LOC103690031 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC103690031
Entrez Gene ID	103690031
Full Name	sterile alpha motif domain-containing protein 9-like
General protein information	Preferred Names sterile alpha motif domain-containing protein 9-like Names LOW QUALITY PROTEIN: sterile alpha motif domain-containing protein 9-like sterile alpha motif domain-containing protein 9-like
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 4 Map Location: 4q13

mRNA and Protein(s)

mRNA	Protein	Name
XM_017593072.1	XP_017448561.1	sterile alpha motif domain-containing protein 9-like isoform X1
XM_017602754.1	XP_017458243.1	LOW QUALITY PROTEIN: sterile alpha motif domain-containing protein 9-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC103690031 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC103690031 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
ORa16092	XM_017602754.1 Latest version!	Rattus norvegicus sterile alpha motif domain-containing protein 9-like (LOC103690031), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00

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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)

LOC103690031 ( XM_017602754.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017458243.1 Rattus norvegicus sterile alpha motif domain-containing protein 9-like (LOC103690031), transcript variant X2, mRNA.

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CloneID	ORa16092
Clone ID Related Accession (Same CDS sequence)	XM_017602754.1
Accession Version	XM_017602754.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4725bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	LOW QUALITY PROTEIN: sterile alpha motif domain-containing protein 9-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000072.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGGATAGGC ACGTAACTCA ACCTAAATTG ATCAAAGACT GGACCAAAGA ACACGTAAGA 
AAATGGATTA CTGAAGACCT TAAAATTGAT GAGAAATATG CCCAAATCGT GTTTGAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAACTA ACTGAAAAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGT ATGTATAACA AACTAATTAG TTCCCCTGAA 
GGTCACAATC AAGATTCCAG ACAATTAAAT AATAAAACAC TCTCTATAAA TGAACAACCA 
AAAAAGAGTA ACAGTGAAGA AGAAAACTCA ATTTCATCGA ACAGTGACTT TGGTCTTAGA 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTATTATGA AAGTAAACAC ATTAGGTGAT 
GTAGAGACTA AAGACATGAA AGATAATATG CCCAAATCAG AACAGATGTC TTGCATGCCA 
