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. 1999 Jun 8;96(12):6814-9.
doi: 10.1073/pnas.96.12.6814.

Four intracellular genomes direct weevil biology: nuclear, mitochondrial, principal endosymbiont, and Wolbachia

A Heddi  1 A M GrenierC KhatchadourianH CharlesP Nardon
Affiliations

Four intracellular genomes direct weevil biology: nuclear, mitochondrial, principal endosymbiont, and Wolbachia

A Heddi et al. Proc Natl Acad Sci U S A. .

Abstract

Cell physiology in the weevil Sitophilus oryzae is coordinated by three integrated genomes: nuclear, mitochondrial, and the "S. oryzae principal endosymbiont" (SOPE). SOPE, a cytoplasmic bacterium (2 x 10(3) bacteria per specialized bacteriocyte cell and 3 x 10(6) bacteria per weevil) that belongs to the proteobacteria gamma3-subgroup, is present in all weevils studied. We discovered a fourth prokaryotic genome in somatic and germ tissues of 57% of weevil strains of three species, S. oryzae, Sitophilus zeamais, and Sitophilus granarius, distributed worldwide. We assigned this Gram-negative prokaryote to the Wolbachia group (alpha-proteobacteria), on the basis of 16S rDNA sequence and fluorescence in situ DNA-RNA hybridization (FISH). Both bacteria, SOPE and Wolbachia, were selectively eliminated by combined heat and antibiotic treatments. Study of bacteria involvement in this insect's genetics and physiology revealed that SOPE, which induces the specific differentiation of the bacteriocytes, increases mitochondrial oxidative phosphorylation through the supply of pantothenic acid and riboflavin. Elimination of this gamma3-proteobacterium impairs many physiological traits. By contrast, neither the presence nor the absence of Wolbachia significantly affects the weevil's physiology. Wolbachia, disseminated throughout the body cells, is in particularly high density in the germ cells, where it causes nucleocytoplasmic incompatibility. The coexistence of two distinct types of intracellular proteobacteria at different levels of symbiont integration in insects illustrates the genetic complexity of animal tissue. Furthermore, evolutionary timing can be inferred: first nucleocytoplasm, then mitochondria, then SOPE, and finally Wolbachia. Symbiogenesis, the genetic integration of long-term associated members of different species, in the weevil appears to be a mechanism of speciation (with Wolbachia) and provides a means for animals to acquire new genes that permit better adaptation to the environment (with SOPE).

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Figures

Figure 1
Figure 1
Phylogenetic tree of the SOPE and Wolbachia based on sequences of 16S rDNA genes. The other rDNA sequences were searched at the National Center for Biotechnology Information by using the blast network service. Alignments were performed and the phylogenetic tree was created as in ref. . Bacillus subtilis, a Gram-positive bacterium, was used as the out-group. The name of the bacteria or the host insect species is followed by the GenBank accession number. Scale bar, 0.1 substitution per site. *According to the classification of Werren et al. (23).
Figure 2
Figure 2
FISH of Wolbachia (red) and SOPE (green) in different weevil tissues. (1 and 2) Comparison between the Wolbachia-negative control (1) [oocyte from the SOPE-aposymbiotic Chinese strain (ChH) treated with tetracycline (ChHT)] and the Wolbachia-positive control (2) [oocyte (o) and follicular cells (f) of the SOPE-aposymbiotic strain (ChH)]. (3) Testes of the SOPE- and Wolbachia-symbiotic strain (Ch) (see arrows, Wolbachia near spermatid nuclei). (4) Cuticle (c) and muscle (m) of the SOPE- and Wolbachia-symbiotic strain (Ch). (5) SOPE-aposymbiotic apex of ovary (ChH). (6) Intestine (i), the larval bacteriome (lb) in green and the adipocytes (a) of the Ch strain: both SOPE (green) and Wolbachia (red spots, arrows) are visible in the bacteriocytes. (7 and 8) Larval bacteriome (lb) and the ovarian bacteriome (ob) of the French Wolbachia-free strain (SFr). All slides were hybridized with the three probes (W1, W2, and S; see Materials and Methods). (Scale bar, 10 μm.)
Figure 3
Figure 3
Specific enzymatic activities of mitochondrial suspensions isolated from SOPE-symbiotic and SOPE-aposymbiotic larvae of a Wolbachia-free French strain (SFr). (A) Control wheat flour artificial pellets, not supplemented with vitamins. (B) Pellets supplemented with pantothenic acid and riboflavin. Data are expressed as the mean of at least 10 repeats ±SD. SCR, succinate cytochrome c reductase (y unit = 1 μmol⋅mg−1⋅s−1); GCR, glycerol-3-phosphate cytochrome c reductase (y = 0.5 μmol⋅mg−1⋅s−1); PDH, pyruvate dehydrogenase (y = 0.1 μmol⋅mg−1⋅s−1); KGDH, α-ketoglutarate dehydrogenase (y = 0.2 μmol⋅mg−1⋅s−1). The effect of vitamins on mitochondrial activities (i.e., interaction between vitamin and symbiosis factors) was found to be significant (∗, P < 0.05) in three of the four independent ANOVA2 tests performed.
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