Myo5a (NM_010864) Mouse Untagged Clone

Specifications

Product Data
Type	Mouse Untagged Clone
Tag	Tag Free
Synonyms	9630007J19Rik; AI413174; AI661011; d; d-120J; Dbv; flail; flr; MVa; Myo5; MyoVA; Sev-1
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >MC224981 representing NM_010864 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCCGCGTCCGAGCTCTACACCAAGTTTGCCAGGGTTTGGATCCCTGATCCTGAGGAAGTGTGGAAAT CGGCAGAGTTGCTCAAGGATTATAAGCCTGGAGATAAAGTGCTCCTGCTTCACCTCGAGGAAGGGAAGGA TTTGGAATACCGTCTAGACCCAAAGACCGGTGAGCTCCCTCACTTACGGAACCCTGACATACTTGTTGGA GAAAATGACCTCACAGCCCTCAGCTACCTTCACGAGCCCGCTGTGCTACATAATCTCCGAGTTCGCTTCA TCGATTCCAAACTTATTTATACGTATTGTGGAATAGTTCTGGTAGCTATAAATCCCTATGAGCAGCTGCC TATTTATGGAGAAGATATTATTAATGCCTACAGTGGCCAGAACATGGGTGACATGGATCCTCACATCTTC GCAGTAGCTGAAGAGGCTTACAAGCAAATGGCAAGGGATGAACGAAATCAGTCCATCATTGTAAGTGGAG AGTCAGGCGCAGGGAAGACGGTCTCTGCTAAGTATGCCATGCGGTACTTCGCAACTGTAAGTGGCTCTGC CAGTGAGGCCAATGTTGAGGAAAAGGTCTTGGCCTCCAACCCCATCATGGAGTCAATTGGAAATGCCAAA ACAACCAGGAATGATAATAGCAGCCGGTTTGGAAAATATATTGAAATTGGTTTTGACAAGAGGTACAGAA TCATCGGTGCCAATATGAGAACTTACCTTTTAGAGAAATCCAGAGTGGTGTTCCAGGCAGAAGAGGAGAG AAACTACCATATCTTCTATCAGCTCTGTGCTTCGGCAAAGTTACCTGAGTTTAAAATGCTGCGGTTAGGA AATGCAGATAGTTTTCATTACACGAAGCAAGGAGGCAGCCCTATGATAGAAGGAGTAGATGATGCGAAGG AGATGGCGCACACCAGGCAGGCCTGCACTCTGCTGGGAATTAGTGAATCTTACCAAATGGGAATTTTTCG AATACTTGCTGGCATTCTTCACTTAGGCAATGTTGGATTTGCATCTCGGGATTCAGACAGCTGCACAATA CCTCCCAAGCACGAACCTCTTACCATCTTCTGTGACCTTATGGGTGTGGATTATGAAGAGATGTGTCACT GGCTCTGCCACCGAAAGCTGGCTACTGCCACAGAGACATACATCAAGCCCATCTCCAAGCTGCAGGCCAC AAATGCCCGAGATGCTTTAGCAAAGCACATCTATGCAAAGCTCTTTAACTGGATTGTTGACCACGTCAAT CAGGCTCTCCATTCTGCTGTCAAGCAGCACTCTTTCATCGGCGTGCTGGACATCTATGGATTTGAAACAT TTGAAATAAATAGTTTTGAACAGTTCTGCATAAATTATGCAAATGAAAAACTACAACAACAATTCAACAT GCATGTCTTCAAATTGGAACAGGAGGAATATATGAAGGAACAGATTCCATGGACACTTATAGATTTCTAT GATAATCAGCCTTGTATCAATCTTATAGAATCTAAACTGGGAATTCTCGATTTGCTGGATGAGGAATGTA AGATGCCTAAAGGCACAGATGACACATGGGCCCAAAAACTGTACAACACACATTTGAACAAATGTGCCCT CTTTGAGAAGCCCCGCATGTCAAACAAAGCTTTCATCATCAAACATTTTGCTGACAAAGTGGAGTACCAG TGTGAAGGTTTTCTTGAAAAGAATAAAGATACTGTTTTTGAAGAACAAATTAAAGTCCTTAAGTCAAGCA AGTTTAAGATGCTACCAGAGCTATTTCAAGATGATGAGAAGGCCATCAGTCCCACCTCTGCCACCTCCTC AGGGCGCACTCCTCTCACTCGAGTTCCTGTAAAGCCCACCAAGGGCCGACCTGGCCAGACTGCCAAAGAG