LOC106619350 cDNA ORF clone, Bactrocera oleae(olive fruit fly)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106619350
Entrez Gene ID	106619350
Full Name	integrator complex subunit 8
Gene Type	protein-coding
Organism	Bactrocera oleae(olive fruit fly)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014237395.1	XP_014092870.1	integrator complex subunit 8

Pathways from BioSystems
Gene Ontology

The following LOC106619350 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106619350 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
OBa72006	XM_014237395.1 Latest version!	Bactrocera oleae integrator complex subunit 8 (LOC106619350), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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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)

LOC106619350 ( XM_014237395.1 ) cDNA ORF clone, Bactrocera oleae(olive fruit fly) -> XP_014092870.1 Bactrocera oleae integrator complex subunit 8 (LOC106619350), mRNA.

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CloneID	OBa72006
Clone ID Related Accession (Same CDS sequence)	XM_014237395.1
Accession Version	XM_014237395.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3099bp) 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	2015-09-20
Organism	Bactrocera oleae(olive fruit fly)
Product	integrator complex subunit 8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013581401.1) 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 :: Bactrocera oleae Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTGTTG GTAAAAGTGC AACCACATCG TTGAATAATA AAATGGACGA TCCTTTGCGT 
CCAAAAGCGG TGCCGCTTGA CTCCGAAACC GTACTTTGGT TTGAATTTTT ACTCGATCCA 
CAATTAATTA CCAAACACCT GCAAAAGCTC AATCCAGATC CCAGCGCATT GGAATTAATG 
ACACAATTCA TATCTGTTAC GCCGGATGTA ATAATACCAA CACAGTATGA TTTAACTTCG 
CCAGACACAG AAAATTTGCC GGGGGGTATA CCGGTGACGC CAGGCGCAGG CGTAAATAGT 
GGTGCTGCTA TGATGAACAT GGACGGTCTA CGTATACCCC GTAAACAAAT TGCATTGAAG 
ATTTTAACGC TTAAAGTAGC AACGTGGTTG AAGTGGAATC TCGATGTATT GGAAAAGAGT 
TTACCGATAC CAAAACAGTT GTTTTTGTTG CGTGATTTGT GTACGATTTG CTTTGGCAAA 
TTGGTAAGTA TACCCTTGCA GCAGGATTTC CAGGCGAAAA TTTCCTCTGA TGGGCATGAA 
CATGCTGCGC GCTTTGCGCT AACATTCTAC CACCGTTGGG TGTTACGTTT GCAAATTCTA 
AAAGATATTG CCATGAAAGC AGCGCGTCCG TCCATGGCTA ATATGTTTGT GCCAATGGAG 
CCGATGCATC AATTTTTCGC TCCTGATATA CCACCAAAAA ATAGCGTGGA TTATCTGCAG 
GAGCTTTGCA AGTCCACGGA ACCGTTTTAT GTGTTTACTT TCGACACATT TGTAACACTA 
CACGCAGACA CTGAAACTAT GCTGCAAAAT TTCGAACATA TGCAAAAAAT TTCGTTAGCC 
