Presumptive horizontal symbiont transmission in the fungus-growing termite Macrotermes natalensis

All colonies of the fungus-growing termite Macrotermes natalensis studied so far are associated with a single genetically variable lineage of Termitomyces symbionts. Such limited genetic variation of symbionts and the absence of sexual fruiting bodies (mushrooms) on M. natalensis mounds would be compatible with clonal vertical transmission, as is known to occur in Macrotermes bellicosus. We investigated this hypothesis by analysing DNA sequence polymorphisms as codominant SNP markers of four single-copy gene fragments of Termitomyces isolates from 31 colonies of M. natalensis. A signature of free recombination was found, indicative of frequent sexual horizontal transmission. First, all 31 strains had unique multilocus genotypes. Second, SNP markers (n = 55) were largely in Hardy-Weinberg equilibrium (90.9%) and almost all possible pairs of SNPs between genetically unlinked loci were in linkage equilibrium (96.7%). Finally, extensive intragenic recombination was found, especially in the EF1alpha fragment. Substantial genetic variation and a freely recombining population structure can only be explained by frequent horizontal and sexual transmission of Termitomyces. The apparent variation in symbiont transmission mode among Macrotermes species implies that vertical symbiont transmission can evolve rapidly. The unexpected finding of horizontal transmission makes the apparent absence of Termitomyces mushrooms on M. natalensis mounds puzzling. To our knowledge, this is the first detailed study of the genetic population structure of a single lineage of Termitomyces.     

An out-of-body experience: the extracellular dimension for the transmission of mutualistic bacteria in insects

Across animals and plants, numerous metabolic and defensive adaptations are a direct consequence of symbiotic associations with beneficial microbes. Explaining how these partnerships are maintained through evolutionary time remains one of the central challenges within the field of symbiosis research. While genome erosion and co-cladogenesis with the host are well-established features of symbionts exhibiting intracellular localization and transmission, the ecological and evolutionary consequences of an extracellular lifestyle have received little attention, despite a demonstrated prevalence and functional importance across many host taxa. Using insect–bacteria symbioses as a model, we highlight the diverse routes of extracellular symbiont transfer. Extracellular transmission routes are unified by the common ability of the bacterial partners to survive outside their hosts, thereby imposing different genomic, metabolic and morphological constraints than would be expected from a strictly intracellular lifestyle. We emphasize that the evolutionary implications of symbiont transmission routes (intracellular versus extracellular) do not necessarily correspond to those of the transmission mode (vertical versus horizontal), a distinction of vital significance when addressing the genomic and physiological consequences for both host and symbiont.     

按蚊肠道微生物及其在阻断疟疾传播上的应用

按蚊体内,尤其是中肠内定殖着大量的微生物群落。肠道菌群通过与按蚊的长期协同进化形成了相互依存的共生关系。肠道共生菌参与调节按蚊的多种生命活动,对于维持按蚊的健康发挥着重要作用,已经成为一个与宿主按蚊密不可分的重要"器官"。研究表明,肠道共生菌在按蚊物质代谢、营养、发育、生殖、免疫调控和免疫防御等生理过程中发挥着重要的调节作用。蚊虫是疟疾、登革、寨卡等多种疾病的传播媒介,而肠道共生菌对寄生虫和病毒在蚊虫肠道内的发育和感染具有重要影响,因此研究蚊虫与共生菌的相互作用有着重要的理论和实践意义。本文将对按蚊肠道共生菌的多样性、生物学功能、与宿主相互作用的机制及其在防治疟疾上的应用进展进行综述,并对未来的研究提出展望。     

肠道微生物与昆虫的共生关系

昆虫肠道栖息着大量的微生物。随着近年来研究肠道微生物的方法不断进步,尤其是基于16S rDNA的分子生物学方法的应用,人们对肠道微生物的了解逐渐加深。昆虫肠道对于微生物的拓殖存在一定的选择作用。肠道微生物对昆虫寄主的作用包括提供营养、利用拓殖抗性抵抗外来微生物侵袭、参与多重营养关系、引起昆虫免疫反应。长期进化过程中肠道微生物与昆虫发展出紧密的共生关系,微生物发展出一系列手段适应昆虫肠道环境。文章从以上几个方面对近年来的研究进展进行总结,并对昆虫肠道微生态学的实践意义和将来可能的研究热点进行展望。     

Symbiont choice in a fungus-growing ant (Attini, Formicidae)