CACAAGAAGACAGTGGGACATCAGTTTCGAAACTCCCTTCACCTGCTTATGGAAACCCTTAATGCCACTA CTCCTCACTATGTACGCTGTATTAAGCCTAATGATTTCAAGTTTCCATTCACATTTGATGAGAAGAGGGC AGTGCAGCAGCTAAGAGCATGTGGTGTCCTGGAGACCATCCGGATCAGCGCAGCAGGGTTTCCCTCACGG TGGACTTACCAAGAGTTTTTCAGCCGGTACCGGGTCCTAATGAAGCAAAAAGATGTGCTGGGAGATAGAA AGCAAACGTGCAAGAATGTATTAGAGAAACTAATATTGGACAAGGATAAATACCAGTTTGGTAAGACAAA GATCTTTTTCCGTGCTGGTCAAGTGGCCTATCTTGAAAAATTGAGGGCTGACAAACTTCGGGCTGCCTGC ATCCGGATCCAGAAGACCATTCGTGGGTGGCTTCTAAGGAAGAGATACCTGTGTATGCAGAGGGCAGCCA TCACAGTGCAGCGATACGTGCGGGGCTATCAGGCTCGATGCTATGCTAAGTTTCTGCGCAGAACCAAGGC AGCAACCACCATTCAAAAGTACTGGCGCATGTATGTGGTCCGCAGGAGGTACAAGATTAGACGAGCTGCC ACGATTGTTATTCAGTCTTACTTGAGAGGCTACTTGACAAGAAATAGGTATCGCAAGATACTCCGTGAAT ACAAAGCAGTCATCATTCAGAAACGTGTCCGTGGCTGGCTGGCCCGTACACATTATAAGAGGACCATGAA AGCCATCGTCTACCTTCAGTGCTGCTTCCGGCGGATGATGGCCAAGCGTGAGCTGAAGAAACTCAAAATT GAGGCTCGCTCTGTGGAACGCTACAAGAAGCTCCATATTGGCATGGAGAACAAGATTATGCAGCTGCAGC GCAAAGTGGATGAGCAGAATAAAGACTACAAATGCCTCATGGAGAAACTGACCAATCTGGAAGGAGTATA CAACTCTGAGACTGAAAAACTACGAAATGATGTAGAACGTCTTCAGCTAAGTGAAGAGGAAGCTAAGGTT GCCACTGGGCGGGTCCTTAGTCTGCAGGAAGAAATTGCAAAACTCCGAAAAGACCTGGAACAAACTCGAT CAGAGAAAAAGTCTATTGAAGAAAGAGCAGATAAATACAAACAAGAAACTGACCAGCTGGTGTCAAACTT GAAGGAAGAAAATACTTTGCTGAAGCAGGAAAAGGAGACCCTCAACCACCGCATTGTGGAGCAGGCGAAG GAGATGACAGAAACTATGGAGAGGAAGTTAGTAGAAGAGACAAAACAACTGGAGCTTGACCTGAATGATG AGAGGCTGAGGTATCAGAACCTTCTGAATGAGTTCAGTCGCCTGGAGGAGCGCTATGATGACCTCAAGGA AGAGATGACCCTGATGCTGAATGTGCCTAAGCCAGGACACAAGAGAACAGACTCTACCCACAGCAGTAAT GAGTCTGAATACACCTTCAGCTCTGAGTTTGCAGAAACTGAAGACATTGCACCAAGAACAGAGGAGCCAA TTGAGAAGAAGGTGCCTCTGGATATGTCACTATTCCTTAAGCTCCAGAAGCGTGTCACAGAGCTGGAACA GGAGAAGCAGCTGATGCAGGATGAGCTGGACCGCAAGGAGGAGCAGGTGTTCCGCAGCAAGGCAAAGGAA GAAGAAAGGCCACAGATAAGAGGAGCTGAACTAGAGTATGAGTCTCTCAAGCGTCAAGAACTGGAGTCAG AAAACAAAAAACTGAAAAACGAGCTGAATGAGTTGCGCAAAGCCCTCAGTGAGAAAAGTGCCCCAGAAGT GACTGCGCCAGGTGCGCCTGCTTACCGAGTCCTCATGGAACAGCTGACCTCCGTGAGCGAGGAGCTCGAC GTGCGCAAGGAGGAAGTCCTCATCTTGAGGTCGCAGCTGGTGAGCCAAAAAGAAGCCATCCAACCCAAGG ATGACAAGAATACAATGACAGATTCCACAATTCTTTTAGAAGATGTACAGAAAATGAAAGACAAAGGTGA AATAGCACAAGCATATATTGGTTTGAAAGAAACAAACAGGCTCTTAGAATCCCAGCTACAGTCACAGAAA AGAAGCCATGAGAATGAGGCTGAGGCCCTCCGTGGGGAGATCCAGAGCCTAAAGGAAGAAAACAACCGGC