Matrices (re)loaded: Durability, viability, and fermentative capacity of yeast encapsulated in beads of different composition during long-term fed-batch culture.

Batch Cell Culture Techniques Calcium / chemistry Cell Survival Ethanol / chemistry Fermentation Glucose / chemistry Saccharomyces cerevisiae / cytology Time Factors

alginate chitosan fermentation immobilization yeast encapsulation

Journal

Biotechnology progress

ISSN: 1520-6033

Titre abrégé: Biotechnol Prog

Pays: United States

ID NLM: 8506292

Informations de publication

Date de publication:
01 2020

Historique:

received: 01 08 2019

revised: 08 09 2019

accepted: 27 09 2019

pubmed: 7 10 2019

medline: 9 6 2021

entrez: 7 10 2019

Statut: ppublish

Résumé

Encapsulated microbes have been used for decades to produce commodities ranging from methyl ketone to beer. Encapsulated cells undergo limited replication, which enables them to more efficiently convert substrate to product than planktonic cells and which contributes to their stress resistance. To determine how encapsulated yeast supports long-term, repeated fed-batch ethanologenic fermentation, and whether different matrices influence that process, fermentation and indicators of matrix durability and cell viability were monitored in high-dextrose, fed-batch culture over 7 weeks. At most timepoints, ethanol yield (g/g) in encapsulated cultures exceeded that in planktonic cultures. And frequently, ethanol yield differed among the four matrices tested: sodium alginate crosslinked with Ca

Identifiants

DOI: 10.1002/btpr.2925 PMID: 31587494 PMC: PMC7027564

pubmed: 31587494

doi: 10.1002/btpr.2925

pmc: PMC7027564

doi:

Substances chimiques

Ethanol 3K9958V90M

Glucose IY9XDZ35W2

Calcium SY7Q814VUP

Types de publication

Journal Article Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S.

Langues

eng

Sous-ensembles de citation

Pagination

e2925

Subventions

Organisme : Georgia Research Alliance

ID : GRA.Vl18.B16

Pays : International

Organisme : NASA

ID : NNA17BB05A

Pays : United States

Organisme : National Science Foundation

ID : 1743464

Pays : International

Organisme : National Science Foundation

ID : DGE-1148903

Pays : International

Organisme : National Science Foundation

ID : IOS-1656549

Pays : International

Organisme : NASA

ID : NNA17BB05A

Pays : United States

Informations de copyright

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Matrices (re)loaded: Durability, viability, and fermentative capacity of yeast encapsulated in beads of different composition during long-term fed-batch culture.

Journal

Informations de publication

Résumé

Identifiants

Substances chimiques

Types de publication

Langues

Sous-ensembles de citation

Pagination

Subventions

Informations de copyright

Références

Auteurs

Jordan Gulli (J)

Peter Yunker (P)

Frank Rosenzweig (F)

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Classifications MeSH