LOC103845235 cDNA ORF clone, Brassica rapa(field mustard)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC103845235
Entrez Gene ID	103845235
Full Name	ubiquitin carboxyl-terminal hydrolase 23-like
Gene Type	protein-coding
Organism	Brassica rapa(field mustard)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009122065.2	XP_009120313.1	ubiquitin carboxyl-terminal hydrolase 23-like

Pathways from BioSystems
Gene Ontology

The following LOC103845235 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC103845235 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
OBr132181	XM_009122065.2 Latest version!	Brassica rapa ubiquitin carboxyl-terminal hydrolase 23-like (LOC103845235), 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)

LOC103845235 ( XM_009122065.2 ) cDNA ORF clone, Brassica rapa(field mustard) -> XP_009120313.1 Brassica rapa ubiquitin carboxyl-terminal hydrolase 23-like (LOC103845235), mRNA.

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CloneID	OBr132181
Clone ID Related Accession (Same CDS sequence)	XM_009122065.2
Accession Version	XM_009122065.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	2016-10-12
Organism	Brassica rapa(field mustard)
Product	ubiquitin carboxyl-terminal hydrolase 23-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_024804.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Oct 13, 2016 this sequence version replaced XM_009122065.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Brassica rapa Annotation Release 101 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##

ATGGAGATCC AGACGGATCA AGACGGATCT TGCGCCGCCG TTTCGTCCTC TTCCGCCTCC 
GCCGTTTTCA GAAAGATCGA GTTCCACCTC GCGAGGAAAC CCTTCAACGG CTTCTCTAGC 
CGCGGCTCCG ATTTCAAGAT GGAGACTTTG AATCCCTCCT CCTCTTCTAA CAACAGAGCC 
TTCTCGTTAT CGTCCGTTAA GAAGGTGGAC GGTCCCGATT CGTTGGATCG GGAGCTTACT 
TTCACCAAAA CCATCCGCAA AATCGGTGCT GGTTTGGAGA ATCTCGGGAA CACATGTTAT 
CTTAACTCTG TGTTGCAATG TTTGACGTAC ACTGAGCCTT TAGCTGCTTA CCTGCAAGAC 
GTCGCGCATG AGCAACGCTG CCGTGTGGCG GGGTTTTGTG CTTTATGTGC AATGCAGAGG 
CATGTCAGGA TTGCTCTTCA ATCTACTGGC AGAAGCTTAG CACCTAAGTA TTTGGTCTCT 
AACCTGCGAT GCGTATCACA AAACTTCAGG AAATGTAGGC AGGAAGATGC ACATGAGTAC 
ATGATCAATT TGCTGGAGTG TATGCACAAG TGTTGTCTGG CTTCTGGTGT ACCAAGTGAA 
TCCTCTGATG CTTACAGGAG CAGCTTGGTA CATAAAATTT TTGGTGGTAG CCTCCGTAGT 
CAGGTGAAAT GTGCACAGTG TTCCCATTGT TCCGACAAGT TTGATCCATT TCTTGACCTG 
AGCCTAGACA TTTCGAGGGC GGATTCATTG CAGAGAGCAC TTTTACGTTT CACTGCGGTT 
