EXTL3 cDNA ORF clone, Carlito syrichta(Philippine tarsier)

Gene
Clones
gRNAs

Summary

Gene Symbol	EXTL3
Entrez Gene ID	103272211
Full Name	exostosin like glycosyltransferase 3
Gene Type	protein-coding
Organism	Carlito syrichta(Philippine tarsier)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008069687.1	XP_008067878.1	exostosin-like 3

Pathways from BioSystems
Gene Ontology

The following EXTL3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EXTL3 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
OCa410270	XM_008069687.1 Latest version!	Carlito syrichta exostosin like glycosyltransferase 3 (EXTL3), 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)

EXTL3 ( XM_008069687.1 ) cDNA ORF clone, Carlito syrichta(Philippine tarsier) -> XP_008067878.1 Carlito syrichta exostosin like glycosyltransferase 3 (EXTL3), mRNA.

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CloneID	OCa410270
Clone ID Related Accession (Same CDS sequence)	XM_008069687.1
Accession Version	XM_008069687.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2760bp) 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	2017-06-30
Organism	Carlito syrichta(Philippine tarsier)
Product	exostosin-like 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_007256286.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Carlito syrichta Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGACAGGCT ATACCATGTT GCGGAATGGA GGAGTAGGGA ACGGAGGTCA GACCTGCATG 
TTGCGATGGT CCAACCGCAT CCGCCTCACG TGGCTCAGTT TCACACTCTT CATCATCCTG 
GTCTTCTTCC CCCTTATTGC ACACTATTAC CTCACCACGT TGGATGAGGC TGACGAGGCA 
GGCAAGCGGA TTTTTGGTCC CCGGGCTGGC AGTGAGCTCT GTGAGGTAAA ACACGTGCTG 
GATCTCTGCC GCATTCGTGA GTCGGTGAGT GAAGAGCTCT TGCAGCTGGA AGCCAAGCGG 
CAAGAGCTGA ACAGCGAGAT TGCCAAGCTG AATCTGAAGA TCGAGGCCTG TAAGAAGAGC 
ATTGAGAATG CCAAGCAGGA CCTGCTTCAG CTCAAGAATG TCATCAGCCA GACGGAGCAT 
TCCTACAAGG AGCTCATGGC CCAAAACCAG CCCAAGCTGT CTCTGCCCAT CCGACTGCTC 
CCAGAGAAGG ATGACGCTGG CCTCCCTCCC CCAAAGGTCT TACGGGGTTG CCGGCTCCAC 
AGTTGTTTTG ATTATTCTCG TTGCCCTCTC ACCTCTGGTT TTCCAGTCTA TGTTTATGAC 
AGTGACCAGC TTGCCTTTGG CAGCTACCTG GATCCCTTGG TCAAGCAGGC TTTTCAGGCT 
ACAGCTCGAG CCAATGTTTA CGTTACAGAA AATGCAGACA TCGCCTGCCT TTATGTGATA 
TTAGTGGGAG AAATGCAGGA GCCAGTAGGG CTGCGGCCTG CCGACCTTGA GCAGCAACTG 
