Plasmid segregation and stability in bacteria

Funnell, Barbara

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Playlist
Slides
Topics
Links
Citation

Introduction and General Properties of Plasmids
31 min
1. Introduction to plasmid biology
- Prof. Emeritus Don Clewell
39 min
2. General properties and applications of plasmids
- Prof. Emeritus Don Clewell
Replication
47 min
3. Plasmids: copy number control by antisense RNAs
- Prof. Gerhart Wagner
30 min
4. Plasmid rolling-circle (RC) replication
- Prof. Saleem Khan
45 min
5. Replication of linear plasmids in bacteria
- Prof. George Chaconas
Maintenance and Partitioning
32 min
6. Plasmid segregation and stability in bacteria
- Prof. Barbara Funnell
33 min
7. Plasmid stabilization by cell killing
- Prof. Keith Weaver
30 min
8. Dimer catastrophes and plasmid resolution
- Dr. David Summers
Conjugation and Mobilization
41 min
9. The diversity of bacterial conjugation and mobilization systems
- Prof. Fernando de la Cruz
36 min
10. The pCF10-encoded pheromone response: cell-cell signaling, complexity and evolution
- Prof. Gary Dunny
27 min
11. DNA processing in conjugative transfer
- Dr. Joel Schildbach
43 min
12. Agrobacterium tumefaciens
- Dr. Stephen Winans
Genetic Traits Frequently Associated with Plasmids
37 min
13. Insertion sequences and DNA transposition
- Prof. William Reznikoff
48 min
14. Plasmids, integrons and the spread of antibiotic resistance
- Prof. Hatch Stokes
30 min
15. Virulence plasmids
- Prof. Julian Rood
Eukaryotic Plasmids
30 min
16. The yeast plasmid: a highly persistent selfish DNA element
- Prof. Makkuni Jayaram
Population Biology and Evolution
35 min
17. Evolution of plasmids and their role in bacterial diversity and adaptability
- Prof. Christopher Thomas
Archived Lectures *These may not cover the latest advances in the field
85 min
18. Bacterial extrachromosomal elements: role in chemical detoxification and potential cancer therapy
- Prof. Ananda Chakrabarty
34 min
19. Plasmid segregation and stability in bacteria
- Prof. Barbara Funnell
39 min
20. Replication of linear plasmids in bacteria
- Prof. George Chaconas

Printable Handouts

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Navigable Slide Index

Introduction
Plasmid partition and chromosome dynamics
Plasmid stability systems
Why do plasmids need partition systems?
Plasmid localization in the cell cycle
Plasmid partition cassettes
Classes of partition systems
Type 1: walker ATPases
Plasmid partition sites (1)
Plasmid partition sites (2)
Repressor and corepressors
The diversity of plasmids with type 1 par systems
Type 2: actin ATPases
Plasmids with multiple par systems
Mechanistic questions
The action of ParA and ParB proteins: ParB
The P1 partition complex
Visualization of partition complexes
ParB structure and function
The structure of a partition complex
ParBs of Type 1 par systems
Small ParBs are RHH2 dimers
Omega RHH2 binds DNA
The action of ParA and ParB proteins: ParA
Plasmid localization requires ParA
Measurements of localization
Walker-type partition ATPases
ParA binds and hydrolyzes ATP
ParA is a transcriptional repressor
ParA has site-specific DNA binding activity
Mutations in ParA reveal ATP interactions
The ATP-ADP switch
How does ParA mediate plasmid localization?
ParM and actin share properties
ParM filaments drive plasmids apart
ParM polymerization drives R1 partition
Do walker-type ATPases polymerize?
Partition ATPase dynamics: observations
Model: par complex dynamics
Remaining questions

Topics Covered

Mechanisms of plasmid segregation and partition reactions
Types of plasmid partition systems in bacteria
ParA partition ATPases
Structural biology of partition-site binding proteins
Chromosome dynamics

Links

Talk Citation

Funnell, B. (2008, January 28). Plasmid segregation and stability in bacteria [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/ZFPH4100.
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