Masahiko Katoh scite author profile

Summary Self- and kin-discrimination are observed in most kingdoms of life and are mediated by highly polymorphic plasma membrane proteins [1-7]. Sequence polymorphism, which is essential for effective recognition, is maintained by balancing selection [8-10]. Dictyostelium discoideum are social amoebae that propagate as unicellular organisms, but aggregate upon starvation and from fruiting bodies with viable spores and dead stalk cells. Aggregative development exposes Dictyostelium to the perils of chimerism, including cheating, which raises questions about how the victims survive in nature and how social cooperation persists [11-15]. Dictyostelids can minimize the cost of chimerism by preferential cooperation with kin [16-18], but the mechanisms of kin-discrimination are largely unknown. Dictyostelium lag-genes encode transmembrane proteins with multiple immunoglobulin (Ig) repeats that participate in cell-adhesion and signaling [19-25]. Here we describe their role in kin-discrimination. We show that lagB1 and lagC1 are highly polymorphic in natural populations and that their sequence dissimilarity correlates well with wild-strain segregation. Deleting lagB1 and lagC1 results in strain segregation in chimerae with wild-type cells, whereas elimination of the nearly invariant homolog lagD1 has no such consequences. These findings reveal an early evolutionary origin of kin-discrimination and provide insight into the mechanism of social recognition and immunity.

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Microwave Measurement of Dielectric Properties of Low-Loss Materials by the Dielectric Rod Resonator Method

Kobayashi

Katoh

1985

IEEE Trans. Microwave Theory Techn.

625

206

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PCR-mediated generation of a gene disruption construct without the use of DNA ligase and plasmid vectors

et al. 2002

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We introduce a PCR-based procedure for generating a gene disruption construct. This method depends on DNA fragment fusion by the PCR technique and requires only two steps of PCR to obtain a sufficient amount of the gene disruption construct for one transformation experiment. The first step involves three separate PCR syntheses of a selectable marker cassette and the 5'- and 3'-regions of a target gene. Of the four primers used in amplification of the 5'- and 3'-regions of the target gene, two primers placed proximal to the site of the marker cassette are designed to have sequence tags complementary to the 5'- or 3'-side of the marker cassette. The two primers used in PCR synthesis of the marker cassette are complementary to the tagged primers. By fusion PCR, the 5' and 3' PCR products are linked to the marker cassette via the regions of tagged primers that overlap. A sufficient amount of the disruption construct can be directly amplified with the outermost primers. This method is simple, rapid and relatively inexpensive. In addition, there is the freedom of attaching long flanking regions to any selectable marker cassette.

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Kin Discrimination Increases with Genetic Distance in a Social Amoeba

et al. 2008

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In the social amoeba Dictyostelium discoideum, thousands of cells aggregate upon starvation to form a multicellular fruiting body, and approximately 20% of them die to form a stalk that benefits the others. The aggregative nature of multicellular development makes the cells vulnerable to exploitation by cheaters, and the potential for cheating is indeed high. Cells might avoid being victimized if they can discriminate among individuals and avoid those that are genetically different. We tested how widely social amoebae cooperate by mixing isolates from different localities that cover most of their natural range. We show here that different isolates partially exclude one another during aggregation, and there is a positive relationship between the extent of this exclusion and the genetic distance between strains. Our findings demonstrate that D. discoideum cells co-aggregate more with genetically similar than dissimilar individuals, suggesting the existence of a mechanism that discerns the degree of genetic similarity between individuals in this social microorganism.

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Masahiko Katoh

Polymorphic Members of the lag Gene Family Mediate Kin Discrimination in Dictyostelium

Microwave Measurement of Dielectric Properties of Low-Loss Materials by the Dielectric Rod Resonator Method

PCR-mediated generation of a gene disruption construct without the use of DNA ligase and plasmid vectors

Kin Discrimination Increases with Genetic Distance in a Social Amoeba

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