Zoological Science
Volume 25, Issue 3, 2008
Volumes & issues:
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Original Articles
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- Behavioral Biology
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Effects of Self-Generated Wind on Compensational Recovery of Escape Direction in Unilaterally Cercus-Ablated Crickets, Gryllus bimaculatus
View Description Hide DescriptionAbstractThe effects of self-generated wind on the compensational recovery of escape direction were investigated in unilaterally cercus-ablated crickets, Gryllus bimaculatus. To separate walking and self-generated wind during walking, unilaterally cercus-ablated crickets were placed on a styrofoam ball that was easily rotated by leg motion during walking. The stationary walking on the ball did not produce self-generated wind, because no body motion occurred. Crickets that were trained on the ball but given no artificial air puff for 14 days after cercal ablation did not show any compensational recovery of escape direction. Therefore, spontaneous walking itself was not sufficient to compensate the wind-evoked escape direction in the crickets. Artificial air puffs from the anterior direction synchronized with the stationary walking were effective for the compensational recovery of escape direction, but those from the posterior direction were not. As most of the spontaneous walking was directed to the forward direction, only an artificial air puff from the anterior direction coincided well with actual self-generated wind occurring during the onset of normal walking. Therefore, self-generated wind during walking seems essential for the compensational recovery of escape direction in unilaterally cercus-ablated crickets. When artificial air puffs were unsynchronized with walking, no compensational recovery was observed. This result suggests that artificial air puffs should be given just after the onset of spontaneous walking. Otherwise, the artificial air puffs may not be recognized as self-generated wind.
- Cell Biology
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Effects of Mechanical Stretching on Caspase and IGF-1 Expression During the Proliferation Process of Myoblasts
View Description Hide DescriptionAbstractIt has been reported that the synthesis, degradation, and metabolism of muscle proteins in myoblasts, as well as the proliferation and differentiation of cells, are influenced by various related to extracellular signaling molecules, such as neural transmitters, growth factors, and hormones, when muscle tissue has been exposed to mechanical stimulation. However, reports regarding the expression of growth factors during mechanical stimulation of myoblasts are few, and many questions remain unanswered. We examined the mRNA expression of insulin-like growth factor 1 (IGF-1) in myoblasts subjected to mechanical stretching in vitro. In addition, apoptosis caused by intracellular stress has been reported to occur during muscle development at the embryonic stage. To clarify the expression of intracellular stress factors, we here investigated related gene expression. Expression of IGF-1 increased in the early stage of cell stretching, followed by a decrease in the late stage. This suggests that mechanical stimulation resulted in an immediate increase in IGF-1 expression, followed by a decrease as cells acclimated to the inducing environment. Caspase was significantly expressed in a stretch group at 12 hours after the beginning of mechanical stimulation, compared with a control group. This suggests that cellular proliferation is also regulated by intracellular stress factors involving the endoplasmic reticulum, mitochondria, and other organelles during the process of muscle proliferation and differentiation
- Developmental Biology
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Maternal Inheritance of Mitochondrial DNA (mtDNA) in the Pacific oyster (Crassostrea gigas): a Preliminary Study Using mtDNA Sequence Analysis with Evidence of Random Distribution of MitoTracker-Stained Sperm Mitochondria in Fertilized Eggs
View Description Hide DescriptionAbstractIn many bivalve species, paternal and maternal mitochondrial DNA (mtDNA) from sperm and eggs is transmitted to the offspring. This phenomenon is known as doubly uniparental inheritance (DUI). In these species, sperm mtDNA (M type) is inherited by the male gonad of the offspring. Egg mtDNA (F type) is inherited by both male and female somatic cells and female gonadal cells. In Mytilidae, sperm mitochondria are distributed in the cytoplasm of differentiating male germ cells because they are transmitted to the male gonad. In the present study, we investigated maternal inheritance of mtDNA in the Pacific oyster, Crassostrea gigas. Sequence analysis of two mitochondrial non-coding regions revealed an identical sequence pattern in the gametes and adductor muscle samples taken from six males and five females. To observe whether sperm mitochondria were specifically located in the cytoplasm of differentiating germ cells, their distribution was recorded in C. gigas fertilized eggs by vital staining with MitoTracker Green. Although the 1D blastomere was identified in the cytoplasm of differentiating germ cells, sperm mitochondria were located at the 1D blastomere in only 32% of eggs during the 8-cell stage. Thus, in C. gigas, sperm mitochondria do not specifically locate in the germ cell region at the 1D blastomere. We suggest that the distribution of sperm mitochondria is not associated with germ cell formation in C. gigas. Furthermore, as evidenced by the mtDNA sequences of two non-coding regions, we conclude that mitochondrial DNA is maternally inherited in this species.
