Toyoshi Yoshiga

Pheromone gland-specific fatty-acyl reductase of the silkmoth, Bombyx mori

The C10-C18 unsaturated, acyclic, aliphatic compounds that contain an oxygenated functional group (alcohol, aldehyde, or acetate ester) are a major class of sex pheromones produced by female moths. In the biosynthesis of these pheromone components, the key enzyme required to produce the oxygenated functional groups is fatty-acyl reductase (FAR). This enzyme converts fatty-acyl pheromone precursors to their corresponding alcohols, which, depending on the moth species, can then be acetylated or oxidized to the corresponding aldehydes. Despite the significant role this enzyme has in generating the species-specific oxygenated constituents of lepidopteran sex pheromones, the enzyme has yet to be fully characterized and identified. In experiments designed to characterize a pheromone-gland-specific FAR in the silkmoth, Bombyx mori, we have isolated a cDNA clone encoding a protein homologous to a FAR from the desert shrub, Simmondsia chinensis, commonly known as jojoba. The deduced amino acid sequence of this clone predicts a 460-aa protein with a consensus NAD(P)H binding motif within the amino terminus. Northern blot analysis indicated that 2-kb transcripts of this gene were specifically expressed in the pheromone gland at 1 day before adult eclosion. Functional expression of this gene in the yeast Saccharomyces cerevisiae not only confirmed the long-chain FAR activity, but also indicated a distinct substrate specificity. Finally, the transformed yeast cells evoked typical mating behavior in male moths when cultured with the pheromone precursor fatty acid, (E,Z)-10,12-hexadecadienoic acid.

cDNA cloning of acyl-CoA desaturase homologs in the silkworm, Bombyx mori.

We have isolated two acyl-CoA desaturase clones from a pheromone gland cDNA library by using the EST (expressed sequence tag) database of Bombyx mori. The putative acyl-CoA desaturases encoded by the clones desat 1 (2029bp) and desat 2 (2341bp) have 98% identity, and both proteins show 61% identities to Trichoplusia ni acyl-CoA Delta(11) desaturase. The deduced amino acid sequences conserve well the histidine clusters that are catalytically essential for acyl-CoA desaturase activity. Northern blot and RT-PCR analyses revealed that both transcripts of desat 1 and desat 2 were expressed predominantly in the pheromone gland. Both transcripts detected 3days before adult eclosion dramatically increased a day before adult eclosion, keeping the mRNA levels high even after eclosion. These results, combined with the fact that Delta(11) and Delta(10, 12) desaturation of palmitate is a key step to synthesize pheromone in B. mori, suggest that the desaturases encoded by desat 1 and desat 2 are involved in either or both of the desaturation steps in the pheromone biosynthetic pathway of B. mori. The mRNA levels of desat 1 and desat 2 were not affected by decapitation or injection of the pheromone biosynthesis activating neuropeptide (PBAN) into the adult female moth, suggesting that the transcription of desat 1 and desat 2 is not regulated by PBAN. In addition to the clones in the pheromone gland, eight other clones encoding the same Delta(9) desaturase homolog were found in an embryonic cDNA library by searching from the EST database of B. mori. The deduced amino acid sequence from one of the clones (desat 3) shows 79% identity to T. ni Delta(9) desaturase but only 52% identity to the desaturases in the pheromone gland of B. mori. Northern blot analysis showed that the mRNA corresponding to the desat 3 was detected in the ovary and fat body, but not in the pheromone gland. Abundance of the Delta(9) desaturase clones (eight out of the 762 randomly sequenced clones) in the library prepared from diapause-destined embryos (40h after oviposition) suggests that the Delta(9) desaturase encoded by desat 3 plays an important role in embryonic development in B. mori.

Characterization of acyl-CoA-binding protein (ACBP) in the pheromone gland of the silkworm, Bombyx mori.

Various fatty acyl-CoAs are involved as intermediates or precursors of sex pheromone components in the biosynthetic pathway of the pheromones in many lepidopteran insects. We have purified a 10-kDa protein from the cytosolic fraction of Bombyx mori pheromone glands by using affinity chromatography with a palmitoyl-CoA-agarose column and reversed-phase HPLC. Amino acid sequence analysis of the fragment peptides obtained from the purified protein, and a homology search, revealed that this protein was a member of acyl-CoA-binding proteins (ACBPs). MALDI-TOF mass spectral analysis of the purified protein and cloning of the gene from a pheromone gland cDNA library confirmed B. mori ACBP to be a 90 amino acid protein with 78.9% identity to that of Manduca sexta ACBP. The secondary structure of the recombinant B. mori ACBP was determined by NMR spectroscopy. Northern blot analysis demonstrated that B. mori ACBP was predominantly expressed in the pheromone gland and the corresponding transcript was expressed from the day before adult eclosion. Present results suggest that ACBP plays a significant role in the production of sex pheromones regulated by the neurohormone, pheromone biosynthesis activating neuropeptide (PBAN).

