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Anti-Butyryllysine Antibody Conjugated Agarose Beads

PTM-302
PTM BIO
ReactivityAll Species
Product group Antibodies
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Overview

  • Supplier
    PTM BIO
  • Product Name
    Anti-Butyryllysine Antibody Conjugated Agarose Beads
  • Delivery Days Customer
    5
  • Antibody Specificity
    With the immobilization of highly specific anti-butyryllysine antibody, the Anti-Butyryllysine Antibody Conjugated Agarose Beads selectively capture peptides/proteins bearing butyryllysine residues, but do not cross-reactwith the peptides/proteins bearing other structurally similar modified residues. This product has been well utilized to affinity purify peptides for global proteomic screening of lysine butyrylation.
  • Applications Supplier
    IAP
  • Category Supplier
    Antibody
  • Certification
    Research Use Only
  • Clonality
    Mix
  • Conjugate
    Agarose
  • Isotype
    IgG
  • Scientific Description
    Lysine butyrylation is a newly identified reversible modification controlling protein activity. With integrated proteomic approaches and biochemistry analysis, lysine butyrylation has been well demonstrated in both prokaryotes and eukaryotes in wide ranges of proteins including histones and non-histone substrates. Lysine butyrylation may play a vital role in epigenetic modulation by impacting chromatin dynamics and lasticity, DNA transcriptional regulation and tumorigenesis, etc.
  • Shelf life instruction
    Stable for 12 months from date of receipt.
  • Reactivity
    All Species
  • Reactivity Supplier
    All
  • Storage Instruction
    Store at -20°C. Avoid freeze/thaw cycles.
  • UNSPSC
    12352203

References

  • Lu Yue, et al. 'Dynamics and functional interplay of histone lysine butyrylation, crotonylation, and acetylation in rice under starvation and submergence' GENOME BIOLOGY (2018)
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  • Jun-Yu Xu, et al. 'Protein Acylation is a General Regulatory Mechanism in Biosynthetic Pathway of Acyl-CoA-Derived Natural Products' Cell Chemical Biology (2018)
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  • Cluntun Ahmad A., et al. 'The rate of glycolysis quantitatively mediates specific histone acetylation sites' Cancer & Metabolism (2015)
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  • Jun-Yu Xu, et al. 'Protein Acetylation and Butyrylation Regulate the Phenotype and Metabolic Shifts of the Endospore-forming Clostridium acetobutylicum*' MOLECULAR & CELLULAR PROTEOMICS (2018)
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