L1CAM cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	L1CAM
Entrez Gene ID	100482790
Full Name	L1 cell adhesion molecule
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019809520.1	XP_019665079.1	LOW QUALITY PROTEIN: neural cell adhesion molecule L1

Pathways from BioSystems
Gene Ontology

The following L1CAM gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the L1CAM 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
OAc99305	XM_019809520.1 Latest version!	Ailuropoda melanoleuca L1 cell adhesion molecule (L1CAM), 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)

L1CAM ( XM_019809520.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019665079.1 Ailuropoda melanoleuca L1 cell adhesion molecule (L1CAM), mRNA.

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CloneID	OAc99305
Clone ID Related Accession (Same CDS sequence)	XM_019809520.1
Accession Version	XM_019809520.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3678bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	LOW QUALITY PROTEIN: neural cell adhesion molecule L1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218884.1) 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 :: Ailuropoda melanoleuca 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## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGAGCCAC CTGTCATCAC AGAACAGTCT CCACGGCGCC TGGTCGTCTT CCCCACAGAT 
GACATCAGCC TCAAGTGTGA GGCCAGTGGC AAACCAGAAG TGCAGTTCCG CTGGACTCGG 
GACGGCGTCC ACTTCAAACC CAAGGAGGAA CTGGGTGTGA CCGTGCACCA GGCCCCACGT 
TCCGGCTCCT TCACCATCAC CGGCAACAAC AGCAACTTTG CCCAGAGGTT CCAGGGCATC 
TACCGCTGCT TTGCCAGCAA TAAGCTGGGC ACAGCCATGT CCCATGAGAT CCAGCTCATG 
GCCGAGGGTG CCCCCAAGTG GCCGAAAGAG ACAGTGAAGC CTGTGGAGGT GGAGGAAGGG 
GAGTCGGTGA TTCTGCCTTG CCACCCGCCG CCCAGTGCCG AGCCGCTCCG GATCTACTGG 
ATGAATAGCA AGATCTTGCA CATCAAGCAG GATGAGCGGG TGACAATGGG CCAGAACGGC 
AATCTCTACT TTGCCAACGT TCTCACCTCG GACAACCACT CAGACTACAT CTGCCATGCC 
CACTTCCCCG GCACCCGTAC CATCATTCAG AAGGAACCCA TTGACCTCCG GGTCAAGGCC 
ACCAACAGCA TGATTGACAG GAAGCCACGC CTGCTCTTCC CCACCAACTC CAGCAGCCAC 
CTGGTAGCCT TGCAGGGGCA GCCACTGGTC CTGGAATGCA TCGCTGAGGG CTTCCCCACC 
CCCACCATCA AGTGGCTGCG CCCGAGTGGC CCCATGCCAG CTGACCGAGT CACCTACCAG 
AATCACAACA AGACCCTGCA GCTGCTGAAC GTGATGGAGG AGGACGATGG CGAGTACCGG 
TGCCTGGCTG AGAACTCACT GGGCAGCGAC CGGCACACCT ACTACATCAC CGTGGAGGCT 
GCCCCCTACT GGCTCCACAA GCCCCAGAGC CATTTGTATG GGCCAGGAGA GACCGCCCGC 
CTGGACTGCC AAGTGCAGGG AAGGCCCCAA CCGGAAGTCA CCTGGAGAAT CAACGGGATT 
CCTGTAGAGG AACTGGCCAA AGACCAGAAG TACCGGATCC AGCGTGGGGC CCTGATCCTG 
AGCAATGTGC AGCCCAGCGA CACGATGGTG ACACAGTGCG AAGCCCGCAA CCGGCATGGA 
CTCCTGCTGG CCAATGCCTA CATCTATGTT GTTCAGCTTC CGGCCAAGAT CCTGACCCCA 
GACAACGAGA CCTACATGGC GGTCGAGGGC AGCACTGCCT ATCTTCTGTG CAAGGCTTTT 
