Aspm (NM_001105955) Rat Untagged Clone

Specifications

Product Data
Type	Rat Untagged Clone
Tag	Tag Free
Synonyms	Calmbp1
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >RN209692 representing NM_001105955 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCGACGGTGCAGGCGGCTTACAGCTCGGAGGAGAGCGGGCGACGGGCGCGCCGGGATCCCGCGGCCG AGGACGCGTCTCCGCCGGTGCTATTGCTCAGCCACTTCTGCGCCGTTCCCTTCCTCTGTTTCGGGGATGT CCGCGTGGGTACGTCGCGTACGCGGTCTCTGGTCCTGCACAACCCGCACGCGGAGCCTCTGCATGTGGAG CTGTCGCTGCTGCGCGCCGCAGGCCAGGGCTTCAGCGCGTCGCCGAACCGCTGCGAGCTGCAGCCTAAAG AAAAGATTACCATTTCTGTTACCTGGACACCACTGAAAGAAGGGGGAGTAAGGGAGATTGTGACATTTCT TGTAAATGATTTTCTGAAGCACCAGGCTGTATTGTTAGGAAATGCAGAAGAGCAGAGGAAGAAAAAGAGA AGTCTTTGGAATACCAGTAAGAAGATTCCAGCCTCTTCAAAATATACCAAAAGGACCTCCAAAAACCAAA ATTTTAATGAATCGTTTACTATTTCACAAAAAGTTGACAGAATTAGGAGCCCACTGCAGCCTTGTGAAAA TCTGGCTATGAGTGAATGCTGCTCCCCAACAGAAAACAGTTCTTTACCCCTTGAAGAAAACAAAGTGCCC ACCTCATCCATCAGCCCTATTAGAGAATGCCAGAGTGAAGCTTGCTTGTCACTGTTTTCCCCCGGACCCA CTGCCTATTCGTCTCTTCATGAATCCGAAAATGCACGAAATTCAAAAGTACAAGATGCCAGCATTTCAAA AAATTTTGATTTTAACGAGGAAGTTACAAATGAAACTTTTATTAATCCCATTAGCGTTAGTCACCACAGT GAGGGGGATAGTAAACTTGCTCTGACCCCAAACTGTTCTTCGCCTTTGAATATTGCACAAACCCAAATGC ATTTTTTAAGTCCAGATTCTTTTGAAAACGACAGCTATACATCTGATAATGGCCTGAGATCAATGAAAAA TGTTTTATCAGATACATTTAAGAAAGATCCCTCAGAATCTGTATGTCTGGAATCCCAAACTGTACATGAA GTTTGCCAAACAATCTTAAGCCCAGAGTCTTTTCTAAATGATAATTATGGACTTAAGAAAGGTCTAAACT TAGAATCCGTCAATCCTGTTTTATCTCCAACCCAATTTGTAAAGGATAACATGGTCCACGTAGGGCAGCA AATGGGTGAGCTATCACCATTGCCAGCTAAACCGTCTCAGGACCGGAGAGTAAATGAAGGCTTGGCGGAT AACCCCAAGGGTCAGCATGCACAAACTCCCAGCAGTAAATCTGAACAACAAAACCCTGGAGAAATGAATT TACATAACTATGGTTTTACAAAGCAAAAACCCAAGATTTCTGAGCTTCAAGATGCTTTTTGTAACCAGAG CAAACAACTGAAAAAGAGACGTCCAATTCTCTCCGCCACTGTTACCAAAAGGAAGCCCACCAATGCCAGA GAAAAGCTACCTGAGATTAACAAACCAAATGCAAAAAGGAGTCTCGAAGGTGTAGTAGGAGAATGTGGAA AAGAAGTGGATAAGCTAAAAGAGAAAGCCTTTCATTCTTCTCTTCCAGTTGTAGAGGCAGTAATAAATAA ACCTCCAAGTTATAGAAATGAAGTAACACCTTCAACTGTTGTAATCGCCCGCAAAAGAAAGAGCAGTGGG ACCGTGGGAGACACAAGTGGAAAGCTGGCTGTTGCAGAATGGATGGACGTGTGTGAAATCAAACGGATCC