The great success of Nishita, tackling the lowest so far success rates of 13 %. Her proposal is one of only five awarded grants in the NZ2 panel of PRELUDIUM22 competition by National Science Center Poland: results link
Aaftaab was awarded Researcher Collaborations Grant by Royal Society of Chemistry to explore ligand transport role in drug design in collaboration with the University of Galway.
Many congratulations & stay tuned for exciting results to come!!
After being roasted by the thesis reviewers, Barek fulfilled all requirements to the award of the Ph.D. degree with high distinction.
Congratulations!!!! 🙂
Today, Carlos fulfilled all requirements to the award of the Ph.D. degree….
Congratulations Dr. Carlos!!!! 🙂
Carlos Eduardo Sequeiros Borja and Bartłomiej Surpeta will go last leg of their doctoral journey in our laboratory this October.
Best of luck!
https://biologia.amu.edu.pl/wydarzenia/obrony-rozpraw-doktorskich/publiczna-obrona-rozprawy-doktorskiej-mgr.-carlosa-eduardo-sequeirosa-borja
https://biologia.amu.edu.pl/wydarzenia/obrony-rozpraw-doktorskich/publiczna-obrona-rozprawy-doktorskiej-mgr.-bartlomieja-surpety
Bharadwaj P,* Sarkar DK,* Bisht M, Shet SM, Nataraj SK, Lokesh V, Franklin G,# Brezovsky J,# Mondal D,# 2023: Nano-structured hydrotrope-caged cytochrome c with boosted stability in harsh environments: a molecular insight. Green Chemistry 25: 6666-6676. full text dataset
Green and nano-structured catalytic media are vital for biocatalysis to attenuate the denaturation tendency of biocatalysts under severe reaction conditions. Hydrotropes with multi-faceted physiochemical properties represent promising systems for sustainable protein packaging. Herein, the ability of adenosine-5′-triphosphate (ATP) and cholinium salicylate ([Cho][Sal]) ionic liquid (IL) to form nano-structures and to nano-confine Cytochrome c (Cyt c) enhanced the stability and activity under multiple stresses. Experimental and computational analyses were undertaken to explain the nano-structured phenomenon of ATP and IL, structural organizations of nano-confined Cyt c, and site-specific interactions that stabilize the protein structure. Both ATP and IL form nano-structures in aqueous media and could cage Cyt c via multiple nonspecific soft interactions. Remarkably, the engineered molecular nano-cages of ATP (5–10 mM), IL (300 mg mL−1), and ATP + IL surrounding Cyt c resulted in 9-to-72-fold higher peroxidase activity than native Cyt c with exceptionally high thermal tolerance (110 °C). The polar interactions with the cardiolipin binding site of Cyt c, mediated by hydrotropes, were well correlated with the increased peroxidase activity. Furthermore, higher activity trends were observed in the presence of urea, GuHCl, and trypsin without any protein degradation. Specific binding of hydrotropes in highly mobile regions of Cyt c (Ω 40–54 residues) and enhanced H-bonding with Lys and Arg offered excellent stability under extreme conditions. Additionally, ATP effectively counteracted reactive oxygen species (ROS)-induced denaturation of Cyt c, which was enhanced by the [Sal] counterpart of IL. Overall, this study explored the robustness of nano-structured hydrotropes to have a higher potential for protein packaging with improved stability and activity under extreme conditions. Thus, the present work highlights a novel strategy for real-time industrial biocatalysis to protect mitochondrial cells from ROS-instigated apoptosis.
