LOC108153061 cDNA ORF clone, Drosophila miranda

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108153061
Entrez Gene ID	108153061
Full Name	tudor domain-containing protein 3
Gene Type	protein-coding
Organism	Drosophila miranda

mRNA and Protein(s)

mRNA	Protein	Name
XM_017282833.1	XP_017138322.1	tudor domain-containing protein 3

Pathways from BioSystems
Gene Ontology

The following LOC108153061 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108153061 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
ODr84036	XM_017282833.1 Latest version!	Drosophila miranda tudor domain-containing protein 3 (LOC108153061), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$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)

LOC108153061 ( XM_017282833.1 ) cDNA ORF clone, Drosophila miranda -> XP_017138322.1 Drosophila miranda tudor domain-containing protein 3 (LOC108153061), mRNA.

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CloneID	ODr84036
Clone ID Related Accession (Same CDS sequence)	XM_017282833.1
Accession Version	XM_017282833.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2565bp) 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	2016-06-15
Organism	Drosophila miranda
Product	tudor domain-containing protein 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030303.1) 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 :: Drosophila miranda Annotation Release 101 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##

ATGGAACTAG CCAGGAAATT GCGAGAAAGC GGCTGGCACC TTACGGACGA GGGCATCAAG 
ACTCTGACCG CCGCTGTCGG GGGTGAGGAC ACACGCAAAA TTATTGATGA GGCACTGAAC 
CGCGATATCC GCGATATTGG CGGTGGAGCT CTGCCAGTTA AGCGCGAGGA TGCCCCTATC 
TCCGGCCGCA TTGTCCTGCA GGTTCAGCGG GTTCGCAATA TCGCGGCCCC CAAATCCAAC 
GAAGAGTCAA AGGCGGCGCC ACGCCTCTTG CAACTGGACT TGAGCGATGG CCAGAATAGC 
ATACAGGGCC TGGAGTTGGA GTCGGTGCCG GCGCTCAATC TGAACGTGGC CCCAGGCTCA 
AAGATCTACT TCAAGGCGGA GAAGCTGCAA CTAATGCAGG GATTCCTGCT TCTGCGCCCA 
AACGAGCTGC AACTGCTGGG CGGTCGCGTT GATGCAATGT ACGAGAAGTG GGATCTGGCC 
CGCACCATGC TCAAATATGC CCGCAGCGGG CGCCCGTTGA ATGGGACGTC TGTGCCGCCC 
CCCTGGGTGG CCTTTGGCAA GAAATTCGAC TCGACGGCCG ACCGCAACTT CAGAAGCCAC 
