SMG1 (NM_015092) Human Untagged Clone

CAT#: SC309100

SMG1 (untagged)-Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1)

Datasheet
SDS

  "NM_015092" in other vectors (3)

Reconstitution Protocol

USD 3,203.00

4 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (3)
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

USD 507.00

Add To Cart
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

USD 160.00

Add To Cart
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

USD 59.00

Add To Cart
Other products for "SMG1"

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Symbol SMG1
Synonyms 61E3.4; ATX; LIP
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_015092, the custom clone sequence may differ by one or more nucleotides
ATGAGCCGCAGAGCCCCGGGGTCTCGGCTGAGCAGCGGCGGCGGCGGCGGCGGCACCAAG
TATCCGCGGAGCTGGAATGACTGGCAACCCAGAACTGATAGTGCATCAGCCGACCCAGAT
AATTTAAAATATTCTTCATCCAGAGATAGAGGTGGTTCTTCCTCTTATGGACTGCAACCT
TCAAATTCAGCTGTGGTGTCTCGGCAAAGGCACGATGATACCAGAGTCCACGCTGACATA
CAGAATGACGAAAAGGGTGGCTACAGTGTCAATGGAGGATCTGGGGAAAATACTTATGGT
CGGAAGTCGTTGGGGCAAGAGCTGAGGGTTAACAATGTGACCAGCCCTGAGTTCACCAGT
GTTCAGCATGGCAGTCGTGCTTTAGCCACCAAAGACATGAGGAAATCACAGGAGAGATCG
ATGTCTTATTCTGATGAGTCTCGACTGTCGAATCTTCTTCGGAGGATCACCCGGGAAGAC
GACAGAGACCGAAGATTGGCTACTGTAAAGCAGTTGAAAGAATTTATTCAGCAACCAGAA
AATAAGCTGGTACTAGTTAAACAATTGGATAATATCTTGGCTGCTGTACATGACGTGCTT
AATGAAAGTAGCAAATTGCTTCAGGAGTTGAGACAGGAGGGAGCTTGCTGTCTTGGCCTT
CTTTGTGCTTCTCTGAGCTATGAGGCTGAGAAGATCTTCAAGTGGATTTTTAGCAAATTT
AGCTCATCTGCAAAAGATGAAGTTAAACTCCTCTACTTATGTGCCACCTACAAAGCACTA
GAGACTGTAGGAGAAAAGAAAGCCTTTTCATCTGTAATGCAGCTTGTAATGACCAGCCTG
CAGTCTATTCTTGAAAATGTGGATACACCAGAATTGCTTTGTAAATGTGTTAAGTGCATT
CTTTTGGTGGCTCGATGTTACCCTCATATTTTCAGCACTAATTTTAGGGATACAGTTGAT
ATATTAGTTGGATGGCATATAGATCATACTCAGAAACCTTCGCTCACGCAGCAGGTATCT
GGGTGGTTGCAGAGTTTGGAGCCATTTTGGGTAGCTGATCTTGCATTTTCTACTACTCTT
CTTGGTCAGTTTCTGGAAGACATGGAAGCATATGCTGAGGACCTCAGCCATGTGGCCTCT
GGGGAATCAGTGGATGAAGATGTCCCTCCTCCATCAGTGTCATTACCAAAGCTGGCTGCA
