Sis (NM_001081137) Mouse Untagged Clone

CAT#: MC224950

Sis (untagged) - Mouse sucrase isomaltase (alpha-glucosidase) (Sis), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Sis
• Synonyms: 2010204N08Rik; SI; Si-s
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC224950 representing NM_001081137
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGCAAAGAAGAAATTCAGTGGATTAGAAATCTCTCTGATTGTTCTCTTCATCATAGTAACGATAATAG
  CTATCGCTCTTGTTGTGGTTTTGGCTACAAAGGTGCCTGCTGTGGAAGAAGTAAAAAGTCCAACTTCAAC
  CCCTAGTCCTGGAAGGTGTCCGCCTGAGCAAGGTGAACCTCTCAATGAGAGAATAAACTGCATTCCAGAA
  CAGCATCCAACAAAGGCAAAATGTGAAGAGCGTGGCTGTTGCTGGCGTCCATGGAACAACACTATTATTC
  CTTGGTGCTTCTTTGCAGATAACCATGGCTATACTGCTGCGTCAGTCACGAATGACAACAGTGGACTTAA
  AGCCACACTGAGCAGAATCCCTTCTCCCACTCTATTTGGAGAAGACATTAAAAGCGTCCTCCTCACGACT
  CAGAGTCAGACCCGTAATCGTTTCCGGTTCAAGCTCACAGATCCAAATAACAAGAGATACGAAGTGCCAC
  ATCAGTTTGTAAAAGATGGAAATGGAATCCCAGCAGCTGACACACTGTATGATGTCAAGGTCTCAGAAAA
  CCCGTTCAGCATCAAAGTCATCAGGAAAAGCAACAACAAAGTCTTGTTTGATACCAGTATTGGTCCTCTG
  GTGTACTCAAACCAATATTTGCAGATTTCAACAAGACTTCCAAGTGAATATATTTATGGCTTTGGAGAAC
  ATATTCATAAGAGATTTCGTCATGACTTATACTGGAAAACATGGCCAATCTTTACTCGAGACGAGATTCC
  TGGTGATAATAATCATAATCTCTATGGGCATCAGACATTCTTCATGGGCATTGAAGATAACTCTGGCAAG
  TCCTATGGTGTTTTCCTTATGAACAGCAATGCAATGGAGGTTTTCATCCAGCCAACACCAATAATTACTT
  ACAGAGTTACTGGTGGCGTATTAGACTTTTATATATTTCTTGGAGACACACCAGAACAAGTTGTTCAACA
  ATATCAAGAGCTCATTGGACGACCAGCAATGCCAGCATATTGGAACCTTGGCTTTCAACTGAGTCGCTGG
  AATTACGTGTCTTTAGATAAAGTGAAAGAAGTAGTAAGAAGAAACCGGGAAGCTGGCATCCCATATGATG
  CACAAGTCACTGATATTGACTACATGGAAGACAAAAAGGACTTTACTTATGATGAAGTGGCATTTAAAGG
  ACTTCCTGAGTTTGCTCAGGATTTACATAACCATGGACAAAAATATATTATCATCCTGGACCCTGCAATC
  TCTATAAACAAACGTGCAAATGGTGCCGAATATCAAACATATGTGAGGGGGAATGAGCAAAATGTTTGGG
  TGAAAGAGTCAGATGGAACCACATCACTTATTGGAGAGGTATGGCCAGGATTAACAGTGTACCCAGATTT
  TACTAATCCCAGAACCTGGGAGTGGTGGGCAAATGAATGCAATCTTTTCCATCAGCAAGTGGAATATGAT
  GGACTCTGGATTGACATGAATGAAGTTTCCAGCTTTATCCACGGTTCTCAGAAAGGATGTGCTCCCAATC
  TACTGAATTACCCTCCTTTTACTCCCGGTATTCTTGACAAAATCATGTACTCCAAAACGCTTTGCATGGA
  TGCTGTGCAGCACTGGGGGAATCAGTATGATGTACACAGCCTGTATGGATACAGCATGGCTATAGCCACA
