Novel Principles and Methods in Bacterial Cell Cycle Physiology: Celebrating the Charles E. Helmstetter Prize in 2022
Materialtyp:
ArtikelUtgivningsinformation: MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (172 p.)Innehållstyp: - text
- computer
- online resource
- 9783036598291
- 9783036598307
- Mathematics and Science
- Mathematics
- Applied mathematics
- B period
- C period
- Charles E. Helmstetter Prize
- D period
- DNA polymer physics
- DNA repair replication
- DNA replication cycle
- DNA supercoiling
- DnaE
- E. coli
- Initiation volume (Vi)
- L-form
- PIPS
- PykA
- active and passive DNA segregation
- bacteria
- bacterial cell cycle
- bacterial nucleoid
- bacterial physiology
- cell cycle
- cell dimensions
- cell size
- chromosome arms
- chromosome replication
- chromosome segregation
- confocal microscopy
- differentiation
- division cycle
- divisome
- eclipse
- electron microscopy
- elongasome
- excision-repair
- image processing
- initiation age
- initiation mass
- integrative suppression
- macromolecular crowding
- macromolecular synthesis operon
- metabolism
- microbiology
- microscopic images
- minichromosomes
- moonlighting activity
- nucleoid complexity
- oriC
- partition
- phase-contrast microscopy
- protein depletion
- replication
- replication bubble
- replication position
- ribonucleotide reductase
- sequestration
- synchronous cells
- thymineless death
- unbalanced growth
- unit length
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This Science Historical Collection celebrates the inauguration of the "Charles E. Helmstetter Prize for Groundbreaking Research in Bacterial Cell Cycle Physiology" at the Ein Gedi's EMBO Workshop in December 2022. The bacterial cell cycle is fundamental to the physiology of the bacterial cell and, hence, to the many fields that depend on it. The roots of the bacterial cell cycle physiology are described in detail by several of the surviving pioneers (over 90 years of age) and selected worldwide scientists of the second generation. This issue contains contributions from the recipients of the prize who, fairly, may be said to have created our present understanding of the field. Control mechanisms of some fundamental issues of the bacterial cell cycle (e.g., chromosome replication and cell division) are elaborated and can serve as a basis for current and future discoveries.
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eng
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