Displaying all 2 publications

Abstract:
Sort:
  1. Gafar, A.A., Khayat, M.E., Abdul Rahim, M.B.H., Shukor, M.Y.
    MyJurnal
    Acrylamide is a synthetic monomer that has been classified as toxic and carcinogenic apart
    from its diverse application in the industry. Its application is in the formation of
    polyacrylamide. Polyacrylamide usage is diverse and is found as herbicide formulation, as soil
    treatment agent and in water treatment plants. Deaths and sickness due to the accidental
    exposure to acrylamide have been reported while chronic toxicity is also a source of the
    problem. This review highlighted the toxic effect of acrylamide to various organisms like
    human, animal and plant. This review also discusses on the potential use of biological
    technologies to remediate acrylamide pollution in the environment and the degradation
    pathways these microorganisms utilize to assimilate acrylamide as a nitrogen, carbon or both as
    carbon and nitrogen sources.
  2. Yadzir, Z.H.M., Gafar, A.A., Rahman, M.F., Yakasai, M.H., Abdullah, M.A., Shamaan, N.A., et al.
    MyJurnal
    Contamination of organic xenobiotic pollutants and heavy metals in a contaminated site allows
    the use of multiple bacterial degraders or bacteria with the ability to detoxify numerous toxicants
    at the same time. A previously isolated SDS- degrading bacterium, Acinetobacter baumannii
    strain Serdang 1 was shown to reduce molybdenum to molybdenum-blue. The bacterium works
    optimally at pH 6.5, the temperature range between 25 and 34°C with glucose serves as the best
    electron donor for molybdate reduction. This bacterium required additional concentration of
    phosphate at 5.0 mM and molybdate between 15 and 25 mM. The absorption spectrum of the
    molybdenum blue obtained is similar to the molybdenum blue from other earlier reported
    molybdate reducing bacteria, as it resembles a reduced phosphomolybdate closely. Ag(i), As(v),
    Pb(ii) and Cu(ii) inhibited molybdenum reduction by 57.3, 36.8, 27.7 and 10.9%, respectively, at
    1 p.p.m. Acrylamide was efficiently shown to support molybdenum reduction at a lower
    efficiency than glucose. Phenol, acrylamide and propionamide could support the growth of this
    bacterium independently of molybdenum reduction. This bacterium capability to detoxify several
    toxicants is an important tool for bioremediation in the tropical region.
Related Terms
Filters
Contact Us

Please provide feedback to Administrator ([email protected])

External Links