Isolation and growth characterization of chlorate and/or bromate resistant mutants generated by spontaneous and induced foreword mutations at several gene loci in Aspergillus niger

Abstract: We aimed her mainly to evaluate the contribution of newly employed bromate selection system, in obtaining new Aspergillus niger nitrate/nitrite assimilation defective mutants, through Ultraviolet treatment (UV), 1, 2, 7, 8-Diepoxyoctane (DEO), phenols mixture (Phx)) and spontaneous treatments. The newly employed bromate selection system was able to specify only two putative novel mutant types designated brn (bromate resistant but chlorate sensitive (RS) strain, which may specify nitrite specific transporter) a… Show more

“…In 2011, Carvalho and Costa (2011) studied the genetic variability and vegetative compatibility of nit mutant strains of C. lindemuthianum and reported, similar to the authors of current study, auxotrophic mutants for uric acid (UA). Most studies aimed at isolating Colletotrichum mutants use the chlorate resistance system, while in current assay the authors are reporting for the first time retrieval of Colletotrichum mutants through the potassium bromate resistance system (KBrO 3 ), similar to the one previously mentioned for the Aspergillus species (Kanan, 2002;Kanan & Al-Najjar, 2010). Significant statistical results were observed according to Scott-Knott test (5% significance) for the phosphate solubilizing activity of C. karstii SL5 mutant strain when compared to the wild-type strain.…”

“…Aliquots of 200 μL were plated in a Minimum Medium (MM) (1.5 g L -1 KH 2 PO 4 , 0.5 g L -1 KCl, 0.5 g L -1 MgSO 4 .7H 2 O, 0.001 g L -1 FeSO 4 , 0.001 g L -1 ZnSO 4 , 10 g L -1 Glucose, 15 g L -1 Agar, 1000 mL distilled water; pH 6.8) containing potassium bromate (25 mM) with a single source of N (5 mM). All plates were cultured for 48h at 28ºC (Kanan & Al-Najjar, 2010).…”

“…Another alternative is the isolation and identification of spontaneous or induced mutant strains, which maximize or introduce characteristics of biotechnological interest. For filamentous fungi, chlorate (KClO 3 ) and potassium bromate (KBrO 3 ) resistance systems are the most commonly described, especially the nit auxotrophic mutants (Kanan, 2002;Prado et al, 2007;Rosada et al, 2010;Kanan & Al-Najjar, 2010).…”

Plant growth-promoting activity of wild-type and bromate-resistant mutant of the endophytic fungus Colletotrichum karstii

“…In 2011, Carvalho and Costa (2011) studied the genetic variability and vegetative compatibility of nit mutant strains of C. lindemuthianum and reported, similar to the authors of current study, auxotrophic mutants for uric acid (UA). Most studies aimed at isolating Colletotrichum mutants use the chlorate resistance system, while in current assay the authors are reporting for the first time retrieval of Colletotrichum mutants through the potassium bromate resistance system (KBrO 3 ), similar to the one previously mentioned for the Aspergillus species (Kanan, 2002;Kanan & Al-Najjar, 2010). Significant statistical results were observed according to Scott-Knott test (5% significance) for the phosphate solubilizing activity of C. karstii SL5 mutant strain when compared to the wild-type strain.…”

“…Aliquots of 200 μL were plated in a Minimum Medium (MM) (1.5 g L -1 KH 2 PO 4 , 0.5 g L -1 KCl, 0.5 g L -1 MgSO 4 .7H 2 O, 0.001 g L -1 FeSO 4 , 0.001 g L -1 ZnSO 4 , 10 g L -1 Glucose, 15 g L -1 Agar, 1000 mL distilled water; pH 6.8) containing potassium bromate (25 mM) with a single source of N (5 mM). All plates were cultured for 48h at 28ºC (Kanan & Al-Najjar, 2010).…”

“…Another alternative is the isolation and identification of spontaneous or induced mutant strains, which maximize or introduce characteristics of biotechnological interest. For filamentous fungi, chlorate (KClO 3 ) and potassium bromate (KBrO 3 ) resistance systems are the most commonly described, especially the nit auxotrophic mutants (Kanan, 2002;Prado et al, 2007;Rosada et al, 2010;Kanan & Al-Najjar, 2010).…”

Plant growth-promoting activity of wild-type and bromate-resistant mutant of the endophytic fungus Colletotrichum karstii

The Halogen-Oxyanion Derivatives as Contaminants of Concern in Water

Recombinants of Alternaria alternata endophytes enhance inorganic phosphate solubilization and plant growth hormone production