Language

English

Publication Date

6-5-2025

Journal

BMC Genomics

DOI

10.1186/s12864-025-11745-0

PMID

40474076

PMCID

PMC12142906

PubMedCentral® Posted Date

6-5-2025

PubMedCentral® Full Text Version

Post-print

Abstract

Background: The Dictyostelium greenbeard pathway is mediated by two polymorphic transmembrane proteins, the TgrC1 ligand and the TgrB1 receptor. These proteins mediate allorecognition, altruism, and the developmental transition to multicellularity. A genetic suppressor screen revealed activating mutations in tgrB1 and inactivating mutations in rapgapB, a regulator of the GTPase protein RapA. Inactivation of either tgrB1, tgrC1, or rapgapB leads to developmental defects, but the respective double-mutant strains rapgapB-tgrB1- and rapgapB-tgrC1- develop well and produce spores. This mutual suppression could result from inducing an alternative pathway or from restoring wild-type development, but morphological analyses alone could not resolve this question.

Results: Here, we show that the mutual suppression between rapgapB- and tgrB1- restores wild-type development. We also analyzed an activated tgrB1 allele in the wild-type background and found evidence for interactions between the wild-type and the activated alleles. Using RNA-sequencing analyses, we compared the transcriptomes of the wild type to those of several mutant strains and found that the single-gene mutations attenuated transcriptome progression over developmental time, whereas the double-gene mutation strain rapgapB-tgrB1- and the activated tgrB1 mutation exhibited near wild-type transcriptomes. Our findings suggest that tgrB1, tgrC1, and rapgapB are involved in a pathway in which rapgapB negatively regulates tgrB1 and tgrC1 expression, whereas tgrB1 and tgrC1 positively regulate rapgapB expression.

Conclusions: These findings suggest that the Dictyostelium greenbeard pathway interfaces with the central RapGAPB-RapA regulatory pathway, providing molecular insight into a mutual suppression mechanism in which two deleterious mutations restore wild-type behavior.

Keywords

Dictyostelium, Mutation, Protozoan Proteins, Signal Transduction, GTPase-Activating Proteins, Mutual suppression, Greenbeard pathway, Dictyostelium allorecognition, Dictyostelium development, Transcriptome phenotyping

Published Open-Access

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