2022
DOI: 10.3389/fbioe.2022.996138
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Enhanced salt-tolerance of Bacillus subtilis glutaminase by fusing self-assembling amphipathic peptides at its N-terminus

Abstract: Glutaminase (EC 3.5.1.2) can catalyze the deamidation of glutamine, which has been used to improve umami taste in oriental fermented foods. However, a high salt concentration is still a fundamental challenge for glutaminase application, especially in soy sauce production. To improve the salt tolerance of glutaminase, the self-assembling amphiphilic peptides EAK16 and ELK16 were fused to the N-terminus of a mutant (E3C/E55F/D213T) derived from Bacillus subtilis glutaminase, yielding the fusion enzymes EAK16-E3C… Show more

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Cited by 2 publications
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“…Amino acid preference, the ratio of charged versus uncharged amino acids, ionic interactions, codon use, hydrophobicity, and protein surface area are examples of these (Zhou et al 2008). Even though the enzymes used as examples originate from hyperthermophilic sources (Vieille and Zeikus 2001), to date, the publication written two decades ago has become guidance for scientists conducting protein engineering Van Wyk et al 2022;Liu et al 2022;Srivastava et al 2023). Since there, numerous engineering methods to obtain thermostable enzymes or other purposes have been documented (Wang et al 2006;Shirke et al 2018;Khersonsky et al 2018;Noda-Garcia et al 2018;Deng et al 2023).…”
Section: H a Y At I H A Y At Imentioning
confidence: 99%
“…Amino acid preference, the ratio of charged versus uncharged amino acids, ionic interactions, codon use, hydrophobicity, and protein surface area are examples of these (Zhou et al 2008). Even though the enzymes used as examples originate from hyperthermophilic sources (Vieille and Zeikus 2001), to date, the publication written two decades ago has become guidance for scientists conducting protein engineering Van Wyk et al 2022;Liu et al 2022;Srivastava et al 2023). Since there, numerous engineering methods to obtain thermostable enzymes or other purposes have been documented (Wang et al 2006;Shirke et al 2018;Khersonsky et al 2018;Noda-Garcia et al 2018;Deng et al 2023).…”
Section: H a Y At I H A Y At Imentioning
confidence: 99%