TRIM33 cDNA ORF clone, Loxodonta africana(African savanna elephant)

Gene
Clones
gRNAs

Summary

Gene Symbol	TRIM33
Entrez Gene ID	100676787
Full Name	tripartite motif containing 33
Gene Type	protein-coding
Organism	Loxodonta africana(African savanna elephant)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010589680.1	XP_010587982.1	LOW QUALITY PROTEIN: E3 ubiquitin-protein ligase TRIM33
XM_010589680.2	XP_010587982.1	LOW QUALITY PROTEIN: E3 ubiquitin-protein ligase TRIM33

Pathways from BioSystems
Gene Ontology

The following TRIM33 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TRIM33 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)
OLo38838	XM_010589680.2 Latest version!	Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
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OLo38838	XM_010589680.1	Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
Hide Old Accession Versions >>

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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)

TRIM33 ( XM_010589680.1 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_010587982.1 Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.

Price & Availability↑

CloneID	OLo38838
Clone ID Related Accession (Same CDS sequence)	XM_010589680.1 , XM_010589680.2
Accession Version	XM_010589680.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3780bp) 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	1418140800000
Organism	Loxodonta africana(African savanna elephant)
Product	LOW QUALITY PROTEIN: E3 ubiquitin-protein ligase TRIM33
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573431.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Loxodonta africana Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 14% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGGGCTGG CCAAAGACAA GGGAGCAGAG TTGCCTTTCC AGTTGACCTG GAACATGGAG 
CTGAAGTCCA CCCAGAATCC AGAAGGTATG GCCAACACTC AAGAGTCTAG TGGGCAGGGC 
CACTGTTTAG ATGGTCTCAG AGAAGGCCTA TTCAACCTAT TTCTGGAAGG CCCCCCAGAT 
TTGGGGCCTC AGTTAAAAAA AAAAAAAAAA AACAACTCGC CTCACGGCTC CCCTGAGCTA 
CAGCCAACGA AAGGAACGCG GCCGGTTAAG GCACAGAGAT CCATTCAGGA GAGCGGCGCC 
TCCCGGAGCC AGAAGGCCCC GACGTCCGAC CGCGCGGCAG GTGAGGCTTC CGCAGAGACG 
CTACGGCCGC CAAAAGCCGG CCACCACCGA CGGCCTCTAG CTTTAAAACC CCACTGCAAG 
CTGACCGCAG GCAACGCGGA CCCAACTAAC CGGCCACGGA GGTCGGGAGA GGCCGCAAGC 
CCGGTTCTGC GCCCACGCGG GGGCCCCGCT CCCCCCGCCT CCGGAGGACG TGGTTGCGAG 
CAAGGCTACA AAGCAGCGTT GGAGATCGGC GTGGCTGAGC CCGACGACGC GGTAGTGGCC 
GCGACCTCTC TGGGTTCGGC CCCGGCTGCC TCAGCCCATG CGACCTCAGC GAACCCCGGA 
GTTCCCGGGG GGGCGGAGTC GACGCCGGCC CCAGCTCCAG CCTCTGCTCC CGCTCCGGGT 
CCCTCGGCTG GGCCGCCGCC TGGACCGCCA GCCTCGCTCC TGGACACCTG CGCCGTGTGT 
CAGCAGAGCC TGCAGAGCCG GCGTGAGGCG GAGCCCAAGC TGCTGCCCTG TCTTCACTCC 
TTCTGCCTGC GTTGCCTGCC CGAGCCGGAG CGCCAGCTCA GCGTGCCCAT CCCGGGGGGC 
AGCAACGGCG ACATCCAGCA AGTTGGTGTA ATACGGTGCC CAGTATGCCG CCAAGAATGC 
AGACAAATAG ACCTTGTGGA TAATTATTTT GTGAAAGATA CATCTGAAGC TCCTAGCAGT 
TCTGATGAGA AATCAGAACA GGTATGTACT AGTTGTGAAG ATAATGCCAG TGCAGTTGGC 
