XRN2 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	XRN2
Entrez Gene ID	102558593
Full Name	5'-3' exoribonuclease 2
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019491018.1	XP_019346563.1	5'-3' exoribonuclease 2 isoform X2
XM_006277350.3	XP_006277412.1	5'-3' exoribonuclease 2 isoform X1

Pathways from BioSystems
Gene Ontology

The following XRN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the XRN2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OAl60859	XM_006277350.3 Latest version!	Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl60860	XM_019491018.1 Latest version!	Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

XRN2 ( XM_006277350.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006277412.1 Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl60859
Clone ID Related Accession (Same CDS sequence)	XM_006277350.3
Accession Version	XM_006277350.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2868bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	5'-3' exoribonuclease 2 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017710746.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006277350.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAGTCC CGGCCTTCTT CCGCTGGCTC AGCCGCAAGT ACCCCTCCAT CATCGTCAAC 
TGCGTGGAGG AAAGGCCTAA AGAATGCAAT GGAGTCAAAA TTCCAGTTGA TACTAGTAAA 
CCTAATCCCA ATGAGGTGGA GTTTGATAAC CTGTATTTGG ATATGAATGG CATTATTCAC 
CCTTGTACAC ATCCTGAAGA TAAACCAGCA CCCAAAAATG AAGATGAAAT GATGGTTGCA 
ATTTTTGAGT ACATCGACAG ACTTTTTAAC ATCATAAGAC CAAGACGACT TCTCTATATG 
GCAATAGATG GGGTGGCTCC CCGTGCAAAA ATGAATCAAC AGAGATCCAG AAGATTCAGA 
GCATCAAAGG AGGGAGTGGA AGCTACAGAA GAGAAGCAAA GAGTAAGACA AGAGATACTG 
GCAAAAGGTG GCATTCTTCC TGCAGAGGAA GTGAAAGAGA GATTTGATAG CAATTGTATT 
ACCCCAGGAA CTGAGTTTAT GGACAATCTA GCTAAATGCC TTCGCTATTA CATTGCTGAT 
CGTTTAAACA ATGACCCAGG ATGGAAAAAT TTGACAGTTA TTTTATCAGA TGCTAGTGCT 
CCTGGTGAAG GTGAACACAA AATAATGGAT TACATTAGAA GGCAAAGAGC TCAACCAAAC 
CATGATCCAA ACACTCATCA TTGTTTATGT GGGGCTGATG CTGATTTGAT TATGCTTGGG 
CTAGCCACGC ATGAGCCAAA CTTCACTATA ATCAGAGAAG AGTTTAAACC AAATAAACCC 
AGACCCTGTG CTCTTTGTAA CCAGTTGGGA CATGAAGTTA AAGATTGCCA AGGTTTGCCA 
AGAGAAAAAC AAGGCGAGCA TGACCAGTTT GCTGATTGTC CTCTTACCTC TGAACAAGAG 