Purification and characterization of three storage proteins in the common cutworm, Spodoptera litura

Three storage proteins named SL-1, SL-2 and SL-3, the former two being synthesized only in the last larval instar, were purified from haemolymph of the common cutworm, Spodoptera litura. All three storage proteins have molecular sizes between 400 and 450 kDa, and are composed of subunit(s) which range in size from 70 to 80 kDa. Chemical cross-linking confirmed that these storage proteins are hexamers. SL-1 and -2 are basic proteins showing homogeneous amino acid compositions with c. 10% aromatic amino acids, the former being rich in methionine. Both are cross-reactive to antiserum against SP-1 (methionine-rich storage protein) of Bombyx mori at the native molecular level, but only SL-1 is cross-reaction to it at the polypeptide level. SL-3 is a neutral protein with an amino acid composition that differs considerably from those of SL-1 and -2, having 20% aromatic amino acids. It is cross-reactive only to antiserum against SP-2 (arylphorin) of B. mori, both at native and subunit molecular levels. From these results, it was concluded that SL-1 and -2 are ‘methionine-rich’ storage proteins with similar conformations but with different epitopes in subunit molecules, while SL-3 is an arylphorin.

Purification and characterization of four biliverdin-binding proteins from larval haemolymph of the common cutworm, Spodoptera litura

Abstract Four biliverdin-binding proteins (BPs) were purified from the larval haemolymph of Spodoptera litura by a combination of KBr gradient ultracentrifugation and chromatofocusing. In the order of highest isoelectric point, we named the proteins BP-1, BP-2, BP-3 and BP-4. All BPs were composed of subunits of 165 kDa and their native molecular weights were estimated as 390 kDa by gel filtration. In addition to biliverdin, they contained more than 3% lipids (cholesterol, cholesterol ester, triacylglycerol, diacylglycerol, monoacylglycerol and phospholipid) and ca 3% carbohydrates ( d -fucose, d -mannose, d -glucose, d -galactose and N-acetyl- d -glucosamine). The amino acid composition of BP-4 differed slightly from the other BPs. In Ouchterlonys immunodiffusion tests, antiserum against BP-2 showed cross-reactivities with BP-1, BP-2 and BP-3, and antiserum against BP-4 only reacted with BP-4. An immunoblotting test revealed strong reactivities between BP-2 antiserum and BP-1, BP-2 and BP-3, and weak cross-reactivity with BP-4. Antiserum against BP-4 only showed strong reactivity with its own antigen, and weak cross-reactivities with BP-1, BP-2 and BP-3.

Species-specific recognition of the carrier insect by dauer larvae of the nematode Caenorhabditis japonica

SUMMARY Host recognition is crucial during the phoretic stage of nematodes because it facilitates their association with hosts. However, limited information is available on the direct cues used for host recognition and host specificity in nematodes. Caenorhabditis japonica forms an intimate association with the burrower bug Parastrachia japonensis. Caenorhabditis japonica dauer larvae (DL), the phoretic stage of the nematode, are mainly found on adult P. japonensis females but no other species. To understand the mechanisms of species-specific and female carrier-biased ectophoresy in C. japonica, we investigated whether C. japonica DL could recognize their hosts using nematode loading and chemoattraction experiments. During the loading experiments, up to 300 C. japonica DL embarked on male and female P. japonensis, whereas none or very few utilized the other shield bugs Erthesina fullo and Macroscytus japonensis or the terrestrial isopod Armadillidium vulgare. In the chemoattraction experiments, hexane extracts containing the body surface components of nymphs and both adult P. japonensis sexes attracted C. japonica DL, whereas those of other shield bugs did not. Parastrachia japonensis extracts also arrested the dispersal of C. japonica DL released at a site where hexane extracts were spotted on an agar plate; i.e. >50% of DL remained at the site even 60 min after nematode inoculation whereas M. japonensis extracts or hexane alone did not have the same effect. These results suggest that C. japonica DL recognize their host species using direct chemical attractants from their specific host to maintain their association.

Specialist versus generalist life histories and nucleotide diversity in Caenorhabditis nematodes

Species with broad ecological amplitudes with respect to a key focal resource, niche generalists, should maintain larger and more connected populations than niche specialists, leading to the prediction that nucleotide diversity will be lower and more subdivided in specialists relative to their generalist relatives. This logic describes the specialist-generalist variation hypothesis (SGVH). Some outbreeding species of Caenorhabditis nematodes use a variety of invertebrate dispersal vectors and have high molecular diversity. By contrast, Caenorhabditis japonica lives in a strict association and synchronized life cycle with its dispersal host, the shield bug Parastrachia japonensis, itself a diet specialist. Here, we characterize sequence variation for 20 nuclear loci to investigate how C. japonicas life history shapes nucleotide diversity. We find that C. japonica has more than threefold lower polymorphism than other outbreeding Caenorhabditis species, but that local populations are not genetically disconnected. Coupled with its restricted range, we propose that its specialist host association contributes to a smaller effective population size and lower genetic variation than host generalist Caenorhabditis species with outbreeding reproductive modes. A literature survey of diverse organisms provides broader support for the SGVH. These findings encourage further testing of ecological and evolutionary hypotheses with comparative population genetics in Caenorhabditis and other taxa.

