SMC1A cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	SMC1A
Entrez Gene ID	100483784
Full Name	structural maintenance of chromosomes 1A
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002926787.3	XP_002926833.1	structural maintenance of chromosomes protein 1A

Pathways from BioSystems
Gene Ontology

The following SMC1A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMC1A 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
OAc13889	XM_002926787.3 Latest version!	Ailuropoda melanoleuca structural maintenance of chromosomes 1A (SMC1A), 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)

SMC1A ( XM_002926787.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002926833.1 Ailuropoda melanoleuca structural maintenance of chromosomes 1A (SMC1A), mRNA.

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CloneID	OAc13889
Clone ID Related Accession (Same CDS sequence)	XM_002926787.3
Accession Version	XM_002926787.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3702bp) 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	structural maintenance of chromosomes protein 1A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218451.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002926787.2. ##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##

ATGGGTTTCC TGAAACTGAT TGAGATCGAG AACTTTAAGT CGTACAAGGG TCGGCAGATT 
ATCGGACCGT TTCAGAGGTT CACCGCCATC ATTGGACCCA ATGGCTCTGG TAAGTCAAAT 
CTCATGGATG CGATCAGCTT TGTGTTGGGT GAGAAAACCA GCAACCTTCG AGTAAAGACC 
CTGAGGGACT TGATCCATGG AGCTCCTGTG GGCAAGCCAG CTGCCAACCG GGCCTTTGTC 
AGCATGGTCT ACTCTGAAGA GGGTGCTGAG GACCGCACCT TTGCCCGTGT CATTGTTGGG 
GGTTCCTCTG AGTACAAGAT CAACAACAAA GTGGTCCAGC TACATGAATA CAGTGAGGAA 
TTAGAGAAGT TGGGCATTCT CATCAAAGCT CGTAACTTCC TCGTCTTCCA GGGAGCTGTG 
GAATCTATTG CCATGAAGAA CCCCAAAGAG AGAACAGCTT TATTTGAAGA GATCAGTCGC 
TCTGGGGAGC TGGCCCAGGA ATATGACAAG CGAAAGAAGG AAATGGTGAA AGCTGAAGAG 
GACACACAGT TTAATTACCA TCGCAAAAAA AACATTGCGG CTGAACGCAA GGAGGCCAAA 
CAGGAGAAAG AGGAGGCTGA CCGCTACCAG CGCCTGAAGG ATGAGGTGGT GCGAGCTCAG 
GTGCAGCTGC AGCTCTTTAA GCTTTATCAC AACGAAGTGG AAATTGAGAA GCTCAATAAG 
GAACTGGCCT CTAAGAACAA GGAGATCGAG AAGGACAAGA AGCGAATGGA CAAGGTAGAG 
GATGAGCTGA AGGAGAAGAA GAAGGAGCTG GGCAAAATGA TGCGGGAGCA GCAGCAGATT 
GAGAAGGAGA TCAAGGAGAA GGACTCAGAG CTGAACCAGA AGCGTCCTCA GTATATCAAA 
GCCAAGGAGA ATACCTCCCA CAAAATCAAG AAGCTGGAAG CAGCCAAGAA GTCCTTACAG 
AATGCTCAGA AGCATTACAA GAAGCGTAAA GGTGATATGG ATGAGCTGGA AAAGGAGATG 
CTGTCAGTAG AGAAAGCCCG GCAGGAGTTT GAGGAACGGA TGGAAGAGGA GAGTCAGAGT 
CAGGGCAGAG ACTTGACCTT GGAGGAAAAT CAGGTGAAGA AATACCACAG GTTGAAAGAA 
GAAGCCAGCA AGAGAGCAGC TACCTTGGCC CAGGAGCTGG AGAAGTTCAA TAGAGATCAG 
AAAGCTGACC AGGACCGGCT GGATCTGGAA GAGCGGAAGA AAGTAGAGAC AGAGGCCAAG 