TATTCTCTAC CACATTGGCG GACAGACGGA CACAACCATG TCATCATCAA CCTGTCACGG 
AAGTCCCATA CACAGAACTT ACTATATAAT GTCAGCACAG GCCGTGCCAT GGTGGCCCAG 
TCTACTTTCT ATGCTGTCCA GTACAGGCCT GGCTTTGACT TGGTAGTGTC GCCACTAGTC 
CACGCTATGT CAGAACCCAA CTTCATGGAA ATTCCACCAC AGGTGCCAGT GAAGCGGAAG 
TATCTCTTCA CCTTCCAGGG CGAAAAGATC GAATCCCTGA GATCGAGCCT TCAGGAGGCC 
CGCTCCTTTG AAGAGGAAAT GGAGGGTGAC CCTCCAGCCG ATTATGATGA CCGGATCATC 
GCCACCCTAA AGGCAGTCCA GGACAGCAAG CTGGATCAGG TTCTGGTGGA GTTTATCTGC 
AAAAACCCGC TGAAGCCCAG TCTGCCTACG GAGTGGGCAC TGTGTGGGGA GCGGGAGGAC 
CGCCTAGCGT TGCTGAGGCT CTCCACCTTT GCCCTCATCA TCACCCCGGG GGACCCTCAC 
TTGGTTGTTT CATCGGGGTG TGCAACGCGG CTCTTTGAAG CCCTGGAAGT CGGTGCTGTC 
CCGGTCGTGC TGGGGGAGCA GGTCCAGCTT CCGTACCAGG ACATGCTGCA GTGGAATGAG 
GCGGCCCTGG TGGTGCCCAA GCCACGTGTT ACTGAGGTTC ACTTCCTGTT AAGGAGTCTC 
TCTGACAGTG ACCTACTGGC CATGAGGAGG CAAGGCCGCT TTCTCTGGGA GGCTTACTTC 
TCCACCACTG ACAGTATTTT TAATACCGTG CTGGCTATGA TCAGGACTCG AATACAGATC 
CCAGCAGCTC CCATCCGGGA AGAGGCAGCC GCTGAGATCC CCCATCGTTC AGGCAAGGCT 
GCCGGAACTG ACCCCAACAT GGCCGACAAT GGAGACCTGG ACCTGGGGCC AGTGGAAACG 
GAGCCACCTT ATGCCTCACC CAAGTACCTC CGCAACTTTA CCTTGACTGT CACGGACTTT 
TACCGCAGCT GGAACTCTGC TCCTGGCCCT TTCCATCTTT TCCCCCACAC ACCCTTTGAC 
CCTGTGTTGC CCTCAGAGGC CAAATTCTTG GGCTCAGGGA CTGGATTTCG GCCTATTGGA 
GGTGGAGCTG GGGGTTCTGG CAAGGAGTTT CAGGCAGCCC TTGGAGGCAA TGTTCCCCGA 
GAGCAGTTCA CAGTAGTGAT GTTGACTTAT GAGCGGGAGG AGGTGCTTAT GAACTCACTA 
GAGAGACTGA ATGGCCTCCC GTACCTGAAC AAGGTGGTAG TGGTGTGGAA TTCCCCCAAG 
CTGCCATCAG AGGACCTTCT GTGGCCTGAC ATTGGCGTCC CCATCATGGT GGTTCGTACT 
GAGAAAAACA GCTTGAACAA TCGATTCCTG CCCTGGAATG AAATTGAGAC AGAGGCTATC 
CTGTCCATTG ATGATGACGC TCATCTCCGC CATGATGAAA TCATGTTTGG GTTTCGGGTG 
TGGAGAGAAG CCCGGGACCG CATCGTGGGC TTCCCTGGCC GCTACCATGC ATGGGACATC 
CCTCATCAGT CCTGGCTCTA CAACTCCAAC TACTCCTGTG AGCTGTCCAT GGTGCTGACA 
GGTGCTGCCT TCTTTCACAA GTATTATGCC TACCTGTATT CTTATGTGAT GCCCCAGGCC 
ATCCGAGATA TGGTGGATGA GTACATCAAC TGTGAGGATA TCGCCATGAA CTTCCTCGTC 
TCCCACATCA CTCGGAAGCC CCCCATCAAG GTGACCTCGC GGTGGACTTT CCGGTGCCCA 
GGATGTCCTC AGGCCCTGTC CCATGATGAC TCCCACTTTC ATGAGCGGCA CAAGTGCATC 
AACTTCTTTG TCAAGGTGTA TGGCTACATG CCCCTCCTGT ACACTCAGTT CCGGGTGGAC 
TCTGTGCTCT TCAAGACCCG CCTGCCCCAT GACAAGACCA AGTGCTTCAA GTTCATCTAG

