MTREX cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	MTREX
Entrez Gene ID	102385002
Full Name	Mtr4 exosome RNA helicase
Synonyms	SKIV2L2
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014527902.1	XP_014383388.1	superkiller viralicidic activity 2-like 2
XM_025196145.1	XP_025051930.1	exosome RNA helicase MTR4

Pathways from BioSystems
Gene Ontology

The following MTREX gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MTREX 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
OAl12189	XM_014527902.1 Latest version!	Alligator sinensis superkiller viralicidic activity 2-like 2 (S. cerevisiae) (SKIV2L2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00
OAl81804	XM_025196145.1 Latest version!	Alligator sinensis Mtr4 exosome RNA helicase (MTREX), 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)

MTREX ( XM_014527902.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014383388.1 Alligator sinensis superkiller viralicidic activity 2-like 2 (S. cerevisiae) (SKIV2L2), mRNA.

Price & Availability↑

CloneID	OAl12189
Clone ID Related Accession (Same CDS sequence)	XM_014527902.1
Accession Version	XM_014527902.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3237bp) 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	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	superkiller viralicidic activity 2-like 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841877.1) 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 sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 8% of CDS bases ##RefSeq-Attributes-END##

ATGTTCTTGA ACGCGGAAGA ACAAGACCTA GACTGGAATT GTTTCAACAA GCACAACAAG 
AGTGCTACTA ACCATGTTCA GAAGTACATG CAGACCACAG TGTTATCTTT TGGAGAAGTT 
GGCGGGGCTT GCAAGCATTG CAAGACCCAC GGCGGGGAGA AAGGCTTCCG GTTTGGACCC 
CGTGCTCTGC CCCCCTCGCT CTGCGGCGGA GGAGGGGTCG CAAATGTAAG CAGCGGCCCC 
GGGCGCCGGA AACGCGCCAA TGCCAAATCT CCAGCAGCCC CGGCCGGAAA AACCAAGAGA 
GAGGCAGAGG TGGACAGTAC CGAGGATGCT GTGTTTGCAA AGAAAGTCAA GCTGGAGGAT 
GGCGCGGCGG AGGAGGTGAA TCTTGCAGAT CTGATGCCGA AAGTAAAGGT ACAAGCTGTG 
GAAACTGTTG AAGGTTGCAC ACACGAGGTT GCACTTCCTG CAGATGAAGA CTTTGTAGGC 
CTAAAGCCGA GAAGTGGAAA AGCTGCAAAG GAATATCCCT TCATTCTTGA TTCTTTTCAA 
AGAGAAGCTA TCCTTTGTGT GGACAACAAA CAGTCTGTGT TAGTGTCAGC TCATACATCA 
GCTGGCAAAA CGGTGTGTGC AGAGTATGCC ATTGCCTTGG CTTTGAGGGA GAAACAGCGT 
GTCATATTTA CCAGTCCTAT TAAAGCTCTG AGTAACCAAA AGTATCGTGA GATGTATGAA 
GAATTTCAAG ATGTTGGTCT AATGACAGGA GATGTCACCA TTAATCCTAC AGCTTCTTGT 
CTTGTAATGA CAACAGAGAT TTTGAGAAGT ATGCTGTACA GGGGTTCGGA GGTTATGCGA 
GAAGTTGCCT GGGTTATATT TGATGAAATA CATTATATGA GAGACTCAGA ACGTGGTGTG 
