Spta1 (NM_011465) Mouse Untagged Clone

CAT#: MC225305

Spta1 (untagged) - Mouse spectrin alpha 1 (Spna1), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Spta1
• Synonyms: AF093576; AI451697; ha; ihj; nmf4; sph; Spna-1; Spna1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225305 representing NM_011465
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGAAACTCCAAAGGAAACTGCTGTCGAGAGCAGCGGACCAAAGGTCCTAGAAACAGCAGAAGAAATCC
  AACACCGAAGAGCGGAGGTGTTAAACCAGTACCAGAGGTTCAAGGATCGCGTTGCCGAGAGGGGTCAGAA
  GCTTGAGGAGTCTTACCACTATCAAGTTTTCAGGAGAGACGCAGATGACCTGGAGAAGTGGATCATGGAA
  AAGCTTGAAATTGCAAAAGATAAGACATATGAACCCACAAACATACAGGGGAAATATCAGAAGCACGAAT
  CCTTTGTATCAGAGGTGCAAGCCAAATCAAGAGTCCTTCCTGAGCTGGAGGAAATCAGGGAAGCTCGATT
  TGCAGAAGACCATTTTGCCCATGAAGCCACCAAGACCCATCTGAAGCAACTTCGCCTGCTGTGGGATCTG
  CTCTTGGAGTTGACCCAAGAGAAAAGTGACGTGCTGCTGCGGGCACTGAAGTTCTATCAATATTCTCAGG
  AGTGTGAAGACATCCTAGAGTGGGTCAAAGAGAAGGAAGCTATAGTGACATTAGTGGAGCTGGGCGATGA
  CTGGGAGCGAACTGAGGTCCTGCATAAGAAGTTTGAAGAATTCCAGGAAGAACTGACCGCTCGGAAGGGA
  AAAGTGGACAGAGTGAACCAATATGCTAATGAGTGTGCCCAGGAGAAACATCCTAAGTTACCAGAGATAA
  AGGCAAAACAGGATGAAGTCAATGCTGCCTGGGATCGTCTCTGGAGCCTGGCTCTCAAGAGACGAGAAAG
  TCTGTCTAATGCAGCAGACCTCCAGCGATTTAAAAGGGATGTCAATGAAGCTATCCAGTGGATGGAGGAG
  AAGGAGCCGCAGCTCACCTCTGAGGACTATGGCAAAGATCTTGTTAGTTCTGAGGCATTGTTTCACAATC
  ACAAGAGGCTCGAGAGGAATCTCGCGGTCATGGATGACAAGGTGAAGGAGTTGTGTGCCAAAGCAGACAA
  GCTGATGATTTCCCATTCTGCAGATGCACCTCAGATTCAACAGATGAAATTGGATCTAGTCTCCAACTGG
  GAACGCATCCGTGCCTTGGCCACTAACAGATATGCAAAGCTGAAGGCTTCTTATGGGTACCATCGGTTCT
  TATCTGACTATGATGAGCTCTCAGGCTGGATGAAGGAAAAGACTGCTCTGATCAATGCTGATGAGCTGCC
  AACAGATGTGGCCAGTGGAGAAGCCCTGCTAGCCAGGCACCAGCAGCATAAGCATGAGATTGACTCTTAT
  GATGATCGATTTCAATCTGCTGATGCAACTGGTCAAGAACTCCTGGATGGCAATCACGAAGCTTCTGAGG
  AAATTCGAGAGAAGATGACAATACTTGCCAATGACTGGGCTGCTCTGCTGGAACTGTGGGACAAGTGTCA
  GCACCAATACCGCCAATGTCTGGATTTCCATCTCTTCTACCGAGACAGTGAACAAGTGGATAGTTGGATG
  AGCAGACAAGAGGCTTTCCTGGAAAATGAAGACCTGGGGAACTCAGTGGGCAGCGTGGAAGCCCTCCTTC
  AGAAGCATGATGACTTTGAAGAAGCGTTCACTGCCCAGGAAGAAAAGATCATAACCTTGGATGAGACTGC
  AACCAAGCTTATTGACAATGACCACTATGACTCTGAGAATATCGCTGCTATTCGTGATGGGCTTTTGGCC
