SRAE_2000264400 cDNA ORF clone,

Gene
Clones
gRNAs

The following SRAE_2000264400 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SRAE_2000264400 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
OSt136737	XM_024653736.1 Latest version!	Strongyloides ratti Toll/interleukin-1 receptor homology (TIR) domain and Leucine-rich repeat and Leucine-rich repeat, typical subtype-containing protein (SRAE_2000264400), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

SRAE_2000264400 ( XM_024653736.1 ) cDNA ORF clone, -> XP_024507183.1 Strongyloides ratti Toll/interleukin-1 receptor homology (TIR) domain and Leucine-rich repeat and Leucine-rich repeat, typical subtype-containing protein (SRAE_2000264400), partial mRNA.

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CloneID	OSt136737
Clone ID Related Accession (Same CDS sequence)	XM_024653736.1
Accession Version	XM_024653736.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3828bp) 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	2018-04-09
Organism	Strongyloides ratti
Product	Toll/interleukin-1 receptor homology (TIR) domain and Leucine-rich repeat and Leucine-rich repeat, typical subtype-containing protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NC_037308). COMPLETENESS: incomplete on both ends.

ATGTTAGATT ATAGGTTTAA CTGTCCAGAA AGATGTTTAT GTATACCGGA TGCACTGGAG 
ATTGAAAAAA TTAATATCAA TTGTAGATGG GAAAAAATAA CCCAAGAATA TATAAATACA 
TTACCCGCAA ATGTAACAAA ATCATTAAGT ATCTATTGTC ATAATATTTA TTCATCACCA 
ACATACTTTG AAAAAGAAAA TAATAAAAAT AAGAATATAT TTAATAGGCA GGTGGAATTT 
TTAAGATCTC GTAAAGGTCC ATTTGAATTA TTTACCAAAT TAAGAGATCT TCGTATTAAT 
AATTGTAGTA TAGTAACATC ATCAAATACA TTGTCTGGTG AATTATTTTA TGGACTTGAA 
TCATTAAGAA ATTTATATCT TGATCATGTA AATAATCCTA ATACCCATCT TCCAGTATCT 
ATTGAGTCGG GTTTTTTAAA AGAAATTAGT CAACTGGAAA AATTTTCACT GACCCAGTCG 
AATGTTGTAT CATTTAGTGT TGGAGAACTA TGTAATGTCG GTAGATTACA AATATTAAAT 
GTTAGTCATA ATTTGTTAGA AGATCCCAGT CTTGGTACTG AAGCATGCCT AACATTAAAA 
CATTTGGCTA TCCTTGACAT GAATGGAAAT AAAATTAAAG AAATTAAGAA TCAAGATTTT 
AGTTCATTTT TCTCTGTCCA ACAATTAATA CTTTCAAATA ATTTAATAGA AAAAATTGAA 
AAATATGTTT TTAAAAATAT TCCATTACTT CAACATTTAG AAATCCATAA TAATCAATTA 
AGAGAAATTC CAGAATTAGG TGAAAAACTT TTACACCTCA ATTTAGCTTA TAACAAAATT 
CAAAAATTAC CTTTTAGTGT TGGGGAGTTA AAAGAAATAA TTTCTCTTAA TTTAAGTTCT 
AATATGTTAA TTGATAATAT GAAAGAAAAA TATGGAGTTT ATTTGAAGGG AAAAAAAATT 
GAAAATTTAG ATTTAAGTGG AAATAAATTT ACTAAAATAC CATTTGAAAT ATTTGAGGAA 
TCTTTTGAAA TGTTGACAAC ACTTGATGTT AGCAGAAATA ATATTAGAAA TATAAATAGT 
TTTGGTAATA TGACACATTT ACAATCTTTT GACCTCTCAC ATAACAAAAT TGAGGAATTA 
AAAAGTAATT CAATAGATAA ATGTAATATG CTTCAAGATA TAATTTTAAC AAATAATAGT 
ATACATAAAA TTTCACCAAC ATTTTTTGAT GGTCAAAAAG AATCATTAAT ATCATTGGAT 
TTATCTTTAA ATTTACTTCT TGAAGTTCCG ATATCTATAT CAAATCTCAA TAGAATAAAA 