cDNA cloning of calcineurin heterosubunits from the pheromone gland of the silkmoth, Bombyx mori

Pheromone biosynthesis activating neuropeptide (PBAN) stimulates the step of fatty acyl reduction in the pheromone biosynthetic pathway of the silkmoth, Bombyx mori. It has been suggested that the intracellular signal transduction of PBAN in B. mori involves Ca(2+), calmodulin, and calcineurin (also known as protein phosphatase 2B). We have cloned two cDNAs encoding calcineurin heterosubunits from a pheromone gland cDNA library of B. mori. The 2,996-bp clone predicts a 495-amino acid protein homologous to the catalytic subunit calcineurin A (CnA) with a molecular mass of 55,968. The deduced amino acid sequence well conserves the calcineurin B (CnB)-binding domain and two subdomains, a calmodulin-binding and an autoinhibitory domain, showing 77-85% and 82% identities to the isoforms of Drosophila melanogaster CnA and human CnA, respectively. On the other hand, the 820-bp clone predicts a 170-amino acid protein homologous to the regulatory subunit CnB with a molecular mass of 19,357. The deduced amino acid sequence well conserves four EF-hand type calcium-binding structures, showing 95% and about 85% identities to D. melanogaster CnB and mammalian CnBs, respectively. A yeast two-hybrid system has demonstrated the molecular interaction between B. mori CnA and CnB. Northern blot analyses revealed that both CnA and CnB genes were expressed in various larval and adult tissues of B. mori. Both transcripts detected in the pheromone gland three days before adult eclosion increased by the day before eclosion and the mRNA levels were found to be high even two days after adult eclosion. Immunohistochemical analysis has revealed that B. mori calcineurin is localized in the cytoplasm of the pheromone-producing cells.

Developmental changes of storage proteins and biliverdin-binding proteins in the haemolymph and fat body of the common cutworm, Spodoptera litura

The concentrations of three storage proteins (SL-1,SL-2 and SL-3, hexamers of 70-80kDa subunits) and two biliverdin-binding proteins (BP-A and BP-B, dimers of 165kDa) in the haemolymph and fat body during larval and pupal development of Spodoptera litura were determined by immunodiffusion tests using polyclonal antisera. SL-1 and SL-2 (methionine-rich) first appeared in the haemolymph of one-day-old sixth (final) instar larvae, prominently increased in the haemolymph during the later feeding period and were almost totally sequestered by the fat body after gut purge. SL-3 (arylphorin) was first detected in the haemolymph during the molting period to the final larval ecdysis, increased in concentration throughout the entire feeding period of the final larval instar and was partly sequestered by the fat body several hours later than the other storage proteins. BP-A showed nearly the same pattern in the haemolymph as SL-3: BP-B increased during feeding period and decreased during molting period and attained a maximum level during the penultimate larval instar, however its concentration decreased considerably and remained low in the final larval instar. BP-A was partly and BP-B was almost totally sequestered by the fat body 8 h after sequestration of SL-1 and SL-2, rendering the fat body blue in colour. These facts suggest an additional function of biliverdin-binding proteins as amino acid storage proteins and the results show a differential uptake mechanism for these proteins by the fat body.

Mutualistic association of Photorhabdus asymbiotica with Japanese heterorhabditid entomopathogenic nematodes.

Gram-negative bacteria, Photorhabdus luminescens and P. temperata, form a mutualistic association with entomopathogenic heterorhabditid nematodes while P. asymbiotica is known as an opportunistic human pathogen that causes disseminated bacteremic spread on two continents, the United States and Australia. In the course of our phylogenetic study of Photorhabdus bacteria associated with Japanese Heterorhabditis nematodes, we found two Photorhabdus isolates (Photorhabdus sp. Cbkj163 and OnIr40) whose partial 16S rRNA gene sequence showed high similarities to clinical isolates of this pathogen from Heterorhabditis indica. The phylogenetic study, based upon the gyrase subunit B gene sequences of the two isolates, revealed clustering with these clinical isolates of P. asymbiotica from both the United States and Australia but not with other Photorhabdus bacteria associated with nematodes. The two bacterial isolates were also found to share microbiological and biochemical characteristics with clinical and entomopathogenic Photorhabdus strains. Moreover, not only the two novel Photorhabdus isolates but also an Australian clinical isolate of P. asymbiotica formed mutualistic association with H. indica isolates. These data suggest that the bacteria isolated from H. indica CbKj163 and OnIr40 are a novel subspecies of P. asymbiotica, and that some clinical isolates of P. asymbiotica could have originated from bacteria associated with entomopathogenic nematodes.