Cryo-EM reconstruction of AlfA from<i>Bacillus subtilis</i>reveals the structure of a simplified actin-like filament at 3.4 Å resolution

Harris, Andrzej; Löwe, Jan

doi:10.1101/190744

Cited by 2 publications

(1 citation statement)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…1J, S3H). The typical contact area for interprotofilament interaction of other actin superfamily proteins is 700 -900 Å 2 (37). Therefore, the protofilament structure in the crystal probably slightly differs from that in the double-stranded filament.…”

Section: Characters Of Spemreb3 and Spemreb5 Filamentsmentioning

confidence: 96%

ATP dependent polymerization dynamics of bacterial actin proteins involved inSpiroplasmaswimming

Takahashi

Fujiwara

Sasajima

et al. 2021

Preprint

View full text Add to dashboard Cite

MreB is a bacterial protein belonging to the actin superfamily. It polymerizes into an antiparallel double-stranded filament that generally functions for cell shape determinations by maintaining the cell wall synthesis. Spiroplasma eriocheiris, a helical wall-less bacterium, has five classes of MreB homologs (SpeMreB1-5) that are responsible for its swimming motility. SpeMreB5 is likely responsible for generating the driving force for the swimming motility. However, molecular profiles involved in the swimming motility are poorly understood. Additionally, SpeMreB3 has distinct sequence features from the other SpeMreBs. Here, we have revealed the structures and polymerization dynamics of SpeMreB3 and SpeMreB5. Both SpeMreBs formed antiparallel double-stranded filaments with different characters; SpeMreB3 formed short filaments with slow polymerization, and SpeMreB5 filaments further assembled into bundle structures such as raft and paracrystal. SpeMreB5 filaments hydrolyzed ATP at a constant rate and were depolymerized immediately after ATP depletion. The Pi release rate of SpeMreB3 was much slower than that of SpeMreB5. Our crystal structure of SpeMreB3 and Pi release measurements of SpeMreB3 and SpeMreB5 mutant variants explain that the cause of the slow Pi release is the lack of the amino acid motif "E ... T - X - [DE]", found in almost all MreBs, which probably takes roles to adjust the position and eliminate a proton of the putative nucleophilic water for γ-Pi of AMPPNP. These results show that SpeMreB3 has unique polymerization dynamics without bundle formations, whereas SpeMreB5 shows bundle formations, and its polymerization dynamics occur in the same manner as other actin superfamily members.

show abstract

Section: Characters Of Spemreb3 and Spemreb5 Filamentsmentioning

confidence: 96%

ATP dependent polymerization dynamics of bacterial actin proteins involved inSpiroplasmaswimming

Takahashi

Fujiwara

Sasajima

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Effect of arsenite on the proteome of earthworms Eisenia fetida

Wang

Geng

et al. 2022

Soil Ecol. Lett.

View full text Add to dashboard Cite

Arsenic (As) is broadly distributed due to natural and anthropogenic sources, and it is toxic to organisms. This study aimed to investigate the proteomic response in earthworm exposed to As 3+ . Earthworms were exposed to As 3+ in soil at 5-80 mg kg -1 , and samples were collected after 60 days exposure. Two-dimensional electrophoresis (2-DE) was used to separate the proteins in earthworm homogenate, then differentially expressed proteins (DEPs) were identified using MALDI-TOF/TOF-MS analysis. After 2-DE, 36 DEPs were found and 24 of them were successfully identified. 79.2% of DEPs were upregulated compared to the control group. The maximum fold change reached 53.8 in spot 3108 in the 80 mg kg -1 As group. Two proteins were not found in the control group but found in the As treated groups. Proteins were grouped into metabolism, signal transduction, stress-related, transport, regulation, and predicted/hypothetical protein categories based on their function. The protein-protein interaction between the DEPs indicated that serum albumin (ALB) is very important, related to 6 other proteins. Proteins were then verified by western blot, the results were in agreement with the proteomic analyses. The identification of induced or repressed proteins because of As 3+ in earthworms is helpful to explore the underlying mechanisms of soil arsenic ecotoxicity.

show abstract

Cryo-EM reconstruction of AlfA fromBacillus subtilisreveals the structure of a simplified actin-like filament at 3.4 Å resolution

Cited by 2 publications

References 40 publications

ATP dependent polymerization dynamics of bacterial actin proteins involved inSpiroplasmaswimming

ATP dependent polymerization dynamics of bacterial actin proteins involved inSpiroplasmaswimming

Effect of arsenite on the proteome of earthworms Eisenia fetida

Contact Info

Product

Resources

About