Design and evalution of control strategies for high cell density fermentations

O'Connor, Gregory M.; Sanchez‐Riera, Fernando; Cooney, Charles L.

doi:10.1002/bit.260390307

Cited by 92 publications

(19 citation statements)

References 23 publications

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“…(i) Growth of cells. Medium (10 liters) for fed-batch fermentation of S. cerevisiae was the one used by O'Connor et al (34). The fermentor was inoculated with a 1-liter culture of late-log-phase yeast cells grown in synthetic medium (SD ϩ Ura, Trp, and His).…”

Section: Methodsmentioning

confidence: 99%

The A1 · U72 Base Pair Conserved in Eukaryotic Initiator tRNAs Is Important Specifically for Binding to the Eukaryotic Translation Initiation Factor eIF2

Farruggio

Chaudhuri

Maitra

et al. 1996

Molecular and Cellular Biology

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The formation of a specific ternary complex between eukaryotic initiation factor 2 (eIF2), the initiator methionyl-tRNA (Met-tRNA), and GTP is a critical step in translation initiation in the cytoplasmic proteinsynthesizing system of eukaryotes. We show that the A1 ⅐ U72 base pair conserved at the end of the acceptor stem in eukaryotic and archaebacterial initiator methionine tRNAs plays an important role in this interaction. We changed the A1 ⅐ U72 base pair of the human initiator tRNA to G1 ⅐ C72 and expressed the wild-type and mutant tRNA genes in the yeast Saccharomyces cerevisiae by using constructs previously developed in our laboratory for expression of the human initiator tRNA gene in yeasts. We show that both the wild-type and mutant human initiator tRNAs are aminoacylated well in vivo. We have isolated the wild-type and mutant human initiator tRNAs in substantially pure form, free of the yeast initiator tRNA, and have analyzed their properties in vitro. The G1 ⅐ C72 mutation affects specifically the binding affinity of eIF2 for the initiator tRNA. It has no effect on the subsequent formation of 40S or 80S ribosome initiator Met-tRNA-AUG initiation complexes in vitro or on the puromycin reactivity of the Met-tRNA in the 80S initiation complex.A special methionine tRNA is used to initiate protein synthesis in all organisms studied. Of the two classes of methionyltRNA (Met-tRNA), the initiator is used for the initiation of protein synthesis whereas the elongator is used for insertion of methionine into internal peptide bonds (27,36). Eubacteria, mitochondria, and chloroplasts initiate protein synthesis by using formyl-Met-tRNA, whereas the cytoplasmic system of eukaryotes uses 45).Because of their unique function, initiator tRNAs possess several properties which are distinct from those of elongator tRNAs. For eukaryotic initiator tRNAs, these include (i) the highly specific formation of a ternary complex between the initiator Met-tRNA, eukaryotic initiation factor 2 (eIF2), and GTP; (ii) the binding of the initiator Met-tRNA to the P site on the 80S ribosome; and (iii) exclusion of the initiator MettRNA from the ribosomal A site. In contrast, the elongator tRNAs form a ternary complex with the elongation factor EF-1 and GTP and then bind to the ribosomal A site.The initiator tRNA also plays an important role in the formation of the 40S and 80S ribosomal initiation complexes (21,33,46). Once the eIF2 ⅐ GTP ⅐ Met-tRNA ternary complex is formed, it binds to the 40S ribosomal subunit. This new complex, consisting of the 40S ribosome, eIF2, GTP, and MettRNA, then binds to the capped 5Ј end of mRNA in a reaction requiring several initiation factors. The 40S ribosome containing the bound eIF2 ⅐ GTP ⅐ Met-tRNA ternary complex then scans the mRNA until it reaches the AUG codon (28). Donahue and coworkers (8, 12) have shown that in Saccharomyces cerevisiae, the initiator Met-tRNA is directly involved in helping the scanning ribosome select the appropriate initiation codon on the mRNA through codon-anticodon base pa...

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Section: Methodsmentioning

confidence: 99%

The A1 · U72 Base Pair Conserved in Eukaryotic Initiator tRNAs Is Important Specifically for Binding to the Eukaryotic Translation Initiation Factor eIF2

Farruggio

Chaudhuri

Maitra

et al. 1996

Molecular and Cellular Biology

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“…To increase product yields and to ensure consistent product quality key issues of industrial fermentations process optimisation and scale-up are aimed at maintaining optimum and homogenous reaction conditions, minimising microbial stress exposure, and enhancing metabolic accuracy 44,76 . Cells close to the injection port are exposed to high concentrations of nutrients, whereas at other locations, cells are starved of substrate 4,70 .…”

Section: Scale-up Of Fermentation Processmentioning

confidence: 99%

High Yield Production of Heterologous Proteins with Escherichia coli

Tripathi

2009

DSJ

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“…In single optimal control strategy, the feed rate is adjusted by means of an optimal pro®le determined either of¯ine (programmed control approach) or online (feedforward control approach). The determination of this optimal feed rate pro®le can be carried out by using the simpli®ed material balance equations and optimization procedures [1,2,3,4]. In single feedback control strategy, the regulation of the feed rate relies merely on the feedback control scheme.…”

Section: List Of Symbolsmentioning

confidence: 99%

Comparative evaluation of various control schemes for fed-batch fermentation

Available¹,

Hussain

Ramachandran

2002

Bioprocess and Biosystems Engineering

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The crucial problem associated with control of fed-batch fermentation process is its time-varying characteristics. A successful controller should be able to deal with this feature in addition to the inherent nonlinear characteristics of the process. In this work, various schemes for controlling the glucose feed rate of fed-batch baker's yeast fermentation were evaluated. The controllers evaluated are ®xed-gain proportional-integral (PI), scheduled-gain PI, adaptive neural network and hybrid neural network PI. The difference between the speci®c carbon dioxide evolution rate and oxygen uptake rate (Q c ± Q o ) was used as the controller variable. The evaluation was carried out by observing the performance of the controllers in dealing with setpoint tracking and disturbance rejection. The results con®rm the unsatisfactory performance of the conventional controller where signi®-cant oscillation and offsets exist. Among the controllers considered, the hybrid neural network PI controller shows good performance.

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Design and evalution of control strategies for high cell density fermentations

Cited by 92 publications

References 23 publications

The A1 · U72 Base Pair Conserved in Eukaryotic Initiator tRNAs Is Important Specifically for Binding to the Eukaryotic Translation Initiation Factor eIF2

The A1 · U72 Base Pair Conserved in Eukaryotic Initiator tRNAs Is Important Specifically for Binding to the Eukaryotic Translation Initiation Factor eIF2

High Yield Production of Heterologous Proteins with Escherichia coli

Comparative evaluation of various control schemes for fed-batch fermentation

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