eEF1A2 binding protein (IGFN1) (NM_001164586) Human Untagged Clone

Specifications

Product Data
Type	Human Untagged Clone
Tag	Tag Free
Synonyms	EEF1A2BP1
Vector	pCMV6-Entry
Sequence Data	Fully Sequenced ORF (showhide) >SC331130 representing NM_001164586. Blue=Insert sequence Red=Cloning site Green=Tag(s) ATGGCAGGAAAGCTCCGGAAGTCCCACATCCCTGGAGTGAGCATCTGGCAGCTGGTGGAGGAGATCCCT GAAGGCTGCAGCACGCCGGACTTTGAGCAGAAGCCCGTCACCTCGGCTCTGCCAGAGGGGAAAAATGCT GTCTTTCGGGCTGTGGTCTGTGGGGAGCCCAGGCCCGAGGTGCGTTGGCAGAACTCCAAAGGTGACCTC AGTGATTCCAGCAAGTACAAGATCTCCTCCAGCCCTGGCAGCAAGGAGCACGTGCTGCAGATCAACAAG CTGACAGGCGAGGACACGGATCTGTACCGCTGCACAGCAGTAAATGCGTACGGAGAGGCCGCTTGCTCA GTGAGACTCACTGTCATCGAAGTTGGCTTTCGGAAGAATCGGAAGAGGCACAGGGAACCGCAGGAAGAC CTCAGGAAGGAGCTGATGGACTTCCGGAAGTTGCTGAAAAAGAGGGCCCCACCAGCCCCCAAGAAAAAG ATGGACCTTGAGCAGATATGGCAGCTGCTGATGACAGCAGACAGGAAGGACTACGAGAAGATCTGCTTG AAGTATGGCATCGTCGACTACCGTGGCATGTTGCGCAGGCTGCAGGAGATGAAGAAGGAACAGGAGGAC AAGATGGCACAGTACATCAACACCATCTCCAGCTTAAGACACATCAGGGTCACCAAGGATGGGAATGCA AAGTTTGACTTGGAGCTGGATCTCAAGGATTCTCAGAGCAAGATTTACCTGTATAAGGATGGTGAGATG ATCCCCTATGGCTTCAACAACCAAACCAAGCACTGTCTGCGCCGGCTGGGGAAGCGCTATGAGTTCCAG ATTCAAGACCTGAGGCCTGAGGACTCTGGCATTTACCAGGTCAAGGTGGAGGATGCTGTGGTCTTCTCC ACAGAACTGGAGGCCAGTGCCATCCCCCCAAGAGTGGTGGTCCCACTGGCGGAGACCCACTGTGAGGAG CAGGGTGACGCAGTCTTTGAATGTACCCTCTCCAGCCCCTGCCCTAGTGCAGCCTGGCATTTCCGGCAC CGGCTACTCCACCCCAGTGACAAATATGAAGTGTATGTGTCCCCTGACGGGCTGACCCACCGGCTGGTG GTGAGGGGGGCACGTTTCTCAGACATGGGCCCCTATTCGCTGGGCACCGGGCTCTACACTTCCAGCGCC TGGCTGGTGGTTGAAGCTGGGAAGGATAAAGACCTTCAGTCCACAAGTGCTGACCACAAACTGCAGAGG CAAGGAGCCCAGGCATCAGGAGCAGAAGAGTCTGGGAGCATCGAGAGCCAGGGAGAGAAATCCAGAGAG CAGGGCCCCAGGGGGGGCTCCCTTGAAGGGGCTGGGCCGGCTTCTGGGCTCCAGCACATAGCCAGCCCA GACAGGGATGGCCTTGGCAGACATGGCTACTCCTTGATGGGGGACAAAGGGACAGCTGACTCAGCCTGG GGCCCTGGACAGGAGGGCGAGGGCTTTCCAGTAGCAGAGGGAAGCAGAGCCACTCTTCCCAGGGAAAAT CAATCCCACAGAGAGGGAGGCTGGGCCAGAAGCCTTGCAGAGAGGCCCCATCTACAGGGAGAGAGCTCA GAATCAGGGTTGGGCCTCCCAGAAAAACAACAGCAAGATCGTGGCAGAGACAGCAACAGTGATGAATGC TGGAGGAAAGCAGGAGGCTGGGAGGCTGGGTCCAGTCGGCTTCAGGCTGGAGGACTGGGGAGCAGCAGG