OSBPL5 cDNA ORF clone, Alligator mississippiensis(American alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	OSBPL5
Entrez Gene ID	102563671
Full Name	oxysterol binding protein like 5
Gene Type	protein-coding
Organism	Alligator mississippiensis(American alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006271184.3	XP_006271246.1	oxysterol-binding protein-related protein 5 isoform X1
XM_006271186.3	XP_006271248.1	oxysterol-binding protein-related protein 5 isoform X2

Pathways from BioSystems
Gene Ontology

The following OSBPL5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the OSBPL5 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
OAl74713	XM_006271184.3 Latest version!	Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl74714	XM_006271186.3 Latest version!	Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

OSBPL5 ( XM_006271184.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006271246.1 Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl74713
Clone ID Related Accession (Same CDS sequence)	XM_006271184.3
Accession Version	XM_006271184.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2643bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	oxysterol-binding protein-related protein 5 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713697.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006271184.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 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##

ATGAAGGAAG AGAATTTTCT CCGCCGCAGG TTCTCTCTCT GTCCTGCTTC ATCCACTCCT 
CAGAAAATCG ACCCTCGCAA GCTGACACGG AATCTGTTCT TTGGAGCTGA CAATGAGATC 
TACCCGCTCA GCCCAGGAAA AGACATGGAA GGAAATAGCC CGTCATTGTT GAAGGATGAG 
TCTCCCCAGA CACCAAACTC CATTAGCAAG AATGAATATA AGCTTTGCAA TGGGTCTGAT 
AAAGAGTGTG TATCTCCCAC AGCCAAATTC ACTAAGAAGG AAACATTAAA GGTACAGAAG 
AAGAACTACA GACAGGAAAA GAAAAGAGCC ACCAAACAGC TCTTCAGTGC TTTGAAGGAT 
CCCAGTGTTG TGATCATGGC AGATTGGCTG AAGATCCGTG GGACTCTGAA AAGCTGGACC 
AAGCTGTGGT GTGTTCTGAA ACCAGGCGTG CTATTGATTT ACAAAACACC AAAGACTGGG 
CAGTGGGTAG GCACCATCCT GCTCCATTCC TGTGAGCTGA TCGAAAGACC CTCCAAAAAG 
GACGGCTTCT GTTTTAAACT CTTCCACCCT TTGGATCAGT CCATCTGGGC TGTGAAGGGG 
CCAAAAGGAG AGAATGTGGG TTCAATCACT CAGCCTCTAC CCAGCAGCTA CTTGATCTTC 