GGAGCCCCTG TGCCCAGTGT CCAGTGGCTC GACAAGGAAG GGAAGACGGT GCTACAGGAC 
GAACGCTTCT TCCCCTACAC CAATGGGACC CTGGGCATCC GGGACCTCCA GGCCAATGAC 
ACTGGCCACT ACTTCTGCCA GGCTGCCAAT GACCAGAACA ATGTGACCGT TGTGGCTAAC 
CTGCAGGTCA AAGATGCCAC TCAGATCACA CAGGGGCCTC AGAGTGCAAT CGAGAAGAAA 
GGCTCAAAAG TGACTTTCAC GTGCGAGGCC TCCTTTGACC CCTCCTTGCA GCACAGCATC 
ACCTGGCGAG GAGACGGTCG AAACCTCCAG GAGTTTGGGG ACAGTGACAA GTACTTCATA 
GAGGACGGGC GCCTGGTCAT CCACAGTCTG GACTACAGTG ACCAGGGCAA CTACAGCTGC 
GTGGCTGGCA CCGAGCTGGA CGTGGTGGAG AGCAGGGCAG AGCTCCTGGT GGTGGGGAGC 
CCCGGGCCGG TGCCTCAGCT GGAGCTGTCT GACCGCCACC TGCTGAAGCA GAGCCAGGTG 
CGCCTGTCTT GGAGCCCCGC CGACGACCAT AACGCCCCCA TTGAGAAGTA TGACATTGAA 
TTTGAAGACA AGGAGATGGC GCCTCAGGAA TGGTATAGTC TGGGCAAGGT GCCCGGGAAC 
CAGACCTCCA CCACCCTCAA GCTATCGCCC TATGTGCACT ACACCTTTAG GGTTACTGCC 
ATCAACAAGT ACGGCCCTGG AGAGCCCAGC CCAGCCTCCG AGACTGTGGT CACACCTGAG 
GCAGCCCCAG AGAAGAACCC TGTGGACGTG AAGGGGGAAG GGAACGAGAC CAGCAACATG 
GTCATCACTT GGAAGCCCCT TAGGTGGATG GACTGGAATG CCCCCCAGGT TCAGTACCGT 
GTCCAGTGGC GCCCTCAGGG GACTCGGGGT ACCTGGCAGG AACAGATCGT GAGCGACCCC 
CTCCTGGTTG TGTCTAACAC CTCCACCTTT GTGCCTTATG AGATCAAAGT CCAGTCCGTC 
AACAGCCAGG GCAAGGGCCC TGAGCCCCAG ATTACCATTG GCTACTCGGG GGAAGACTAC 
CCCCAGGCAA GCCCTGAGCT GGAAGGCGTC AAGATCCTCA ACTCGAGTGC CGTGCTGGTC 
AGGTGGTGGC CCGTAGACCC AGCCCAGGTC AAGGGCCACC TCCGAGGATA CAACGTGACA 
TACTGGTGGG AGGGCAGTCA GAGGAAGCAC AGCAAAAGGC ACGCCCACAA AAGCCACGTG 
CTGGTGCCCG CCAACACGAC CAGTGCCGTC CTGGGAGGCC TGCGGCCCTA CAGCTCCTAC 
CGTCTGGAGG TGCAGGCCTT TAATGGCCGA GGACTGGGGC CCGCCAGCGA GATGACCTTC 
AGGACCCCAG AGGGAGTGCC TGGCCACCCT GAGGCATTGC ACCTGGAGTG CCAGTCGGAC 
ACCAGCCTGC TGTTGCACTG GCAGCCCCCG CAGCTCAGCC ACAACGGCGT GCTCACTGGC 
TACGTGCTCT CCTATCACCC TCTGGATGAC GGGGACAAGG AGCAGCTGTC CTTTGACCTT 
CCGGACCCCG AGCTGCGGAC GCACAACCTG ACCAACCTCA GCCCCCACCT GCGGTACCGC 
TTCCAGCTGC AGGCCACCAC GAAGGAGGGC CCCGGAGAGG CCATTGTGCG GGAGGGAGGC 
ACCATGGCCT TATCCGGGAC CCCGGATTTT GGCAACATCT CAGCCATGGC CGGCGAGAAT 
TACAGCGTGG TCTCCTGGGT TCCCAAGGAG GGCCAGTGCA ACTTTGGGTT CCAGATCTGG 
TTCAAAGCCC TGGGGGACGA GAAGATGAGC CCTCATCTGC CACCACAGTA TGTCAGCTAC 
AACCAGAGCT CCTACACGCA GTGGGACCTG CAGCCCGACA CCGACTATGA GATCCACCTG 
CTCAAGGAGA GGGTGCTCCT TAAGGTGGCC GTGAAGACCA ACGGCACCGG CTNNNNNNNN 
NGTGTGAGGC TCCCTGCCGC TGGCTTCGCC GCTGAGGGCT GGTTCATCGG CTTCATCAGC 
GCCGTCATTC TCTTGTTCCT TGTCTTGCTC ATCCTCTGCT TTATCAAACG CAGCAAAGGT 
GGCAAATACT CAGTGAAGGA TAAGGAGGAC ACCCAGGTGG ACTCCGAGGC CCGGCCGATG 
AAGGACGAGA CCTTCGGCGA GTACAGCGAC AACGAGGAGA AGGCCTTTGG CAGCAGCCAG 
CCATCCCTCA ATGGAGACAT CAAGCCCCTG GGCAGTGACG ACAGCCTGGC TGACTATGGG 
GGCAGCGTGG ACGTCCAATT CAATGAGGAC GGCTCCTTCA TTGGCCAATA CAGCGGCAAG 
AAGGAGAAGG AGGCGGCAGG AGGCAATGAC AGCTCAGGGG CCGCCTCCCC CATCAACCCT 
GCCGGGGCCC TTGAGTAG