ATCAAGCAAA AGCTGCGGGA GATTGAAGAG AATCAGAAAC GGATTGAGAA ACTAGAGGAA 
TACATCACCA CTAGCAAGCA GTCCCTAGAG GAGCAGAAGA AGTTGGAGGG GGAGCTGACA 
GAGGAGGTGG AGATGGCCAA GCGGCGTATT GATGAGATCA ATAAAGAACT GAACCAGGTG 
ATGGAACAGC TGGGGGATGC CCGTATCGAC CGGCAGGAGA GCAGCCGCCA ACAGCGAAAG 
GCAGAGATTA TGGAAAGCAT CAAGCGCCTG TACCCTGGCT CTGTGTATGG CCGGCTCATT 
GACCTCTGTC AGCCCACACA AAAAAAGTAT CAGATTGCTG TAACCAAAGT TTTGGGCAAG 
AACATGGATG CTATTATCGT GGACTCTGAG AAGACAGGCC GGGACTGTAT TCAGTACATC 
AAAGAACAGC GTGGGGAGCC TGAGACCTTC TTGCCTCTTG ACTACCTGGA GGTGAAACCT 
ACAGATGAGA AACTCCGGGA ACTGAAGGGG GCCAAGCTGG TGATTGATGT GATTCGCTAT 
GAGCCACCCC ACATCAAAAA GGCCCTGCAG TATGCTTGTG GCAATGCCCT CGTCTGTGAC 
AATGTGGAGG ATGCTCGCCG CATTGCCTTT GGAGGCCACC AGCGTCACAA GACAGTGGCA 
CTGGATGGGA CCCTGTTCCA GAAGTCAGGG GTGATCTCTG GTGGGGCCAG TGACTTAAAG 
GCCAAGGCTC GGCGCTGGGA CGAGAAAGCA GTAGATAAGT TGAAAGAAAA GAAGGAGCGG 
TTGACAGAGG AGCTGAAAGA GCAGATGAAG GCGAAGCGGA AAGAGGCAGA GCTACGTCAG 
GTGCAGTCTC AGGCCCATGG ACTGCAGATG CGGCTCAAGT ACTCGCAGAG TGACCTGGAA 
CAGACCAAGA CACGACATCT AGCTCTGAAT CTACAGGAAA AGTCCAAACT GGAGAGTGAG 
CTAGCCAACT TTGGGCCTCG CATTAATGAT ATCAAGAGGA TCATCCAGAG CCGTGAGAGG 
GAAATGAAAG ACTTGAAAGA AAAGATGAAC CAGGTAGAGG ATGAGGTGTT TGAAGAGTTT 
TGTCGGGAGA TTGGTGTGCG CAACATCCGG GAGTTTGAGG AAGAGAAGGT GAAGCGGCAG 
AATGAAATTG CCAAGAAGCG TTTGGAGTTT GAGAATCAGA AGACTCGCTT GGGCATCCAG 
TTGGATTTTG AAAAGAACCA ACTGAAAGAG GACCAGGATA AAGTACACAT GTGGGAGCAG 
ACAGTGAAAA AGGATGAAAA TGAGATAGAA AAGCTCAAGA AGGAGGAGCA AAGACACATG 
AAGATCATAG ATGAGACCAT GGCCCAGCTA CAAGACCTGA AGAATCAGCA CCTGGCCAAG 
AAGTCGGAGG TGAATGACAA GAATCATGAG ATGGAGGAGA TTCGTAAGAA ACTGGGGGGC 
GCCAACAAGG AAATGACCCA TTTACAGAAG GAGGTAACAG CCATTGAGAC CAAGCTGGAA 
CAGAAACGCA GTGACCGCCA CAACCTGCTA CAGGCTTGCA AGATGCAGGA TATCAAGTTG 
CCACTGTCTA AGGGCACCAT GGATGACATT AGTCAGGAAG AGGGTAGCTC CCAGGGGGAG 
GATTCAGTGA GTGGTTCCCA GCGAACTTCG AGCATCTATG CACGAGAGGC CCTGATTGAG 
ATTGACTACG GTGACCTGTG TGAAGATCTA AAGGATGCCC AGGCTGAGGA GGAGATCAAA 
CAGGAGATGA ACACACTGCA GCAGAAGCTG AATGAGCAGC AAAGTGTACT CCAGCGTATT 
GCTGCACCGA ATATGAAAGC CATGGAGAAG CTGGAAAGTG TCCGAGACAA GTTCCAGGAG 
ACCTCAGACG AGTTTGAGGC AGCCCGAAAG CGAGCCAAGA AAGCCAAGCA GGCATTCGAA 
CAGATCAAGA AAGAGCGCTT TGACCGCTTC AATGCTTGTT TTGAATCTGT GGCCACCAAC 
ATCGATGAGA TCTACAAGGC CCTATCCCGC AACAGCAGTG CTCAGGCATT CCTGGGCCCC 
GAGAACCCCG AGGAGCCCTA CCTGGATGGC ATCAACTACA ACTGTGTGGC TCCTGGCAAA 
CGTTTCCGGC CTATGGACAA CTTGTCAGGG GGGGAGAAAA CAGTGGCAGC TCTGGCCTTG 
CTCTTTGCCA TCCACAGCTA CAAGCCAGCC CCCTTCTTCG TCCTGGATGA GATCGATGCT 
GCCCTGGATA ACACCAACAT TGGCAAGGTG GCAAATTACA TCAAGGAGCA GTCGACTTGC 
AACTTCCAGG CCATCGTCAT CTCTCTCAAG GAGGAGTTCT ACACCAAGGC TGAGAGCCTC 
ATTGGAGTCT ACCCCGAGCA AGGGGACTGT GTGATCAGCA AAGTCCTGAC CTTCGACCTC 
ACCAAGTACC CAGATGCCAA CCCCAACCCC AATGAGCAGT AG

