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MAST4 (NM_001290226) Human Untagged Clone
CAT#: SC338142
MAST4 (untagged) - Human microtubule associated serine/threonine kinase family member 4 (MAST4), transcript variant 4
"NM_001290226" in other vectors (1)
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Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Symbol | MAST4 |
| Vector | pCMV6-Entry |
| E. coli Selection | Kanamycin (25 ug/mL) |
| Mammalian Cell Selection | Neomycin |
| Sequence Data |
>NCBI ORF sequence for NM_001290226, the custom clone sequence may differ by one or more nucleotides
ATGAAAGCCCAGCGGGAAAGGCTACAGATTCCGGGGCTGACCTTGGATTGCCGAACAAGCAACCGGAAAA GCTTAATAGGCAATGGGCAGTCACCAGCATTGCCTCGACCACACTCACCTCTCTCTGCTCATGCAGGAAA TAGCCCTCAAGATAGTCCAAGAAATTTCTCCCCCAGTGCCTCAGCCCATTTTTCATTTGCACGGAGAAAT GACAGGACTGATGGACGCCGCTGGTCGTTGGCTTCTCTCCCTTCCTCTGGCTATGGGACAAACACACCCA GCTCTACGGTCTCTTCATCCTGTTCCTCCCAGGAGAAGTTGCATCAGTTACCATACCAACCAACACCAGA CGAGTTACACTTCTTATCAAAACATTTCTGTACCACCGAAAGCATCGCCACTGAGAACAGATGCAGGAAC ACGCCGATGCGCCCCCGTTCCCGAAGTCTGAGCCCTGGACGTTCTCCCGCCTGCTGTGACCATGAAATAA TTATGATGAACCATGTCTACAAAGAAAGGTTCCCAAAGGCTACAGCTCAGATGGAAGAACGTCTAAAGGA AATTATCACCAGCTACTCTCCTGACAACGTTCTACCCTTAGCAGATGGAGTGCTTAGTTTCACTCACCAC CAGATTATTGAACTGGCTCGAGATTGCTTGGATAAATCCCACCAGGGCCTCATCACCTCACGATACTTCC TTGAATTACAGCACAAATTAGATAAGTTGCTACAGGAGGCTCATGATCGTTCAGAAAGTGGAGAATTGGC ATTTATTAAACAACTAGTTCGAAAGATCCTAATTGTTATTGCCCGCCCTGCTCGGTTATTAGAGTGCCTG GAATTTGATCCGGAAGAATTTTACTACCTATTGGAAGCAGCAGAAGGCCATGCCAAAGAAGGACAGGGTA TTAAAACCGACATTCCCAGGTACATCATTAGCCAACTGGGACTCAATAAGGATCCCTTGGAAGAAATGGC TCATTTGGGAAACTACGATAGTGGGACAGCAGAAACACCAGAAACAGATGAATCAGTGAGTAGCTCTAAT GCCTCCCTGAAACTTCGAAGGAAACCTCGGGAAAGTGATTTTGAAACGATTAAATTGATTAGCAATGGAG CCTATGGGGCAGTCTACTTTGTTCGGCATAAAGAATCCCGGCAGAGGTTTGCCATGAAGAAGATTAATAA ACAGAACCTCATCCTTCGAAACCAGATCCAGCAGGCCTTTGTGGAGCGGGATATCCTGACTTTTGCAGAA AACCCCTTTGTTGTCAGCATGTATTGCTCCTTTGAAACAAGGCGCCACTTGTGCATGGTCATGGAATATG TGGAAGGGGGAGACTGTGCTACTTTAATGAAAAACATGGGTCCTCTCCCTGTTGATATGGCCAGAATGTA CTTTGCTGAGACGGTCTTGGCCTTGGAATATTTACATAATTATGGAATTGTACACAGGGATTTGAAACCA GACAACTTGTTGGTTACCTCCATGGGGCACATAAAGCTGACAGATTTTGGATTATCTAAGGTGGGACTAA TGAGCATGACTACCAACCTTTACGAGGGTCATATTGAGAAGGATGCTAGAGAGTTCCTGGATAAACAGGT CTGTGGCACACCTGAATACATTGCACCAGAAGTGATTCTGAGGCAGGGTTATGGAAAGCCGGTGGACTGG