AGAGCAGCCT CTGAATCAGA CGGTCGATGT TGGCTGGATG CTCTGGAGCT TGCCCTGCGT 
TGTTCCAGTC TCTTCAGGCT CAGCACCTCC AAACAGGGGA AGGATGGAGA ACTGAACTGC 
TCATCTGATT CCTCGCATGC TGGCCTATAC AACCTCTTGC ACACTGCCAC CATCTCTGAC 
CAGGAGCTCT TCCATCTTAA TGAGTCAGCC CTGGAAAACC ACCACCATCT GGAAAATGAC 
GCTTTTTCTG ACAAGTCTGA GAGAGACAAC ATAGAGGAGT CTGAGAATGA GACTCACGAG 
AACAGCCGGA AGACGAACGA GAGCGAGAGT GACCAGTCTG AGACCCATGG GGAGGCCTCT 
CAGGAAGGGA AAGGGACAAC CTATATCGAA CAGATCTACG AGGAATTCGG GGAGACCGGT 
GGATCCTCCC AAACAGAAAC GGTCTCTGAT GAAAACAAGA GTCTGATGTG GATTCTGCTG 
AAGCAGCTGC GCCCTGGCAT GGACTTGTCC CGAGTGGTTT TGCCTACCTT CATCCTGGAA 
CCACGATCTT TCCTCAACAA ACTTTCTGAT TACTACTACC ATGCTGACCT ACTTTCCCAA 
GCTGTGCTTG AAGATGATGC CTACAGTCGA ATCAAGCAGG TTCTGAGATG GTATTTGTCA 
GGCTTCTATA AGAAGCCAAA GGGAATAAAA AAGCCATATA ATCCCATTTT GGGAGAGACA 
TTTCGCTGCT GTTGGTTTCA CCCACAGACC AACAGTCACA CGTTTTACAT AGCAGAACAG 
GTTTCTCATC ACCCACCAGT ATCAGCTTTT CATGTCAGTA ATAGGAAAGA TGGGTTTTGT 
GTTACTGGCA GCATACTAGC CAAGTCAAAG TTTTATGGTA ACTCGCTTTC TGCTTTATTG 
GATGGGAAAG CCAAGCTTAC ATTCCTAAAC AGGAGTGAGG ATTACATTAT TACTATGCCA 
TACGCCCACT GCAAAGGAAT TTTATATGGT ACCATGACAA TGGAGCTTGG AGGGAAAGTT 
ACCATTGACT GTGAGAAAAG TAACCACAGG GCAGAACTGG AATTCAAGCT AAAGCCCTTT 
TTTGGTGGCA GCACAAGCAT TAATCAAATC TCTGGGAAGA TTAAATATGG AGAAGAAGTG 
TTAGCAAGCC TCGATGGACA CTGGGATGGG GAAGTACATA TAAATGACCT GAAAAATGGA 
AACACAGAAA TATTTTGGAA TCCAACCAGT GAGGTGCGGA GGCAGAGGCT GAAACGTCAC 
ATTGTGCTAT TTGAAGAACA AACTGAGTTT GAATCAGAGA GGCTTTGGCA GCACGTAACA 
AGTGCGATAA ACAAGGGAGA TCAGAACAAG GCAACTGAGG AAAAATTTGT ACTGGAAGAG 
GAGCAAAGAA AAGCAGCCCA GGAGCGGAAG GAGACTTGCA GTGAGTGGAA GCCGCTGCTT 
TTCCAGCATG ACGCTGCTAC CAATGAATGG CACTACAAAT ATGAGGATTT AAGGCCCTGG 
GACCCTCTAA ATGACATTGC CCAGTTTGAG AAGGATGGGT TACTTCAAAC CATGGAGAGG 
CACTTGCCCA CAAGGATGTT ATCCCACAAA ACCACAGGCA TAAACAACCA AATTGCACGA 
CACAAGAGGT CTGCAAAAGA CTGCAGGCGT CGTAAGGCCA GCGACCAACC GTCCAATCAC 
AGCCAGAACA CTGAGAGCAG CTGTTCAACA CCAGAGTCTG TGCAGGAGCT ATCGGATGAT 
GATGGATTTG AAAGTCCATG TACTCAGTGT GGGAAGGAAA TGAATCACTT GAAGGAAATT 
CATACGGCAG TTTTATCTCT ACAGAGAGCC CAACAGGACA TACATCGAAA CCTCGCTGTT 
CTGAACAAGA AATCTTTCTA CAGGAGGGTC TCTTCTGAAA ACCTCCTTCT GGACTCCCGC 
TGTTGGTTTC TCCTTTGCAT CTTTCTTACA TGTCAACTAT TCATTAATTA TGTCTTCAAA 
TAA