TTTTGTGTAG AATGTGGAGA GTGGCTATGT AAGACGTGTA TAGAAGCACA TCAGAGAGTA 
AAATTCACTA AAGATCACCT GATCAGGAAA AAAGAAGATG TTTCAGAGTC TGTTGGAACA 
TCTGGTCAGC GCCCTGTTTT CTGCCCTGTA CACAAACAAG AACAGTTGAA ACTATTCTGT 
GAAACATGTG ATAGACTGAC ATGTAGAGAC TGCCAGCTAT TGGAACACAA AGAACATAGG 
TATCAGTTTT TGGAAGAAGC TTTTCAAAAT CAGAAAGGTG CAATTGAGAA TCTACTGGCT 
AAGCTTCTTG AAAAGAAGAA TTATGTTCAT TTTGCAGCCA CTCAGGTGCA GAATAGGATA 
AAAGAAGTTA ATGAGACTAA CAAACGAGTA GAACAGGAAA TTAAAGTGGC CATTTTCACC 
CTTATCAATG AAATTAATAA GAAGGGAAAA TCTCTCTTAC AGCAGCTAGA GAATGTTACA 
AAAGAAAGAC AGATGAAGTT AATACAGCAG CAGAATGACA TCACAGGCCT TTCCCGGCAG 
GTGAAGCATG TTATGAACTT TACAAACTGG GCAATTGCAA GTGGAAGCAG TACGGCACTA 
CTGTACAGCA AGAGACTGAT TACTTTTCAG TTGCGTCATA TCTTGAAAGC ACGGTGTGAT 
CCTGTCCCTG CTGCTAACGG AGCAATACGT TTCCATTGTG ATCCCACCTT CTGGGCAAAG 
AATGTAGTTA ATTTAGGTAA TCTAGTAATA GAGAGTAAAC CAGCTCCTGG TTATACTCCT 
AATGTTGTAG TTGGGCAAGT TCCTCCAGGG ACAAACCACA TTAGTAAAAC TCCTGGACAG 
ATTAACTTAG CACAGCTTCG ACTCCAGCAC ATGCAGCAAC AAGTATATGC ACAGAAACAT 
CAGCAGCTGC AACAGATGAG GATGCAGCAA CCACCAGCAC CTGTACCAAC AACCACAGCA 
ACAACCCAGC AGCATCCCAG GCAAGCAGCC CCTCAGATGT TACAACAACA GCCTCCAAGA 
TTGATCAGTG TACAGACAAT GCAAAGAGGC AATATAAACT GTGGAGCTTT CCAGGCCCAT 
CAGATGAGAA TGGCTCAGAA TGCTGCCCGA ATACCAGGGA TACCCAGACA CAGTGGCCCT 
CAATATTCCA TGATGCAGCC GCACCTCCAA AGACAACACT CAAATCCAGG GCATGCTGGA 
CCCTTTCCTG TTGTATCAGT GCACAACACC ACAATCAACC CAACCAGCCC TACTATAGCT 
ACCATGGCAA ACGCAAACCG AGGTCCCACC AGCCCATCTG TTACAGCAAT AGAGCTTATC 
CCCTCAGTTA CCAATCCAGA AAACCTTCCG TCACTGCCAG ATATTCCGCC CATACAGTTG 
GAAGACGCTG GTTCAAGTAG TTTAGATAAT CTACTAAGCA GATATATCTC AGGCAGCCAC 
TTACCCCCAC AGCCTACAAG CACCATGAAT CCTTCCCCAG GACCCTCTGC CCTGTCTCCC 
GGATCATCAG GTTTATCTAA TTCTCACACA CCTGTGAGAC CCCCTAGTAC CTCTAGTACT 
GGCAGTCGAG GCAGCTGTGG GTCATCAGGG AGAACTGCCG AGAAGACAAG TCTTAGTTTC 
AAATCTGATC AAGTGAAGGT CAAGCAAGAA CCTGGGACTG AGGACGAAAT ATGTAGCTTT 
TCAGGAGCTG TGAAACAAGA AAAGACAGAG GATGGCAGGA GGAGTGCCTG CATGTTGAGC 
AGTCCCGAGA GTAGCTTGAC ACCACCTCTC TCAACCAACC TGCATCTAGA GAGTGAGTTG 
GATGCATTAG CAAGCTTGGA AAACCATGTG AAAACTGAAC CTACGGATAT GAGTGAAAGC 
TGCAAACAGT CAGGGCTCAG CAGCCTTGTT AATGGAAAAT CCCCAGTTCG AAGCCTCATG 
CACAGGTCGG CAAGGATTGG AGGAGATGGC AGCAACAAAG ATGATGACCC AAATGAAGAC 
TGGTGTGCTG TCTGCCAAAA TGGAGGGGAT CTCTTGTGCT GCGAAAAATG TCCAAAGGTC 
TTTCATCTAA CTTGTCATGT TCCAACACTT CTTAGCTTTC CAAGTGGGGA CTGGATATGC 
ACATTTTGCA GAGATATTGG GAAACCAGAA GTTGAATATG ATTGTGATAA TTTACAACAT 
AGTAAGAAGG GGAAAACTGC ACAGGGGTTA AGCCCCGTGG ACCAAAGGAA ATGTGAACGT 
CTTCTGCTTT ACCTCTATTG CCATGAATTA AGTATCGAAT TCCAGGAACC AGTTCCTGCT 
TCGATACCAA ACTACTATAA AATTATAAAG AAACCAATGG ATTTATCCAC CGTGAAAAAG 
AAGCTTCAGA AAAAACATTC CCAACACTAC CAAATCCCAG ATGACTTTGT GGCTGATGTC 
CGTTTGATCT TCAAGAACTG TGAAAGGTTT AATGAAATGA TGAAAGTTGT TCAAGTTTAT 
GCAGAAACAC AAGAGATTAA TTTGAAGGCT GATTCAGAAG TAGCTCAGGC AGGGAAAGCA 
GTTGCATTGT ACTTTGAAGA TAAACTCACA GAGATCTACT CAGACAGGAC CTTCGCACCT 
TTGCCAGAGT TTGATCAGGA AGAGGATGAT GGCGAGGTAA CTGAGGACTC TGATGAAGAC 
TTTATACAGC CCCGCAGAAA ACGCCTAAAG TCAGATGAGA GACCAGTACA TATAAAGTAA