CTTCTCCGGGTATTTAGTACTGTGGTGAGGAGCATTGGGGAACGCTTCAGCCCAATTCGG
GGTCCTCCAATTACTGAGGCATATGTAACAGATGTTCTGTACAGAGTAATGAGATGTGTG
ACGGCTGCAAACCAGGTGTTTTTTTCTGAGGCTGTGTTGACAGCTGCTAATGAGTGTGTT
GGTGTTTTGCTCGGCAGCTTGGATCCTAGCATGACTATACATTGTGACATGGTCATTACA
TATGGATTAGACCAACTGGAGAATTGCCAGACTTGTGGTACCGATTATATCATCTCAGTC
TTGAATTTACTCACGCTGATTGTTGAACAGATAAATACGAAACTGCCATCATCATTTGTA
GAAAAACTGTTTATACCATCATCTAAACTACTATTCTTGCGTTATCATAAAGAAAAAGAG
GTTGTTGCTGTAGCCCATGCTGTTTATCAAGCAGTGCTCAGCTTGAAGAATATTCCTGTT
TTGGAGACTGCCTATAAGTTAATATTGGGAGAAATGACTTGTGCCCTAAACAACCTCCTA
CACAGTCTACAACTTCCTGAGGCCTGTTCTGAAATAAAACATGAGGCTTTTAAGAATCAT
GTGTTCAATGTAGACAATGCAAAATTTGTAGTTATATTTGACCTCAGTGCCCTGACTACA
ATTGGAAATGCCAAAAACTCACTAATAGGGATGTGGGCGCTATCTCCAACTGTCTTTGCA
CTTCTGAGTAAGAATCTGATGATTGTGCACAGTGACCTGGCTGTTCACTTCCCTGCCATT
CAGTATGCTGTGCTCTACACATTGTATTCTCATTGTACCAGGCATGATCACTTTATCTCT
AGTAGCCTCAGTTCTTCCTCTCCTTCTTTGTTTGATGGAGCTGTGATTAGCACTGTAACT
ACGGCTACAAAGAAACATTTCTCAATTATATTAAATCTTCTGGGAATATTACTTAAGAAA
GATAACCTTAACCAGGACACGAGGAAACTGTTAATGACTTGGGCTTTGGAAGCAGCTGTT
TTAATGAAGAAGTCTGAAACATACGCACCTTTATTCTCTCTTCCGTCTTTCCATAAATTT
TGCAAAGGCCTTTTAGCCAACACTCTCGTTGAAGATGTGAATATCTGTCTGCAGGCATGC
AGCAGTCTACATGCTCTGTCCTCTTCCTTGCCAGATGATCTTTTACAGAGATGTGTCGAT
GTTTGCCGTGTTCAACTAGTGCACAGTGGAACTCGTATTCGACAAGCATTTGGAAAACTG
TTGAAATCAATTCCTTTAGATGTTGTCCTAAGCAATAACAATCACACAGAAATTCAAGAA
ATTTCTTTAGCATTAAGAAGTCACATGAGTAAAGCACCAAGTAATACATTCCACCCCCAA
GATTTCTCTGATGTTATTAGTTTTATTTTGTATGGGAACTCTCATAGAACAGGGAAGGAC
AATTGGTTGGAAAGACTGTTCTATAGCTGCCAGAGACTGGATAAGCGTGACCAGTCAACA
ATTCCACGCAATCTCCTGAAGACAGATGCTGTCCTTTGGCAGTGGGCCATATGGGAAGCT
GCACAATTCACTGTTCTTTCTAAGCTGAGAACCCCACTGGGCAGAGCTCAAGACACCTTC
CAGACAATTGAAGGTATCATTCGAAGTCTCGCAGCTCACACATTAAACCCTGATCAGGAT
GTTAGTCAGTGGACAACTGCAGACAATGATGAAGGCCATGGTAACAACCAACTTAGACTT
GTTCTTCTTCTGCAGTATCTGGAAAATCTGGAGAAATTAATGTATAATGCATACGAGGGA
TGTGCTAATGCATTAACTTCACCTCCCAAGGTCATTAGAACTTTTTTCTATACCAATCGC
CAAACTTGTCAGGACTGGCTAACGCGGATTCGACTCTCCATCATGAGGGTAGGATTGTTG
GCAGGCCAGCCTGCAGTGACAGTGAGACATGGCTTTGACTTGCTTACAGAGATGAAAACA