TATATCAATG TTTCACATAA CCAAATAACA AACATTCCCC TTTTAACACT TTCAAAGTTA 
GGACATTTGA CATCTTTTGA CACTAGTTAC AATCGCCTCT CATCAATAGA CTCATTTATT 
TTTTCAAATT GTAGAAAACT TAAAAGACTT TATTTAAAAA ATAATCGAAT TACCCAACTA 
AGTAAGGATG CCTTCAAAGA TAGTAATTCT TTAAGTATTT TGGATATCTC AAATAATTAT 
CTTGATAATT TTGGTCCTGA TGGTGGGGCT ATTGAGAAGT TAAAAAATTT AAGAACACTT 
GATTTTAGTA ATAATTTAAT TGAAATATTA AATTGGAATG AAATTCCACC ATTATTACAT 
GATTTAAATT TGGAGGGAAA TCGTATTGTT ATGTTATCAA TTGTTGATAG TACCAAGATT 
AATGTTAAAA AAATTAATTT AAAAAATAAT AGATTATTAT TAATTAATGG GGATAGGTTT 
CCGAAGACAA TTGAAGAAAT TGACTTGGGA TATAATCTTT TAAAAATTAT ATCCTCAAGG 
ACATTTGTTA AATTACCTAA TCTTAAACTT CTTAATTTGA AGGGTAATCA TATTGAGGAG 
TTAAGTGAGG ATGCTTTTAT TGGAAGTGAA GAAGAGAATA GGCAACATTT ATTAGGTGCA 
CTAAAATTAT ATATAGGAGA AAATCCATTA AAATGTTCCT GTAAAATGAC ATGGATCTTA 
AAATATATTG TTGAAGTTCC ATTTGATATT GATAGTGATT TATATTATAT GCAAAATGTC 
ATACCAATAC AAATAGCTGA TGCTTCTGGT GCAGCATGTT TTAGTTTATC AGGTGGTCAT 
TCAATAACAT TATCAAAAAT TACAAAAGAA AATTTAGTTT GCCCATATGC AGCTGTCTGT 
GAACCAGAAT GTGTTTGTTG TGACTATGGA AATTGTGACT GTAACTCAAA ATGTCCTGAT 
GGTTGTAGTT GTTATCATTC TCAAGACTTT TCAACAAATA TTGTTACATG TAACTCAAAG 
AATGCCTCAG CATTAAGAAG TTTCTCACCA AAAGATATTC CTGTACATGC TACACATGTT 
TATTTAAAAA ATTTAATGTT ACCAGTCCTG AGGAGTCATG ATTTTTTGGC AAGATTTAGA 
TTAAAAGAAC TTTCTATTAC TGAATCTGGA ATTAAAAGAG TTGAAAAAAG TGCATTTAAT 
ACACTTGTAA ATTTAGAAAG TTTAGATTTA TCTGATAATT TATTGGAGGA ATTTGATAGT 
GAATCATTAC CTAAAGCACA TAAATTGAGA AAAATTTATT TATCCAAAAA TGAGATAAGG 
AAAATTGATC CAAATTTAGT TAATACATTA CCACAATTAA ATGAATTATC ATTAGAAAAT 
AATCAATTCA CTGATTTACC ATATCTTTTA GAGGATCTTT CAAATAAAAA ACGTCTACAA 
CGTGTCTCAA TTTCAAATAA TCCATTTCGA TGTGATTGTA ATCAACGTTT CAAGATGCAA 
TATTGGTTGG TAAATAATCA ACATCATGTT AGTGATTATA GTAAAATAAA TTGTGTTGAA 
AATGTTACTA AAGCATTTAG GCATAATGAT ACAACTATCT TAACATCATA TTCACCTAAT 
TTTGGTAGTG ATTTATTTAT TATACCAATG ATGCAATTTA TGGCTGAAGT TAATAAATCA 
ATTTGTGTTG ATAAAAATAT TAGATGGTTT AGTGGGATGA ATATTTTAGA TTCACAATTA 
CTTTTAATAA TATTAATTAT ACTTTTTATT GGTATTTGTT TAGCTATATT TTGTTTTTGT 
TTATCATTAT TAACAAGAAA TCGTAGGTGT ATTGATAAGA AAGGATATAA AAAAGGGACA 
ATGTCATTAA ATTGTTCCAC AACATCACCT CAATCAGGAT GTTCACCATT ACCTCCATCA 
ACATTATTAT GGTCTCAGGG GCAAAGTTTA TTGTATTTTG ATCTTTTTGT TAGTTATTCA 
AAAGCTGATG AAATTATGGT ATGTAAAACA TTATGTGGAC CATTAGATGA TGATGAGTAT 
ACGATGGCAC TCCTTCATAG AGATGGACCA CGATATAATG GAAATGTACA TCAAATAAGT 
GATGAACTTA ATAGACTCCT AGAATGTAGT CAAACATTAT TATTAGTTTT AACAAAAAAT 
TTTATACAAT ATGAATGGAA TATGCTCCAA ATTAAGACAT CACATCAATT ATTTTTTACA 
CAATCACTCT CAAAATCTAA ACGTGTTATA GCTGTACTTG ATGAAGATGT TACATTGAAT 
GATTTAGATG AGGAGTTGGG GCAAATTTTA AGAAAATCAA CATACATTAG AATGAGAGAT 
CCATTATTTT GGAATCTTTT TCGTAGTGCA TTACCATCAC GTTCAGGAAT TGGGCGGATG 
GTTGGTAGTC CAACTCCACT CTCTGATTGT TCATCCTCAC AACACTATTC TGATATGTAT 
GGAACAAATA CTTCAACTAC TGGTAGTGTA CCTAGTCATT TAATTTAG

