With the unprecedented rise of drug-resistant pathogens, particularly antibiotic-resistant
bacteria, and no new antibiotics in the pipeline over the last three decades, the issue of antimicrobial
resistance has emerged as a critical public health threat. Antimicrobial Peptides (AMP) have
garnered interest as a viable solution to this grave issue and are being explored for their potential
antimicrobial applications. Given their low bioavailability in nature, tailoring new AMPs or strategizing
approaches for increasing the yield of AMPs, therefore, becomes pertinent.
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The present review focuses on biotechnological interventions directed towards enhanced AMP
synthesis and revisits existing genetic engineering and synthetic biology strategies for production of
AMPs. This review further underscores the importance and potential applications of advanced gene
editing technologies for the synthesis of novel AMPs in future.
Search for new industrial enzymes having novel properties continues to be a desirable pursuit in enzyme research. The halophilic organisms inhabiting under saline/ hypersaline conditions are considered as promising source of useful enzymes. Their enzymes are structurally adapted to perform efficient catalysis under saline environment wherein n0n-halophilic enzymes often lose their structure and activity. Haloenzymes have been documented to be polyextremophilic and withstand high temperature, pH, organic solvents, and chaotropic agents. However, this stability is modulated by salt. Although vast amount of information have been generated on salt mediated protection and structure function relationship in halophilic proteins, their clear understanding and correct perspective still remain incoherent. Furthermore, understanding their protein architecture may give better clue for engineering stable enzymes which can withstand harsh industrial conditions. The article encompasses the current level of understanding about haloadaptations and analyzes structural basis of their enzyme stability against classical denaturants.
GBC predominantly a disease of females belonged to fourth and fifth decade of life. Among 328 cases of GBC only 75 were male and 253 female (M:F = 1:3.37). Majority of GBC patients were above 40 years and multiparous females. Family history of GBC was higher in GBC patients. Majority of GBC patients were of low socioeconomic status and hailed from rural background. This group tends to consume open mustard oil and water from hand pump. This study emphasizes the usefulness of demographic evaluation in diagnosis of GBC and a systematic approach to assessment of demographic features of GBC is recommended.
The present day modern formulation practices for drugs are based on newer tools and techniques toward effective utilization. The methods of antibody formulations are to be revolutionized based on techniques of cell engineering and gene editing. In the present review, we have discussed innovations in cell engineering toward production of novel antibodies for therapeutic applications. Moreover, this review deciphers the use of RNAi, ribozyme engineering, CRISPR-Cas-based techniques for better strategies for antibody production. Overall, this review describes the multidisciplinary aspects of the production of therapeutic proteins that has gained more attention due to its increasing demand.
The growing epidemic of noncommunicable diseases (NCDs) has impacted the national health systems, policies, and socioeconomic developments, thereby leading to increasing country level disparities. Despite substantial improvements in health indicators made in the past decade, the Indian health-care system continues to contribute disproportionately to the global disease burden, wherein NCDs holds significant prominence. Against this background, the present review analyzes the current NCD landscape from the perspective of India's health system preparedness toward meeting this growing challenge. Implementation and delivery of strategies and interventions are often impeded by existing grass root level challenges. Recognizing the importance of effective primary care, the review highlights the importance of implementing affordable, accessible, and comprehensive interventions, and delivering them at societal, a community and individual level. This simultaneously calls for strengthening of the primary care system through appropriate strategy and policy frameworks. Toward addressing India-specific needs in NCD prevention and management, concerted efforts on development of robust surveillance mechanisms, intersectoral and interdepartmental collaborations, integration of national programs, enhanced role of education and awareness should be made, to ensure effectivity, scale-up, and outreach of services in primary care.
Proteins are one of the most important and resourceful biomolecules that find applications
in health, industry, medicine, research, and biotechnology. Given its tremendous relevance, protein
engineering has emerged as significant biotechnological intervention in this area. Strategic utilization
of protein engineering methods and approaches has enabled better enzymatic properties, better stability,
increased catalytic activity and most importantly, interesting and wide range applicability of proteins.
In fact, the commercialization of engineered proteins have manifested in economically beneficial
and viable solutions for industry and healthcare sector. Protein engineering has also evolved to become
a powerful tool contributing significantly to the developments in both synthetic biology and metabolic
engineering. The present review revisits the current trends in protein engineering approaches such as
rational design, directed evolution, de novo design, computational approaches etc. and encompasses
the recent progresses made in this field over the last few years. The review also throws light on advanced
or futuristic protein engineering aspects, which are being explored for design and development
of novel proteins with improved properties or advanced applications.
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