- Diversity and Evolution
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Origin of the Transition from Aquatic to Terrestrial Habits in Nothopsyche Caddisflies (Trichoptera: Limnephilidae) Based on Molecular Phylogeny
View Description Hide DescriptionAbstractThe larvae and pupae of most caddisflies (Trichoptera) are aquatic, whereas the adults are terrestrial. However, the trichopteran genus Nothopsyche includes species with terrestrial pre-pupal and pupal stages and with an entirely terrestrial life cycle. The phylogenetic relationships within this genus, inferred from sequences of mitochondrial 16S and nuclear 18S ribosomal RNA genes, suggest that Nothopsyche species were originally aquatic and that a single lineage acquired tolerance to terrestrial habitats at the pre-pupal and pupal stages. In this lineage, N. montivaga became completely terrestrial. In addition, the larval case materials changed from plant matter to sand at one point in the phylogeny of this genus.
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Genetic Differentiation of the Fejervarya limnocharis Complex from Bangladesh and Other Asian Countries Elucidated by Allozyme Analyses
View Description Hide DescriptionAbstractThe present study was conducted to elucidate the genetic divergence and the phylogenetic relationships in the F. limnocharis complex from Bangladesh and other Asian countries such as Sri Lanka, Thailand, Malaysia, Taiwan and Japan by allozyme analyses. We used a total of 95 frogs of the F. limnocharis complex from these countries and F. cancrivora from the Philippines as an outgroup. Based on body size, the F. limnocharis complex from Bangladesh was divided into three distinct groups: large, medium and small types. Allozyme analyses were carried out with 28 loci encoding 20 enzymes and two blood proteins by horizontal starch-gel electrophoresis. When Nei's (1972) genetic distance was calculated, distinct divergence was found among the three types: mean genetic distance was 0.782 between the small and medium types, 1.458 between the large and medium types, and 1.520 between the large and small types. Phylogenetic trees based on genetic distance showed that all populations of Bangladesh small type strongly formed a cluster and were found to be most closely related to the Sri Lanka population; that all populations of Bangladesh large type formed a very strong cluster and were grouped with several populations from Thailand, Malaysia, Japan, and Taiwan; and that the medium type was segregated from all other groups. This may imply that each of the three types is a different species, and that the medium type is possibly an undescribed taxon.
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A Trend of Central Versus Peripheral Structuring in Mitochondrial and Nuclear Gene Sequences of the Japanese Wood Mouse, Apodemus speciosus
View Description Hide DescriptionAbstractA phylogeographic analysis was performed on Japanese endemic wood mice (Apodemus speciosus) using nuclear interphotoreceptor retinol binding protein (IRBP) gene sequences (1,152 bp), together with previously published mitochondrial cytochrome b (cyt b) data. In the IRBP analysis, 40 haplotypes were recovered from 84 individuals by statistical and subcloning methods. Substantial sequence variation was determined from the IRBP data (π=0.0047), and no significant evidence of recombination was detected. From the phylogenetic analysis, the 40 haplotypes fell into two major groups with geographic associations, irrespective of the karyotype groups (2n=46 and 2n=48), yielding a trend of central (Hokkaido, Honshu, Shikoku, Kyushu, and Sado) and peripheral (Izu, Oki, Tsushima, and Satsunan Is.) groupings. This geographic pattern is similar to that observed in the cyt b data, with a different insular grouping of Sado, Hokkaido, Izu, and Satsunan islands, and also to that of morphological features. In both gene data sets, nested clade analyses revealed allopatric fragmentation in the “peripheral island clades” and range expansion in the “central island clades.” A mismatch analysis using cyt b data also suggested expansion of the central islands clade. Thus, the trend of central vs. peripheral structuring may be attributable to past demographic dynamics in the two distinct haplotype clades, such as range expansion of one clade in the central area of the Japanese Islands, leaving the other clade in the periphery.