TTCATCTTTA TCCGATTAAA TGTTCTCCGA GAGTATTTGG AAAAAGAACT CACCATGGCC 
AGTTTGCCTT TTACTTTTGA TTTTGAGAGA AGCATTGATG ACTGGGTCTT CATGTGTTTC 
TTCGTTGGAA ATGACTTTCT TCCTCATCTG CCATCACTGG AGATCAGGGA GGGAGCAATC 
GATCGCCTGG TTAACATATA CAAAAATGTG GTGCACAAAA CTGGGGGGTA CCTCACAGAG 
AGTGGCTTTG TCAACCTACA GCGAGTACAG ATGATTATGT TAGCAGTTGG AGAAGTTGAA 
GATAACATTT TTAAAAAAAG GAAAGATGAT GAGGAGAACT TCAAAAGACG ACAAAAAGAA 
AAGAGAAAAA GGATGAAGAG GGATCAGCCT TCTTTTATCC CTGGTGGACA GTTTTCCCCT 
CAAGCATTGG GCAGTGGAAA TAGGTCTAAT CCTCAGACAA TCAGTAACCC CAGACAAGCA 
GCCTTCGAAA TGAGAATGCA GAACTCAACT CCTTCAGCAT CTCCTAATAC TAGTTTCACT 
TCTGATGGCA CCCCATCCCC AGCAGGAGGA ATTAAACGAA AAGCTGAAGA CAGTGACAGT 
GAACCTGAGC CAGAGGATAA TATCAGGTTA TGGGAAGCTG GTTGGAAACA GCGTTACTAT 
AAGAACAAAT TTGATGTTGA TGCATCTGAT GAGAAATTTC GTCGTAAGGT TGTACGGTCT 
TATGTTGAAG GGCTTTGCTG GGTTCTCAGA TACTATTATC AGGGCTGTGC TTCTTGGAAG 
TGGTTTTACC CATTCCATTA TGCACCATTT GCTTCCGACT TCGAAGGCAT TGCAGACCTG 
CCCTCAGACT TTGAGAAGGG CACAAAACCG TTCAGACCTC TTGAACAACT TATGGGTGTA 
TTTCCAGCTG CTAGTGGTAA CTTTTTGCCA CCAACATGGC AGAAGCTCAT GACTGATCCA 
GAATCAAGTA TAATTGACTT CTACCCTGAA GATTTTGCTA TCGATTTGAA CGGGAAGAAA 
TTTGCTTGGC AAGGTGTTGC TCTGTTGCCA TTTGTTGATG AACGCCGCCT GAGAGCTGCT 
TTGGAAGAGG TTTACCCTGA TCTCACTTCT GAAGAAAACC GAAGAAATAG TCTGGGTGGT 
GACCTTCTCT TTGTTGGAAA AAATCACAGC CTTTGTGACT TCATTGCAGA GCTCTATAAA 
TCCAGTACTA CAGAGCCAGT TGATATGCCC CCAGAACTGT GCCATGGAAT CCAGGGAAAA 
CTTTCACTGA ATGAAAATCC AGTTCTTCCA GATCAAGTAG TGCAGTCTCC TGTTCCAACC 
TTGCGTGACC TGGCACAGAA TTCTGCAGTC AGTATCAATT TCAAAGATCC GCAGTTTAAC 
GAAGACTTTG TTTTCAAGGC TGTGGTGCTA CCTGGGGCAA AAAAACCTCT ACCTGTTTTG 
AAGCCGGGTG ACTGGGAAAA AACCAACAAC AATGGGAGGC CATGGAGGCC ACAGCTTGGT 
TTTAATAGAG ACAGGCAGCC TGTTCACTTG GACCAGTCAG CATTCAGAAC GTTAGGCCAT 
GCAATGTCAA GGGAAAGAGG GCAGCCAGGA AGTGGAATGT ACAGCAATGC AGCCCCTCTT 
GGAGCTTATC AGGGAAACCC ATACAGACCG CTCTTTTCTG GACAACCACA GATTCCTAAA 
TTGTTGTCAA ATCTCAGGCC TCCAGAATCA TGGCGAGGGC CTACACCTTT GTTTCAGCAG 
CCACCGCAGA GATATGACAG GAGTTCTGGG GCTGCTCCTC TTCTAGCGTG GAACCGCATG 
GTACAATCCC AAAATGCAGC ATTCCAACAA AATCAGTATC AAGGAGTAGG TGGACCAATG 
AATTACCCAC AGAGACCTGA GGATCGGATG GATAGGGGAA GACAGGGATA TGGCCCCGGG 
AGGCCCTACC CATTACCACC TCCCGCTGGA AGATACAACT GGAATTAG