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

RefSeq	XP_010587982.1
CDS	1..3780
Translation	MGLAKDKGAELPFQLTWNMELKSTQNPEGMANTQESSGQGHCLDGLREGLFNLFLEGPPDLGPQLKKKKKNNSPHGSPELQPTKGTRPVKAQRSIQESGASRSQKAPTSDRAAGEASAETLRPPKAGHHRRPLALKPHCKLTAGNADPTNRPRRSGEAASPVLRPRGGPAPPASGGRGCEQGYKAALEIGVAEPDDAVVAATSLGSAPAASAHATSANPGVPGGAESTPAPAPASAPAPGPSAGPPPGPPASLLDTCAVCQQSLQSRREAEPKLLPCLHSFCLRCLPEPERQLSVPIPGGSNGDIQQVGVIRCPVCRQECRQIDLVDNYFVKDTSEAPSSSDEKSEQVCTSCEDNASAVGFCVECGEWLCKTCIEAHQRVKFTKDHLIRKKEDVSESVGTSGQRPVFCPVHKQEQLKLFCETCDRLTCRDCQLLEHKEHRYQFLEEAFQNQKGAIENLLAKLLEKKNYVHFAATQVQNRIKEVNETNKRVEQEIKVAIFTLINEINKKGKSLLQQLENVTKERQMKLIQQQNDITGLSRQVKHVMNFTNWAIASGSSTALLYSKRLITFQLRHILKARCDPVPAANGAIRFHCDPTFWAKNVVNLGNLVIESKPAPGYTPNVVVGQVPPGTNHISKTPGQINLAQLRLQHMQQQVYAQKHQQLQQMRMQQPPAPVPTTTATTQQHPRQAAPQMLQQQPPRLISVQTMQRGNINCGAFQAHQMRMAQNAARIPGIPRHSGPQYSMMQPHLQRQHSNPGHAGPFPVVSVHNTTINPTSPTIATMANANRGPTSPSVTAIELIPSVTNPENLPSLPDIPPIQLEDAGSSSLDNLLSRYISGSHLPPQPTSTMNPSPGPSALSPGSSGLSNSHTPVRPPSTSSTGSRGSCGSSGRTAEKTSLSFKSDQVKVKQEPGTEDEICSFSGAVKQEKTEDGRRSACMLSSPESSLTPPLSTNLHLESELDALASLENHVKTEPTDMSESCKQSGLSSLVNGKSPVRSLMHRSARIGGDGSNKDDDPNEDWCAVCQNGGDLLCCEKCPKVFHLTCHVPTLLSFPSGDWICTFCRDIGKPEVEYDCDNLQHSKKGKTAQGLSPVDQRKCERLLLYLYCHELSIEFQEPVPASIPNYYKIIKKPMDLSTVKKKLQKKHSQHYQIPDDFVADVRLIFKNCERFNEMMKVVQVYAETQEINLKADSEVAQAGKAVALYFEDKLTEIYSDRTFAPLPEFDQEEDDGEVTEDSDEDFIQPRRKRLKSDERPVHIK

Target ORF information:

RefSeq Version	XM_010589680.1
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.

Target ORF information:

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

XM_010589680.1

ORF Insert Sequence:

ATGGGGCTGG CCAAAGACAA GGGAGCAGAG TTGCCTTTCC AGTTGACCTG GAACATGGAG 
CTGAAGTCCA CCCAGAATCC AGAAGGTATG GCCAACACTC AAGAGTCTAG TGGGCAGGGC 
CACTGTTTAG ATGGTCTCAG AGAAGGCCTA TTCAACCTAT TTCTGGAAGG CCCCCCAGAT 
TTGGGGCCTC AGTTAAAAAA AAAAAAAAAA AACAACTCGC CTCACGGCTC CCCTGAGCTA 
CAGCCAACGA AAGGAACGCG GCCGGTTAAG GCACAGAGAT CCATTCAGGA GAGCGGCGCC 
TCCCGGAGCC AGAAGGCCCC GACGTCCGAC CGCGCGGCAG GTGAGGCTTC CGCAGAGACG 
CTACGGCCGC CAAAAGCCGG CCACCACCGA CGGCCTCTAG CTTTAAAACC CCACTGCAAG 
CTGACCGCAG GCAACGCGGA CCCAACTAAC CGGCCACGGA GGTCGGGAGA GGCCGCAAGC 
CCGGTTCTGC GCCCACGCGG GGGCCCCGCT CCCCCCGCCT CCGGAGGACG TGGTTGCGAG 
CAAGGCTACA AAGCAGCGTT GGAGATCGGC GTGGCTGAGC CCGACGACGC GGTAGTGGCC 
GCGACCTCTC TGGGTTCGGC CCCGGCTGCC TCAGCCCATG CGACCTCAGC GAACCCCGGA 
GTTCCCGGGG GGGCGGAGTC GACGCCGGCC CCAGCTCCAG CCTCTGCTCC CGCTCCGGGT 
CCCTCGGCTG GGCCGCCGCC TGGACCGCCA GCCTCGCTCC TGGACACCTG CGCCGTGTGT 
CAGCAGAGCC TGCAGAGCCG GCGTGAGGCG GAGCCCAAGC TGCTGCCCTG TCTTCACTCC 
TTCTGCCTGC GTTGCCTGCC CGAGCCGGAG CGCCAGCTCA GCGTGCCCAT CCCGGGGGGC 
AGCAACGGCG ACATCCAGCA AGTTGGTGTA ATACGGTGCC CAGTATGCCG CCAAGAATGC 
AGACAAATAG ACCTTGTGGA TAATTATTTT GTGAAAGATA CATCTGAAGC TCCTAGCAGT 
TCTGATGAGA AATCAGAACA GGTATGTACT AGTTGTGAAG ATAATGCCAG TGCAGTTGGC 
TTTTGTGTAG AATGTGGAGA GTGGCTATGT AAGACGTGTA TAGAAGCACA TCAGAGAGTA 
AAATTCACTA AAGATCACCT GATCAGGAAA AAAGAAGATG TTTCAGAGTC TGTTGGAACA 
TCTGGTCAGC GCCCTGTTTT CTGCCCTGTA CACAAACAAG AACAGTTGAA ACTATTCTGT 
GAAACATGTG ATAGACTGAC ATGTAGAGAC TGCCAGCTAT TGGAACACAA AGAACATAGG 
TATCAGTTTT TGGAAGAAGC TTTTCAAAAT CAGAAAGGTG CAATTGAGAA TCTACTGGCT 
AAGCTTCTTG AAAAGAAGAA TTATGTTCAT TTTGCAGCCA CTCAGGTGCA GAATAGGATA 
AAAGAAGTTA ATGAGACTAA CAAACGAGTA GAACAGGAAA TTAAAGTGGC CATTTTCACC 
CTTATCAATG AAATTAATAA GAAGGGAAAA TCTCTCTTAC AGCAGCTAGA GAATGTTACA 
AAAGAAAGAC AGATGAAGTT AATACAGCAG CAGAATGACA TCACAGGCCT TTCCCGGCAG 
GTGAAGCATG TTATGAACTT TACAAACTGG GCAATTGCAA GTGGAAGCAG TACGGCACTA 
CTGTACAGCA AGAGACTGAT TACTTTTCAG TTGCGTCATA TCTTGAAAGC ACGGTGTGAT 
CCTGTCCCTG CTGCTAACGG AGCAATACGT TTCCATTGTG ATCCCACCTT CTGGGCAAAG 
AATGTAGTTA ATTTAGGTAA TCTAGTAATA GAGAGTAAAC CAGCTCCTGG TTATACTCCT 
AATGTTGTAG TTGGGCAAGT TCCTCCAGGG ACAAACCACA TTAGTAAAAC TCCTGGACAG 
ATTAACTTAG CACAGCTTCG ACTCCAGCAC ATGCAGCAAC AAGTATATGC ACAGAAACAT 
CAGCAGCTGC AACAGATGAG GATGCAGCAA CCACCAGCAC CTGTACCAAC AACCACAGCA 
ACAACCCAGC AGCATCCCAG GCAAGCAGCC CCTCAGATGT TACAACAACA GCCTCCAAGA 
TTGATCAGTG TACAGACAAT GCAAAGAGGC AATATAAACT GTGGAGCTTT CCAGGCCCAT 
CAGATGAGAA TGGCTCAGAA TGCTGCCCGA ATACCAGGGA TACCCAGACA CAGTGGCCCT 
CAATATTCCA TGATGCAGCC GCACCTCCAA AGACAACACT CAAATCCAGG GCATGCTGGA 
CCCTTTCCTG TTGTATCAGT GCACAACACC ACAATCAACC CAACCAGCCC TACTATAGCT 
ACCATGGCAA ACGCAAACCG AGGTCCCACC AGCCCATCTG TTACAGCAAT AGAGCTTATC 
CCCTCAGTTA CCAATCCAGA AAACCTTCCG TCACTGCCAG ATATTCCGCC CATACAGTTG 
GAAGACGCTG GTTCAAGTAG TTTAGATAAT CTACTAAGCA GATATATCTC AGGCAGCCAC 
TTACCCCCAC AGCCTACAAG CACCATGAAT CCTTCCCCAG GACCCTCTGC CCTGTCTCCC 
GGATCATCAG GTTTATCTAA TTCTCACACA CCTGTGAGAC CCCCTAGTAC CTCTAGTACT 
GGCAGTCGAG GCAGCTGTGG GTCATCAGGG AGAACTGCCG AGAAGACAAG TCTTAGTTTC 
AAATCTGATC AAGTGAAGGT CAAGCAAGAA CCTGGGACTG AGGACGAAAT ATGTAGCTTT 
TCAGGAGCTG TGAAACAAGA AAAGACAGAG GATGGCAGGA GGAGTGCCTG CATGTTGAGC 
AGTCCCGAGA GTAGCTTGAC ACCACCTCTC TCAACCAACC TGCATCTAGA GAGTGAGTTG 
GATGCATTAG CAAGCTTGGA AAACCATGTG AAAACTGAAC CTACGGATAT GAGTGAAAGC 
TGCAAACAGT CAGGGCTCAG CAGCCTTGTT AATGGAAAAT CCCCAGTTCG AAGCCTCATG 
CACAGGTCGG CAAGGATTGG AGGAGATGGC AGCAACAAAG ATGATGACCC AAATGAAGAC 
TGGTGTGCTG TCTGCCAAAA TGGAGGGGAT CTCTTGTGCT GCGAAAAATG TCCAAAGGTC 
TTTCATCTAA CTTGTCATGT TCCAACACTT CTTAGCTTTC CAAGTGGGGA CTGGATATGC 
ACATTTTGCA GAGATATTGG GAAACCAGAA GTTGAATATG ATTGTGATAA TTTACAACAT 
AGTAAGAAGG GGAAAACTGC ACAGGGGTTA AGCCCCGTGG ACCAAAGGAA ATGTGAACGT 
CTTCTGCTTT ACCTCTATTG CCATGAATTA AGTATCGAAT TCCAGGAACC AGTTCCTGCT 
TCGATACCAA ACTACTATAA AATTATAAAG AAACCAATGG ATTTATCCAC CGTGAAAAAG 
AAGCTTCAGA AAAAACATTC CCAACACTAC CAAATCCCAG ATGACTTTGT GGCTGATGTC 
CGTTTGATCT TCAAGAACTG TGAAAGGTTT AATGAAATGA TGAAAGTTGT TCAAGTTTAT 
GCAGAAACAC AAGAGATTAA TTTGAAGGCT GATTCAGAAG TAGCTCAGGC AGGGAAAGCA 
GTTGCATTGT ACTTTGAAGA TAAACTCACA GAGATCTACT CAGACAGGAC CTTCGCACCT 
TTGCCAGAGT TTGATCAGGA AGAGGATGAT GGCGAGGTAA CTGAGGACTC TGATGAAGAC 
TTTATACAGC CCCGCAGAAA ACGCCTAAAG TCAGATGAGA GACCAGTACA TATAAAGTAA

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

TRIM33 ( XM_010589680.2 ) cDNA ORF clone, Loxodonta africana(African savanna elephant) -> XP_010587982.1 Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.