ACCAGCCTATCTCAGGGGAATGAATTGGAAGTAACCATTATGATGGTGGTAGAAGCATTA
TGTGAACTTCATTGTCCTGAAGCTATACAGGGAATTGCTGTCTGGTCATCATCTATTGTT
GGAAAAAATCTTCTGTGGATTAACTCAGTGGCTCAACAGGCTGAAGGGAGGTTTGAAAAG
GCCTCTGTGGAGTACCAGGAACACCTGTGTGCCATGACAGGTGTTGATTGCTGCATCTCC
AGCTTTGACAAATCGGTGCTCACCTTAGCCAATGCTGGGCGTAACAGTGCCAGCCCGAAA
CATTCTCTGAATGGTGAATCCAGAAAAACTGTGCTGTCCAAACCGACTGACTCTTCCCCT
GAGGTTATAAATTATTTAGGAAATAAAGCATGTGAGTGCTACATCTCAATTGCCGATTGG
GCTGCTGTGCAGGAATGGCAGAACGCTATCCATGACTTGAAAAAGAGTACCAGTAGCACT
TCCCTCAACCTGAAAGCTGACTTCAACTATATAAAATCATTAAGCAGCTTTGAGTCTGGA
AAATTTGTTGAATGTACCGAGCAGTTAGAATTGTTACCAGGAGAAAATATCAATCTACTT
GCTGGAGGATCAAAAGAAAAAATAGACATGAAAAAACTGCTTCCTAACATGTTAAGTCCG
GATCCGAGGGAACTTCAGAAATCCATTGAAGTTCAATTGTTAAGAAGTTCTGTTTGTTTG
GCAACTGCTTTAAACCCGATAGAACAAGATCAGAAGTGGCAGTCTATAACTGAAAATGTG
GTAAAGTACTTGAAGCAAACATCCCGCATCGCTATTGGACCTCTGAGACTTTCTACTTTA
ACAGTTTCACAGTCTTTGCCAGTTCTAAGTACCTTGCAGCTGTATTGCTCATCTGCTTTG
GAGAACACAGTTTCTAACAGACTTTCAACAGAGGACTGTCTTATTCCACTCTTCAGTGAA
GCTTTACGTTCATGTAAACAGCATGACGTGAGGCCATGGATGCAGGCATTAAGGTATACT
ATGTACCAGAATCAGTTGTTGGAGAAAATTAAAGAACAAACAGTCCCAATTAGAAGCCAT
CTCATGGAATTAGGTCTAACAGCAGCAAAATTTGCTAGAAAACGAGGGAATGTGTCCCTT
GCAACAAGACTGCTGGCACAGTGCAGTGAAGTTCAGCTGGGAAAGACCACCACTGCACAG
GATTTAGTCCAACATTTTAAAAAACTATCAACCCAAGGTCAAGTGGATGAAAAATGGGGG
CCCGAACTTGATATTGAAAAAACCAAATTGCTTTATACAGCAGGCCAGTCAACACATGCA
ATGGAAATGTTGAGTTCTTGTGCCATATCTTTCTGCAAGTCTGTGAAAGCTGAATATGCA
GTTGCTAAATCAATTCTGACACTGGCTAAATGGATCCAGGCAGAATGGAAAGAGATTTCA
GGACAGCTGAAACAGGTTTACAGAGCTCAGCACCAACAGAACTTCACAGGTCTTTCTACT
TTGTCTAAAAACATACTCACTCTAATAGAACTGCCATCTGTTAATACGATGGAAGAAGAG
TATCCTCGGATCGAGAGTGAATCTACAGTGCATATTGGAGTTGGAGAACCTGACTTCATT
TTGGGACAGTTGTATCACCTGTCTTCAGTACAGGCACCTGAAGTAGCCAAATCTTGGGCA
GCGTTGGCCAGCTGGGCTTATAGGTGGGGCAGAAAGGTGGTTGACAATGCCAGTCAGGGA
GAAGGTGTTCGTCTGCTGCCTAGAGAAAAATCTGAAGTTCAGAATCTACTTCCAGACACT
ATAACTGAGGAAGAGAAAGAGAGAATATATGGTATTCTTGGACAGGCTGTGTGTCGGCCG
GCGGGGATTCAGGATGAAGATATAACACTTCAGATAACTGAGAGTGAAGACAACGAAGAA
GATGACATGGTTGATGTTATCTGGCGTCAGTTGATATCAAGCTGCCCATGGCTTTCAGAA
