LOC110230353 cDNA ORF clone, Arabidopsis lyrata subsp. lyrata

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC110230353
Entrez Gene ID	110230353
Full Name	receptor-like protein 12
Gene Type	protein-coding
Organism	Arabidopsis lyrata subsp. lyrata

mRNA and Protein(s)

mRNA	Protein	Name
XM_021032990.1	XP_020888649.1	LOW QUALITY PROTEIN: receptor-like protein 12

Pathways from BioSystems
Gene Ontology

The following LOC110230353 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110230353 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
OAa37220	XM_021032990.1 Latest version!	Arabidopsis lyrata subsp. lyrata receptor-like protein 12 (LOC110230353), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

LOC110230353 ( XM_021032990.1 ) cDNA ORF clone, Arabidopsis lyrata subsp. lyrata -> XP_020888649.1 Arabidopsis lyrata subsp. lyrata receptor-like protein 12 (LOC110230353), mRNA.

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CloneID	OAa37220
Clone ID Related Accession (Same CDS sequence)	XM_021032990.1
Accession Version	XM_021032990.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2976bp) 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	2017-05-10
Organism	Arabidopsis lyrata subsp. lyrata
Product	LOW QUALITY PROTEIN: receptor-like protein 12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003302553.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Arabidopsis lyrata subsp. lyrata Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 2 indels ##RefSeq-Attributes-END##