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

RefSeq	XP_002926833.1
CDS	95..3796
Translation	MGFLKLIEIENFKSYKGRQIIGPFQRFTAIIGPNGSGKSNLMDAISFVLGEKTSNLRVKTLRDLIHGAPVGKPAANRAFVSMVYSEEGAEDRTFARVIVGGSSEYKINNKVVQLHEYSEELEKLGILIKARNFLVFQGAVESIAMKNPKERTALFEEISRSGELAQEYDKRKKEMVKAEEDTQFNYHRKKNIAAERKEAKQEKEEADRYQRLKDEVVRAQVQLQLFKLYHNEVEIEKLNKELASKNKEIEKDKKRMDKVEDELKEKKKELGKMMREQQQIEKEIKEKDSELNQKRPQYIKAKENTSHKIKKLEAAKKSLQNAQKHYKKRKGDMDELEKEMLSVEKARQEFEERMEEESQSQGRDLTLEENQVKKYHRLKEEASKRAATLAQELEKFNRDQKADQDRLDLEERKKVETEAKIKQKLREIEENQKRIEKLEEYITTSKQSLEEQKKLEGELTEEVEMAKRRIDEINKELNQVMEQLGDARIDRQESSRQQRKAEIMESIKRLYPGSVYGRLIDLCQPTQKKYQIAVTKVLGKNMDAIIVDSEKTGRDCIQYIKEQRGEPETFLPLDYLEVKPTDEKLRELKGAKLVIDVIRYEPPHIKKALQYACGNALVCDNVEDARRIAFGGHQRHKTVALDGTLFQKSGVISGGASDLKAKARRWDEKAVDKLKEKKERLTEELKEQMKAKRKEAELRQVQSQAHGLQMRLKYSQSDLEQTKTRHLALNLQEKSKLESELANFGPRINDIKRIIQSREREMKDLKEKMNQVEDEVFEEFCREIGVRNIREFEEEKVKRQNEIAKKRLEFENQKTRLGIQLDFEKNQLKEDQDKVHMWEQTVKKDENEIEKLKKEEQRHMKIIDETMAQLQDLKNQHLAKKSEVNDKNHEMEEIRKKLGGANKEMTHLQKEVTAIETKLEQKRSDRHNLLQACKMQDIKLPLSKGTMDDISQEEGSSQGEDSVSGSQRTSSIYAREALIEIDYGDLCEDLKDAQAEEEIKQEMNTLQQKLNEQQSVLQRIAAPNMKAMEKLESVRDKFQETSDEFEAARKRAKKAKQAFEQIKKERFDRFNACFESVATNIDEIYKALSRNSSAQAFLGPENPEEPYLDGINYNCVAPGKRFRPMDNLSGGEKTVAALALLFAIHSYKPAPFFVLDEIDAALDNTNIGKVANYIKEQSTCNFQAIVISLKEEFYTKAESLIGVYPEQGDCVISKVLTFDLTKYPDANPNPNEQ

Target ORF information:

RefSeq Version	XM_002926787.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca structural maintenance of chromosomes 1A (SMC1A), mRNA.

