Arid1a (NM_001080819) Mouse Untagged Clone

CAT#: MC225259

Arid1a (untagged) - Mouse AT rich interactive domain 1A (SWI-like) (Arid1a), (10ug)



  "NM_001080819" in other vectors (2)

CNY 36,670.00


货期*
14周

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 1110030E03Rik; BAF250a; Osa1; Smarcf1
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225259 representing NM_001080819
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCCGCGCAGGTCGCCCCCGCCGCCGCCAGCAGCCTGGGCAACCCGCCGCCGCCGCCCTCGGAGCTGA
AGAAAGCCGAGCAGCAACAGCGGGAGGAGGCGGGGGGCGAGGCGGCGGCGGCAGCGGCCGAGCGCGGGGA
AATGAAGGCAGCCGCCGGGCAGGAGAGCGAGGGCCCCGCCGTGGGGCCGCCGCAGCCGCTGGGAAAGGAG
CTGCAGGACGGGGCCGAGAGCAATGGGGGTGGCGGCGGCGGCGGAGCCGGCAGCGGCGGCGGGCCCGGCG
CGGAGCCGGACCTGAAGAACTCGAACGGGAACGCGGGCCCTAGGCCCGCCCTGAACAATAACCTCCCGGA
GCCGCCCGGCGGCGGCGGCGGCGGCGGCAGCAGCAGCAGCGACGGGGTGGGGGCGCCTCCTCACTCGGCC
GCGGCCGCCCTGCCGCCCCCAGCCTACGGCTTCGGGCAAGCCTACGGCCGGAGCCCGTCTGCCGTCGCCG
CCGCGGCGGCCGCCGTCTTCCACCAACAACATGGCGGACAACAAAGCCCTGGCCTGGCAGCGCTGCAGAG
CGGCGGCGGCGGGGGCTTGGAGCCCTACGCCGGGCCCCAGCAGAACTCGCACGACCACGGCTTCCCCAAC
CACCAGTACAACTCCTACTACCCCAACCGCAGCGCCTACCCCCCGCCTCCCCAGGCCTACGCGCTGAGCT
CCCCGAGAGGTGGCACTCCGGGCTCCGGCGCGGCGGCGGCCGCCGGCTCCAAGCCGCCTCCCTCCTCCAG
CGCCTCTGCCTCCTCGTCGTCTTCGTCCTTCGCACAGCAGCGCTTCGGGGCCATGGGGGGAGGCGGCCCC
TCAGCGGCCGGCGGGGGAACTCCCCAGCCCACCGCCACCCCCACCCTCAACCAACTGCTCACGTCGCCCA
GCTCGGCCCGTGGCTACCAGGGCTACCCCGGGGGCGACTACGGCGGCGGGCCCCAGGACGGGGGCGCGGG
CAAAGGCCCGGCGGACATGGCCTCGCAGTGCTGGGGGGCTGCGGCGGCGGCGGCGGCGGCGGCAGCGGCC
GTCTCGGGAGGGGCCCAACAAAGGAGCCACCACGCGCCCATGAGCCCCGGGAGCAGCGGCGGCGGGGGGC
AGCCGCTCGCCCGGACCCCTCAGTCATCCAGTCCAATGGATCAGATGGGAAAGATGAGACCTCAGCCGTA
TGGTGGGACTAACCCATACTCGCAACAACAGGGACCTCCTTCAGGACCGCAACAAGGACATGGGTACCCA
GGGCAGCCATATGGGTCCCAGACTCCACAGCGGTACCCCATGACCATGCAGGGCCGGGCTCAGAGTGCCA
TGGGCAGCCTCTCTTATGCACAGCAGATTCCACCTTATGGCCAGCAAGGCCCCAGTGCGTATGGCCAGCA
GGGCCAGACTCCATACTATAACCAGCAAAGTCCTCATCCCCAGCAGCAGCCACCTTACGCCCAGCAACCA
CCATCCCAGACCCCTCATGCCCAGCCTTCGTATCAGCAGCAGCCGCAGACTCAGCAACCACAGCTTCAGT
CCTCTCAGCCTCCATATTCCCAGCAGCCATCCCAGCCTCCACATCAGCAGTCCCCAACTCCATATCCCTC
