Map1a (NM_032393) Mouse Untagged Clone
CAT#: MC225444
Map1a (untagged) - Mouse microtubule-associated protein 1 A (Mtap1a), transcript variant 1, (10ug)
"NM_032393" in other vectors (2)
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Other products for "Map1a"
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Map1a |
Synonyms | 6330416M19Rik; AI853608; moth1; Mtap-1; Mtap1; Mtap1a |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225444 representing NM_032393
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCGACCGAAGCCGGGACCGCGCGGCCTGGCAGCGTTGCCATGGAGACAACTCCGGAGCTGGGGCTCC AGAGCCTCGGTGCACCGCCAGCTCAGAACCCGGCGGAGCCTCTTTGCGAGGCCGGTGCCGCGGTAGCGGC AGCGCGCTGGGACCTGCGGAAATACTCCTTGCTCATCGTGATCGGCGATATCGGTACAGAGAGTCAGCTG AGGGCCGTGCGGGCCCACCTTGAACAAGGGATTCTCTCCTGGAATATTGACTTATCATCCTTTGACTTGA ACCAACAGTTGAGACTCTTCATTACCCGGCACCTAGCTCACTTCTCCTCAGAGGTCAAAGGCCAGAGGAC CCTCTGCCACCAGAGTGAGACCCTCGAGACCATCATCCTAGTCAACCCCACTGCAGACAGCATCAGCTCA GAGGTTCACCATCTTCTTAGTAGCCCATCAGCTCACAAACTCCTCATCTTGAGTGGACAAACTTTAGAAC CCGAGGGAGACCTTATCCTACAGAGTGGTACTTACTCATATCAAAACTTCGCCCAGGTCCTTCACAAACC TGAGATTGCCCAGTTGCTTAGCAATAGAGACCCTGGGATCCAGGCCTTCCTCACTGTTTCCTGCTTAGGG GAGGGTGACTGGAGCCACCTGGGACTGTCTAGTTCCCAAGAGACCTTGCACCTCCGGCTAAATCCTGAGC CTGTGCTGCCCACCATGGATGGAGTGGCCGAGTTCTCCGAGTATGTCTCTGAGACGGTGGATGTGCCGTC CCCCTTTGACCTGCTTGAGCCCCCCACCTCAGGAGGCTTCCTCAAGCTCTCCAAGCCTTGCTGTTACATC TTCCCTGGTGGCCGTGGGGACTCTGCTCTCTTTGCTGTCAATGGCTTTAACATCCTGGTGGACGGCGGTT CTGACCGCAAGTCCTGCTTCTGGAAGCTGGTGCGGCACCTGGACCGCATTGACTCGGTGCTGCTCACGCA CATTGGGGCTGACAATCTGCCAGGCATCAATGGGCTCCTGCAGCGCAAGGTGGCAGAGCTAGAGGAGGAG CAGTCCCAGGGCTCCAGCAGCTACAGCGACTGGGTGAAGAACCTCATCTCCCCTGAGCTCGGAGTCGTGT TCTTCAATGTGCCTGATAAGCTCCGGCTGCCCGACGCCTCCCGCAAGGCCAAGCGCAGCATCGAGGAGGC CTGTCTCACCCTTCAGCACCTGAACCGCCTCGGCATCCAAGCCGAGCCTCTGTACCGAGTGGTCAGCAAC ACCATCGAGCCGCTGACCCTCTTCCACAAAATGGGTGTGGGGAGGCTGGACATGTATGTCCTCAACCCTG TCAAGGACAGTAAGGAGATGCAGTTCCTCATGCAGAAGTGGGCAGGCAATAGTAAAGCCAAGACAGGCAT AGTGCTGGCCAATGGGAAGGAGGCAGAGATCTCCGTCCCCTACCTGACCTCCATCACTGCCTTGGTGGTA TGGCTCCCAGCCAACCCTACTGAGAAGATTGTGCGAGTGCTTTTCCCGGGAAATGCTCCCCAGAACAAGA