Matching the supply of bacterial nutrients to the nutritional demand of the animal host

Various animals derive nutrients from symbiotic microorganisms with much-reduced genomes, but it is unknown whether, and how, the supply of these nutrients is regulated. Here, we demonstrate that the production of essential amino acids (EAAs) by the bacterium Buchnera aphidicola in the pea aphid Acyrthosiphon pisum is elevated when aphids are reared on diets from which that EAA are omitted, demonstrating that Buchnera scale EAA production to host demand. Quantitative proteomics of bacteriocytes (host cells bearing Buchnera) revealed that these metabolic changes are not accompanied by significant change in Buchnera or host proteins, suggesting that EAA production is regulated post-translationally. Bacteriocytes in aphids reared on diet lacking the EAA methionine had elevated concentrations of both methionine and the precursor cystathionine, indicating that methionine production is promoted by precursor supply and is not subject to feedback inhibition by methionine. Furthermore, methionine production by isolated Buchnera increased with increasing cystathionine concentration. We propose that Buchnera metabolism is poised for EAA production at certain maximal rates, and the realized release rate is determined by precursor supply from the host. The incidence of host regulation of symbiont nutritional function via supply of key nutritional inputs in other symbioses remains to be investigated.     

Precocene II-induced alate production in isolated and crowded alate and apterous virginoparae of the aphid, Macrosiphum euphorbiae

Precocene II was applied at doses ranging from 0.05 to 0.70 μg per individual to newly moulted adult alate and apterous virginoparae of Macrosiphum euphorbiae kept isolated or in groups of 10 per plant, under an 18L:6D photoperiodic regime. While isolated controls of both morphs produced exclusively apterous progeny, alatae virginoparae were produced in generally dose-dependent proportions by precocene-treated individuals. Grouped controls of both morphs produced alatiform progeny as expected, but in precocene—treated groups, the proportions of alate progeny generally increased as a function of dose. The overall proportions of alate offspring produced, and numbers of days after treatment when morph production was affected, were generally greater for alatae than for apterae, indicating a greater sensitivity to precocene in alatae. However during the first few days after treatment, the alatizing effect of precocene was stronger for apterae, suggesting that the first embryos produced by alatae were irreversibly determined as apterae.In an experiment where isolated alatae and apterae received 0.5 μg of precocene II at different ages ranging from 1 to 13 days after the adult moult, the alatizing effect of the compound, measured by the persistence of alate production, varied with age and morph. While in alatae, the persistence decreased more or less regularly with age, in apterae it initially increased to a maximum in the middle of reproductive life, and subsequently decreased. The results provide support for the hypothesis that juvenile hormone is involved in regulating alary dimorphism in M. euphorbiae.     

Host life stage- and temperature-dependent density of the symbiont Buchnera aphidicola in a subtropical pea aphid (Acyrthosiphon pisum) population

The function of the pea aphid's primary symbiont, Buchnera aphidicola, has been well studied. However, the factors affecting the dynamics of Buchnera density are seldom studied simultaneously. A better understanding of these factors could provide insights into its symbiosis with aphids. This study evaluated the effects of host life stage and rearing temperature on Buchnera density. We measured Buchnera density in seven life stages of pea aphids (Acyrthosiphon pisum) reared at six constant temperatures. Both host life stage and temperature significantly affected Buchnera density, which tended to decrease as aphid age and rearing temperature increased.     

The cowpea aphid, shape Aphis craccivora, host plant odours and pheromones

Olfactometer experiments were conducted with apterae and alatae of the cowpea aphid, Aphis craccivora, Koch (Hom.:Aphidoidea). The occurrence of density dependent related pheromones and odour response to their host plant Vigna unguiculata was studied. Apterae responded with positive anemotaxis to air passed over both small groups of apterae and alatae (10 individuals) but negatively to air that passed over a bigger group (20 individuals). Alatae responded in the same way to groups of apterae but were repelled by alatae independent of the size of the group applied as odour source in the olfactometer, except when exposed to air passing ten alatae feeding on cowpea leaves. This may be due to interaction between aphid pheromones and host plant odour. Both apterae and alatae showed a general attraction to green plants and were also able to distinguish between other host plants and cowpea, which was the original host of the aphid clone used in the experiments. When attacked by aphids, the cowpea plant responded with a temporal increase in attractivity that reached a maximum after 48 h and had disappeared after one week.     