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

RefSeq	XP_006271246.1
CDS	548..3190
Translation	MKEENFLRRRFSLCPASSTPQKIDPRKLTRNLFFGADNEIYPLSPGKDMEGNSPSLLKDESPQTPNSISKNEYKLCNGSDKECVSPTAKFTKKETLKVQKKNYRQEKKRATKQLFSALKDPSVVIMADWLKIRGTLKSWTKLWCVLKPGVLLIYKTPKTGQWVGTILLHSCELIERPSKKDGFCFKLFHPLDQSIWAVKGPKGENVGSITQPLPSSYLIFRAASESDGRCWLDALELALRCSSLFRLSTSKQGKDGELNCSSDSSHAGLYNLLHTATISDQELFHLNESALENHHHLENDAFSDKSERDNIEESENETHENSRKTNESESDQSETHGEASQEGKGTTYIEQIYEEFGETGGSSQTETVSDENKSLMWILLKQLRPGMDLSRVVLPTFILEPRSFLNKLSDYYYHADLLSQAVLEDDAYSRIKQVLRWYLSGFYKKPKGIKKPYNPILGETFRCCWFHPQTNSHTFYIAEQVSHHPPVSAFHVSNRKDGFCVTGSILAKSKFYGNSLSALLDGKAKLTFLNRSEDYIITMPYAHCKGILYGTMTMELGGKVTIDCEKSNHRAELEFKLKPFFGGSTSINQISGKIKYGEEVLASLDGHWDGEVHINDLKNGNTEIFWNPTSEVRRQRLKRHIVLFEEQTEFESERLWQHVTSAINKGDQNKATEEKFVLEEEQRKAAQERKETCSEWKPLLFQHDAATNEWHYKYEDLRPWDPLNDIAQFEKDGLLQTMERHLPTRMLSHKTTGINNQIARHKRSAKDCRRRKASDQPSNHSQNTESSCSTPESVQELSDDDGFESPCTQCGKEMNHLKEIHTAVLSLQRAQQDIHRNLAVLNKKSFYRRVSSENLLLDSRCWFLLCIFLTCQLFINYVFK

Target ORF information:

RefSeq Version	XM_006271184.3
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X1, mRNA.