Price & Availability↑

CloneID	OLo38838
Clone ID Related Accession (Same CDS sequence)	XM_010589680.1 , XM_010589680.2
Accession Version	XM_010589680.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3780bp) 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	1515945600000
Organism	Loxodonta africana(African savanna elephant)
Product	LOW QUALITY PROTEIN: E3 ubiquitin-protein ligase TRIM33
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003573431.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jan 16, 2018 this sequence version replaced XM_010589680.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Loxodonta africana Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 14% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGGGGCTGG CCAAAGACAA GGGAGCAGAG TTGCCTTTCC AGTTGACCTG GAACATGGAG 
CTGAAGTCCA CCCAGAATCC AGAAGGTATG GCCAACACTC AAGAGTCTAG TGGGCAGGGC 
CACTGTTTAG ATGGTCTCAG AGAAGGCCTA TTCAACCTAT TTCTGGAAGG CCCCCCAGAT 
TTGGGGCCTC AGTTAAAAAA AAAAAAAAAA AACAACTCGC CTCACGGCTC CCCTGAGCTA 
CAGCCAACGA AAGGAACGCG GCCGGTTAAG GCACAGAGAT CCATTCAGGA GAGCGGCGCC 
TCCCGGAGCC AGAAGGCCCC GACGTCCGAC CGCGCGGCAG GTGAGGCTTC CGCAGAGACG 
CTACGGCCGC CAAAAGCCGG CCACCACCGA CGGCCTCTAG CTTTAAAACC CCACTGCAAG 
CTGACCGCAG GCAACGCGGA CCCAACTAAC CGGCCACGGA GGTCGGGAGA GGCCGCAAGC 
CCGGTTCTGC GCCCACGCGG GGGCCCCGCT CCCCCCGCCT CCGGAGGACG TGGTTGCGAG 
CAAGGCTACA AAGCAGCGTT GGAGATCGGC GTGGCTGAGC CCGACGACGC GGTAGTGGCC 
GCGACCTCTC TGGGTTCGGC CCCGGCTGCC TCAGCCCATG CGACCTCAGC GAACCCCGGA 
GTTCCCGGGG GGGCGGAGTC GACGCCGGCC CCAGCTCCAG CCTCTGCTCC CGCTCCGGGT 
CCCTCGGCTG GGCCGCCGCC TGGACCGCCA GCCTCGCTCC TGGACACCTG CGCCGTGTGT 
CAGCAGAGCC TGCAGAGCCG GCGTGAGGCG GAGCCCAAGC TGCTGCCCTG TCTTCACTCC 
TTCTGCCTGC GTTGCCTGCC CGAGCCGGAG CGCCAGCTCA GCGTGCCCAT CCCGGGGGGC 
AGCAACGGCG ACATCCAGCA AGTTGGTGTA ATACGGTGCC CAGTATGCCG CCAAGAATGC 
AGACAAATAG ACCTTGTGGA TAATTATTTT GTGAAAGATA CATCTGAAGC TCCTAGCAGT 
TCTGATGAGA AATCAGAACA GGTATGTACT AGTTGTGAAG ATAATGCCAG TGCAGTTGGC 
TTTTGTGTAG AATGTGGAGA GTGGCTATGT AAGACGTGTA TAGAAGCACA TCAGAGAGTA 
AAATTCACTA AAGATCACCT GATCAGGAAA AAAGAAGATG TTTCAGAGTC TGTTGGAACA 
TCTGGTCAGC GCCCTGTTTT CTGCCCTGTA CACAAACAAG AACAGTTGAA ACTATTCTGT 
GAAACATGTG ATAGACTGAC ATGTAGAGAC TGCCAGCTAT TGGAACACAA AGAACATAGG 
TATCAGTTTT TGGAAGAAGC TTTTCAAAAT CAGAAAGGTG CAATTGAGAA TCTACTGGCT 
AAGCTTCTTG AAAAGAAGAA TTATGTTCAT TTTGCAGCCA CTCAGGTGCA GAATAGGATA 
AAAGAAGTTA ATGAGACTAA CAAACGAGTA GAACAGGAAA TTAAAGTGGC CATTTTCACC 
CTTATCAATG AAATTAATAA GAAGGGAAAA TCTCTCTTAC AGCAGCTAGA GAATGTTACA 