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

RefSeq	XP_024507183.1
CDS	1..3828
Translation	MLDYRFNCPERCLCIPDALEIEKININCRWEKITQEYINTLPANVTKSLSIYCHNIYSSPTYFEKENNKNKNIFNRQVEFLRSRKGPFELFTKLRDLRINNCSIVTSSNTLSGELFYGLESLRNLYLDHVNNPNTHLPVSIESGFLKEISQLEKFSLTQSNVVSFSVGELCNVGRLQILNVSHNLLEDPSLGTEACLTLKHLAILDMNGNKIKEIKNQDFSSFFSVQQLILSNNLIEKIEKYVFKNIPLLQHLEIHNNQLREIPELGEKLLHLNLAYNKIQKLPFSVGELKEIISLNLSSNMLIDNMKEKYGVYLKGKKIENLDLSGNKFTKIPFEIFEESFEMLTTLDVSRNNIRNINSFGNMTHLQSFDLSHNKIEELKSNSIDKCNMLQDIILTNNSIHKISPTFFDGQKESLISLDLSLNLLLEVPISISNLNRIKYINVSHNQITNIPLLTLSKLGHLTSFDTSYNRLSSIDSFIFSNCRKLKRLYLKNNRITQLSKDAFKDSNSLSILDISNNYLDNFGPDGGAIEKLKNLRTLDFSNNLIEILNWNEIPPLLHDLNLEGNRIVMLSIVDSTKINVKKINLKNNRLLLINGDRFPKTIEEIDLGYNLLKIISSRTFVKLPNLKLLNLKGNHIEELSEDAFIGSEEENRQHLLGALKLYIGENPLKCSCKMTWILKYIVEVPFDIDSDLYYMQNVIPIQIADASGAACFSLSGGHSITLSKITKENLVCPYAAVCEPECVCCDYGNCDCNSKCPDGCSCYHSQDFSTNIVTCNSKNASALRSFSPKDIPVHATHVYLKNLMLPVLRSHDFLARFRLKELSITESGIKRVEKSAFNTLVNLESLDLSDNLLEEFDSESLPKAHKLRKIYLSKNEIRKIDPNLVNTLPQLNELSLENNQFTDLPYLLEDLSNKKRLQRVSISNNPFRCDCNQRFKMQYWLVNNQHHVSDYSKINCVENVTKAFRHNDTTILTSYSPNFGSDLFIIPMMQFMAEVNKSICVDKNIRWFSGMNILDSQLLLIILIILFIGICLAIFCFCLSLLTRNRRCIDKKGYKKGTMSLNCSTTSPQSGCSPLPPSTLLWSQGQSLLYFDLFVSYSKADEIMVCKTLCGPLDDDEYTMALLHRDGPRYNGNVHQISDELNRLLECSQTLLLVLTKNFIQYEWNMLQIKTSHQLFFTQSLSKSKRVIAVLDEDVTLNDLDEELGQILRKSTYIRMRDPLFWNLFRSALPSRSGIGRMVGSPTPLSDCSSSQHYSDMYGTNTSTTGSVPSHLI

Target ORF information:

RefSeq Version	XM_024653736.1
Organism	Strongyloides ratti
Definition	Strongyloides ratti Toll/interleukin-1 receptor homology (TIR) domain and Leucine-rich repeat and Leucine-rich repeat, typical subtype-containing protein (SRAE_2000264400), partial mRNA.