GTTTGGGAGG AGACCATTAT TTTGCTCCCT GACAATGTTC ACTATGTGTT TTTGTCTGCC 
ACTATTCCAA ATGCCCGCCA GTTTGCTGAA TGGATCTGCC ATCTTCACAA ACAGCCTTGT 
CATGTGATTT ACACAGATTA TCGACCTACA CCTCTGCAGC ATTATATCTT TCCAGCAGGG 
GGCGATGGAC TCCACCTAGT GGTTGATGAA AATGGGGATT TCAGAGAAGA TAATTTTAAT 
ACAGCAATGC AGGTATTAAG AGATGCTGGT GATTTGGCAA AAGGGGATCA GAAGGGGAGG 
AAAGGAGGAA CAAAAGGACC ATCCAATGTG TTTAAGATTG TGAAGATGAT CATGGAAAGG 
AATTTTCAAC CTGTAATTAT ATTCAGTTTC AGCAAGAAAG ATTGTGAAGC CTATGCCCTT 
CAAATGACAA AACTAGACTT CAACACAGAT GAAGAAAAGA AGATGGTTGA AGAAGTATTT 
AATAATGCAA TCGACTGTTT GTCTGATGAG GACAAAAAGC TTCCTCAGGT TGAGCATGTG 
CTTCCACTTC TAAAGAGAGG AATTGGTATC CATCACGGTG GCTTGCTTCC TATTTTAAAA 
GAAACTATAG AAATTCTTTT TTCTGAAGGA TTGATTAAGG CCTTATTTGC AACTGAGACT 
TTTGCTATGG GAATTAACAT GCCAGCCAGG ACAGTGTTGT TCACGAGCGC TCGTAAATTC 
GATGGGAAAG ATTTCCGATG GATCTCCTCA GGCGAATACA TCCAGATGTC GGGTCGTGCA 
GGGCGTCGAG GTATGGATGA CAGAGGTATA GTAATTCTTA TGGTGGATGA GAAGATGAGT 
CCAACAGTCG GCAAACAGCT TCTTAAGGGT TCAGCGGATC CTCTAAACAG TGCTTTTCAT 
TTGACGTACA ACATGGTATT GAACTTGCTG CGAGTAGAGG AGATTAACCC TGAATACATG 
TTAGAAAAAT CCTTTTATCA ATTTCAACAC TACAGAGCTA TTCCAGGAGT AGTAGAGAAG 
GTGAATAAGT TGGAAGATCA GTACAACAAC ATTGAAATTC CAAATGAGGA CAGTGTGGTC 
ATCTATTATA AAATCCGACA GCAGCTTGCT AAACTTGGTA AAGAGATTGA AGAATATATT 
CACAAGCCAA AGTACTGTTT GCCCTTTTTA CAGCCCGGAA GGCTGGTAAA GGTAAAAAAT 
GAAGATGACG ACTTTGGTTG GGGAGTGGTT GTTAACTTCT CGAAGAAATC AAATGTTAAG 
CCAAATTCTG GTGAACTGGA CCCGTTGTAT GTGGTTGAAG TCCTGCTACA CTGCAGCAAA 
GAGAGTTTGA AAAATTCTGC TACTGAGGCT GCAAAGCCAG CAAAACCTGG TGAGAAAGGA 
GAGATGCAGG TTGTTCCTGT TTTGGTGCAT CTTCTCGCAG CTATCAGCAG TGTCCGACTT 
TACATACCCA AAGATCTGAG ACCTATTGAT AATAGACAAA GTGTGTTGAA ATCTATACAG 
GAAGTTCAAA AGCGGTTCCC TGATGGGGTA CCATTGCTAG ATCCTATTGA CGACATGGGT 
ATTAAAGATC AAGGGCTGAA GAAGGTCATC CAAAAAATAG AAGCATTCGA GCATAGGATG 
TATTCACACC CACTTCATAA TGATCCCAAT TTGGAGACAG TTTATAAGCT TTGTGAAAGA 
AAAGCCCAGA TTGCTGTGGA TATTAAAGCA GCAAAGCGAG AACTGAAGAA AGCCAGAACT 
GTCTTACAAA TGGATGAACT CAAATGCCGC AAACGTGTTT TGAGAAGGTT GGGTTTTGCC 
ACGTCCTCTG ATGTCATAGA GTTGAAAGGA AGGGTTGCTT GTGAAATTAG CAGTGCTGAT 
GAACTGCTCC TGACAGAAAT GATGTTTAAT GGGCTCTTCA ATGACTTATC TGCAGAACAG 
GCAACTGCAT TACTAAGCTG TTTTGTATTC CAGGAAAATT CCAGTGAAAT GCCCAAATTG 
ACTGAACAGT TGGCAGGACC ACTTCGCCAA ATGCAGGAAT GTGCTAAAAG AATTGCCAAA 
GTTTCTGCAG AAGCAAAATT GGATATTGAT GAAGAAAATT ACCTTAACTC CTTCAGACCC 
AACCTAATGG ATGTAGTACA CACATGGGCA AATGGAGCTA ATTTTGCTCA CATTTGTAAA 
ATGACCGATG TCTTTGAAGG TAGCATAATT CGTTGTATGA GGCGACTAGA AGAATTGCTT 
CGACAGATGT GTCAAGCAGC AAAAGCCATT GGAAATACAG AGCTGGAAAA TAAGTTTGCA 
GAAGGAATTA CAAAAATCAA GAGAGACATT GTGTTTGCTG CAAGCCTTTA CCTCTGA