- Ecology
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Experimental Test of Intraspecific Competition Mechanisms Among Tadpoles of Leptodactylus ocellatus (Anura: Leptodactylidae)
View Description Hide DescriptionAbstractIntraspecific competition is predicted to strongly influence species abundance and dynamics through two main mechanisms: consumption and interference of resources. Tadpoles were used in experiments in which we tried to elucidate the relative importance of each mechanism. Our goal was to apply this experimental procedure to Leptodactylus ocellatus, a common South American anuran, a species whose larvae exhibit aggregative behavior and receive parental care. Previous work suggests that tadpole schools should present lower levels of intraspecific competition. Tadpoles from a single nest were reared in the laboratory in three densities (1, 2, and 4 individuals/container) and three food levels (1, 2, and 4 ration multiples) in a randomized three-block design for a factorial analysis of variance, up to day eight. Contrary to previous work with other species, our results show both the absence of interference competition effects, and that larval growth depends only on per capita food availability. The differences between species in intraspecific competition mechanisms are probably related to strong differences in ecology and life history. Leptodactylus ocellatus tadpoles could be directing interference competition away from their kin, reducing schooling costs. Further studies (including kinship as a factor) would give more information about these larvae, allowing a better understanding of the evolutionary and ecological mechanisms behind the biological patterns observed in Leptodactylus species.
- Endocrinology
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Corticosterone Responses to Capture and Restraint in Emperor and Adelie Penguins in Antarctica
View Description Hide DescriptionAbstractBirds respond to capture, handling and restraint with increased secretion of corticosterone, a glucocorticoid hormone that helps birds adjust to stressful situations. Hoods are reported to calm birds, but possible effects of hoods on corticosterone responses have not been reported for any bird. Corticosterone responses to restraint in Adelie penguins held by their legs with their head covered by a hood were markedly lower than responses of penguins restrained in a mesh bag inside a cardboard box (corticosterone at 30 min 15.69±1.72 cf. 28.32±2.75 ng/ml). The birds restrained by the two methods were sampled at the same location but in different years, so the differences in corticosterone responses cannot unequivocally be ascribed to an effect of hoods to reduce corticosterone responses. Corticosterone responses have been measured in some penguins, but not in the largest, the emperor penguin (Aptenodytes forsteri). The relationship between body mass and corticosterone responses to capture and restraint in penguins was examined in emperor penguins captured on sea ice in McMurdo Sound and Adelie penguins (Pygoscelis adeliae) captured at Cape Bird, Ross Island, Antarctica. Total integrated corticosterone responses were higher in the emperor than the Adelie penguins, but corrected integrated corticosterone responses, which represent the increase in corticosterone from initial concentrations and hence the corticosterone response to restraint, were the same. The results for the emperor and Adelie penguins, together with data from other penguin species, suggest that there is no relationship between the size of corticosterone responses and body mass in penguins.
