Madd (NM_145527) Mouse Untagged Clone

CAT#: MC205915

Madd (untagged) - Mouse MAP-kinase activating death domain (Madd), transcript variant 9, (10ug)



  "NM_145527" in other vectors (4)

CNY 10,664.00


货期*
现货

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Synonyms 9630059K23Rik; IG20
Vector PCMV6-Kan/Neo
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>BC063386
CGCCCCGCCGCCGGCCGGGAGACGTCGGGTGGGCCTGGCAGCCTCCTCCGAGAATTATATCAGAATTCCT CCTGGGAATGCTGGCTTCTTGCTCAGTGCCCTGAAGTTTCTCTGCAATGAACTGACAAATCGGAACCATG GTGCAAAAGAAGTTCTGCCCTCGGTTACTTGACTATCTCGTGATCGTAGGGGCGAGGCACCCAAGCAGTG ACAGTGTGGCTCAGACTCCTGAGCTGCTGCGGAGGTACCCACTAGAGGATCACCCAGAGTTCCCCCTGCC CCCAGATGTGGTGTTCTTCTGCCAGCCAGAAGGATGTCTGAGTGTGCGGCAGCGGCGGATGAGCCTTCGG GACGATACCTCTTTTGTCTTCACCCTAACCGATAAGGACACCGGAGTCACCCGCTATGGCATCTGTGTCA ACTTCTACCGTTCCTTCCAAAAGCGAATGCCAAAGGAAAAGGTGGAAGGCGGAGCAGGACCCCGTGGGAA GGAAGGCGCTCACACCTCTGGTGCCTCAGAAGAGGCTGCCGCTGGGAGCTCAGAGAGTGGCTCAACCTTG CAGCCGCCTAGTGCTGACTCCACTCCTGACGTAAACCAGTCTCCTCGGGGCAAACGTAGGGCAAAAGCGG GCAGCCGCTCCCGCAACAGTACCCTGACATCCCTGTGTGTGCTTAGCCACTACCCTTTCTTCTCTACCTT CAGAGAGTGTCTGTATACTCTCAAACGTTTGGTAGACTGCTGTAGTGAACGGCTGCTAGGCAAGAAACTG GGCATCCCTCGAGGTGTACAAAGGGACACCATGTGGCGAATCTTTACTGGATCACTGCTAGTGGAGGAGA AGTCCAGTGCCCTTCTGCAAGACCTTCGAGAGATTGAGGCCTGGATCTATCGGTTGCTACGTTCCCCAGT GCCTGTCTCTGGGCAGAAGCGAGTGGACATTGAGGTCCTGCCCCAGGAACTCCAGCAGGCCCTGACATTT GCTCTTCCAGATCCATCTCGATTCACCCTAGTAGATTTCCCTCTTCACCTTCCCTTGGAACTTCTGGGTG TAGATGCTTGTCTTCAGGTGCTAACCTGCATCCTGTTGGAGCACAAGGTGGTGCTGCAGTCTCGAGACTA CAATGCACTCTCCATGTCTGTGATGGCGTTCGTGGCAATGATCTACCCCCTGGAGTACATGTTCCCGGTC ATCCCGCTGCTTCCCACCTGCATGGCCTCGGCAGAGCAGCTACTCTTGGCTCCAACCCCATACATCATTG GAGTTCCTGCCAGCTTCTTCCTCTACAAGCTAGATTTCAAAATGCCCGATGACGTGTGGCTAGTGGATCT GGACAGCAATAGGGTGATTGCCCCCACCAATGCAGAAGTGCTACCCATCCTGCCAGAACCAGAATCATTA GAGCTGAAAAAACACTTAAAGCAGGCCTTAGCCAGCATGAGTCTCAACACCCAGCCCATTCTTAACCTGG AGAAATTCCACGAGGGCCAGGAGATCCCGCTTCTCTTGGGAAGGCCATCTAATGACCTTCAGTCCACACC TTCCACTGAATTCAACCCGCTCATTTATGGCAATGATGTAGATTCAGTCGACGTTGCAACGAGAGTGGCC ATGGTACGTTTCTTCAACTCTGCTAACGTGCTGCAGGGCTTTCAGATGCACACACGTACCCTGCGACTCT TCCCCCGGCCTGTGGTAGCTTTCCAAGCTGGCTCCTTTCTGGCCTCACGTCCCCGGCAGACTCCCTTTGC TGAGAAACTGGCCAGGACCCAAGCTGTGGAGTATTTTGGAGAATGGATCCTGAACCCTTCTAACTATGCC TTCCAGCGGATTCACAACAATACGTTTGATCCGGCCCTTATTGGTGACAAGCCAAAGTGGTACGCTCACC AGCTGCAGCCCATCCATTATCGAGTCTATGATGGCAACTCTCAGCTGGCCGAGGCCCTGAGTGTGCCCCC GGAGCGCGATTCTGACTCCGACCCGACGGAGGACAGTGGCAGTGATAGTCAGGATTATGATGACTCAAGC