GAAGGAAAGGAGCACAGAGGGGACAGTGGAAGACAACTGGACAGGCATGCCCCAGAGCAACTGTGGGAT GCTCGACTGGGACCTGGGAGAGGAAAGAGCGACCTGCAGGGATGCCAGTCTGATCCTGTAGGGTCCTGG CCAAGAGGAAAGCAGATAGAGATTTCACAGGATGACAGCCTGGCTGAGATGGACAGAGGGGATGCTCCA AGTAGGGAAAGGGGGAGAGGAATAGTAGTGTGGGGTGGTGGGACTGGCCTGGGAGAAGCTGGAGACAGC AATGGGGCAGGAGGTCCTGGCACCCTGGAGCTTACTGGAGGAAGAGGTTCTGGCTCCAAGGTGGGCATG GCCCCTGAATCCTGGGGTTCTCAGGGAGGTAGAGATGCTGACTATGGGGAAGCCAGGGGCTACTGGGGG TCAGGAGAGTTGCTAGAACAGATACCTGGAGGCAAGGACTTCCAGGAACCATCAATATCAGGTGGTAGA AAATTCCTTCTGGGAGATGGGAGTCCTGAGATCAAAGCTGAAGACTCACTGCAGGAGGCAGATGGTATA TGCCGGGGGGAGTCTGTAGTTACAGGAAGTGCCTACAAAACTGGCCCTGGAGGCCCAGGAGACCCCAGA GGCTGCGAAGGTGTCCTACAGGAGCTCAGGGGAAGGGATGGCCAGGAAACAGCTTGGGCCTCGGGTGAG GTAGAGTATGACCCCAGAAGCTTCCAGTCTTCCCAGGGCTGGACAGCAGGTCACAGAGCAGCAGGGGGT ATTGGCAGAATAGAATCTAAGGGCACAAGTCCTTGGGATGACACACCATCTAGCCTCAGAAAAACTGGG GCCCACCATGGGCCTGGAGTGCTGGGGCCCAGTGGAGGACAAGAGGGTATGGGTGGTATCTGGGTGGCT GGACTGACGGAGTCTGGTCAGGGGGTGGATGCCAGAAGCCACTGGCTAAGTAGGGCTCCAGGCCTGGGT GCTCAGGGATCTGGGGGGACACTAGGAGATAAGAAAGGATTAAGAGGTCCTGGGTCAATAGGGTCTGAA CCAGATTTCTGGAATGGGTCAGGGAGCTCCAGAGTAAAAGGACCCAGAGGTGAGACAGGCTATAAGGAT GGCTTGGAAGGTCCCGGGAGAATGGAATCTAGGTACGAGGGTGGCTTAGGATATTCTAGGGAAATAAGC TCTAAAAGCGGGGCTGGTTATAGCTATGGCTCAGGGGTTCCAGGAGAAATGGGGTCCGGCCATGGTGCT GGTTGTAGAGTTTCCCCTAGGGCACCTGCGGGAGTGGAGTCTGAGGAAGGGGGTGGGTACAGGCATGGC TCCGGAGCGCCTGGGGGAGTGTGGTCTGGAAATGAAGATTCTGGCCCTGCAGGAGGAGGGTCTGGGAGA GTTGCCAGTCTTAAAAATGGCTCAGGTGGTCCTGATGGAGCACCCATGAATGACACCAGGAATTGGGCC TCTGCATGCCAGGCAGGCATGGACCCTAGGGGAGGGCACCATTCAGATGGTGGCCTAGGGAGTCCTGGG GTGACAGGGTCTGCGGGTAGAGGTGGTCTCAAGGCCCCTGGAGTAGTGGAGACTGTTGGGATGGGATGT GTGGAAGCAGAACCAGAGAGCTCTGGAAGAATAAGGCCTTGGGGTCAGACTGGAAATTATGGGGGCTTC AGAGCCTCAGAGGCCCTGGGGGCCTTTGGAGAAGGAGGCTATGAAGATGGCTCTGGGGGTCCAGGAGCC ATGGGACCAGGGTCTCTGAGGGCAGGAAGCAAAGTGGGTGAGGGGGATGGGACAAGATGCCCTGGTGCT AAGGCCTCTGGAGCTGGAGCTGGTTATAGGGATGATACCAGGCACCCTGAGTCACTCGCACCTCACAAT GGGGCCGCTTCTGGGAGCCAGTGGGCTTATGGGGCTGGCAATGTGCTGGGTTATGAGGATGGATCAGAA CTTCCAGGGCCTCAGGGAACTGGGGTCAGAACAGCCTATGGAGAAAGGTCAAGGGGCCTTGGGCCTAGG AGTACAGGGCCAGGGGGTGAGGCAGGCTTTAGAGATGGTTCAGGAGGCCTCCAAGGAATGGGATCAGCA