Target ORF information:

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

XM_006271184.3

ORF Insert Sequence:

ATGAAGGAAG AGAATTTTCT CCGCCGCAGG TTCTCTCTCT GTCCTGCTTC ATCCACTCCT 
CAGAAAATCG ACCCTCGCAA GCTGACACGG AATCTGTTCT TTGGAGCTGA CAATGAGATC 
TACCCGCTCA GCCCAGGAAA AGACATGGAA GGAAATAGCC CGTCATTGTT GAAGGATGAG 
TCTCCCCAGA CACCAAACTC CATTAGCAAG AATGAATATA AGCTTTGCAA TGGGTCTGAT 
AAAGAGTGTG TATCTCCCAC AGCCAAATTC ACTAAGAAGG AAACATTAAA GGTACAGAAG 
AAGAACTACA GACAGGAAAA GAAAAGAGCC ACCAAACAGC TCTTCAGTGC TTTGAAGGAT 
CCCAGTGTTG TGATCATGGC AGATTGGCTG AAGATCCGTG GGACTCTGAA AAGCTGGACC 
AAGCTGTGGT GTGTTCTGAA ACCAGGCGTG CTATTGATTT ACAAAACACC AAAGACTGGG 
CAGTGGGTAG GCACCATCCT GCTCCATTCC TGTGAGCTGA TCGAAAGACC CTCCAAAAAG 
GACGGCTTCT GTTTTAAACT CTTCCACCCT TTGGATCAGT CCATCTGGGC TGTGAAGGGG 
CCAAAAGGAG AGAATGTGGG TTCAATCACT CAGCCTCTAC CCAGCAGCTA CTTGATCTTC 
AGAGCAGCCT CTGAATCAGA CGGTCGATGT TGGCTGGATG CTCTGGAGCT TGCCCTGCGT 
TGTTCCAGTC TCTTCAGGCT CAGCACCTCC AAACAGGGGA AGGATGGAGA ACTGAACTGC 
TCATCTGATT CCTCGCATGC TGGCCTATAC AACCTCTTGC ACACTGCCAC CATCTCTGAC 
CAGGAGCTCT TCCATCTTAA TGAGTCAGCC CTGGAAAACC ACCACCATCT GGAAAATGAC 
GCTTTTTCTG ACAAGTCTGA GAGAGACAAC ATAGAGGAGT CTGAGAATGA GACTCACGAG 
AACAGCCGGA AGACGAACGA GAGCGAGAGT GACCAGTCTG AGACCCATGG GGAGGCCTCT 
CAGGAAGGGA AAGGGACAAC CTATATCGAA CAGATCTACG AGGAATTCGG GGAGACCGGT 
GGATCCTCCC AAACAGAAAC GGTCTCTGAT GAAAACAAGA GTCTGATGTG GATTCTGCTG 
AAGCAGCTGC GCCCTGGCAT GGACTTGTCC CGAGTGGTTT TGCCTACCTT CATCCTGGAA 
CCACGATCTT TCCTCAACAA ACTTTCTGAT TACTACTACC ATGCTGACCT ACTTTCCCAA 
GCTGTGCTTG AAGATGATGC CTACAGTCGA ATCAAGCAGG TTCTGAGATG GTATTTGTCA 
GGCTTCTATA AGAAGCCAAA GGGAATAAAA AAGCCATATA ATCCCATTTT GGGAGAGACA 
TTTCGCTGCT GTTGGTTTCA CCCACAGACC AACAGTCACA CGTTTTACAT AGCAGAACAG 
GTTTCTCATC ACCCACCAGT ATCAGCTTTT CATGTCAGTA ATAGGAAAGA TGGGTTTTGT 
GTTACTGGCA GCATACTAGC CAAGTCAAAG TTTTATGGTA ACTCGCTTTC TGCTTTATTG 
GATGGGAAAG CCAAGCTTAC ATTCCTAAAC AGGAGTGAGG ATTACATTAT TACTATGCCA 
TACGCCCACT GCAAAGGAAT TTTATATGGT ACCATGACAA TGGAGCTTGG AGGGAAAGTT 
ACCATTGACT GTGAGAAAAG TAACCACAGG GCAGAACTGG AATTCAAGCT AAAGCCCTTT 
TTTGGTGGCA GCACAAGCAT TAATCAAATC TCTGGGAAGA TTAAATATGG AGAAGAAGTG 
TTAGCAAGCC TCGATGGACA CTGGGATGGG GAAGTACATA TAAATGACCT GAAAAATGGA 
AACACAGAAA TATTTTGGAA TCCAACCAGT GAGGTGCGGA GGCAGAGGCT GAAACGTCAC 
ATTGTGCTAT TTGAAGAACA AACTGAGTTT GAATCAGAGA GGCTTTGGCA GCACGTAACA 
AGTGCGATAA ACAAGGGAGA TCAGAACAAG GCAACTGAGG AAAAATTTGT ACTGGAAGAG 
GAGCAAAGAA AAGCAGCCCA GGAGCGGAAG GAGACTTGCA GTGAGTGGAA GCCGCTGCTT 
TTCCAGCATG ACGCTGCTAC CAATGAATGG CACTACAAAT ATGAGGATTT AAGGCCCTGG 
GACCCTCTAA ATGACATTGC CCAGTTTGAG AAGGATGGGT TACTTCAAAC CATGGAGAGG 
CACTTGCCCA CAAGGATGTT ATCCCACAAA ACCACAGGCA TAAACAACCA AATTGCACGA 
CACAAGAGGT CTGCAAAAGA CTGCAGGCGT CGTAAGGCCA GCGACCAACC GTCCAATCAC 
AGCCAGAACA CTGAGAGCAG CTGTTCAACA CCAGAGTCTG TGCAGGAGCT ATCGGATGAT 
GATGGATTTG AAAGTCCATG TACTCAGTGT GGGAAGGAAA TGAATCACTT GAAGGAAATT 
CATACGGCAG TTTTATCTCT ACAGAGAGCC CAACAGGACA TACATCGAAA CCTCGCTGTT 
CTGAACAAGA AATCTTTCTA CAGGAGGGTC TCTTCTGAAA ACCTCCTTCT GGACTCCCGC 
TGTTGGTTTC TCCTTTGCAT CTTTCTTACA TGTCAACTAT TCATTAATTA TGTCTTCAAA 
TAA