GAATTACGTT CGCAAATCTA CTTCGATTTG GTTAATTTCT ACTTGTATAC AAAACAATAC 
CGACAAGCAC GCGATGCTGT GAACGAGTGT CGACGCAATT TGAAGGAAAT GAAAGCTGAC 
TATATAACCG AATCTGCTAA ACGCATATCG GCTGGTTATC TCTTTTGCCA CGTTAATGAC 
GAGGAGCTGG AAGGTTATCT ACTGGCTTGT GGCTGTAGCG AGCAACGTAC CACTTTAACG 
GAGCGCTTTA ATGCCTCGTC ATTAAAACAG TATAAAGACA TCATTGAAAT ACTACAAGAG 
GATAATCATA TACGTGAGAT ACCACTTGTA AGCCGACGCA TACTCGAACT CGACATTGAG 
GGCGCCATTT CGCAGGGTTC ACTTAAGGAG TCGCGTACAC TCGAAATGCA AGTAGCTGTG 
TTGAATTTAG TACGCAGCAT TTTTGAGGAG GGCAATATTT TTACAAGCGT GGATTATTTT 
GAGAAATACC GACACATAAA CTGTTTCGTT ACAATTGTAG AGGCAATCAG CAATGTGCTG 
CCACATTGTA CTCTTGGCGA GCGAAACGCA ATCAAAAGCT TTCTAATAGA CAGCATATTG 
AAAGAAAATA TCGGCAAACA ATTTCTACAA CACTTGCAAC ACATACAACT CTTCTCAGCC 
ACTGAATTGC TTGACCTAGA ACGACAAACA GCCGATGAGG AGCTCACTGT GCCGACGCTT 
GCAACGCTCA GTGAATGGAA ATTCAATTCG AAAATAATAC GTATTGAGGT CGGCTCGCTC 
GAACGTCAAC TAATCTCTTG CACAAATGCG AATACTGTGC GTAAACTTCT AGTTAAGTTG 
GCTGCCACCA ATCCAGCTAA ACCGCTTTGG ACAGTAAATC CAAGTTGGGA GATTGCAACA 
CCGATTAAAT CGTTGCTCAT GTCTATGCAA AGAGGATTTC TGCAGGACTT TGCTTATGTT 
TTATTGGGCA AAGCGCGCGA GATGACTGCT AAAAGTGACT ACATTGGAGC GGTGTCGATG 
CTGAGCGTAC TGAAGTCGGA GACACAACGC CAAGAGCTTT CAAATACCAC AGTTGTTTCA 
AAGCTAGGCA AGCTGGTAAA CTGGGAGATT TTATTCATAC AAATTACACA GTGCCTGGAA 
GAATGGAATC GGAAAACTTT GGATCTGCAG TCACTGGGTA ACCGCTGCAA GCTATGTTTG 
GCCTCACTAC AAAGCAACGA CAACATTATA CCCCGCATAG AGATAATCGA AAGCTGCGCC 
ATCATGCTGC TCAATCTAGG CGATTGGAAT ACACTAATGT TCTTGGATAA GCGTTTGCCA 
CAACTCGAGC TGCCCATTGC CTTTGCTGCC ACCGTACTTG ATATGGAGAA GATGAAAGGC 
TCTAAAAAGG TGTGCCGCGA TGCTTTCGAT TTGGTATTGC AAATGTTTGT GAATACCACG 
AAACGTAGCG GTGGTCCTGG TGGCGGCAGC GGCAGTTCTG GTGGCGGCAG TTCGCGAAAT 
TCCCCATCCC TAGCTGTTTC AACTGGCCTT CAACCGTTTC TGAAACGCAT ACGCCATCAA 
CTGATCTTCT CACTGGCCAT ATCATGCCTT GGAAAAATAC AAAACATACT TAGAGATGAT 
ACAAATCATG ACTTGAGTGG TGAATATATG CATTTGTGGC CCGCTGGCAT ACCCAGTCCC 
TTGGCGTATA GCGTGCGTAT AGTTTGTGAG ACTTTGCATT GGCTGTTAAC AGAAGCGTTG 
AAATATTATC CACAAACTAT AACATGGTTG AAAACGAAAG GTGACTTGGA ATTAGCTATT 
GGCAACAACG AAGCGGCAAT GCGTTGTTAT GTCAATGCGC TCATCACTGG CACCGATTAC 
TGTACATTTC CATTGCAACG CAATGTAGCT GATGATTATG TAATACATAA AATGATACGT 
TGCTCATCGA ATTTAGGCTG TCACATGCAA GCCACTGTGT TGTGCCAGTT TTTGGAGGAA 
ATTGATTACG GCATTGTATT CAAAAAACTT ACCGAGAAAT CTTCCAATTT CACCGACGCA 
ATGGATGCGT ATTATAATTG CATTTGGGAC ACAACGTTAT TGGAGTTTAT AATAAATTTA 
CATGCTAGAA AGGGAGAGCA TAGCCGAAAG TTGGAGGCGA TCGCTATTAT GGGCTCACTT 
GAATTGAATG CAAACAACAA CGACGAAATC AAACGTGAAG CGGCGGCAAT ACGGAAAACA 
CGCTTTCTAC GCGCACTAGC CAAACAGTAT TTGTTGTAA

