Reference: Grupp B, et al. (2025)
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Abstract
The septins are conserved, filament-forming, guanine nucleotide binding cytoskeletal proteins. They assemble into palindromic protofilaments which polymerize further into higher-ordered structures that participate in essential intracellular processes such as cytokinesis or polarity establishment. Septins belong structurally to the P-Loop NTPases but, unlike their relatives Ras or Rho, do not mediate signals to effectors through GTP binding and hydrolysis. Biochemical approaches addressing how and why septins utilize nucleotides are hampered by the lack of nucleotide-free complexes. Using molecular dynamics simulations, we determined structural alterations and intersubunit binding free energies in human and yeast septin dimer structures and in their in silico generated apo forms. An interchain salt bridge network around the septin unique β-meander, conserved across all kingdoms of septin containing species, is destabilized upon nucleotide removal, concomitant with disruption of the entire G-interface. Within this network, we confirmed a conserved arginine residue, which coordinates the guanine base of the nucleotide, as the central interaction hub. The essential role of this arginine for interface integrity was experimentally confirmed to be conserved in septins from yeast to human.
- Reference Type
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Journal Article
- Authors
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Grupp B,
Graser JB,
Seifermann J,
Gerhardt S,
Lemkul JA,
Gehrke JF,
Johnsson N,
Gronemeyer T
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- CDC10 | CDC11 | SHS1 | CDC12 | CDC3 | Septin complex
- cdc10-R251A | cdc3-R360A | cdc12-R263A | cdc11-R247A | shs1-R288A
Gene Ontology Annotations
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| Evidence ID |
Analyze ID |
Gene/Complex |
Systematic Name/Complex Accession |
Qualifier |
Gene Ontology Term ID |
Gene Ontology Term |
Aspect |
Annotation Extension |
Evidence |
Method |
Source |
Assigned On |
Reference |
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| Gene | Phenotype | Experiment Type | Mutant Information | Strain Background | Chemical | Details |
|---|
| CDC10 | heat sensitivity: increased
| classical genetics | reduction of function
Allele: cdc10-R251A R251A; conserved arginine in the three stranded β-meander (SUE-βββ) mutated; interrupts the G-interface; reduced bud neck localization | Other | | Temperature: elevated temperature, 37 °C
Details: increased temperature sensitivity
|
| CDC3 | heat sensitivity: increased
| classical genetics | reduction of function
Allele: cdc3-R360A R360A; conserved arginine in the three stranded β-meander (SUE-βββ) mutated; interrupts the G-interface; reduced bud neck localization | Other | | Temperature: elevated temperature, 37 °C
Details: increased temperature sensitivity
|
| CDC11 | inviable
| classical genetics | null
Allele: cdc11-R247A R247A; conserved arginine in the three stranded β-meander (SUE-βββ) mutated; interrupts the G-interface; fail to localize to the bud neck | Other | | Details: lethal at all tested temperatures
|
| CDC12 | inviable
| classical genetics | null
Allele: cdc12-R263A R263A; conserved arginine in the three stranded β-meander (SUE-βββ) mutated; interrupts the G-interface; fail to localize to the bud neck | Other | | Details: lethal at all tested temperatures
|
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Disease Ontology Term |
Disease Ontology Term ID |
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Reference |
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Happens During |
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Interactor |
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Interactor |
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Interactor |
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