GAGCTCTTAG ATAATGGTTC AAAGGTTTAC CAGTGTGAAA GATGCAAGCA GAAAGTTAAG 
GCTGTTAAAC AGCTTACTGT TTTTAAAGCC CCTTCTGTTC TGACTGTACA CCTGAAGCGG 
TTTGAAGCGT ATAGATCCGA AAAAATCGAC AAGAAAGTCG AGTTTCCCCC TGCGATCGAC 
ATGAAACCTT TCGTCAGTGG TCCATATGAA GGTAATTTGA AGTACACTCT ATATGGTGTG 
TTAGTTCATT GTGGTGGAAG TATCCATTCT GGTCACTACT ACTGCTTTGT TCGCACTTCA 
AGTGGCATGT GGTATTCCCT TGATGATAAC GAGGTTATCC AAGCTAGTGA GAAGACTGTG 
TTCAACCAGA AGGCGTATAT GCTTTTCTAT GTTCGCGATA GACAAAATAC AGCCCCAAAG 
AATCCAGTTA CCGTGGCTAA GAAAGAAACT TCCAAAGAGA GCGTCGCCGT AAACAGAACT 
TCTTTGATTG TATCTTCTAA CAGAAATGAT CAAGTTAATG GTTCAACAGT CATCAAAGCA 
TGTAGTTTAA ACGCTACTGT TGCCAACGGT ACAACACCCT TGAGAGCGTG TGATAAAGGT 
TCGCCTGCTT GCTTGACCAC CCCAAAAGAT GTGAATGCGA AAGATCCCCC AAGCAGTGTG 
GAGGGGAAAG AGATCCTGGA GGGGCAAAAT GGTACAGCAC CTGTGAAATC AAATGATCAA 
GGTGCTCCTG CTGTCTTAAT TCAAAAAGAT AAAGAGAATC CGAAAGATCC CCTGAGCAGT 
GTGGAGGCAA AAGAGATCCT TAAGATGGAA AATAGTACAG CACCACCCTC GGAATCACGT 
GATCAAGGTG CTCCTGCTGT CCTTACCCAA AACGAGTTAA GCGTTGTTGC TGCCAATGTT 
ACATCACCCT TGAGGTCATG TGAACAAGGT GCTCCTGCTG TCTTGACTCC AAAAGATTTA 
AATGCCAAAG AGACTCAGAC AAATCCCCCA AGCAGTGTGG AGAGAAAAGA GAACCTTGAG 
AGACCCTGTG ATGTAGGTGC TCCTGTAGTC TTAACTCAGA AAGATTTAAT TAATAATAAC 
AAGACCCTTC AGAAGGAAGA GTCACTTCCA CAGGCTAATG GGGAAGGATC TTTGGTAAAG 
GAGGATTCAA AGGCTGCATG CACAATGATG CCAGGAAAGG CTTCTCCTCT CCTGGACGAC 
AGCACAAACA CTCAAATTCT TGTGAATTTG CCTACTTCTC TGGGTAAAGC TGAAAATAGC 
GTTGACGAGA AGAAATCTGC TAATAATTTG AACGAGTCTG ACACTTCACT TAAGGTTAAA 
AATGATAATT CACCTATGGA AGAAGCTGTT CTTGATAATC AGACTTTGGT ACATCAGTCG 
GATGAATCGG CAACAGAATC AATAAAGCAA ACTTCTGTTG AGGAGACCTT CACCACACCA 
AGAAAGACTC GCAAGCGTAA CATGAAAACC GTGCAGGTGG GGTTATCATC TTTCAAGCTG 
GCACTTGGCG TTCGCAAAAA AAGGGGAAGA TCAAGAACCT TAGCTGTTAA GGGTACTTCG 
GAGTCCAAGA AAAGAGCTAC AGATCTAGAG CGTTCCACTC CACTGATTAC TAGCAAAGCT 
GCTTCTTCTG GCTCTGCTTA CAAGCATGGG AAGGGTAAAA GTGTCAGTGT CGATAATGAA 
AGGATAATGA CTAGTAATGG GAATATGCTG CTTGCCTCTC CAATCGTAGA GCTGAAGGAG 
AGAACTAATC AAAATGGTGC CGTTCTTGCG TCAGACCAAC AACAACCGTT GAAGAGTTCG 
GACTTGTCTG AAGCAAGCCA AAACGCCAAA AGAAAGAGAG ACAATTCAAA AGAAGAACAA 
ATATTGTCAC AGAAAGAACA GGTGACCATT CTCACGAGGG GTTTGCCAGA GACCGTTGTT 
GCCAAATGGG ACGAGGAAGT TTCAGCTTCT AAGAAGATGG GAAGTAGTGA AGGCACGAGA 
ATTGGATATG TAGCAGATGA ATGGGATGAA GAATATGACA GAGGGAAGAA AAAGAAGATA 
CGGATCAAAG AGGAGATGTA TGTAGGGCCG AACCCGTTCC AGGCGTTTGC ATCGAAGAAA 
CAACAAACGG ATACAAAGAA GAAATGGTCA CAAGGCAGGA ATACTGCAAA GACAGGCTTC 
CGGATATGA

