Enhancement of Monascus Pigment Production by the Culture of Monascus Sp. J101 at Low Temperature

Overview

Journal Biotechnol Prog

Specialties Biomedical Engineering
Biotechnology

Date 2006 Feb 4

PMID 16454530

Citations 10

Authors

Jungoh Ahn

Joonki Jung

Woochan Hyung

Seungjoo Haam

Chulsoo Shin

Affiliations

Soon will be listed here.

Abstract

In general, high broth viscosity is a key factor to be considered in a submerged fermentation of filamentous fungi. High broth viscosity was also observed in a batch fermentation of Monascus sp. J101 at 30 degrees C. In a batch culture at 30 degrees C, most cell growth was accomplished within 48 h, which induced highly entangled clumps. The resultant high viscosity induced heterogeneity inside the fermentor, poor oxygen transfer, and low pigment yield. However, these problems could be overcome by reducing fungal growth rate through culture at low temperature (25 degrees C). Cell growth was moderate and continued for 120 h, and low viscosity was maintained. The DO levels remained at 50% or higher with good mixing. As a result, the pigment yield at 25 degrees C was 10 times greater than at 30 degrees C.

Citing Articles

Metabolomics Analysis Coupled with Weighted Gene Co-Expression Network Analysis Unravels the Associations of Tricarboxylic Acid Cycle-Intermediates with Edible Pigments Produced by (Hong Qu).

Zhang H, Liu H, Shu L, Xu H, Cheng Y, Mao Z Foods. 2022; 11(14).

PMID: 35885410 PMC: 9320606. DOI: 10.3390/foods11142168.

Surviving in the Brine: A Multi-Omics Approach for Understanding the Physiology of the Halophile Fungus at Saturated NaCl Concentration.

Jimenez-Gomez I, Valdes-Munoz G, Moreno-Ulloa A, Perez-Llano Y, Moreno-Perlin T, Silva-Jimenez H Front Microbiol. 2022; 13:840408.

PMID: 35586858 PMC: 9108488. DOI: 10.3389/fmicb.2022.840408.

Relation of shear stress and Ka on bikaverin production by Fusarium oxysporum CCT7620 in a bioreactor.

Dos Santos M, Cerri M, Bicas J Bioprocess Biosyst Eng. 2022; 45(4):733-740.

PMID: 35066678 DOI: 10.1007/s00449-022-02693-0.

Integrative Metabolomic and Transcriptomic Analyses Uncover Metabolic Alterations and Pigment Diversity in in Response to Different Nitrogen Sources.

Huang D, Wang Y, Zhang J, Xu H, Bai J, Zhang H mSystems. 2021; 6(5):e0080721.

PMID: 34491088 PMC: 8547423. DOI: 10.1128/mSystems.00807-21.

Salinity and Temperature Influence Growth and Pigment Production in the Marine-Derived Fungal Strain 30548.

Venkatachalam M, Gerard L, Milhau C, Vinale F, Dufosse L, Fouillaud M Microorganisms. 2019; 7(1).

PMID: 30626101 PMC: 6352072. DOI: 10.3390/microorganisms7010010.