Son (NM_178880) Mouse Untagged Clone

CAT#: MC225318

Son (untagged) - Mouse Son DNA binding protein (Son), transcript variant 1, (10ug)


  "NM_178880" in other vectors (2)

Reconstitution Protocol

USD 3,228.00

10 Weeks*

Size
    • 10 ug

Product Images

Frequently bought together (2)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

USD 507.00


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

USD 59.00

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Son
Synonyms 2900011L12Rik; AA409051; AU067731; C81487; mKIAA1019; nrebp
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225318 representing NM_178880
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCGGCCGACATCGAGCAGGTTTTCAGGTCTTTCGTGGTCAGTAAATTCCGGGAAATACAACAGGAGC
TTTCCAGTGGAAGGAGTGAAGGCCAGCTGAATGGTGAAACAAATCCACCCATTGAAGGGAACCAGGCAGG
TGACACAGCTGCCTCTGCAAGGAGTCTCCCAAATGAAGAAATAGTGCAGAAGATAGAGGAGGTCCTCTCT
GGGGTCTTAGATACGGAGCTGCGGTACAAGCCCGACTTGAAAGAGGCCTCCAGAAAAAGTAGATGCGTAT
CTGTGCAAACAGATCCTACTGATGAAGTGCCCACCAAAAAGTCAAAGAAGCATAAAAAGCACAAAAACAA
AAAGAAGAAAAAGAAGAAAGAAAAAGAAAAAAAATATAAAAGACAACCAGAAGAATCTGAGTCCAAGCTG
AAATCTCATCATGATGGGAATCTAGAATCTGATTCCTTCTTAAAGTTTGATTCTGAACCTTCAGCAGCGG
CACTGGAACATCCTGTAAGAGCGTTTGGCTTATCTGAGGCCAGTGAGACCGCCTTAGTGCTGGAACCTCC
AGTAGTCTCAATGGAGGTTCAGGAGTCACACGTTCTAGAGACTCTGAAGCCAGCTACAAAAGCTGCAGAA
CTGTCAGTTGTGTCTACATCAGTAATCTCAGAGCAGTCTGAGCAGCCTATGCCAGGTATGCTGGAACCAT
CAATGACAAAGATCCTGGATTCCTTCACAGCAGCACCAGTGCCTATGTCAACAGCGGCGCTGAAGTCACC
TGAGCCCGTTGTAACAATGTCAGTGGAATATCAGAAGTCTGTGCTGAAATCTTTGGAGACTATGCCTCCA
GAGACGTCAAAGACCACGCTGGTAGAGCTTCCCATAGCAAAAGTGGTTGAGCCATCAGAAACCCTCACGA
TAGTGTCAGAGACACCTACTGAGGTGCACCCTGAACCAAGCCCATCAACAATGGATTTTCCAGAGTCATC
TACAACTGACGTGCAAAGATTGCCAGAGCAGCCTGTAGAAGCACCATCGGAGATTGCAGATTCATCCATG
ACAAGACCTCAGGAGTCACTGGAGCTGCCTAAGACCACAGCGGTGGAGCTGCAGGAGTCGACGGTGGCCT
CAGCTCTGGAGTTGCCGGGGCCACCTGCGACCTCCATTCTGGAGTTGCAGGGGCCCCCTGTGACTCCAGT
GCCAGAGTTGCCTGGGCCCTCTGCCACCCCAGTGCCAGAGTTGTCAGGGCCCCTTTCTACCCCAGTGCCT
GAGTTGCCAGGGCCCCCTGCGACAGTGGTCCCTGAGTTGCCGGGGCCCTCTGTGACACCAGTGCCACAGT
TGTCGCAGGAATTGCCAGGGCCTCCAGCACCATCCATGGGGTTGGAGCCACCACAGGAGGTACCAGAGCC
ACCTGTGATGGCACAGGAGTTATCAGGGGTGCCTGCAGTGTCGGCAGCGATAGAGTTGACAGGGCAACCT
GCAGTAACAGTAGCAATGGAGTTGACCGAACAACCTGTGACGACGACAGAGTTCGAGCAGCCTGTGGCGA
TGACAACGGTGGAGCATCCTGGGCATCCTGAGGTGACAACAGCTACAGGGTTGCTGGGGCAGCCAGAGGC
AGCAATGGTGCTGGAGTTGCCAGGCCAGCCAGTGGCAACCACAGCGCTGGAGTTGTCTGGGCAGCCTTCG