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

RefSeq	XP_019665079.1
CDS	65..3742
Translation	MEPPVITEQSPRRLVVFPTDDISLKCEASGKPEVQFRWTRDGVHFKPKEELGVTVHQAPRSGSFTITGNNSNFAQRFQGIYRCFASNKLGTAMSHEIQLMAEGAPKWPKETVKPVEVEEGESVILPCHPPPSAEPLRIYWMNSKILHIKQDERVTMGQNGNLYFANVLTSDNHSDYICHAHFPGTRTIIQKEPIDLRVKATNSMIDRKPRLLFPTNSSSHLVALQGQPLVLECIAEGFPTPTIKWLRPSGPMPADRVTYQNHNKTLQLLNVMEEDDGEYRCLAENSLGSDRHTYYITVEAAPYWLHKPQSHLYGPGETARLDCQVQGRPQPEVTWRINGIPVEELAKDQKYRIQRGALILSNVQPSDTMVTQCEARNRHGLLLANAYIYVVQLPAKILTPDNETYMAVEGSTAYLLCKAFGAPVPSVQWLDKEGKTVLQDERFFPYTNGTLGIRDLQANDTGHYFCQAANDQNNVTVVANLQVKDATQITQGPQSAIEKKGSKVTFTCEASFDPSLQHSITWRGDGRNLQEFGDSDKYFIEDGRLVIHSLDYSDQGNYSCVAGTELDVVESRAELLVVGSPGPVPQLELSDRHLLKQSQVRLSWSPADDHNAPIEKYDIEFEDKEMAPQEWYSLGKVPGNQTSTTLKLSPYVHYTFRVTAINKYGPGEPSPASETVVTPEAAPEKNPVDVKGEGNETSNMVITWKPLRWMDWNAPQVQYRVQWRPQGTRGTWQEQIVSDPLLVVSNTSTFVPYEIKVQSVNSQGKGPEPQITIGYSGEDYPQASPELEGVKILNSSAVLVRWWPVDPAQVKGHLRGYNVTYWWEGSQRKHSKRHAHKSHVLVPANTTSAVLGGLRPYSSYRLEVQAFNGRGLGPASEMTFRTPEGVPGHPEALHLECQSDTSLLLHWQPPQLSHNGVLTGYVLSYHPLDDGDKEQLSFDLPDPELRTHNLTNLSPHLRYRFQLQATTKEGPGEAIVREGGTMALSGTPDFGNISAMAGENYSVVSWVPKEGQCNFGFQIWFKALGDEKMSPHLPPQYVSYNQSSYTQWDLQPDTDYEIHLLKERVLLKVAVKTNGTGnullnullnullnullVRLPAAGFAAEGWFIGFISAVILLFLVLLILCFIKRSKGGKYSVKDKEDTQVDSEARPMKDETFGEYSDNEEKAFGSSQPSLNGDIKPLGSDDSLADYGGSVDVQFNEDGSFIGQYSGKKEKEAAGGNDSSGAASPINPAGALE

Target ORF information:

RefSeq Version	XM_019809520.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca L1 cell adhesion molecule (L1CAM), mRNA.