  AGACGTGATGCCCTGCGTGAAAGGGCTGCCACTAGAAGAAAATTGTTGGTAGATTCACAACTTCTTCAAC
  AACTGTATCAAGACTCAGATGACCTAAAAACCTGGATCAATAAGAAGAAAAAGTTGGCTGATGATGACGA
  TTACAAGGATGTGCAGAACTTGAAGAGCCGGGTTCAGAAGCAGCAGGACTTTGAAGAGGAATTGGCAGTG
  AATGAGATTATGCTCAATAACTTGGAGAAAACAGGCCAGGAGATGATTGAGGATGGTCACTACGCCTCTG
  AGGCTGTGGCTGCTCGCCTGAGTGAGGTTGCCAACCTCTGGAAGGAGTTGCTGGAGGCAACAGCACAAAA
  AGGGACTCAGCTGTATGAAGCTAACCAGCTGCTACAGTTTGAGAACAATGCAGAAGACCTGAAGCGCTGG
  CTAGAGGAGGTGGAGTGGCAGGTTACCTCTGAGGATTATGGGAAAGGTCTGGCTGATGTACAGAATCTAC
  TAAGAAAACATGGCCTTCTAGAGTCAGATGTGACTGCTCGTCAGAATCAGGTGGACACCCTCACAGACAT
  GGCGGCACACTTTGAAGAGATAGGCCATCCCGACTCTGGGGACATCCGTGCAAGGCAGGAATCCTTGCTT
  TCCCGTTTTGAGGCTCTGAAGGAGCCACTGGCCATTCGGAAGAAGAAGCTCATTGACCTACTCAAGCTAC
  AGCAGATTTGCAGAGACTCGGAAGATGAGGAGGCGTGGATCCAGGAGACTGAGCCCTCAGCAGCTTCCAC
  TCATCTTGGAAAGGACTTGGTTGCAGCCAAGAATCTTCTAAACAGACATGAAGTCATCCTGGCAGACATT
  GCGAGTCATGAACCACGGATTCAAGTAATAACAGAGAGGGGAAACAAAATGGTGGAGGAAGGACACTTCG
  CTGCAGAAGACATAGCATCTAGGGTTGAAAGCTTGAACAAAAATATGGAGTCTCTCCATGCTCGAGCTAT
  TAGACGGGAGAATGATCTTAAGGCCAATGTCCAGCTCCAACAGTACCTGGCAGATCTGCATGAAGCAGAA
  GCATGGATTAAAGAGAAAGAACCCATTGTAGACAACAAAAACTATGGAGCTGATGAAGAAGCAGCTGGGG
  CCCTTCTCAAGAAGCATGAAGCCTTCCTGGTGGATCTGAATGCATTTGAAAACAGCATAAAGGCTCTAAG
  AGATCAGGCAGAAGTCTGCCAGCAACAGCAGGCAGCACCAGTGGACGAGGCTGGTCGAGAAGCTAGGGTC
  ATAGCTTTGTATGACTTTGAGGCTCGCAGCCGTAGAGAGGTCAGCATGAAGAAGAATGATGTCTTAACTC
  TGCTCAGTTCCATCAACAAGGACTGGTGGAAGGTTGAAGCTGATGATCACCAGGGCTTTGTGCCAGCGGT
  TTATGTCAGGAAACTGGCCCCCGATGAGCTACCAGGTTTCCCACAGCATCGGCAAGAGGAGCCAGTCAAC
  ATCCCTCAGCTCCAGCAGCAGGTCGAGACCCTGTACCACTCCCTCCTAGATCGGGCAGAAGAGCGCAGAC
  GTCGCTTGCTGCAGCGCTACAATGAGTTTCTGCTGGCCTATGAGGCAGGAGACATGTTGGAGTGGATCCA
  AGAGAAAAAGACAGAAAACACTGGAGTGGAACTGGATGATGTTTGGGAACTGCAGAAGAAGTTTGACGAG
  TTCCAGAGGGATCTAAAGAGTAATGAGCCTCGGCTAAAGGACATCAACAAAGTGGCTGACGAACTGCTCT
  TTGAAGAGCTCCTAACCCCAGAAGGAGCTCACATTCGACAGGAGTTGAACACCCGCTGGAATTCCCTGAA
  GAGGCTGGCAGATGAACAGTATCAGCTGCTCAGCAGTGCACATGCTGTTGAGATGTTTCACAGGGAAGCA
  GATGATGTCAAGGAACAGATTGATAAGAAATGCCGGGCTCTCAATGCTGCCGACCCTGGCTCTGACCTGC
  TCAGTGTCCAGGCCCTCCAGAGGCAACATGAAGTCTTTGAGAGAGACATCATCCCCCTGGGAGAAAAGGT