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

RefSeq	XP_006277412.1
CDS	85..2952
Translation	MGVPAFFRWLSRKYPSIIVNCVEERPKECNGVKIPVDTSKPNPNEVEFDNLYLDMNGIIHPCTHPEDKPAPKNEDEMMVAIFEYIDRLFNIIRPRRLLYMAIDGVAPRAKMNQQRSRRFRASKEGVEATEEKQRVRQEILAKGGILPAEEVKERFDSNCITPGTEFMDNLAKCLRYYIADRLNNDPGWKNLTVILSDASAPGEGEHKIMDYIRRQRAQPNHDPNTHHCLCGADADLIMLGLATHEPNFTIIREEFKPNKPRPCALCNQLGHEVKDCQGLPREKQGEHDQFADCPLTSEQEFIFIRLNVLREYLEKELTMASLPFTFDFERSIDDWVFMCFFVGNDFLPHLPSLEIREGAIDRLVNIYKNVVHKTGGYLTESGFVNLQRVQMIMLAVGEVEDNIFKKRKDDEENFKRRQKEKRKRMKRDQPSFIPGGQFSPQALGSGNRSNPQTISNPRQAAFEMRMQNSTPSASPNTSFTSDGTPSPAGGIKRKAEDSDSEPEPEDNIRLWEAGWKQRYYKNKFDVDASDEKFRRKVVRSYVEGLCWVLRYYYQGCASWKWFYPFHYAPFASDFEGIADLPSDFEKGTKPFRPLEQLMGVFPAASGNFLPPTWQKLMTDPESSIIDFYPEDFAIDLNGKKFAWQGVALLPFVDERRLRAALEEVYPDLTSEENRRNSLGGDLLFVGKNHSLCDFIAELYKSSTTEPVDMPPELCHGIQGKLSLNENPVLPDQVVQSPVPTLRDLAQNSAVSINFKDPQFNEDFVFKAVVLPGAKKPLPVLKPGDWEKTNNNGRPWRPQLGFNRDRQPVHLDQSAFRTLGHAMSRERGQPGSGMYSNAAPLGAYQGNPYRPLFSGQPQIPKLLSNLRPPESWRGPTPLFQQPPQRYDRSSGAAPLLAWNRMVQSQNAAFQQNQYQGVGGPMNYPQRPEDRMDRGRQGYGPGRPYPLPPPAGRYNWN

Target ORF information:

RefSeq Version	XM_006277350.3
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X1, mRNA.

Target ORF information:

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

XM_006277350.3

ORF Insert Sequence:

ATGGGAGTCC CGGCCTTCTT CCGCTGGCTC AGCCGCAAGT ACCCCTCCAT CATCGTCAAC 
TGCGTGGAGG AAAGGCCTAA AGAATGCAAT GGAGTCAAAA TTCCAGTTGA TACTAGTAAA 
CCTAATCCCA ATGAGGTGGA GTTTGATAAC CTGTATTTGG ATATGAATGG CATTATTCAC 
CCTTGTACAC ATCCTGAAGA TAAACCAGCA CCCAAAAATG AAGATGAAAT GATGGTTGCA 
ATTTTTGAGT ACATCGACAG ACTTTTTAAC ATCATAAGAC CAAGACGACT TCTCTATATG 
GCAATAGATG GGGTGGCTCC CCGTGCAAAA ATGAATCAAC AGAGATCCAG AAGATTCAGA 
GCATCAAAGG AGGGAGTGGA AGCTACAGAA GAGAAGCAAA GAGTAAGACA AGAGATACTG 
GCAAAAGGTG GCATTCTTCC TGCAGAGGAA GTGAAAGAGA GATTTGATAG CAATTGTATT 
ACCCCAGGAA CTGAGTTTAT GGACAATCTA GCTAAATGCC TTCGCTATTA CATTGCTGAT 
CGTTTAAACA ATGACCCAGG ATGGAAAAAT TTGACAGTTA TTTTATCAGA TGCTAGTGCT 
CCTGGTGAAG GTGAACACAA AATAATGGAT TACATTAGAA GGCAAAGAGC TCAACCAAAC 
CATGATCCAA ACACTCATCA TTGTTTATGT GGGGCTGATG CTGATTTGAT TATGCTTGGG 
CTAGCCACGC ATGAGCCAAA CTTCACTATA ATCAGAGAAG AGTTTAAACC AAATAAACCC 
AGACCCTGTG CTCTTTGTAA CCAGTTGGGA CATGAAGTTA AAGATTGCCA AGGTTTGCCA 
AGAGAAAAAC AAGGCGAGCA TGACCAGTTT GCTGATTGTC CTCTTACCTC TGAACAAGAG 
TTCATCTTTA TCCGATTAAA TGTTCTCCGA GAGTATTTGG AAAAAGAACT CACCATGGCC 
AGTTTGCCTT TTACTTTTGA TTTTGAGAGA AGCATTGATG ACTGGGTCTT CATGTGTTTC 
TTCGTTGGAA ATGACTTTCT TCCTCATCTG CCATCACTGG AGATCAGGGA GGGAGCAATC 
GATCGCCTGG TTAACATATA CAAAAATGTG GTGCACAAAA CTGGGGGGTA CCTCACAGAG 
AGTGGCTTTG TCAACCTACA GCGAGTACAG ATGATTATGT TAGCAGTTGG AGAAGTTGAA 
GATAACATTT TTAAAAAAAG GAAAGATGAT GAGGAGAACT TCAAAAGACG ACAAAAAGAA 
AAGAGAAAAA GGATGAAGAG GGATCAGCCT TCTTTTATCC CTGGTGGACA GTTTTCCCCT 
CAAGCATTGG GCAGTGGAAA TAGGTCTAAT CCTCAGACAA TCAGTAACCC CAGACAAGCA 
GCCTTCGAAA TGAGAATGCA GAACTCAACT CCTTCAGCAT CTCCTAATAC TAGTTTCACT 
TCTGATGGCA CCCCATCCCC AGCAGGAGGA ATTAAACGAA AAGCTGAAGA CAGTGACAGT 
GAACCTGAGC CAGAGGATAA TATCAGGTTA TGGGAAGCTG GTTGGAAACA GCGTTACTAT 
AAGAACAAAT TTGATGTTGA TGCATCTGAT GAGAAATTTC GTCGTAAGGT TGTACGGTCT 
TATGTTGAAG GGCTTTGCTG GGTTCTCAGA TACTATTATC AGGGCTGTGC TTCTTGGAAG 
TGGTTTTACC CATTCCATTA TGCACCATTT GCTTCCGACT TCGAAGGCAT TGCAGACCTG 
CCCTCAGACT TTGAGAAGGG CACAAAACCG TTCAGACCTC TTGAACAACT TATGGGTGTA 
TTTCCAGCTG CTAGTGGTAA CTTTTTGCCA CCAACATGGC AGAAGCTCAT GACTGATCCA 
GAATCAAGTA TAATTGACTT CTACCCTGAA GATTTTGCTA TCGATTTGAA CGGGAAGAAA 
TTTGCTTGGC AAGGTGTTGC TCTGTTGCCA TTTGTTGATG AACGCCGCCT GAGAGCTGCT 
TTGGAAGAGG TTTACCCTGA TCTCACTTCT GAAGAAAACC GAAGAAATAG TCTGGGTGGT 
GACCTTCTCT TTGTTGGAAA AAATCACAGC CTTTGTGACT TCATTGCAGA GCTCTATAAA 
TCCAGTACTA CAGAGCCAGT TGATATGCCC CCAGAACTGT GCCATGGAAT CCAGGGAAAA 
CTTTCACTGA ATGAAAATCC AGTTCTTCCA GATCAAGTAG TGCAGTCTCC TGTTCCAACC 
TTGCGTGACC TGGCACAGAA TTCTGCAGTC AGTATCAATT TCAAAGATCC GCAGTTTAAC 
GAAGACTTTG TTTTCAAGGC TGTGGTGCTA CCTGGGGCAA AAAAACCTCT ACCTGTTTTG 
AAGCCGGGTG ACTGGGAAAA AACCAACAAC AATGGGAGGC CATGGAGGCC ACAGCTTGGT 
TTTAATAGAG ACAGGCAGCC TGTTCACTTG GACCAGTCAG CATTCAGAAC GTTAGGCCAT 
GCAATGTCAA GGGAAAGAGG GCAGCCAGGA AGTGGAATGT ACAGCAATGC AGCCCCTCTT 
GGAGCTTATC AGGGAAACCC ATACAGACCG CTCTTTTCTG GACAACCACA GATTCCTAAA 
TTGTTGTCAA ATCTCAGGCC TCCAGAATCA TGGCGAGGGC CTACACCTTT GTTTCAGCAG 
CCACCGCAGA GATATGACAG GAGTTCTGGG GCTGCTCCTC TTCTAGCGTG GAACCGCATG 
GTACAATCCC AAAATGCAGC ATTCCAACAA AATCAGTATC AAGGAGTAGG TGGACCAATG 
AATTACCCAC AGAGACCTGA GGATCGGATG GATAGGGGAA GACAGGGATA TGGCCCCGGG 
AGGCCCTACC CATTACCACC TCCCGCTGGA AGATACAACT GGAATTAG

