Helen L. Packer scite author profile

Characterization of mycelial morphology is important for physiological and engineering studies of filamentous fermentations, and in the design and operation of such fermentations. Image analysis has been developed as a method for this characterization, and has been shown to be faster and generally more accurate than previous methods. A fully automatic system has been developed, in which speed is gained, but with loss of accuracy in some cases. The method has been tested on Streptomyces clavuligerus and Penicillium chrysogenum P1 batch fermentations. It has also been tested on a fed-batch Penicillium chrysogenum P2 fermentation, in which the medium contained solid ingredients. Fully automatic image analysis for morphological characterization of filamentous microorganisms is an important development which will make practical many engineering and physiological studies of such fermentations that have so far not been completely satisfactory.

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Identification of a chemotaxis operon with two cheY genes in Rhodobacter sphaeroides

Ward

Bell

Hamblin

et al. 1995

Molecular Microbiology

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A large chemotaxis operon was identified in Rhodobacter sphaeroides WS8-N using a probe based on the 3' terminal portion of the Rhizobium meliloti cheA gene. Two genes homologous to the enteric cheY were identified in an operon also containing cheA, cheW, and cheR homologues. The deduced protein sequences of che gene products were aligned with those from Escherichia coli and shown to be highly conserved. A mutant with an interrupted copy of cheA showed normal patterns of swimming, unlike the equivalent mutants in E. coli which are smooth swimming. Tethered cheA mutant cells showed normal responses to changes in organic acids, but increased, inverted responses to sugars. The unusual behaviour of the cheA mutant and the identification of two homologues of cheY suggests that R. sphaeroides has at least two pathways controlling motor activity. To identify functional similarity between the newly identified R. sphaeroides Che pathway and the methyl-accepting chemotaxis protein (MCP)-dependent pathway in enteric bacteria, the R. sphaeroides cheW gene was expressed in a cheW mutant strain of E. coli and found to complement, causing a partial return to a swarming phenotype. In addition, expression of the R. sphaeroides gene in wild-type E. coli resulted in the same increased tumbling and reduced swarming as seen when the native gene is overexpressed in E. coli. The identification of che homologues in R. sphaeroides and complementation by cheW suggests the presence of MCPs in an organism previously considered to use only MCP-independent sensing. The MCP-dependent pathway, appears conserved.(ABSTRACT TRUNCATED AT 250 WORDS)

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The chemokinetic and chemotactic behavior of Rhodobacter sphaeroides: two independent responses

Packer

Armitage

1994

J Bacteriol

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Rhodobacter sphaeroides exhibits two behavioral responses when exposed to some compounds: (i) a chemotactic response that results in accumulation and (ii) a sustained increase in swvimming speed. This latter chemokinetic response occurs without any apparent long-term change in the size of the electrochemical proton gradient. The results presented here show that the chemokinetic response is separate from the chemotactic response, although some compounds can induce both responses. Compounds that caused only chemokinesis induced a sustained increase in the rate of flagellar rotation, but chemoefectors which were also chemotactic caused an additional short-term change in both the stopping frequency and the duration of stops and runs. The response to a change in chemoattractant concentration was a transient increase in the stopping frequenc when the concentration was reduced, with adaptation taking between 10 and 60 s. There was also a decrease in the stopping frequency when the concentration was increased, but adaptation took up to 60 mi. The nature and duration of both the chemotactic and chemokinetic responses were concentration dependent. Weak organic acids elicited the strongest chemokinetic responses, and although many also caused chemotaxis, there were conditions under which chemokinesis occurred in the absence of chemotaxis. The transportable succinate analog malonate caused chemokinesis but not chemotaxis, as did acetate when added to a mutant able to transport but not grow on acetate. Chemokinesis also occurred after incubation with arsenate, conditions under which chemotaxis was lost, indicating that phosphorylation at some level may have a role in chemotaxis.Aspartate was the only chemoattractant amino acid to cause chemokinesis. Glutamate caused chemotaxis but not chemokinesis. These data suggest that (i) chemotaxis and chemokinesis are separate responses, (ii) metabolism is required for chemotaxis but not chemokinesis, (iii) a reduction in chemoattractant concentration may cause the major chemotactic signal, and (iv) a specific transport pathway(s) may be involved in chemokinetic signalling in R. sphaeroides.Rhodobacter sphaeroides has a single subpolar flagellum which it rotates unidirectionally. The rotation of the flagellum stops periodically for intervals of between a few seconds and many minutes. Brownian motion reorientates the cell during stopped periods, enabling changes in swimming direction (2). Although R sphaeroides lacks methyl-accepting chemotaxis proteins (MCPs) and the phosphotransferase system-dependent chemotaxis systems found in enteric bacteria (3,20,28), it is able to respond chemotactically to a wide range of attractants (21). All compounds shown to be chemoattractants for R sphaeroides are metabolites, and at least limited metabolism seems to be required for the chemotactic response (21,25). Chemotaxis in enteric bacteria and many other species, on the other hand, relies on the extracytoplasmic detection of chemoeffectors by specific MCPs which signal changes in occupancy to the f...

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Estimation of cell volume and biomass of penicillium chrysogenum using image analysis

Packer

Keshavarz-Moore

Lilly

et al. 1992

Biotech & Bioengineering

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A methodology for the estimation of biomass for the penicillin fermentation using image analysis is presented. Two regions of hyphae are defined to describe the growth of mycelia during fermentation: (1) the cytoplasmic region, and (2) the degenerated region including large vacuoles. The volume occupied by each of these regions in a fixed volume of sample is estimated from area measurements using image analysis. Areas are converted to volumes by treating the hyphae as solid cylinders with the hyphal diameter as the cylinder diameter. The volumes of the cytoplasmic and degenerated regions are converted into dry weight estimations using hyphal density values available from the literature. The image analysis technique is able to estimate biomass even in the presence of nondissolved solids of a concentration of up to 30 gL(-1). It is shown to estimate successfully concentrations of mycelia from 0.03 to 38 gL(-1). Although the technique has been developed for the penicillin fermentation, it should be applicable to other (nonpellected) fungal fermentations.

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Helen L. Packer

Morphological measurements on filamentous microorganisms by fully automatic image analysis

Identification of a chemotaxis operon with two cheY genes in Rhodobacter sphaeroides

The chemokinetic and chemotactic behavior of Rhodobacter sphaeroides: two independent responses

Estimation of cell volume and biomass of penicillium chrysogenum using image analysis

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