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

OSBPL5 ( XM_006271186.3 ) cDNA ORF clone, Alligator mississippiensis(American alligator) -> XP_006271248.1 Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl74714
Clone ID Related Accession (Same CDS sequence)	XM_006271186.3
Accession Version	XM_006271186.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2526bp) 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	2016-12-08
Organism	Alligator mississippiensis(American alligator)
Product	oxysterol-binding protein-related protein 5 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017713697.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 9, 2016 this sequence version replaced XM_006271186.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator mississippiensis Annotation Release 102 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##

ATGGCTGCTC CTGTAGCTAG AAAAGACATG GAAGGAAATA GCCCGTCATT GTTGAAGGAT 
GAGTCTCCCC AGACACCAAA CTCCATTAGC AAGAATGAAT ATAAGCTTTG CAATGGGTCT 
GATAAAGAGT GTGTATCTCC CACAGCCAAA TTCACTAAGA AGGAAACATT AAAGGTACAG 
AAGAAGAACT ACAGACAGGA AAAGAAAAGA GCCACCAAAC AGCTCTTCAG TGCTTTGAAG 
GATCCCAGTG TTGTGATCAT GGCAGATTGG CTGAAGATCC GTGGGACTCT GAAAAGCTGG 
ACCAAGCTGT GGTGTGTTCT GAAACCAGGC GTGCTATTGA TTTACAAAAC ACCAAAGACT 
GGGCAGTGGG TAGGCACCAT CCTGCTCCAT TCCTGTGAGC TGATCGAAAG ACCCTCCAAA 
AAGGACGGCT TCTGTTTTAA ACTCTTCCAC CCTTTGGATC AGTCCATCTG GGCTGTGAAG 
GGGCCAAAAG GAGAGAATGT GGGTTCAATC ACTCAGCCTC TACCCAGCAG CTACTTGATC 
TTCAGAGCAG CCTCTGAATC AGACGGTCGA TGTTGGCTGG ATGCTCTGGA GCTTGCCCTG 
CGTTGTTCCA GTCTCTTCAG GCTCAGCACC TCCAAACAGG GGAAGGATGG AGAACTGAAC 
TGCTCATCTG ATTCCTCGCA TGCTGGCCTA TACAACCTCT TGCACACTGC CACCATCTCT 
GACCAGGAGC TCTTCCATCT TAATGAGTCA GCCCTGGAAA ACCACCACCA TCTGGAAAAT 
GACGCTTTTT CTGACAAGTC TGAGAGAGAC AACATAGAGG AGTCTGAGAA TGAGACTCAC 
GAGAACAGCC GGAAGACGAA CGAGAGCGAG AGTGACCAGT CTGAGACCCA TGGGGAGGCC 
TCTCAGGAAG GGAAAGGGAC AACCTATATC GAACAGATCT ACGAGGAATT CGGGGAGACC 
GGTGGATCCT CCCAAACAGA AACGGTCTCT GATGAAAACA AGAGTCTGAT GTGGATTCTG 
CTGAAGCAGC TGCGCCCTGG CATGGACTTG TCCCGAGTGG TTTTGCCTAC CTTCATCCTG 
GAACCACGAT CTTTCCTCAA CAAACTTTCT GATTACTACT ACCATGCTGA CCTACTTTCC 
CAAGCTGTGC TTGAAGATGA TGCCTACAGT CGAATCAAGC AGGTTCTGAG ATGGTATTTG 
TCAGGCTTCT ATAAGAAGCC AAAGGGAATA AAAAAGCCAT ATAATCCCAT TTTGGGAGAG 
ACATTTCGCT GCTGTTGGTT TCACCCACAG ACCAACAGTC ACACGTTTTA CATAGCAGAA 
CAGGTTTCTC ATCACCCACC AGTATCAGCT TTTCATGTCA GTAATAGGAA AGATGGGTTT 
TGTGTTACTG GCAGCATACT AGCCAAGTCA AAGTTTTATG GTAACTCGCT TTCTGCTTTA 
TTGGATGGGA AAGCCAAGCT TACATTCCTA AACAGGAGTG AGGATTACAT TATTACTATG 
CCATACGCCC ACTGCAAAGG AATTTTATAT GGTACCATGA CAATGGAGCT TGGAGGGAAA 
GTTACCATTG ACTGTGAGAA AAGTAACCAC AGGGCAGAAC TGGAATTCAA GCTAAAGCCC 
TTTTTTGGTG GCAGCACAAG CATTAATCAA ATCTCTGGGA AGATTAAATA TGGAGAAGAA 
GTGTTAGCAA GCCTCGATGG ACACTGGGAT GGGGAAGTAC ATATAAATGA CCTGAAAAAT 
GGAAACACAG AAATATTTTG GAATCCAACC AGTGAGGTGC GGAGGCAGAG GCTGAAACGT 
CACATTGTGC TATTTGAAGA ACAAACTGAG TTTGAATCAG AGAGGCTTTG GCAGCACGTA 
ACAAGTGCGA TAAACAAGGG AGATCAGAAC AAGGCAACTG AGGAAAAATT TGTACTGGAA 
GAGGAGCAAA GAAAAGCAGC CCAGGAGCGG AAGGAGACTT GCAGTGAGTG GAAGCCGCTG 
CTTTTCCAGC ATGACGCTGC TACCAATGAA TGGCACTACA AATATGAGGA TTTAAGGCCC 
TGGGACCCTC TAAATGACAT TGCCCAGTTT GAGAAGGATG GGTTACTTCA AACCATGGAG 
AGGCACTTGC CCACAAGGAT GTTATCCCAC AAAACCACAG GCATAAACAA CCAAATTGCA 
CGACACAAGA GGTCTGCAAA AGACTGCAGG CGTCGTAAGG CCAGCGACCA ACCGTCCAAT 
CACAGCCAGA ACACTGAGAG CAGCTGTTCA ACACCAGAGT CTGTGCAGGA GCTATCGGAT 
GATGATGGAT TTGAAAGTCC ATGTACTCAG TGTGGGAAGG AAATGAATCA CTTGAAGGAA 
ATTCATACGG CAGTTTTATC TCTACAGAGA GCCCAACAGG ACATACATCG AAACCTCGCT 
GTTCTGAACA AGAAATCTTT CTACAGGAGG GTCTCTTCTG AAAACCTCCT TCTGGACTCC 
CGCTGTTGGT TTCTCCTTTG CATCTTTCTT ACATGTCAAC TATTCATTAA TTATGTCTTC 
AAATAA