Target ORF information:

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

XM_002926787.3

ORF Insert Sequence:

ATGGGTTTCC TGAAACTGAT TGAGATCGAG AACTTTAAGT CGTACAAGGG TCGGCAGATT 
ATCGGACCGT TTCAGAGGTT CACCGCCATC ATTGGACCCA ATGGCTCTGG TAAGTCAAAT 
CTCATGGATG CGATCAGCTT TGTGTTGGGT GAGAAAACCA GCAACCTTCG AGTAAAGACC 
CTGAGGGACT TGATCCATGG AGCTCCTGTG GGCAAGCCAG CTGCCAACCG GGCCTTTGTC 
AGCATGGTCT ACTCTGAAGA GGGTGCTGAG GACCGCACCT TTGCCCGTGT CATTGTTGGG 
GGTTCCTCTG AGTACAAGAT CAACAACAAA GTGGTCCAGC TACATGAATA CAGTGAGGAA 
TTAGAGAAGT TGGGCATTCT CATCAAAGCT CGTAACTTCC TCGTCTTCCA GGGAGCTGTG 
GAATCTATTG CCATGAAGAA CCCCAAAGAG AGAACAGCTT TATTTGAAGA GATCAGTCGC 
TCTGGGGAGC TGGCCCAGGA ATATGACAAG CGAAAGAAGG AAATGGTGAA AGCTGAAGAG 
GACACACAGT TTAATTACCA TCGCAAAAAA AACATTGCGG CTGAACGCAA GGAGGCCAAA 
CAGGAGAAAG AGGAGGCTGA CCGCTACCAG CGCCTGAAGG ATGAGGTGGT GCGAGCTCAG 
GTGCAGCTGC AGCTCTTTAA GCTTTATCAC AACGAAGTGG AAATTGAGAA GCTCAATAAG 
GAACTGGCCT CTAAGAACAA GGAGATCGAG AAGGACAAGA AGCGAATGGA CAAGGTAGAG 
GATGAGCTGA AGGAGAAGAA GAAGGAGCTG GGCAAAATGA TGCGGGAGCA GCAGCAGATT 
GAGAAGGAGA TCAAGGAGAA GGACTCAGAG CTGAACCAGA AGCGTCCTCA GTATATCAAA 
GCCAAGGAGA ATACCTCCCA CAAAATCAAG AAGCTGGAAG CAGCCAAGAA GTCCTTACAG 
AATGCTCAGA AGCATTACAA GAAGCGTAAA GGTGATATGG ATGAGCTGGA AAAGGAGATG 
CTGTCAGTAG AGAAAGCCCG GCAGGAGTTT GAGGAACGGA TGGAAGAGGA GAGTCAGAGT 
CAGGGCAGAG ACTTGACCTT GGAGGAAAAT CAGGTGAAGA AATACCACAG GTTGAAAGAA 
GAAGCCAGCA AGAGAGCAGC TACCTTGGCC CAGGAGCTGG AGAAGTTCAA TAGAGATCAG 
AAAGCTGACC AGGACCGGCT GGATCTGGAA GAGCGGAAGA AAGTAGAGAC AGAGGCCAAG 
ATCAAGCAAA AGCTGCGGGA GATTGAAGAG AATCAGAAAC GGATTGAGAA ACTAGAGGAA 
TACATCACCA CTAGCAAGCA GTCCCTAGAG GAGCAGAAGA AGTTGGAGGG GGAGCTGACA 
GAGGAGGTGG AGATGGCCAA GCGGCGTATT GATGAGATCA ATAAAGAACT GAACCAGGTG 
ATGGAACAGC TGGGGGATGC CCGTATCGAC CGGCAGGAGA GCAGCCGCCA ACAGCGAAAG 
GCAGAGATTA TGGAAAGCAT CAAGCGCCTG TACCCTGGCT CTGTGTATGG CCGGCTCATT 
GACCTCTGTC AGCCCACACA AAAAAAGTAT CAGATTGCTG TAACCAAAGT TTTGGGCAAG 
AACATGGATG CTATTATCGT GGACTCTGAG AAGACAGGCC GGGACTGTAT TCAGTACATC 
AAAGAACAGC GTGGGGAGCC TGAGACCTTC TTGCCTCTTG ACTACCTGGA GGTGAAACCT 
ACAGATGAGA AACTCCGGGA ACTGAAGGGG GCCAAGCTGG TGATTGATGT GATTCGCTAT 
GAGCCACCCC ACATCAAAAA GGCCCTGCAG TATGCTTGTG GCAATGCCCT CGTCTGTGAC 
AATGTGGAGG ATGCTCGCCG CATTGCCTTT GGAGGCCACC AGCGTCACAA GACAGTGGCA 