ATTTTTCTCCTCTGGAATCTACACCATCAACTGTGGCAAGAACCACAAAGAAAGAAGCACTCACTTCAAA TCGTATAAGCAACTTGGAGCGATCAGGCCTGAAGAAGAAAACAGATTCATCAATATTAAAAACACCTCTT TCTAAAACAAAGAGAAAGAGAAGATCCATTGTCCCTGTAGCACAGTCTCATCTGACCTTTATAAAGCCAT TAAAAGCAGCTATTCCTAGACACCCAATGCCATTTGCTGCAAAGAATATGTTCTATGATGAACGCTGGAA GGAAAAACAGGAACAGGGCTTCACTTGGTGGCTAAATTATATATTAACACCTGATGACTTCACTGTAAAA ACCAATGTTTCTAAAGTAAACGCGGCCACCCTTATTTTGGGAGCGGAGGGCCAGCATAAAGTAAGTGTCC CGAAAGCACCTACAAAAGAGGAAGTGTCTCTCAGAGCTTACACCGCCAGCTGCAGGCTGAATAGATTACG TCGTACAGCTTGCTCCTTGTTTACTTCTGAAAAAATGGTTAAAGCTATTAAAAAGATTGAAATTGAAATC GAAGTTGGGCGGCTACTTGTTCGAAAAGATCGACACCTCTGGAAAGATATTGGACAACGCCAAAAAGTAC TGAATTGGCTCTTGTCATATAATCCTCTGTGGCTTCGAATTGGTCTAGAGACAGTTTTTGGAGAACTGAT TCCTCTCGCAGACAACAGTGACATCACAGGATTGGCGATGTTCATTCTGAATCGCTTACTTTGGAATCCT GACATAGCGGCTGAATATAGACACCCCACTGTCCCTCTCCTGTTTCGGGATGGTCATGAAGCAGCTTTGT CTAAGTTCACATTGAAAAAGTTACTGTTGTTGATCTGTTTCCTTGACCATGCTAAAATTTCCAGACTTAT TGATCATGATCCGTGTCTCTTTTGTAAAGATGCTGAATTCAAGGCTAGTAAAGAGCTCCTTCTAGCCTTT TCACGAGACTTCCTAAGTGGTGAAGGTGACCTTTCTCGTCACCTTAGCTTATTGGGGTTGCCTGTGAGCC ACGTTCAGACACCACTTGATGAATTTGATTTTGCTGTTACGAATCTTGCAGTGGACTTGCAGTGTGGGGT TCGCCTTGTGCGAACTATAGAGCTTCTGACCCAGAACTGGAATCTGTCAGACAAACTCAGGATTCCTGCA ATAAGTCGAGTTCAAAAGATGCACAATGTTGATCTTGTTCTTCAGGTTCTCAAATCACGAGGAGTTTCTC TGACGGATGAGCACGGAAACACTATCTTGTCTAAGGATATCGTGGATAGGCACAGAGAGAAAACCCTTGG GTTGCTTTGGAAAATAGCATTTGCTTTCCAGGTGGATATTTCCCTTAATTTAAATCAACTAAAGGAAGAA ATTGATTTTCTAAAGCACACACACAATATAAAGACAGCTATGTCTGCACTAATATGCTCTTCTCCAGCGG TTACTAAGAAGCAAAAAGACAGACGGTTTAGTGGGAACTTTGAACACTATGGTGACAGTGTGAAGCTATT GATGGACTGGGTAAATGCAGTTTGCGCCTTCTATAATAAAAAGGTGGAGAATTTTACAGTGTCTTTCTCA GATGGCCGTGTGCTATGCTATTTGATCCACCATTACCACCCGGGCTATGTTCCTTTCGATGCTATATGCC AGCGCACCACTCAGTCCGTGGCCTGCACACAGACTGGTTCAGTGGTATTGAATTCCTCATCCGAATCTGA AGGCGGTTGTCTGGATCTGTCTCTGGAAGCACTTGATCATGAAAGTACTCCAGAAATGTACAAAGAGCTT CTAGAAAACGAAAAGAAAAATTTTCATCTGGTGAGATCTGCAGCTAGAGATCTTGGAGGAATACCTGCTA TGATTCATCATGCAGATATGTCAAATACCATCCCAGACGAGAAGGTGGTTATCACCTACTTGTCATTTCT TTGTGCACGGCTTTTGGATCTCCGTAAAGAAATAAGAGCTGCCCGACTTATACAGATAACCTGGAGAAAA