Gene/Protein
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Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: EC:2.3.1.177 (
BIS
)
957
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polymerization shrinkage is a major limitation of dental composites. It generates internal stresses within bonded restorations and leads to marginal leakage, sensitivity and recurrent decay in the absence of adequate bonding. A method is presented for formulating composites that cure at constant volume by adding to the resin system small amounts of the hydrated mineral montmorillonite (MMT), which has been modified by replacing part of its hydration water with ammonia (
NH3
). The polymerization exotherm of composites containing ammonia-modified montmorillonite (
NH3
/MMT), cured at ambient temperatures, raises their temperature to between 60 and 80 degrees C, which causes the
NH3
/MMT particles to swell and counteract polymerization shrinkage. The polymerization shrinkage was measured for the
BIS
-GMA resin system, without filler, to which had been added
NH3
/MMT. The addition of 4 to 5 weight percent
NH3
/MMT resulted in zero polymerization shrinkage. An experimental composite was formulated using the
BIS
-GMA resin system, hydroxyapatite filler and 4 weight percent
NH3
/MMT. Cured samples developed compressive strength and hardness comparable to reported values for dental composite resins. Porosity was not detected by scanning electron microscopy. The use of
NH3
/MMT for formulating polymeric systems that cure at constant volume should be explored for application in direct dental composites.
...
PMID:Constant-volume polymerization of composites by addition of ammonia-modified montmorillonite. 207 21
The initial rate of inactivation of T4 phage by solutions of [Pt(
NH3
)2Cl2], [PtenCl2] and [Pten(H2O)2] (NO3)2 at fixed values of pH is strongly reduced by phosphate buffer, slightly reduced by acetate buffer and apparently not influenced by bis(2-hydroxyethyl)aminotris(hydroxymethyl)methane (
BIS
-Tris) buffer and HEPES buffer. The phosphate abolishes the antiphage activity of the platinum complexes probably by some sort of complex formation. This together with dimerization reactions qualitatively explains the tailing off of the phage inactivation rate. High concentrations of NaNO3 as the salt medium give increased phage inactivation rates, which are also strongly pH-dependent.
...
PMID:Phosphate buffer and salt medium concentrations affect the inactivation of T4 phage by platinum(II) complexes. 401 1