TCTTCTTACTCCTCCCTTGGGGACTTTGTCAGTGAAATGATGAAATGTGACATCAATGGAGACACTCCCA ATGTGGATCCTCTGACCCATGCAGCCCTGGGAGATGCCAGTGAAGTGGAGATTGACGAGCTGCAGCCCCA GAAGGAGGGAGAGGAACCCGGCCCAGACAGTGAGAACTCTCAGGAAAACCCTCCGCTGCGCTCCAGCTCC AGCACCACGGCCAGCAGCAGCCCCAGCACCGTTGTCCACAGTGCCCACTCTGAAGCTGCTGACTCTACAG AGATGGGAGATAAGGCCACAGCAGGCATCTCCAAGCCCCTCCCTCCCGTGCCTCCCAGCATTTGCAAATC TACTGTGGACAGGAGACAGACAGAGACTGGAGAGGGGTCAGTGTGCCAGCGAACCTATGACAATCCATAC TTCGAGCCCCAGTATGGCTTTCCCCCCGAGGAAGATGAGGAGGAGCAGGGGGAGAGCTACACTCCCCGGT TCAGCCAGCATGTCAGTGGCAGTCGGGCTCAAAAGCTGCTGCGGCCCAACAGCTTGAAGCTGGCAAGTGA CTCAGACGCAGAGTCAGACTCGAGAGCAAGCTCTCCCAACTCCACTGTCTCTAACAACAGCACCGAGGGC TTCGGGGGCATCATGTCTTTTGCTAGCAGCCTGTATCGGAACCATAGTACAAGCTTCAGTCTTTCAAACC TCACACTGCCCACCAAAGGTGCCCGCGAGAAGACGACACCATTCCCCAGCCTGAAAGGAAATAGGAGGGC CTTAGTGGACCAGAAGTCATCTGTCATTAAACACAGCCCAACCGTGAAAAGAGAACCTTCATCCCCACAG GGCCGGTCGAGCAACTCTAGCGAGAACCAGCAGTTCCTGAAGGAAGTAGTCCATAGTGTGCTGGACGGCC AGGGAGTGGGCTGGCTCAATATGAAGAAGGTACGCCGGCTCCTGGAGAGTGAGCAGCTTAGAGTCTTTGT ACTGAGCAAGCTGAATCGCGCAGTGCAGTCAGAGGATGACGCCCGGCAGGATGTCATCCAAGACGTGGAG ATCAGCCGGAAGGTGTACAAGGGGATGCTAGACCTCCTCAAGTGCACAGTCCTCAGCCTCGAGCAGTCCT ATGCCCACGCAGGTCTGGGTGGTATGGCCAGCATCTTTGGGCTTTTGGAGATTGCCCAGACCCACTACTA TAGTAAAGAACCAGACAAACGGAAGAGAAGTCCGACAGAGAATGTAAATACCCCAGTTGGCAAGGATCCT GGTCTGGCTGGGCGGGGGGACCCAAAGGCAATGGCCCAGCTAAGGGTCCCTCAACTGGGCCCTCGGGCAC CAAGTGCTACAGGAAAGGGTCCTAAAGAACTGGATACCAGAAGTTTAAAGGAAGAGAATTTTGTAGCATC TGTTGAATTGTGGAACAAGCACCAGGAAGTGAAAAAGCAAAAGGCTTTGGAAAAACAGAGGCCAGAGGGC ATCAAGCCTGTCTTTGACCTGGGTGAGACAGAGGAGAAAAAGTCCCAGATGAGCGCAGACAGTGGTGTGA GCCTGACATCTGCCTCCCAGAGGACTGATCAAGACTCTGTCATCGGTGTGAGTCCAGCTGTTATGATCCG AAGCTCAAGTCAGGATTCTGAAGTTAGCACCGTGGTGAGTAATAGTTCCGGAGAGACCCTTGGAGCTGAC AGTGACCTGAGCAGCAATGCAGGTGACGGGCCAGGAGGCGAAGGCAGCGCCCACCTGGCAAGTTCCCGGG CCACTCTGTCCGACAGTGAAATCGAAACCAATTCTGCTACAAGCGCCATCTTTGGTAAAGCCCATAGCTT GAAGCCAAAGGAGAAGCCGGCTGGTAGTCCGATTCGCTCTTCCGAAGACGTAAGCCAGCGAGTCTATCTC TATGAGGGACTGCTAGGAAGGGACAAAGGATCCATGTGGGACCAGCTAGAGGATGCCGCTATGGAGACCT TTTCTCTGAGCAAAGAACGTTCTACCTTATGGGACCAAATGCAGTTCTGGGAAGATGCATTCTTAGATGC TGTAATGTTGGAAAGAGAAGGAATGGGTATGGACCAGGGTCCTCAGGAAATGATCGACAGGTACCTCTCC CTAGGGGAACACGACCGGAAGCGCCTGGAGGATGATGAAGACCGCTTGCTGGCCACACTTTTACACAACC TCATATCCTATATGCTGCTGATGAAGGTGAACAAGAATGACATCAGGAAGAAAGTACGGCGCCTAATGGG AAAGTCCCACATTGGGCTGGTGTACAGCCAGCAAGTCAATGAGGTGCTCGATCAGCTGAACAGCCTGAAT GGACGTGATCTCTCCATCCGGTCCAGCGGCAGCCGGCACATGAAGAAGCAGACTTTTGTTGTGCATGCAG GGACGGACACAAATGGAGACATCTTTTTCATGGAAGTGTGTGATGACTGCGTGGTGTTGCGTAGTAACAT