TATAAACTAAAAAGAGACCTGAAAGACCGTCAGGAAAGAGACAAAGCTGCTAGAATTATTCAGGCAGTCG TTCTCAATTTTCTAACTAGAAGAAGATTGCAAAAGAGAGTCAGTGCAGCGCTCGTCATTCAAACATGTTG GCGAAGAGTCTCAGCACAGAGGAAGTTGCTGATGCTGAAGAATGAAAAACTGGCAAAACTTCACAGTGCA TCAGCATCACTGATTCAGGCTCACTGGAGAAGACACTCCACCAGAAAACACTTCCTGAAGTTGAAACACT GTTCCGTCATCCTTCAGTCCAGGTTAAGAATGAAAATCGCCCTTACATCTTACAAGCGATATCGTTGGGC CACGGTTACCATCCAGAGGCGTTGGCGCGCCCATTTAAGTAGAAAACGAGATCAGCAGAGATTCAGAAAG CTGAAATCTGCATCCCTTGTAATCCAGTCTGTGTTCAGACGGTGGAAGCGACGCAAGCTGCAGCTCCAAA CCAAAGCCGCGGTGACATTGCAGCGAGCTTTTAGAGAATGGCGTTGCAGGAAACAGACACGAGAAAGGGC CGCTGTTGTGATACAGTCGTGGTACAGAATGCACAGGGAATTGCAGAAGTACATTTACATTAGGTCTTGT GTTGTAGTCATCCAGAGAAGAGTTCGGTGCTTTCACGCCCAAAAGTTATGTAAGAGAAGGAAAGACGCTG TCCTGACTCTCCAGAAGCACTTCAGGGCCCGTCAGATGGGGAAGTTAGCGCGCACTGACTATTTGCAGAA GCGAGCGGCTGCCATTCAACTGCAGGCTGCCTTCAGGGGCATGAAGGCTCGCCGTTCATACCGTTTGCAA ATTCAAGCTGCCTGTGTTCTTCAGTCCTATTGGAGAATGAGACAGGGAAGAGTTAAATTCTTAAATCTTA AAAAGACTGTTATCAAATTGCAAGCACACATAAGAAAACACCAACAACTACAGAAATATCAGAAGATAAA GAAAGCAGCTGTTACAATTCAGACTCATTTCCGAGCTTCCATTTCAGCCAGGAAGAGTCTAGCATCTTAC CAGAAAACAAGGTCTTCAGTCATTGTTCTACAGTCTGCATATAGAGGGATGCAAGCCAGGAAAACATTTC GTCGTGCTTTAACATCTGTAGTAAAGATTCAGTCATGTTATCGGGCTTATATCTCCAGAAAGAAGTTTCG GAGCTTGAGGAATGCTGCAGTAAAGCTGCAGTCAATTGTCAAAATGAAACAGTCACGTAAGCAGTATTTA CAGGTAAGAGCCGCTGCGGTATTTATCCAGCGGTGGTACCGTTCCCAAAAGAGAAAAGAGTCTGTACAGG TGCGCGAAGCCTGTATCAAACTGCAGTCGTACTTCAGAGGATGCCTGGTCAGAAAGCAGATGAGGCTGCA AAGCAAGGCTGCCATTTCTCTGCAGTCTTACTTCAGGATGTGGAGAGTGAGGCAGCGCTACCTGAAGACG CGCAAGGCGGCTCTTGTCATTCAGACTTTCTACAGTGCCTACCGAGCACAAGTCCATCAGAGGAAGATCT TCCTGCAGGTCAAAGGAGCAGCTGTTTGTTTGCAAGCAGCTTACAGAGGCCGCAGAGCACGCCGGCAAAT CAAGCAGCAGTCTACAGCTGCCGTTACAATTCAGAGGGTTTTTAGAGGCCACAGTCAGAGGATGAAATAC CAGACTGTGCTTCAGTCTGCTGTGAAGGTTCAGAGATGGTACAGGGCACACAAGGTTGCTTCTGACATGA GAATTCACTTTCTAAAGACAAGGGAGGCTGTCGTTGTTCTGCAGTCTGCCTGCCGTGGCTGGCAAGTTCG GCAGCAGCTCAGGAGGCAACATCAGGCTGCAGTGAAGATCCAGGCTGCTTTCAGAATGGCCAGGGCCCAG AGGCAGTATAAACTAGTGAGAAATGCTGCAGTCGTCATCCAGCAGCATGTCAGGGCACGGGCTGCAGGAG