Tahı́a Benı́tez scite author profile

The enzymes from Trichoderma species that degrade fungal cell walls have been suggested to play an important role in mycoparasitic action against fungal plant pathogens. The mycoparasite Trichoderma harzianum produces at least two extracellular ␤-1,6-glucanases, among other hydrolases, when it is grown on chitin as the sole carbon source. One of these extracellular enzymes was purified to homogeneity after adsorption to its substrate, pustulan, chromatofocusing, and, finally, gel filtration. The apparent molecular mass was 43,000, and the isoelectric point was 5.8. The first 15 amino acids from the N terminus of the purified protein have been sequenced. The enzyme was specific for ␤-1,6 linkages and showed an endolytic mode of action on pustulan. Further characterization indicated that the enzyme by itself releases soluble sugars and produces hydrolytic halli on yeast cell walls. When combined with other T. harzianum cell wall-degrading enzymes such as ␤-1,3-glucanases and chitinases, it hydrolyzes filamentous fungal cell walls. The enzyme acts cooperatively with the latter enzymes, inhibiting the growth of the fungi tested. Antibodies against the purified protein also indicated that the two identified ␤-1,6-glucanases are not immunologically related and are probably encoded by two different genes.

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Molecular characterization and heterologous expression of an endo-β-1,6-glucanase gene from the mycoparasitic fungus Trichoderma harzianum

Lora¹,

Cruz

Llobell

et al. 1995

Molec. Gen. Genet.

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Increased Antifungal Activity of Trichoderma harzianum Transformants That Overexpress a 33-kDa Chitinase

Limón¹,

Pintor‐Toro²,

Benı́tez³

1999

Phytopathology®

112

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Transformants of the biocontrol agent Trichoderma harzianum strain CECT 2413 that overexpressed a 33-kDa chitinase (Chit33) were obtained and characterized. Strain CECT 2413 was cotransformed with the amdS gene and its own chit33 gene under the control of the pki constitutive promoter from T. reesei. Southern blotting indicated that the chit33 gene was integrated ectopically, mostly in tandem. Some transformants showed the same restriction pattern, indicating preferable sites of integration. There was no correlation between the number of integrated copies and the level of expression of the chit33 gene in the transformants. When grown in glucose, the extracellular chitinase activity of the transformants was up to 200-fold greater than that of the wild type, whereas in chitin, the activity of both the transformants and the wild type was similar. Under both conditions, the transformants were more effective in inhibiting the growth of Rhizoctonia solani as compared with the wild type. Similar results were obtained when culture supernatants from the transformants and the wild type were tested against R. solani.

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Tahı́a Benı́tez

Chromosomal polymorphism and adaptation to specific industrial environments of Saccharomyces strains

Purification and characterization of an endo-beta-1,6-glucanase from Trichoderma harzianum that is related to its mycoparasitism

Molecular characterization and heterologous expression of an endo-β-1,6-glucanase gene from the mycoparasitic fungus Trichoderma harzianum

Increased Antifungal Activity of Trichoderma harzianum Transformants That Overexpress a 33-kDa Chitinase

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