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The Novel Mutant scl of the Medaka Fish, Oryzias latipes, Shows No Secondary Sex Characters
View Description Hide DescriptionAbstractA new mutant that has neither male nor female secondary sex characters was found in the medaka, Oryzias latipes. Both XX and XY mature mutants had gonads with many spermatozoa, but spawning did not occur when the mutants were paired with normal males or normal females. F1 progeny were successfully obtained by artificial insemination using unfertilized eggs from wild-type females and spermatozoa of the XY mutant. The mutant phenotype did not occur in the F1 progeny from this cross. Incrossing among the F1 progeny produced 17 mutant offspring out of 68 progeny (25%), demonstrating that the mutant phenotype is caused by a single recessive mutation. This mutant was named scl (s ex c haracter- l ess). Because papillary processes, a male secondary sex character, were induced in the XY mutants by androgen administration, it seems that the androgen receptor is functioning normally. We found a loss-of-function type mutation in the P450c17 gene of the mutant; this gene encodes a steroidogenic enzyme required for the production of estrogen and androgen. The scl phenotype was completely linked to the mutant genotype of P450c17, strongly suggesting that mutation at the P450c17 locus is responsible for the scl mutant phenotype.
- Genetics
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Chromosomal Aberrations in Japanese Grass Voles in and Around an Illegal Dumpsite at the Aomori-Iwate Prefectural Boundary
View Description Hide DescriptionAbstractBone marrow chromosomes of thirty specimens of the Japanese grass vole, Microtus montebelli (2n=30), which had been caught on and near an illegal dumpsite at the Aomori-Iwate prefectural boundary, were analyzed and compared with those of fifteen grass voles from non-polluted areas as part of an effort to assess genotoxic influences on grass voles in the dumpsite area. Fifty metaphases per specimen were examined with particular attention to numerical and structural aberrations. Two specimens from the dumpsite had 2n=31, which was confirmed by G-banding analysis to have been caused by centric fission of M6 homologs, while control specimens had no such abnormality. In specimens from the polluted area, the mean number of chromosomal aberrations (breaks and/or gaps) per 50 metaphases per specimen was 2.57±0.41, which was significantly higher than that (0.80±0.14; P<0.01) in control specimens. Chromosomal aberrations were randomly distributed on chromosomes, with frequencies being proportional to the relative lengths of chromosomes. Our findings suggest that grass voles at and around the dumpsite have been seriously damaged at the chromosomal level and, moreover, that M. montebelli might be useful as an indicator species for genotoxic assessment of below-ground pollution by industrial waste at illegal dumpsites.
- Molecular Biology
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Mammalian Sox15 Gene: Promoter Analysis and Implications for Placental Evolution
View Description Hide DescriptionAbstractSox15 belongs to the Sox (Sry-type HMG box) protein family, which is involved in placental development and muscle regeneration. Previously, we showed that the Sox15 gene is highly expressed in the trophoblast giant cells of the mouse placenta. To elucidate the molecular mechanisms of the tissue-dependent transcription of the gene, we isolated approximately 2.2 kb of the 5′-flanking sequence upstream of the transcription initiation site and used it to construct luciferase reporter plasmids. A variety of cell lines, including trophoblast stem (TS) cells, placenta-derived Rcho-1 cells, and myoblast C2C12 cells, required the same 5′-flanking sequence, from −109 to −8, for basal promoter activity. In contrast, the sequences from −297 to −149 and from −148 to −110 were required for cell-type-specific promoter activity in myoblast-derived C2C12 cells and placenta-derived Rcho-1 and TS cells, respectively. These results suggest that the region from −297 to −8 of the Sox15 gene contains three distinct cis-elements that respectively control placenta-specific, myoblast-specific, and common basal expression. We also searched for Sox15 ortholog(s) in the genome databases of various vertebrate species. The results indicated that the three regulatory promoter sequences of the Sox15 genes were conserved among eutherian mammals during vertebrate evolution. Interestingly, the marsupial opossum gene that is closest to Sox15 appeared to be a pseudogene. These findings indicate that Sox15 may have been involved in placental evolution.