GTGACTGGGGTGCCAGAGTTGTCAGGGCTGCCTTCGGCAACTAGGGCACTGGAGTTGTCAGGGCAGTCTG
TGGCAACTGGGGCATTAGAGTTGCCTGGTCAGCTCATGGCAACTGGGGCACTGGAGTTTTCGGGGCAGTC
TGGGGCAGCTGGAGCACTGGAGCTTTTGGGGCAGCCCCTAGCAACGGGGGTGCTAGAGTTACCAGGGCAG
CCTGGAGCGCCAGAGTTGCCTGGGCAGCCTGTGGCAACTGTGGCGCTGGAGATCTCTGTTCAGTCTGTGG
TGACAACATCGGAGCTGTCAACGATGACCGTGTCGCAGTCCCTGGAGGTGCCCTCGACGACAGCGCTGGA
ATCCTATAATACGGTAGCACAGGAGCTGCCTACTACATTGGTGGGGGAGACTTCTGTAACAGTAGGAGTG
GACCCCTTGATGGCCCAAGAATCCCATATGCTAGCTTCTAACACCATGGAGACCCATATGTTAGCATCCA
ATACCATGGACTCCCAGATGCTAGCATCCAACACTATGGATTCTCAGATGCTAGCATCCAATACCATGGA
CTCCCAGATGTTAGCCTCTAGCACCATGGACTCCCAGATGTTAGCCTCTAGCACCATGGACTCCCAGATG
TTAGCAACTAGCACCATGGACTCCCAGATGTTAGCAACTAGCTCTATGGACTCCCAGATGTTAGCAACTA
GCTCTATGGACTCCCAGATGTTAGCAACCAGCAGTATGGACTCCCAGATGTTAGCAACCAGCAGTATGGA
CTCCCAGATGTTAGCAACCAGCTCCATGGACTCCCAGATGTTAGCAACCAGCAGTATGGACTCCCAGATG
TTAGCAACCAGCAGTATGGACTCCCAGATGTTAGCAACCAGTTCCATGGACTCCCAGATGTTAGCATCTG
GTGCTATGGATTCTCAGATGTTAGCTTCTGGCACTATGGATGCTCAGATGTTAGCATCTGGTACTATGGA
TGCCCAAATGTTAGCATCTAGTACCCAGGATTCTGCTATGATGGGTTCAAAGTCTCCTGATCCCTATAGG
TTAGCTCAGGATCCTTACAGATTAGCTCAGGATCCCTATAGGTTGGGTCATGACCCCTACAGGTTAGGCC
ATGATGCTTACAGGTTAGGACAAGACCCTTATAGATTAGGCCATGATCCCTACAGACTAACTCCGGATCC
CTATAGGGTATCACCTAGGCCCTATAGAATAGCACCCAGGTCCTATAGGATAGCACCTAGGCCATACAGG
TTAGCACCTAGACCCTTGATGTTAGCATCTAGACGTTCTATGATGATGTCCTATGCTGCAGAACGTTCCA
TGATGTCATCTTATGAGCGCTCTATGATGTCTTATGAACGCTCTATGATGTCCCCTATGGCTGAACGCTC
TATGATGTCGGCCTATGAGCGCTCCATGATGTCAGCTTATGAGCGCTCCATGATGTCTCCTATGGCTGAG
CGTTCTATGATGTCAGCTTATGAGCGCTCTATGATGTCAGCTTATGAGCGCTCCATGATGTCTCCTATGG
CTGATCGATCCATGATGTCCATGGGTGCCGACCGGTCTATGATGTCATCGTACTCTGCAGCTGACCGGTC
TATGATGTCATCGTACTCTGCAGCTGATCGATCAATGATGTCATCTTACACTGATCGATCAATGATGTCT
ATGGCAGCTGATTCTTACACTGATTCTTATACTGATTCCTATACGGAGGCATATATGGTGCCACCTTTGC
CTCCTGAAGAGCCCCCAACAATGCCACCATTGCCACCCGAGGAACCACCAATGACACCCCCATTACCTCC
TGAGGAACCACCAGAGGGTCCAGCATTATCAACAGAGCAGTCAGCATTAACAGCTGACAATACTTGGTCT
ACAGAGGTGACATTATCTACTGGAGAATCTCTATCACAGCCTGAGCCTCCTGTGAGTCAAAGTGAGATTT
CAGAGCCTATGGCAGTACCTGCTAATTATTCAATGTCAGAATCAGAAACTTCAATGTTAGCATCAGAGGC
TGTTATGACTGTTCCAGAACCTGCACGAGAGCCCGAGTCTTCAGTTACATCAGCACCAGTTGAGTCTGCT
GTAGTAGCAGAACATGAAATGGTTCCAGAGAGACCGATGACTTACATGGTTTCTGAGACTACCATGTCAG
TCGAGCCAGCTGTGTTAACATCAGAGGCTTCTGTTATATCAGAGACATCAGAAACATATGATTCCATGAG
ACCTTCAGGACATGCTATCTCAGAGGTAACTATGTCACTCTTGGAGCCAGCAGTAACTATTTCACAGCCA