AACAGCAGCTGCTGGCCCAGAACCTGCAGCTGCCCCCTGAGGCCCGCATTGAGGCCAGCCTGCAGCATGA GATCACCCGGCTGACCAATGAAAACCTGTATTTTGAGGAATTATATGCAGATGACCCTAAGAAGTATCAA TCCTATCGGATTTCACTTTACAAAAGGATGATTGATCTGATGGAACAACTTGAAAAGCAGGATAAAACTG TCCGGAAACTGAAGAAACAACTGAAAGTCTTTGCCAAAAAAATTGGTGAACTAGAAGTGGGGCAGATGGA GAACATATCTCCAGGACAGATCATCGATGAGCCTATCCGGCCAGTCAACATTCCCCGGAAAGAAAAGGAT TTCCAAGGAATGCTGGAGTACAAAAGGGAGGATGAGCAGAAGCTAGTGAAGAACCTGATTCTAGAACTAA AGCCACGTGGTGTGGCTGTCAATCTGATTCCAGGGTTACCAGCATATATCTTGTTTATGTGTGTACGACA TGCTGACTATCTGAACGATGATCAGAAAGTAAGATCATTGCTGACATCAACAATTAACAGCATCAAAAAA GTCTTGAAGAAAAGAGGTGACGATTTTGAAACTGTCTCCTTCTGGCTCTCTAACACATGTCGATTTTTGC ACTGTTTGAAGCAATATAGTGGAGAGGAGGGCTTTATGAAGCACAACACGTCTCGCCAGAATGAGCACTG CCTCACCAATTTTGACCTTGCTGAATATCGGCAAGTACTGAGTGACTTGGCCATTCAGATCTATCAGCAG CTTGTGAGGGTGTTAGAGAACATTCTTCAGCCAATGATAGTCTCAGGTATGCTAGAGCATGAAACAATTC AGGGCGTATCTGGGGTGAAGCCCACAGGGCTCAGAAAACGAACCTCCAGTATCGCAGATGAGGGCACCTA CACACTGGACTCCATCCTTCGGCAGCTCAACTCCTTCCACTCAGTCATGTGTCAGCATGGCATGGACCCG GAGCTAATCAAGCAGGTAGTCAAACAGATGTTCTACATTGTGGGCGCCATCACCCTAAACAACCTCCTCC TGCGCAAGGACATGTGCTCCTGGAGCAAGGGCATGCAGATCAGGTACAATGTCAGTCAACTGGAAGAATG GCTACGTGACAAGAATCTAATGAACAGTGGGGCCAAGGAGACTCTGGAACCTCTTATCCAGGCCGCTCAG CTTTTGCAAGTGAAAAAGAAAACTGACGATGACGCAGAAGCCATCTGTTCCATGTGCAACGCCCTGACCA CGGCCCAGATTGTCAAAGTGTTGAATCTGTACACACCGGTTAATGAGTTTGAAGAAAGGGTCTCAGTTTC ATTTATCCGCACTATACAGATGCGGTTACGAGACAGGAAAGACTCTCCACAGCTGCTCATGGATGCAAAA CACATCTTTCCTGTCACTTTTCCCTTTAACCCATCCTCCCTAGCCCTAGAAACCATCCAGATCCCAGCCA GCCTGGGCCTGGGCTTCATCGCACGGGTCTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI
ACCN	NM_010864
Insert Size	5562 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.
Note	Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq	NM_010864.2, NP_034994.2
RefSeq Size	11684 bp
RefSeq ORF	5562 bp
Locus ID	17918
UniProt ID	Q99104
Gene Summary	Processive actin-based motor that can move in large steps approximating the 36-nm pseudo-repeat of the actin filament. Involved in melanosome transport. Also mediates the transport of vesicles to the plasma membrane. May also be required for some polarization process involved in dendrite formation.[UniProtKB/Swiss-Prot Function]

*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.