CTTGATGAAAGTGCAACTGAAGGAGTTATTAAAGTGTGGAGGAAAGTTGTAGATAGAATA
TTCAGCCTGTACAAACTCTCTTGCAGTGCATACTTTACTTTCCTTAAACTCAACGCTGGT
CAAATTCCTTTAGATGAGGATGACCCTAGGCTGCATTTAAGTCACAGAGTGGAACAGAGC
ACTGATGACATGATTGTGATGGCCACATTGCGCCTGCTGCGGTTGCTCGTGAAGCATGCT
GGTGAGCTTCGGCAGTATCTGGAGCACGGCTTGGAGACAACACCCACTGCACCATGGAGA
GGAATTATTCCGCAACTTTTCTCACGCTTAAACCACCCTGAAGTGTATGTGCGCCAAAGT
ATTTGTAACCTTCTCTGCCGTGTGGCTCAAGATTCCCCACATCTCATATTGTATCCTGCA
ATAGTGGGTACCATATCGCTTAGTAGTGAATCCCAGGCTTCAGGAAATAAATTTTCCACT
GCAATTCCAACTTTACTTGGCAATATTCAAGGAGAAGAATTGCTGGTTTCTGAATGTGAG
GGAGGAAGTCCTCCTGCATCTCAGGATAGCAATAAGGATGAACCTAAAAGTGGATTAAAT
GAAGACCAAGCCATGATGCAGGATTGTTACAGCAAAATTGTAGATAAGCTGTCCTCTGCA
AACCCCACCATGGTATTACAGGTTCAGATGCTCGTGGCTGAACTGCGCAGGGTCACTGTG
CTCTGGGATGAGCTCTGGCTGGGAGTTTTGCTGCAACAACACATGTATGTCCTGAGACGA
ATTCAGCAGCTTGAAGATGAGGTGAAGAGAGTCCAGAACAACAACACCTTACGCAAAGAA
GAGAAAATTGCAATCATGAGGGAGAAGCACACAGCTTTGATGAAGCCCATCGTATTTGCT
TTGGAGCATGTGAGGAGTATCACAGCGGCTCCTGCAGAAACACCTCATGAAAAATGGTTT
CAGGATAACTATGGTGATGCCATTGAAAATGCCCTAGAAAAACTGAAGACTCCATTGAAC
CCTGCAAAGCCTGGGAGCAGCTGGATTCCATTTAAAGAGATAATGCTAAGTTTGCAACAG
AGAGCACAGAAACGTGCAAGTTACATCTTGCGTCTTGAAGAAATCAGTCCATGGTTGGCT
GCCATGACTAACACTGAAATTGCTCTTCCTGGGGAAGTCTCAGCCAGAGACACTGTCACA
ATCCATAGTGTGGGCGGAACCATCACAATCTTACCGACTAAAACCAAGCCAAAGAAACTT
CTCTTTCTTGGATCAGATGGGAAGAGCTATCCTTATCTTTTCAAAGGACTGGAGGATTTA
CATCTGGATGAGAGAATAATGCAGTTCCTATCTATTGTGAATACCATGTTTGCTACAATT
AATCGCCAAGAAACACCCCGGTTCCATGCTCGACACTATTCTGTAACACCACTAGGAACA
AGATCAGGACTAATCCAGTGGGTAGATGGAGCCACACCCTTATTTGGTCTTTACAAACGA
TGGCAACAACGGGAAGCTGCCTTACAAGCACAAAAGGCCCAAGATTCCTACCAAACTCCT
CAGAATCCTGGAATTGTACCCCGTCCTAGTGAACTTTATTACAGTAAAATTGGCCCTGCT
TTGAAAACAGTTGGGCTTAGCCTGGATGTGTCCCGTCGGGATTGGCCTCTTCATGTAATG
AAGGCAGTATTGGAAGAGTTAATGGAGGCCACACCCCCGAATCTCCTTGCCAAAGAGCTC
TGGTCATCTTGCACAACACCTGATGAATGGTGGAGAGTTACGCAGTCTTATGCAAGATCT
ACTGCAGTCATGTCTATGGTTGGATACATAATTGGCCTTGGAGACAGACATCTGGATAAT
GTTCTTATAGATATGACGACTGGAGAAGTTGTTCACATAGATTACAATGTTTGCTTTGAA
AAAGGTAAAAGCCTTAGAGTTCCTGAGAAAGTACCTTTTCGAATGACACAAAACATTGAA
