Diverse conditions support near-zero growth in yeast: Implications for the study of cell lifespan.
baker's yeast
chronological lifespan (CLS)
encapsulation
giant yeast colonies
immobilized cell reactors
near-zero growth
retentostats
starvation
Journal
Microbial cell (Graz, Austria)
ISSN: 2311-2638
Titre abrégé: Microb Cell
Pays: Austria
ID NLM: 101632887
Informations de publication
Date de publication:
20 Aug 2019
20 Aug 2019
Historique:
entrez:
19
9
2019
pubmed:
19
9
2019
medline:
19
9
2019
Statut:
epublish
Résumé
Baker's yeast has a finite lifespan and ages in two ways: a mother cell can only divide so many times (its replicative lifespan), and a non-dividing cell can only live so long (its chronological lifespan). Wild and laboratory yeast strains exhibit natural variation for each type of lifespan, and the genetic basis for this variation has been generalized to other eukaryotes, including metazoans. To date, yeast chronological lifespan has chiefly been studied in relation to the rate and mode of functional decline among non-dividing cells in nutrient-depleted batch culture. However, this culture method does not accurately capture two major classes of long-lived metazoan cells: cells that are terminally differentiated and metabolically active for periods that approximate animal lifespan (e.g. cardiac myocytes), and cells that are pluripotent and metabolically quiescent (e.g. stem cells). Here, we consider alternative ways of cultivating
Identifiants
pubmed: 31528631
doi: 10.15698/mic2019.09.690
pii: MIC0179E120
pmc: PMC6717879
doi:
Types de publication
Journal Article
Review
Langues
eng
Pagination
397-413Subventions
Organisme : NIAID NIH HHS
ID : R01 AI136992
Pays : United States
Déclaration de conflit d'intérêts
Conflict of interest: The authors declare no conflict of interest.
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