Tricine

Tricine

Catalog Number:
IAR1108446DOJ
Mfr. No.:
GB19-10; GB19-12
Price:
$176
  • Size:
    Quantity:
    Add to Cart:
      • Overview
        • In biological experiments, it is important to maintain the pH of the solutions used. Buffers, mixtures of appropriate weak acids, and their conjugate bases, are usually used. Most biological reactions occur at a neutral pH, from 6 to 8; the buffer needs to be effective in this range. Furthermore, the acids and bases used in the buffer should not produce chelates with metal ions, which are essential in biological systems. For these reasons, Dr. Good developed several aminoethane and aminopropane sulfonic acids that are now widely used for biological research and analysis. Good’s buffers have the following characteristics:
          1) High water-solubility
          2) Low cell membrane permeability
          3) Consistent acid-base dissociation constants
          4) Low metal chelating capability
          5) High chemical stability
          6) Low absorption spectra in UV and visible regions.

          Please contact us at for specific academic pricing.

      • Properties
        • Categories
          Ion Analysis
          CAS Number
          5704-04-1
          Molecular Formula
          C6H13NO5
          Molecular Weight
          179.17
          Appearance
          White crystalline powder
          Purity
          ≥99.0% (Titration)
          Storage
          ambient temperature
          Shipping
          ambient temperature

          * For research use only

      • Applications
        • Application
          Good's Buffers
      • Reference
        • 1) N. E. Good, Uncoupling of the Hill reaction from photophosphorylation by anions. Arch Biochem Biophys. 1962;96:653-661.

          2) N. E. Good, et al., Hydrogen ion buffers for biological research. Biochemistry. 1966;5:467-477.

          3) C. Ceccarini, et al., Induction and reversal of contact inhibition of growth by pH modification. Nat New Biol. 1971;233:271-273.

          4) E. L. Medzon, et al., Substitution of 4-(2-hydroxyethyl)-1-piperazineethane sulfonic acid (HEPES) for bicarbonate in protein-free animal cell culture medium: application to vaccinia virus quantitation and fluorogenic acetylesterase assay in living LM cells. Can J Microbiol. 1971;17:651-653.

          5) A. Itagaki, et al., TES and HEPES buffers in mammalian cell cultures and viral studies: problem of carbon dioxide requirement. Exp Cell Res. 1974;83:351-361.

          6) W. J. Ferguson, et al., Hydrogen ion buffers for biological research. Anal Biochem. 1980;104:300-310.

          7) J. K. Grady, et al., Radicals from “Good’s Ebuffers. Anal Biochem. 1988;173:111-115.

          8) J. W. Hanrahan, et al., Inhibition of an outwardly rectifying anion channel by HEPES and related buffers. J Membr Biol. 1990;116:65-77.

          9) T. Kudo, et al., A simple and improved method to generate human hybridomas. J Immunol Methods. 1991;145:119-125.

    We Also Recommend

    ACES

    $292

    ACES

    $180

    HEPES

    $150

    HEPES

    $437

    POPSO

    $242

    TAPS

    $184

    TAPSO

    $274

    TES

    $234

    Note: If you don't receive our verification email, do the following:

  • Copyright © Amerigo Scientific. All rights reserved.