اثر مهاری پروتئینهای مهارکننده پلی گالاکتوروناز لوبیا بر آنزیم پلی گالاکتوروناز قارچهای بیماریزای Fusarium oxysporum و Ascochyta rabiei گیاه نخود
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Abstract:
Plant pathogenic microorganisms produce a variety of enzymes capable of degrading different polysaccharides of the plant cell walls. Pathogens use these enzymes to penetrate and colonize host cells. Polygalacturonases are thought to be the first cell wall-degrading enzymes secreted by pathogens when they grow on plant cell walls. Oligogalacturonic acids with the polymerization degrees of 10 to 13 are intermediate products of pectin degradation by the action of polygalacturonases and are known to activate plant defense responses. PG- inhibiting proteins (PGIPs) present in the cell wall of many plants increase the stability of oligogalacturonic acids in the tissues by modulating fungal PG activities. These glycoproteins of the plant cell extracellular matrix retard the advancement of fungal hyphae, reduce tissue maceration, and prevent colonization of pathogen. In this study, Phaseolus vulgaris PGIPs were extracted from hypocotyle of Derakhshan and Naz bean cultivars. PvPGIPs were purified by afinity chromatography and analyzed by SDS-PAGE. Three major bands in the range of 47-55 kDa were detected. Average yield of The affinity-purified PGIPs was 1.68 mg per 100 gram of fresh bean hypocotyle. The inhibitory effect of PGIP was assayed on the PG activities of highly virulent isolates of Fusarium oxysporum (F15) and Ascochyta rabiei (IK04). The inhibitory activity of crude PGIP from Naz and Derakhshan cultivars on polygalacturonase activity of F. oxysporum was 18 and 28 units, respectively. These inhibitory activities increased to 40 units after purification. The inhibitory effect of crude PGIPs from both these two cultivars on PG activity of A. rabiei was 9 units, while purified PGIPs inhibited this PG activity to 18 and 29 units, respectively.
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اثر مهاری پروتئین های مهارکننده پلی گالاکتوروناز لوبیا بر آنزیم پلی گالاکتوروناز قارچ های بیماری زای <i>fusarium oxysporum</i> و <i>ascochyta rabiei</i> گیاه نخود
قارچ های بیماری زا به منظور نفوذ به بافت گیاهی از آنزیم های پلی گالاکتورونازی استفاده می کنند. در مقابل، برخی از گیاهان واجد پروتئین های مهار کننده پلی گالاکتوروناز (polygalacturonase-inhibiting proteins/ pgip) می باشند که عملکرد این گلیکو پروتئین ها به تأخیر انداختن نفوذ هیف آن و در نتیجه عدم کلونیزاسیون قارچی می باشد. در این تحقیق pgip از هیپوکتیل واریته های درخشان و ناز لوبیا (phaseolus vulg...
full textبررسی فعالیت آنزیم پلی گالاکتوروناز مترشحه از ایزوله های ایرانی قارچ Fusarium oxysporum
در این تحقیق شدت بیماری زایی و میزان تولید آنزیم پلی گالاکتوروناز ‹PG›در پانزده ایزوله قارچ Fusarium oxysporum جمع آوری شده از مناطق مختلف ایران مورد بررسی ومطالعه قرار گرفت .در این آزمایش از نخود ایرانی رقم جم و با کشت ایزوله ها در چهار محیط کشت مختلف جهت تعیین شدت بیماریزایی استفاده گردید.آسیب های ناشی از حمله قارچ به قسمت های مختلف گیاهچه به طور روزانه تا روز پنجم مورد مطالعه ...
full textبررسی ارتباط میان فعالیت آنزیم پلی گالاکتوروناز و شدت بیماری زایی جدایه های ایرانی قارِچ Ascochyta rabiei
A total of forty-three isolates of Ascochyta rabiei obtained from infected seeds and plants of chickpea from different areas of Kermanshah, Lorestan, Hamadan, Kordestan, and East and West Azarbaijan provinces were studied during the period 1996-1999. A rapid and simple method was developed for pathogenicity test in CDA (chickpea seed meal dextrose agar) medium. CDA medium was inoculated with di...
full textخالص سازی آنزیم پلی گالاکتوروناز جدایه (IKO6) قارچAscochyta rabiei : عامل بیماریبرق زدگی در نخود
Ascochyta blight caused by Ascochyta rabiei is one of the major diseases of chickpea (Cicer arientinum) in Iran. Many phytopathogenic microorganisms, incuding A .rabiei, attack their host plant by secreting pectic enzymes including polygalacturonase (PG) which causes modification of cell-wall structure, increasing accessibility of cell-wall components for degradation by other enzymes. Polygalac...
full textخالص سازی آنزیم پلی گالاکتوروناز جدایه (IKO6) قارچAscochyta rabiei : عامل بیماریبرق زدگی در نخود
Ascochyta blight caused by Ascochyta rabiei is one of the major diseases of chickpea (Cicer arientinum) in Iran. Many phytopathogenic microorganisms, incuding A .rabiei, attack their host plant by secreting pectic enzymes including polygalacturonase (PG) which causes modification of cell-wall structure, increasing accessibility of cell-wall components for degradation by other enzymes. Polygalac...
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Journal title
volume 11 issue 41
pages 345- 356
publication date 2007-10
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