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

RefSeq	XP_008067878.1
CDS	580..3339
Translation	MTGYTMLRNGGVGNGGQTCMLRWSNRIRLTWLSFTLFIILVFFPLIAHYYLTTLDEADEAGKRIFGPRAGSELCEVKHVLDLCRIRESVSEELLQLEAKRQELNSEIAKLNLKIEACKKSIENAKQDLLQLKNVISQTEHSYKELMAQNQPKLSLPIRLLPEKDDAGLPPPKVLRGCRLHSCFDYSRCPLTSGFPVYVYDSDQLAFGSYLDPLVKQAFQATARANVYVTENADIACLYVILVGEMQEPVGLRPADLEQQLYSLPHWRTDGHNHVIINLSRKSHTQNLLYNVSTGRAMVAQSTFYAVQYRPGFDLVVSPLVHAMSEPNFMEIPPQVPVKRKYLFTFQGEKIESLRSSLQEARSFEEEMEGDPPADYDDRIIATLKAVQDSKLDQVLVEFICKNPLKPSLPTEWALCGEREDRLALLRLSTFALIITPGDPHLVVSSGCATRLFEALEVGAVPVVLGEQVQLPYQDMLQWNEAALVVPKPRVTEVHFLLRSLSDSDLLAMRRQGRFLWEAYFSTTDSIFNTVLAMIRTRIQIPAAPIREEAAAEIPHRSGKAAGTDPNMADNGDLDLGPVETEPPYASPKYLRNFTLTVTDFYRSWNSAPGPFHLFPHTPFDPVLPSEAKFLGSGTGFRPIGGGAGGSGKEFQAALGGNVPREQFTVVMLTYEREEVLMNSLERLNGLPYLNKVVVVWNSPKLPSEDLLWPDIGVPIMVVRTEKNSLNNRFLPWNEIETEAILSIDDDAHLRHDEIMFGFRVWREARDRIVGFPGRYHAWDIPHQSWLYNSNYSCELSMVLTGAAFFHKYYAYLYSYVMPQAIRDMVDEYINCEDIAMNFLVSHITRKPPIKVTSRWTFRCPGCPQALSHDDSHFHERHKCINFFVKVYGYMPLLYTQFRVDSVLFKTRLPHDKTKCFKFI

Target ORF information:

RefSeq Version	XM_008069687.1
Organism	Carlito syrichta(Philippine tarsier)
Definition	Carlito syrichta exostosin like glycosyltransferase 3 (EXTL3), mRNA.

Target ORF information:

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

XM_008069687.1

ORF Insert Sequence:

ATGACAGGCT ATACCATGTT GCGGAATGGA GGAGTAGGGA ACGGAGGTCA GACCTGCATG 
TTGCGATGGT CCAACCGCAT CCGCCTCACG TGGCTCAGTT TCACACTCTT CATCATCCTG 
GTCTTCTTCC CCCTTATTGC ACACTATTAC CTCACCACGT TGGATGAGGC TGACGAGGCA 
GGCAAGCGGA TTTTTGGTCC CCGGGCTGGC AGTGAGCTCT GTGAGGTAAA ACACGTGCTG 
GATCTCTGCC GCATTCGTGA GTCGGTGAGT GAAGAGCTCT TGCAGCTGGA AGCCAAGCGG 
CAAGAGCTGA ACAGCGAGAT TGCCAAGCTG AATCTGAAGA TCGAGGCCTG TAAGAAGAGC 
ATTGAGAATG CCAAGCAGGA CCTGCTTCAG CTCAAGAATG TCATCAGCCA GACGGAGCAT 
TCCTACAAGG AGCTCATGGC CCAAAACCAG CCCAAGCTGT CTCTGCCCAT CCGACTGCTC 
CCAGAGAAGG ATGACGCTGG CCTCCCTCCC CCAAAGGTCT TACGGGGTTG CCGGCTCCAC 
AGTTGTTTTG ATTATTCTCG TTGCCCTCTC ACCTCTGGTT TTCCAGTCTA TGTTTATGAC 
AGTGACCAGC TTGCCTTTGG CAGCTACCTG GATCCCTTGG TCAAGCAGGC TTTTCAGGCT 
ACAGCTCGAG CCAATGTTTA CGTTACAGAA AATGCAGACA TCGCCTGCCT TTATGTGATA 
TTAGTGGGAG AAATGCAGGA GCCAGTAGGG CTGCGGCCTG CCGACCTTGA GCAGCAACTG 
TATTCTCTAC CACATTGGCG GACAGACGGA CACAACCATG TCATCATCAA CCTGTCACGG 
AAGTCCCATA CACAGAACTT ACTATATAAT GTCAGCACAG GCCGTGCCAT GGTGGCCCAG 
TCTACTTTCT ATGCTGTCCA GTACAGGCCT GGCTTTGACT TGGTAGTGTC GCCACTAGTC 
CACGCTATGT CAGAACCCAA CTTCATGGAA ATTCCACCAC AGGTGCCAGT GAAGCGGAAG 
TATCTCTTCA CCTTCCAGGG CGAAAAGATC GAATCCCTGA GATCGAGCCT TCAGGAGGCC 
CGCTCCTTTG AAGAGGAAAT GGAGGGTGAC CCTCCAGCCG ATTATGATGA CCGGATCATC 
GCCACCCTAA AGGCAGTCCA GGACAGCAAG CTGGATCAGG TTCTGGTGGA GTTTATCTGC 
AAAAACCCGC TGAAGCCCAG TCTGCCTACG GAGTGGGCAC TGTGTGGGGA GCGGGAGGAC 
CGCCTAGCGT TGCTGAGGCT CTCCACCTTT GCCCTCATCA TCACCCCGGG GGACCCTCAC 
TTGGTTGTTT CATCGGGGTG TGCAACGCGG CTCTTTGAAG CCCTGGAAGT CGGTGCTGTC 
CCGGTCGTGC TGGGGGAGCA GGTCCAGCTT CCGTACCAGG ACATGCTGCA GTGGAATGAG 
GCGGCCCTGG TGGTGCCCAA GCCACGTGTT ACTGAGGTTC ACTTCCTGTT AAGGAGTCTC 
TCTGACAGTG ACCTACTGGC CATGAGGAGG CAAGGCCGCT TTCTCTGGGA GGCTTACTTC 
TCCACCACTG ACAGTATTTT TAATACCGTG CTGGCTATGA TCAGGACTCG AATACAGATC 
CCAGCAGCTC CCATCCGGGA AGAGGCAGCC GCTGAGATCC CCCATCGTTC AGGCAAGGCT 
GCCGGAACTG ACCCCAACAT GGCCGACAAT GGAGACCTGG ACCTGGGGCC AGTGGAAACG 
GAGCCACCTT ATGCCTCACC CAAGTACCTC CGCAACTTTA CCTTGACTGT CACGGACTTT 
TACCGCAGCT GGAACTCTGC TCCTGGCCCT TTCCATCTTT TCCCCCACAC ACCCTTTGAC 
CCTGTGTTGC CCTCAGAGGC CAAATTCTTG GGCTCAGGGA CTGGATTTCG GCCTATTGGA 
GGTGGAGCTG GGGGTTCTGG CAAGGAGTTT CAGGCAGCCC TTGGAGGCAA TGTTCCCCGA 
GAGCAGTTCA CAGTAGTGAT GTTGACTTAT GAGCGGGAGG AGGTGCTTAT GAACTCACTA 
GAGAGACTGA ATGGCCTCCC GTACCTGAAC AAGGTGGTAG TGGTGTGGAA TTCCCCCAAG 
CTGCCATCAG AGGACCTTCT GTGGCCTGAC ATTGGCGTCC CCATCATGGT GGTTCGTACT 
GAGAAAAACA GCTTGAACAA TCGATTCCTG CCCTGGAATG AAATTGAGAC AGAGGCTATC 
CTGTCCATTG ATGATGACGC TCATCTCCGC CATGATGAAA TCATGTTTGG GTTTCGGGTG 
TGGAGAGAAG CCCGGGACCG CATCGTGGGC TTCCCTGGCC GCTACCATGC ATGGGACATC 
CCTCATCAGT CCTGGCTCTA CAACTCCAAC TACTCCTGTG AGCTGTCCAT GGTGCTGACA 
GGTGCTGCCT TCTTTCACAA GTATTATGCC TACCTGTATT CTTATGTGAT GCCCCAGGCC 
ATCCGAGATA TGGTGGATGA GTACATCAAC TGTGAGGATA TCGCCATGAA CTTCCTCGTC 
TCCCACATCA CTCGGAAGCC CCCCATCAAG GTGACCTCGC GGTGGACTTT CCGGTGCCCA 
GGATGTCCTC AGGCCCTGTC CCATGATGAC TCCCACTTTC ATGAGCGGCA CAAGTGCATC 
AACTTCTTTG TCAAGGTGTA TGGCTACATG CCCCTCCTGT ACACTCAGTT CCGGGTGGAC 
TCTGTGCTCT TCAAGACCCG CCTGCCCCAT GACAAGACCA AGTGCTTCAA GTTCATCTAG