GCAGAGAACAGTCTAGAGCTCCCATCCATGACTGTCCCAGCACCTTCTACTATGACTACCACAGAATCTC
CAGTTGTTGCTGTCACAGAAATTCCTCCTGTGGCTGTCCCAGAACCTCCCATTATGGCTGTTCCAGAACT
CCCCACCATGGCTGTAGTAAAAACCCCCGCTGTGGCTGTCCCAGAACCTCTTGTGGCTGCTCCAGAGCCT
CCTACCATGGCTACTCCAGAACTTTGCTCCTTATCTGTCTCAGAACCTCCTGTGGCTGTCTCGGAGCTTC
CAGCTTTGGCTGACCCAGAGCATGCTATCACTGCAGTGTCAGGTGTTTCTTCCCTGGAGCCTTCTGTGCC
TATTTTGGAACCAGCAGTATCAGTCCTTCAACCTGTTATGATTGTTTCAGAACCGTCTGTTCCTGTCCAG
GAACCTACCGTGGCAGTGTCAGAACCTGCTGTCATAGTCTCAGAGCACACGCAAATAACATCACCTGAGA
TGGCTGTAGAGTCTTCACCAGTAATAGTGGACTCTAGTGTTATGTCATCACAGATTATGAAAGGAATGAA
TTTGCTTGGTGGTGATGAAAATCTTGGTCCAGAGGTTGGCATGCAGGAGACTCTGTTGCATCCAGGTGAA
GAGCCACGTGATGGAGGACACTTGAAAAGTGACTTGTATGAAAATGAGTATGATAGAAATGCAGACCTTA
CTGTAAACAGTCATTTAATTGTTAAAGATGCAGAGCATAACACAGTGTGTGCTACTACCGTTGGTCCTGT
TGGTGAAGCAAGTGAAGAGAAAATTTTGCCTATTAGTGAGACTAAGGAAATCACAGAATTGGCTACCTGT
GCTGCCGTCAGCGAAGCTGACATAGGCAGAAGTCTGTCTTCTCAGCTTGCTCTGGAGCTGGATACAGTAG
GAACTAGTAAGGGGTTTGAATTTGTCACTGCATCTGCACTCATTTCAGAGAGTAAATATGATGTTGAAGT
ATCTGTAACTACTCAAGATACTGAACATGACATGGTAATTTCCACCAGCCCCAGTGGTGGCAGCGAAGCA
GACATAGAGGGACCTTTGCCTGCTAAAGACATTCATCTTGATTTGCCATCAACTAATTTTGTTTGTAAGG
ATGTAGAAGACTCGTTACCTATCAAAGAGAGTGCCCAGGCAGTGGCAGTGGCTCTTAGCCCTAAAGAGAG
CAGTGAAGATACAGAAGTACCTCTTCCCAATAAAGAAATAGTTCCTGAGTCAGGATATTCTGCCAGCATT
GATGAAATTAATGAAGCTGACTTAGTGAGACCATTACTTCCTAAGGACATGGAGCGTCTTACAAGCCTTA
GAGCTGGCATTGAAGGACCTTTACTTGCTAGTGAGGTTGAACGTGACAAGTCAGCTGCCAGTCCAGTTGT
AATTAGCATACCAGAAAGAGCTTCAGAGTCATCTTCAGAGGAAAAGGATGATTATGAAATTTTTGTCAAA
GTTAAGGACACACATGAAAAAAGCAAGAAAAACAAAAACCGTGACAAAGGTGAGAAGGAGAAGAAAAGGG
ACTCTTCATTACGGTCTCGGAGTAAGCGTTCCAAGTCTTCTGAACATAAGTCACGCAAGCGCACCAGTGA
GTCGCGTTCTAGAGCAAGGAAGAGGTCGTCCAAGTCCAAATCTCACCGTTCTCAGACACGGTCACGGTCA
CGCTCAAGACGCAGGAGGAGGAGTAGCCGATCAAGATCTAAGTCTAGAGGAAGACGGTCTGTATCAAAAG
AGAAACGCAAAAGGTCTCCAAAGCATAGATCCAAGTCCAGGGAAAGGAAAAGGAAAAGATCAAGCTCACG
AGACAACCGGAAAGCAGCTCGAGCTCGGAGTCGAACCCCGAGTCGGCGGAGTAGGAGCCACACTCCTAGT
CGGAGGAGACGGTCTAGATCTGTTGGTAGAAGGAGAAGTTTTAGCATTTCCCCCAGCCGCAGGAGCCGAA
CCCCCAGCCGCAGGAGCAGAACCCCCAGCCGCAGGAGCCGAACCCCCAGCCGCAGGAGCCGAACCCCCAG
CCGCAGGAGCCGAACCCCCAGCCGTCGGAGAAGATCACGGTCTGCGGTAAGAAGACGAAGCTTCAGTATA
TCACCGGTCAGATTAAGGCGATCAAGAACACCTTTGAGAAGAAGGTTTAGTAGATCTCCCATTCGGCGGA
AAAGATCCAGGTCTTCAGAAAGAGGCAGATCGCCCAAACGTCTAACAGATTTGGATAAGGCTCAATTACT
TGAAATAGCCAAAGCTAATGCAGCTGCCATGTGTGCTAAGGCTGGTGTTCCTTTACCACCAAACCTAAAG