  GACTACGCTGGGGGAGACTGCTGAGCGTCTCTGTGAATCACACCCAGATGCCACTGAGGACCTACAGAAG
  CAGAGAACAGAGCTGAATGAGGCCTGGGACACACTTCAAGGTCTTACAAGTGATCGGAAGGAGAGTCTGA
  ATGAAGCCCATAAATTCTTCCTCTTCCTTAGCAAGGCCAGTGATCTAGAGAACTGGATCAAAACCATTGG
  CGGTGTGATATCATCACCTGAGCTGGCTGAGGACTTAACTGGCACAGAGATCTTGCTGGAGCGACACCAG
  GAGCATCACGATGACATAAAGAGAGAGGACCCTACCTTCCAGGCCTTAGAAGACTTTGGTACAGAACTTA
  TAGACAGCGGCCACCGTAACAGACGTGAAATTGACAATACTCTCCAGAATATTAATTCAAAGAGAGACAA
  TTTGGAAAAGAGTTGGGAAAACCGCAAGAAGATGCTAGACCAGTGCTTAGAACTGCAGTTATTCCGAGGA
  AAGTGTGACCAGGTCGAGAGCTGGATGGTGGCCCGTGAGAATTCCCTGAGGTCAGACGACAGGGATCACT
  TAAACAGTCTGCAGGCTTTGATGAAGAAACGGGATGATTTGGACAAAGCAATCACTGCCCAGGAAGGGAA
  GATTTCGGACCTAGAGAACGTTGCCACAAGGCTCATAGACAATGACCACTATGCCAAGGAAGAGATTGCT
  GCTCGCCTCCAACGTGTGCTAGACAGGTGGAAGGCTCTCAAAGAACAGCTGCTTACTGAACTGGGAAAGC
  TAGGAGACTATGCTGACCTCAAACAGTTCTATCGTGACCTTGAGGACCTGGAGGAATGGATCAATGAGAT
  GCTTCCCATAGCCTGTGATGAATCTTATAAAGATCCCACTAACATTCAGAGGAAATATCTGAAGCATCAA
  GCCTTTGAAAATGAAGTCAACGGTCGTGCTGAGCAGGTGGATGGGGTTATCAACCTTGGGAATTCCCTGA
  TTGAGCGCAGAGTGTGTGATGGAGATGAAGAGAACATGCAGGAGCAACTGGACAAGCTAAAGGAGAACTG
  GGATTATCTCCTAGAGAGAACCACTGACAAAGGACAGAAGCTCAACGAGGCCAGTCGGCAGCAAAGGTTC
  AACACAAGCATCCGGGACTTTGAGTTCTGGCTTTCAGAGGCAGAAGGCTTGTTGGCCATGAAGGATCAGG
  CCAGGGACTTAACTTCAGCAGGAAACCTACTTAAGAAGCATCAGCTATTGGAAGCAGAGATGTTGGCACG
  AGAGGACCCTCTCAAAGATCTGAATGACCTGGCTCAGGAGCTGATCTCCAGTGGGACTTTCAACATTGAC
  CAGATAGAAGAGAAAATGAATGGTGTCAATGAGCGCTTTGAAAATGTCCAGAGCTTGGCAGCTGCACACC
  ACGAGAAGCTGAAAGAGACGTATGCCTTGTTCCAGTTCTTCCAAGACCTGGATGATGAGGAAGCCTGGAT
  AGAGGAGAAGTTGTTACGAGTGAGCTCCCAGGACTATGGGAGGGATCTTCAGAGTGTTCAGAACTTATTG
  AAAAAACACAAACGCCTAGAGGGGGAGCTAGTGGCACATGAACCTGCTGTCCAGAATGTGCTGGATACGG
  CAGAAAGCCTGAGAGACAAGGCTGCTGTAGGGAAAGAGGAGATCCAGGAGCGGCTGGCTCAGTTTGTCCA
  ACACTGGGAAAAGCTCAAAGAGTTGGCGAAGACCCGAGGGGTGAACTTGGAGGAGTCCCTCGAGTATCTG
  CAGTTCATGGAGAATGCAGAAGAAGAGGAAGCATGGCTGGGGGAGAAGTGTGCTCTGGTCAGTCGCGGGG
  ATTCAGGAGACACACTGGCTGCTACTCAGAGTTTGCTAAAGAAGCATGAAGCTTTGGAGAATGACTTTGC
  TGTGCACAAGAACCGGGTACAAGATGTTTGTGCACAAGGAGAAGACATTCTTAATAAGGAAGAAACTCAG
  AACAAGGATAAGATTTCCACCAAGATCCAAGTTCTGAATGAAAAGACAGCCTCTTTGGCCAAGGCATTAG