GCCTTGGCCG ACAAGGATAA GCCGGCCAGA GAGAACGACG AGTTTAATGC CATGCGCAAC 
GAGGCCATTG CCGTGGCCAC CAAAGCCGGT GGCAAGAAGG TTTTTGGTGG AGGCGGCCAG 
AACATCGTGG ACCACAATAT CAAGAAGATT CTTGACAAGG GGTTCTCCGA GGAGGAGGCC 
AGAAGCGCTC TGCACGTCAC CCGCAACAAT CTGGAGCGGG CTCTGTTCAA CCTCAAGCGC 
CGCAAAGAAT CCGGCGGCGG GCCCATCGAA ATGGATGTGC GTCCCGGCCG CAGTGATCGG 
CACGGCAGAG AGGGCAAACG AGGTGCCAGC AGTAAGGATG AAGCACCCAA GCCAGCAGCC 
AATGCCACAC TCTTCGATTT TCTCACCACC AAACTGCCCG CAACGGAGGC AGGAACAAGC 
GTCACCGCCA CTGCCACCGA ATCCGCCTCC GCTGTCGCAT CCACTGCCAA CAGCTCAGTA 
TTTAAGCAAT ATGGCCCTCG ATTTGGGGAA TCTTCATCGG CTAACAAATT TTCAGATCGT 
TCTCGCTTCG AGAACAATGT CTCGAGCAGC TTTGCCGCCA ATCGTGGCGG ATACTCTGGC 
CCAGGGCGTG GCGGAGCCCG TAATCGAGGC GGTGGTCGAG ATGAACGTCC GCCCAGAGAA 
GAGCGGCCAC CACGAGATGA GCGTCCACGT CGGGAGGAGC GCCCTCCTAG AGACGAGCGT 
CCACCGCGGG ATCGTGGAGG TGCATTCAAT GAGCGCGGCA GTGCGCGCAA CAAGCCAGAA 
TCGGCTCCAA TCAAAAATTC CAATCGCAAT GGCCCAGAAA ATCCGCCAAT TAAAAGCAAT 
TCAGAGTTCA AAACTGAGCA CGAGGCTTCG ATTTCGAATG CCAAGGACCA ATCGGCCAAC 
AGGCGCGGTA GCGAGCGTCG CGGAGGAGGA GGAGGCGGCG GCGGCTCAGT CCGTGTTGAG 
AATGGCACTG GCAACAGACG CCGGCCGCAG CAGGCAAGCA GTTCGGGAGT TGGAGCCGGA 
ACCGGAGCCG GAACAGCCAA GCCAGACCCT AAGCAGCAGA ACAATTCGGG CGATGACTTC 
AATGCGCGCC TGAACAAAGT CACCGAGGAT ACTTCAAATC TTAAAGTGAG TGCCCCGAAG 
CGAGAGAGTC AACCGCGCCG TCAGCGAGGC CAGGGGCAGT CAAACCGCCA GTCAACGGAG 
CCTCCACAGA CAGCACAGTC TTCACAGCCC TCGCAGAAGT CGGAAAAGGC CCCGCAGACT 
CAGAGACAGC AGCATCAGAA CCATCAACCC CATTATAATC CATTCAAGCA ATCAATTGCC 
AACTACAGTC AATTGCCCAA CGGCTATACA TATGATCCCA GCAAGATAAT GGGTTTCCAG 
AGCAAGGAGA CGAACGAGTT CGCAATGAGC CTGCTAAAGA GTCAGGGCAC AGGAGCCACG 
GCTGTTTCAG CTGCTCCGGC TGCTTCGGCT TCTTCAGCTG GAGCAGCGGG GTCGAAGACA 
GTCAAAGATG TTCTGCAAGT GGCCAGTCAG CCGTCTCCAC CGTCGCTCTA TGCCGGCATC 
AATCCTCAGA CAAGGGCAGT GACTCCTGCA GCGGCAGCCC AACAGTTTGG AATGTTGCCC 
GGTGATGGGT GGATGTGGCA GAAGGGCGAC TTGTGCATGG CCAAGTACTG GGATGATGGA 
CGCTATTATG AGGCTGAGAT AACGGGTGTC ACGGAGAAAA CCTGTGTGGT CTTCTTTATG 
GGCTATGGAA ACCACGAGGA GGTCCTCAAC GGTGACATTC TCCCCATCAC GGATGCCCAG 
AACAGGCCCC TGAGCAATGT GCAGCATTGT GCACCGCCGC CGCCACTGCA GGAGCAGCAC 
CAGCCCCAGC ATCACAATCA GCAGCAGCAG CACTCGCGCT ACCGCAGCGA TCGCCAGGCC 
CAGCAACAGC AGGTATATGT GCCGCCGCAC AAAAGAGAGC ATTGA