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

RefSeq	XP_014092870.1
CDS	26..3124
Translation	MSVGKSATTSLNNKMDDPLRPKAVPLDSETVLWFEFLLDPQLITKHLQKLNPDPSALELMTQFISVTPDVIIPTQYDLTSPDTENLPGGIPVTPGAGVNSGAAMMNMDGLRIPRKQIALKILTLKVATWLKWNLDVLEKSLPIPKQLFLLRDLCTICFGKLVSIPLQQDFQAKISSDGHEHAARFALTFYHRWVLRLQILKDIAMKAARPSMANMFVPMEPMHQFFAPDIPPKNSVDYLQELCKSTEPFYVFTFDTFVTLHADTETMLQNFEHMQKISLAELRSQIYFDLVNFYLYTKQYRQARDAVNECRRNLKEMKADYITESAKRISAGYLFCHVNDEELEGYLLACGCSEQRTTLTERFNASSLKQYKDIIEILQEDNHIREIPLVSRRILELDIEGAISQGSLKESRTLEMQVAVLNLVRSIFEEGNIFTSVDYFEKYRHINCFVTIVEAISNVLPHCTLGERNAIKSFLIDSILKENIGKQFLQHLQHIQLFSATELLDLERQTADEELTVPTLATLSEWKFNSKIIRIEVGSLERQLISCTNANTVRKLLVKLAATNPAKPLWTVNPSWEIATPIKSLLMSMQRGFLQDFAYVLLGKAREMTAKSDYIGAVSMLSVLKSETQRQELSNTTVVSKLGKLVNWEILFIQITQCLEEWNRKTLDLQSLGNRCKLCLASLQSNDNIIPRIEIIESCAIMLLNLGDWNTLMFLDKRLPQLELPIAFAATVLDMEKMKGSKKVCRDAFDLVLQMFVNTTKRSGGPGGGSGSSGGGSSRNSPSLAVSTGLQPFLKRIRHQLIFSLAISCLGKIQNILRDDTNHDLSGEYMHLWPAGIPSPLAYSVRIVCETLHWLLTEALKYYPQTITWLKTKGDLELAIGNNEAAMRCYVNALITGTDYCTFPLQRNVADDYVIHKMIRCSSNLGCHMQATVLCQFLEEIDYGIVFKKLTEKSSNFTDAMDAYYNCIWDTTLLEFIINLHARKGEHSRKLEAIAIMGSLELNANNNDEIKREAAAIRKTRFLRALAKQYLL

Target ORF information:

RefSeq Version	XM_014237395.1
Organism	Bactrocera oleae(olive fruit fly)
Definition	Bactrocera oleae integrator complex subunit 8 (LOC106619350), mRNA.

Target ORF information:

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

XM_014237395.1

ORF Insert Sequence:

ATGAGTGTTG GTAAAAGTGC AACCACATCG TTGAATAATA AAATGGACGA TCCTTTGCGT 
CCAAAAGCGG TGCCGCTTGA CTCCGAAACC GTACTTTGGT TTGAATTTTT ACTCGATCCA 
CAATTAATTA CCAAACACCT GCAAAAGCTC AATCCAGATC CCAGCGCATT GGAATTAATG 
ACACAATTCA TATCTGTTAC GCCGGATGTA ATAATACCAA CACAGTATGA TTTAACTTCG 
CCAGACACAG AAAATTTGCC GGGGGGTATA CCGGTGACGC CAGGCGCAGG CGTAAATAGT 
GGTGCTGCTA TGATGAACAT GGACGGTCTA CGTATACCCC GTAAACAAAT TGCATTGAAG 
ATTTTAACGC TTAAAGTAGC AACGTGGTTG AAGTGGAATC TCGATGTATT GGAAAAGAGT 
TTACCGATAC CAAAACAGTT GTTTTTGTTG CGTGATTTGT GTACGATTTG CTTTGGCAAA 
TTGGTAAGTA TACCCTTGCA GCAGGATTTC CAGGCGAAAA TTTCCTCTGA TGGGCATGAA 
CATGCTGCGC GCTTTGCGCT AACATTCTAC CACCGTTGGG TGTTACGTTT GCAAATTCTA 
AAAGATATTG CCATGAAAGC AGCGCGTCCG TCCATGGCTA ATATGTTTGT GCCAATGGAG 
CCGATGCATC AATTTTTCGC TCCTGATATA CCACCAAAAA ATAGCGTGGA TTATCTGCAG 
GAGCTTTGCA AGTCCACGGA ACCGTTTTAT GTGTTTACTT TCGACACATT TGTAACACTA 
CACGCAGACA CTGAAACTAT GCTGCAAAAT TTCGAACATA TGCAAAAAAT TTCGTTAGCC 
GAATTACGTT CGCAAATCTA CTTCGATTTG GTTAATTTCT ACTTGTATAC AAAACAATAC 
CGACAAGCAC GCGATGCTGT GAACGAGTGT CGACGCAATT TGAAGGAAAT GAAAGCTGAC 
TATATAACCG AATCTGCTAA ACGCATATCG GCTGGTTATC TCTTTTGCCA CGTTAATGAC 
GAGGAGCTGG AAGGTTATCT ACTGGCTTGT GGCTGTAGCG AGCAACGTAC CACTTTAACG 
GAGCGCTTTA ATGCCTCGTC ATTAAAACAG TATAAAGACA TCATTGAAAT ACTACAAGAG 
GATAATCATA TACGTGAGAT ACCACTTGTA AGCCGACGCA TACTCGAACT CGACATTGAG 
GGCGCCATTT CGCAGGGTTC ACTTAAGGAG TCGCGTACAC TCGAAATGCA AGTAGCTGTG 
TTGAATTTAG TACGCAGCAT TTTTGAGGAG GGCAATATTT TTACAAGCGT GGATTATTTT 
GAGAAATACC GACACATAAA CTGTTTCGTT ACAATTGTAG AGGCAATCAG CAATGTGCTG 
CCACATTGTA CTCTTGGCGA GCGAAACGCA ATCAAAAGCT TTCTAATAGA CAGCATATTG 
AAAGAAAATA TCGGCAAACA ATTTCTACAA CACTTGCAAC ACATACAACT CTTCTCAGCC 
ACTGAATTGC TTGACCTAGA ACGACAAACA GCCGATGAGG AGCTCACTGT GCCGACGCTT 
GCAACGCTCA GTGAATGGAA ATTCAATTCG AAAATAATAC GTATTGAGGT CGGCTCGCTC 
GAACGTCAAC TAATCTCTTG CACAAATGCG AATACTGTGC GTAAACTTCT AGTTAAGTTG 
GCTGCCACCA ATCCAGCTAA ACCGCTTTGG ACAGTAAATC CAAGTTGGGA GATTGCAACA 
CCGATTAAAT CGTTGCTCAT GTCTATGCAA AGAGGATTTC TGCAGGACTT TGCTTATGTT 
TTATTGGGCA AAGCGCGCGA GATGACTGCT AAAAGTGACT ACATTGGAGC GGTGTCGATG 
CTGAGCGTAC TGAAGTCGGA GACACAACGC CAAGAGCTTT CAAATACCAC AGTTGTTTCA 
AAGCTAGGCA AGCTGGTAAA CTGGGAGATT TTATTCATAC AAATTACACA GTGCCTGGAA 
GAATGGAATC GGAAAACTTT GGATCTGCAG TCACTGGGTA ACCGCTGCAA GCTATGTTTG 
GCCTCACTAC AAAGCAACGA CAACATTATA CCCCGCATAG AGATAATCGA AAGCTGCGCC 
ATCATGCTGC TCAATCTAGG CGATTGGAAT ACACTAATGT TCTTGGATAA GCGTTTGCCA 
CAACTCGAGC TGCCCATTGC CTTTGCTGCC ACCGTACTTG ATATGGAGAA GATGAAAGGC 
TCTAAAAAGG TGTGCCGCGA TGCTTTCGAT TTGGTATTGC AAATGTTTGT GAATACCACG 
AAACGTAGCG GTGGTCCTGG TGGCGGCAGC GGCAGTTCTG GTGGCGGCAG TTCGCGAAAT 
TCCCCATCCC TAGCTGTTTC AACTGGCCTT CAACCGTTTC TGAAACGCAT ACGCCATCAA 
CTGATCTTCT CACTGGCCAT ATCATGCCTT GGAAAAATAC AAAACATACT TAGAGATGAT 
ACAAATCATG ACTTGAGTGG TGAATATATG CATTTGTGGC CCGCTGGCAT ACCCAGTCCC 
TTGGCGTATA GCGTGCGTAT AGTTTGTGAG ACTTTGCATT GGCTGTTAAC AGAAGCGTTG 
AAATATTATC CACAAACTAT AACATGGTTG AAAACGAAAG GTGACTTGGA ATTAGCTATT 
GGCAACAACG AAGCGGCAAT GCGTTGTTAT GTCAATGCGC TCATCACTGG CACCGATTAC 
TGTACATTTC CATTGCAACG CAATGTAGCT GATGATTATG TAATACATAA AATGATACGT 
TGCTCATCGA ATTTAGGCTG TCACATGCAA GCCACTGTGT TGTGCCAGTT TTTGGAGGAA 
ATTGATTACG GCATTGTATT CAAAAAACTT ACCGAGAAAT CTTCCAATTT CACCGACGCA 
ATGGATGCGT ATTATAATTG CATTTGGGAC ACAACGTTAT TGGAGTTTAT AATAAATTTA 
CATGCTAGAA AGGGAGAGCA TAGCCGAAAG TTGGAGGCGA TCGCTATTAT GGGCTCACTT 
GAATTGAATG CAAACAACAA CGACGAAATC AAACGTGAAG CGGCGGCAAT ACGGAAAACA 
CGCTTTCTAC GCGCACTAGC CAAACAGTAT TTGTTGTAA