TCTTGGAGGGCCTGGAAAAGCTGCGGCACCTGGACTTCCTGCGCTATCCTGTGGCGACACAGAAGGACCT GGCTGCTGGGGCCGTGCCTGCCAACTTGAAACCCAGCAAAATCAAACATCGGGCCGACAGCAAGGAGAGC CTCAAAGCTGCCCCCAAGACAGCAATGAGCAAGCTAGCCAAACGGGAGGAGGTGTTAGAAGAGGGAGCCA AGGAGGCCCGCTCAGAGCTGGCCAAGGAGTTAGCCAAGTCAGAAAAGAAAGCAAAAGAGCCGTCCGAGAA GCCCCCAGAAAAACCCTCCAAGCCAGAGAGGGTGAGGACAGAGTCCAGCGAAGCACTGAAGGCTGAGAAG CGGAAGCTGATCAAGGATAAAGTGGGCAAGAAGCACCTGAAGGAAAAGATTTCAAAGCTGGAGGAGAAGA GGGACAAGGAGAAGAAGGAGATCAAGAAGGAAAGGAAGGAACTCAAGAAGGAGGAGGGAAGGAAGGAGGA GAAAAAGGACGCCAAGAAGGATGAAAAGAGGAAAGATACCAAGCCGGAACTCAAGAAATTCTCTAAACCA GACCTGAAGCCTTTTACCCCTGAGGTCCGTAAGACCCTCTACAAAGCCAAGGCCCCTGGAAGGCTCAAGG TGGACAAAGGCCGAGCTGCCCGTGGGGAAAAAGAATTGTCTTCTGAGCCCCGGACACCCCCAGCCCAGAA GGGGGCTGCACCGCCTCCTGCTGCCAGTGGGCACAGAGAGTTGGCCTTGTCTTCACCAGAGGACCTCACA CAGGACTTTGAGGAGTTGAAGCGTGAGGAGAGAGGTTTGTTGGCTGAACCAAGGGACACGGAACTGGGTG AGAAACCGCTCCCTGCAGATGCCTCCGAGCAGGGACGCCCAAGCACAGCCATCCAGGTGACCCAACCCCC TGCTTCAGTGTTGGAGCAAGAACAGGTAGAAAGGGAGAAAGAGGTTGTCCCAGACTTTCCCGAGGATAAA GGGAGCAAGAACAGAGCCCCAGACTCAGGTGCTGAGGTAGAGAGAGAGAAAGAAACCTGGGAGGAAAGGA AGCCGAGAGAAGCAGAGCTGACCCCAGAGAACATTGCTGCGGCCAGGGAGGAGAGTGAACCTGAGGTAAA GGAGGATGTGATAGAAAAGGCTGAGTTAGAGGAGATGGAGGAGGTCCATCCCTCAGATGAGGAAGAGGAA GAGACAAAGGCTGAGAGTTTTTATCAAAAACATATGCAGGAAGCCTTAAAGGTAATCCCAAAAGGCAGAG AGGCTCTTGGCGGCCGGGAACTGGGATTCCAGGGCAAGGCGCCTGAAAAGGAGACAGCATCCTTCCTGAG CAGCTTGGCCACGCCTGCAGGAGCCGCTGAGCATGTCTCCTACATTCAGGATGAGACGATCCCTGGCTAC TCAGAGACTGAGCAGACTATCTCAGACGAGGAGATTCACGACGAGCCGGACGAACGCCCAGCCCCACCCC GATTCCCCACGAGTACCTATGACCTCTCTGGGCCTGAAGGTCCTGGTCCCTTTGAAGCCAGCCAGTCTGC AGAGAGTGCTGTTCCAGCCAGCTCGAGCAAAACTTATGGGGCACCTGAGACTGAACTCACCTACCCTCCC AACATGGTCGCTGCCCCTCTGGCTGAAGAGGAACATGTGTCCTCAGCCACATCAATCACGGAGTGTGACA AACTCTCCTCCTTTGCCACATCGGTGGCTGAGGACCAATCTGTGGCTTCACTCACAGCTCCCCAGACGGA GGAGACAGGCAAGAGCTCCCTGTTGCTCGACACTGTCACAAGTATTCCCTCTTCCCGCACTGAAGCCACT CAGGGCTTGGACTATGTGCCGTCAGCAGGCACCATCTCACCCACCTCTTCCCTGGAAGAAGACAAGGGCT TCAAGTCACCGCCCTGTGAGGATTTCTCTGTGACCGGGGAGTCGGAGAAGAAAGGAGAGTCTGTGGGGAG AGGTTTGACCGGGGAGAAGGCTGTAGGAAAGGAAGAAAAGAATGTAACAACGTCTGAGAAACTGTCCAGT