CTGGATGGGA CCCTGTTCCA GAAGTCAGGG GTGATCTCTG GTGGGGCCAG TGACTTAAAG 
GCCAAGGCTC GGCGCTGGGA CGAGAAAGCA GTAGATAAGT TGAAAGAAAA GAAGGAGCGG 
TTGACAGAGG AGCTGAAAGA GCAGATGAAG GCGAAGCGGA AAGAGGCAGA GCTACGTCAG 
GTGCAGTCTC AGGCCCATGG ACTGCAGATG CGGCTCAAGT ACTCGCAGAG TGACCTGGAA 
CAGACCAAGA CACGACATCT AGCTCTGAAT CTACAGGAAA AGTCCAAACT GGAGAGTGAG 
CTAGCCAACT TTGGGCCTCG CATTAATGAT ATCAAGAGGA TCATCCAGAG CCGTGAGAGG 
GAAATGAAAG ACTTGAAAGA AAAGATGAAC CAGGTAGAGG ATGAGGTGTT TGAAGAGTTT 
TGTCGGGAGA TTGGTGTGCG CAACATCCGG GAGTTTGAGG AAGAGAAGGT GAAGCGGCAG 
AATGAAATTG CCAAGAAGCG TTTGGAGTTT GAGAATCAGA AGACTCGCTT GGGCATCCAG 
TTGGATTTTG AAAAGAACCA ACTGAAAGAG GACCAGGATA AAGTACACAT GTGGGAGCAG 
ACAGTGAAAA AGGATGAAAA TGAGATAGAA AAGCTCAAGA AGGAGGAGCA AAGACACATG 
AAGATCATAG ATGAGACCAT GGCCCAGCTA CAAGACCTGA AGAATCAGCA CCTGGCCAAG 
AAGTCGGAGG TGAATGACAA GAATCATGAG ATGGAGGAGA TTCGTAAGAA ACTGGGGGGC 
GCCAACAAGG AAATGACCCA TTTACAGAAG GAGGTAACAG CCATTGAGAC CAAGCTGGAA 
CAGAAACGCA GTGACCGCCA CAACCTGCTA CAGGCTTGCA AGATGCAGGA TATCAAGTTG 
CCACTGTCTA AGGGCACCAT GGATGACATT AGTCAGGAAG AGGGTAGCTC CCAGGGGGAG 
GATTCAGTGA GTGGTTCCCA GCGAACTTCG AGCATCTATG CACGAGAGGC CCTGATTGAG 
ATTGACTACG GTGACCTGTG TGAAGATCTA AAGGATGCCC AGGCTGAGGA GGAGATCAAA 
CAGGAGATGA ACACACTGCA GCAGAAGCTG AATGAGCAGC AAAGTGTACT CCAGCGTATT 
GCTGCACCGA ATATGAAAGC CATGGAGAAG CTGGAAAGTG TCCGAGACAA GTTCCAGGAG 
ACCTCAGACG AGTTTGAGGC AGCCCGAAAG CGAGCCAAGA AAGCCAAGCA GGCATTCGAA 
CAGATCAAGA AAGAGCGCTT TGACCGCTTC AATGCTTGTT TTGAATCTGT GGCCACCAAC 
ATCGATGAGA TCTACAAGGC CCTATCCCGC AACAGCAGTG CTCAGGCATT CCTGGGCCCC 
GAGAACCCCG AGGAGCCCTA CCTGGATGGC ATCAACTACA ACTGTGTGGC TCCTGGCAAA 
CGTTTCCGGC CTATGGACAA CTTGTCAGGG GGGGAGAAAA CAGTGGCAGC TCTGGCCTTG 
CTCTTTGCCA TCCACAGCTA CAAGCCAGCC CCCTTCTTCG TCCTGGATGA GATCGATGCT 
GCCCTGGATA ACACCAACAT TGGCAAGGTG GCAAATTACA TCAAGGAGCA GTCGACTTGC 
AACTTCCAGG CCATCGTCAT CTCTCTCAAG GAGGAGTTCT ACACCAAGGC TGAGAGCCTC 
ATTGGAGTCT ACCCCGAGCA AGGGGACTGT GTGATCAGCA AAGTCCTGAC CTTCGACCTC 
ACCAAGTACC CAGATGCCAA CCCCAACCCC AATGAGCAGT AG

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

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SMC1A cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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