CO₂-Driven pH Control in the Enzymatic Hydrolysis of Urea: A Coupled Modeling–Experiment Approach

Abstract
This dataset contains data from the investigation of CO₂ as a pH regulator in enzyme-catalyzed urea hydrolysis. It includes the analytical results of the experiments, the source code for simulations used in experimental design, and a descriptive README file explaining the contents of the dataset.
Subjects
pH-control
kinetic modeling
Bayesian-optimization
biocatalysis
DDC Class
572: Biochemistry
Funding(s)
CRC 1615 - Project A04: Self-regulating enhanced surfaces for autonomously operated bioprocesses  
SFB 1615 - Teilprojekt B06: Systematische Multiskalenmodellierung und Designkonzept für SMARTe Reaktoren  
Funding Organisations
Deutsche Forschungsgemeinschaft (DFG)  
More Funding Information
This project is funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) – SFB 1615 – 503850735.
License
https://creativecommons.org/publicdomain/mark/1.0/
No Thumbnail Available
Name

NLR_for_parameterization.py

Size

7.33 KB

Format

Python

No Thumbnail Available
Name

parity_plot_ph.py

Size

2.58 KB

Format

Python

No Thumbnail Available
Name

parity_plot_u.py

Size

2.7 KB

Format

Python

No Thumbnail Available
Name

pH_response_curve.py

Size

3.16 KB

Format

Python

No Thumbnail Available
Name

README_Supplementary_Data.txt

Size

11.45 KB

Format

Text

No Thumbnail Available
Name

Simulation.py

Size

6.39 KB

Format

Python

No Thumbnail Available
Name

Table_S1.csv

Size

162 B

Format

CSV

No Thumbnail Available
Name

Table_S2.csv

Size

214 B

Format

CSV

No Thumbnail Available
Name

Table_S3.csv

Size

109 B

Format

CSV

No Thumbnail Available
Name

Table_S4.csv

Size

107 B

Format

CSV