CAGTATGCTGCCGTGTTTGGTGCCCCTGGACATGCCCTACATCCGGGGGAACCGGCCCTCGGAGAAGTGG AGGAACGGTGCCTCAGCCCAGATGATAGCACCGTGAAGATGGCGTCTCCTCCACCATCTGGCCCACCCAG TGCTGCCCACACGCCCTTTCATCAGTCCCCCGTGGAAGAAAAGTCTGAGCCTCAAGACTTCCAAGAAGAT TCCTGGGGAGACACAAAGCACGCTCCTGGTGTGAGCAAGGAAGATGCTGAAGAGCAGACAGTTAAGCCAG GGCCTGAGGAGGCCATGTCAGAAGAGGGCAAAGTACCTCTTTCCAGGAGCCCCCAAGCCCAGGACACACT TGGGAGCCTTGCTGGGGGTCAGACTGGCTGTACTATTCAACTGTTGCCAGAACAAGACAAAGCAGTAGTG TTTGAGACTGGAGAGGCAGGCGCAGCTTCAGGAGCAGGCAGCCTTCCTGGAGAAGTGAGGACTCAGGAGC CCGCTGAGCCTCAGAAAGATGAGCTGCTTGGGTTTACTGATCAAAGCTTTTCCCCTGAAGATGCAGAGTC CCTGTCTGTCCTCAGTGTGGTCTCCCCAGACACTGCCAAACAAGAGGCCACCCCCAGGTCTCCCTGTACC CCGAAAGAGCAGCAGCTACACAAAGACCTTTGGCCAATGGTGTCCCCAGAAGACACCCAGTCACTTTCTT TCTCGGAAGAGAGTCCTAGCAAGGAGACCTCTCTGGATATCTCTTCTAAGCAGCTCTCTCCAGAAAGCCT TGGCACCCTCCAGTTTGGAGAACTAAGCCTAGGAAAGGAAGAAAAGGGGCCTCTGGTGAAGGCAGAAGAC AACTCTTGCCACCTAGCTCCTGTGTCTATTCCAGAGCCCCACACAGCCACAGTGTCACCTCCCACAGATG AGGCTGCTGGAGAGGCAGGTCTCACAGATGAGAGCCCTGCTGGAAATTTACCTGGCAGCTCTTTCTCTCA CTCTGCACTGTCAGGTGACAGGAAACACTCACCTGGAGAGATCACGGGCCCTGGTGGACACTTTATGACA TCGGATAGCTCCCTCACCAAGAGTCCCGAGTCTTTGTCAAGTCCCGCCATGGAGGACCTGGCCATGGAGT GGGGGGGTAAAGCTCCGGGGTCGGAAGACAGAGCCACTGAACAGAAGGAGAAGGAACTCGAGCGAAAGAG TGAAACCCTACAGCAGAAGGACCAGATTCTGTCGGAGAAGGCTGCTCTTGTCCAGCGGGACTCAGTCATG CATCAGAAGGACGAGGCTCTAGATGAAGAGAACAAGCCTGGAGGACAGCAGGATAAGACTTCAGAACAGA AAGGCAGAGACTTGGACAAAAAAGACACGGCTGTGGAGCTGGGCAAAGGCCCAGAACCCAAAGGCAAAGA CTTATATCTGGAGGACCAGGGCCTGGCAGAGAAGGACAAGGCCTTAGAACAAAGGGGTGCAGCCCTGCAA CAGACCCAGGCCCCTGAACCAAGAGCCAGAGCACAAGAGCACAGAGATTTAGAACAAAAGGACGAGCATT TAGAGCTGAGAGATAAGACTCCTGAAGAGAAAGATAAAGTGTTAGTACTGGAAGACAGGGCTCCAGAGCA CATCATCCCCCAACCAACACAGACAGACAGAGCTCCAGAACACAGAAGCAAGGTTGATAAAGAACAGAAG GATGAGGCCTCGGAAGAGAAAGAACAGGTTTTAGAACAAAAAGACTGGGCCCGAGAAAAAGAGGGTGCTG CCTTGGACCAAGACAACAGGGCTGCTGGACAGAAAGATGGGACCCTAAAAGAAGACAAAACTCAGGGGCA GAAGAGCTCTTTCCTGGAAGATAAAAGTACAACACCAAAAGAGATGACCCTTGACCAAAAGTCTCCAGAA AAGGCCAAAGGTGTGGAGCAGCAGGATGGAGCTGTCCCGGAGAAGACCAGAGCTTTGGGGCTGGAAGAGA