GATGGGCCAGGTTGTAGGAAGGGTATTGGGAGTTCTGGGGAAATGGGGTCAGTGGATAAGGAAGGTTAT AAGAAAGATTTGGGGGCTCCTGAGAATATGGGTTCGGGGAGCAAGGCAGATTATAGGGATGGTGTAGGG GGTTCTGGGGCAATGGGGTCAATGGATGAAGCAGGTTATAGGAAAGATTTAGGGGCTCCTGAGGGAATA AGTTCAGGGAGCAAGGCAGATTATAGGGGTGGTTTACAGGATTCCAGGGAAGCGGGTTCAGGGAGCAAG GCAGATTATAGCGGTGGTTTAAAGGGTTCCAGGGAAATCGGGTCAATGGATGAAACAGATAATAGGAAA GATTTGGGGGTTCCTGAGGGAATGGGTGCAGGTTACAGGGCTGGTTTAAGGGGTCCTGGGGAGATGGGG TCACTGGATGAGTCAGGTCATAGGAATGGGATTGGAGGTTATGGGGAAATGGGGTCAGGTTATAGGGAG GATTTGGGGGCTCCTGAGGGAATGGGCACAGGGAGCAAGGCAGGTTATAGGGATGGCTTAAGGGGTTCT GGAGAAATGAGGTCAATGGATGAGGCAGGTTATAGGAAAAATTTGGGAGCTCCTGAGAGAATGGATTCA GGGAGCAAGGCAGGTTACAGGGGTGGTTTAAGGGGTTCTGGGGAAATGGGGTTAATTGAGGCAGGCTAT AGGAAAGATTTGGGGGTTTCTGAGGGAGGGGGTTCAGGGAGCAAAGCAGGTTATAGGGGTGGCTTAGGT TCTGGGGAAATGGGGTCTGTGGATAAGGCAGGCTATAGGAAGGATTTGGGGGCTTCTGAGGCAATAGGT TCAGGGAGTAAGGCAGGTTTTACGGATGGTTTAGGAGGTTCTGAAGAAATGGGGTCAGTGAATAAGGCA GGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGCAAGTTTTAGGGATGGT TTAGGAGGTTCTGGAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAGGACTTGGGGGTTCCTGAG GGAATAGGTTCAGGAAGTAAGGCAGGTTTTAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGGTCAGTG AATAAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATAGGTTCAGGGAGCAAGGCAGGTTTT AGGGATGGTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGAATTTGGGG GCTCCTGAGGGAATAGGTTCAGGGAGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGTAGAAATG GGGTCAGTGAATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGGAATGGGTTCAGGGAGTAAG GCAGGTTTCAGGGATGGTTTAGGGGGTTCTGGAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAG GATTTGGGTGCTCCTAAGGGAATAGGTTCAGGGAGCAAGGCAGATTTTAGGGATGCTTTAGGGAGTTCT GGGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGTGGGCTCCTGAGGGAATAGGTTCA GGAAGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGT TATAGGAAGGATTTGGGGGCTCCTGAGGGAATGGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTA GGGGGTTCTGGAGAAATGGGGTCAGTGAATGAAGCAGGTTATAGGAAGGATTTGGGTGCTCCTAAGGGA ATAGGTTCAGGGAGCAAGGCAGATTTTAGGGATGCTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGAT GAGGCAGGTTATAGGAAGGATTTGTGGGCTCCTGAGGGAATAGGTTCAGGAAGTAAGGCAGGTTTTAGG GATGGTTTAGGGAGTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGTTATAGGAAGGATTTGGGGGCT CCTGAGGGAATGGGTTCAGGGAGTAAGGAAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGG TCAGTGAATAAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGAA GGTTTCAGGGATGGTTTAGGGGGTTCTGAGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGGAT TTGGGGGCTCCTGAGGGAATAGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTAGGGGGTTCTGAA GAAATGCGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGAGAATAGGTTCAGGA AGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTGTAGAAATGGGGTCAGTGAATGAGGCAGGTTAT AGGAAGGATTTAGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGACAGGTTTCAGGGATGGTTTAGGG GGTTCTGAAGAAATGGAGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTGAGGGAATA GGTTCAGGAAGTAAGGCAGGTTTTAGGGATGGTTTAGGGAGTTCTACAGAAATGGGGTCAGTGAATGAG GCAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGAGAGTAAGGCAGGTTTTAGGGAT GGTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGATGAGGCAGGTTATAGGAAGGATTTGGGAGCTCCT GAGGGAATGGGTTCAGGGAGTAAGGCAGGTTTCAGGGATGGTTTAGGGGGTTCTGAAGAAATGGGGTCA GTGAATAAGGCAGGTTATAGGAAGGATTTGGGGGCTCCTAAGGGAATGGGTTCAGGGAGTAAGGCAGGT TTCAGGGATGGTTTAGGGAGTTCTGGGGAAATGGGGTCAATGGATGAGGCAGATTATAGGAAGGATTTG GGAGCTCCTGAGGAAATGGGTTCAGGCAGTTACACAGATTACAGGAATGGTTTAGGCAGTTCTGGAAAA ATCAGTTCAGGGGATGAGGCAGGTTATAAGAATGTTTTAGGGGGTTCTGGGAGGAATCCATTAGGGAGC GAGGCAGGTTCTAGGGGTAGTTTGGAGGATTCTGGGTACATTTTGTCATGGAATGAGGCAGGTTCTAGG CAAGGCTTTGGGGGAACTAGTGGCATGGGGTCAGGGAGTGAGGTCAGTTATAGAGGAGGCTCAGGAGGA TCTGGGGAAACGGGACCAGAGGGTAAGATGGGTTATGGAGATGGTTCAGGGAGGCTTGGAGTACCAGGC TCACTGGCTGGAATAGGACATGAGGCTGGACCCAGAGGCCATAAAGCCATGGGTCACAGGTCAGGATAT TGGGTAGCATCAGAGGGTGACACGAACTCCAAGGATGGTCCAGAGCGAGCCAGGGAAACCAGGCTTGTG GATGGGGCAGGACCTGGGGTGGAACCTGGGATGGCTGGAATGCCAGGCACTGCAGGTGGCATGGCACAC AGAGACAGCCTCAGGGGCACAGGGGTGCTGGGGTCTCAGGGAGGGCGACAGACTCTTTCAGATGAGCGA GGCTCCACCAAAGATCTTGGGGGCTATGGAACTTCAGGGATCCCTGAGGCCTCGGAGGCTGCTGGTGCC AAGGGAAAACCAGATGTCAAAGAATGGCAAGACAGTTCTGGGACTCCAGGGTCTTCTAGAGACAGAGGG