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

XRN2 ( XM_019491018.1 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_019346563.1 Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl60860
Clone ID Related Accession (Same CDS sequence)	XM_019491018.1
Accession Version	XM_019491018.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2820bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	5'-3' exoribonuclease 2 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017710746.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGAGTCC CGGCCTTCTT CCGCTGGCTC AGCCGCAAGT ACCCCTCCAT CATCGTCAAC 
TGCGTGGAGG AAAGGCCTAA AGAATGCAAT GGAGTCAAAA TTCCAGTTGA TACTAGTAAA 
CCTAATCCCA ATGAGGTGGA GTTTGATAAC CTGTATTTGG ATATGAATGG CATTATTCAC 
CCTTGTACAC ATCCTGAAGA TAAACCAGCA CCCAAAAATG AAGATGAAAT GATGGTTGCA 
ATTTTTGAGT ACATCGACAG ACTTTTTAAC ATCATAAGAC CAAGACGACT TCTCTATATG 
GCAATAGATG GGGTGGCTCC CCGTGCAAAA ATGAATCAAC AGAGATCCAG AAGATTCAGA 
GCATCAAAGG AGGGAGTGGA AGCTACAGAA GAGAAGCAAA GAGTAAGACA AGAGATACTG 
GCAAAAGGTG GCATTCTTCC TGCAGAGGAA GTGAAAGAGA GATTTGATAG CAATTGTATT 
ACCCCAGGAA CTGAGTTTAT GGACAATCTA GCTAAATGCC TTCGCTATTA CATTGCTGAT 
CGTTTAAACA ATGACCCAGG ATGGAAAAAT TTGACAGTTA TTTTATCAGA TGCTAGTGCT 
CCTGGTGAAG GTGAACACAA AATAATGGAT TACATTAGAA GGCAAAGAGC TCAACCAAAC 
CATGATCCAA ACACTCATCA TTGTTTATGT GGGGCTGATG CTGATTTGAT TATGCTTGGG 
CTAGCCACGC ATGAGCCAAA CTTCACTATA ATCAGAGAAG AGTTTAAACC AAATAAACCC 
AGACCCTGTG CTCTTTGTAA CCAGTTGGGA CATGAAGTTA AAGATTGCCA AGGTTTGCCA 
AGAGAAAAAC AAGGCGAGCA TGACCAGTTT GCTGATTGTC CTCTTACCTC TGAACAAGAG 
TTCATCTTTA TCCGATTAAA TGTTCTCCGA GAGTATTTGG AAAAAGAACT CACCATGGCC 
AGTTTGCCTT TTACTTTTGA TTTTGAGAGA AGCATTGATG ACTGGGTCTT CATGTGTTTC 
TTCGTTGGAA ATGACTTTCT TCCTCATCTG CCATCACTGG AGATCAGGGA GGGAGCAATC 
GATCGCCTGG TTAACATATA CAAAAATGTG GTGCACAAAA CTGGGGGGTA CCTCACAGAG 