AAAGAAAGAC AGATGAAGTT AATACAGCAG CAGAATGACA TCACAGGCCT TTCCCGGCAG 
GTGAAGCATG TTATGAACTT TACAAACTGG GCAATTGCAA GTGGAAGCAG TACGGCACTA 
CTGTACAGCA AGAGACTGAT TACTTTTCAG TTGCGTCATA TCTTGAAAGC ACGGTGTGAT 
CCTGTCCCTG CTGCTAACGG AGCAATACGT TTCCATTGTG ATCCCACCTT CTGGGCAAAG 
AATGTAGTTA ATTTAGGTAA TCTAGTAATA GAGAGTAAAC CAGCTCCTGG TTATACTCCT 
AATGTTGTAG TTGGGCAAGT TCCTCCAGGG ACAAACCACA TTAGTAAAAC TCCTGGACAG 
ATTAACTTAG CACAGCTTCG ACTCCAGCAC ATGCAGCAAC AAGTATATGC ACAGAAACAT 
CAGCAGCTGC AACAGATGAG GATGCAGCAA CCACCAGCAC CTGTACCAAC AACCACAGCA 
ACAACCCAGC AGCATCCCAG GCAAGCAGCC CCTCAGATGT TACAACAACA GCCTCCAAGA 
TTGATCAGTG TACAGACAAT GCAAAGAGGC AATATAAACT GTGGAGCTTT CCAGGCCCAT 
CAGATGAGAA TGGCTCAGAA TGCTGCCCGA ATACCAGGGA TACCCAGACA CAGTGGCCCT 
CAATATTCCA TGATGCAGCC GCACCTCCAA AGACAACACT CAAATCCAGG GCATGCTGGA 
CCCTTTCCTG TTGTATCAGT GCACAACACC ACAATCAACC CAACCAGCCC TACTATAGCT 
ACCATGGCAA ACGCAAACCG AGGTCCCACC AGCCCATCTG TTACAGCAAT AGAGCTTATC 
CCCTCAGTTA CCAATCCAGA AAACCTTCCG TCACTGCCAG ATATTCCGCC CATACAGTTG 
GAAGACGCTG GTTCAAGTAG TTTAGATAAT CTACTAAGCA GATATATCTC AGGCAGCCAC 
TTACCCCCAC AGCCTACAAG CACCATGAAT CCTTCCCCAG GACCCTCTGC CCTGTCTCCC 
GGATCATCAG GTTTATCTAA TTCTCACACA CCTGTGAGAC CCCCTAGTAC CTCTAGTACT 
GGCAGTCGAG GCAGCTGTGG GTCATCAGGG AGAACTGCCG AGAAGACAAG TCTTAGTTTC 
AAATCTGATC AAGTGAAGGT CAAGCAAGAA CCTGGGACTG AGGACGAAAT ATGTAGCTTT 
TCAGGAGCTG TGAAACAAGA AAAGACAGAG GATGGCAGGA GGAGTGCCTG CATGTTGAGC 
AGTCCCGAGA GTAGCTTGAC ACCACCTCTC TCAACCAACC TGCATCTAGA GAGTGAGTTG 
GATGCATTAG CAAGCTTGGA AAACCATGTG AAAACTGAAC CTACGGATAT GAGTGAAAGC 
TGCAAACAGT CAGGGCTCAG CAGCCTTGTT AATGGAAAAT CCCCAGTTCG AAGCCTCATG 
CACAGGTCGG CAAGGATTGG AGGAGATGGC AGCAACAAAG ATGATGACCC AAATGAAGAC 
TGGTGTGCTG TCTGCCAAAA TGGAGGGGAT CTCTTGTGCT GCGAAAAATG TCCAAAGGTC 
TTTCATCTAA CTTGTCATGT TCCAACACTT CTTAGCTTTC CAAGTGGGGA CTGGATATGC 
ACATTTTGCA GAGATATTGG GAAACCAGAA GTTGAATATG ATTGTGATAA TTTACAACAT 
AGTAAGAAGG GGAAAACTGC ACAGGGGTTA AGCCCCGTGG ACCAAAGGAA ATGTGAACGT 
CTTCTGCTTT ACCTCTATTG CCATGAATTA AGTATCGAAT TCCAGGAACC AGTTCCTGCT 
TCGATACCAA ACTACTATAA AATTATAAAG AAACCAATGG ATTTATCCAC CGTGAAAAAG 
AAGCTTCAGA AAAAACATTC CCAACACTAC CAAATCCCAG ATGACTTTGT GGCTGATGTC 
CGTTTGATCT TCAAGAACTG TGAAAGGTTT AATGAAATGA TGAAAGTTGT TCAAGTTTAT 
GCAGAAACAC AAGAGATTAA TTTGAAGGCT GATTCAGAAG TAGCTCAGGC AGGGAAAGCA 
GTTGCATTGT ACTTTGAAGA TAAACTCACA GAGATCTACT CAGACAGGAC CTTCGCACCT 
TTGCCAGAGT TTGATCAGGA AGAGGATGAT GGCGAGGTAA CTGAGGACTC TGATGAAGAC 
TTTATACAGC CCCGCAGAAA ACGCCTAAAG TCAGATGAGA GACCAGTACA TATAAAGTAA