Effect of dietary amino acids on the size and alary polymorphism of Aphis fabae

Aphis fabae was reared on synthetic diets omitting individual amino acids and amino acid groups. Methionine and histidine deletions induced apterae formation and prevented the aphids from reaching the adult stage, whereas arginine, leucine, lysine, and proline deletions induced alatae formation. The omission of alanine, cysteine, phenylalanine, proline, serine, and tyrosine reduced the size attained by adult alatae and together with methionine and histidine, these amino acids are considered to be essential for normal growth by A. fabae. A delay in parturition occurred in aphids reared on certain deficient diets and there is an association between the size attained by alatae and the delay in parturition.     

Intra-specific mechanisms in relation to the natural regulation of numbers of Aphis fabae Scop

Parthenogenetic virginoparous apterae of Aphis fabae Scop. on field beans (Vicia faba) reproduced faster initially in populations of eight colonizing apterae than in those with 2–4 or 16–32 per plant. The aphids were at first mutually benefited but were quickly affected by competition as numbers rose above the critical density represented by about eight apterae and their first progeny. This is because the aphids remained densely aggregated and seemingly created a local shortage despite abundant food and space elsewhere on the plant. Such self-induced competition provides the basis for self-regulation of numbers of A. fabae in relation to (1) food and space provided by the growing plant and (2) mortality from natural enemies and from other causes including insecticides. As competition increased, the multiplication of A. fabae populations slowed, newly formed adult apterae emigrated and increasing numbers of alatae were formed. The mean weights of apterae decreased from about 1·8 mg. to 0·3 mg. and of alatae from 0·9 to 0·2 mg. Such decrease probably favours production of many adults that might otherwise fail to mature. Experiments in a glasshouse and in field cages indicated the success with which an A. fabae population adapts to and exploits a growing plant. Field bean plants sown in mid-March and infested as in the field produced an average of 15,000–17,000 A. fabae emigrants per plant of which 78–84% were adults (mostly alatae). This is equivalent to about 1600 million alate emigrants from 1 acre (0·4 hectare) of an infested field bean crop.     

Influence of diet composition and crowding on wing production by the aphid Myzus persicae

Two factors have been shown to affect alata-production in a Californian strain of Myzus persicae. Contact between adult apterous females increases the proportion of alatae in their progenies as, to a lesser extent, does contact between the larvae themselves. In the absence of behavioural interactions between the aphids, the relative proportions of apterae and alatae can be influenced by the diet the mothers and their larvae receive. By suitable dietary adjustments, it is therefore possible to increase or decrease the proportions of alatae among the progeny of isolated as well as of grouped aphids. In neither case is it necessary to isolate the larvae directly after their birth in order to observe the influence of diet composition on their wing dimorphism.     

Alata-production by an aphid: The “interval timer” concept and maternal age effects

Throughout their lives alate Acyrthosiphon pisum aphids remained unable to produce more alatae in response to crowding. Similarly, the first-born progeny of most alatae were likewise unable to respond to crowding. In contrast, the first-born progeny of apterae responded exceptionally strongly to the crowding stimulus. Later-born progeny of both morphs responded similarly. These data are inconsistent with Lees' theory of “interval timers” since ability to produce alatae did not return simultaneously in all lines founded by alatae. The theory of interval timers must be either replaced or modified to take into account differences related to maternal age.     

Sources of variation in dietary requirements in an obligate nutritional symbiosis

The nutritional symbiosis between aphids and their obligate symbiont, Buchnera aphidicola, is often characterized as a highly functional partnership in which the symbiont provides the host with essential nutrients. Despite this, some aphid lineages exhibit dietary requirements for nutrients typically synthesized by Buchnera, suggesting that some aspect of the symbiosis is disrupted. To examine this phenomenon in the pea aphid, Acyrthosiphon pisum, populations were assayed using defined artificial diet to determine dietary requirements for essential amino acids (EAAs). Six clones exhibiting dependence on EAAs in their diet were investigated further. In one aphid clone, a mutation in a Buchnera amino acid biosynthesis gene could account for the clone''s requirement for dietary arginine. Analysis of aphid F₁ hybrids allowed separation of effects of the host and symbiont genomes, and revealed that both affect the requirement for dietary EAAs in the clones tested. Amino acid requirements were minimally affected by secondary symbiont infection. Our results indicate that variation among pea aphids in dependence on dietary amino acids can result from Buchnera mutation as well as variation in the host genotype.     