TGGGCCATGGGGATTATCCTCTATGAATTTCTGGTTGGATGCGTGCCATTCTTTGGGGATACTCCAGAGG AGCTATTTGGACAAGTCATCAGTGATGAGATCAACTGGCCTGAGAAGGATGAGGCACCCCCACCTGATGC CCAGGATCTGATTACCTTACTCCTCAGGCAGAATCCCCTGGAGAGGCTGGGAACAGGTGGTGCATATGAA GTCAAACAGCATCGATTCTTCCGTTCTTTAGACTGGAACAGTTTGCTGAGACAGAAGGCAGAATTTATTC CCCAACTGGAATCTGAGGATGACACAAGTTATTTTGATACTCGGTCTGAGAAGTATCATCATATGGAAAC GGAGGAAGAAGATGACACAAATGATGAAGACTTTAATGTGGAAATAAGGCAGTTTTCTTCATGTTCACAC AGGTTTTCAAAAGTTTTCAGCAGTATAGATCGAATCACTCAGAATTCAGCAGAAGAGAAGGAAGACTCTG TGGACAAAACCAAAAGCACCACCTTGCCATCCACAGAAACACTGAGCTGGAGTTCAGAATATTCTGAAAT GCAACAGCTATCAACATCCAACTCTTCAGATACTGAAAGCAACAGACATAAACTCAGTTCTGGCCTACTT CCCAAACTGGCTATTTCAACAGAGGGAGAGCAAGATGAAGCTGCCTCCTGCCCTGGAGACCCCCATGAGG AGCCAGGAAAGCCAGCCCTTCCTCCTGAAGAGTGTGCCCAGGAGGAGCCTGAGGTCACCACCCCAGCCAG CACCATCAGCAGCTCCACCCTGTCAGTTGGCAGTTTTTCAGAGCACTTGGATCAGATAAATGGACGAAGC GAGTGTGTGGACAGTACAGATAATTCCTCAAAGCCATCCAGTGAACCCGCTTCTCACATGGCTCGGCAGC GATTAGAAAGCACAGAAAAAAAGAAAATCTCGGGGAAAGTCACAAAGTCCCTCTCTGCCAGTGCTCTTTC CCTCATGATCCCAGGAGATATGTTTGCTGTTTCCCCTCTGGGAAGTCCAATGTCTCCCCATTCCCTGTCC TCGGACCCTTCTTCTTCACGAGATTCCTCTCCCAGCCGAGATTCCTCAGCAGCTTCTGCCAGTCCACATC AGCCGATTGTGATCCACAGTTCGGGGAAGAACTACGGCTTTACCATCCGAGCCATCCGGGTGTATGTGGG AGACAGTGACATCTATACAGTGCACCATATCGTCTGGAATGTAGAAGAAGGAAGTCCGGCATGCCAGGCA GGACTGAAGGCTGGAGATCTTATCACTCACATCAATGGAGAACCAGTGCATGGACTTGTCCACACAGAAG TTATAGAACTCCTACTGAAGAGTGGGAATAAGGTGTCAATCACTACTACCCCATTTGAAAACACATCAAT CAAAACTGGACCAGCCAGGAGAAACAGCTATAAGAGCCGGATGGTGAGGCGGAGCAAGAAATCCAAGAAG AAAGAAAGTCTCGAAAGGAGGAGATCTCTTTTCAAAAAGCTAGCCAAGCAGCCTTCTCCTTTACTCCACA CCAGCCGAAGTTTCTCCTGCTTGAACAGATCCCTGTCATCGGGTGAGAGCCTCCCAGGTTCCCCCACTCA TAGCTTGTCTCCCCGGTCTCCAACACCAAGCTACCGCTCCACCCCTGACTTCCCATCTGGTACTAATTCC TCCCAGAGCAGCTCCCCTAGTTCTAGTGCCCCCAATTCCCCAGCAGGGTCCGGGCACATCCGGCCCAGCA CTCTCCACGGTCTTGCACCCAAACTCGGCGGGCAGCGGTACCGGTCCGGAAGGCGAAAGTCCGCCGGCAA CATCCCACTGTCCCCGCTGGCCCGGACGCCCTCTCCAACCCCGCAACCCACCTCCCCGCAGCGGTCACCA TCCCCTCTTCTGGGACACTCACTGGGCAATTCCAAGATCGCGCAAGCCTTTCCCAGCAAGATGCACTCCC CGCCCACCATCGTCAGACACATCGTGAGGCCCAAGAGTGCGGAGCCCCCCAGGTCCCCGCTGCTCAAGCG CGTGCAGTCCGAGGAGAAGCTGTCGCCCTCTTACGGCAGTGACAAGAAGCACCTGTGCTCCCGCAAGCAC AGCCTGGAGGTGACCCAAGAGGAGGTGCAGCGGGAGCAGTCCCAGCGGGAGGCGCCGCTGCAGAGCCTGG ATGAGAACGTGTGCGACGTGCCGCCGCTCAGCCGCGCCCGGCCAGTGGAGCAAGGCTGCCTGAAACGCCC AGTCTCCCGGAAGGTGGGCCGCCAGGAGTCTGTGGACGACCTGGACCGCGACAAGCTGAAGGCCAAGGTG