CCAGCAGTCCACCACACAACAGCATCCCCAGAGCCAGCCCCCCTACTCACAACCACAGGCACAGTCTCCC
TACCAGCAGCAGCAACCTCAGCAGCCAGCATCCTCGTCGCTCTCCCAGCAGGCTGCATATCCTCAGCCCC
AGCCTCAGCAGTCCCAGCAAACTGCCTATTCCCAGCAGCGCTTCCCTCCACCACAGGAGCTTTCTCAAGA
TTCATTTGGGTCTCAGGCATCCTCAGCCCCCTCAATGACCTCCAGTAAGGGAGGGCAAGAAGATATGAAC
CTGAGTCTTCAGTCAAGGCCCTCCAGCTTGCCTGATCTGTCTGGTTCAATCGATGATCTCCCCATGGGGA
CAGAAGGAGCTCTGAGTCCTGGCGTGAGCACATCAGGGATTTCCAGCAGCCAAGGAGAGCAGAGCAATCC
AGCTCAGTCTCCCTTTTCTCCTCACACCTCCCCTCACCTGCCTGGCATCCGAGGCCCGTCCCCGTCCCCT
GTTGGCTCTCCTGCCAGTGTCGCGCAGTCTCGCTCAGGACCACTCTCGCCTGCTGCAGTGCCAGGCAACC
AGATGCCACCTCGGCCACCCAGTGGCCAGTCAGACAGCATCATGCACCCTTCCATGAACCAATCAAGCAT
TGCCCAAGATCGAGGTTATATGCAGAGGAACCCCCAGATGCCCCAGTACACTTCCCCTCAGCCTGGCTCG
GCCTTATCCCCACGTCAGCCGTCTGGAGGACAGATGCACTCGGGCGTGGGCTCCTACCAGCAGAACTCCA
TGGGGAGCTACGGCCCCCAGGGCAGTCAGTATGGCCCACAAGGAGGCTATCCTAGGCAGCCTAACTATAA
TGCCTTGCCCAACGCCAACTACCCCAATGCAGGCATGGCCGGAAGTATGAACCCTATGGGTGCTGGAGGT
CAGATGCATGGGCAGCCTGGAATCCCACCTTACGGCACACTCCCTCCAGGGAGAATGGCTCATGCGTCTA
TGGGCAACAGGCCCTATGGCCCTAATATGGCCAATATGCCACCTCAGGTTGGGTCAGGGATGTGTCCTCC
ACCAGGGGGAATGAACAGGAAAACTCAAGAGTCTGCTGTTGCCATGCATGTTGCTGCCAACTCTATCCAA
AACAGGCCACCAGGCTACCCAAATATGAATCAAGGGGGCATGATGGGAACTGGACCTCCCTATGGACAGG
GGATCAATAGTATGGCTGGCATGATCAACCCTCAGGGACCCCCATATCCTATGGGTGGAACCATGGCCAA
CAATTCAGCAGGGATGGCAGCCAGCCCAGAGATGATGGGCCTTGGGGATGTTAAGTTAACTCCCGCCACA
AAAATGAACAACAAGGCAGATGGAACACCCAAGACAGAATCCAAATCTAAGAAATCCAGTTCTTCTACCA
CCACCAATGAGAAGATCACCAAATTGTATGAGTTGGGTGGTGAGCCCGAGAGGAAGATGTGGGTGGACCG
GTACCTGGCCTTCACAGAGGAGAAGGCCATGGGCATGACAAATCTGCCTGCTGTGGGGAGGAAGCCTCTG
GACCTCTATCGCCTCTATGTGTCTGTGAAGGAGATTGGTGGGTTGACTCAGGTCAACAAGAACAAAAAAT
GGCGGGAACTTGCAACCAACCTCAATGTGGGTACATCAAGCAGTGCTGCCAGCTCACTGAAAAAGCAGTA
TATCCAATGTCTCTATGCCTTTGAGTGCAAGATCGAGCGTGGAGAAGACCCTCCCCCCGATATCTTCGCA
GCTGCTGACTCCAAGAAGTCCCAACCCAAGATCCAGCCCCCCTCTCCTGCGGGATCAGGGTCTATGCAGG
GGCCACAAACTCCTCAGTCAACCAGCAGTTCTATGGCAGAAGGAGGAGACCTGAAGCCACCAACTCCAGC
ATCCACACCACATAGTCAAATTCCCCCCTTACCAGGCATGAGCAGGAGCAACTCAGTCGGAATCCAGGAT
GCCTTTCCTGATGGAAGTGACCCCACATTCCAGAAGCGGAATTCCATGACTCCAAACCCTGGGTACCAGC
CCAGTATGAATACCTCTGACATGATGGGGCGCATGTCCTATGAGCCAAATAAGGATCCTTATGGCAGCAT