GCCCAGAAGAGGAGGGCAAGGCTCGAGAGCAGGAAGAGAAATACTGGAAGGAGCAGGATGTGGTCCAGGG ATGGCGAGAAACATCTCCAACCAGAGGAGAGCCTGTTCCAGCCTGGGAGGGCAAGTCTCCTGAGCAGGAA GTCAGGTATTGGAGAGACAGAGACATAACCCTACAGCAGGATGCATACTGGAAGGAGCTAAGCTGTGAGA GGAAGGTCTGGTTCCCCCATGAGCTAGATGGACAAGGAGCCCGTCCACGGTACTCTGAGGAACGTGAAAG TACGTTTCTTGATGAGGGGCCAAATGAACAAGAAATAACCCCACTGCAGCACACTCCCCGGAGTCCCTGG GCCTCGGATTTCAAGGATTTCCAGGAGCCCCTGCCACAGAAGGGGCTGGAAGTAGAGCGCTGGCTTGCTG AGTCGCCAGTTGGCTTGCCACCAGAGGAGGAGGACAAACTGACTCGCTCTCCCTTTGAGATCATCTCCCC TCCAGCATCCCCACCTGAGATGACTGGACAGAGGGTTCCCTCAGCTCCAGGACAGGAAAGCCCTGTTCCA GACACTAAGTCCACACCACCCACGAGGAATGAACCTACCACCCCATCATGGCTAGCTGAGATCCCACCAT GGGTACCTAAGGACAGGCCCCTGCCTCCTGCACCCCTCTCTCCAGCTCCAGCTCCCCCGACCCCGGCCCC AGACCCACATGCTCCTGCGCCCTTCTCCTGGGGCATCGCTGAATATGACAGTGTGGTGGCTGCGGTGCAG GAGGGGGCAGCTGAGTTGGAAGGTGGTCCATACTCCCCCCTAGGGAAGGACTATCGCAAAGCTGAAGGGG AAAGGGAAGGAGAGGGTGGGGCTGGAGCTCCTGACAGCAGCTCCTTCAGTTCAAAGGTCCCAGAGGTTAC GGAGAGTCACACCACCAGGGATGCTGAGCAGACTGAGCCAGAGCAGAGGGAGCCCACACCCTATCCCGAC GAGAGGAGCTTTCAGTATGCAGACATCTACGAACAGATGATGCTTACTGGGTTGGGCCCTGCTTGCCCCA CCAGGGAGCCTCCACTGGGGGCATCTGGGGATTGGCCCCCACACCTCTCAACCAAGGAGGAGGCTGCTGG CCGCAATAAGTCTGCAGAGAAGGAGCTTTCATCCGCTGTGTCGCCCCCAAACCTCCACTCTGACACTCCA ACGTTTAGCTATGCATCTCTGGCAGGACCCACTATACCTCCCAGGCAAGAACCTGAGCCAGGGCCCAATG TGGAGCCCAGCTTCACCCCTCCTGCAGTGCCCCCTCGTGCCCCTATCTCCCTGAGCCAAGACCCAAGTCC CCCTCTTAATGGAAGCACTACGAGCTGTGGCCCAGACAGGAGGACCCCATCCCCAAAGGAAGCAGGCCGA AGTCACTGGGATGATGGTACTAATGACTCAGACCTGGAGAAGGGGGCTCGGGAACAGCCGGAGAAAGAGA CCCAGTCCCCAAGTCCCCATCACCCCATGCCTGTGGGCCACCCTTCACTGTGGCCTGAAACTGAGGCGCA TAGCAGCCTTTCCTCAGACTCTCACCTAGGACCTGTCCGACCAAGTTTGGACTTCCCTGCTTCAGCCTTT GGCTTCTCCTCCTTGCAGCCTGCTCCCCCTCAGCTGCCCTCTCCGGCTGAACCCCGCTCCGCACCCTGTG GCTCTCTTGCCTTCTCTGGGGACCGAGCTCTGGCCCTGGTTCCAGGAACTCCAACCAGAACCCGACATGA TGAGTACTTGGAAGTGACCAAGGCACCCAGCCTGGATTCCTCACTGCCCCAACTCCCATCACCCAGCTCG CCAGGGGCCCCTCTTCTCTCCAATCTACCCCGACCTGCCTCGCCAGCCTTGTCTGAAGGGTCCTCTTCTG AGGCTACCACGCCTGTGATTTCAAGTGTGGCTGAACGCTTCCCTCCAGGTCTAGAGGTGGCTGAACAGAG TTCAGGAGAATTGGGCCCAGGGAACGAGCCAGCTGCCCACAGCCTCTGGGACCTCACTCCTCTGAGCCCA