CCATGAACAT TCCCATCCCC 
TTCAACCTGG TCATGCCACC CATGCCACCC CCGGGGTATT TTGGACAGGC TAACGGGCCA 
GCTGCAGGCC GGGGCACCCC AAAAGGCAAA ACGGGTCGTG GCGGACGCCA GAAGAACCGC 
TTTGGGCTTC CTGGGCCCAG CCAGACAAAC CTGCCCAGCA GCCAGGCCAG CCAGGATGTG 
GCATCACAGC CCTTCTCACA GGGTGCCCTG ACGCAGGGCT ATATCTCCAT GAGCCAGCCC 
TCCCAGATGA GCCAGCCTGG CCTCTCCCAA CCTGAGCTGT CCCAGGACAG TTACCTTGGT 
GATGAGTTTA AGTCCCAGAT TGATGTGGCG CTGTCGCAAG ACTCCACATA CCAGGGAGAG 
CGGGCATACC AGCACGGCGG AGTGACGGGC CTGTCCCAGT ACTAG