  GAGAAAGCTGTGGAAAAAGTTTTTCCTAATAAGAGAAGCTTCATCCTTACCCGGTCAACATTTGCTGGTT
  CGGGACACCATGCTGCTCATTGGCTTGGAGACAACACAGCCTCCTGGGAGCAGATGGAGTGGTCCATCAC
  TGGAATGCTGGAGTTCGGCATGTTCGGTATGCCTTTGGTAGGGGCGGACATCTGTGGATTTTTGGCTAAC
  ACCACAGAAGAACTCTGCAGAAGATGGATGCAACTGGGAGCCTTTTATCCATTTTCTAGAAACCACAATG
  CTGAAGGCTATGCGGAACAAGATCCTGCCTTTTGGGGAGCAGACTCTCTTTTGGTAAACACATCAAGGCA
  CTACCTAACCATCCGCTACACTTTACTTCCCTTCCTCTACACTCTGTTCTATAGAGCCCACGCGTTTGGT
  GAGACAGTTGCAAGGCCATTTCTTCATGAGTTTTATGAAGACCCAAACAGCTGGATTGAGGACACCCAGT
  TCCTGTGGGGCCCTGCACTGCTGATCACTCCTGTTTTGAGACCAGAAACAAAATACGTGAGTGCATATAT
  TCCTGATGCTACCTGGTATGATTATGAAACAGGTGAAAAAAGACCATGGAGAAAACAAAGGGTTGACATG
  TACCTTCCAGAAGATAAAATAGGATTACATCTTAGAGGAGGTTATATCATCCCTACCCAGCAACCTGATG
  TAACAACAACAGCAAGCCGAAAGAATCCTCTAGGCCTTATTGTTGCATTAGATGAAAACCAGGCAGCAAA
  AGGAGAACTCTTCTGGGATGATGGTGAATCTAAAGATACTATAGAAAAGAAGATCTATATATTATATGAG
  TTTTCAGTTTCTAATAATAACTTGATTGTTAACTGCACACATTCATCATATCCAGAGGGAAATACCCTTG
  TGTTTAAAACAATCAAAGTCCTTGGGCTGAGCGCCACTGTCACAGCGGTTACAGTGGGTGAAAATGATCA
  GCAAATGAACCCTCATCTTGCTTTCACTTTTGATGCTTTCAATAAGATTCTCTCAATTACAGATCTCACA
  TTCAACCTCGGCAAAACCTTTATAGTTAGATGGACGACGCAAAGTTTCTCAGACAATGAGAAATTCACTT
  GTTATCCAGATGTAGGCACAGCTACTGAGAAAACTTGCGTAGAGAGAGGCTGCATATGGGAACCGGTGAG
  CGGGCTCGCCAATGTGCCTCCTTGCTACTTTCCTTCGAACCACAATCCCTATTTGTTAACTTCAACTCAA
  AAATTGGCAACGGGCATAACAGCAGAACTTCAGTTGAATCCTGCAAGTGCTAGAATTAAGCTTCCATCTA
  ATCCCATCTCCACTCTTCGCGTGGAAGTAAAATATCACAAAAATGACATGCTACAGTTTAAGATTTACGA
  TGCACATCATAAGAGATACGAAGTTCCTGTACCACTAAATATTCCAGACACCCCTACAAGCTCTGAGGAA
  AATAGACTCTATGATGTAGAAATCAAGGAAAATCCTTTTGGCATCCAGGTTCGAAGGAGAAGCACTGGAA
  AGCTTATCTGGGATTCTTGCCTACCTGGATTTGCCTTCAATGATCAATTCATTCAGATATCTACACGTCT
  GCCATCACAATATTTATATGGTTTTGGGGAAGCGGAACACACAGCATTCAAGCGAAATTTGAATTGGCAT
  ACTTGGGGGATGTTCACAAGAGATCAACCTCCTGGATATAAACTTAATTCCTATGGATTCCATCCGTATT
  ACATGGCTTTGGAGGATGAGGGCAATGCTCATGGAGTCCTGTTACAGAACAGCAATGGAATGGATGTTAC
  ATTCCAGCCAACACCTGCTCTAACCTACCGCACAATTGGTGGAATCTTGGATTTTTACATGTTTTTGGGA
  CCAACCCCAGAAGGTGCAACAAAGCAATATCATGAAGTAATTGGCTTTCCAGTCATGCCACCTTACTGGG
  CTCTGGGATTCCAACTATGTCGTTATGGATACAGAAATACTTCAGAGATTGAGCAACTGTACAATGACAT
