Enzymes from a technological standpoint and their application in seafood processing

Israel Bautista-Hernández; Karla Luna-Sánchez; Cristóbal N. Aguilar; Deepak K. Verma; Mónica L. Chávez González; Mamta Thakur; Soubhagya Tripathy; Ami R. Patel; Prem Prakash Srivastav

doi:10.1016/B978-0-323-95996-4.00006-X

Enzymes from a technological standpoint and their application in seafood processing

Israel Bautista-Hernández, Karla Luna-Sánchez, Cristóbal N. Aguilar, Deepak K. Verma, Mónica L. Chávez González, Mamta Thakur, Soubhagya Tripathy, Ami R. Patel, Prem Prakash Srivastav

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

In recent years, biotechnology has emerged as a new option for the food industry to tackle difficulties linked to food processing, improve organoleptic properties, and establish new technologies in the food preservation sector. An intriguing technology for the industry is the enzymatic mechanism, which entails the use of enzymes (proteins with the ability to cause a chemical reaction) to produce an interesting change or achieve desired attributes. In contrast to chemical approaches, the significant component of enzymatic technologies is the ability of the enzyme to work in a specific effective way in mild conditions (pH and temperature) utilizing low concentration and with an easy process of inactivation. In this context, the seafood industry has used enzymatic systems in a variety of processes (Fig. 6.1), such as the use of proteases in the deskinning and descaling process or lipases in the isolation of oil and fats; this is because the application could increase extraction yields and convert a by-product into a valuable initial material. Furthermore, enzymes have been included in new technologies to change oils or recover bioactive protein molecules, which might be useful in the development of novel food products. Another intriguing feature of the enzymatic component in the seafood industry is the ability to recover enzymes from residual industrial materials, in addition to the isolation and purification procedure. According to Fernandes (2016), the recovery of enzymes from various raw materials could improve the potential activity based on the recovered material. For example, enzymes obtained from the marine environment have several advantages such as high activity at low temperatures when compared with enzymes obtained from terrestrial sources. This chapter intends to give information on the traditional and most recent achievements in the use of enzymes in seafood processing, as well as prospective improvements in this field.

Original language	English
Title of host publication	Enzymatic processes for food valorization
Editors	Monica L. Chavez Gonzalez, Jose Juan Buenrostro Figueroa, Cristobal Noe Aguilar, Deepak K. Verma
Publisher	Academic Press
Chapter	6
Pages	85-97
Number of pages	13
ISBN (Electronic)	9780323959957
ISBN (Print)	9780323959964
DOIs	https://doi.org/10.1016/B978-0-323-95996-4.00006-X
Publication status	Published - 1 Jan 2024
Externally published	Yes

Keywords

Enzyme technology
Food application
Food products
Food technology
Seafood industry
Seafood processing

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/B978-0-323-95996-4.00006-X

Cite this

Bautista-Hernández, I., Luna-Sánchez, K., N. Aguilar, C., Verma, D. K., Chávez González, M. L., Thakur, M., Tripathy, S., Patel, A. R., & Srivastav, P. P. (2024). Enzymes from a technological standpoint and their application in seafood processing. In M. L. Chavez Gonzalez, J. J. Buenrostro Figueroa, C. Noe Aguilar, & D. K. Verma (Eds.), Enzymatic processes for food valorization (pp. 85-97). Academic Press. https://doi.org/10.1016/B978-0-323-95996-4.00006-X

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abstract = "In recent years, biotechnology has emerged as a new option for the food industry to tackle difficulties linked to food processing, improve organoleptic properties, and establish new technologies in the food preservation sector. An intriguing technology for the industry is the enzymatic mechanism, which entails the use of enzymes (proteins with the ability to cause a chemical reaction) to produce an interesting change or achieve desired attributes. In contrast to chemical approaches, the significant component of enzymatic technologies is the ability of the enzyme to work in a specific effective way in mild conditions (pH and temperature) utilizing low concentration and with an easy process of inactivation. In this context, the seafood industry has used enzymatic systems in a variety of processes (Fig. 6.1), such as the use of proteases in the deskinning and descaling process or lipases in the isolation of oil and fats; this is because the application could increase extraction yields and convert a by-product into a valuable initial material. Furthermore, enzymes have been included in new technologies to change oils or recover bioactive protein molecules, which might be useful in the development of novel food products. Another intriguing feature of the enzymatic component in the seafood industry is the ability to recover enzymes from residual industrial materials, in addition to the isolation and purification procedure. According to Fernandes (2016), the recovery of enzymes from various raw materials could improve the potential activity based on the recovered material. For example, enzymes obtained from the marine environment have several advantages such as high activity at low temperatures when compared with enzymes obtained from terrestrial sources. This chapter intends to give information on the traditional and most recent achievements in the use of enzymes in seafood processing, as well as prospective improvements in this field.",