ACAGCACTGGGTGTAACTGGAGTAGAAGGTGTATTTAGGCTTTCATGTGAGCAGGTTTTA
CACATTATGCGGCGTGGCAGAGAGACCCTGCTGACGCTGCTGGAGGCCTTTGTGTACGAC
CCTCTGGTGGACTGGACAGCAGGAGGCGAGGCTGGGTTTGCTGGTGCTGTCTATGGTGGA
GGTGGCCAGCAGGCCGAGAGCAAGCAGAGCAAGAGAGAGATGGAGCGAGAGATCACCCGC
AGCCTGTTTTCTTCTAGAGTAGCTGAGATTAAGGTGAACTGGTTTAAGAATAGAGATGAG
ATGCTGGTTGTGCTTCCCAAGTTGGACGGTAGCTTAGATGAATACCTAAGCTTGCAAGAG
CAACTGACAGATGTGGAAAAACTGCAGGGCAAACTACTGGAGGAAATAGAGTTTCTAGAA
GGAGCTGAAGGGGTGGATCATCCTTCTCATACTCTGCAACACAGGTATTCTGAGCACACC
CAACTACAGACTCAGCAAAGAGCTGTTCAGGAAGCAATCCAGGTGAAGCTGAATGAATTT
GAACAATGGATAACACATTATCAGGCTGCATTCAATAATTTAGAAGCAACACAGCTTGCA
AGCTTGCTTCAAGAGATAAGCACACAAATGGACCTTGGTCCTCCAAGTTACGTGCCAGCA
ACAGCCTTTCTGCAGAATGCTGGTCAGGCCCACTTGATTAGCCAGTGCGAGCAGCTGGAG
GGGGAGGTTGGTGCTCTCCTGCAGCAGAGGCGCTCCGTGCTCCGTGGCTGTCTGGAGCAA
CTGCATCACTATGCAACCGTGGCCCTGCAGTATCCGAAGGCCATATTTCAGAAACATCGA
ATTGAACAGTGGAAGACCTGGATGGAAGAGCTCATCTGTAACACCACAGTAGAGCGTTGT
CAAGAGCTCTATAGGAAATATGAAATGCAATATGCTCCCCAGCCACCCCCAACAGTGTGT
CAGTTCATCACTGCCACTGAAATGACCCTGCAGCGATACGCAGCAGACATCAACAGCAGA
CTTATTAGACAAGTGGAACGCTTGAAACAGGAAGCTGTCACTGTGCCAGTTTGTGAAGAT
CAGTTGAAAGAAATTGAACGTTGCATTAAAGTTTTCCTTCATGAGAATGGAGAAGAAGGA
TCTTTGAGTCTAGCAAGTGTTATTATTTCTGCCCTTTGTACCCTTACAAGGCGTAACCTG
ATGATGGAAGGTGCAGCGTCAAGTGCTGGAGAACAGCTGGTTGATCTGACTTCTCGGGAT
GGAGCCTGGTTCTTGGAGGAACTCTGCAGTATGAGCGGAAACGTCACCTGCTTGGTTCAG
TTACTGAAGCAGTGCCACCTGGTGCCACAGGACTTAGATATCCCGAACCCCATGGAAGCG
TCTGAGACAGTTCACTTAGCCAATGGAGTGTATACCTCACTTCAGGAATTGAATTCGAAT
TTCCGGCAAATCATATTTCCAGAAGCACTTCGATGTTTAATGAAAGGGGAATACACGTTA
GAAAGTATGCTGCATGAACTGGACGGTCTTATTGAGCAGACCACCGATGGCGTTCCCCTG
CAGACTCTAGTGGAATCTCTTCAGGCCTACTTAAGAAACGCAGCTATGGGACTGGAAGAA
GAAACACATGCTCATTACATCGATGTTGCCAGACTACTACATGCTCAGTACGGTGAATTA
ATCCAACCGAGAAATGGTTCAGTTGATGAAACACCCAAAATGTCAGCTGGCCAGATGCTT
TTGGTAGCATTCGATGGCATGTTTGCTCAAGTTGAAACTGCTTTCAGCTTATTAGTTGAA
AAGTTGAACAAGATGGAAATTCCCATAGCTTGGCGAAAGATTGACATCATAAGGGAAGCC
AGGAGTACTCAAGTTAATTTTTTTGATGATGATAATCACCGGCAGGTGCTAGAAGAGATT
TTCTTTCTAAAAAGACTACAGACTATTAAGGAGTTCTTCAGGCTCTGTGGTACCTTTTCT