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

RefSeq	XP_014383388.1
CDS	1..3237
Translation	MFLNAEEQDLDWNCFNKHNKSATNHVQKYMQTTVLSFGEVGGACKHCKTHGGEKGFRFGPRALPPSLCGGGGVANVSSGPGRRKRANAKSPAAPAGKTKREAEVDSTEDAVFAKKVKLEDGAAEEVNLADLMPKVKVQAVETVEGCTHEVALPADEDFVGLKPRSGKAAKEYPFILDSFQREAILCVDNKQSVLVSAHTSAGKTVCAEYAIALALREKQRVIFTSPIKALSNQKYREMYEEFQDVGLMTGDVTINPTASCLVMTTEILRSMLYRGSEVMREVAWVIFDEIHYMRDSERGVVWEETIILLPDNVHYVFLSATIPNARQFAEWICHLHKQPCHVIYTDYRPTPLQHYIFPAGGDGLHLVVDENGDFREDNFNTAMQVLRDAGDLAKGDQKGRKGGTKGPSNVFKIVKMIMERNFQPVIIFSFSKKDCEAYALQMTKLDFNTDEEKKMVEEVFNNAIDCLSDEDKKLPQVEHVLPLLKRGIGIHHGGLLPILKETIEILFSEGLIKALFATETFAMGINMPARTVLFTSARKFDGKDFRWISSGEYIQMSGRAGRRGMDDRGIVILMVDEKMSPTVGKQLLKGSADPLNSAFHLTYNMVLNLLRVEEINPEYMLEKSFYQFQHYRAIPGVVEKVNKLEDQYNNIEIPNEDSVVIYYKIRQQLAKLGKEIEEYIHKPKYCLPFLQPGRLVKVKNEDDDFGWGVVVNFSKKSNVKPNSGELDPLYVVEVLLHCSKESLKNSATEAAKPAKPGEKGEMQVVPVLVHLLAAISSVRLYIPKDLRPIDNRQSVLKSIQEVQKRFPDGVPLLDPIDDMGIKDQGLKKVIQKIEAFEHRMYSHPLHNDPNLETVYKLCERKAQIAVDIKAAKRELKKARTVLQMDELKCRKRVLRRLGFATSSDVIELKGRVACEISSADELLLTEMMFNGLFNDLSAEQATALLSCFVFQENSSEMPKLTEQLAGPLRQMQECAKRIAKVSAEAKLDIDEENYLNSFRPNLMDVVHTWANGANFAHICKMTDVFEGSIIRCMRRLEELLRQMCQAAKAIGNTELENKFAEGITKIKRDIVFAASLYL

Target ORF information:

RefSeq Version	XM_014527902.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis superkiller viralicidic activity 2-like 2 (S. cerevisiae) (SKIV2L2), mRNA.

Target ORF information:

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

XM_014527902.1

ORF Insert Sequence:

ATGTTCTTGA ACGCGGAAGA ACAAGACCTA GACTGGAATT GTTTCAACAA GCACAACAAG 
AGTGCTACTA ACCATGTTCA GAAGTACATG CAGACCACAG TGTTATCTTT TGGAGAAGTT 
GGCGGGGCTT GCAAGCATTG CAAGACCCAC GGCGGGGAGA AAGGCTTCCG GTTTGGACCC 
CGTGCTCTGC CCCCCTCGCT CTGCGGCGGA GGAGGGGTCG CAAATGTAAG CAGCGGCCCC 
GGGCGCCGGA AACGCGCCAA TGCCAAATCT CCAGCAGCCC CGGCCGGAAA AACCAAGAGA 
GAGGCAGAGG TGGACAGTAC CGAGGATGCT GTGTTTGCAA AGAAAGTCAA GCTGGAGGAT 
GGCGCGGCGG AGGAGGTGAA TCTTGCAGAT CTGATGCCGA AAGTAAAGGT ACAAGCTGTG 
GAAACTGTTG AAGGTTGCAC ACACGAGGTT GCACTTCCTG CAGATGAAGA CTTTGTAGGC 
CTAAAGCCGA GAAGTGGAAA AGCTGCAAAG GAATATCCCT TCATTCTTGA TTCTTTTCAA 
AGAGAAGCTA TCCTTTGTGT GGACAACAAA CAGTCTGTGT TAGTGTCAGC TCATACATCA 
GCTGGCAAAA CGGTGTGTGC AGAGTATGCC ATTGCCTTGG CTTTGAGGGA GAAACAGCGT 
GTCATATTTA CCAGTCCTAT TAAAGCTCTG AGTAACCAAA AGTATCGTGA GATGTATGAA 
GAATTTCAAG ATGTTGGTCT AATGACAGGA GATGTCACCA TTAATCCTAC AGCTTCTTGT 
CTTGTAATGA CAACAGAGAT TTTGAGAAGT ATGCTGTACA GGGGTTCGGA GGTTATGCGA 
GAAGTTGCCT GGGTTATATT TGATGAAATA CATTATATGA GAGACTCAGA ACGTGGTGTG 
GTTTGGGAGG AGACCATTAT TTTGCTCCCT GACAATGTTC ACTATGTGTT TTTGTCTGCC 
ACTATTCCAA ATGCCCGCCA GTTTGCTGAA TGGATCTGCC ATCTTCACAA ACAGCCTTGT 
CATGTGATTT ACACAGATTA TCGACCTACA CCTCTGCAGC ATTATATCTT TCCAGCAGGG 
GGCGATGGAC TCCACCTAGT GGTTGATGAA AATGGGGATT TCAGAGAAGA TAATTTTAAT 
ACAGCAATGC AGGTATTAAG AGATGCTGGT GATTTGGCAA AAGGGGATCA GAAGGGGAGG 
AAAGGAGGAA CAAAAGGACC ATCCAATGTG TTTAAGATTG TGAAGATGAT CATGGAAAGG 
AATTTTCAAC CTGTAATTAT ATTCAGTTTC AGCAAGAAAG ATTGTGAAGC CTATGCCCTT 
CAAATGACAA AACTAGACTT CAACACAGAT GAAGAAAAGA AGATGGTTGA AGAAGTATTT 
AATAATGCAA TCGACTGTTT GTCTGATGAG GACAAAAAGC TTCCTCAGGT TGAGCATGTG 
CTTCCACTTC TAAAGAGAGG AATTGGTATC CATCACGGTG GCTTGCTTCC TATTTTAAAA 
GAAACTATAG AAATTCTTTT TTCTGAAGGA TTGATTAAGG CCTTATTTGC AACTGAGACT 
TTTGCTATGG GAATTAACAT GCCAGCCAGG ACAGTGTTGT TCACGAGCGC TCGTAAATTC 
GATGGGAAAG ATTTCCGATG GATCTCCTCA GGCGAATACA TCCAGATGTC GGGTCGTGCA 
GGGCGTCGAG GTATGGATGA CAGAGGTATA GTAATTCTTA TGGTGGATGA GAAGATGAGT 
CCAACAGTCG GCAAACAGCT TCTTAAGGGT TCAGCGGATC CTCTAAACAG TGCTTTTCAT 
TTGACGTACA ACATGGTATT GAACTTGCTG CGAGTAGAGG AGATTAACCC TGAATACATG 
TTAGAAAAAT CCTTTTATCA ATTTCAACAC TACAGAGCTA TTCCAGGAGT AGTAGAGAAG 
GTGAATAAGT TGGAAGATCA GTACAACAAC ATTGAAATTC CAAATGAGGA CAGTGTGGTC 
ATCTATTATA AAATCCGACA GCAGCTTGCT AAACTTGGTA AAGAGATTGA AGAATATATT 
CACAAGCCAA AGTACTGTTT GCCCTTTTTA CAGCCCGGAA GGCTGGTAAA GGTAAAAAAT 
GAAGATGACG ACTTTGGTTG GGGAGTGGTT GTTAACTTCT CGAAGAAATC AAATGTTAAG 
CCAAATTCTG GTGAACTGGA CCCGTTGTAT GTGGTTGAAG TCCTGCTACA CTGCAGCAAA 
GAGAGTTTGA AAAATTCTGC TACTGAGGCT GCAAAGCCAG CAAAACCTGG TGAGAAAGGA 
GAGATGCAGG TTGTTCCTGT TTTGGTGCAT CTTCTCGCAG CTATCAGCAG TGTCCGACTT 
TACATACCCA AAGATCTGAG ACCTATTGAT AATAGACAAA GTGTGTTGAA ATCTATACAG 
GAAGTTCAAA AGCGGTTCCC TGATGGGGTA CCATTGCTAG ATCCTATTGA CGACATGGGT 
ATTAAAGATC AAGGGCTGAA GAAGGTCATC CAAAAAATAG AAGCATTCGA GCATAGGATG 
TATTCACACC CACTTCATAA TGATCCCAAT TTGGAGACAG TTTATAAGCT TTGTGAAAGA 
AAAGCCCAGA TTGCTGTGGA TATTAAAGCA GCAAAGCGAG AACTGAAGAA AGCCAGAACT 
GTCTTACAAA TGGATGAACT CAAATGCCGC AAACGTGTTT TGAGAAGGTT GGGTTTTGCC 
ACGTCCTCTG ATGTCATAGA GTTGAAAGGA AGGGTTGCTT GTGAAATTAG CAGTGCTGAT 
GAACTGCTCC TGACAGAAAT GATGTTTAAT GGGCTCTTCA ATGACTTATC TGCAGAACAG 
GCAACTGCAT TACTAAGCTG TTTTGTATTC CAGGAAAATT CCAGTGAAAT GCCCAAATTG 
ACTGAACAGT TGGCAGGACC ACTTCGCCAA ATGCAGGAAT GTGCTAAAAG AATTGCCAAA 
GTTTCTGCAG AAGCAAAATT GGATATTGAT GAAGAAAATT ACCTTAACTC CTTCAGACCC 
AACCTAATGG ATGTAGTACA CACATGGGCA AATGGAGCTA ATTTTGCTCA CATTTGTAAA 
ATGACCGATG TCTTTGAAGG TAGCATAATT CGTTGTATGA GGCGACTAGA AGAATTGCTT 
CGACAGATGT GTCAAGCAGC AAAAGCCATT GGAAATACAG AGCTGGAAAA TAAGTTTGCA 
GAAGGAATTA CAAAAATCAA GAGAGACATT GTGTTTGCTG CAAGCCTTTA CCTCTGA