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Bautista-Hernández, I, Luna-Sánchez, K, N. Aguilar, C, Verma, DK, Chávez González, ML, Thakur, M, Tripathy, S, Patel, AR & Srivastav, PP 2024, Enzymes from a technological standpoint and their application in seafood processing. in ML Chavez Gonzalez, JJ Buenrostro Figueroa, C Noe Aguilar & DK Verma (eds), Enzymatic processes for food valorization. Academic Press, pp. 85-97. https://doi.org/10.1016/B978-0-323-95996-4.00006-X

Enzymes from a technological standpoint and their application in seafood processing. / Bautista-Hernández, Israel; Luna-Sánchez, Karla; N. Aguilar, Cristóbal et al.
Enzymatic processes for food valorization. ed. / Monica L. Chavez Gonzalez; Jose Juan Buenrostro Figueroa; Cristobal Noe Aguilar; Deepak K. Verma. Academic Press, 2024. p. 85-97.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

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T1 - Enzymes from a technological standpoint and their application in seafood processing

AU - Bautista-Hernández, Israel

AU - Luna-Sánchez, Karla

AU - N. Aguilar, Cristóbal

AU - Verma, Deepak K.

AU - Chávez González, Mónica L.

AU - Thakur, Mamta

AU - Tripathy, Soubhagya

AU - Patel, Ami R.

AU - Srivastav, Prem Prakash

PY - 2024/1/1

Y1 - 2024/1/1

N2 - In recent years, biotechnology has emerged as a new option for the food industry to tackle difficulties linked to food processing, improve organoleptic properties, and establish new technologies in the food preservation sector. An intriguing technology for the industry is the enzymatic mechanism, which entails the use of enzymes (proteins with the ability to cause a chemical reaction) to produce an interesting change or achieve desired attributes. In contrast to chemical approaches, the significant component of enzymatic technologies is the ability of the enzyme to work in a specific effective way in mild conditions (pH and temperature) utilizing low concentration and with an easy process of inactivation. In this context, the seafood industry has used enzymatic systems in a variety of processes (Fig. 6.1), such as the use of proteases in the deskinning and descaling process or lipases in the isolation of oil and fats; this is because the application could increase extraction yields and convert a by-product into a valuable initial material. Furthermore, enzymes have been included in new technologies to change oils or recover bioactive protein molecules, which might be useful in the development of novel food products. Another intriguing feature of the enzymatic component in the seafood industry is the ability to recover enzymes from residual industrial materials, in addition to the isolation and purification procedure. According to Fernandes (2016), the recovery of enzymes from various raw materials could improve the potential activity based on the recovered material. For example, enzymes obtained from the marine environment have several advantages such as high activity at low temperatures when compared with enzymes obtained from terrestrial sources. This chapter intends to give information on the traditional and most recent achievements in the use of enzymes in seafood processing, as well as prospective improvements in this field.

AB - In recent years, biotechnology has emerged as a new option for the food industry to tackle difficulties linked to food processing, improve organoleptic properties, and establish new technologies in the food preservation sector. An intriguing technology for the industry is the enzymatic mechanism, which entails the use of enzymes (proteins with the ability to cause a chemical reaction) to produce an interesting change or achieve desired attributes. In contrast to chemical approaches, the significant component of enzymatic technologies is the ability of the enzyme to work in a specific effective way in mild conditions (pH and temperature) utilizing low concentration and with an easy process of inactivation. In this context, the seafood industry has used enzymatic systems in a variety of processes (Fig. 6.1), such as the use of proteases in the deskinning and descaling process or lipases in the isolation of oil and fats; this is because the application could increase extraction yields and convert a by-product into a valuable initial material. Furthermore, enzymes have been included in new technologies to change oils or recover bioactive protein molecules, which might be useful in the development of novel food products. Another intriguing feature of the enzymatic component in the seafood industry is the ability to recover enzymes from residual industrial materials, in addition to the isolation and purification procedure. According to Fernandes (2016), the recovery of enzymes from various raw materials could improve the potential activity based on the recovered material. For example, enzymes obtained from the marine environment have several advantages such as high activity at low temperatures when compared with enzymes obtained from terrestrial sources. This chapter intends to give information on the traditional and most recent achievements in the use of enzymes in seafood processing, as well as prospective improvements in this field.

KW - Enzyme technology

KW - Food application

KW - Food products

KW - Food technology

KW - Seafood industry

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BT - Enzymatic processes for food valorization

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ER -

Bautista-Hernández I, Luna-Sánchez K, N. Aguilar C, Verma DK, Chávez González ML, Thakur M et al. Enzymes from a technological standpoint and their application in seafood processing. In Chavez Gonzalez ML, Buenrostro Figueroa JJ, Noe Aguilar C, Verma DK, editors, Enzymatic processes for food valorization. Academic Press. 2024. p. 85-97 doi: 10.1016/B978-0-323-95996-4.00006-X

Enzymes from a technological standpoint and their application in seafood processing

Abstract

Keywords

UN SDGs

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