GCCCCTTTAGCTTCCCGGGACTTGGCTCCAGCTCCAGCTCCAGCTCCAGCTCCAAGCCTGCCTGGAAACT TGGGTGACGGTACCCTGTCCTGCCGCCCGGAGTGCTCAGGGGAACTCACCAAGAAGCCAAGCCCCTTTCT GAGCCACTCTGGAGATCATGAAGCTAATGGCCCAGGAGAAACCAGCCTTAATCCCCCAGGGTTTGCCACA GCCACAGCAGAAAAAGAAGAGGCTGAAGCCCTTCATGCTTGGGAACGAGGGTCCTGGCCCGAGGGAGCGG AGAGGAGCTCCCGGCCGGATACACTTCTCTCATCTGAGCAGCGTCCTGGGAAGAGCTCCGGGGGTCCACC CTGCAGTCTTTCTTCTGAAGTCGAGGCTGGACCTCAGGGATGTGCTACAGACCCCCGCCCCCACTGCGGG GAGCTTTCCCCTTCATTCCTGAACCCTCCTTTGCCCCCATCCACAGATGACAGTGACCTTTCAACGGAAG AGGCTCGGCTGGCAGGAAAAGGAGGGCGGCGCCGGGCAGGGAGGCCAGGGGCCACAGGAGGTCCATGCCC TATGGCTGATGAGACACCCCCCACATCAGCCAGCGACTCAGGCTCCTCACAATCAGATTCTGATGTCCCA CCAGAAACTGAGGAGTGTCCATCCATCACAGCTGAGGCAGCCCTTGACTCAGATGAAGATGGGGACTTCT TGCCTGTGGACAAAGCTGGGGGAGTTAGTGGAACTCACCACCCCAGACCTGGCCATGACCCACCCCCAGC CCCCCTACCGGACCCCCGCCCACCCCCTCCCCGACCGGATGTTTGCATGGCTGACCCCGAGGGGCTCAGC TCAGAGTCTGGGAGAGTTGAGAGACTACGGGAAAAGGTGCAGGGACGACCTGGCCGTAAGGCCCCTGGAC GGGCCAAGCCTGCATCTCCTGCTCGGCGTCTGGATATTCGGGGAAAACGGTCACCTACTCCTGGCAAAGG GCCTGTAGATCGAACATCCCGGGCCCTACCCCGACCACGGAGCACCCCAAGCCAGGTCACCTCAGAAGAA AAGGATGGTCACAGCCCCATGTCTAAAGGCTTAGTCAATGGCCTCAAGGCAGGATCCACAGCCTTGGGGT CCAAGGGTAGCTCTGGCCCTCCTGTGTATGTGGATCTTGCCTATATCCCAAATCACTGCAGCGGCAAGAC TGCTGATCAGGACTTCTTCCGCCGAGTGCGTGCATCCTACTATGTGGTCAGTGGAAATGACCCTGCCAAT GGCGAGCCAAGCCGGGCTGTGCTGGATGCCCTGCTGGAAGGCAAGGCCCAATGGGGGGAGAACCTTCAGG TGACTCTGATTCCCACTCATGATACGGAGGTGACTCGTGAGTGGTATCAGCAGACACACGAGCAACAGCA GCAACTGAACGTCCTGGTCCTGGCTAGCAGCAGCACTGTGGTGATGCAGGACGAGTCCTTTCCAGCCTGC AAGATTGAGTTCTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_032393 |
Insert Size | 9045 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_032393.2, NP_115769.1 |
RefSeq Size | 11837 bp |
RefSeq ORF | 9045 bp |
Locus ID | 17754 |
UniProt ID | Q9QYR6 |
Cytogenetics | 2 60.37 cM |
Gene Summary | Structural protein involved in the filamentous cross-bridging between microtubules and other skeletal elements.[UniProtKB/Swiss-Prot Function] Transcript Variant: This variant (1) is the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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