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

RefSeq	XP_017138322.1
CDS	89..2653
Translation	MELARKLRESGWHLTDEGIKTLTAAVGGEDTRKIIDEALNRDIRDIGGGALPVKREDAPISGRIVLQVQRVRNIAAPKSNEESKAAPRLLQLDLSDGQNSIQGLELESVPALNLNVAPGSKIYFKAEKLQLMQGFLLLRPNELQLLGGRVDAMYEKWDLARTMLKYARSGRPLNGTSVPPPWVAFGKKFDSTADRNFRSHALADKDKPARENDEFNAMRNEAIAVATKAGGKKVFGGGGQNIVDHNIKKILDKGFSEEEARSALHVTRNNLERALFNLKRRKESGGGPIEMDVRPGRSDRHGREGKRGASSKDEAPKPAANATLFDFLTTKLPATEAGTSVTATATESASAVASTANSSVFKQYGPRFGESSSANKFSDRSRFENNVSSSFAANRGGYSGPGRGGARNRGGGRDERPPREERPPRDERPRREERPPRDERPPRDRGGAFNERGSARNKPESAPIKNSNRNGPENPPIKSNSEFKTEHEASISNAKDQSANRRGSERRGGGGGGGGSVRVENGTGNRRRPQQASSSGVGAGTGAGTAKPDPKQQNNSGDDFNARLNKVTEDTSNLKVSAPKRESQPRRQRGQGQSNRQSTEPPQTAQSSQPSQKSEKAPQTQRQQHQNHQPHYNPFKQSIANYSQLPNGYTYDPSKIMGFQSKETNEFAMSLLKSQGTGATAVSAAPAASASSAGAAGSKTVKDVLQVASQPSPPSLYAGINPQTRAVTPAAAAQQFGMLPGDGWMWQKGDLCMAKYWDDGRYYEAEITGVTEKTCVVFFMGYGNHEEVLNGDILPITDAQNRPLSNVQHCAPPPPLQEQHQPQHHNQQQQHSRYRSDRQAQQQQVYVPPHKREH

Target ORF information:

RefSeq Version	XM_017282833.1
Organism	Drosophila miranda
Definition	Drosophila miranda tudor domain-containing protein 3 (LOC108153061), mRNA.

Target ORF information:

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

XM_017282833.1

ORF Insert Sequence:

ATGGAACTAG CCAGGAAATT GCGAGAAAGC GGCTGGCACC TTACGGACGA GGGCATCAAG 
ACTCTGACCG CCGCTGTCGG GGGTGAGGAC ACACGCAAAA TTATTGATGA GGCACTGAAC 
CGCGATATCC GCGATATTGG CGGTGGAGCT CTGCCAGTTA AGCGCGAGGA TGCCCCTATC 
TCCGGCCGCA TTGTCCTGCA GGTTCAGCGG GTTCGCAATA TCGCGGCCCC CAAATCCAAC 
GAAGAGTCAA AGGCGGCGCC ACGCCTCTTG CAACTGGACT TGAGCGATGG CCAGAATAGC 
ATACAGGGCC TGGAGTTGGA GTCGGTGCCG GCGCTCAATC TGAACGTGGC CCCAGGCTCA 
AAGATCTACT TCAAGGCGGA GAAGCTGCAA CTAATGCAGG GATTCCTGCT TCTGCGCCCA 
AACGAGCTGC AACTGCTGGG CGGTCGCGTT GATGCAATGT ACGAGAAGTG GGATCTGGCC 
CGCACCATGC TCAAATATGC CCGCAGCGGG CGCCCGTTGA ATGGGACGTC TGTGCCGCCC 
CCCTGGGTGG CCTTTGGCAA GAAATTCGAC TCGACGGCCG ACCGCAACTT CAGAAGCCAC 
GCCTTGGCCG ACAAGGATAA GCCGGCCAGA GAGAACGACG AGTTTAATGC CATGCGCAAC 
GAGGCCATTG CCGTGGCCAC CAAAGCCGGT GGCAAGAAGG TTTTTGGTGG AGGCGGCCAG 
AACATCGTGG ACCACAATAT CAAGAAGATT CTTGACAAGG GGTTCTCCGA GGAGGAGGCC 
AGAAGCGCTC TGCACGTCAC CCGCAACAAT CTGGAGCGGG CTCTGTTCAA CCTCAAGCGC 
CGCAAAGAAT CCGGCGGCGG GCCCATCGAA ATGGATGTGC GTCCCGGCCG CAGTGATCGG 
CACGGCAGAG AGGGCAAACG AGGTGCCAGC AGTAAGGATG AAGCACCCAA GCCAGCAGCC 
AATGCCACAC TCTTCGATTT TCTCACCACC AAACTGCCCG CAACGGAGGC AGGAACAAGC 
GTCACCGCCA CTGCCACCGA ATCCGCCTCC GCTGTCGCAT CCACTGCCAA CAGCTCAGTA 
TTTAAGCAAT ATGGCCCTCG ATTTGGGGAA TCTTCATCGG CTAACAAATT TTCAGATCGT 
TCTCGCTTCG AGAACAATGT CTCGAGCAGC TTTGCCGCCA ATCGTGGCGG ATACTCTGGC 
CCAGGGCGTG GCGGAGCCCG TAATCGAGGC GGTGGTCGAG ATGAACGTCC GCCCAGAGAA 
GAGCGGCCAC CACGAGATGA GCGTCCACGT CGGGAGGAGC GCCCTCCTAG AGACGAGCGT 
CCACCGCGGG ATCGTGGAGG TGCATTCAAT GAGCGCGGCA GTGCGCGCAA CAAGCCAGAA 
TCGGCTCCAA TCAAAAATTC CAATCGCAAT GGCCCAGAAA ATCCGCCAAT TAAAAGCAAT 
TCAGAGTTCA AAACTGAGCA CGAGGCTTCG ATTTCGAATG CCAAGGACCA ATCGGCCAAC 
AGGCGCGGTA GCGAGCGTCG CGGAGGAGGA GGAGGCGGCG GCGGCTCAGT CCGTGTTGAG 
AATGGCACTG GCAACAGACG CCGGCCGCAG CAGGCAAGCA GTTCGGGAGT TGGAGCCGGA 
ACCGGAGCCG GAACAGCCAA GCCAGACCCT AAGCAGCAGA ACAATTCGGG CGATGACTTC 
AATGCGCGCC TGAACAAAGT CACCGAGGAT ACTTCAAATC TTAAAGTGAG TGCCCCGAAG 
CGAGAGAGTC AACCGCGCCG TCAGCGAGGC CAGGGGCAGT CAAACCGCCA GTCAACGGAG 
CCTCCACAGA CAGCACAGTC TTCACAGCCC TCGCAGAAGT CGGAAAAGGC CCCGCAGACT 
CAGAGACAGC AGCATCAGAA CCATCAACCC CATTATAATC CATTCAAGCA ATCAATTGCC 
AACTACAGTC AATTGCCCAA CGGCTATACA TATGATCCCA GCAAGATAAT GGGTTTCCAG 
AGCAAGGAGA CGAACGAGTT CGCAATGAGC CTGCTAAAGA GTCAGGGCAC AGGAGCCACG 
GCTGTTTCAG CTGCTCCGGC TGCTTCGGCT TCTTCAGCTG GAGCAGCGGG GTCGAAGACA 
GTCAAAGATG TTCTGCAAGT GGCCAGTCAG CCGTCTCCAC CGTCGCTCTA TGCCGGCATC 
AATCCTCAGA CAAGGGCAGT GACTCCTGCA GCGGCAGCCC AACAGTTTGG AATGTTGCCC 
GGTGATGGGT GGATGTGGCA GAAGGGCGAC TTGTGCATGG CCAAGTACTG GGATGATGGA 
CGCTATTATG AGGCTGAGAT AACGGGTGTC ACGGAGAAAA CCTGTGTGGT CTTCTTTATG 
GGCTATGGAA ACCACGAGGA GGTCCTCAAC GGTGACATTC TCCCCATCAC GGATGCCCAG 
AACAGGCCCC TGAGCAATGT GCAGCATTGT GCACCGCCGC CGCCACTGCA GGAGCAGCAC 
CAGCCCCAGC ATCACAATCA GCAGCAGCAG CACTCGCGCT ACCGCAGCGA TCGCCAGGCC 
CAGCAACAGC AGGTATATGT GCCGCCGCAC AAAAGAGAGC ATTGA