Bluesky Facebook Reddit Email

Microrespirometric validation of a two-stage process for polyhydroxyalkanoates production from peanut oil and propionate with cupriavidus necator

05.29.24 | Bentham Science Publishers

SAMSUNG T9 Portable SSD 2TB

SAMSUNG T9 Portable SSD 2TB transfers large imagery and model outputs quickly between field laptops, lab workstations, and secure archives.

Poly(3-hydroxyalkanoates) (PHA) are biodegradable polyesters produced by various bacteria, including Cupriavidus necator. The composition of PHA depends on the type of microorganism, cultivation conditions, and carbon substrate used. Selecting the right carbon source is crucial for PHA production as it greatly affects the process costs. Therefore, scalability is a common goal, and the design and optimization of PHA production rely on experimentally determining key parameters.

In this study, we used a two-stage process for PHA production in shaking flasks acting as mini reactors with Cupriavidus necator. In the first stage, fructose was the sole carbon source. After the fructose was depleted, a second stage began with either peanut oil or propionate as the new carbon source to enhance PHA production. We used an ex-situ pulse respirometry approach during the two-stage process to monitor substrate consumption kinetics.

The findings showed that using peanut oil was more beneficial than propionate, leading to a 12.2% increase in biomass and a 13.9% increase in PHA production.

Moreover, the growth rate was 88.9% higher with peanut oil. The pulse respirometry technique applied in microreactors, known as microrespirometry, enabled up to 216 biological experiments to determine four important kinetic and stoichiometric parameters: maximum oxygen uptake (rO2max), substrate affinity constant (KS), growth yield (YX/S), and substrate oxidation yield (YO2/S). These parameters indicated that peanut oil is the best carbon source for promoting PHA production in the second stage. Using microrespirometry for screening carbon sources for PHA production provided reliable information quickly and with significantly less experimental effort.

Read this article here; https://bit.ly/3WYwdMh

For publishing scholarly article in Bentham journals, please visit: https://bentham.manuscriptpoint.com/?utm_source=eurekanews&utm_medium=website&utm_campaign=callforpapers

The Open Chemical Engineering Journal

10.2174/0118741231301420240306092952

Microrespirometric Validation of a Two-stage Process for Polyhydroxyalkanoates Production from Peanut Oil and Propionate with Cupriavidus necator

2-Apr-2024

Keywords

Bacterial Composition Biodegradability Biomass Production Bioremediation Fructose Kinetics Microorganisms Oxidation Peanuts Polyesters Scientific Approaches

Article Information

Journal
The Open Chemical Engineering Journal
DOI
10.2174/0118741231301420240306092952
Article Publication Date
2024-04-02
Article Title
Microrespirometric Validation of a Two-stage Process for Polyhydroxyalkanoates Production from Peanut Oil and Propionate with Cupriavidus necator

Contact Information

Noman Akbar
Bentham Science Publishers
nomanakbar@benthamscience.net

How to Cite This Article

APA:
Bentham Science Publishers. (2024, May 29). Microrespirometric validation of a two-stage process for polyhydroxyalkanoates production from peanut oil and propionate with cupriavidus necator. Brightsurf News. https://www.brightsurf.com/news/LVD3GRYL/microrespirometric-validation-of-a-two-stage-process-for-polyhydroxyalkanoates-production-from-peanut-oil-and-propionate-with-cupriavidus-necator.html
MLA:
"Microrespirometric validation of a two-stage process for polyhydroxyalkanoates production from peanut oil and propionate with cupriavidus necator." Brightsurf News, May. 29 2024, https://www.brightsurf.com/news/LVD3GRYL/microrespirometric-validation-of-a-two-stage-process-for-polyhydroxyalkanoates-production-from-peanut-oil-and-propionate-with-cupriavidus-necator.html.