AGTGGCTTTG TCAACCTACA GCGAGTACAG ATGATTATGT TAGCAGTTGG AGAAGTTGAA 
GATAACATTT TTAAAAAAAG GAAAGATGAT GAGGAGAACT TCAAAAGACG ACAAAAAGAA 
AAGAGAAAAA GGATGAAGAG GGATCAGCCT TCTTTTATCC CTGGTGGACA GTTTTCCCCT 
CAAGCATTGG GCAGTGGAAA TAGGTCTAAT CCTCAGACAA TCAGTAACCC CAGACAAGCA 
GCCTTCGAAA TGAGAATGCA GAACTCAACT CCTTCAGCAT CTCCTAATAC TAGTTTCACT 
TCTGATGGCA CCCCATCCCC AGCAGGAGGA ATTAAACGAA AAGCTGAAGA CAGTGACAGT 
GAACCTGAGC CAGAGGATAA TATCAGGTTA TGGGAAGCTG GTTGGAAACA GCGTTACTAT 
AAGAACAAAT TTGATGTTGA TGCATCTGAT GAGAAATTTC GTCGTAAGGT TGTACGGTCT 
TATGTTGAAG GGCTTTGCTG GGTTCTCAGA TACTATTATC AGGGCTGTGC TTCTTGGAAG 
TGGTTTTACC CATTCCATTA TGCACCATTT GCTTCCGACT TCGAAGGCAT TGCAGACCTG 
CCCTCAGACT TTGAGAAGGG CACAAAACCG TTCAGACCTC TTGAACAACT TATGGGTGTA 
TTTCCAGCTG CTAGTGGTAA CTTTTTGCCA CCAACATGGC AGAAGCTCAT GACTGATCCA 
GAATCAAGTA TAATTGACTT CTACCCTGAA GATTTTGCTA TCGATTTGAA CGGGAAGAAA 
TTTGCTTGGC AAGGTGTTGC TCTGTTGCCA TTTGTTGATG AACGCCGCCT GAGAGCTGCT 
TTGGAAGAGG TTTACCCTGA TCTCACTTCT GAAGAAAACC GAAGAAATAG TCTGGGTGGT 
GACCTTCTCT TTGTTGGAAA AAATCACAGC CTTTGTGACT TCATTGCAGA GCTCTATAAA 
TCCAGTACTA CAGAGCCAGT TGATATGCCC CCAGAACTGT GCCATGGAAT CCAGGGAAAA 
CTTTCACTGA ATGAAAATCC AGTTCTTCCA GATCAAGTAG TGCAGTCTCC TGTTCCAACC 
TTGCGTGACC TGGCACAGAA TTCTGCAGTC AGGGTGTCAT TTGTAATACA CAGAAAACCT 
CTACCTGTTT TGAAGCCGGG TGACTGGGAA AAAACCAACA ACAATGGGAG GCCATGGAGG 
CCACAGCTTG GTTTTAATAG AGACAGGCAG CCTGTTCACT TGGACCAGTC AGCATTCAGA 
ACGTTAGGCC ATGCAATGTC AAGGGAAAGA GGGCAGCCAG GAAGTGGAAT GTACAGCAAT 
GCAGCCCCTC TTGGAGCTTA TCAGGGAAAC CCATACAGAC CGCTCTTTTC TGGACAACCA 
CAGATTCCTA AATTGTTGTC AAATCTCAGG CCTCCAGAAT CATGGCGAGG GCCTACACCT 
TTGTTTCAGC AGCCACCGCA GAGATATGAC AGGAGTTCTG GGGCTGCTCC TCTTCTAGCG 
TGGAACCGCA TGGTACAATC CCAAAATGCA GCATTCCAAC AAAATCAGTA TCAAGGAGTA 
GGTGGACCAA TGAATTACCC ACAGAGACCT GAGGATCGGA TGGATAGGGG AAGACAGGGA 
TATGGCCCCG GGAGGCCCTA CCCATTACCA CCTCCCGCTG GAAGATACAA CTGGAATTAG

