O. O. Shonukan scite author profile

Aqueous and ethanolic extracts of leaves of Spondias mombin* and Alchornea cordifolia were found to inhibit the growth of some Gram-positive and Gram-negative bacteria. The ethanolic extract was found to be more effective than the aqueous extract in inhibiting bacterial growth. * Sometimes incorrectly renderea monbim. Pharmaceutical Biology Downloaded from informahealthcare.com by University of Newcastle on 12/27/14 For personal use only. Pharmaceutical Biology Downloaded from informahealthcare.com by University of Newcastle on 12/27/14 For personal use only.

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Bacillus pumilus BpCRI 6, a promising candidate for cellulase production under conditions of catabolite repression

Kotchoni¹,

Shonukan²,

Gachomo³

2003

Afr. J. Biotechnol.

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Cellulose degrading organisms have been used for the conversion of cellulolytic materials into soluble sugars or solvents in several biotechnological and industrial applications. In this report, a mutant of Bacillus pumilus was obtained after chemical mutagenesis and screened for cellulase production. This mutant named BpCRI 6 was selected for its ability to produce cellulase under catabolite repression. Cellulase yield by BpCRI 6 was four times higher than that of the wild type under optimum growth conditions (pH 6.5, 25°C and Ca 2+ 1mM). In shaking flask cultures, production of cellulase by the wild type was completely repressed in the presence of 25 mM glucose, while BpCRI 6 strain still exhibited a residual cellulase production of 80 and 40% at 25 mM and 40 mM of glucose concentrations respectively. The mutant strain is stable and grows rapidly in liquid and solid media. Under conditions of catabolite repression (40 mM of glucose), the production of cellulase by this mutant is particularly significant when compared to Trichoderma reesei a well-known cellulase producer, which is under control of end-product inhibition. This is the first report of a successful catabolite repression insensitivity of cellulase production by a mutant of B. pumilus.

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The molecular initiation and subsequent acquisition of disease resistance in plants

Gachomo¹,

Shonukan²,

Kotchoni³

2003

Afr. J. Biotechnol.

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Interactions between disease resistance (R) genes in plants and their corresponding pathogen avirulence (Avr) genes are the key determinants of whether a plant is susceptible or resistance to a pathogen attack. Evidence has emerged that these gene-for-gene interactions in the perception of pathogenic invasions and development of acquired resistance in plants involve different molecular and hormonal transduction pathways, which are still poorly understood. It has become apparent that plants actively produce several phytohormones such as ethylene, jasmonate, salicylic acid, and reactive oxygen intermediates prior to upregulation of R genes. The physiological role of these molecules in plant resistance to pathogens is beginning to attract attention. The use of transgenic plants in recent attempts, including development of mutants with altered R genes, has provided new insights into the mechanisms involved in pathogen perception, signal transduction and subsequent resistance to disease in plants. This review tries to summarize current knowledge of pathogen-related genes in plants, and how they can be use to improve disease resistance in agronomically valuable plants. It also describes the molecular basis of defense mechanisms in plants under pathogen attack.

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O. O. Shonukan

Microbiological and biochemical changes in the traditional fermentation of soybean for ‘soy-daddawa’ — Nigerian food condiment

Fermentation of soybean (Glycine max) for soy- daddawa production by starter cultures ofBacillus

Antibacterial Effect of Aqueous and Alcohol Extracts ofSpondias mombin, andAlchornea cordifolia- Two Local Antimicrobial Remedies

Bacillus pumilus BpCRI 6, a promising candidate for cellulase production under conditions of catabolite repression

The molecular initiation and subsequent acquisition of disease resistance in plants

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