CCTGCACCTCCACCTACAATAGAAGAGAAAGTTGCTAAAAAGTCTGGAGGAGCTACCATAGAAGAACTAA
CTGAGAAATGCAAACAGATTGCACAGAGTAAAGAAGATGATGATGTAATAGTGAATAAACCTCATGTTTC
GGATGAAGAGGAAGAAGAACCTCCTTTTTATCATCATCCCTTTAAACTCAGTGAACCCAAGCCCATTTTT
TTCAATTTGAATATTGCTGCAGCAAAGCCAACTCCACCGAAAAGCCAAGTAACATTAACAAAGGAGTTTC
CTGTGTCATCCGGATCTCAACATCGGAAAAAGGAAGCGGATAGTGTTTATGGAGAGTGGGTTCCAGTCGA
GAAAAATGGTGAAGAAAGCAAAGATGATGATAATGTTTTCAGCAGCAGCTTGCCCTCAGAGCCTGTGGAC
ATTTCAACAGCAATGAGTGAACGGGCACTTGCTCAGAAGAGGCTCAGTGAGAATGCATTTGACCTTGAAG
CCATGAGTATGTTAAACCGAGCTCAAGAACGGATTGACGCCTGGGCTCAGTTGAATTCTATCCCTGGGCA
GTTCACAGGGAGCACAGGAGTGCAGGTCCTGACACAGGAGCAGCTGGCTAATACTGGGGCCCAAGCCTGG
ATTAAAAAGGATCAGTTCTTAAGAGCAGCCCCAGTGACTGGAGGAATGGGAGCTGTTTTGATGAGAAAAA
TGGGCTGGAGAGAAGGAGAAGGATTAGGAAAGAACAAAGAAGGAAATAAGGAACCCATCCTTGTTGATTT
TAAGACAGACCGAAAAGGTCTTGTTGCAGTAGGAGAGAGAGCACAAAAGCGTTCTGGGAACTTCTCTGCT
GCAATGAAAGACTTATCAGGCAAACATCCTGTGTCTGCCTTGATGGAAATCTGTAATAAGAGAAGGTGGC
AACCACCTGAATTTCTCTTGGTCCATGACAGTGGCCCTGACCATCGCAAACATTTCCTCTTTAGGGTATT
GAGAAATGGAAGCCCTTACCAGCCCAATTGTATGTTTTTCTTGAATAGGTATTGA


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_178880
Insert Size 7335 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
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_178880.4, NP_849211.3
RefSeq Size 8451 bp
RefSeq ORF 7335 bp
Locus ID 20658
UniProt ID Q9QX47
Cytogenetics 16 53.22 cM
Gene Summary RNA-binding protein that acts as a mRNA splicing cofactor by promoting efficient splicing of transcripts that possess weak splice sites. Specifically promotes splicing of many cell-cycle and DNA-repair transcripts that possess weak splice sites, such as TUBG1, KATNB1, TUBGCP2, AURKB, PCNT, AKT1, RAD23A, and FANCG. Probably acts by facilitating the interaction between Serine/arginine-rich proteins such as SRSF2 and the RNA polymerase II. Also binds to DNA; binds to the consensus DNA sequence: 5'-GA[GT]AN[CG][AG]CC-3' (By similarity). Essential for correct RNA splicing of multiple genes critical for brain development, neuronal migration and metabolism, including TUBG1, FLNA, PNKP, WDR62, PSMD3, PCK2, PFKL, IDH2, and ACY1 (By similarity). May also regulate the ghrelin signaling in hypothalamic neuron by acting as a negative regulator of GHSR expression (PubMed:20876580).[UniProtKB/Swiss-Prot Function]
Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1).

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