Degradation and utilization of cellulose and straw by three different anaerobic fungi from the ovine rumen
Three different ruminal fungi, a Neocallimastix sp. (strain LM-1), a piromonas sp. (strain SM-1), and a Sphaeromonas sp. (strain NM-1), were grown anaerobically in liquid media which contained a suspension of either 1% (wt/vol) purified cellulose or finely milled wheat straw as the source of ferment...
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Veröffentlicht in: | Applied and Environmental Microbiology 1989-07, Vol.55 (7), p.1703-1710 |
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Zusammenfassung: | Three different ruminal fungi, a Neocallimastix sp. (strain LM-1), a piromonas sp. (strain SM-1), and a Sphaeromonas sp. (strain NM-1), were grown anaerobically in liquid media which contained a suspension of either 1% (wt/vol) purified cellulose or finely milled wheat straw as the source of fermentable carbon. Fungal biomass was estimated by using cell wall chitin or cellular protein in cellulose cultures and chitin in straw cultures. Both strains LM-1 and SM-1 degraded cellulose with a concomitant increase in fungal biomass. Maximum growth of both fungi occurred after incubation for 4 days, and the final yield of protein was the same for both fungi. Cellulose degradation continued after growth ceased. Strain NM-1 failed to grow in the cellulose medium. All three anaerobic fungi grew in the straw-containing medium, and loss of dry weight from the cultures indicated degradation of straw to various degrees (LM-1 greater than SM-1 greater than NM-1). The total fiber component and the cellulose component of the straw were degraded in similar proportions, but the lignin component remained undegraded by any of the fungi. Maximum growth yield on straw occurred after 4 days for strain LM-1 and after 5 days for strains SM-1 and NM1-1. The calculated yield of cellular protein for strain LM-1 was twice that of both strains SM-1 and NM-1. The cellular protein yield of strain SM-1 was the same in both cellulose and straw cultures. In contrast to cellulose, straw degradation ceased after the end of the growth phase. Beta-Glucosidase, carboxymethylcellulase (CM-cellulase), azure cellulase, beta-xylosidase, and xylanase enzyme activities were detected in the supernatants from the medium containing straw after growth of the three fungi. The type of cellulase(s) produced by strain NM-1 probably will not degrade the form of purified cellulose used as the growth substrate in this study |
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ISSN: | 0099-2240 1098-5336 |
DOI: | 10.1128/aem.55.7.1703-1710.1989 |