Cultivars of fungus-growing (attine) ants are vertically transmittedthrough inheritance from parent to offspring nest, but horizontalcultivar transfer between ant nests occurs occasionally, resultingin cultivar replacement within ant lineages. Two mechanismscould theoretically prevent the invasion of suboptimal cultivarstrains and thus stabilize ant–cultivar coevolution: first,partner feedback inherent in vertical cultivar transmissionand second, partner (symbiont) choice if the ants differentiatebetween productive and inferior cultivars during replacements.To elucidate the nature of symbiont choice, we presented workersof Cyphomyrmex muelleri with novel cultivars representing aphylogenetic cline of close and distant relatives of the nativeC. muelleri cultivar. Workers invariably preferred their nativecultivar, discriminating against even very close relatives ofthe native cultivar. When given a choice between two non-nativecultivar strains, workers accepted the strain most closely relatedto their native cultivar. Two conclusions emerge. First, colonyswitches to distantly related cultivars are behaviorally unlikelyand may not be preference-based; rather, distant switches mayoccur under constrained choice, such as pathogen-related gardenlosses that force colonies to import novel cultivars. Second,the ability of attine ants to differentiate between closelyrelated cultivar strains suggests that the ant–fungusmutualism is stabilized evolutionarily not only by partner feedbackinherent in vertical cultivar transmission, but possibly alsoby symbiont choice through which the ants select against unwanted,presumably inferior, cultivars. The efficacy of symbiont choicenow needs to be tested experimentally. Such research may benefitfrom application of theory and experimental paradigms that havebeen developed within the areas of mate choice and sexual selection.     

纤毛类原生动物中宿主—共生体系统的研究

目前已经在100多种纤毛虫中观察到细菌、藻类和其他微生物等共生体。对纤毛虫中宿主－共生体系统的研究表明,双小核草履虫中卡巴粒的遗传为细胞质遗传理论提供了例证;含细菌共生体的许多厌氧纤毛虫无线粒体,共生体对宿主代谢有重要作用;尾草履虫－钝状全孢螺菌共生作用中,共生菌感染形式的39kDa、15kDa周质蛋白可分别与IF－3－1、IF－3－2两种单抗反应,其共生体早期感染过程中两种抗原的量发生显著变化,并且共生体生殖形式选择性地合成63kDa蛋白质,该蛋白质可能是与共生作有联系的关键分子;绿草履虫－小球藻共生系统中,共生藻中存在葡糖胺硬性壁是其与草履虫发生共生关系的基本条件,其中,共生藻参与宿主代谢,与宿主形成相互受益的专一性关系,并且藻类共生体的作用可能影响了宿主草履虫基因组有关结构,改变了其基因表达。作者推测,探索共生体对宿主基因结构及其表达产物的影响可能是对纤毛虫中共生作用研究的主要趋势,这对于深入了解真核细胞中宿主－共生体双方的相互作用、物质交流在分子水平上的调控机理、细胞结构与功能的关系等细胞生命活动规律是有意义的。     

An ancient but promiscuous host–symbiont association between Burkholderia gut symbionts and their heteropteran hosts

Here, we investigated 124 stinkbug species representing 20 families and 5 superfamilies for their Burkholderia gut symbionts, of which 39 species representing 6 families of the superfamilies Lygaeoidea and Coreoidea were Burkholderia-positive. Diagnostic PCR surveys revealed high frequencies of Burkholderia infection in natural populations of the stinkbugs, and substantial absence of vertical transmission of Burkholderia infection to their eggs. In situ hybridization confirmed localization of the Burkholderia in their midgut crypts. In the lygaeoid and coreoid stinkbugs, development of midgut crypts in their alimentary tract was coincident with the Burkholderia infection, suggesting that the specialized morphological configuration is pivotal for establishment and maintenance of the symbiotic association. The Burkholderia symbionts were easily isolated as pure culture on standard microbiological media, indicating the ability of the gut symbionts to survive outside the host insects. Molecular phylogenetic analysis showed that the gut symbionts of the lygaeoid and coreoid stinkbugs belong to a β-proteobacterial clade together with Burkholderia isolates from soil environments and Burkholderia species that induce plant galls. On the phylogeny, the stinkbug-associated, environmental and gall-forming Burkholderia strains did not form coherent groups, indicating host–symbiont promiscuity among these stinkbugs. Symbiont culturing revealed that slightly different Burkholderia genotypes often coexist in the same insects, which is also suggestive of host–symbiont promiscuity. All these results strongly suggest an ancient but promiscuous host–symbiont relationship between the lygaeoid/coreoid stinkbugs and the Burkholderia gut symbionts. Possible mechanisms as to how the environmentally transmitted promiscuous symbiotic association has been stably maintained in the evolutionary course are discussed.     