CACCCTTTTA ATTTTGCCCA TGATGCCAAA CGATACATAG AACATTCTAT TTTACGAGTG 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAGTTCATG AATTCAAAGC CTTCACAAAC 
ACAGAGACAG CCACACAAGA GCAAATGAAG ATGAAATTCA GCAACGAGAC GTTCCGATTT 
GCAGCAGCTT GCATGAATAC ACGTACCAAT GGTACTATCC ATTTTGGAGT AAAGGACAAA 
CCACATGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ACATCTTTAT TAACCACTTC 
AATGTGATGA TCACCAAGTA TTTTGAAGAC AGTGATATCC ATGAAGCCAG GGCGTGTATC 
CGGGAACCAA GGTTTGTGGA AGTCCTTCTG CTGAACAATA CACAATCTAA TAGATTTGTC 
ATCGAGGTGG ATGTTATTCC CAAACATTCT ATATGTCAAG AAAAGTATTT CTACGTCATG 
TTGCAAACTT GCACAGGTAC AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTGAGA 
GAAGGAGCTA GCTCTCGGGA TATCCTGGGC AACCCCAAAC AACGGGATAG AGAGTTCAAA 
AAATTTCTTG AGAATTTAAA GATGTCGATA GCATCTAGAA AAGCAGCGGA AGAATGTATG 
GTGGTATCTA AGAAAGACAG TGAAGGACTA AAACTGTCTA AACTTTTGAC CAGACACCAA 
GGCTCACTTG ATAAATCTTA CTATGATTGG TACATTCTTG TAACAAATTC CTGTGTACCA 
ACGCAAATGG AGCACTTAGA TTTTATAAAG GAAATTAAAT TGTTTGCTGT GCTAGATTTT 
GATCCTTACT CTCACATCAA GGGAGTGGTC AAAGCTTACA GAGAAAGCAG GGTAGCAAAC 
CTTCACCTAC CCAGTCATTA TGAGGAAAAA ACTACCATAG AAGAGAAAAT TTCCACTCTG 
AAACTTTATG AGCAGCCCAG TTGGATCTTC TGTAATGGCA GAGTAGACTT GTCATGTCAA 
CCTCTAGAGC CACATTTATG GCAGAGAGAT AGAGCTTCTG GCGTTAGAAA GCTTATTTCA 
TTCCTCACAG ATGGAAATAT AATAGCAAGG GGGAAGGTTT TGGTGGTGTT TCTCTTACTT 
TCTCCAGTAG AAAATCAAAA GGATCCACTC CTTGAGACTT TCTGTGCTTT CTATCAAGTT 
TTTAATGGAA TGGATAATAT GTTATGCATC TGTGTAAACC CAAGTATCTA CCAACAATGG 
AGTGATCTCC TACAAGTAAG ACTAGAAATC AAAGATGATT TAGCAAAACA TAGCATTTCC 
ACTTTAAACA TAGAACTGGT CAACAGCACC ATCCTCAAAC TGAAATCAGT GATTCAGTCT 
TCAAGGAGAT TTTTGCCCTC CTGTGGTTCC TCCTCAGTTA TTCTGGAGAA AATGGATGAA 
GACATCATGA GTGCATTGGA AATCCTCTGT GAAAATGAGT GTAGAGACAC AGACATAGAG 
AAAGATGAAT CTCAGTTCCT AGAATTTAAG AAATTGAGAG AAGAACACTT TTATCGAGGA 
GGCAGAGTAT CCTGGTGGAA CTTTTATTTT TCTTCTGAAA ACTAATCTTC AGCTTTTGTA 
AAAAGAGATA ATTTTGAAGA GCTAACAACT TTAATACAGC AGTGTGCAGA CTCTCCTAAA 
CCAGTATTTG CCAAAGTCAT CAACTTGTAC CATCACCCAG GCTGTGGAGG TACAACATTG 
GCTATGCATG TTCTTTGGGA CTTAAAGCAG AAGTTCCGGT GTGCTGTCTT GAAAAACAAA 
GCAACCGATT TTATAGAGAT TGGAGAGCAA GTAAGCAAGC TTATCAGCTA CAAGGCTTCC 
AGCCACCAGG ATTACATTCC CGTTCTTCTC CTTGTGGATG ATTTCGAAGA ACAACAGAAC 
ACCTATATTC TACAGAATGC CATCAATTCC TTTATAGCAG AAAAGGGTGT GAGATATGAA 
AAAACTTTAG TAATCATCCT AAACTGTATG AGATCTCAGA ATCCAGATGA AAGTGCAAAA 
TTAGCTGATA GCATTTCACT AAAATACCAA CTCTCTCCAA AAGAAAAAAG AGCCTTTGAG 