Target ORF information:

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

XM_019809520.1

ORF Insert Sequence:

ATGGAGCCAC CTGTCATCAC AGAACAGTCT CCACGGCGCC TGGTCGTCTT CCCCACAGAT 
GACATCAGCC TCAAGTGTGA GGCCAGTGGC AAACCAGAAG TGCAGTTCCG CTGGACTCGG 
GACGGCGTCC ACTTCAAACC CAAGGAGGAA CTGGGTGTGA CCGTGCACCA GGCCCCACGT 
TCCGGCTCCT TCACCATCAC CGGCAACAAC AGCAACTTTG CCCAGAGGTT CCAGGGCATC 
TACCGCTGCT TTGCCAGCAA TAAGCTGGGC ACAGCCATGT CCCATGAGAT CCAGCTCATG 
GCCGAGGGTG CCCCCAAGTG GCCGAAAGAG ACAGTGAAGC CTGTGGAGGT GGAGGAAGGG 
GAGTCGGTGA TTCTGCCTTG CCACCCGCCG CCCAGTGCCG AGCCGCTCCG GATCTACTGG 
ATGAATAGCA AGATCTTGCA CATCAAGCAG GATGAGCGGG TGACAATGGG CCAGAACGGC 
AATCTCTACT TTGCCAACGT TCTCACCTCG GACAACCACT CAGACTACAT CTGCCATGCC 
CACTTCCCCG GCACCCGTAC CATCATTCAG AAGGAACCCA TTGACCTCCG GGTCAAGGCC 
ACCAACAGCA TGATTGACAG GAAGCCACGC CTGCTCTTCC CCACCAACTC CAGCAGCCAC 
CTGGTAGCCT TGCAGGGGCA GCCACTGGTC CTGGAATGCA TCGCTGAGGG CTTCCCCACC 
CCCACCATCA AGTGGCTGCG CCCGAGTGGC CCCATGCCAG CTGACCGAGT CACCTACCAG 
AATCACAACA AGACCCTGCA GCTGCTGAAC GTGATGGAGG AGGACGATGG CGAGTACCGG 
TGCCTGGCTG AGAACTCACT GGGCAGCGAC CGGCACACCT ACTACATCAC CGTGGAGGCT 
GCCCCCTACT GGCTCCACAA GCCCCAGAGC CATTTGTATG GGCCAGGAGA GACCGCCCGC 
CTGGACTGCC AAGTGCAGGG AAGGCCCCAA CCGGAAGTCA CCTGGAGAAT CAACGGGATT 
CCTGTAGAGG AACTGGCCAA AGACCAGAAG TACCGGATCC AGCGTGGGGC CCTGATCCTG 
AGCAATGTGC AGCCCAGCGA CACGATGGTG ACACAGTGCG AAGCCCGCAA CCGGCATGGA 
CTCCTGCTGG CCAATGCCTA CATCTATGTT GTTCAGCTTC CGGCCAAGAT CCTGACCCCA 
GACAACGAGA CCTACATGGC GGTCGAGGGC AGCACTGCCT ATCTTCTGTG CAAGGCTTTT 
GGAGCCCCTG TGCCCAGTGT CCAGTGGCTC GACAAGGAAG GGAAGACGGT GCTACAGGAC 
GAACGCTTCT TCCCCTACAC CAATGGGACC CTGGGCATCC GGGACCTCCA GGCCAATGAC 
ACTGGCCACT ACTTCTGCCA GGCTGCCAAT GACCAGAACA ATGTGACCGT TGTGGCTAAC 
CTGCAGGTCA AAGATGCCAC TCAGATCACA CAGGGGCCTC AGAGTGCAAT CGAGAAGAAA 
GGCTCAAAAG TGACTTTCAC GTGCGAGGCC TCCTTTGACC CCTCCTTGCA GCACAGCATC 
ACCTGGCGAG GAGACGGTCG AAACCTCCAG GAGTTTGGGG ACAGTGACAA GTACTTCATA 
GAGGACGGGC GCCTGGTCAT CCACAGTCTG GACTACAGTG ACCAGGGCAA CTACAGCTGC 
GTGGCTGGCA CCGAGCTGGA CGTGGTGGAG AGCAGGGCAG AGCTCCTGGT GGTGGGGAGC 
CCCGGGCCGG TGCCTCAGCT GGAGCTGTCT GACCGCCACC TGCTGAAGCA GAGCCAGGTG 
CGCCTGTCTT GGAGCCCCGC CGACGACCAT AACGCCCCCA TTGAGAAGTA TGACATTGAA 