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

RefSeq	XP_006271248.1
CDS	16..2541
Translation	MAAPVARKDMEGNSPSLLKDESPQTPNSISKNEYKLCNGSDKECVSPTAKFTKKETLKVQKKNYRQEKKRATKQLFSALKDPSVVIMADWLKIRGTLKSWTKLWCVLKPGVLLIYKTPKTGQWVGTILLHSCELIERPSKKDGFCFKLFHPLDQSIWAVKGPKGENVGSITQPLPSSYLIFRAASESDGRCWLDALELALRCSSLFRLSTSKQGKDGELNCSSDSSHAGLYNLLHTATISDQELFHLNESALENHHHLENDAFSDKSERDNIEESENETHENSRKTNESESDQSETHGEASQEGKGTTYIEQIYEEFGETGGSSQTETVSDENKSLMWILLKQLRPGMDLSRVVLPTFILEPRSFLNKLSDYYYHADLLSQAVLEDDAYSRIKQVLRWYLSGFYKKPKGIKKPYNPILGETFRCCWFHPQTNSHTFYIAEQVSHHPPVSAFHVSNRKDGFCVTGSILAKSKFYGNSLSALLDGKAKLTFLNRSEDYIITMPYAHCKGILYGTMTMELGGKVTIDCEKSNHRAELEFKLKPFFGGSTSINQISGKIKYGEEVLASLDGHWDGEVHINDLKNGNTEIFWNPTSEVRRQRLKRHIVLFEEQTEFESERLWQHVTSAINKGDQNKATEEKFVLEEEQRKAAQERKETCSEWKPLLFQHDAATNEWHYKYEDLRPWDPLNDIAQFEKDGLLQTMERHLPTRMLSHKTTGINNQIARHKRSAKDCRRRKASDQPSNHSQNTESSCSTPESVQELSDDDGFESPCTQCGKEMNHLKEIHTAVLSLQRAQQDIHRNLAVLNKKSFYRRVSSENLLLDSRCWFLLCIFLTCQLFINYVFK

Target ORF information:

RefSeq Version	XM_006271186.3
Organism	Alligator mississippiensis(American alligator)
Definition	Alligator mississippiensis oxysterol binding protein like 5 (OSBPL5), transcript variant X2, mRNA.

Target ORF information:

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

XM_006271186.3

ORF Insert Sequence:

ATGGCTGCTC CTGTAGCTAG AAAAGACATG GAAGGAAATA GCCCGTCATT GTTGAAGGAT 
GAGTCTCCCC AGACACCAAA CTCCATTAGC AAGAATGAAT ATAAGCTTTG CAATGGGTCT 
GATAAAGAGT GTGTATCTCC CACAGCCAAA TTCACTAAGA AGGAAACATT AAAGGTACAG 
AAGAAGAACT ACAGACAGGA AAAGAAAAGA GCCACCAAAC AGCTCTTCAG TGCTTTGAAG 
GATCCCAGTG TTGTGATCAT GGCAGATTGG CTGAAGATCC GTGGGACTCT GAAAAGCTGG 
ACCAAGCTGT GGTGTGTTCT GAAACCAGGC GTGCTATTGA TTTACAAAAC ACCAAAGACT 
GGGCAGTGGG TAGGCACCAT CCTGCTCCAT TCCTGTGAGC TGATCGAAAG ACCCTCCAAA 
AAGGACGGCT TCTGTTTTAA ACTCTTCCAC CCTTTGGATC AGTCCATCTG GGCTGTGAAG 
GGGCCAAAAG GAGAGAATGT GGGTTCAATC ACTCAGCCTC TACCCAGCAG CTACTTGATC 
TTCAGAGCAG CCTCTGAATC AGACGGTCGA TGTTGGCTGG ATGCTCTGGA GCTTGCCCTG 
CGTTGTTCCA GTCTCTTCAG GCTCAGCACC TCCAAACAGG GGAAGGATGG AGAACTGAAC 
TGCTCATCTG ATTCCTCGCA TGCTGGCCTA TACAACCTCT TGCACACTGC CACCATCTCT 
GACCAGGAGC TCTTCCATCT TAATGAGTCA GCCCTGGAAA ACCACCACCA TCTGGAAAAT 
GACGCTTTTT CTGACAAGTC TGAGAGAGAC AACATAGAGG AGTCTGAGAA TGAGACTCAC 
GAGAACAGCC GGAAGACGAA CGAGAGCGAG AGTGACCAGT CTGAGACCCA TGGGGAGGCC 
TCTCAGGAAG GGAAAGGGAC AACCTATATC GAACAGATCT ACGAGGAATT CGGGGAGACC 
GGTGGATCCT CCCAAACAGA AACGGTCTCT GATGAAAACA AGAGTCTGAT GTGGATTCTG 
CTGAAGCAGC TGCGCCCTGG CATGGACTTG TCCCGAGTGG TTTTGCCTAC CTTCATCCTG 
GAACCACGAT CTTTCCTCAA CAAACTTTCT GATTACTACT ACCATGCTGA CCTACTTTCC 
CAAGCTGTGC TTGAAGATGA TGCCTACAGT CGAATCAAGC AGGTTCTGAG ATGGTATTTG 
TCAGGCTTCT ATAAGAAGCC AAAGGGAATA AAAAAGCCAT ATAATCCCAT TTTGGGAGAG 
ACATTTCGCT GCTGTTGGTT TCACCCACAG ACCAACAGTC ACACGTTTTA CATAGCAGAA 
CAGGTTTCTC ATCACCCACC AGTATCAGCT TTTCATGTCA GTAATAGGAA AGATGGGTTT 
TGTGTTACTG GCAGCATACT AGCCAAGTCA AAGTTTTATG GTAACTCGCT TTCTGCTTTA 
TTGGATGGGA AAGCCAAGCT TACATTCCTA AACAGGAGTG AGGATTACAT TATTACTATG 
CCATACGCCC ACTGCAAAGG AATTTTATAT GGTACCATGA CAATGGAGCT TGGAGGGAAA 
GTTACCATTG ACTGTGAGAA AAGTAACCAC AGGGCAGAAC TGGAATTCAA GCTAAAGCCC 
TTTTTTGGTG GCAGCACAAG CATTAATCAA ATCTCTGGGA AGATTAAATA TGGAGAAGAA 
GTGTTAGCAA GCCTCGATGG ACACTGGGAT GGGGAAGTAC ATATAAATGA CCTGAAAAAT 
GGAAACACAG AAATATTTTG GAATCCAACC AGTGAGGTGC GGAGGCAGAG GCTGAAACGT 
CACATTGTGC TATTTGAAGA ACAAACTGAG TTTGAATCAG AGAGGCTTTG GCAGCACGTA 
ACAAGTGCGA TAAACAAGGG AGATCAGAAC AAGGCAACTG AGGAAAAATT TGTACTGGAA 
GAGGAGCAAA GAAAAGCAGC CCAGGAGCGG AAGGAGACTT GCAGTGAGTG GAAGCCGCTG 
CTTTTCCAGC ATGACGCTGC TACCAATGAA TGGCACTACA AATATGAGGA TTTAAGGCCC 
TGGGACCCTC TAAATGACAT TGCCCAGTTT GAGAAGGATG GGTTACTTCA AACCATGGAG 
AGGCACTTGC CCACAAGGAT GTTATCCCAC AAAACCACAG GCATAAACAA CCAAATTGCA 
CGACACAAGA GGTCTGCAAA AGACTGCAGG CGTCGTAAGG CCAGCGACCA ACCGTCCAAT 
CACAGCCAGA ACACTGAGAG CAGCTGTTCA ACACCAGAGT CTGTGCAGGA GCTATCGGAT 
GATGATGGAT TTGAAAGTCC ATGTACTCAG TGTGGGAAGG AAATGAATCA CTTGAAGGAA 
ATTCATACGG CAGTTTTATC TCTACAGAGA GCCCAACAGG ACATACATCG AAACCTCGCT 
GTTCTGAACA AGAAATCTTT CTACAGGAGG GTCTCTTCTG AAAACCTCCT TCTGGACTCC 
CGCTGTTGGT TTCTCCTTTG CATCTTTCTT ACATGTCAAC TATTCATTAA TTATGTCTTC 
AAATAA