GCCAAACTGC AGGAAATAGA AAAGGAGTAC AAGGACTGTG AAAACTTTTA TTCCTTCATG 
ATCTTGAAAG ACAATTTTGA TACAACTTAT ATAAAGAATG TAGTGAAGAA TACACTGAAG 
GACCTGGATG CTCACAGCAG AAAAGCCCAG TTCATTTCTT ATCTGGCATT ACTGAACACT 
TACGTTATAG ATTCTACCAT TTCAGTATCA CAGTGTGAAA TATTTTTGGG AATCACTTAC 
ACAATTAAAC GTGGAAAACC CGAAACTGTA GAAGACAACA TGGGAACCTA TTCTACACTT 
CTTATTAGAA CCGAAGTTTC AGATTATGGG AGGTATGCTG GGATACGTAT CATTCACCCT 
CTAATTGCCA TTCACTGTTT AAAAGAACTG GAAATGAGCC ACGGAATGGA TAAGTGTCAG 
ATTGCACTGA ATATGCTAGA AGAGAACATA TTCTATGATT CTGGAATAGG AAGAGACAAA 
TTTAAGCACG ATGTGCAAAC TCTCTTGCTT ACGAGACAAC GCAAGGAGCA TGGAGCTGAA 
ATAGACACAC TGTTTTCCCC ATTCATTGAA GAATTGCAGA ATGAGCAAAC TGAAAAGGTC 
TTGACTGCAG GAAGTGACCG ATTCCCACAA AATGCATTCA TTTGTCAAGC TTTAGCAAGA 
CACTTCTATC TTAAAGAGAA GAACTTTAGC ACTGCTCTGG TCTGGGCAAA TCAGGCCAAA 
AGGAAAGCAC CTAAGAATTC CTATATTTCA GACACACTTG GTCAAGTTTA CAAAAGTGAG 
ATCAGACAGT GGTTAAGCAA AAATAGCACG TGTAGAAGCA TTAGTGTGGA TGATTTAACA 
CGCTTCCTAG AAGTTGCTGA AAAGGCTTCG AAAGCCTTCA AAGAGTCTCA GGAACAAACT 
GATAGTAAAG ACTATGAAAT TGAGGTCTGG TCACCACAGA AGTCCCAAAG AAGATATGAC 
ACATACAATA CAGCTGGCTT CTTTGGGGAA ATAGAAGTGG GTCTTGACAC TATCCAGCTT 
CTTCAGCTCA CACCTCTTTT CCATAAAGAA AATGAAATGT CAAAAGAATC TATGGCACAG 
TTTTTATCTG GAAAGGGGAC CATCCCTCCT GACCCTAAAG GTGAATATTA TGTTGTTCTC 
AACAAATTTA AATCCTTCCT ACAGAATTTA CAGTCAGATT TGAAAAGATG CTTTGATTTT 
TTTTTGGATT ATATGGGTCT TCTGAAACCA AGGAACACCC CAAAAGAATT GACAGAACTC 
TCACTAAGTA AGAAAGTCAG CCGCTGTTTC AAGAAATATG CAGATCTTTT CTGCCAGGAG 
TTACAGGGCA AAGAAGATCT CTTACTGCAA GAGGAGAACT GTAGGAAGCG CATAAAAGCT 
TGGCGAGCAG ATACATTTTC AGGACTCCTT GAATATCTTA ACCCAAACCA CAAAGAAGCG 
AACAACATGG AAAATATAGT GGAACACTAT ACCTTCCTAT TACAGCATAC CTTAAACAAG 
CAATTGTCAA AGGCACTGAT AAAGGACACA CAAAATTTCA TTTTGGCCAA CATTATTCTC 
AGTTGTCTAA AGCCCAGTTC CAAGCACATC CTGCCATTTA GCACACTGAA AAAAAAGCTC 
AGAGAGGTCC TGCAGATTGT GGGACTAACT CATTCGTATC CTGACCCTTA TTTCCTGGCC 
TGTCTCCTAT TCTGGCCAGA AAACAAAGAG CTAGATCAAG ATTCCTCACT GATAGAAAAG 
TATGTCTCAT CCTTGAATCG ATCTTTCAGG AGACAGTACA AGCACATGTG TAGGTCCAGG 
CAGCCAAGCA CACTCTTCTA CTTGGGGCAG AAGAAGGGTC TTAACAGTCT TGTTCACAAG 
GCTGAAATCG AGCGCTACTT CAGTGAAGTA CAAGATTCAA ATTCTTTCTG GCAGAGTGGA 
GTAGTGTGGG AAAAAGGAGA GGTCAAAGAC ATCCTACGCC TGCTGGATGG CCAGGCTGAA 
GGCAAACTAA TCTCACTAGA ATATGGAACA GAGGCAAAAA TAAAAATACC CGTGACTTCT 
GTGTATTCTG GTCCACTCAG AAGTGGAAGG AACATAGAGA GAGTGTCCTT CTACCTTGGA 
TTTTCCATTG AGGGCCCTCT GGCATATGGC ATAAAAGTAA TATGA