Target ORF information:

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

XM_024653736.1

ORF Insert Sequence:

ATGTTAGATT ATAGGTTTAA CTGTCCAGAA AGATGTTTAT GTATACCGGA TGCACTGGAG 
ATTGAAAAAA TTAATATCAA TTGTAGATGG GAAAAAATAA CCCAAGAATA TATAAATACA 
TTACCCGCAA ATGTAACAAA ATCATTAAGT ATCTATTGTC ATAATATTTA TTCATCACCA 
ACATACTTTG AAAAAGAAAA TAATAAAAAT AAGAATATAT TTAATAGGCA GGTGGAATTT 
TTAAGATCTC GTAAAGGTCC ATTTGAATTA TTTACCAAAT TAAGAGATCT TCGTATTAAT 
AATTGTAGTA TAGTAACATC ATCAAATACA TTGTCTGGTG AATTATTTTA TGGACTTGAA 
TCATTAAGAA ATTTATATCT TGATCATGTA AATAATCCTA ATACCCATCT TCCAGTATCT 
ATTGAGTCGG GTTTTTTAAA AGAAATTAGT CAACTGGAAA AATTTTCACT GACCCAGTCG 
AATGTTGTAT CATTTAGTGT TGGAGAACTA TGTAATGTCG GTAGATTACA AATATTAAAT 
GTTAGTCATA ATTTGTTAGA AGATCCCAGT CTTGGTACTG AAGCATGCCT AACATTAAAA 
CATTTGGCTA TCCTTGACAT GAATGGAAAT AAAATTAAAG AAATTAAGAA TCAAGATTTT 
AGTTCATTTT TCTCTGTCCA ACAATTAATA CTTTCAAATA ATTTAATAGA AAAAATTGAA 
AAATATGTTT TTAAAAATAT TCCATTACTT CAACATTTAG AAATCCATAA TAATCAATTA 
AGAGAAATTC CAGAATTAGG TGAAAAACTT TTACACCTCA ATTTAGCTTA TAACAAAATT 
CAAAAATTAC CTTTTAGTGT TGGGGAGTTA AAAGAAATAA TTTCTCTTAA TTTAAGTTCT 
AATATGTTAA TTGATAATAT GAAAGAAAAA TATGGAGTTT ATTTGAAGGG AAAAAAAATT 
GAAAATTTAG ATTTAAGTGG AAATAAATTT ACTAAAATAC CATTTGAAAT ATTTGAGGAA 
TCTTTTGAAA TGTTGACAAC ACTTGATGTT AGCAGAAATA ATATTAGAAA TATAAATAGT 
TTTGGTAATA TGACACATTT ACAATCTTTT GACCTCTCAC ATAACAAAAT TGAGGAATTA 
AAAAGTAATT CAATAGATAA ATGTAATATG CTTCAAGATA TAATTTTAAC AAATAATAGT 
ATACATAAAA TTTCACCAAC ATTTTTTGAT GGTCAAAAAG AATCATTAAT ATCATTGGAT 
TTATCTTTAA ATTTACTTCT TGAAGTTCCG ATATCTATAT CAAATCTCAA TAGAATAAAA 
TATATCAATG TTTCACATAA CCAAATAACA AACATTCCCC TTTTAACACT TTCAAAGTTA 
GGACATTTGA CATCTTTTGA CACTAGTTAC AATCGCCTCT CATCAATAGA CTCATTTATT 
TTTTCAAATT GTAGAAAACT TAAAAGACTT TATTTAAAAA ATAATCGAAT TACCCAACTA 
AGTAAGGATG CCTTCAAAGA TAGTAATTCT TTAAGTATTT TGGATATCTC AAATAATTAT 
CTTGATAATT TTGGTCCTGA TGGTGGGGCT ATTGAGAAGT TAAAAAATTT AAGAACACTT 
GATTTTAGTA ATAATTTAAT TGAAATATTA AATTGGAATG AAATTCCACC ATTATTACAT 
GATTTAAATT TGGAGGGAAA TCGTATTGTT ATGTTATCAA TTGTTGATAG TACCAAGATT 
AATGTTAAAA AAATTAATTT AAAAAATAAT AGATTATTAT TAATTAATGG GGATAGGTTT 
CCGAAGACAA TTGAAGAAAT TGACTTGGGA TATAATCTTT TAAAAATTAT ATCCTCAAGG 
