Your search keyword '"B C, Stark"' showing total 2 results

1. Metabolic engineering of Serratia marcescens with the bacterial hemoglobin gene: alterations in fermentation pathways

Author

M L, Wei, D A, Webster, and B C, Stark

Subjects

Hemoglobins, Glucose, Time Factors, Protein Hydrolysates, Acetoin, Fermentation, Cell Culture Techniques, Caseins, Hydrogen-Ion Concentration, Butylene Glycols, Cell Division, Serratia marcescens, Culture Media

Abstract

Serratia marcescens was transformed with plasmid vector pUC8 or pUC8 containing the bacterial (Vitreoscilla) hemoglobin gene (vgb) on either a 2.3-kb fragment (pUC8:15) or 1.4-kb fragment (pUC8:16) of Vitreoscilla DNA. The vgb-bearing strains were compared with the pUC8 transformant and untransformed S. marcescens with respect to growth in Luria-Bertani (LB) broth supplemented with glucose or casein acid hydrolysate. Growth (on a viable cell basis) was similar to that in unsupplemented LB. Total acid excretion (as estimated by medium pH) was similar for all strains in both LB plus 2% casein acid hydrolysate and LB without additions. Acid excretion in LB plus 2% glucose was somewhat greater at up to 10 h in culture for the two vgb-bearing strains; from 10 to 26 h in culture, the pHs of these cultures continued to decrease (to 4.1-4.2), whereas those of the non-vgb-bearing strains returned to near the starting pH (7.4-7.8). Concomitantly, after 26 h of culture in LB plus 2% glucose, the non-vgb-bearing strains had produced about 15 times as much acetoin and about three to four times as much 2,3-butanediol as the vgb-bearing strains. In general, for all strains, much more acetoin and 2,3-butanediol were produced in LB plus 2% glucose than in unsupplemented LB. The exception was acetoin production by the strain bearing vgb on plasmid pUC8:15; after 26 h of culture in LB without supplementation it was between three and four times that of the other strains, and about 50% higher than its level in LB plus 2% glucose. When grown with the 2% casein acid hydrolysate supplement, the strain bearing vgb on plasmid pUC8:15 produced much more acetoin and 2,3-butanediol than the other strains after 26 hours in culture. The results confirm that vgb can significantly alter carbon metabolism and suggest that the use of vgb technology for directed metabolic engineering may be a complicated process, depending in part on medium composition.

Published

1999

2. Synthesis and excretion of alpha-amylase in vgb+ and vgb- recombinant Escherichia coli: a comparative study

Author

C, Tari, S J, Parulekar, B C, Stark, and D A, Webster

Subjects

Hemoglobins, Bioreactors, Time Factors, Cell Culture Techniques, Escherichia coli, alpha-Amylases, Culture Media

Abstract

Synthesis and excretion of alpha-amylase is investigated in batch cultures of Escherichia coli JM103[pMK57] (vgb-) and E. coli JM103[pMK79] (vgb+). While total production and excretion of alpha-amylase were promoted in Luria broth (LB) (excretion being as high as 87%), cell-mass-specific production of the enzyme was promoted in M9 in bioreactor cultures and in LB in shake flask cultures. Low aeration and agitation rates and presence of starch were conducive to alpha-amylase synthesis in E. coli JM103[pMK79]. Two-stage bioreactor operating strategies that will improve alpha-amylase production are proposed. The potential of these strategies is demonstrated via two-stage shake flask cultures.

Published

1999