  GAAAGCTGCTCAAATCCCCTATGATGTTCAGTATACAGACATCAATTATATGGAAAGACAACTAGACTTC
  ACAATTGGTGAACGATTCAAGACTCTTCCTCAGTTTGTTGAAAAAATAAGAAAAGAGGGAATGAAATATA
  TTGTTATACTGGATCCAGCAATTTCAGGAAATGAAACCCAGCCTTATCCTGCCTTCGAAAGAGGAATACA
  GAAAGATGTTTTTGTCAAATGGCCTAACACAAATGACATTTGCTGGGCAAAGGTTTGGCCAGATTTACCT
  AATATTACAATAGATGAGACTATAACAGAAGATGAAGCTGTTAACGCTTCCAGAGCACATGTAGCTTTTC
  CAGACTTCTTTAGGAATTCCACATCAGAGTGGTGGACAAGAGAAATTTATGACTTCTACAATGAAAAAAT
  GAAGTTTGATGGCTTGTGGATTGACATGAATGAGCCTTCCAGCTTTGTAAATGGAACCGTTACAAATAAA
  TGCAGAAATGATACACTAAATTATCCACCTTATTTTCCAGAACTCACAAAAAGAAATGAGGGGTTACATT
  TCCGAACCATGTGCATGGAAACAGAACATATCCTTAGTGATGGATCATCAGTTTTGCATTATGATGTGCA
  CAATTTATATGGATGGTCACAAGTTAAACCCACTCTGGATGCATTACGGAACACCACTGGCCTTCGAGGG
  ATAGTCATTTCTCGGTCCACATATCCCACAGCTGGTCGATGGGGAGGACACTGGTTGGGAGACAACTATG
  CAAACTGGGAGAATTTGGAAAAATCACTCATTGGTATGCTGGAATTTAATCTTTTTGGAATACCATATGT
  TGGAGCAGATATCTGTGGTTTCTTTAATGACTCAGAATACCACCTCTGTGCTCGTTGGATGCAAGTTGGA
  GCCTTTTATCCATATTCAAGAAATCACAACATTCAATTTACTAGAAGGCAAGATCCTGTTTCCTGGAATG
  AAACTTTTGCTCAAATGTCAAAGAAAGTTTTAGAAATCAGATACACATTGCTGCCCTATTTCTACACACA
  GATGCATGAAGCCCATATTCATGGTGGAACTGTCATCAGACCCCTAATGCATGAGTTCTTTGATGATAAA
  GAAACCTGGGAAATATACAAGCAGTTCCTGTGGGGTCCAGCTTTTATGGTGACTCCTGTCATTGGACCTT
  TCCAGACAGCTGTGAATGGCTATGTTCCTAAGGCTCGATGGTTTGACTACCATACAGGGGAAGACATAAA
  GGTCAGAGGAAAACTTCAAACATTTTCAGCTCCTTTTGATACAATAAATCTACATGTCCGGGGAGGTTAT
  ATTCTCCCATGTCAAGAACCGGCACAGAACACATATTACAGTCGACAGAAATACATGAAACTCATCGTAG
  CTGCAGATGACAACCAAACAGCAAAAGGAACTCTATTCTGGGATGATGGAGAGTCGATAGACACATATGA
  AAAAAATCAATATACCTTGATAGAATTCAATTTAAATCAGAAAAATTTAACAAGTACTGTATTGAAAGAT
  GGATATAGAAACAAAAGTGAGATGAAACTTGGAAGTATCTATGTATGGGGAAAAGGAACAACCAGTATCA
  GTCAGGTTAATCTGACTTATGGTGGGAATGAACAACAGCTTTCATTTACTCAAGACGAAGCTAAGGAGAT
  ACTAACAATTGACCTGAAAAATGTAACTGTTACTCTTGATGAACCAATACAAATCAGCTGGTCATGA
  
  AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC
  TGGATTACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-RsrII
• ACCN: NM_001081137
• Insert Size: 5457 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_001081137.1, NP_001074606.1
• RefSeq Size: 5887 bp
• RefSeq ORF: 5457 bp
• Locus ID: 69983
• Cytogenetics: 3 32.59 cM