GTGGTGAAGAAAGCAGACGGCTTCCCAGAGAAACAGGAATCCCACCAGAAATCCCATGGACCCGGGAGTG ATTTGGAAAACTTTGCTCTGTTTAAGCTGGAAGAGAGAGAGAAGAAAGTCTATCCGAAGGCTGTGGAAAG GTCAAGTACTTTTGAAAACAAAGCGTCTATGCAGGAGGCGCCACCGCTGGGCAGCCTGCTGAAGGATGCT CTTCACAAGCAGGCCAGCGTGCGCGCCAGCGAGGGTGCGATGTCGGATGGCCGGGTGCCTGCGGAGCACC GCCAGGGTGGCGGGGACTTCAGACGGGCCCCCGCTCCTGGCACCCTCCAGGATGGTCTCTGCCACTCCCT CGACAGGGGCATCTCTGGGAAGGGGGAAGGCACGGAGAAGTCCTCCCAGGCCAAGGAGCTTCTCCGATGT GAAAAGTTAGACAGCAAGCTGGCCAACATCGATTACCTCCGAAAGAAAATGTCACTTGAGGACAAAGAGG ACAACCTCTGCCCTGTGCTGAAGCCCAAGATGACAGCTGGCTCCCACGAATGCCTGCCAGGGAACCCAGT CCGACCCACGGGTGGGCAGCAGGAGCCCCCGCCGGCTTCTGAGAGCCGAGCTTTTGTCAGCAGCACCCAT GCAGCTCAGATGAGTGCCGTCTCTTTTGTTCCCCTCAAGGCCTTAACAGGCCGGGTGGACAGTGGAACGG AGAAGCCTGGCTTGGTTGCTCCTGAGTCCCCTGTTAGGAAGAGCCCCTCCGAGTATAAGCTGGAAGGTAG GTCTGTCTCATGCCTGAAGCCGATCGAGGGCACTCTGGACATTGCTCTCCTGTCCGGACCTCAGGCCTCC AAGACAGAACTGCCTTCCCCAGAGTCTGCACAGAGCCCCAGCCCAAGTGGTGACGTGAGGGCCTCTGTGC CACCAGTTCTCCCCAGCAGCAGTGGGAAAAAGAACGATACCACCAGTGCAAGAGAGCTTTCTCCTTCCAG CTTAAAGATGAATAAATCCTACCTGCTGGAGCCTTGGTTCCTGCCCCCCAGCCGAGGTCTCCAGAATTCA CCAGCAGTTTCCCTGCCTGACCCAGAGTTCAAGAGGGACAGGAAAGGTCCCCATCCTACTGCCAGGAGCC CTGGAACAGTCATGGAAAGCAATCCCCAACAGAGAGAGGGCAGCTCCCCTAAACACCAAGACCACACCAC TGACCCCAAGCTTCTGACCTGCCTGGGGCAGAACCTCCACAGCCCTGACCTGGCCAGGCCACGCTGCCCG CTCCCACCTGAAGCTTCCCCCTCAAGGGAGAAGCCAGGCCTGAGGGAATCGTCTGAAAGAGGCCCTCCCA CAGCCAGAAGCGAGCGCTCTGCTGCGAGGGCTGACACATGCAGAGAGCCCTCCATGGAACTGTGCTTTCC AGAAACTGCGAAAACCAGTGACAACTCCAAAAATCTCCTCTCTGTGGGAAGGACCCACCCAGATTTCTAT ACACAGACCCAGGCCATGGAGAAAGCATGGGCGCCGGGTGGGAAAACGAACCACAAAGATGGCCCAGGTG AGGCGAGGCCCCCGCCCAGAGACAACTCCTCTCTGCACTCAGCTGGAATTCCCTGTGAGAAGGAGCTGGG CAAGGTGAGGCGTGGCGTGGAACCCAAGCCCGAAGCGCTTCTTGCCAGGCGGTCTCTGCAGCCACCTGGA ATTGAGAGTGAGAAGAGTGAAAAGCTCTCCAGTTTCCCATCTTTGCAGAAAGATGGTGCCAAGGAACCTG AAAGGAAGGAGCAGCCTCTACAAAGGCATCCCAGCAGCATCCCTCCGCCCCCTCTGACGGCCAAAGACCT GTCCAGCCCGGCTGCCAGGCAGCATTGCAGTTCCCCAAGCCACGCTTCTGGCAGAGAGCCGGGGGCCAAG CCCAGCACTGCAGAGCCCAGCTCGAGCCCCCAGGACCCTCCCAAGCCTGTTGCTGCGCACAGTGAAAGCA GCAGCCACAAGCCCCGGCCTGGCCCTGACCCGGGCCCTCCAAAGACTAAGCACCCCGACCGGTCCCTCTC CTCTCAGAAACCAAGTGTCGGGGCCACAAAGGGCAAAGAGCCTGCCACTCAGTCCCTCGGTGGCTCTAGC AGAGAGGGGAAGGGCCACAGTAAGAGTGGGCCGGATGTGTTTCCTGCTACCCCAGGCTCCCAGAACAAAG CCAGCGATGGGATTGGCCAGGGAGAAGGTGGGCCCTCTGTCCCACTGCACACTGACAGGGCTCCTCTAGA CGCCAAGCCACAACCCACCAGTGGTGGGCGGCCCCTGGAGGTGCTGGAGAAGCCTGTGCATTTGCCAAGG