Now showing 1 - 2 of 2
  • Publication
    A Strategy to Combat Bacterial Biofilms Mediated by Plant-Derived Carbon Dots: A Green Shield for Clean Water
    (2024)
    Sarmistha Mazumder
    ;
    Harshita Agarwal
    ;
    ;
    Biofilms in water distribution systems are complex and tenacious populations of microbes surrounded by a protective matrix that may lead to significant water-borne diseases due to contamination and compromised quality of water. To tackle this issue, several small-molecule-based antimicrobials and engineered nanomaterials were developed that show much promise in combating biofilms. Herein, organic carbon dots (LC-CDs) were successfully synthesized from Lantana camara leaf extract, which is an invasive plant, using a one-pot hydrothermal method, requiring no chemical modifications. These LC-CDs were found to be less toxic and exhibited antibacterial and antibiofilm properties, indicating their potential use to combat biofilms. While natural carbon dots have been extensively studied for bioimaging, their antibiofilm activity has not been widely explored. Our study explores the antibacterial activity of naturally derived carbon dots through the generation of reactive oxygen species, thereby expanding the industrial prospects of this system as an antibacterial and antibiofilm agent. The LC-CDs may serve as antibacterial and antibiofilm agents to facilitate clean water production.
  • Publication
    The molecular interplay between human and bacterial amyloids: Implications in neurodegenerative diseases
    (2024-07-01)
    Neurodegenerative disorders such as Parkinson's (PD) and Alzheimer's diseases (AD) are linked with the assembly and accumulation of proteins into structured scaffold called amyloids. These diseases pose significant challenges due to their complex and multifaceted nature. While the primary focus has been on endogenous amyloids, recent evidence suggests that bacterial amyloids may contribute to the development and exacerbation of such disorders. The gut-brain axis is emerging as a communication pathway between bacterial and human amyloids. This review delves into the novel role and potential mechanism of bacterial amyloids in modulating human amyloid formation and the progression of AD and PD.