L-asparaginase (EC 3.5. 1.1) hydrolyzes L-asparagine to L-aspartic acid and ammonia,
which has been widely applied in the pharmaceutical and food industries. Microbes have …

L-asparaginase, an amidohydrolase that catalyses break down of L-asparagine into aspartic
acid and ammonia, is one of the most prominent biopharmaceuticals. L-asparaginase (LA) …

The promising feature of the fungi from the marine environment as a source for anticancer
agents belongs to the fungal ability to produce several compounds and enzymes which …

Abstract l-Asparaginase is a therapeutically and industrially-competent enzyme, acting
predominantly as an anti-neoplastic and anti-cancerous agent. The existing formulations of …

This study aimed to select endophytic fungi to produce L-asparaginase and partially
optimising the production of the enzyme using cacti as substrate. Seventeen endophytes …

The continuous expansion of fish production results in increasing amounts of discards, ie
viscera, skin and frame, whose inappropriate disposal causes environmental damage …

Genetic engineering for heterologous expression has advanced in recent years. Model
systems such as Escherichia coli, Bacillus subtilis and Pichia pastoris are often used as host …

Penicillium is a widely explored genus due to its chemical diversity and associated
biological properties; in addition, it represents an important source for cytotoxic compounds …

The enzyme L-asparaginase (L-asparagine amidohydrolase) catalyzes the breakdown of L-
asparagine into aspartate and ammonia, which leads to an anti-neoplastic activity stemming …

Protoplast fusion is one of the most reliable methods of introducing desirable traits into
industrially-promising fungal strains. It harnesses the entire genomic repertoire of fusing …