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

MTREX ( XM_025196145.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025051930.1 Alligator sinensis Mtr4 exosome RNA helicase (MTREX), mRNA.

Price & Availability↑

CloneID	OAl81804
Clone ID Related Accession (Same CDS sequence)	XM_025196145.1
Accession Version	XM_025196145.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3138bp) 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	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	exosome RNA helicase MTR4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005841877.1) 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 Name :: Alligator sinensis 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 :: 3% of CDS bases ##RefSeq-Attributes-END##

ATGTTCTTGA ACGCGGAAGA ACAAGACCTA GACTGGAATT GTTTCAACAA GCACAACAAG 
AGTGCTACTA ACCATGTTCA GAAGTACATG CAGACCACAG CCGCCTGGGA AAGGACAGGC 
GTGAATCCCC GCCCGTGTTT GCATTGCAGG AAACGCGCCA ATGCCAAATC TCCAGCAGCC 
CCGGCCGGAA AAACCAAGAG AGAGGCAGAG GTGGACAGTA CCGAGGATGC TGTGTTTGCA 
AAGAAAGTCA AGCTGGAGGA TGGCGCGGCG GAGGAGGTGA ATCTTGCAGA TCTGATGCCG 
AAAGTAAAGG TACAAGCTGT GGAAACTGTT GAAGGTTGCA CACACGAGGT TGCACTTCCT 
GCAGATGAAG ACTTTGTAGG CCTAAAGCCG AGAAGTGGAA AAGCTGCAAA GGAATATCCC 
TTCATTCTTG ATTCTTTTCA AAGAGAAGCT ATCCTTTGTG TGGACAACAA ACAGTCTGTG 
TTAGTGTCAG CTCATACATC AGCTGGCAAA ACGGTGTGTG CAGAGTATGC CATTGCCTTG 
GCTTTGAGGG AGAAACAGCG TGTCATATTT ACCAGTCCTA TTAAAGCTCT GAGTAACCAA 
AAGTATCGTG AGATGTATGA AGAATTTCAA GATGTTGGTC TAATGACAGG AGATGTCACC 
ATTAATCCTA CAGCTTCTTG TCTTGTAATG ACAACAGAGA TTTTGAGAAG TATGCTGTAC 
AGGGGTTCGG AGGTTATGCG AGAAGTTGCC TGGGTTATAT TTGATGAAAT ACATTATATG 
AGAGACTCAG AACGTGGTGT GGTTTGGGAG GAGACCATTA TTTTGCTCCC TGACAATGTT 
CACTATGTGT TTTTGTCTGC CACTATTCCA AATGCCCGCC AGTTTGCTGA ATGGATCTGC 
CATCTTCACA AACAGCCTTG TCATGTGATT TACACAGATT ATCGACCTAC ACCTCTGCAG 
CATTATATCT TTCCAGCAGG GGGCGATGGA CTCCACCTAG TGGTTGATGA AAATGGGGAT 
TTCAGAGAAG ATAATTTTAA TACAGCAATG CAGGTATTAA GAGATGCTGG TGATTTGGCA 
AAAGGGGATC AGAAGGGGAG GAAAGGAGGA ACAAAAGGAC CATCCAATGT GTTTAAGATT 
GTGAAGATGA TCATGGAAAG GAATTTTCAA CCTGTAATTA TATTCAGTTT CAGCAAGAAA 