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Characteristic Expression of Three Heat Shock-Responsive Genes During Larval Diapause in the Bamboo Borer Omphisa fuscidentalis
View Description Hide DescriptionAbstractThree heat shock-responsive genes, Ofhsp70, Ofhsc70, and Ofhsp90, were identified in Omphisa fuscidentalis. These genes encode proteins with molecular weights of 70, 72, and 82 kDa, respectively, and were upregulated during heat shock. Ofhsp70 was expressed actively in the pre-diapause period, but its expression was low during diapause. While Ofhsc70 expression was low during pre-diapause and the first half of diapause, its expression increased greatly in the second half before diapause termination. In contrast, Ofhsp90 expression decreased by half during the transition to diapause and conspicuously decreased during late diapause. The results suggest that Ofhsp90 is associated with the maintenance of diapause and Ofhsc70 with the termination of diapause, whereas the expression of Ofhsp70 is unrelated to diapause. The insect molting hormone 20-hydroxyecdysone (20E) and juvenile hormone analog (JHA) caused increases in the mRNA expression of Ofhsc70, but not Ofhsp70 or Ofhsp90, in diapausing larvae. These transcriptional responses to 20E are consistent with the changes in ecdysteroid titer in the hemolymph relative to gene expression during diapause.
- Reproductive Biology
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Effects of Pituitary Glycoprotein Hormones and Thyroid Hormones on In-Vitro Vitellogenin Incorporation into Organ-Cultured Oocytes in the Japanese Eel, Anguilla japonica
View Description Hide DescriptionAbstractThe objectives of the present study were to establish a long-term culture system for previtellogenic ovarian fragments of the Japanese eel (Anguilla japonica) and to identify the effects of salmon pituitary glycoprotein fraction (SPG), thyroxine (T4), and 3,5,3′-triiodothyronine (T3) on the uptake of vitellogenin (VTG) by cultured ovarian fragments evidenced by the appearance of yolk globules (YGs) within the oocytes. Yolk globules first appeared in the oocytes incubated in media containing only VTG (VTG-only group) after 9 days, whereas YGs began to accumulate in the oocytes of ovarian fragments cultured in media containing VTG+SPG (SPG group) following only 3 days of incubation. Furthermore, the occurrence of vitellogenic oocytes (%VO) and proportion of YGs within oocytes (%YG area) were significantly higher in follicles cultured in 30 ng/ml SPG throughout the culture period. No such stimulatory effects of T4 on VTG uptake were observed. Incubation of ovarian fragments with VTG and T3 (T3 group; 50 ng/ml) resulted in an increased %VO compared to follicles in the VTG group by day 9 of culture, and from day 10 onwards, both %VO and %YG area became significantly higher in follicles of the T3 group. Interestingly, SPG stimulated VTG incorporation and YG accumulation even in small oocytes (~150 μm), whereas T3 showed these effects only in larger sized oocytes (>180 μm). These results suggest that both SPG and T3 can accelerate VTG incorporation, but the mechanisms whereby this is achieved may differ between these hormone preparations.
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Stability in Aromatase Immunoreactivity of Steroid-Producing Cells During Early Development of XX Gonads of the Nile tilapia, Oreochromis niloticus: an Organ Culture Study
View Description Hide DescriptionAbstractThe organ culture system is a useful tool to study the effects of various factors on the development of undifferentiated gonads. In this study, we first established an organ culture system for gonads of all genetic male and female Nile tilapia at 5–122 days after hatching (dah). This short-term (3 days) organ culture system was then used to examine the stability of the immunoreactivity of aromatase (the enzyme which converts androgen to estrogen, thus playing a crucial role in ovarian differentiation) in steroid-producing cells (SPCs). Immunohistochemical analyses revealed that aromatase-positive cells could be initially detected in the vicinity of blood vessels in the XX gonads at 7 dah. These SPCs completely lost their immunoreactivity after 3 days in culture, indicating the instability of SPCs during early ovarian differentiation. In contrast, the immunoreactivity of the SPCs was maintained to some extent even after 3 days in culture, if the gonads were from 15–23 dah. In XX gonads collected at 122 dah, there were two major populations of SPCs: one in the vicinity of the blood vessel and the other near the oocyte. The aromatase immunoreactivity was maintained in SPCs located around the oocytes, but not in those in the vicinity of the blood vessel, after 3 days in culture. These results suggest that the SPCs originate from the cells in the vicinity of the blood vessels prior to the initial ovarian differentiation in tilapia and that the degree of differentiation of SPCs is dependent on their location in the ovary.