ATGAAAGGCT CTATAACTCT TTCTTTTCTC ATCATTTTTA TTTTTCATTT TCTTGACGTG 
TTTGCGGCTC CTAGCAGACA CTTGTGTAAT CCTGATCAAA GGGATGCAAT TCTCGAGTTC 
AAGAACGAGT TTGAAACTTT GGAGGCCTCT TGTTTTGACA GCATTCCTCC GAAGACGGAA 
TCATGGACGA ATAACAGCGA TTGTTGTTAT TGGGACGGTA TCAAATGTGA TGCCAAGTTC 
GGGGATGTGG TCGAGCTAGA TCTTAGCTTC AGTTGCCTAA GTGGCCAGCT CAATTCCAAT 
AGTAGTCTTT TTAGTCTTCC ACAACTTCGT TCTCTAACCA CTCTTGACCT TTCTAATAAT 
GATTTTATTG GTAAAATCCC ATCTTCACTT GAAACCCTCT CTAATCTCAC CACTCTAGAC 
ATTTCTAGAA ATCATTTCAA TGGTAGGGTT CCTTCTTCAC TTGGAAACCT TTCTCATCTC 
ACCTTTCTTG ACTTCTCTCA TAACAACTTT AGTGGTCAAA TCCCATCTTC ACTTGGACAT 
CTTTCGCATC TAAAATCTTT CAACCTCTCT TTTAACAATT TCAGTGGTAG GATTCCTTCT 
TCGATTGGAA ATCTTTCTAG TCTTACCAAT CTCTGCCTCA CTCGTAACAG TTTTGATGGT 
GAACTTCCAT CTTCACTTGG AAGTCTTTTG CATCTCACCT TTCTCATCCT TGATCGTAAC 
CGTTTTTCCG GTGAAATCCC ATCTTCACTT GGAAATCTTA CGCATCTCAC CTCTCTCAAC 
TTCCATCATA ACAACGTTTT TGGTAAAATT CCATCTTCAC TTGGAAAACT TTCTCATCTC 
TCATATCTTG TCCTCTCTGT TAACAATTTT GTTGGTGAAA TCCCATCTTC TTTTGGTAAT 
TTAAACGAAT TAGCAATATT CGTCGTTGAT TACAACAGCC TTAGTGGTAG CCTCCCCCTT 
GCACTACTAA ACCTAACAAA ACTGTCAAAA TTATCTCTTA TTTACAATCA TTTTACTGGC 
ACTCTTCCTT CTAACATGAG CTCACTCTCC AACTTGGAGT TGTTTGATGC AACAGAAAAT 
GATTTCACTG GAACTCTCCC TTCTTCTCTC TTCACCATTT CATCTTTGGA AACTATTAGT 
TTGGTAAATA ACCAACTCAA CGGCACTCTT GAGTTTGGGG ATATATCTTT ACCATCTAAT 
CTAACAGTCT TACGGCTTGG CAATAACAAC TTTAGAGGGC CAATCCATAA ATCTATTTCC 
AAATTAGTTA ACCTTAAGGA GCTTGACATT TCCAATTGCA ACACCCAAGG CTTAGTTGAC 
TTTACTATCT TCTCGCAGCT TAAGTCGCTC GAACATCTCT ACCTCTCCCA TTTGAACACC 
ACCACTACGA TTGACTTGAA TGCAATCTTA TCAAGTTTGC AGTTACTAGA TTCACTGGAT 
CTCTCAGGCA ACCATGTTTC TACTACAAAC AAGAGGTCTC TTTCTGATTC TTCATTGGTA 
TTGATAAGTC AGTTGTCCTT GTCGGAATGC GGTATCACCG AGTTTCCAGA GTTCCTAAGA 
ACCCAAAAGC TTATGGTGTC TCTAGACATT TCCAACAACA AGATCAAAGG TCAAGTGCCT 
GGATGGTTAT GGATGCTCCC TGATTTGCAG TACGTGAATC TTTCCAACAA CACTTTCATC 
GGTTTCGAAA GAATAACTAA ACTTGGACTC TCCTCTGTCC AAGAACCAAC TATAAGCAAG 
TTCTTTGGCT CCAACAACAA TTTCACGGGC AAGATTCCAT CTCTCATATG TGAGTTGCCT 
TATCTCAGCA CTCTTGATTT GTCTAACAAC AAATTCAATG GTTCAATCCC TAGCTGTACG 
GGATATCTTC AAGCTCCATA TCTTCAAGCT CTAAATCTTC GAAATAATCG TCTTAGTGGA 
GGCCTTCCAA AGAATTTATT TGAAAGTCTA ATTTCCCTTG ATGTTGGCTA TAACCAACTA 
GTGGGAAAGC TTCCAAGATC GTTGACTCAT ATATCTTCTC TTGAAGTTCT GAATGTGGAG 
AGCAACAGAA TCATTGATAC GTTTCCTTTC TGGTTGAGTT CTCTACAAGA GCTACAAGTT 
CTAGTCCTTC GCTCCAATGC ATTTTATGGA CCGATAGAGC AAACACAGTT TTCTAAGTTG 
CAAATCATCG ACATATCCGG TAATCAATTC AATGGTACGT TGCCACCAAA TTTCTTTGTC 
AATTGGACTG CAATGTTCTC ACTGGAAAGA AATGAAGATC AATCTAATGT AGAGACCATG 
CCATTGTCTG AGTCAAAGTA CATGAGTACA GACTATTACT ACTTTGTGTC AATGGTTTTG 
ATATACAAAG GTGTAGAGAT GGAGCTGGTA CGTGTCCTAA AAATCTTTAC GGCGATCAAC 
TTTTCGGGAA ACAAATTTGA AGGAAAGATT CCAAATTCCA TTGGTCTATT AAAAGAGCTT 
CATGTGCTCA ACTTGTCAAA CAATGCTTTC ACTGGCCACA TCCCATCAAC TATGGGGAAC 
CTCACCGCTC TTGAGTCACT GGACGTTTCC CAAAACAAGC TTTCAGGAGA AATTCCACAA 
GAGTTAGGGA AACTCTCGTA CCTTGCGTAC ATGAACTTCT CACATAACCA GCTGGTTGGT 
CTATTACCAG GGGGCACTCA GTTTCAAACA CAGAATTGCT CTTCCTTCGC GGATAACCAG 
GGACTTTTTG GCCCTTCACT TGAGAAAGTT TGTGAAGATA TCCACGCGAA AACATCACAA 
CCAGGTGAAA CGCCAGAGCA AGAGGAAGAG GAAGATGAAG AAGAGGTCTT GAATTGGATA 
GCAGCTGCAA TAGGATCCAT ACTTGGTACT GCATTTGGAT TGACATTTNG GTACTGCATA 
CTATTTTCCT ACAAACCAGA TTGGTTCATG ATTCCTTTTA TATTTTGTGG ACCTAATTTT 
GTTTCAAATA AAGGTAAAAT GGTCATTAAA AATTAA