GATTGTGAAG CCTATGCCCT TCAAATGACA AAACTAGACT TCAACACAGA TGAAGAAAAG 
AAGATGGTTG AAGAAGTATT TAATAATGCA ATCGACTGTT TGTCTGATGA GGACAAAAAG 
CTTCCTCAGG TTGAGCATGT GCTTCCACTT CTAAAGAGAG GAATTGGTAT CCATCACGGT 
GGCTTGCTTC CTATTTTAAA AGAAACTATA GAAATTCTTT TTTCTGAAGG ATTGATTAAG 
GCCTTATTTG CAACTGAGAC TTTTGCTATG GGAATTAACA TGCCAGCCAG GACAGTGTTG 
TTCACGAGCG CTCGTAAATT CGATGGGAAA GATTTCCGAT GGATCTCCTC AGGCGAATAC 
ATCCAGATGT CGGGTCGTGC AGGGCGTCGA GGTATGGATG ACAGAGGTAT AGTAATTCTT 
ATGGTGGATG AGAAGATGAG TCCAACAGTC GGCAAACAGC TTCTTAAGGG TTCAGCGGAT 
CCTCTAAACA GTGCTTTTCA TTTGACGTAC AACATGGTAT TGAACTTGCT GCGAGTAGAG 
GAGATTAACC CTGAATACAT GTTAGAAAAA TCCTTTTATC AATTTCAACA CTACAGAGCT 
ATTCCAGGAG TAGTAGAGAA GGTGAATAAG TTGGAAGATC AGTACAACAA CATTGAAATT 
CCAAATGAGG ACAGTGTGGT CATCTATTAT AAAATCCGAC AGCAGCTTGC TAAACTTGGT 
AAAGAGATTG AAGAATATAT TCACAAGCCA AAGTACTGTT TGCCCTTTTT ACAGCCCGGA 
AGGCTGGTAA AGGTAAAAAA TGAAGATGAC GACTTTGGTT GGGGAGTGGT TGTTAACTTC 
TCGAAGAAAT CAAATGTTAA GCCAAATTCT GGTGAACTGG ACCCGTTGTA TGTGGTTGAA 
GTCCTGCTAC ACTGCAGCAA AGAGAGTTTG AAAAATTCTG CTACTGAGGC TGCAAAGCCA 
GCAAAACCTG GTGAGAAAGG AGAGATGCAG GTTGTTCCTG TTTTGGTGCA TCTTCTCGCA 
GCTATCAGCA GTGTCCGACT TTACATACCC AAAGATCTGA GACCTATTGA TAATAGACAA 
AGTGTGTTGA AATCTATACA GGAAGTTCAA AAGCGGTTCC CTGATGGGGT ACCATTGCTA 
GATCCTATTG ACGACATGGG TATTAAAGAT CAAGGGCTGA AGAAGGTCAT CCAAAAAATA 
GAAGCATTCG AGCATAGGAT GTATTCACAC CCACTTCATA ATGATCCCAA TTTGGAGACA 
GTTTATAAGC TTTGTGAAAG AAAAGCCCAG ATTGCTGTGG ATATTAAAGC AGCAAAGCGA 
GAACTGAAGA AAGCCAGAAC TGTCTTACAA ATGGATGAAC TCAAATGCCG CAAACGTGTT 
TTGAGAAGGT TGGGTTTTGC CACGTCCTCT GATGTCATAG AGTTGAAAGG AAGGGTTGCT 
TGTGAAATTA GCAGTGCTGA TGAACTGCTC CTGACAGAAA TGATGTTTAA TGGGCTCTTC 
AATGACTTAT CTGCAGAACA GGCAACTGCA TTACTAAGCT GTTTTGTATT CCAGGAAAAT 
TCCAGTGAAA TGCCCAAATT GACTGAACAG TTGGCAGGAC CACTTCGCCA AATGCAGGAA 
TGTGCTAAAA GAATTGCCAA AGTTTCTGCA GAAGCAAAAT TGGATATTGA TGAAGAAAAT 
TACCTTAACT CCTTCAGACC CAACCTAATG GATGTAGTAC ACACATGGGC AAATGGAGCT 
AATTTTGCTC ACATTTGTAA AATGACCGAT GTCTTTGAAG GTAGCATAAT TCGTTGTATG 
AGGCGACTAG AAGAATTGCT TCGACAGATG TGTCAAGCAG CAAAAGCCAT TGGAAATACA 
GAGCTGGAAA ATAAGTTTGC AGAAGGAATT ACAAAAATCA AGAGAGACAT TGTGTTTGCT 
GCAAGCCTTT ACCTCTGA

