Ramsés Sanz scite author profile

Sedimentation field flow fractionation separation associated with flow cytometry has been used for the characterization of several commercial Saccharomyces cerevisiae yeasts used for wine production. A new type of channel 80 microm thick and new operating conditions, such as sample introduction when field and flow are established and a channel inlet connected to the accumulation wall, were used. Good repeatability (5% RSD) and reduced analysis time (2-10 min) were obtained. The avoidance of the stop-flow relaxation process in conjunction with the use of a channel of reduced thickness has demonstrated that an effective "steric-hyperlayer" mode driving to a major focusing effect of the species in the channel thickness is involved in the elution of the yeast cells. Flow cytometry analyses were performed, and the forward scattering and side scattering yeast characteristics correlation maps were obtained. Field flow fractionation and flow cytometry information obtained indicated that the fractogram profiles of the yeast cell depended not only on the size, but also on the shape and density.

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Improved performance of gravitational field-flow fractionation for screening wine-making yeast varieties

Sanz

Torsello

Reschiglian

et al. 2002

Journal of Chromatography A

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Determination of Viable Yeast Cells by Gravitational Field‐Flow Fractionation with Fluorescence Detection

Sanz

Galcerán

Puignou

2004

Biotechnology Progress

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Vinification processing is largely related to yeast performance and depends on the initial cell viability. To optimize the quality of wine fermentation, control of the yeast quality is mandatory. The present paper describes a new method using gravitational field flow fractionation (GrFFF) with fluorescence detection for the determination of yeast cell viability before the fermentation process. A GrFFF calibration procedure was developed using commercial yeast to prepare standards of viable cells and propidium iodide (PI) as fluorescent probe for nonviable cells. The suitability of the new method was tested with several commercial yeast strains with a g/L content ranging from 1 to 3. The validation of the method was performed by comparing GrFFF viability values with those obtained using Coulter counter and flow cytometry techniques.

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Ramsés Sanz

Gravitational field-flow fractionation for the characterisation of active dry wine yeast

Steric-Hyperlayer Sedimentation Field Flow Fractionation and Flow Cytometry Analysis Applied to the Study of Saccharomyces cerevisiae

Improved performance of gravitational field-flow fractionation for screening wine-making yeast varieties

Determination of Viable Yeast Cells by Gravitational Field‐Flow Fractionation with Fluorescence Detection

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