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

RefSeq	XP_009120313.1
CDS	226..3174
Translation	MEIQTDQDGSCAAVSSSSASAVFRKIEFHLARKPFNGFSSRGSDFKMETLNPSSSSNNRAFSLSSVKKVDGPDSLDRELTFTKTIRKIGAGLENLGNTCYLNSVLQCLTYTEPLAAYLQDVAHEQRCRVAGFCALCAMQRHVRIALQSTGRSLAPKYLVSNLRCVSQNFRKCRQEDAHEYMINLLECMHKCCLASGVPSESSDAYRSSLVHKIFGGSLRSQVKCAQCSHCSDKFDPFLDLSLDISRADSLQRALLRFTAVELLDNGSKVYQCERCKQKVKAVKQLTVFKAPSVLTVHLKRFEAYRSEKIDKKVEFPPAIDMKPFVSGPYEGNLKYTLYGVLVHCGGSIHSGHYYCFVRTSSGMWYSLDDNEVIQASEKTVFNQKAYMLFYVRDRQNTAPKNPVTVAKKETSKESVAVNRTSLIVSSNRNDQVNGSTVIKACSLNATVANGTTPLRACDKGSPACLTTPKDVNAKDPPSSVEGKEILEGQNGTAPVKSNDQGAPAVLIQKDKENPKDPLSSVEAKEILKMENSTAPPSESRDQGAPAVLTQNELSVVAANVTSPLRSCEQGAPAVLTPKDLNAKETQTNPPSSVERKENLERPCDVGAPVVLTQKDLINNNKTLQKEESLPQANGEGSLVKEDSKAACTMMPGKASPLLDDSTNTQILVNLPTSLGKAENSVDEKKSANNLNESDTSLKVKNDNSPMEEAVLDNQTLVHQSDESATESIKQTSVEETFTTPRKTRKRNMKTVQVGLSSFKLALGVRKKRGRSRTLAVKGTSESKKRATDLERSTPLITSKAASSGSAYKHGKGKSVSVDNERIMTSNGNMLLASPIVELKERTNQNGAVLASDQQQPLKSSDLSEASQNAKRKRDNSKEEQILSQKEQVTILTRGLPETVVAKWDEEVSASKKMGSSEGTRIGYVADEWDEEYDRGKKKKIRIKEEMYVGPNPFQAFASKKQQTDTKKKWSQGRNTAKTGFRI

Target ORF information:

RefSeq Version	XM_009122065.2
Organism	Brassica rapa(field mustard)
Definition	Brassica rapa ubiquitin carboxyl-terminal hydrolase 23-like (LOC103845235), mRNA.

Target ORF information:

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

XM_009122065.2

ORF Insert Sequence:

ATGGAGATCC AGACGGATCA AGACGGATCT TGCGCCGCCG TTTCGTCCTC TTCCGCCTCC 
GCCGTTTTCA GAAAGATCGA GTTCCACCTC GCGAGGAAAC CCTTCAACGG CTTCTCTAGC 
CGCGGCTCCG ATTTCAAGAT GGAGACTTTG AATCCCTCCT CCTCTTCTAA CAACAGAGCC 
TTCTCGTTAT CGTCCGTTAA GAAGGTGGAC GGTCCCGATT CGTTGGATCG GGAGCTTACT 
TTCACCAAAA CCATCCGCAA AATCGGTGCT GGTTTGGAGA ATCTCGGGAA CACATGTTAT 
CTTAACTCTG TGTTGCAATG TTTGACGTAC ACTGAGCCTT TAGCTGCTTA CCTGCAAGAC 
GTCGCGCATG AGCAACGCTG CCGTGTGGCG GGGTTTTGTG CTTTATGTGC AATGCAGAGG 
CATGTCAGGA TTGCTCTTCA ATCTACTGGC AGAAGCTTAG CACCTAAGTA TTTGGTCTCT 
AACCTGCGAT GCGTATCACA AAACTTCAGG AAATGTAGGC AGGAAGATGC ACATGAGTAC 
ATGATCAATT TGCTGGAGTG TATGCACAAG TGTTGTCTGG CTTCTGGTGT ACCAAGTGAA 
TCCTCTGATG CTTACAGGAG CAGCTTGGTA CATAAAATTT TTGGTGGTAG CCTCCGTAGT 
CAGGTGAAAT GTGCACAGTG TTCCCATTGT TCCGACAAGT TTGATCCATT TCTTGACCTG 
AGCCTAGACA TTTCGAGGGC GGATTCATTG CAGAGAGCAC TTTTACGTTT CACTGCGGTT 
GAGCTCTTAG ATAATGGTTC AAAGGTTTAC CAGTGTGAAA GATGCAAGCA GAAAGTTAAG 
GCTGTTAAAC AGCTTACTGT TTTTAAAGCC CCTTCTGTTC TGACTGTACA CCTGAAGCGG 
TTTGAAGCGT ATAGATCCGA AAAAATCGAC AAGAAAGTCG AGTTTCCCCC TGCGATCGAC 
ATGAAACCTT TCGTCAGTGG TCCATATGAA GGTAATTTGA AGTACACTCT ATATGGTGTG 
TTAGTTCATT GTGGTGGAAG TATCCATTCT GGTCACTACT ACTGCTTTGT TCGCACTTCA 
AGTGGCATGT GGTATTCCCT TGATGATAAC GAGGTTATCC AAGCTAGTGA GAAGACTGTG 
TTCAACCAGA AGGCGTATAT GCTTTTCTAT GTTCGCGATA GACAAAATAC AGCCCCAAAG 
AATCCAGTTA CCGTGGCTAA GAAAGAAACT TCCAAAGAGA GCGTCGCCGT AAACAGAACT 
TCTTTGATTG TATCTTCTAA CAGAAATGAT CAAGTTAATG GTTCAACAGT CATCAAAGCA 
TGTAGTTTAA ACGCTACTGT TGCCAACGGT ACAACACCCT TGAGAGCGTG TGATAAAGGT 
TCGCCTGCTT GCTTGACCAC CCCAAAAGAT GTGAATGCGA AAGATCCCCC AAGCAGTGTG 
GAGGGGAAAG AGATCCTGGA GGGGCAAAAT GGTACAGCAC CTGTGAAATC AAATGATCAA 
GGTGCTCCTG CTGTCTTAAT TCAAAAAGAT AAAGAGAATC CGAAAGATCC CCTGAGCAGT 
GTGGAGGCAA AAGAGATCCT TAAGATGGAA AATAGTACAG CACCACCCTC GGAATCACGT 
GATCAAGGTG CTCCTGCTGT CCTTACCCAA AACGAGTTAA GCGTTGTTGC TGCCAATGTT 
ACATCACCCT TGAGGTCATG TGAACAAGGT GCTCCTGCTG TCTTGACTCC AAAAGATTTA 
AATGCCAAAG AGACTCAGAC AAATCCCCCA AGCAGTGTGG AGAGAAAAGA GAACCTTGAG 
AGACCCTGTG ATGTAGGTGC TCCTGTAGTC TTAACTCAGA AAGATTTAAT TAATAATAAC 
AAGACCCTTC AGAAGGAAGA GTCACTTCCA CAGGCTAATG GGGAAGGATC TTTGGTAAAG 
GAGGATTCAA AGGCTGCATG CACAATGATG CCAGGAAAGG CTTCTCCTCT CCTGGACGAC 
AGCACAAACA CTCAAATTCT TGTGAATTTG CCTACTTCTC TGGGTAAAGC TGAAAATAGC 
GTTGACGAGA AGAAATCTGC TAATAATTTG AACGAGTCTG ACACTTCACT TAAGGTTAAA 
AATGATAATT CACCTATGGA AGAAGCTGTT CTTGATAATC AGACTTTGGT ACATCAGTCG 
GATGAATCGG CAACAGAATC AATAAAGCAA ACTTCTGTTG AGGAGACCTT CACCACACCA 
AGAAAGACTC GCAAGCGTAA CATGAAAACC GTGCAGGTGG GGTTATCATC TTTCAAGCTG 
GCACTTGGCG TTCGCAAAAA AAGGGGAAGA TCAAGAACCT TAGCTGTTAA GGGTACTTCG 
GAGTCCAAGA AAAGAGCTAC AGATCTAGAG CGTTCCACTC CACTGATTAC TAGCAAAGCT 
GCTTCTTCTG GCTCTGCTTA CAAGCATGGG AAGGGTAAAA GTGTCAGTGT CGATAATGAA 
AGGATAATGA CTAGTAATGG GAATATGCTG CTTGCCTCTC CAATCGTAGA GCTGAAGGAG 
AGAACTAATC AAAATGGTGC CGTTCTTGCG TCAGACCAAC AACAACCGTT GAAGAGTTCG 
GACTTGTCTG AAGCAAGCCA AAACGCCAAA AGAAAGAGAG ACAATTCAAA AGAAGAACAA 
ATATTGTCAC AGAAAGAACA GGTGACCATT CTCACGAGGG GTTTGCCAGA GACCGTTGTT 
GCCAAATGGG ACGAGGAAGT TTCAGCTTCT AAGAAGATGG GAAGTAGTGA AGGCACGAGA 
ATTGGATATG TAGCAGATGA ATGGGATGAA GAATATGACA GAGGGAAGAA AAAGAAGATA 
CGGATCAAAG AGGAGATGTA TGTAGGGCCG AACCCGTTCC AGGCGTTTGC ATCGAAGAAA 
CAACAAACGG ATACAAAGAA GAAATGGTCA CAAGGCAGGA ATACTGCAAA GACAGGCTTC 
CGGATATGA