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

RefSeq	XP_025051930.1
CDS	1..3138
Translation	MFLNAEEQDLDWNCFNKHNKSATNHVQKYMQTTAAWERTGVNPRPCLHCRKRANAKSPAAPAGKTKREAEVDSTEDAVFAKKVKLEDGAAEEVNLADLMPKVKVQAVETVEGCTHEVALPADEDFVGLKPRSGKAAKEYPFILDSFQREAILCVDNKQSVLVSAHTSAGKTVCAEYAIALALREKQRVIFTSPIKALSNQKYREMYEEFQDVGLMTGDVTINPTASCLVMTTEILRSMLYRGSEVMREVAWVIFDEIHYMRDSERGVVWEETIILLPDNVHYVFLSATIPNARQFAEWICHLHKQPCHVIYTDYRPTPLQHYIFPAGGDGLHLVVDENGDFREDNFNTAMQVLRDAGDLAKGDQKGRKGGTKGPSNVFKIVKMIMERNFQPVIIFSFSKKDCEAYALQMTKLDFNTDEEKKMVEEVFNNAIDCLSDEDKKLPQVEHVLPLLKRGIGIHHGGLLPILKETIEILFSEGLIKALFATETFAMGINMPARTVLFTSARKFDGKDFRWISSGEYIQMSGRAGRRGMDDRGIVILMVDEKMSPTVGKQLLKGSADPLNSAFHLTYNMVLNLLRVEEINPEYMLEKSFYQFQHYRAIPGVVEKVNKLEDQYNNIEIPNEDSVVIYYKIRQQLAKLGKEIEEYIHKPKYCLPFLQPGRLVKVKNEDDDFGWGVVVNFSKKSNVKPNSGELDPLYVVEVLLHCSKESLKNSATEAAKPAKPGEKGEMQVVPVLVHLLAAISSVRLYIPKDLRPIDNRQSVLKSIQEVQKRFPDGVPLLDPIDDMGIKDQGLKKVIQKIEAFEHRMYSHPLHNDPNLETVYKLCERKAQIAVDIKAAKRELKKARTVLQMDELKCRKRVLRRLGFATSSDVIELKGRVACEISSADELLLTEMMFNGLFNDLSAEQATALLSCFVFQENSSEMPKLTEQLAGPLRQMQECAKRIAKVSAEAKLDIDEENYLNSFRPNLMDVVHTWANGANFAHICKMTDVFEGSIIRCMRRLEELLRQMCQAAKAIGNTELENKFAEGITKIKRDIVFAASLYL

Target ORF information:

RefSeq Version	XM_025196145.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Mtr4 exosome RNA helicase (MTREX), mRNA.

Target ORF information:

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

XM_025196145.1

ORF Insert Sequence:

ATGTTCTTGA ACGCGGAAGA ACAAGACCTA GACTGGAATT GTTTCAACAA GCACAACAAG 
AGTGCTACTA ACCATGTTCA GAAGTACATG CAGACCACAG CCGCCTGGGA AAGGACAGGC 
GTGAATCCCC GCCCGTGTTT GCATTGCAGG AAACGCGCCA ATGCCAAATC TCCAGCAGCC 
CCGGCCGGAA AAACCAAGAG AGAGGCAGAG GTGGACAGTA CCGAGGATGC TGTGTTTGCA 
AAGAAAGTCA AGCTGGAGGA TGGCGCGGCG GAGGAGGTGA ATCTTGCAGA TCTGATGCCG 
AAAGTAAAGG TACAAGCTGT GGAAACTGTT GAAGGTTGCA CACACGAGGT TGCACTTCCT 
GCAGATGAAG ACTTTGTAGG CCTAAAGCCG AGAAGTGGAA AAGCTGCAAA GGAATATCCC 
TTCATTCTTG ATTCTTTTCA AAGAGAAGCT ATCCTTTGTG TGGACAACAA ACAGTCTGTG 
TTAGTGTCAG CTCATACATC AGCTGGCAAA ACGGTGTGTG CAGAGTATGC CATTGCCTTG 
GCTTTGAGGG AGAAACAGCG TGTCATATTT ACCAGTCCTA TTAAAGCTCT GAGTAACCAA 
AAGTATCGTG AGATGTATGA AGAATTTCAA GATGTTGGTC TAATGACAGG AGATGTCACC 
ATTAATCCTA CAGCTTCTTG TCTTGTAATG ACAACAGAGA TTTTGAGAAG TATGCTGTAC 
AGGGGTTCGG AGGTTATGCG AGAAGTTGCC TGGGTTATAT TTGATGAAAT ACATTATATG 
AGAGACTCAG AACGTGGTGT GGTTTGGGAG GAGACCATTA TTTTGCTCCC TGACAATGTT 
CACTATGTGT TTTTGTCTGC CACTATTCCA AATGCCCGCC AGTTTGCTGA ATGGATCTGC 
CATCTTCACA AACAGCCTTG TCATGTGATT TACACAGATT ATCGACCTAC ACCTCTGCAG 
CATTATATCT TTCCAGCAGG GGGCGATGGA CTCCACCTAG TGGTTGATGA AAATGGGGAT 
TTCAGAGAAG ATAATTTTAA TACAGCAATG CAGGTATTAA GAGATGCTGG TGATTTGGCA 
AAAGGGGATC AGAAGGGGAG GAAAGGAGGA ACAAAAGGAC CATCCAATGT GTTTAAGATT 
GTGAAGATGA TCATGGAAAG GAATTTTCAA CCTGTAATTA TATTCAGTTT CAGCAAGAAA 
GATTGTGAAG CCTATGCCCT TCAAATGACA AAACTAGACT TCAACACAGA TGAAGAAAAG 
AAGATGGTTG AAGAAGTATT TAATAATGCA ATCGACTGTT TGTCTGATGA GGACAAAAAG 
CTTCCTCAGG TTGAGCATGT GCTTCCACTT CTAAAGAGAG GAATTGGTAT CCATCACGGT 
GGCTTGCTTC CTATTTTAAA AGAAACTATA GAAATTCTTT TTTCTGAAGG ATTGATTAAG 
GCCTTATTTG CAACTGAGAC TTTTGCTATG GGAATTAACA TGCCAGCCAG GACAGTGTTG 
TTCACGAGCG CTCGTAAATT CGATGGGAAA GATTTCCGAT GGATCTCCTC AGGCGAATAC 
ATCCAGATGT CGGGTCGTGC AGGGCGTCGA GGTATGGATG ACAGAGGTAT AGTAATTCTT 
ATGGTGGATG AGAAGATGAG TCCAACAGTC GGCAAACAGC TTCTTAAGGG TTCAGCGGAT 
CCTCTAAACA GTGCTTTTCA TTTGACGTAC AACATGGTAT TGAACTTGCT GCGAGTAGAG 
GAGATTAACC CTGAATACAT GTTAGAAAAA TCCTTTTATC AATTTCAACA CTACAGAGCT 
ATTCCAGGAG TAGTAGAGAA GGTGAATAAG TTGGAAGATC AGTACAACAA CATTGAAATT 
CCAAATGAGG ACAGTGTGGT CATCTATTAT AAAATCCGAC AGCAGCTTGC TAAACTTGGT 
AAAGAGATTG AAGAATATAT TCACAAGCCA AAGTACTGTT TGCCCTTTTT ACAGCCCGGA 
AGGCTGGTAA AGGTAAAAAA TGAAGATGAC GACTTTGGTT GGGGAGTGGT TGTTAACTTC 
TCGAAGAAAT CAAATGTTAA GCCAAATTCT GGTGAACTGG ACCCGTTGTA TGTGGTTGAA 
GTCCTGCTAC ACTGCAGCAA AGAGAGTTTG AAAAATTCTG CTACTGAGGC TGCAAAGCCA 
GCAAAACCTG GTGAGAAAGG AGAGATGCAG GTTGTTCCTG TTTTGGTGCA TCTTCTCGCA 
GCTATCAGCA GTGTCCGACT TTACATACCC AAAGATCTGA GACCTATTGA TAATAGACAA 
AGTGTGTTGA AATCTATACA GGAAGTTCAA AAGCGGTTCC CTGATGGGGT ACCATTGCTA 
GATCCTATTG ACGACATGGG TATTAAAGAT CAAGGGCTGA AGAAGGTCAT CCAAAAAATA 
GAAGCATTCG AGCATAGGAT GTATTCACAC CCACTTCATA ATGATCCCAA TTTGGAGACA 
GTTTATAAGC TTTGTGAAAG AAAAGCCCAG ATTGCTGTGG ATATTAAAGC AGCAAAGCGA 
GAACTGAAGA AAGCCAGAAC TGTCTTACAA ATGGATGAAC TCAAATGCCG CAAACGTGTT 
TTGAGAAGGT TGGGTTTTGC CACGTCCTCT GATGTCATAG AGTTGAAAGG AAGGGTTGCT 
TGTGAAATTA GCAGTGCTGA TGAACTGCTC CTGACAGAAA TGATGTTTAA TGGGCTCTTC 
AATGACTTAT CTGCAGAACA GGCAACTGCA TTACTAAGCT GTTTTGTATT CCAGGAAAAT 
TCCAGTGAAA TGCCCAAATT GACTGAACAG TTGGCAGGAC CACTTCGCCA AATGCAGGAA 
TGTGCTAAAA GAATTGCCAA AGTTTCTGCA GAAGCAAAAT TGGATATTGA TGAAGAAAAT 
TACCTTAACT CCTTCAGACC CAACCTAATG GATGTAGTAC ACACATGGGC AAATGGAGCT 
AATTTTGCTC ACATTTGTAA AATGACCGAT GTCTTTGAAG GTAGCATAAT TCGTTGTATG 
AGGCGACTAG AAGAATTGCT TCGACAGATG TGTCAAGCAG CAAAAGCCAT TGGAAATACA 
GAGCTGGAAA ATAAGTTTGC AGAAGGAATT ACAAAAATCA AGAGAGACAT TGTGTTTGCT 
GCAAGCCTTT ACCTCTGA