AAAACATTGTCAGGATCAAGTTCACTTGAAGATCAGAATACTGTGAATGGGCCTGTACAG
ATTGTCAATGTGAAAACCCTTTTTAGAAACTCTTGTTTCAGTGAAGACCAAATGGCCAAA
CCTATCAAGGCATTCACAGCTGACTTTGTGAGGCAGCTCTTGATAGGGCTACCCAACCAA
GCCCTCGGACTCACACTGTGCAGTTTTATCAGTGCTCTGGGTGTAGACATCATTGCTCAA
GTAGAGGCAAAGGACTTTGGTGCCGAAAGCAAAGTTTCTGTTGATGATCTCTGTAAGAAA
GCGGTGGAACATAACATCCAGATAGGGAAGTTCTCTCAGCTGGTTATGAACAGGGCAACT
GTGTTAGCAAGTTCTTACGACACTGCCTGGAAGAAGCATGACTTGGTGCGAAGGCTAGAA
ACCAGTATTTCTTCTTGTAAGACAAGCCTGCAGCGGGTTCAGCTGCATATTGCCATGTTT
CAGTGGCAACATGAAGATCTACTTATCAATAGACCACAAGCCATGTCAGTCACACCTCCC
CCACGGTCTGCTATCCTAACCAGCATGAAAAAGAAGCTGCATACCCTGAGCCAGATTGAA
ACTTCTATTGCAACAGTTCAGGAGAAGCTAGCTGCACTTGAATCAAGTATTGAACAGCGA
CTCAAGTGGGCAGGTGGTGCCAACCCTGCATTGGCCCCTGTACTACAAGATTTTGAAGCA
ACGATAGCTGAAAGAAGAAATCTTGTCCTTAAAGAGAGCCAAAGAGCAAGTCAGGTCACA
TTTCTCTGCAGCAATATCATTCATTTTGAAAGTTTACGAACAAGAACTGCAGAAGCCTTA
AACCTGGATGCGGCGTTATTTGAACTAATCAAGCGATGTCAGCAGATGTGTTCGTTTGCA
TCACAGTTTAACAGTTCAGTGTCTGAGTTAGAGCTTCGTTTATTACAGAGAGTGGACACT
GGTCTTGAACATCCTATTGGCAGCTCTGAATGGCTTTTGTCAGCACACAAACAGTTGACC
CAGGATATGTCTACTCAGAGGGCAATTCAGACAGAGAAAGAGCAGCAGATAGAAACGGTC
TGTGAAACAATTCAGAATCTGGTTGATAATATAAAGACTGTGCTCACTGGTCATAACCGA
CAGCTTGGAGATGTCAAACATCTCTTGAAAGCTATGGCTAAGGATGAAGAAGCTGCTCTG
GCAGATGGTGAAGATGTTCCCTATGAGAACAGTGTTAGGCAGTTTTTGGGTGAATATAAA
TCATGGCAAGACAACATTCAAACAGTTCTATTTACATTAGTCCAGGCTATGGGTCAGGTT
CGAAGTCAAGAACACGTTGAAATGCTCCAGGAAATCACTCCCACCTTGAAAGAACTGAAA
ACACAAAGTCAGAGTATCTATAATAATTTAGTGAGTTTTGCATCACCCTTAGTCACCGAT
GCAACAAATGAATGTTCGAGTCCAACGTCATCTGCTACTTATCAGCCATCCTTCGCTGCA
GCAGTCCGGAGTAACACTGGCCAGAAGACTCAGCCTGATGTCATGTCACAGAATGCTAGA
AAGCTGATCCAGAAAAATCTTGCTACATCAGCTGATACTCCACCAAGCACCGTTCCAGGA
ACTGGCAAGAGTGTTGCTTGTAGTCCTAAAAAGGCAGTCAGAGACCCTAAAACTGGGAAA
GCGGTGCAAGAGAGAAACTCCTATGCAGTGAGTGTGTGGAAGAGAGTGAAAGCCAAGTTA
GAGGGCCGAGATGTTGATCCGAATAGGAGGATGTCAGTTGCTGAACAGGTTGACTATGTC
ATTAAGGAAGCAACTAATCTAGATAACTTGGCTCAGCTGTATGAAGGTTGGACAGCCTGG
GTGTGA
Restriction Sites Please inquire     
ACCN NM_015092
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.