Genomic copy number of intracellular bacterial symbionts of aphids varies in response to developmental stage and morph of their host

Buchnera, endosymbiotic bacteria of aphids possess many genomic copies per cell. In this study, we estimated genomic copy number per Buchnera cell from host insects at various developmental stages and of two different morphs, apterae and alatae, by fluorimetry and real-time quantitative PCR. The results indicated that the genomic copy number of Buchnera increased during postembryonic development of insects to adulthood, and that it decreased during the host's ageing. In Buchnera from alatae, the genomic copy number per cell was about twice as many as in those from apterae. DAPI-staining showed that the distribution of the genomic DNA in the Buchnera cells from old insects tended to aggregate, suggesting that intracellular structure of the genomic DNA of Buchnera varies in response to the physiological conditions of their host.     

The rôle of the corpus allatum in prenatal wing determination in Megoura viciae

Crowding stimulates alatae production by the apterous morph of Megoura viciae, but it has no effect on the volume and ultrastructure of the maternal corpus allatum. In adult apterae the corpus allatum appears to be inactive. It is therefore considered that the maternal corpus allatum is not involved in the prenatal control of alary polymorphism in this aphid.     

Alatae production and population increase of aphid vectors on virus-infected host plants

Summary Zucchini yellow mosaic virus (ZYMV) and Aphis gossypii Glover are two components of a recently identified plant-parasite system that provides an excellent opportunity to study interrelations between a virus and a vector that share the same host, but have no direct physiological interaction. In a field experiment we documented numbers of alate and apterous A. gossypii on healthy Cucurbita pepo and on plants inoculated with virus 0, 7, 14, and 21 days before aphid infestation. When plants were inoculated and infested simultaneously, more than twice as many alatae were produced after 20 days of colony growth than on any other treatment. This indicates that properties unique to the early stages of viral infection somehow stimulated wing formation. Because it is spread by the activities of alatae, virus dispersal would be greater as a result of these properties. Developmental rate, total numbers of aphids, and numbers of alatae and apterae decreased as the time between virus inoculation and aphid colonization increased.     

Shared Metabolic Pathways in a Coevolved Insect-Bacterial Symbiosis

The symbiotic bacterium Buchnera aphidicola lacks key genes in the biosynthesis of five essential amino acids (EAAs), and yet its animal hosts (aphids) depend on the symbiosis for the synthesis of these EAAs (isoleucine, leucine, methionine, phenylalanine, and valine). We tested the hypothesis, derived from genome annotation, that the missing Buchnera reactions are mediated by host enzymes, with the exchange of metabolic intermediates between the partners. The specialized host cells bearing Buchnera were separated into a Buchnera fraction and a Buchnera-free host cell fraction (HF). Addition of HF to isolated Buchnera preparations significantly increased the production of leucine and phenylalanine, and recombinant enzymes mediating the final reactions in branched-chain amino acid and phenylalanine synthesis rescued the production of these EAAs by Buchnera preparations without HF. The likely precursors for the missing proximal reactions in isoleucine and methionine synthesis were identified, and they differed from predictions based on genome annotations: synthesis of 2-oxobutanoate, the aphid-derived precursor of isoleucine synthesis, was stimulated by homoserine and not threonine via threonine dehydratase, and production of the homocysteine precursor of methionine was driven by cystathionine, not cysteine, via reversal of the transsulfuration pathway. The evolution of shared metabolic pathways in this symbiosis can be attributed to host compensation for genomic deterioration in the symbiont, involving changes in host gene expression networks to recruit specific enzymes to the host cell.     

Effects of population density on alienicolae of Aphis fabae Scop.