ACATTTGTTA AATTACCTAA TCTTAAACTT CTTAATTTGA AGGGTAATCA TATTGAGGAG 
TTAAGTGAGG ATGCTTTTAT TGGAAGTGAA GAAGAGAATA GGCAACATTT ATTAGGTGCA 
CTAAAATTAT ATATAGGAGA AAATCCATTA AAATGTTCCT GTAAAATGAC ATGGATCTTA 
AAATATATTG TTGAAGTTCC ATTTGATATT GATAGTGATT TATATTATAT GCAAAATGTC 
ATACCAATAC AAATAGCTGA TGCTTCTGGT GCAGCATGTT TTAGTTTATC AGGTGGTCAT 
TCAATAACAT TATCAAAAAT TACAAAAGAA AATTTAGTTT GCCCATATGC AGCTGTCTGT 
GAACCAGAAT GTGTTTGTTG TGACTATGGA AATTGTGACT GTAACTCAAA ATGTCCTGAT 
GGTTGTAGTT GTTATCATTC TCAAGACTTT TCAACAAATA TTGTTACATG TAACTCAAAG 
AATGCCTCAG CATTAAGAAG TTTCTCACCA AAAGATATTC CTGTACATGC TACACATGTT 
TATTTAAAAA ATTTAATGTT ACCAGTCCTG AGGAGTCATG ATTTTTTGGC AAGATTTAGA 
TTAAAAGAAC TTTCTATTAC TGAATCTGGA ATTAAAAGAG TTGAAAAAAG TGCATTTAAT 
ACACTTGTAA ATTTAGAAAG TTTAGATTTA TCTGATAATT TATTGGAGGA ATTTGATAGT 
GAATCATTAC CTAAAGCACA TAAATTGAGA AAAATTTATT TATCCAAAAA TGAGATAAGG 
AAAATTGATC CAAATTTAGT TAATACATTA CCACAATTAA ATGAATTATC ATTAGAAAAT 
AATCAATTCA CTGATTTACC ATATCTTTTA GAGGATCTTT CAAATAAAAA ACGTCTACAA 
CGTGTCTCAA TTTCAAATAA TCCATTTCGA TGTGATTGTA ATCAACGTTT CAAGATGCAA 
TATTGGTTGG TAAATAATCA ACATCATGTT AGTGATTATA GTAAAATAAA TTGTGTTGAA 
AATGTTACTA AAGCATTTAG GCATAATGAT ACAACTATCT TAACATCATA TTCACCTAAT 
TTTGGTAGTG ATTTATTTAT TATACCAATG ATGCAATTTA TGGCTGAAGT TAATAAATCA 
ATTTGTGTTG ATAAAAATAT TAGATGGTTT AGTGGGATGA ATATTTTAGA TTCACAATTA 
CTTTTAATAA TATTAATTAT ACTTTTTATT GGTATTTGTT TAGCTATATT TTGTTTTTGT 
TTATCATTAT TAACAAGAAA TCGTAGGTGT ATTGATAAGA AAGGATATAA AAAAGGGACA 
ATGTCATTAA ATTGTTCCAC AACATCACCT CAATCAGGAT GTTCACCATT ACCTCCATCA 
ACATTATTAT GGTCTCAGGG GCAAAGTTTA TTGTATTTTG ATCTTTTTGT TAGTTATTCA 
AAAGCTGATG AAATTATGGT ATGTAAAACA TTATGTGGAC CATTAGATGA TGATGAGTAT 
ACGATGGCAC TCCTTCATAG AGATGGACCA CGATATAATG GAAATGTACA TCAAATAAGT 
GATGAACTTA ATAGACTCCT AGAATGTAGT CAAACATTAT TATTAGTTTT AACAAAAAAT 
TTTATACAAT ATGAATGGAA TATGCTCCAA ATTAAGACAT CACATCAATT ATTTTTTACA 
CAATCACTCT CAAAATCTAA ACGTGTTATA GCTGTACTTG ATGAAGATGT TACATTGAAT 
GATTTAGATG AGGAGTTGGG GCAAATTTTA AGAAAATCAA CATACATTAG AATGAGAGAT 
CCATTATTTT GGAATCTTTT TCGTAGTGCA TTACCATCAC GTTCAGGAAT TGGGCGGATG 
GTTGGTAGTC CAACTCCACT CTCTGATTGT TCATCCTCAC AACACTATTC TGATATGTAT 
GGAACAAATA CTTCAACTAC TGGTAGTGTA CCTAGTCATT TAATTTAG