H. A. H. Hasan scite author profile

H. A. H. Hasan

5Publications

154Citation Statements Received

44Citation Statements Given

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225

147

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Affiliations

Assiut University

Publications

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Gibberellin and auxin production by plant root-fungi and their biosynthesis under salinity-calcium interaction

Hasan¹

2002

Plant Soil Environ.

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Rhizosphere and rhizoplane of fababean (Vicia faba), melochia (Corchorus olitorius), sesame (Sesamum indicum) and soyabean (Glycine max) plants are inhabited with fungi, mostly Aspergillus flavus, A. niger, Fusarium oxysporum, Penicillium corylophilum, P. cyclopium, P. funiculosum and Rhizopus stolonifer. All fungal species have the ability to produce gibberellin (GA) but F. oxysporum was found to produce both GA and indole-acetic acid (IAA). The optimum period for GA and IAA production by F. oxysporum was 10 days in the mycelium and 15 days in the filtrate at 28°C. The contents of GA and IAA were significantly increased at 0.5 and 1% NaCl after 5 days, but they were lowered at 4% (700 mM) NaCl. Cytochrome P-450 was significantly increased under salt stress at 0.5-7% NaCl. Calcium decreased NaCl stress on F. oxysporum by significant elevating GA biosynthesis at 40 mM Ca 2+ /700 mM Na + . GA at 10 µM and Ca 2+ at 10 mM enhanced the germination of seeds under 175 mM Na + .Keywords: GA; IAA; cytochrome; fungi; calcium; salinityThe microbial synthesis of plant growth regulators (gibberellin and auxin) is an important factor in soil fertility (Kampert and Strzelczyk 1975). Gibberellin (GA) and indole-acetic acid (IAA) are secondary metabolites, which are important biotechnological products, produced commercially from fungi for the agricultural and horticultural industry (Deacon 1984, Bruckner 1992. GA was isolated from Gibberella fujikuroi by T. Yabuta and IAA was isolated from Rhizopus suinus by K.V. Thimann in 1935. GA 3 is the dominant component of the gibberellin complexes isolated from fungi (Bozhkova et al. 1991). It is now generally agreed that GA and IAA are very widely distributed throughout the plant kingdom.Salinity represents one of the most important factors exerting stress on fungal as well as plant cell metabolism. Kaur et al. (1998) found that GA 3 at 6µM concentration induced increased germination and seedling growth under salt stress. Calcium is particularly important nutrient in plants exposed to NaCl stress because of its role in maintaining the structural and functional integrity of membrane (Leopold and Willing 1984) and in cell wall extensibility (Taiz 1984).No recent study explains the ability of filamentous fungi, associated with roots of plant crops, for the GA and IAA production and their role toward the host plant crops. Also, no studies explain the effect of salinity on the activity of rhizosphere and rhizoplane fungi and role of Ca 2+ and GA in alleviation the salt stress. The present work was commenced by collecting four plant crops for isolation of both rhizosphere and rhizoplane fungi, and screening their efficiencies for GA and IAA production. Also, effect of salinity on GA, IAA and cytochrome P-450 biosynthesis by F. oxysporum was studied. The roles of GA and Ca 2+ in reversing the toxicity of salt stress effect in seedlings were also studied. MATERIAL AND METHODSCollection of samples. Ten samples of fababean (Vicia faba), melochia (Corchorus olitorius), sesame (Sesamum ind...

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Alternaria mycotoxins in black rot lesion of tomato fruit: Conditions and regulation of their production

Hasan

1995

Mycopathologia

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Phytotoxicity of pathogenic fungi and their mycotoxins to cereal seedling viability

Hasan¹

2001

AMicr

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Gibberellin and auxin-indole production by plant root-fungi and their biosynthesis under salinity-calcium interaction

Hasan

2002

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Patulin distribution in Fuji and Golden apples contaminated withPenicillium expansum

Marı́n

Morales-Valle

Hasan

et al. 2006

Food Additives and Contaminants

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This work assesses the extent of patulin contamination in Penicillium expansum-infected apples stored at room temperature for short periods of time and its relationship with apple variety (Golden or Fuji), degree of ripeness and size of lesions. Inoculated apples were incubated at 20 degrees C. Patulin was determined in both sound and decayed tissue from cylindrical samples taken around the lesions and cut into 0.5-cm thick sections. Higher accumulation of patulin occurred in Golden apples, with less ripened apples showing higher concentrations. Total accumulated patulin was similar or higher in 4-cm compared to 2-cm lesioned apples, although a decrease in patulin concentration was observed in older lesion sections. Patulin accumulation occurred over a short period of time at room temperature, thus the stand-by period before processing should be minimised. Of total patulin, 2-6% migrated to the surrounding sound tissue, thus trimming tissue around the rotten part may be a good preventive practice for apple derivative production.

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H. A. H. Hasan

Gibberellin and auxin production by plant root-fungi and their biosynthesis under salinity-calcium interaction

Alternaria mycotoxins in black rot lesion of tomato fruit: Conditions and regulation of their production

Phytotoxicity of pathogenic fungi and their mycotoxins to cereal seedling viability

Gibberellin and auxin-indole production by plant root-fungi and their biosynthesis under salinity-calcium interaction

Patulin distribution in Fuji and Golden apples contaminated withPenicillium expansum

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