CCGGGACACCCAGGGCCTAGTGAGCCAGCGGACCAGAAACTGTCCGCTGTTGGTGAAAAGCAAACCCTGT CTCCAAAGCACCCCAAACCATCCACTGTGAAAGATTGCCCCACCCTGTGCAAACAGACAGACAACAGACA GACAGACAAAAGCCCGAGTCAGCCGGCCGCCAACACCGACAGAAGGGCGGAAGGGAAGAAATGCACTGAA GCACTTTATGCTCCAGCAGAGGGCGACAAGCTCGAGGCCGGCCTTTCCTTTGTGCATAGCGAGAACCGGT TGAAAGGCGCGGAGCGGCCAGCCGCGGGGGTGGGGAAGGGCTTCCCTGAGGCCAGAGGGAAAGGGCCCGG TCCCCAGAAGCCACCGACGGAGGCAGACAAGCCCAATGGCATGAAACGGTCCCCCTCAGCCACTGGGCAG AGTTCTTTCCGATCCACGGCCCTCCCGGAAAAGTCTCTGAGCTGCTCCTCCAGCTTCCCTGAAACCAGGG CCGGAGTTAGAGAGGCCTCTGCAGCCAGCAGCGACACCTCTTCTGCCAAGGCCGCCGGGGGCATGCTGGA GCTTCCAGCCCCCAGCAACAGGGACCATAGGAAGGCTCAGCCTGCCGGGGAGGGCCGAACCCACATGACA AAGAGTGACTCCCTGCCCTCCTTCCGGGTCTCCACCCTGCCTCTGGAGTCACACCACCCCGACCCAAACA CCATGGGCGGGGCCAGCCACCGGGACAGGGCTCTCTCGGTGACTGCCACCGTAGGGGAAACCAAAGGGAA GGACCCTGCCCCAGCCCAGCCTCCCCCAGCTAGGAAACAGAACGTGGGCAGAGACGTGACCAAGCCATCC CCAGCCCCAAACACTGACCGCCCCATCTCTCTTTCTAATGAGAAGGACTTTGTGGTACGGCAGAGGCGGG GGAAAGAGAGTTTGCGTAGCAGCCCTCACAAAAAGGCCTTGTAA |
| Restriction Sites | SgfI-MluI |
| ACCN | NM_001290226 |
| ORF Size | 7254 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). |
| Reference Data | |
| RefSeq | NM_001290226.1, NP_001277155.1 |
| RefSeq Size | 10176 |
| RefSeq ORF | 7254 |
| Locus ID | 375449 |
| Protein Families | Druggable Genome, Protein Kinase |
| Gene Summary | This gene encodes a member of the microtubule-associated serine/threonine protein kinases. The proteins in this family contain a domain that gives the kinase the ability to determine its own scaffold to control the effects of their kinase activities. Alternative splicing results in multiple transcript variants encoding different isoforms. [provided by RefSeq, Mar 2014] Transcript Variant: This variant (4) represents use of an alternate promoter, differs in the 5' UTR, uses a downstream start codon, and has an alternate in-frame exon compared to variant 3. The encoded protein (isoform d) has a shorter and distinct N-terminus compared to isoform c. 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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Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC240248 | MAST4 (myc-DDK-tagged) - Human microtubule associated serine/threonine kinase family member 4 (MAST4), transcript variant 4 |
USD 2,900.00 |
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