A technique for rearing aphids in dense populations is described. Apterae were reared in high (‘C’) and low (‘U’) population densities and the proportions of alatae among their progenies were compared. Proportions of alatae were larger among progenies of ‘C’ apterae, and the proportions also increased as the density of the population in which the progenies were reared increased. Progenies of alatae never became alatae.     

Differential colonization of wheat cultivars by two biotypes of Russian wheat aphid （Homoptera： Aphididae）

Susceptible and resistance wheat cultivars, Triticum aestivum L, were presented to two biotypes of Russian wheat aphid, Diuraphis noxia （Mordvilko）, in multiple choice tests to assay their relative acceptability as host plants. Both apterae （third and fourth instars） and alate adults were offered plants at the two-leaf stage in different cultivar combinations at 22±1℃ and 16：8 （L： D） hour photoperiod. Apterae were released from Petri dishes in the center of a circle of test plants, whereas alatae dispersed from a mature aphid colony to settle on plants arranged in rows. Both alatae and apterous nymphs of both biotypes readily colonized all cultivars tested：‘2137＇, ‘Akron＇,‘Ankor’,‘ Halt’ ,‘ Jagger’ ,‘ Prairie Red’ , ‘Stanton＇,‘TAM 107＇,‘TAM 110＇,‘Trego＇, ‘ Yuma＇, and ‘Yumar＇. Fewer biotype I apterae responded （settled and fed） in the combination containing more resistant （Dn4- and Dny-expressing） cultivars, compared to the combinations that had fewer. The reverse was true for biotype 2 apterae; more aphids responded in the combination containing the largest number of Dn4 expressing cultivars. Differential colonization of cultivars was observed in only one combination, in which biotype 2 apterae colonized Akron and Yumar in larger numbers than they did Stanton and Yuma. A separate experiment confirmed that, 48 hours after infestation, more biotype 2 apterae abandoned plants of Yuma than plants of Yumar. This differential response was likely due to genetic differences between the two ＇ near isogenic＇ lines that include the lack of Dn4 expression in Yuma. Choice tests with alatae did not result in differential rates of cultivar colonization by either biotype in any combination tested. These results suggest that young wheat plants appear to lack any meaningful antixenosis toward D. noxia, even though the aphids appear to perceive, and sometimes respond to, certain differences in cultivar suitability.     

Effects of maternal diet on offspring fitness in the bird cherry‐oat aphid

1. Maternal and offspring diet effects on life‐history traits of the bird cherry‐oat aphid Rhopalosiphum padi were tested on three wheat varieties. Using nine reciprocal combinations of wheat varieties, the effects of previous experience (maternal diet effect) on the aphid's response to resistant and susceptible varieties (offspring diet effect) were tested. Batis was susceptible, and Xiaoyan22 and Ww2730 were both resistant, but with different mechanisms. 2. Aphids produced the most alatae in the treatments with the most resistant maternal diet variety Xiaoyan22. The fecundity (F) and intrinsic rate of increase (r_m) of these alatae were at their greatest in the most resistant offspring diet variety, but these traits were not influenced in the apterae. 3. There were significant interactions in the alatae production and apterae life‐history traits, such as r_m, development time, weight gain, and mean relative growth rate, between the maternal and offspring diet varieties. The interactions in apterae responses between varieties, some of which were reciprocal, indicated phenotypic plasticity in these parthenogenetic aphids. 4. Rhopalosiphum padi produced more alatae on the most resistant variety; the alatae would disperse and were more fecund. The growth responses of the apterae showed phenotypic plasticity to the different combinations of maternal and offspring diet varieties. The phenotypic plasticity would allow R. padi to better utilise the variable environments represented by the small wheat plots of different varieties in China.     

豆蚜有翅蚜产生的原因

本文研究拥挤、寄土质量、温度和蚜型等因子对大豆蚜(Ahis glyeines)有翅蚜产生的影响。结果表明：1.大豆蚜无翅胎生成好个体间的拥挤是有翅蚜产生的主要原因。在低密度下拥挤反应随密度增大而增强,但过度拥挤会导致反应的降低。无翅若好间的拥挤不能导致其本身发育为有翅胎生蚜。 2.寄主质量能改变无翅胎生成蚜对拥挤的反应。每笼2头经成熟叶片处理的无翅胎生成蚜后代中有姻蚜的比例高于幼嫩叶片和对照(无叶片)处理,且饥饿不能促进有翅蚜的产生。3.温度能影响有翅蚜的产生。较高的温度(30℃和25℃)较21℃对有翅胎生蚌的产生有较强的抑制作用。4.不同母蚜型产生有翊蚜的能力不同。有翅胎生蚜间的拥挤也能使其在后代中产生少量的有翊蚜,但对拥挤的敏感程度低于无翅胎生蚜。     