GCTCCCAGGGTGAAGGATAGGTCTCCAGACCAAGCAGGGATAATGGGGGCTTCTGGGTTTCTTGATGGC AAGGGGGCAGTGGAAGGTGAGACCTGGGCAGGAATGGCTGCTCTAGGGTCTGGATATGAACGGGACATC TGGAAAGCAGGCCCAGGAATGACAGACAGGGGTAGAGTTGCTGGCCAGGGGGGGTTGGCATCTCAGGGA GGTGGGGACTCACTTTTGGGAGGCAGAAGGGTAGGCTCAGGGAGTTCAGTGGGGACAGGTCAGGATCTG GACAGCGGCTCTATGCCTGGGGGAAGGGGCAAGTCAACATCAGGGCCTGCTGATAGACAAGGGACGAGC AATGCTTGGGCTCCTGATTGGGAAAACCAGGGGTTTAGCCAAGGCAGCATAGATGCTGGGAAGCAGCCC GCAGGCTCCAGAGCTTCCGGTTCTCTGCAGGAGAAAGATGCCGCTTTTGGTGGGACCCATGAAGGGCCA GGGGGCTTTAAGGGTGGGGAGGGTGCACCAGGCCAAGAGGCGGCTGGTGGATGCCGAAGCCCATGGTCC CTGGATAGCAAAGGTTCAAGTCCTGGAAGGGGCAGTTCTGTTGATGCAGAGGACTCAGGTATCCTGGGC AAGGGGAATTCTACTGAGTGGGGGAATGCCCTCACCCCAAAACCTGGGGAGTCCGGACCTCAGGGAGCC TGGAATGGCTTAGATGGTCCCTTTGGCAGAAAAGCCTCTAGAGATAGGTCAGGAGGGACCCAGGACCTG AGCTCTCAGCGAGGCAAGGGACAGAGAGGAGGAAAGAGGTCCCTCGGGGAGCAGGGGTCCCTGGAGGCT GAGAATGGTGAGGTCCAGGGTCCTGGGGCCCTAAAGGAGGATGAAGGGCAGGGAGTGGAAGAGGCTGGG AGGTCAGGCAGGAGGCCTGGCTCACTCAGGAGCAGGTCTCAGGCACAGTCAGGGGCTGAGGTTGGAGGA GGAAAGAGAAGGGGAGCAGACGAGGCTGGAAGCATGGGGTGGCAGCCTATGGGAGAGAACTGGGGGTGC CTGGAGGAGATGCTGAATGAAGATCAGAGCCGGGAGCCCCCTGGTCACCTTGGTAGCAGGAGAAGTGGC AAAGACGGCAGGTTGGACATCTATGGAGAGAGGAGAGATGCTACCCGGAGTTCCACATCCAGATACAAG CCTGGCACTGGCAGTTTCTCCAAGGATGCCCAAGGCCCCATGGGCCACTTCTCCCAGGGCCTGGCTGAC ATGGAAGTGCAGCCGGGGGAGGCCGCCACACTCTCCTGTACCCTCACCAGTGACCTGGGACCTGGCACC TGGTTTAAGGATGGCGTCAAGCTCACCACCCAGGATGGAGTCATCTTTAAGCAAGACGGTCTCGTGCAC AGCCTCTTCATCACGCATGTGCAGGGGACCCAAGCTGGGAGGTACACCTTTGTAGCTGGTGACCAGCAG AGCGAGGCCACCCTGACCGTCCAGGATTCCCCTACCATTGCTCCAGATGTGACAGAGAAACTGAGAGAG CCACTGGTGGTCAAGGCTGGGAAGCCGGTGATAGTGAAGATCCCCTTCCAGAGCCACCTCCCCATTCAG GCTGCCTGGAGGAAGGACGGGGCTGAGGTGGTGGGCAGCAGTGACAGGGAGGCCCAGGTGGACCTGGGG GATGGCTACACGCGGCTGTGCCTCCCCAGCGCAGGCAGGAAGGACTGTGGCCAGTACAGCGTGACACTG AGGAGTGAGGGAGGCTCTGTGCAGGCCGAGCTCACTCTGCAAGTCATAGACAAGCCTGATCCCCCACAA GGCCCCATGGAGGTTCAGGATTGCCATAGGGCTGGCGTCTGCCTCCGCTGGCGGCCCCCAAGGGACAAT GGGGGCCGGACTGTAGAGTGCTACGTGGTGGAGAGACGGCAGGCTGGCAGGAGCACTTGGCTGAAGGTG GGCGAGGCCCCCGCTGACAGCACCACCTTCACGGATGCCCATGTGGAGCCAGGCAGGAAGTATACCTTC CGAGTGCGGGCTGTGACCTCAGAGGGGGCTGGCGAGGCCCTGGAGTCTGAGGAGATATTGGTGGCTCCT