Exploring the Potential Bioactive Properties of Marine Natural Products

Zarena, A. S.

doi:10.2174/1573407214666180727092555

Cited by 3 publications

(2 citation statements)

References 119 publications

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“…[28][29][30] Studies have reinforced the potential of marine-based HA as an alternative to SHA, emphasizing its comparable chemical properties and superior bioactivity. 31,32 However, a significant challenge with PLA scaffolds is their degradation process, which tends to increase the pH of the surrounding tissues. This creates an inhospitable environment for cells due to the release of acidic by-products.…”

Section: Discussionmentioning

confidence: 99%

Fish scale derived hydroxyapatite incorporated 3D printed PLA scaffold for bone tissue engineering

Thomas,

Dalvi,

Fijol

et al. 2024

New J. Chem.

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Section: Discussionmentioning

confidence: 99%

Fish scale derived hydroxyapatite incorporated 3D printed PLA scaffold for bone tissue engineering

Thomas,

Dalvi,

Fijol

et al. 2024

New J. Chem.

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“…Then the transformed cell or explant can be modified into callus formation, suspension, or protoplast culture, followed by plant regeneration through organogenesis, somatic embryogenesis, and synthetic seed production [2] The developed plants are screened through high-throughput screening, looking for plants that could have new bioactive compounds. It is often observed that a lot of the active constituents in plants are of small quantity, and most of the components are water and cellulose; this is the reason why we need to concentrate the sample of interest [3]. In this review, we describe an overview of the preparation of extracts from plants using organic solvents, with an emphasis on common problems encountered and methods of reducing unwanted side reactions.…”

Section: Introductionmentioning

confidence: 99%

Generalized Review on Extraction of Biomolecules

Shireen¹,

Zarena²

2022

J. Pharm. Nutr. Sci.

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Nature has given us a wide range of biological compounds that can be utilized to help combat health problems, but sometimes with over-processing, these advantages are diminished or lost. Food and pharmaceutical companies have developed a range of new approaches to harness and retain the naturally occurring diversity and quality of bioactive compounds efficiently and effectively. Pharmaceutically important plant products have been known for millennia; they have been used in crude and unrefined forms. One of the best ways to pick the best plant bioactive is through genetic engineering, omics, and plant tissue culture. Many laboratories routinely screen plant species for bioactive compounds to discover new ones. All extraction methods depend on the researcher's preference and what exactly the research entails. Successful extraction begins with the careful selection and preparation of plant samples and thorough knowledge and review of the appropriate literature. Here we have attempted to describe the different stages and methods of extraction from the medicinal plants. From the review, it can be concluded that no universal extraction method is ideal and that each extraction procedure is unique.

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Algal Biorefinery for the Extraction of Bioactive Compounds

Bharadvaja

Kumar

2021

CBC

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Background: Algae, tiny photosynthetic microorganisms are under investigation for commercial biofuels and biochemical production. Applications of bioactive compounds of algal origin are now increasing for food, feed, fodder, fibre, cosmetics, nutraceutical and pharmaceuticals. Recent years have witnessed a major thrust moving towards a sustainable, biobased economy using a biorefinery concept. Biorefinery concept is based on obtaining a broad spectrum of products such as biodiesel, bioethanol, biogas, jet fuels and many value-added biobased products from renewable bioresources analogous to the petroleum refinery. Methodology: Aim of this review is to provide an insight into the utilization of algal biomass for production of bioactive compounds, algal cultivation systems, cell disruption techniques, challenges to algal bioactive compound extraction, and offer way forward. According to this objective, we did a comprehensive search in all available electronic information resources like in Web of Science, Scopus, and Science Direct. Result: The review summarizes representative bioactive compounds from algal biomass indicating that these biological resources are an inexhaustible source of new molecules that often display unique structures and sometimes have very interesting pharmacological properties, such as antifungal, antibacterial, enzyme-inhibitory, and other activities. A better cultivation and cell disruption strategy has been suggested for sustainable algal biorefinery system. Conclusion: The paper reviewed different bioactive compounds like astaxanthin, DHA, EPA, vitamins and β-1,3 Glucan, etc. present in microalgae and their applications in pharmaceuticals and nutraceuticals development for human consumption along with major steps of algal bioprocessing such as algal cultivation and cell disruption. Also, the production and role of several high-value compounds extracted from algal biomass in the treatment of various diseases along with the way forward to make algal-based biorefinery for bioactive compounds economically sustainable and viable have been discussed. However, research on various aspects of algal based bioactive compound extraction is in nascent phase and requires bioprospecting of high yielding native algal species, development and deployment of mass cultivation strategies, process optimization for harvest and cell disruption techniques followed by efficient biomolecule extraction procedures to make algal biorefinery sustainable and commercially viable in nature.

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Exploring the Potential Bioactive Properties of Marine Natural Products

Cited by 3 publications

References 119 publications

Fish scale derived hydroxyapatite incorporated 3D printed PLA scaffold for bone tissue engineering

Fish scale derived hydroxyapatite incorporated 3D printed PLA scaffold for bone tissue engineering

Generalized Review on Extraction of Biomolecules

Algal Biorefinery for the Extraction of Bioactive Compounds

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