GAGGAAAGCGCCAGGAAGTGATCCCTTCATGTCCTCAGGGCAGGGCCCCAATGGCGGGATGGGTGATCCC
TACAGCCGTGCTGCTGGCCCTGGGCTGGGAAGTGTGGCGATGGGACCACGGCAGCACTATCCCTATGGAG
GTCCTTACGACAGAGTGAGGACGGAGCCTGGAATCGGGCCTGAAGGAAATATGGGCACTGGAGCCCCTCA
GCCAAATCTCATGCCTTCCACCCCAGATTCGGGGATGTATTCTCCTAGCCGCTACCCCCCGCAGCAGCAG
CAGCAACAGCAGCAACAACATGATTCCTATGGCAATCAATTCTCTACCCAAGGCACCCCTTCCAGCAGCC
CCTTCCCCAGCCAGCAGACCACAATGTATCAGCAGCAGCAGCAGAATTATAAGAGGCCAATGGATGGCAC
ATATGGCCCCCCTGCCAAGCGGCATGAAGGGGAGATGTACAGTGTGCCGTACAGCGCTGGGCAAGGCCAG
CCTCAACAGCAGCAGTTGCCTGCAGCTCAGTCCCAGCCTGCCAGCCAGCCACAAGCTGCCCAGCCTTCCC
CTCAGCAGGACGTGTACAACCAGTACAGCAATGCCTACCCTGCCTCCGCCACCGCTGCTACTGATCGCCG
ACCAGCAGGCGGCCCCCAGAACCAATTTCCATTCCAGTTTGGCCGAGACCGAGTCTCTGCACCTCCTGGT
TCCAGTGCCCAGCAGAACATGCCACCACAAATGATGGGTGGCCCCATACAGGCATCAGCTGAGGTTGCTC
AGCAGGGCACCATGTGGCAGGGGCGAAATGACATGACCTACAATTATGCCAACAGGCAGAACACAGGCTC
TGCCACCCAGGGCCCTGCGTATCATGGTGTGAACCGAACAGATGAAATGCTCCACACAGATCAGAGGGCC
AACCATGAAGGCCCATGGCCTTCCCATGGCACACGCCAGCCTCCGTATGGTCCTTCAGCCCCTGTTCCCC
CCATGACAAGGCCCCCTCCATCTAACTACCAGCCCCCACCAAGCATGCCGAATCACATTCCTCAGGTATC
CAGCCCCGCTCCCCTCCCCCGGCCCATGGAGAACCGTACTTCTCCTAGCAAGTCTCCATTCCTGCACTCT
GGGATGAAAATGCAAAAGGCGGGTCCACCGGTGCCTGCTTCGCACATAGCGCCTACCCCTGTGCAGCCGC
CTATGATTCGGCGGGATATCACCTTCCCACCTGGCTCTGTAGAGGCCACTCAGCCTGTGTTGAAGCAGAG
AAGGCGGCTCACAATGAAAGACATTGGAACCCCGGAGGCATGGCGGGTAATGATGTCCCTCAAGTCCGGG
CTCCTGGCAGAGAGCACGTGGGCGTTAGACACCATTAACATTCTACTGTATGATGACAACAGCATTATGA
CCTTCAACCTCAGCCAGCTCCCAGGCTTGCTAGAGCTCCTTGTGGAATATTTCCGTAGATGCCTAATTGA
AATCTTTGGCATTTTAAAGGAGTATGAGGTAGGGGACCCAGGACAGAGAACATTACTAGACCCTGGGAGA
TTCACCAAGGTGTATAGTCCAGCCCATACAGAGGAAGAAGAGGAAGAACACCTTGATCCTAAACTGGAGG
AGGAAGAGGAAGAAGGGGTTGGAAATGATGAGGAGATGGCCTTTTTGGGCAAGGACAAGCCATCTTCAGA
GAATAATGAGGAGAAGCTAGTCAGTAAGTTTGACAAGCTTCCGGTAAAGATCGTGCAGAGGAATGACCCA
TTTGTGGTGGACTGCTCAGATAAGCTTGGGCGCGTGCAGGAGTTTGACAGTGGCCTGCTACACTGGCGGA
TTGGTGGTGGGGATACCACTGAGCATATCCAGACCCACTTTGAGAGCAAGATAGAGCTGCTGCCTTCCCG
GCCTTATGTGCCCTGCCCAACGCCCCCTCGGAAACACCTCACAACAGTAGAGGGCACACCAGGGACAACG
GAGCAGGAGGGCCCCCCGCCCGATGGCCTTCCAGAGAAAAGGATCACAGCCACCATGGATGACATGTTGT
