Industrial sustainability of microbial keratinases: production and potential applications

Menezes, Cíntia Lionela Ambrósio de; Santos, Rafaela do Couto; Santos, Marisa V; Boscolo, Maurício; Gomes, Eleni; Silva, Ronivaldo Rodrigues da

doi:10.1007/s11274-021-03052-z

Cited by 35 publications

(20 citation statements)

References 95 publications

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“…Since the cost of keratinase production is high, several researchers have increased the yield and stability of keratinases by altering the genome of keratinolytic organisms via physical and chemical mutagenesis or recombinant DNA technologies [ 80 , 82 , 90 , 93 , 94 , 95 , 96 ]. Keratinases have become increasingly popular, and many studies have reviewed their discovery, production, classification, structure, hydrolysis function, and industrial application [ 9 , 97 , 98 , 99 , 100 ]. Biological techniques are environmentally friendly methods to hydrolyze keratin, but they require more time than other methods.…”

Section: Methods For the Valorization Of Livestock Keratinmentioning

confidence: 99%

Valorization of Livestock Keratin Waste: Application in Agricultural Fields

Chen

Gao

et al. 2022

IJERPH

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Livestock keratin waste is a rich source of protein. However, the unique structure of livestock keratin waste makes its valorization a great challenge. This paper reviews the main methods for the valorization of livestock keratin waste, which include chemical, biological, and other novel methods, and summarizes the main agricultural applications of keratin-based material. Livestock keratin waste is mainly used as animal feed and fertilizer. However, it has promising potential for biosorbents and in other fields. In the future, researchers should focus on the biological extraction and carbonization methods of processing and keratin-based biosorbents for the soil remediation of farmland.

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Section: Methods For the Valorization Of Livestock Keratinmentioning

confidence: 99%

Valorization of Livestock Keratin Waste: Application in Agricultural Fields

Chen

Gao

et al. 2022

IJERPH

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“…Indeed, bacteria, actinomycetes, and fungi are shown to have the capability to degrade keratin (Calin et al, 2017 ; Bohacz and Korniłłowicz-Kowalska, 2019 ). Many researchers have isolated keratin-degrading microorganisms from different environments and proved that these microorganisms can be utilized to convert keratinous wastes into value-added products (de Menezes et al, 2021 ; Nnolim and Nwodo, 2021 ). These isolated microorganisms exhibited their potential to degrade keratin and keratin-containing wastes such as feathers into soluble fractions and amino acids (Callegaro et al, 2018 ; Shanmugasundaram et al, 2018 ; Bohacz, 2019 ; Tamreihao et al, 2019 ; Chaudhary et al, 2021 ).…”

Section: Microbial Degradation Of Keratinmentioning

confidence: 99%

Perspectives on Converting Keratin-Containing Wastes Into Biofertilizers for Sustainable Agriculture

2022

Front. Microbiol.

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Keratin-containing wastes become pollution to the environment if they are not treated properly. On the other hand, these wastes can be converted into value-added products applicable to many fields. Organic fertilizers and biofertilizers are important for sustainable agriculture by providing nutrients to enhance the growth speed of the plant and production. Keratin-containing wastes, therefore, will be an important resource to produce organic fertilizers. Many microorganisms exhibit capabilities to degrade keratins making them attractive to convert keratin-containing wastes into valuable products. In this review, the progress in microbial degradation of keratins is summarized. In addition, perspectives in converting keratin into bio- and organic fertilizers for agriculture are described. With proper treatment, feather wastes which are rich in keratin can be converted into high-value fertilizers to serve as nutrients for plants, reduce environmental pressure and improve the quality of the soil for sustainable agriculture.

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“…Interestingly, a study showed that glucose and ammonium nitrate are not good sources for growing Stenotrophomonas maltophilia to degrade feathers ( Qu et al, 2018 ). Accumulated studies suggest that different microorganisms require various fermentation conditions for large-scale production, indicating that careful exploratory studies are necessary prior to the large-scale production of the enzymes ( Jagadeesan et al, 2020 ; de Menezes et al, 2021 ; Deniz et al, 2021 ; Sharma and Kango, 2021 ). It was demonstrated that the solid-state fermentation increased keratinase production compared with the commonly used submerged fermentation ( Inácio et al, 2018 ).…”

Section: Mechanism Of Action For Keratinasementioning

confidence: 99%

“…As keratin does not accumulate in nature, microorganisms are playing the major role in its degradation and recycling. Therefore, keratinous wastes threatening the environment can be converted into value-added products by using microbial treatment ( de Menezes et al, 2021 ; Nnolim and Nwodo, 2021 ). Extensive studies have been carried out to search suitable microorganisms and obtain optimized processes to make full use of keratinous wastes ( Gradišar et al, 2000 ; Sangali and Brandelli, 2000 ; Kim et al, 2001 ; Rai and Mukherjee, 2011 ).…”

Section: Introductionmentioning

confidence: 99%

“…Keratin is also classified as hard keratin and soft keratin based on the content of cysteine ( Jin et al, 2017 ). As basic units of keratin are polypeptides, keratinases play a major role in keratin degradation by breaking the disulfide bonds and peptidic bonds ( Fraser and Parry, 2008 ; Hassan et al, 2020 ; de Menezes et al, 2021 ). One of the features of keratinases is that they are able to cleave a sequence with hydrophobic residues at the P1 position ( Brandelli et al, 2010 ).…”

Section: Introductionmentioning

confidence: 99%

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Structure, Application, and Biochemistry of Microbial Keratinases

2021

Front. Microbiol.

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Keratinases belong to a class of proteases that are able to degrade keratins into amino acids. Microbial keratinases play important roles in turning keratin-containing wastes into value-added products by participating in the degradation of keratin. Keratin is found in human and animal hard tissues, and its complicated structures make it resistant to degradation by common proteases. Although breaking disulfide bonds are involved in keratin degradation, keratinase is responsible for the cleavage of peptides, making it attractive in pharmaceutical and feather industries. Keratinase can serve as an important tool to convert keratin-rich wastes such as feathers from poultry industry into diverse products applicable to many fields. Despite of some progress made in isolating keratinase-producing microorganisms, structural studies of keratinases, and biochemical characterization of these enzymes, effort is still required to expand the biotechnological application of keratinase in diverse fields by identifying more keratinases, understanding the mechanism of action and constructing more active enzymes through molecular biology and protein engineering. Herein, this review covers structures, applications, biochemistry of microbial keratinases, and strategies to improve its efficiency in keratin degradation.

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Industrial sustainability of microbial keratinases: production and potential applications

Cited by 35 publications

References 95 publications

Valorization of Livestock Keratin Waste: Application in Agricultural Fields

Valorization of Livestock Keratin Waste: Application in Agricultural Fields

Perspectives on Converting Keratin-Containing Wastes Into Biofertilizers for Sustainable Agriculture

Structure, Application, and Biochemistry of Microbial Keratinases

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