AGAGGCAGCACTCGGAGTACATCCGGCTCCGTCACGCCGCCCTGGTGTTTCAGGCTACGTGGAAGGGAAA GATGCTGAGGAGAGAGATCGCACAGCGGCACCAGTGCGCGGCCCTCATACAGTCGTACTACAGAATGTAC AGTCAGCGTAGGAAGTGGAGCCTCATGAAAACCGCTGCTCGTCAGATTCAGGTGTGCTATAGGGCCTACA GAGTTGGAAAGGAACAGCGCCATTTGTACTTGAAAACAAAGGCAGCTGTAGTAATTTTACAGTCAGCTTA CCGTGGTATGAAAGCGAGAAGACAGATAACTGAATGCCACAAAGCAGCAGTCACTATACAGTCTAAATTT AGGGCCTACAGAACACAGAAGAAATATACAACCTGTAGAACTTCTGCTATTATAATTCAGAGATGGTATC GGAATATTAAAATTACCACCCAGCAACGTGAGGCATACCTTACCTTAAAGAGAGCAGCAACTAAAGTCCA AGCTGTGTACAGAGGCATTCAAGTAAGGAGACACATTCAGCACATGTACATGGCGGCCACACTCATTAAA GCCTTGTTTAAGATACAGCAGTCGAGAGCAGCGGCTGTGATCCAGGTGAGGTACAGAGCGTATTATCTAG GTAAAATTCAGCAGGAAAAGTACCTGACGACTTTAAGGGCTATTAAGACCCTTCAAGCCGGTGTCAGAGG AGCAAGAGTTAGAAAGACTTTAAGAAAGATGCATTTCGCAGCAACGCTCATTCAGTCATACTTTAGGAGA CACAGACAGCGAACATATTTCCACCGCTTGAGGAAGGCAGCCACAGTGGTGCAGCAGAGGTACCGAGCAG TAAAGGAAGGAAGCTCTCAGTTTCAGAGGTACAGCAGACTGAGGCGTTCTGTAATCCTCGTCCAGGCTGC CTTTAGGGGACTGAAAGCGCGGAGACACTTAAAAGCTATGCATTTAGCTGCTACTGTCATTCAGAGGAGA TTCAGGACACTACTGATGAGAAGGAAGTTCCTCTCTCTCAGGAAAACAGTCATTTGGATTCAGAGACAGT ACCGTGCAAGACTTCACGCCAAGTATTGCCGACAACAATTACTGTTGGAGAAGGCGGTTACAAAGATCCA GTCATCATACAAAGGATGGATGGTAAGGAAAAGTGTGCAGAAGATGCACAGGGCTGCTACTGTGATTCAG GCCACTTTCCGAATGCACAGAGCCTGTGTGAGGTACCAGCGTTTGAAGAGGGCCTCAGTTGTGATCCAGA AGCAATACCGAGCACACAGAACTGCAGAACTGCAGAGGCAGCTTTTTGTCAGGCAGAGACAAGCTGCTCT GACCCTTCAGGCTGCCTTTAGGGGCGTGAAAGCCAGAAACCATTTGAAGACTATGCATGCTTCTGCAACC CTTATTCAGAGTAAATTTAGAGCTAGAATAGTAAGGAGACAATTCCTTGCTCTCAGAAAAGCTGCTATAT TCGTGCAGAGGAAATACAGAGCCACCCTTTATGCCAAGCATAAATTGCACCAATTCTTGCAGTTACGAAA GGCAGCCATTACAATACAGTCCTCTTTTCGAAGACTGATGGTCAAAAAGCAGTTACAAGAAAGGCACAGG GCTGCGGCTCTCATCCAGGCTACGTTTAGAATGCACAGAACTTACGTTAGGTTTCACCTTTGGAAGCGTG CCTCAATTAGAATTCAACAGCATTATCGAACATACAGAACTAGAAAACTGCAAAGAGAACAACTCAGCAG AGAAGAACACCGTGCTGCTGTCAGAATACAAAGCACATACAGGATGCATAGGCAGCGCTGTGTCTACCAG CAGCTTCGGTGGGCAGCAAAAGTGATACAAAAGAAATACAGAGCAAATAAGAGACGGCAAGATCTGCCCA TGGCATGTAAGGAAGAAACACCTCTTACTCAGATGCATTTTCAGGGCTCAAACATGGCCAAACAAGTTCA GCTGCAGCATGACGCTGCTGTGATTATACAGAAGCATTTTAGAGCCTTTAAAGCAAGGAGGCTGGTGGAG