Four Ab Initio Whole Cell Kinetic Models of Bacillus cereus ATCC 14579 (bceDT26), E33L (bczDT26), F837 76 (bcfKN26) and G9842 (bcgLPT26) - mauriceling/mauriceling.github.io GitHub Wiki

Citation: Toh, D, Tan, LP, Thirunavukarasu, D, Natarajan, K, Ambel, W, Ling, MHT. 2026. Four Ab Initio Whole Cell Kinetic Models of Bacillus cereus ATCC 14579 (bceDT26), E33L (bczDT26), F837/76 (bcfKN26) and G9842 (bcgLPT26)

Link to [PDF].

Here is the permanent [PDF] and the dataset links; [bceDT26.zip], [bczDT26.zip], [bcfKN26.zip], [bcgLPT26.zip]; to my archive.

Bacillus cereus is a bacterium with tolerance to diverse environmental stresses and demonstrated ability to enhance plant resilience to abiotic stressors, making it a promising candidate for soil conditioning, aquaculture probiotics, and metabolic engineering applications. Whole cell kinetic models are useful for in silico screening and evaluation of engineering approaches prior to experimental manipulations. However, there is no whole cell KM of B. cereus to date. Here, we present four simulatable whole cell KMs based on four strains of B. cereus; namely, (i) model bceDT26 for ATCC 14579 strain, (ii) model bczDT26 for E33L strain, (iii) model bcfKN26 for F837/76 strain, and (iv) model bcgLPT26 for G9842 strain. These models can be a baseline models for incorporating other cellular and growth processes, or as a system to examine cellular resource allocations necessary for engineering.