• Microbiology and Biotechnology Letters
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• v.22 no.1
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• pp.23-30
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• 1994

Intergeneric hybrids formed between Aspergillus oryzae var oryzae and Penicillium verruculosum F-3 were obtained by nuclear transfer technique. Several auxotrophic mutants isolated fromconidio-spores of the two strains mutagenized with ultraviolet and N-methyl-N-nitrosoguanidine. Optimal conditions for formation of intergeneric hybrids were investigated. Frequencies of hybrid formation by nuclear transfer were 3$\times $10$^{-5}$ $~$1$\times $10$^{-5}$. From observation of genetic stability, conidial size, DNA content, nuclear stain, it was suggested that their karyptypes are aneuploid. The hybrid posses the 1.3$~$2.2 fold higher amylase activities than those of parental strains. It was also revealed that some hybids had different isozyme patterns compared to those of parental strains by amylase activity assays.

• Korean Journal of Microbiology
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• v.31 no.1
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• pp.1-8
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• 1993

lntergeneric hybrids formed between Aspergillus niger and Penicillium verruculosum were obtained by nuclear transfer technique. Nuclei isolated from wild type and auxotrophic mutants of donor strains were transferred into the protoplasts of different auxotrophic mutants as recipient strains. Several auxotrophic mutants were isolated from conidiospores of the two strains mutagenized with ultraviolet and N-methyl-N'-nitrosoguanidine. Optimal conditions for formation of intergeneric hybrids were investigated. Frequencies of intergeneric hybrid formation by nuclear transfer were $7{\times}10^{5}~1{\times}10^{5}$. From observations of genetic stability. DNA content. nuclear stain and conidial size. it was suggested that their karyotypes are aneuploid. In addition. the hybrids possess the 1.1~2.3-fold higher cellulase activities than those of parental strains. It was also revealed that some hybrids had different isozyme patterns compared to those of parental strains by CMCase and $\beta$-glucosidase activity assays.

• Microbiology and Biotechnology Letters
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• v.16 no.2
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• pp.156-162
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• 1988

Optimal conditions for the formation and regeneration of protoplasts of the cellulolytic fungus Penicillium verruculosum were investigated. Among the various commercial cell wall lytic enzymes tested, 0.5%(w/ v) Novozym 234 was the most effective for protoplast formation. The highest yield of protoplast exceeding 4.5$\times$10$^6$/m$\ell$ obtained when 400mg of 20 hr-old mycelia was incubated with 0.5%(w/v) Novozym 234 at 3$0^{\circ}C$ for 1 hr. The best osmotic stabilizer for the isolation and re-generation of protoplasts was 0.7M sorbital (pH 5.6) and 0.6M MgSO$_4$(pH 5.6), respectively. When 0.6M MgSO$_4$was added as osmotic stabilizer to the complete medium, the maximum regeneration frequency obtained was 4.6-27.8%. Micromorphological change of giant protoplasts into hyphae was observed during incubation in the regeneration liquid medium.

• Journal of Microbiology and Biotechnology
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• v.1 no.4
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• pp.232-239
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• 1991

Caboxymethyl cellulase (CMCase) I was purified from the induced culture filtrate of Penicllium verruculosum F-3 by ammonium sulfate precipitation, DEAE-Sephadex A-50 chromatography and Bio-gel P-150 filtration. The purified enzyme was assumed to be a glycoprotein consisting of 8.5% carbohydrate and having a molecular weight of 70.000 in SDS-polycrylamide gel electrophoresis (SDS-PAGE). The purified enzyme-specific anti-CMCase I IgG was obtained by rabbit immunization and protein A-sepharose CL-4B chromatography. The fungal poly($A^+$) RNA was isolated from the total RNA of the mycelium grown under cellulase induction conditions by oligo(dT)-cellulosse chromatography. The translation products in vitro were prepared by translating the isolated poly ($A^+$) RNA in rabbit reticulocyte lysate and analyzed by SDS-PAGE and fluorography. Of the translation products, CMCase I was identified by the immunoprecipitation against anti-CMCase I IgG.

• Microbiology and Biotechnology Letters
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• v.15 no.6
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• pp.388-395
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• 1987

In order to obtain a regulatory mutant strain with high cellulase activity, a newly isolated Penicillium verrculosum, strain F-3 was used as parental strain since it was proved to be an efficient cellulase producer. A number of experiments were conducted to determine the optimum conditions to in-duce mutagenesis and isolate the desirable mutant strains. Out of several restriction compounds tested, 1.5% oxgall was found to be most effective to restrict the colony size by suppressing overgrowth. Derepression of catabolites was employed as a criterion in selecting mutant strains with high cellulase productivity. Production of cellulase by Penicillium venculosum F-3 was suppressed when cultured on the media with more than 1% of glucose or glycerol. It was found that either irradiation with UV light for 19 mins or treatment with nitrosoguanidine at 200$\mu\textrm{g}$/m1 for 60 mins, induced mutagenesis at desired level, when the survival rate of the spore was 0.2% and 48%, respectively. Three mutant strains of F-3, UV-9, UV-10, and NTG-3 that had the highest cellulase productivity were finally selected, based on filter paper degradation rate, size of clearing zone on the screening plate and cellulase activity in the medium containing cellulose powder. When the mutant strains were compared with parental strain F-3, on the KC-M-W medium containing cellulose powder, the filter paper activities of UV-9, UV-10, and NTG-3 were increased by 34%, 55%, and 41%, respectively. However, the assimilation of cellobiose octaacetate by UV-9 or NTG-3 was markedly reduced. When the mutant UV-10 was grown on cellobiose octaacetate medium (CCA-4) in shaking flasks, the cellulase activities of the mutant increased by 20 to 50% compared to the parental strain. Excreation of soluble protein from the mutant also elevated up to 30%. The mutant also constitutively produced both CMCase and $\beta$-glucosidase, though at relatively low level, in the presence of glucose or cellobiose as carbon sources.