Exploratory Study on Microbiome Friendly Skin Products for Ultimate Skin Wellness
Keywords
Skin Microbiome, Microbiome-Supportive Skincare, CRISPR-Cas9, Probiotics, Skin Well-being, Synthetic Biology
Type of Proposal
Visual Presentation (Poster, Installation, Demonstration)
Faculty
Faculty of Science
Faculty Sponsor
Dr. Tranum Kaur
Proposal
This exploratory study conducts the literature review of different studies for game-changing potential of skincare products that support the skin microbiome. Right after birth the skin, the biggest organ in our body, is colonized by a variety of microorganisms like gram-positive bacteria. Along with producing substances necessary for skin health, the microbiome also serves as a barrier of defense and immune system regulator. Therefore, there is a pressing need for novel therapies since imbalances in this microbial community are strongly associated with a range of skin diseases. Exploring the intersection of probiotics, genetic engineering, and synthetic biology, the paper aims to advance microbiome-compatible skincare. Our study analyzed several publications from scientific databases (e.g., PubMed) and based on existing research highlights application of CRISPR-Cas9 in genetically modified bacteria to achieve accurate modifications for targeted functionality. Moreover, this project is aligned with the UN's Sustainable Development Goals (UN Goals 3 and 9) by upgrading skincare treatment and preserving skin health. Overall, this project significantly developed our team's analytical, critical thinking, and research capabilities, augmenting our communication, time management, teamwork and enhancing our academic and professional ability.
Exploratory Study on Microbiome Friendly Skin Products for Ultimate Skin Wellness
This exploratory study conducts the literature review of different studies for game-changing potential of skincare products that support the skin microbiome. Right after birth the skin, the biggest organ in our body, is colonized by a variety of microorganisms like gram-positive bacteria. Along with producing substances necessary for skin health, the microbiome also serves as a barrier of defense and immune system regulator. Therefore, there is a pressing need for novel therapies since imbalances in this microbial community are strongly associated with a range of skin diseases. Exploring the intersection of probiotics, genetic engineering, and synthetic biology, the paper aims to advance microbiome-compatible skincare. Our study analyzed several publications from scientific databases (e.g., PubMed) and based on existing research highlights application of CRISPR-Cas9 in genetically modified bacteria to achieve accurate modifications for targeted functionality. Moreover, this project is aligned with the UN's Sustainable Development Goals (UN Goals 3 and 9) by upgrading skincare treatment and preserving skin health. Overall, this project significantly developed our team's analytical, critical thinking, and research capabilities, augmenting our communication, time management, teamwork and enhancing our academic and professional ability.