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

RefSeq	XP_017458243.1
CDS	600..5324
Translation	MDRHVTQPKLIKDWTKEHVRKWITEDLKIDEKYAQIVFEEEVTGMVLQELTEKDLREMGLPRGPALLIKRMYNKLISSPEGHNQDSRQLNNKTLSINEQPKKSNSEEENSISSNSDFGLRETGQNEEQEPSIMKVNTLGDVETKDMKDNMPKSEQMSCMPHPFNFAHDAKRYIEHSILRVAETGPLNLIDPVHEFKAFTNTETATQEQMKMKFSNETFRFAAACMNTRTNGTIHFGVKDKPHGEIVGVQVTSKDIFINHFNVMITKYFEDSDIHEARACIREPRFVEVLLLNNTQSNRFVIEVDVIPKHSICQEKYFYVMLQTCTGTTWKQSKDTSLFVREGASSRDILGNPKQRDREFKKFLENLKMSIASRKAAEECMVVSKKDSEGLKLSKLLTRHQGSLDKSYYDWYILVTNSCVPTQMEHLDFIKEIKLFAVLDFDPYSHIKGVVKAYRESRVANLHLPSHYEEKTTIEEKISTLKLYEQPSWIFCNGRVDLSCQPLEPHLWQRDRASGVRKLISFLTDGNIIARGKVLVVFLLLSPVENQKDPLLETFCAFYQVFNGMDNMLCICVNPSIYQQWSDLLQVRLEIKDDLAKHSISTLNIELVNSTILKLKSVIQSSRRFLPSCGSSSVILEKMDEDIMSALEILCENECRDTDIEKDESQFLEFKKLREEHFYRGGRVSWWNFYFSSEN*SSAFVKRDNFEELTTLIQQCADSPKPVFAKVINLYHHPGCGGTTLAMHVLWDLKQKFRCAVLKNKATDFIEIGEQVSKLISYKASSHQDYIPVLLLVDDFEEQQNTYILQNAINSFIAEKGVRYEKTLVIILNCMRSQNPDESAKLADSISLKYQLSPKEKRAFEAKLQEIEKEYKDCENFYSFMILKDNFDTTYIKNVVKNTLKDLDAHSRKAQFISYLALLNTYVIDSTISVSQCEIFLGITYTIKRGKPETVEDNMGTYSTLLIRTEVSDYGRYAGIRIIHPLIAIHCLKELEMSHGMDKCQIALNMLEENIFYDSGIGRDKFKHDVQTLLLTRQRKEHGAEIDTLFSPFIEELQNEQTEKVLTAGSDRFPQNAFICQALARHFYLKEKNFSTALVWANQAKRKAPKNSYISDTLGQVYKSEIRQWLSKNSTCRSISVDDLTRFLEVAEKASKAFKESQEQTDSKDYEIEVWSPQKSQRRYDTYNTAGFFGEIEVGLDTIQLLQLTPLFHKENEMSKESMAQFLSGKGTIPPDPKGEYYVVLNKFKSFLQNLQSDLKRCFDFFLDYMGLLKPRNTPKELTELSLSKKVSRCFKKYADLFCQELQGKEDLLLQEENCRKRIKAWRADTFSGLLEYLNPNHKEANNMENIVEHYTFLLQHTLNKQLSKALIKDTQNFILANIILSCLKPSSKHILPFSTLKKKLREVLQIVGLTHSYPDPYFLACLLFWPENKELDQDSSLIEKYVSSLNRSFRRQYKHMCRSRQPSTLFYLGQKKGLNSLVHKAEIERYFSEVQDSNSFWQSGVVWEKGEVKDILRLLDGQAEGKLISLEYGTEAKIKIPVTSVYSGPLRSGRNIERVSFYLGFSIEGPLAYGIKVI

Target ORF information:

RefSeq Version	XM_017602754.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus sterile alpha motif domain-containing protein 9-like (LOC103690031), transcript variant X2, mRNA.

Target ORF information:

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

XM_017602754.1

ORF Insert Sequence:

ATGGATAGGC ACGTAACTCA ACCTAAATTG ATCAAAGACT GGACCAAAGA ACACGTAAGA 
AAATGGATTA CTGAAGACCT TAAAATTGAT GAGAAATATG CCCAAATCGT GTTTGAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAACTA ACTGAAAAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGT ATGTATAACA AACTAATTAG TTCCCCTGAA 
GGTCACAATC AAGATTCCAG ACAATTAAAT AATAAAACAC TCTCTATAAA TGAACAACCA 
AAAAAGAGTA ACAGTGAAGA AGAAAACTCA ATTTCATCGA ACAGTGACTT TGGTCTTAGA 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTATTATGA AAGTAAACAC ATTAGGTGAT 
GTAGAGACTA AAGACATGAA AGATAATATG CCCAAATCAG AACAGATGTC TTGCATGCCA 
CACCCTTTTA ATTTTGCCCA TGATGCCAAA CGATACATAG AACATTCTAT TTTACGAGTG 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAGTTCATG AATTCAAAGC CTTCACAAAC 
ACAGAGACAG CCACACAAGA GCAAATGAAG ATGAAATTCA GCAACGAGAC GTTCCGATTT 
GCAGCAGCTT GCATGAATAC ACGTACCAAT GGTACTATCC ATTTTGGAGT AAAGGACAAA 
CCACATGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ACATCTTTAT TAACCACTTC 
AATGTGATGA TCACCAAGTA TTTTGAAGAC AGTGATATCC ATGAAGCCAG GGCGTGTATC 
CGGGAACCAA GGTTTGTGGA AGTCCTTCTG CTGAACAATA CACAATCTAA TAGATTTGTC 
ATCGAGGTGG ATGTTATTCC CAAACATTCT ATATGTCAAG AAAAGTATTT CTACGTCATG 
TTGCAAACTT GCACAGGTAC AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTGAGA 
GAAGGAGCTA GCTCTCGGGA TATCCTGGGC AACCCCAAAC AACGGGATAG AGAGTTCAAA 
AAATTTCTTG AGAATTTAAA GATGTCGATA GCATCTAGAA AAGCAGCGGA AGAATGTATG 
GTGGTATCTA AGAAAGACAG TGAAGGACTA AAACTGTCTA AACTTTTGAC CAGACACCAA 
GGCTCACTTG ATAAATCTTA CTATGATTGG TACATTCTTG TAACAAATTC CTGTGTACCA 
ACGCAAATGG AGCACTTAGA TTTTATAAAG GAAATTAAAT TGTTTGCTGT GCTAGATTTT 
GATCCTTACT CTCACATCAA GGGAGTGGTC AAAGCTTACA GAGAAAGCAG GGTAGCAAAC 
CTTCACCTAC CCAGTCATTA TGAGGAAAAA ACTACCATAG AAGAGAAAAT TTCCACTCTG 
AAACTTTATG AGCAGCCCAG TTGGATCTTC TGTAATGGCA GAGTAGACTT GTCATGTCAA 
CCTCTAGAGC CACATTTATG GCAGAGAGAT AGAGCTTCTG GCGTTAGAAA GCTTATTTCA 
TTCCTCACAG ATGGAAATAT AATAGCAAGG GGGAAGGTTT TGGTGGTGTT TCTCTTACTT 
TCTCCAGTAG AAAATCAAAA GGATCCACTC CTTGAGACTT TCTGTGCTTT CTATCAAGTT 
TTTAATGGAA TGGATAATAT GTTATGCATC TGTGTAAACC CAAGTATCTA CCAACAATGG 
AGTGATCTCC TACAAGTAAG ACTAGAAATC AAAGATGATT TAGCAAAACA TAGCATTTCC 
ACTTTAAACA TAGAACTGGT CAACAGCACC ATCCTCAAAC TGAAATCAGT GATTCAGTCT 
TCAAGGAGAT TTTTGCCCTC CTGTGGTTCC TCCTCAGTTA TTCTGGAGAA AATGGATGAA 
GACATCATGA GTGCATTGGA AATCCTCTGT GAAAATGAGT GTAGAGACAC AGACATAGAG 
AAAGATGAAT CTCAGTTCCT AGAATTTAAG AAATTGAGAG AAGAACACTT TTATCGAGGA 
GGCAGAGTAT CCTGGTGGAA CTTTTATTTT TCTTCTGAAA ACTAATCTTC AGCTTTTGTA 
AAAAGAGATA ATTTTGAAGA GCTAACAACT TTAATACAGC AGTGTGCAGA CTCTCCTAAA 
CCAGTATTTG CCAAAGTCAT CAACTTGTAC CATCACCCAG GCTGTGGAGG TACAACATTG 
GCTATGCATG TTCTTTGGGA CTTAAAGCAG AAGTTCCGGT GTGCTGTCTT GAAAAACAAA 
GCAACCGATT TTATAGAGAT TGGAGAGCAA GTAAGCAAGC TTATCAGCTA CAAGGCTTCC 
AGCCACCAGG ATTACATTCC CGTTCTTCTC CTTGTGGATG ATTTCGAAGA ACAACAGAAC 
ACCTATATTC TACAGAATGC CATCAATTCC TTTATAGCAG AAAAGGGTGT GAGATATGAA 
