Publication Date
5-11-2024
Journal
Nature Communications
DOI
10.1038/s41467-024-48380-4
PMID
38734736
PMCID
PMC11088635
PubMedCentral® Posted Date
5-11-2024
PubMedCentral® Full Text Version
Post-print
Published Open-Access
yes
Keywords
Altruism, Chemotaxis, Dictyostelium, Membrane Proteins, Mutation, Protozoan Proteins, Signal Transduction, Spores, Protozoan, Genetics, Developmental biology, Evolutionary developmental biology
Abstract
Greenbeard genetic elements encode rare perceptible signals, signal recognition ability, and altruism towards others that display the same signal. Putative greenbeards have been described in various organisms but direct evidence for all the properties in one system is scarce. The tgrB1-tgrC1 allorecognition system of Dictyostelium discoideum encodes two polymorphic membrane proteins which protect cells from chimerism-associated perils. During development, TgrC1 functions as a ligand-signal and TgrB1 as its receptor, but evidence for altruism has been indirect. Here, we show that mixing wild-type and activated tgrB1 cells increases wild-type spore production and relegates the mutants to the altruistic stalk, whereas mixing wild-type and tgrB1-null cells increases mutant spore production and wild-type stalk production. The tgrB1-null cells cheat only on partners that carry the same tgrC1-allotype. Therefore, TgrB1 activation confers altruism whereas TgrB1 inactivation causes allotype-specific cheating, supporting the greenbeard concept and providing insight into the relationship between allorecognition, altruism, and exploitation.
Included in
Biology Commons, Genetic Phenomena Commons, Genetic Processes Commons, Genetics Commons, Medical Cell Biology Commons, Medical Genetics Commons, Medical Specialties Commons
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