GCTGAAAGAGGCTCCCAGGCTGTGTGGAGAACATCTGAAGCTCGGCAGGACTTACGCAGAGGGGAAGCTG CCTGCAGGATTCAAGCTTGGTATAGGCGCTGCAGAGTGCGCAGGAGATACCTAACTTTATTGAAAGCTGT TAAAACCATCCAAGGTTACTTCTATGCGAAGCAGGAGAGAACGAGGTTCTTGAAGATGAGGGCAGCGGCT ATCATAATTCAAAGGAAGTGGAGAGCTGCACTCTGTGCAAGAGCAGCATGTGAGAGTTTGACCTTAAAAA GACATGGAGCCGCTTGTGTGATCCAGGCCCACTTTAGAGGCTATAAGGGGAGGCAGTCCTTCCGACAGCA GAGGTCTGCTGCTTTAACCATACAGAGATATGTACGAGCCTCGGTGGCTGCGAGGCAGGAGAGGACAAAG TACGTCCAGTTTAAGAAGTCTGCAGTTGTTTTACAGGCATTGGTGCGTGGCTGGTTAGCAAGAAAAAGAG TTTCAGAACAGAAAGCCAACATTCGACGTTTCCGCTTTATAGCAGCTGCATACTGTCACATGTGTGCTCT TAGAATCCAGCGAGCTTATAGACGCCACGTGGCTATGAGGAATGCTAAGAAGCATGTTAATTCAGTCATC GTTATTCAGAGATGGTTTCGAAGAAGATTACAGCAGCAGAGGTTCATTGAGCAATATCGTAAGATCATGG CAGCTGAGCGTGACGTTCAAGCTCGTCGGCACCAGCAGGACAGGGCTGCATCAGTGATTCAGAAGGCAGT GCGCCGCTTTCTCCTGAGCAGAAGACAGCAAAAGGTCAACAGCAGCGCCACTAGAATTCAGGCATTATGG AGAGGCTATGCTTCAAGGAAGAAAAATGATCGCACAGAAATTAAAGCTATTCGACAAAGCCTTCGCGCTG TCAGCAGGAACGTGGAGGAGGAAAACAAGCTGTACAGAAGAACTGAGCGTGCCCTTCATCACCTGCTCAC GTACAAGCACTTGTCGGCCATTCTGGAAGCCATGAAGCACCTGGAGGTTGTTACCAGGTTATCTCCCCTT TGCTGTGAGAACATGGCTGAAAGCGGAGCAGTGTCTACCGTCTTCGTGGTGATCCGCAGCTGTAATCGCA GTGTTCCTTGCATGGAAGTTGTTGGATGTGCTGTCCAAGTCCTGCTGAATGTGGCAAAGTATGATAAGAC GATCTCAGCTGTTTACGATGCTGAAAACTGTGTGGACACACTGCTGGAGCTGCTGCAGGCGTACCGGGAG AAGCCTGGTGACCGAGTTGCCGAGAAGAGTGCCAGCATTTTCACAAGGACGTGCTGTTTATTAGCTGTGC TGTTGAAGACAGAGCAGTGTGCTTTTGATGCACAAAGTAGATCAAAAGTCATTGATCGTATTTATCGTCT CTACAAATTTACAGTTCCTAAGCATAAAGTGAATACACAGGGATTATTTGATAAGCAGAAGCAGAATTCC TGTATAGGCTTTCCTTTTATACCAGAAAGATCTATAAAGACCAGGATAGTTTCAAGACTTAAGCCACAGT GGGTTTTGAGGCGTGATAATATGGAAGAAATCACAAATTCCCTGCAAGCTATTCAACTGGTGATGGATAC CCTTGGAATTCCTTATTGCTAA AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC TGGATTACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-RsrII
ACCN	NM_001105955
Insert Size	9402 bp
OTI Disclaimer	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.
Reference Data
RefSeq	NM_001105955.2, NP_001099425.2
RefSeq Size	9727 bp
RefSeq ORF	9402 bp
Locus ID	289054

*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.