GAGGCTCTCCCCAAGGCCCCTTCCGCGCCAGCCATCCTGTCGGCCTCCAGCCAGGGCATCACACTGACA TGGACAGCACCTCGGGGCCCCGGCAGCGCCCACATCCTGGGCTACCTGATCGAGAGGCGTAAGAAGGGG AGCAACACCTGGACGGCAGTGAACGACCAGCCGGTGCCTGAGAGGAGGTGGACGGTGGCGGACGTGCGG CAGGGCTGTCAGTATGAGTTCCGGGTCACAGCTGTGGCTCCCTCAGGTCCCGGAGAGCCTGGACCTCCA TCGGATGCTGTCTTTGCTCGGGACCCCATGAGACCCCCTGGGCTGGTGAGGAATCTCCAAGTCACAGAC AGATCGAACACCAGCATCACTCTGAGCTGGGCTGGGCCAGACACCCAGGAAGGGGATGAAGCCCAGGGG TATGTGGTGGAGCTGTGCAGCTCAGACAGTCTCCAGTGGCTCCCGTGCCATGTGGGCACCGTGCCAGTC ACCACCTACACGGCCAAGGGGCTTCGGCCTGGAGAGGGCTACTTCGTGCGGGTGACAGCAGTTAATGAA GGAGGCCAGAGCCAGCCCAGTGCCCTGGACACATTAGTGCAAGCCATGCCTGTTACTGTCTGTCCCAAG TTCCTCGTGGACTCCAGCACCAAGGACTTGCTGACAGTCAAGGTCGGGGACACAGTTCGTGTGCCCGTC TCCTTTGAAGCCATGCCCATGCCTGAGGTGACCTGGCTGAAGGATGGCTTGCCCTTGCCCAAAAGAAGT GTGACTGTCACTAAGGATGGCCTCACCCAGCTTCTGATCCCTGTGGCTGGACTCTCAGACAGTGGTCTC TACACTGTGGTGCTGAGGACCCTGCAGGGGAAGGAGGTTGCCCACAGCTTCCGTATCAGGGTGGCAGCA TGCCCGCAGGCCCCTGGGCCCATCCACCTGCAGGAGAACGTGCCTGGGACGGTGACGGCCGAGTGGGAA CCCTCTCCTGACGAGGCCCAGGATGTCCCGCTGCACTACGCGGTGTTCACACGCTCCTCAGCGCACGGT CCCTGGCACGAGGCAGCCGACCGCATCCACACCAACCGCTTCACCCTCCTGGGCATCCTCCCCGGCCAC GAATACCACTTCAGGGTGGTGGCCAAGAATGAGCTGGGGGCCAGCAAACCCTCGGACACCAGCCAGCCC TGGTGCATCCCCCGGCAGCGCGACAGGTTCACAGTGAAGGCTCCGTGCTACCGGGAGCCCGACCTGAGC CAGAAGCCCCGGTTCCTGGTGGGCCTGCGGTCCCACCTGCTGCCCCAGGGCTGCGAGTGCTGCATGAGC TGTGCCGTGCAGGGCTCGCCCCGGCCCCACGTCACCTGGTTCAAGAATGACCGCAGCCTGGAAGGAAAC CCCGCGGTGTACAGCACTGACCTGCTGGGCGTGTGCTCCCTCACCATCCCCAGCGTATCCCCGAAGGAC AGCGGGGAGTACAAGGCTGTGGCTGAGAACACGCTGGGCCAGGCAGTCAGCACTGCCACCCTCATTGTC ATAGAACCCAGCACCTAG
Restriction Sites	SgfI-MluI
ACCN	NM_001164586
Insert Size	11127 bp
OTI Disclaimer	Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
Product Components	The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution	1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note	Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq	NM_001164586.1
RefSeq Size	11810 bp
RefSeq ORF	11127 bp
Locus ID	91156
UniProt ID	Q86VF2
MW	383.8 kDa

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