A1 Journal article (refereed), original research

Characterization of Penicillium crustosumL‑asparaginase and its acrylamide alleviation efciency in roasted cofee beans
at non‑cytotoxic levels

Publication Details

Authors: Khalil Naveem M., Rodríguez‑Couto Susana, Abd El‑Ghany Mohamed N.

Publisher: Springer Verlag (Germany)

Publication year: 2021

Language: English

Related journal or series: Archives of Microbiology

Volume number: 203

Start page: 2625

End page: 2637

Number of pages: 13

ISSN: 0302-8933

JUFO level of this publication: 1

Digital Object Identifier (DOI): http://dx.doi.org/10.1007/s00203-021-02198-6

Social media address: https://www.researchgate.net/publication/350016648_Characterization_of_Penicillium_crustosum_L-asparaginase_and_its_acrylamide_alleviation_efficiency_in_roasted_coffee_beans_at_non-cytotoxic_levels

Open Access: Not an Open Access publication


This work aims at isolating a fungal source for L-asparaginase production to be applied in reducing acrylamide levels in coffee beans at non-cytotoxic levels. An L-asparaginase-producing fungus was isolated from an agricultural soil sample and identified as Penicillium crustosum NMKA 511. A maximum L-asparaginase activity of 19.10 U/mL was obtained by the above-mentioned fungus when grown under optimum conditions (i.e. 16.96 g/L sucrose as carbon source, 1.92 g/L peptone as nitrogen source, pH 7.7 and 33.5 °C). Further, the produced L-asparaginase was purified and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) showed that P. crustosum L-asparaginase was a heterodimer enzyme with molecular weights of approximately 41.3 and 44.4 kDa. Also, the purified P. crustosum L-asparaginase was specific towards L-asparagine and showed negligible and no effects towards L-glutamine and D-asparagine, respectively. Additionally, the purified L-asparaginase reduced the acrylamide levels by 80.7% and 75.8% in light and dark roasted coffee beans, respectively. The amount of L-asparaginase used to reduce acrylamide was considered safe when cell viability reached 94.6%.

Last updated on 2021-24-06 at 08:15