Proton gradient mediates hemolymph trehalose influx into aphid bacteriocytes

Aphids harbor proteobacterial endosymbionts such as Buchnera aphidicola housed in specialized bacteriocytes derived from host cells. The endosymbiont Buchnera supplies essential amino acids such as arginine to the host cells and, in turn, obtains sugars needed for its survival from the hemolymph. The mechanism of sugar supply in aphid bacteriocytes has been rarely studied. It also remains unclear how Buchnera acquires its carbon source. The hemolymph sugars in Acyrthosiphon pisum are composed of the disaccharide trehalose containing two glucose molecules. Here, we report for the first time that trehalose is transported and used as a potential carbon source by Buchnera across the bacteriocyte plasma membrane via trehalose transporters. The current study characterized the bacteriocyte trehalose transporter Ap_ST11 (LOC100159441) using the Xenopus oocyte expression system. The Ap_ST11 transporter was found to be proton-dependent with a K_m value ≥700 mM. We re-examined the hemolymph trehalose at 217.8 mM using a fluorescent trehalose sensor. The bacteriocytes did not obtain trehalose by facilitated diffusion along the gradient across cellular membranes. These findings suggest that trehalose influx into the bacteriocytes depends on the extracellular proton-driven secondary electrochemical transporter.     

麦长管蚜和禾谷缢管蚜对小麦植株挥发物及蚜害诱导挥发物的行为反应

用四臂嗅觉计测定了麦长管蚜Macrosiphum avenae和禾谷缢管蚜Rhopalosiphum padi对小麦植株挥发物及麦蚜取食诱导挥发物的行为反应,揭示了2种麦蚜的嗅觉及小麦植株的诱导防御反应特点.在所选的13种小麦植株挥发物及蚜害诱导挥发物组分中,6-甲基-5-庚烯-2-酮、6-甲基-5-庚烯-2-醇和水杨酸甲酯对这2种蚜虫表现出强的驱拒作用;反-2-己烯醛对麦长管蚜的有翅和无翅蚜的吸引作用最强;反-2-己烯醇对禾谷缢管蚜的无翅蚜吸引作用最强,反-3-己酰醋酸酯对禾谷缢管蚜有翅蚜的吸引作用最强.说明麦蚜取食能诱导小麦植株的防御反应,麦长管蚜和禾谷缢管蚜及其不同蚜型间嗅觉反应的特点不同.     

Evolutionary relationships of Pemphigus and allied genera (Hemiptera: Aphididae: Eriosomatinae) and their primary endosymbiont,Buchnera aphidicola

Aphids harbor primary endosymbionts, Buchnera aphidicola, in specialized cells within their body cavities. Aphids and Buchnera have strict mutualistic relationships in nutrition exchange. This ancient association has received much attention from researchers who are interested in endosymbiotic evolution. Previous studies have found parallel phylogenetic relationships between non‐galling aphids and Buchnera at lower taxonomic levels (genus, species). To understand whether relatively isolated habitats such as galls have effect on the parallel relationships between aphids and Buchnera, the present paper investigated the phylogenetic relationships of gall aphids from Pemphigus and allied genera, which induce pseudo‐galls or galls on Populus spp. (poplar) and Buchnera. The molecular phylogenies inferred from three aphid genes (COI, COII and EF‐1α) and two Buchnera genes (gnd, 16S rRNA gene) indicated significant congruence between aphids and Buchnera at generic as well as interspecific levels. Interestingly, both aphid and Buchnera phylogenies supported three main clades corresponding to the galling locations of aphids, namely leaf, the joint of leaf blade and petiole, and branch of the host plant. The results suggest phylogenetic conservatism of gall characters, which indicates gall characters are more strongly affected by aphid phylogeny, rather than host plants.