AAAACTTTAG TAATCATCCT AAACTGTATG AGATCTCAGA ATCCAGATGA AAGTGCAAAA 
TTAGCTGATA GCATTTCACT AAAATACCAA CTCTCTCCAA AAGAAAAAAG AGCCTTTGAG 
GCCAAACTGC AGGAAATAGA AAAGGAGTAC AAGGACTGTG AAAACTTTTA TTCCTTCATG 
ATCTTGAAAG ACAATTTTGA TACAACTTAT ATAAAGAATG TAGTGAAGAA TACACTGAAG 
GACCTGGATG CTCACAGCAG AAAAGCCCAG TTCATTTCTT ATCTGGCATT ACTGAACACT 
TACGTTATAG ATTCTACCAT TTCAGTATCA CAGTGTGAAA TATTTTTGGG AATCACTTAC 
ACAATTAAAC GTGGAAAACC CGAAACTGTA GAAGACAACA TGGGAACCTA TTCTACACTT 
CTTATTAGAA CCGAAGTTTC AGATTATGGG AGGTATGCTG GGATACGTAT CATTCACCCT 
CTAATTGCCA TTCACTGTTT AAAAGAACTG GAAATGAGCC ACGGAATGGA TAAGTGTCAG 
ATTGCACTGA ATATGCTAGA AGAGAACATA TTCTATGATT CTGGAATAGG AAGAGACAAA 
TTTAAGCACG ATGTGCAAAC TCTCTTGCTT ACGAGACAAC GCAAGGAGCA TGGAGCTGAA 
ATAGACACAC TGTTTTCCCC ATTCATTGAA GAATTGCAGA ATGAGCAAAC TGAAAAGGTC 
TTGACTGCAG GAAGTGACCG ATTCCCACAA AATGCATTCA TTTGTCAAGC TTTAGCAAGA 
CACTTCTATC TTAAAGAGAA GAACTTTAGC ACTGCTCTGG TCTGGGCAAA TCAGGCCAAA 
AGGAAAGCAC CTAAGAATTC CTATATTTCA GACACACTTG GTCAAGTTTA CAAAAGTGAG 
ATCAGACAGT GGTTAAGCAA AAATAGCACG TGTAGAAGCA TTAGTGTGGA TGATTTAACA 
CGCTTCCTAG AAGTTGCTGA AAAGGCTTCG AAAGCCTTCA AAGAGTCTCA GGAACAAACT 
GATAGTAAAG ACTATGAAAT TGAGGTCTGG TCACCACAGA AGTCCCAAAG AAGATATGAC 
ACATACAATA CAGCTGGCTT CTTTGGGGAA ATAGAAGTGG GTCTTGACAC TATCCAGCTT 
CTTCAGCTCA CACCTCTTTT CCATAAAGAA AATGAAATGT CAAAAGAATC TATGGCACAG 
TTTTTATCTG GAAAGGGGAC CATCCCTCCT GACCCTAAAG GTGAATATTA TGTTGTTCTC 
AACAAATTTA AATCCTTCCT ACAGAATTTA CAGTCAGATT TGAAAAGATG CTTTGATTTT 
TTTTTGGATT ATATGGGTCT TCTGAAACCA AGGAACACCC CAAAAGAATT GACAGAACTC 
TCACTAAGTA AGAAAGTCAG CCGCTGTTTC AAGAAATATG CAGATCTTTT CTGCCAGGAG 
TTACAGGGCA AAGAAGATCT CTTACTGCAA GAGGAGAACT GTAGGAAGCG CATAAAAGCT 
TGGCGAGCAG ATACATTTTC AGGACTCCTT GAATATCTTA ACCCAAACCA CAAAGAAGCG 
AACAACATGG AAAATATAGT GGAACACTAT ACCTTCCTAT TACAGCATAC CTTAAACAAG 
CAATTGTCAA AGGCACTGAT AAAGGACACA CAAAATTTCA TTTTGGCCAA CATTATTCTC 
AGTTGTCTAA AGCCCAGTTC CAAGCACATC CTGCCATTTA GCACACTGAA AAAAAAGCTC 
AGAGAGGTCC TGCAGATTGT GGGACTAACT CATTCGTATC CTGACCCTTA TTTCCTGGCC 
TGTCTCCTAT TCTGGCCAGA AAACAAAGAG CTAGATCAAG ATTCCTCACT GATAGAAAAG 
TATGTCTCAT CCTTGAATCG ATCTTTCAGG AGACAGTACA AGCACATGTG TAGGTCCAGG 
CAGCCAAGCA CACTCTTCTA CTTGGGGCAG AAGAAGGGTC TTAACAGTCT TGTTCACAAG 
GCTGAAATCG AGCGCTACTT CAGTGAAGTA CAAGATTCAA ATTCTTTCTG GCAGAGTGGA 
GTAGTGTGGG AAAAAGGAGA GGTCAAAGAC ATCCTACGCC TGCTGGATGG CCAGGCTGAA 
GGCAAACTAA TCTCACTAGA ATATGGAACA GAGGCAAAAA TAAAAATACC CGTGACTTCT 
GTGTATTCTG GTCCACTCAG AAGTGGAAGG AACATAGAGA GAGTGTCCTT CTACCTTGGA 
TTTTCCATTG AGGGCCCTCT GGCATATGGC ATAAAAGTAA TATGA

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

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LOC103690031 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

見積依頼

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