TGGGACGGTGTACGAGCGCTGGTGGTATGAGAAGCTCATCAATATGACCTACTGTCCCAAGACCAAGGTC CTGTGCTTATGGCGGAGAAATGGCTCTGAGACCCAGCTCAACAAGTTCTATACCAAGAAGTGTCGAGAGC TGTACTACTGTGTGAAGGACAGCATGGAACGTGCTGCTGCCCGACAGCAAAGCATCAAACCTGGGCCTGA GCTAGGCGGTGAGTTCCCTGTGCAGGACATGAAGACTGGAGAGGGTGGCTTGCTTCAAGTCACCCTGGAA GGGATCAATCTCAAGTTCATGCACAACCAGTTCCTGAAATTAAAGAAGTGGTGAGCCACAAGTACAAGAC GCCAATGGCCCACGAGATCTGCTACTCTGTGTTGTGTCTCTTCTCGTATGTGGCCGCAGTTCGTAGCAGT GAAGAAGACCTTCGAACCCCACCTCGGCCTGTCTCTAGCTGATAGAAGGGTTCCACAGCTGGCCAAGCCC AGGGGTCTCCCCTCACCTCTTGCTGCTCCTAAGCACCGAAGCTGCTGGACTGAGATGGGAATGTGTGTGT GTTCTCAGCAAGTTCCTTCCCACGGTCTAGCTGGTCTTCTCTTACGTCTGAGTGTCTTTGTGTTCATCTG TCACGGGGCTAAGCTAGCCTCATTACTTTCTCTTCCTACAATAGCAGACTAGCCTTCTGTTCCCTCAGGG CTCCAGAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGGTGTGTGTGGTGTGTGTG TCTGTGGGGTCACTGTGAGCCCACTATTGCCTGTCCTTGAGATGTTTGCACTGTGGTCCCTTGTCCTAGT CCTTATATCCTCCAGTTTAGGAGTCTTCTCTCTGTCCTCTATGATCTGGCACTGTGGGGCACCTGGGACA GTTCCACTCTGGGAAGTGAAAGACACCTGGGGACAAATCTTCCTGGCTGAGGGCCTGGGAGGAGGAGGGG AGGTTCAAAGGAAGCTCAGTAAGTGGTGGGCGACCTTCCTGCTTCCTCACAGTTTCTAAACTGTGGGTGC ATGTCATGCTGCTGCCTGCCCCAGCTCCATCGATGGGTGTCCCTGAGTGGCTGCCATGTGCCGAGCTGGG ATTTGTGCAGTGGTCTTCCTGGCCTTTGGCATGAGAGGACGGAGGAATGAGGTGATGGTGTCCCAGACAG CACCAGCTGCTCTGCCTAAGGGCCGGGGATAGGTGGGTCAGGGCTGAGCTGAGCCCAGAGTGCACGCCTG TCTGCAGGCAGAGTCTCCTGGCTTCAGTGCCAGAAGAAAGCTATGGACTGGATAGGAGGAGAATGTAAAT ATTTCAGCTCCACATTATTTATAGAAAAATGTACAGCTGTGTGATGTGAAATAAATGTCCTGAACTCCAA AAAAAAAAAAAAAAA
Restriction Sites RsrII-NotI     
ACCN NM_145527
Insert Size 4677 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 BC063386, AAH63386
RefSeq Size 5895 bp
RefSeq ORF 4677 bp
Locus ID 228355
UniProt ID Q80U28
Gene Summary Plays a significant role in regulating cell proliferation, survival and death through alternative mRNA splicing. Converts GDP-bound inactive form of RAB3A, RAB3C and RAB3D to the GTP-bound active forms. Component of the TNFRSF1A signaling complex: MADD links TNFRSF1A with MAP kinase activation. Plays an important regulatory role in physiological cell death (TNF-alpha-induced, caspase-mediated apoptosis).[UniProtKB/Swiss-Prot Function]
Transcript Variant: This variant (9) lacks one exon and uses an alternate splice site in the coding region, compared to variant 10. The resulting isoform (9) differs at two internal portions, compared to isoform 10.
*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.

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