Riyan Al Islam Reshad scite author profile

Objective: This review summarizes the methods of chitosan production as well as its various potential applications. Materials and Methods:This study has been performed by literature review. Results:Chitin is a natural compound that is the second most abundant biological compound in nature. Chitin is found in many fungi species and aquatic crustaceans like crabs, shrimps, and many insects. Shrimp is the source of one of the most rapidly increasing businesses in the world. However, during shrimp processing, the hard exoskeleton of shrimps, like shrimp skin and head portions, is discarded as bio-waste. This exoskeleton of shrimp contains a considerable amount of chitin. Chitosan is a bio-product that is produced from chitin by the deacetylation process. Either chemical or biological processes can carry out the deacetylation process. The massive number of chitin treated as bio-waste can be used to produce chitosan. Chitosan is a biocompatible compound, naturally biodegradable, and non-toxic, and this compound can be used in various applications. Chitosan has potential antimicrobial and antioxidant activities. Moreover, it can also be used in drug delivery, biotechnology, bionanotechnology, food technology, regenerative medicine, medicine, numerous industrial applications, gene therapy, cancer therapy, agriculture, environmental protection, and so on. Conclusion:Chitosan can be used in almost all fields of biology. Although chitosan is not still used in all the mentioned fields shortly, chitosan should significantly impact these areas. More researches should be performed to make chitosan a compound of many applications and possibilities.

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<strong>Pathogenesis, Diagnosis and Possible Therapeutic Options for COVID-19</strong>

Ullah

Araf

Moin

et al. 2020

Preprint

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The recent pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread so rapidly and severely affected the people of almost every country in the world. The highly contagious nature of this virus makes it difficult to take control of the present pandemic situation. With no specific treatment available, the coronavirus disease 2019 (COVID-19) presents a threat to people of all ages including the elderly people and people with other medical complications as a vulnerable group to this disease. Better understanding of viral pathogenesis, appropriate preventive measures, early diagnosis and supportive treatments of the infected patients are now the general solutions to fight against this viral transmission. But, as an emerging disease, most about it remains still poorly understood. This article holds an overview on the origin and structure, pathogenesis, diagnosis and possible therapeutic options for the causative agent, SARS-CoV-2 and disease, COVID-19. However, few therapeutic options, laboratory experiments and other strategies proposed here need to be further clinically tested.

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Pathogenesis, Diagnosis and Possible Therapeutic Options for COVID-19

et al. 2020

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In silico investigations on curcuminoids from Curcuma longa as positive regulators of the Wnt/β-catenin signaling pathway in wound healing

Reshad

Alam

Raihan

et al. 2021

Egypt J Med Hum Genet

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Background Curcuma longa (Turmeric) is a traditionally used herb in wound healing. The efficacy of fresh turmeric paste to heal wounds has already been investigated in multiple ethnobotanical studies. Wnt/β-catenin signaling pathway plays a significant role in wound healing and injury repair processes which has been evident in different in vitro studies. This study aims to analyze the potentiality of curcuminoids (curcumin I, curcumin II and curcumin III) from Curcuma longa to bind and enhance the activity of two intracellular signaling proteins- casein kinase-1 (CK1) and glycogen synthase kinase-3β (GSK3B) involved in Wnt/β-catenin signaling pathway. This study is largely based on a computer-based molecular docking program which mimics the in vivo condition and works on a specific algorithm to interpret the binding affinity and poses of a ligand molecule to a receptor. Subsequently, drug likeness property, ADME/Toxicity profile, pharmacological activity, and site of metabolism of the curcuminoids were also analyzed. Results Curcumin I showed better affinity of binding with CK1 (− 10.31 Kcal/mol binding energy) and curcumin II showed better binding affinity (− 7.55 Kcal/mol binding energy) for GSK3B. All of the ligand molecules showed quite similar pharmacological properties. Conclusion Curcumin has anti-oxidant, anti-carcinogenic, anti-mutagenic, anti-coagulant, and anti-infective properties. Curcumin has also anti-inflammatory and wound healing properties. It hastens wound healing by acting on different stages of the natural wound healing process. In this study, three curcumins from Curcuma longa were utilized in this experiment in a search for a drug to be used in wound healing and injury repair processes. Hopefully, this study will raise research interest among researchers.

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