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).
OTI Annotation This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
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_015092.3, NP_055907.3
RefSeq Size 15739 bp
RefSeq ORF 10986 bp
Locus ID 23049
UniProt ID Q96Q15
Cytogenetics 16p12.3
Domains PI3_PI4_kinase, FATC
Protein Families Druggable Genome, Protein Kinase
Gene Summary This gene encodes a protein involved in nonsense-mediated mRNA decay (NMD) as part of the mRNA surveillance complex. The protein has kinase activity and is thought to function in NMD by phosphorylating the regulator of nonsense transcripts 1 protein. Alternatively spliced transcript variants have been described, but their full-length nature has yet to be determined. [provided by RefSeq, Mar 2013]

Other Versions

SKU Description Size Price
RC224277 SMG1 (Myc-DDK-tagged)-Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1)
    • 10 ug

USD 2,911.00

RC224277L1 Lenti ORF clone of Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1), Myc-DDK-tagged
    • 10 ug

USD 3,211.00

RG224277 SMG1 (tGFP-tagged) - Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1)
    • 10 ug

USD 3,111.00

{0} Product Review(s)

0 Product Review(s) Submit review

Be the first one to submit a review

Product Citations

Related Products (4)

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

USD 507.00

RC224277

SMG1 (Myc-DDK-tagged)-Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1)

    • 10 ug

USD 2,911.00

RG224277

SMG1 (tGFP-tagged) - Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1)

    • 10 ug

USD 3,111.00

RC224277L1

Lenti ORF clone of Human SMG1 homolog, phosphatidylinositol 3-kinase-related kinase (C. elegans) (SMG1), Myc-DDK-tagged

    • 10 ug

USD 3,211.00

Previous
Next
*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.