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

RefSeq	XP_019346563.1
CDS	86..2905
Translation	MGVPAFFRWLSRKYPSIIVNCVEERPKECNGVKIPVDTSKPNPNEVEFDNLYLDMNGIIHPCTHPEDKPAPKNEDEMMVAIFEYIDRLFNIIRPRRLLYMAIDGVAPRAKMNQQRSRRFRASKEGVEATEEKQRVRQEILAKGGILPAEEVKERFDSNCITPGTEFMDNLAKCLRYYIADRLNNDPGWKNLTVILSDASAPGEGEHKIMDYIRRQRAQPNHDPNTHHCLCGADADLIMLGLATHEPNFTIIREEFKPNKPRPCALCNQLGHEVKDCQGLPREKQGEHDQFADCPLTSEQEFIFIRLNVLREYLEKELTMASLPFTFDFERSIDDWVFMCFFVGNDFLPHLPSLEIREGAIDRLVNIYKNVVHKTGGYLTESGFVNLQRVQMIMLAVGEVEDNIFKKRKDDEENFKRRQKEKRKRMKRDQPSFIPGGQFSPQALGSGNRSNPQTISNPRQAAFEMRMQNSTPSASPNTSFTSDGTPSPAGGIKRKAEDSDSEPEPEDNIRLWEAGWKQRYYKNKFDVDASDEKFRRKVVRSYVEGLCWVLRYYYQGCASWKWFYPFHYAPFASDFEGIADLPSDFEKGTKPFRPLEQLMGVFPAASGNFLPPTWQKLMTDPESSIIDFYPEDFAIDLNGKKFAWQGVALLPFVDERRLRAALEEVYPDLTSEENRRNSLGGDLLFVGKNHSLCDFIAELYKSSTTEPVDMPPELCHGIQGKLSLNENPVLPDQVVQSPVPTLRDLAQNSAVRVSFVIHRKPLPVLKPGDWEKTNNNGRPWRPQLGFNRDRQPVHLDQSAFRTLGHAMSRERGQPGSGMYSNAAPLGAYQGNPYRPLFSGQPQIPKLLSNLRPPESWRGPTPLFQQPPQRYDRSSGAAPLLAWNRMVQSQNAAFQQNQYQGVGGPMNYPQRPEDRMDRGRQGYGPGRPYPLPPPAGRYNWN

Target ORF information:

RefSeq Version	XM_019491018.1
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis 5'-3' exoribonuclease 2 (XRN2), transcript variant X2, mRNA.

Target ORF information:

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

XM_019491018.1

ORF Insert Sequence:

ATGGGAGTCC CGGCCTTCTT CCGCTGGCTC AGCCGCAAGT ACCCCTCCAT CATCGTCAAC 
TGCGTGGAGG AAAGGCCTAA AGAATGCAAT GGAGTCAAAA TTCCAGTTGA TACTAGTAAA 
CCTAATCCCA ATGAGGTGGA GTTTGATAAC CTGTATTTGG ATATGAATGG CATTATTCAC 
CCTTGTACAC ATCCTGAAGA TAAACCAGCA CCCAAAAATG AAGATGAAAT GATGGTTGCA 
ATTTTTGAGT ACATCGACAG ACTTTTTAAC ATCATAAGAC CAAGACGACT TCTCTATATG 
GCAATAGATG GGGTGGCTCC CCGTGCAAAA ATGAATCAAC AGAGATCCAG AAGATTCAGA 
GCATCAAAGG AGGGAGTGGA AGCTACAGAA GAGAAGCAAA GAGTAAGACA AGAGATACTG 
GCAAAAGGTG GCATTCTTCC TGCAGAGGAA GTGAAAGAGA GATTTGATAG CAATTGTATT 
ACCCCAGGAA CTGAGTTTAT GGACAATCTA GCTAAATGCC TTCGCTATTA CATTGCTGAT 
CGTTTAAACA ATGACCCAGG ATGGAAAAAT TTGACAGTTA TTTTATCAGA TGCTAGTGCT 
CCTGGTGAAG GTGAACACAA AATAATGGAT TACATTAGAA GGCAAAGAGC TCAACCAAAC 
CATGATCCAA ACACTCATCA TTGTTTATGT GGGGCTGATG CTGATTTGAT TATGCTTGGG 
CTAGCCACGC ATGAGCCAAA CTTCACTATA ATCAGAGAAG AGTTTAAACC AAATAAACCC 
AGACCCTGTG CTCTTTGTAA CCAGTTGGGA CATGAAGTTA AAGATTGCCA AGGTTTGCCA 
AGAGAAAAAC AAGGCGAGCA TGACCAGTTT GCTGATTGTC CTCTTACCTC TGAACAAGAG 
TTCATCTTTA TCCGATTAAA TGTTCTCCGA GAGTATTTGG AAAAAGAACT CACCATGGCC 
AGTTTGCCTT TTACTTTTGA TTTTGAGAGA AGCATTGATG ACTGGGTCTT CATGTGTTTC 
TTCGTTGGAA ATGACTTTCT TCCTCATCTG CCATCACTGG AGATCAGGGA GGGAGCAATC 
GATCGCCTGG TTAACATATA CAAAAATGTG GTGCACAAAA CTGGGGGGTA CCTCACAGAG 
AGTGGCTTTG TCAACCTACA GCGAGTACAG ATGATTATGT TAGCAGTTGG AGAAGTTGAA 
GATAACATTT TTAAAAAAAG GAAAGATGAT GAGGAGAACT TCAAAAGACG ACAAAAAGAA 
AAGAGAAAAA GGATGAAGAG GGATCAGCCT TCTTTTATCC CTGGTGGACA GTTTTCCCCT 
CAAGCATTGG GCAGTGGAAA TAGGTCTAAT CCTCAGACAA TCAGTAACCC CAGACAAGCA 
GCCTTCGAAA TGAGAATGCA GAACTCAACT CCTTCAGCAT CTCCTAATAC TAGTTTCACT 
TCTGATGGCA CCCCATCCCC AGCAGGAGGA ATTAAACGAA AAGCTGAAGA CAGTGACAGT 
GAACCTGAGC CAGAGGATAA TATCAGGTTA TGGGAAGCTG GTTGGAAACA GCGTTACTAT 
AAGAACAAAT TTGATGTTGA TGCATCTGAT GAGAAATTTC GTCGTAAGGT TGTACGGTCT 
TATGTTGAAG GGCTTTGCTG GGTTCTCAGA TACTATTATC AGGGCTGTGC TTCTTGGAAG 
TGGTTTTACC CATTCCATTA TGCACCATTT GCTTCCGACT TCGAAGGCAT TGCAGACCTG 
CCCTCAGACT TTGAGAAGGG CACAAAACCG TTCAGACCTC TTGAACAACT TATGGGTGTA 
TTTCCAGCTG CTAGTGGTAA CTTTTTGCCA CCAACATGGC AGAAGCTCAT GACTGATCCA 
GAATCAAGTA TAATTGACTT CTACCCTGAA GATTTTGCTA TCGATTTGAA CGGGAAGAAA 
TTTGCTTGGC AAGGTGTTGC TCTGTTGCCA TTTGTTGATG AACGCCGCCT GAGAGCTGCT 
TTGGAAGAGG TTTACCCTGA TCTCACTTCT GAAGAAAACC GAAGAAATAG TCTGGGTGGT 
GACCTTCTCT TTGTTGGAAA AAATCACAGC CTTTGTGACT TCATTGCAGA GCTCTATAAA 
TCCAGTACTA CAGAGCCAGT TGATATGCCC CCAGAACTGT GCCATGGAAT CCAGGGAAAA 
CTTTCACTGA ATGAAAATCC AGTTCTTCCA GATCAAGTAG TGCAGTCTCC TGTTCCAACC 
TTGCGTGACC TGGCACAGAA TTCTGCAGTC AGGGTGTCAT TTGTAATACA CAGAAAACCT 
CTACCTGTTT TGAAGCCGGG TGACTGGGAA AAAACCAACA ACAATGGGAG GCCATGGAGG 
CCACAGCTTG GTTTTAATAG AGACAGGCAG CCTGTTCACT TGGACCAGTC AGCATTCAGA 
ACGTTAGGCC ATGCAATGTC AAGGGAAAGA GGGCAGCCAG GAAGTGGAAT GTACAGCAAT 
GCAGCCCCTC TTGGAGCTTA TCAGGGAAAC CCATACAGAC CGCTCTTTTC TGGACAACCA 
CAGATTCCTA AATTGTTGTC AAATCTCAGG CCTCCAGAAT CATGGCGAGG GCCTACACCT 
TTGTTTCAGC AGCCACCGCA GAGATATGAC AGGAGTTCTG GGGCTGCTCC TCTTCTAGCG 
TGGAACCGCA TGGTACAATC CCAAAATGCA GCATTCCAAC AAAATCAGTA TCAAGGAGTA 
GGTGGACCAA TGAATTACCC ACAGAGACCT GAGGATCGGA TGGATAGGGG AAGACAGGGA 
TATGGCCCCG GGAGGCCCTA CCCATTACCA CCTCCCGCTG GAAGATACAA CTGGAATTAG