  CTGCTTGGAAGTCACAACTGGACGATGTGCATGCCTTTCAGCAGTTTAACTGGAAGGCGGACGTAGTGGA
  ATCCTGGATAGGTGAGAAAGAAGCAAGCCTGAAGACCAAGAGCAACGGTGCAGACCTCACCGCCTTCCTC
  ACACTACTGGCAAAGCACGACACACTGGATGCCAGTCTTCAGAGCTTCCAGCAAGAAAGGCTTTCTGAAA
  TCGCTGAGCTGAAGGACCAGCTTGTGGCTGGTGAGCACAGCCAAGCCAAAGCCATTGAGGAGCAGCATGC
  AGCCTTGCTGAGGCACTGGGAACAACTGCTGGAGGCATCTAGAGTTCACAGGCAGAAACTGCTGGAAAAG
  CAGCTGCCTCTACAGAAGGCTGAGGAGCTATTCATGGAATTTGCACACAAAGCTTCAGCCTTCAACAACT
  GGTGTGAGAACGCGGAAGAGGACTTGTCAGAACCTGTGCATTGTGTCTCTCTAAATGAGATCCGGCAGCT
  GCAGAAGGAACATGAAGCCTTCTTGGCCTCTCTGGCTGGGGCTCAAGAGGATTTCAACTATTTGTTGGAG
  CTAGACAAGCAAATTAAAGCCTTAAATGTCCCCTCCAGTCCTTATACCTGGTTAACAGTGGATGTGCTGG
  GCAGAATCTGGAACCACCTGCCAGACATCATCAAGGAAAGGGAACAGGAACTACAGAAAGAAGAGGCTAG
  GCAGATCAAGAACTTTGAAATGTGCCAGGAGTTTGAACAAAATGCCAGTGCCTTCCTTCAGTGGATCCAG
  GAGACCAGGGCCTATTTTCTGGATGGATCATTGCTCAAGGAAACAGGAACTCTGGAATCCCAACTTGAAG
  CAAATAAAAGGAAACAGAAGGAGATCCAGGCAATGAAGCGCCATCTGACCAAGATTGAAGACCTGGGGGA
  CAGCATGGAAGAGGCTCTGATCCTTGATATCAAATACAGCACCATTGGACTGGCCCAGCAATGGGATCAG
  CTGCACCAACTAGGGATGCGAATGCAACACAATTTGGAGCAACAGATTCAAGCCAAAGACACCATAGGTG
  TGAGTGAGGAGACATTGAAAGAATTTAGCACCACATACAAACACTTCGATGAGAACTTGACAGGGCGATT
  GACTCACAAAGAGTTCCGCTCTTGCCTGAGAGGACTCAATTACTATCTGCCTATGGTAGAGGAAGGTGAA
  CCTGAGCCCAAGTTTGAGAAATTCCTGAATGCTGTGGATCCAGGGAGGAAAGGATATGTTTCACTGGAAG
  ACTATACATCATTCCTGATTGACAAGGAGTCAGAGAATATCAAGACCAGCGATGACATAGAGAGTGCATT
  CCAAGCTCTGGCAGAAGGCAAGGCCTATATTACCAAGGAGGACATGAAACAGGCTCTCACCCCGGAACAA
  GTGTCATTCTGTACCATACATATGCAGCAATATATGGATCCACGGGGTCGGAGCCAACCTGCTGGCTACG
  ACTATGTTGGCTTCACCAATTCATTCTTTGGCAATTGA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_011465
• Insert Size: 7248 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_011465.4, NP_035595.2
• RefSeq Size: 8405 bp
• RefSeq ORF: 7248 bp
• Locus ID: 20739
• UniProt ID: P08032
• Cytogenetics: 1 80.97 cM
• Gene Summary: Spectrin is the major constituent of the cytoskeletal network underlying the erythrocyte plasma membrane. It associates with band 4.1 and actin to form the cytoskeletal superstructure of the erythrocyte plasma membrane.[UniProtKB/Swiss-Prot Function]