黑木耳子实体粉代替部分膳食对高脂模型小鼠营养性肥胖预防作用

本文旨在研究黑木耳粉代替部分膳食对模型小鼠预防营养性肥胖的作用功效。试验选择5周龄健康ICR雄性小鼠48只,随机分为正常对照组(CK)、高脂组(HFD)、阳性药物对照组(PD)和黑木耳粉添加组(AH)。连续饲喂9周,检测小鼠的各项生理生化指标。结果表明：与HFD组相比,AH组小鼠体重、附睾脂肪指数显著降低(P<0.05);Lee’s指数、血清葡萄糖(GLU)含量、甘油三酯(TG)含量和肝脏指数含量极显著降低(P<0.01),血清高密度脂蛋白胆固醇(HDL-C)和肝脏HDL-C含量极显著提高(P<0.01);染色结果观察到AH组小鼠肝脏中脂肪细胞减小,脂质含量降低;附睾脂肪体积减小,附睾细胞形状较规则。高通量测序分析发现,黑木耳粉干预有效改善了小鼠肠道中的变形菌门、螺杆菌属与拟杆菌属的相对丰度。研究结果表明黑木耳有显著预防小鼠营养性肥胖的功效,为黑木耳的开发利用提供依据。     

A preference assay for quantifying symbiont choice in fungus-growing ants (Attini, Formicidae)

We describe a bioassay for the quantification of cultivar preference (symbiont choice) of fungus-growing ants. The bioassay simultaneously presents mycelium of multiple pure cultivar genotypes to worker ants in a cafeteria-style test arena, and preferred versus non-preferred cultivar genotypes can then be identified based on the ants’ quantifiable behavioral tendencies to convert any of the offered mycelium into a fungus garden. Under natural conditions, fungus-growing ants are likely to express such cultivar preferences when mutant cultivars arise in a garden, or when colonies acquire a novel cultivar from a neighboring colony to replace their resident cultivar. We show that workers from different nests of the fungus-growing ant Cyphomyrmex costatus exhibit repeatable preferences vis-à-vis specific cultivar genotypes. The identified preferred and rejected cultivars can then be used in a performance assay to test whether the ants prefer cultivar genotypes that are superior in enhancing colony fitness (measured, for example, as garden productivity or colony growth), as predicted by symbiont-choice theory. Received 24 February 2006; revised 23 June 2006; accepted 26 June 2006.     

Localization and transmission route of Coriobacterium glomerans, the endosymbiont of pyrrhocorid bugs

Endosymbiotic gut bacteria play an essential role in the nutrition of many insects. Most of the nutritional interactions investigated so far involve gammaproteobacterial symbionts, whereas other groups have received comparatively little attention. Here, we report on the localization and the transmission route of the specific actinobacterial symbiont Coriobacterium glomerans from the gut of the red firebug, Pyrrhocoris apterus (Hemiptera: Pyrrhocoridae ). The symbionts were detected by diagnostic PCRs and FISH in the midgut section M3, in the rectum and in feces of the bugs as well as in the hemolymph of some females. Furthermore, adult female bugs apply the symbionts to the surface of the eggs during oviposition, from where they are later taken up by the hatchlings. Surface sterilization of egg clutches generated aposymbiotic insects and thereby confirmed the vertical transmission route via the egg surface. However, symbionts were readily acquired horizontally when the nymphs were reared in the presence of symbiont-containing eggshells, feces, or adult bugs. Using diagnostic PCRs and partial sequencing of the 16S rRNA gene, closely related bacterial symbionts were detected in the cotton stainer bug Dysdercus fasciatus (Hemiptera: Pyrrhocoridae ), suggesting that the symbiosis with Actinobacteria may be widespread among pyrrhocorid bugs.     

Conflict, cheats and the persistence of symbioses

Many symbioses are widespread, abundant, and evolutionarily persistent. This is despite unambiguous evidence for conflict between the partners and the existence of cheats that use benefits derived from their partners while providing reduced or no services in return. Evidence from a diversity of associations suggests that symbioses are robust to cheating in several ways. Some symbioses persist despite conflict and cheating because of the selective advantage of cost-free interactions (also known as byproduct mutualistic interactions), which incur no conflict. There is also evidence for the suppression of cheating by sanctions imposed by partners in some symbioses, and vertical transmission has been shown experimentally to promote traits that enhance partner performance. It is argued that these processes contribute to the apparent rarity of evolutionary transitions from symbiosis to parasitism. There is strong phylogenetic evidence for the evolutionary reversion of various symbiotic organisms to free-living lifestyles, but at least some of these transitions can be attributed to selection pressures other than within-symbiosis conflict. The principal conclusion is that, although conflict is common in symbioses, it is generally managed and contained.