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

RefSeq	XP_010587982.1
CDS	1..3780
Translation	MGLAKDKGAELPFQLTWNMELKSTQNPEGMANTQESSGQGHCLDGLREGLFNLFLEGPPDLGPQLKKKKKNNSPHGSPELQPTKGTRPVKAQRSIQESGASRSQKAPTSDRAAGEASAETLRPPKAGHHRRPLALKPHCKLTAGNADPTNRPRRSGEAASPVLRPRGGPAPPASGGRGCEQGYKAALEIGVAEPDDAVVAATSLGSAPAASAHATSANPGVPGGAESTPAPAPASAPAPGPSAGPPPGPPASLLDTCAVCQQSLQSRREAEPKLLPCLHSFCLRCLPEPERQLSVPIPGGSNGDIQQVGVIRCPVCRQECRQIDLVDNYFVKDTSEAPSSSDEKSEQVCTSCEDNASAVGFCVECGEWLCKTCIEAHQRVKFTKDHLIRKKEDVSESVGTSGQRPVFCPVHKQEQLKLFCETCDRLTCRDCQLLEHKEHRYQFLEEAFQNQKGAIENLLAKLLEKKNYVHFAATQVQNRIKEVNETNKRVEQEIKVAIFTLINEINKKGKSLLQQLENVTKERQMKLIQQQNDITGLSRQVKHVMNFTNWAIASGSSTALLYSKRLITFQLRHILKARCDPVPAANGAIRFHCDPTFWAKNVVNLGNLVIESKPAPGYTPNVVVGQVPPGTNHISKTPGQINLAQLRLQHMQQQVYAQKHQQLQQMRMQQPPAPVPTTTATTQQHPRQAAPQMLQQQPPRLISVQTMQRGNINCGAFQAHQMRMAQNAARIPGIPRHSGPQYSMMQPHLQRQHSNPGHAGPFPVVSVHNTTINPTSPTIATMANANRGPTSPSVTAIELIPSVTNPENLPSLPDIPPIQLEDAGSSSLDNLLSRYISGSHLPPQPTSTMNPSPGPSALSPGSSGLSNSHTPVRPPSTSSTGSRGSCGSSGRTAEKTSLSFKSDQVKVKQEPGTEDEICSFSGAVKQEKTEDGRRSACMLSSPESSLTPPLSTNLHLESELDALASLENHVKTEPTDMSESCKQSGLSSLVNGKSPVRSLMHRSARIGGDGSNKDDDPNEDWCAVCQNGGDLLCCEKCPKVFHLTCHVPTLLSFPSGDWICTFCRDIGKPEVEYDCDNLQHSKKGKTAQGLSPVDQRKCERLLLYLYCHELSIEFQEPVPASIPNYYKIIKKPMDLSTVKKKLQKKHSQHYQIPDDFVADVRLIFKNCERFNEMMKVVQVYAETQEINLKADSEVAQAGKAVALYFEDKLTEIYSDRTFAPLPEFDQEEDDGEVTEDSDEDFIQPRRKRLKSDERPVHIK

Target ORF information:

RefSeq Version	XM_010589680.2
Organism	Loxodonta africana(African savanna elephant)
Definition	Loxodonta africana tripartite motif containing 33 (TRIM33), mRNA.

Target ORF information:

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

XM_010589680.2

ORF Insert Sequence:

ATGGGGCTGG CCAAAGACAA GGGAGCAGAG TTGCCTTTCC AGTTGACCTG GAACATGGAG 
CTGAAGTCCA CCCAGAATCC AGAAGGTATG GCCAACACTC AAGAGTCTAG TGGGCAGGGC 
CACTGTTTAG ATGGTCTCAG AGAAGGCCTA TTCAACCTAT TTCTGGAAGG CCCCCCAGAT 
TTGGGGCCTC AGTTAAAAAA AAAAAAAAAA AACAACTCGC CTCACGGCTC CCCTGAGCTA 
CAGCCAACGA AAGGAACGCG GCCGGTTAAG GCACAGAGAT CCATTCAGGA GAGCGGCGCC 
TCCCGGAGCC AGAAGGCCCC GACGTCCGAC CGCGCGGCAG GTGAGGCTTC CGCAGAGACG 
CTACGGCCGC CAAAAGCCGG CCACCACCGA CGGCCTCTAG CTTTAAAACC CCACTGCAAG 
CTGACCGCAG GCAACGCGGA CCCAACTAAC CGGCCACGGA GGTCGGGAGA GGCCGCAAGC 
CCGGTTCTGC GCCCACGCGG GGGCCCCGCT CCCCCCGCCT CCGGAGGACG TGGTTGCGAG 
CAAGGCTACA AAGCAGCGTT GGAGATCGGC GTGGCTGAGC CCGACGACGC GGTAGTGGCC 
GCGACCTCTC TGGGTTCGGC CCCGGCTGCC TCAGCCCATG CGACCTCAGC GAACCCCGGA 
GTTCCCGGGG GGGCGGAGTC GACGCCGGCC CCAGCTCCAG CCTCTGCTCC CGCTCCGGGT 
CCCTCGGCTG GGCCGCCGCC TGGACCGCCA GCCTCGCTCC TGGACACCTG CGCCGTGTGT 
CAGCAGAGCC TGCAGAGCCG GCGTGAGGCG GAGCCCAAGC TGCTGCCCTG TCTTCACTCC 
TTCTGCCTGC GTTGCCTGCC CGAGCCGGAG CGCCAGCTCA GCGTGCCCAT CCCGGGGGGC 
AGCAACGGCG ACATCCAGCA AGTTGGTGTA ATACGGTGCC CAGTATGCCG CCAAGAATGC 
AGACAAATAG ACCTTGTGGA TAATTATTTT GTGAAAGATA CATCTGAAGC TCCTAGCAGT 
TCTGATGAGA AATCAGAACA GGTATGTACT AGTTGTGAAG ATAATGCCAG TGCAGTTGGC 
TTTTGTGTAG AATGTGGAGA GTGGCTATGT AAGACGTGTA TAGAAGCACA TCAGAGAGTA 
AAATTCACTA AAGATCACCT GATCAGGAAA AAAGAAGATG TTTCAGAGTC TGTTGGAACA 
TCTGGTCAGC GCCCTGTTTT CTGCCCTGTA CACAAACAAG AACAGTTGAA ACTATTCTGT 
GAAACATGTG ATAGACTGAC ATGTAGAGAC TGCCAGCTAT TGGAACACAA AGAACATAGG 
TATCAGTTTT TGGAAGAAGC TTTTCAAAAT CAGAAAGGTG CAATTGAGAA TCTACTGGCT 
AAGCTTCTTG AAAAGAAGAA TTATGTTCAT TTTGCAGCCA CTCAGGTGCA GAATAGGATA 
AAAGAAGTTA ATGAGACTAA CAAACGAGTA GAACAGGAAA TTAAAGTGGC CATTTTCACC 
CTTATCAATG AAATTAATAA GAAGGGAAAA TCTCTCTTAC AGCAGCTAGA GAATGTTACA 
AAAGAAAGAC AGATGAAGTT AATACAGCAG CAGAATGACA TCACAGGCCT TTCCCGGCAG 
GTGAAGCATG TTATGAACTT TACAAACTGG GCAATTGCAA GTGGAAGCAG TACGGCACTA 
CTGTACAGCA AGAGACTGAT TACTTTTCAG TTGCGTCATA TCTTGAAAGC ACGGTGTGAT 
CCTGTCCCTG CTGCTAACGG AGCAATACGT TTCCATTGTG ATCCCACCTT CTGGGCAAAG 
AATGTAGTTA ATTTAGGTAA TCTAGTAATA GAGAGTAAAC CAGCTCCTGG TTATACTCCT 
AATGTTGTAG TTGGGCAAGT TCCTCCAGGG ACAAACCACA TTAGTAAAAC TCCTGGACAG 
ATTAACTTAG CACAGCTTCG ACTCCAGCAC ATGCAGCAAC AAGTATATGC ACAGAAACAT 
CAGCAGCTGC AACAGATGAG GATGCAGCAA CCACCAGCAC CTGTACCAAC AACCACAGCA 
ACAACCCAGC AGCATCCCAG GCAAGCAGCC CCTCAGATGT TACAACAACA GCCTCCAAGA 
TTGATCAGTG TACAGACAAT GCAAAGAGGC AATATAAACT GTGGAGCTTT CCAGGCCCAT 
CAGATGAGAA TGGCTCAGAA TGCTGCCCGA ATACCAGGGA TACCCAGACA CAGTGGCCCT 
CAATATTCCA TGATGCAGCC GCACCTCCAA AGACAACACT CAAATCCAGG GCATGCTGGA 
CCCTTTCCTG TTGTATCAGT GCACAACACC ACAATCAACC CAACCAGCCC TACTATAGCT 
ACCATGGCAA ACGCAAACCG AGGTCCCACC AGCCCATCTG TTACAGCAAT AGAGCTTATC 
CCCTCAGTTA CCAATCCAGA AAACCTTCCG TCACTGCCAG ATATTCCGCC CATACAGTTG 
GAAGACGCTG GTTCAAGTAG TTTAGATAAT CTACTAAGCA GATATATCTC AGGCAGCCAC 
TTACCCCCAC AGCCTACAAG CACCATGAAT CCTTCCCCAG GACCCTCTGC CCTGTCTCCC 
GGATCATCAG GTTTATCTAA TTCTCACACA CCTGTGAGAC CCCCTAGTAC CTCTAGTACT 
GGCAGTCGAG GCAGCTGTGG GTCATCAGGG AGAACTGCCG AGAAGACAAG TCTTAGTTTC 
AAATCTGATC AAGTGAAGGT CAAGCAAGAA CCTGGGACTG AGGACGAAAT ATGTAGCTTT 
TCAGGAGCTG TGAAACAAGA AAAGACAGAG GATGGCAGGA GGAGTGCCTG CATGTTGAGC 
AGTCCCGAGA GTAGCTTGAC ACCACCTCTC TCAACCAACC TGCATCTAGA GAGTGAGTTG 
GATGCATTAG CAAGCTTGGA AAACCATGTG AAAACTGAAC CTACGGATAT GAGTGAAAGC 
TGCAAACAGT CAGGGCTCAG CAGCCTTGTT AATGGAAAAT CCCCAGTTCG AAGCCTCATG 
CACAGGTCGG CAAGGATTGG AGGAGATGGC AGCAACAAAG ATGATGACCC AAATGAAGAC 
TGGTGTGCTG TCTGCCAAAA TGGAGGGGAT CTCTTGTGCT GCGAAAAATG TCCAAAGGTC 
TTTCATCTAA CTTGTCATGT TCCAACACTT CTTAGCTTTC CAAGTGGGGA CTGGATATGC 
ACATTTTGCA GAGATATTGG GAAACCAGAA GTTGAATATG ATTGTGATAA TTTACAACAT 
AGTAAGAAGG GGAAAACTGC ACAGGGGTTA AGCCCCGTGG ACCAAAGGAA ATGTGAACGT 
CTTCTGCTTT ACCTCTATTG CCATGAATTA AGTATCGAAT TCCAGGAACC AGTTCCTGCT 
TCGATACCAA ACTACTATAA AATTATAAAG AAACCAATGG ATTTATCCAC CGTGAAAAAG 
AAGCTTCAGA AAAAACATTC CCAACACTAC CAAATCCCAG ATGACTTTGT GGCTGATGTC 
CGTTTGATCT TCAAGAACTG TGAAAGGTTT AATGAAATGA TGAAAGTTGT TCAAGTTTAT 
GCAGAAACAC AAGAGATTAA TTTGAAGGCT GATTCAGAAG TAGCTCAGGC AGGGAAAGCA 
GTTGCATTGT ACTTTGAAGA TAAACTCACA GAGATCTACT CAGACAGGAC CTTCGCACCT 
TTGCCAGAGT TTGATCAGGA AGAGGATGAT GGCGAGGTAA CTGAGGACTC TGATGAAGAC 
TTTATACAGC CCCGCAGAAA ACGCCTAAAG TCAGATGAGA GACCAGTACA TATAAAGTAA

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

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TRIM33 cDNA ORF clone, Loxodonta africana(African savanna elephant)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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