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

RefSeq	XP_020888649.1
CDS	96..3071
Translation	MKGSITLSFLIIFIFHFLDVFAAPSRHLCNPDQRDAILEFKNEFETLEASCFDSIPPKTESWTNNSDCCYWDGIKCDAKFGDVVELDLSFSCLSGQLNSNSSLFSLPQLRSLTTLDLSNNDFIGKIPSSLETLSNLTTLDISRNHFNGRVPSSLGNLSHLTFLDFSHNNFSGQIPSSLGHLSHLKSFNLSFNNFSGRIPSSIGNLSSLTNLCLTRNSFDGELPSSLGSLLHLTFLILDRNRFSGEIPSSLGNLTHLTSLNFHHNNVFGKIPSSLGKLSHLSYLVLSVNNFVGEIPSSFGNLNELAIFVVDYNSLSGSLPLALLNLTKLSKLSLIYNHFTGTLPSNMSSLSNLELFDATENDFTGTLPSSLFTISSLETISLVNNQLNGTLEFGDISLPSNLTVLRLGNNNFRGPIHKSISKLVNLKELDISNCNTQGLVDFTIFSQLKSLEHLYLSHLNTTTTIDLNAILSSLQLLDSLDLSGNHVSTTNKRSLSDSSLVLISQLSLSECGITEFPEFLRTQKLMVSLDISNNKIKGQVPGWLWMLPDLQYVNLSNNTFIGFERITKLGLSSVQEPTISKFFGSNNNFTGKIPSLICELPYLSTLDLSNNKFNGSIPSCTGYLQAPYLQALNLRNNRLSGGLPKNLFESLISLDVGYNQLVGKLPRSLTHISSLEVLNVESNRIIDTFPFWLSSLQELQVLVLRSNAFYGPIEQTQFSKLQIIDISGNQFNGTLPPNFFVNWTAMFSLERNEDQSNVETMPLSESKYMSTDYYYFVSMVLIYKGVEMELVRVLKIFTAINFSGNKFEGKIPNSIGLLKELHVLNLSNNAFTGHIPSTMGNLTALESLDVSQNKLSGEIPQELGKLSYLAYMNFSHNQLVGLLPGGTQFQTQNCSSFADNQGLFGPSLEKVCEDIHAKTSQPGETPEQEEEEDEEEVLNWIAAAIGSILGTAFGLTFnullYCILFSYKPDWFMIPFIFCGPNFVSNKGKMVIKN

Target ORF information:

RefSeq Version	XM_021032990.1
Organism	Arabidopsis lyrata subsp. lyrata
Definition	Arabidopsis lyrata subsp. lyrata receptor-like protein 12 (LOC110230353), mRNA.

Target ORF information:

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

XM_021032990.1

ORF Insert Sequence:

ATGAAAGGCT CTATAACTCT TTCTTTTCTC ATCATTTTTA TTTTTCATTT TCTTGACGTG 
TTTGCGGCTC CTAGCAGACA CTTGTGTAAT CCTGATCAAA GGGATGCAAT TCTCGAGTTC 
AAGAACGAGT TTGAAACTTT GGAGGCCTCT TGTTTTGACA GCATTCCTCC GAAGACGGAA 
TCATGGACGA ATAACAGCGA TTGTTGTTAT TGGGACGGTA TCAAATGTGA TGCCAAGTTC 
GGGGATGTGG TCGAGCTAGA TCTTAGCTTC AGTTGCCTAA GTGGCCAGCT CAATTCCAAT 
AGTAGTCTTT TTAGTCTTCC ACAACTTCGT TCTCTAACCA CTCTTGACCT TTCTAATAAT 
GATTTTATTG GTAAAATCCC ATCTTCACTT GAAACCCTCT CTAATCTCAC CACTCTAGAC 
ATTTCTAGAA ATCATTTCAA TGGTAGGGTT CCTTCTTCAC TTGGAAACCT TTCTCATCTC 
ACCTTTCTTG ACTTCTCTCA TAACAACTTT AGTGGTCAAA TCCCATCTTC ACTTGGACAT 
CTTTCGCATC TAAAATCTTT CAACCTCTCT TTTAACAATT TCAGTGGTAG GATTCCTTCT 
TCGATTGGAA ATCTTTCTAG TCTTACCAAT CTCTGCCTCA CTCGTAACAG TTTTGATGGT 
GAACTTCCAT CTTCACTTGG AAGTCTTTTG CATCTCACCT TTCTCATCCT TGATCGTAAC 
CGTTTTTCCG GTGAAATCCC ATCTTCACTT GGAAATCTTA CGCATCTCAC CTCTCTCAAC 
TTCCATCATA ACAACGTTTT TGGTAAAATT CCATCTTCAC TTGGAAAACT TTCTCATCTC 
TCATATCTTG TCCTCTCTGT TAACAATTTT GTTGGTGAAA TCCCATCTTC TTTTGGTAAT 
TTAAACGAAT TAGCAATATT CGTCGTTGAT TACAACAGCC TTAGTGGTAG CCTCCCCCTT 
GCACTACTAA ACCTAACAAA ACTGTCAAAA TTATCTCTTA TTTACAATCA TTTTACTGGC 
ACTCTTCCTT CTAACATGAG CTCACTCTCC AACTTGGAGT TGTTTGATGC AACAGAAAAT 
GATTTCACTG GAACTCTCCC TTCTTCTCTC TTCACCATTT CATCTTTGGA AACTATTAGT 
TTGGTAAATA ACCAACTCAA CGGCACTCTT GAGTTTGGGG ATATATCTTT ACCATCTAAT 
CTAACAGTCT TACGGCTTGG CAATAACAAC TTTAGAGGGC CAATCCATAA ATCTATTTCC 
AAATTAGTTA ACCTTAAGGA GCTTGACATT TCCAATTGCA ACACCCAAGG CTTAGTTGAC 
TTTACTATCT TCTCGCAGCT TAAGTCGCTC GAACATCTCT ACCTCTCCCA TTTGAACACC 
ACCACTACGA TTGACTTGAA TGCAATCTTA TCAAGTTTGC AGTTACTAGA TTCACTGGAT 
CTCTCAGGCA ACCATGTTTC TACTACAAAC AAGAGGTCTC TTTCTGATTC TTCATTGGTA 
TTGATAAGTC AGTTGTCCTT GTCGGAATGC GGTATCACCG AGTTTCCAGA GTTCCTAAGA 
ACCCAAAAGC TTATGGTGTC TCTAGACATT TCCAACAACA AGATCAAAGG TCAAGTGCCT 
GGATGGTTAT GGATGCTCCC TGATTTGCAG TACGTGAATC TTTCCAACAA CACTTTCATC 
GGTTTCGAAA GAATAACTAA ACTTGGACTC TCCTCTGTCC AAGAACCAAC TATAAGCAAG 
TTCTTTGGCT CCAACAACAA TTTCACGGGC AAGATTCCAT CTCTCATATG TGAGTTGCCT 
TATCTCAGCA CTCTTGATTT GTCTAACAAC AAATTCAATG GTTCAATCCC TAGCTGTACG 
GGATATCTTC AAGCTCCATA TCTTCAAGCT CTAAATCTTC GAAATAATCG TCTTAGTGGA 
GGCCTTCCAA AGAATTTATT TGAAAGTCTA ATTTCCCTTG ATGTTGGCTA TAACCAACTA 
GTGGGAAAGC TTCCAAGATC GTTGACTCAT ATATCTTCTC TTGAAGTTCT GAATGTGGAG 
AGCAACAGAA TCATTGATAC GTTTCCTTTC TGGTTGAGTT CTCTACAAGA GCTACAAGTT 
CTAGTCCTTC GCTCCAATGC ATTTTATGGA CCGATAGAGC AAACACAGTT TTCTAAGTTG 
CAAATCATCG ACATATCCGG TAATCAATTC AATGGTACGT TGCCACCAAA TTTCTTTGTC 
AATTGGACTG CAATGTTCTC ACTGGAAAGA AATGAAGATC AATCTAATGT AGAGACCATG 
CCATTGTCTG AGTCAAAGTA CATGAGTACA GACTATTACT ACTTTGTGTC AATGGTTTTG 
ATATACAAAG GTGTAGAGAT GGAGCTGGTA CGTGTCCTAA AAATCTTTAC GGCGATCAAC 
TTTTCGGGAA ACAAATTTGA AGGAAAGATT CCAAATTCCA TTGGTCTATT AAAAGAGCTT 
CATGTGCTCA ACTTGTCAAA CAATGCTTTC ACTGGCCACA TCCCATCAAC TATGGGGAAC 
CTCACCGCTC TTGAGTCACT GGACGTTTCC CAAAACAAGC TTTCAGGAGA AATTCCACAA 
GAGTTAGGGA AACTCTCGTA CCTTGCGTAC ATGAACTTCT CACATAACCA GCTGGTTGGT 
CTATTACCAG GGGGCACTCA GTTTCAAACA CAGAATTGCT CTTCCTTCGC GGATAACCAG 
GGACTTTTTG GCCCTTCACT TGAGAAAGTT TGTGAAGATA TCCACGCGAA AACATCACAA 
CCAGGTGAAA CGCCAGAGCA AGAGGAAGAG GAAGATGAAG AAGAGGTCTT GAATTGGATA 
GCAGCTGCAA TAGGATCCAT ACTTGGTACT GCATTTGGAT TGACATTTNG GTACTGCATA 
CTATTTTCCT ACAAACCAGA TTGGTTCATG ATTCCTTTTA TATTTTGTGG ACCTAATTTT 
GTTTCAAATA AAGGTAAAAT GGTCATTAAA AATTAA