@article{Yusuf_Budiman_Arief_Sumantri_2021, title={Synthetic Gene-Based Heterologous Expression, Proteolytic, and Structural Characterization of Caseinolytic Protease of Lactobacillus plantarum IIA-1A5}, volume={44}, url={https://journal.ipb.ac.id/index.php/tasj/article/view/34024}, DOI={10.5398/tasj.2021.44.4.520}, abstractNote={<p>Genome sequence of Indonesian probiotic of <em>Lactobacillus plantarum</em> II1A5 contains a gene encoding a proteolytic subunit of caseinolytic protease, designated as ClpP_LP. This study aims to express the Clp gene heterological and apply its proteolytic activity to some livestock products. To address this, the gene encoding ClpP_LP was optimized <em>in silico</em> by improving its Codon Adaptation Index and GC content to 0.94 and 53.62%, respectively. The optimized gene was then inserted into pET28a, transformed into <em>Escherichia coli</em> BL21(DE3), and over-expressed by induction of 1 mM Isopropyl β-D-1-thiogalactopyranoside at 37°C. The result showed that ClpP_LP was successfully over-expressed in a fully soluble form with the specific activity towards milk casein was 7739.89 AU mg-1. This activity was significantly greater than that of chymotrypsin. Further, the three-dimensional model of ClpP_LP was built using SWISS MODEL, which showed that this protein formed a homo-tetradecameric (14-mer) structure with each monomer consisting of 7 α-helix and 10 β-sheets. The identification of the active side showed that the active side of ClpP_LP is Ser-97, His-122, Asp-171, and forms a substrate-binding cavity with a size of about 29.5 Ǻ. Overall, our approach can serve as an appropriate platform for the production of ClpP_LP in a large-scale production for various applications in dairy products and derivatives.</p&gt;}, number={4}, journal={Tropical Animal Science Journal}, author={YusufM. and BudimanC. and AriefI. I. and SumantriC.}, year={2021}, month={Nov.}, pages={520-530} }