TTTGAAGACA AGGAGATGGC GCCTCAGGAA TGGTATAGTC TGGGCAAGGT GCCCGGGAAC 
CAGACCTCCA CCACCCTCAA GCTATCGCCC TATGTGCACT ACACCTTTAG GGTTACTGCC 
ATCAACAAGT ACGGCCCTGG AGAGCCCAGC CCAGCCTCCG AGACTGTGGT CACACCTGAG 
GCAGCCCCAG AGAAGAACCC TGTGGACGTG AAGGGGGAAG GGAACGAGAC CAGCAACATG 
GTCATCACTT GGAAGCCCCT TAGGTGGATG GACTGGAATG CCCCCCAGGT TCAGTACCGT 
GTCCAGTGGC GCCCTCAGGG GACTCGGGGT ACCTGGCAGG AACAGATCGT GAGCGACCCC 
CTCCTGGTTG TGTCTAACAC CTCCACCTTT GTGCCTTATG AGATCAAAGT CCAGTCCGTC 
AACAGCCAGG GCAAGGGCCC TGAGCCCCAG ATTACCATTG GCTACTCGGG GGAAGACTAC 
CCCCAGGCAA GCCCTGAGCT GGAAGGCGTC AAGATCCTCA ACTCGAGTGC CGTGCTGGTC 
AGGTGGTGGC CCGTAGACCC AGCCCAGGTC AAGGGCCACC TCCGAGGATA CAACGTGACA 
TACTGGTGGG AGGGCAGTCA GAGGAAGCAC AGCAAAAGGC ACGCCCACAA AAGCCACGTG 
CTGGTGCCCG CCAACACGAC CAGTGCCGTC CTGGGAGGCC TGCGGCCCTA CAGCTCCTAC 
CGTCTGGAGG TGCAGGCCTT TAATGGCCGA GGACTGGGGC CCGCCAGCGA GATGACCTTC 
AGGACCCCAG AGGGAGTGCC TGGCCACCCT GAGGCATTGC ACCTGGAGTG CCAGTCGGAC 
ACCAGCCTGC TGTTGCACTG GCAGCCCCCG CAGCTCAGCC ACAACGGCGT GCTCACTGGC 
TACGTGCTCT CCTATCACCC TCTGGATGAC GGGGACAAGG AGCAGCTGTC CTTTGACCTT 
CCGGACCCCG AGCTGCGGAC GCACAACCTG ACCAACCTCA GCCCCCACCT GCGGTACCGC 
TTCCAGCTGC AGGCCACCAC GAAGGAGGGC CCCGGAGAGG CCATTGTGCG GGAGGGAGGC 
ACCATGGCCT TATCCGGGAC CCCGGATTTT GGCAACATCT CAGCCATGGC CGGCGAGAAT 
TACAGCGTGG TCTCCTGGGT TCCCAAGGAG GGCCAGTGCA ACTTTGGGTT CCAGATCTGG 
TTCAAAGCCC TGGGGGACGA GAAGATGAGC CCTCATCTGC CACCACAGTA TGTCAGCTAC 
AACCAGAGCT CCTACACGCA GTGGGACCTG CAGCCCGACA CCGACTATGA GATCCACCTG 
CTCAAGGAGA GGGTGCTCCT TAAGGTGGCC GTGAAGACCA ACGGCACCGG CTNNNNNNNN 
NGTGTGAGGC TCCCTGCCGC TGGCTTCGCC GCTGAGGGCT GGTTCATCGG CTTCATCAGC 
GCCGTCATTC TCTTGTTCCT TGTCTTGCTC ATCCTCTGCT TTATCAAACG CAGCAAAGGT 
GGCAAATACT CAGTGAAGGA TAAGGAGGAC ACCCAGGTGG ACTCCGAGGC CCGGCCGATG 
AAGGACGAGA CCTTCGGCGA GTACAGCGAC AACGAGGAGA AGGCCTTTGG CAGCAGCCAG 
CCATCCCTCA ATGGAGACAT CAAGCCCCTG GGCAGTGACG ACAGCCTGGC TGACTATGGG 
GGCAGCGTGG ACGTCCAATT CAATGAGGAC GGCTCCTTCA TTGGCCAATA CAGCGGCAAG 
AAGGAGAAGG AGGCGGCAGG AGGCAATGAC AGCTCAGGGG CCGCCTCCCC CATCAACCCT 
GCCGGGGCCC TTGAGTAG

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

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L1CAM cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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