CTACCCGGTCTAGCACATTGACTGATGAGGGGGCAAAGAGTGCAGAGGCCACCAAGGAAAGCAGCAAGTT
TCCATTTGGCATTAGCCCAGCACAGAGCCACCGGAACATCAAAATTTTAGAGGATGAACCCCATAGTAAG
GATGAGACCCCACTGTGTACCCTTCTGGACTGGCAGGATTCCCTTGCTAAGCGCTGTGTCTGTGTCTCCA
ATACCATCCGGAGCCTGTCGTTTGTGCCAGGCAACGACTTTGAGATGTCCAAACACCCAGGGCTGCTGCT
TATCCTGGGCAAGCTGATCCTGCTGCACCACAAGCACCCAGAGCGGAAGCAGGCACCACTAACTTATGAG
AAGGAGGAGGAACAGGACCAAGGGGTGAGCTGTGACAAAGTGGAGTGGTGGTGGGACTGCTTGGAGATGC
TCCGAGAAAACACGCTGGTCACCCTCGCCAACATCTCGGGGCAATTGGACCTATCCCCATATCCTGAGAG
CATCTGCCTGCCTGTCCTGGACGGACTCCTACACTGGGCAGTTTGCCCTTCAGCTGAAGCCCAGGACCCC
TTCTCAACCCTAGGCCCCAATGCCGTCCTCTCCCCCCAGAGATTGGTCTTGGAAACCCTCAGCAAACTCA
GCATCCAGGACAACAATGTGGACCTGATCCTGGCCACTCCCCCTTTTAGCCGCCTGGAGAAGTTGTATAG
TACCATGGTGCGCTTCCTCAGTGACCGAAAGAACCCAGTGTGCCGGGAGATGGCCGTGGTACTGCTGGCA
AATCTGGCCCAGGGGGACAGCCTGGCAGCCCGGGCCATTGCAGTGCAGAAGGGCAGCATCGGCAACCTCC
TGGGTTTCCTGGAGGACAGCCTTGCTGCCACACAGTTCCAGCAGAGCCAGGCAAGCCTCCTGCATATGCA
GAATCCACCCTTTGAACCAACTAGTGTGGACATGATGCGGCGGGCTGCCCGAGCACTGCTTGCCCTGGCC
AAGGTGGATGAGAACCACTCAGAGTTCACTCTGTATGAGTCACGGCTGTTGGACATCTCCGTGTCACCAC
TGATGAACTCATTGGTTTCACAAGTCATTTGTGATGTACTGTTTTTGATTGGCCAGTCATGA


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001080819
Insert Size 6852 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 NM_001080819.1, NP_001074288.1
RefSeq Size 8175 bp
RefSeq ORF 6852 bp
Locus ID 93760
UniProt ID A2BH40
Gene Summary Involved in transcriptional activation and repression of select genes by chromatin remodeling (alteration of DNA-nucleosome topology). Component of SWI/SNF chromatin remodeling complexes that carry out key enzymatic activities, changing chromatin structure by altering DNA-histone contacts within a nucleosome in an ATP-dependent manner. Binds DNA non-specifically (PubMed:22952240, PubMed:26601204). Belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a postmitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to postmitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth (PubMed:17640523).[UniProtKB/Swiss-Prot Function]
*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.

Other Versions

Customer Reviews 
Loading...