We investigated mutual grooming by Jeju pony (Equus caballus) foals to determine whether male foals preferentially interact with potential future sexual partners or competitors. We predicted that relative to female foals, male foals would exchange grooming more frequently with young mares and that in general, foals would mutually groom more frequently with the opposite sex rather than the same sex. Observing 53 foals between April and October 1998, we recorded 113 mutual grooming events. Male foals exchanged grooming with yearling mares more frequently than with their mother, while female foals exchanged grooming with their mother more frequently than with yearling mares. Contrary to the prediction, foals were not more likely to mutually groom with a foal of the opposite sex than with a foal of the same sex. In our study, 21 instances of play-fighting behavior followed mutual grooming between peers. Relative to intersexual grooming events, play-fighting was more likely to follow intrasexual mutual grooming, and male foals were much more likely to play fight than female foals. These results provide evidence that Jeju pony foals develop and maintain social relationships at the earliest stage of their lives. We suggest that early social experiences might influence social bonding later when the male foal begins to form a harem after separation from its mother.

Human kallikrein 14 (KLK14) is a member of the human kallikrein gene family of serine proteases, and its protein, hK14, has recently been suggested to serve as a new ovarian and breast cancer marker. To gain insights into hK14's physiological functions, the active recombinant enzyme was obtained in an enzymatically pure state for biochemical and enzymatic characterizations. We studied its substrate specificity and behavior to various protease inhibitors, and identified candidate physiological substrates. hK14 had trypsin-like activity with a strong preference for Arg over Lys in the P1 position, and its activity was inhibited by typical serine protease inhibitors. The protease degraded casein, fibronectin, gelatin, collagen type I, collagen type IV, fibrinogen, and high-molecular-weight kininogen. Furthermore, it rapidly hydrolyzed insulin-like growth factor binding protein-3 (IGFBP-3). These findings suggest that hK14 may be implicated in tumor progression in ovarian carcinoma.

We detected a putative γ-tubulin gene in silico and detected BACs containing the gene from a Bombyx mori BAC library. BAC-FISH mapping revealed that the gene is located on chromosome 5. To observe the distribution of γ-tubulin, we employed antibodies against mammalian γ-tubulin peptides. Western blot analysis disclosed a band very similar in size to γ-tubulin protein in other species (approximately 48 kDa). In mitotic metaphase of B. mori spermatogonial cells, γ-tubulin is exclusively localized in the spindle poles, where the centrosomes occur. We applied the same system to the grasshopper Chortophaga viridifasciata, as a representative of insect orders in which the γ-tubulin distribution had not previously been studied. γ-Tubulin was also found in the spindle poles during metaphase of spermatogonial cells in the grasshopper.

We are successfully maintaining a laboratory colony of the lancelet Branchiostoma belcheri bred in the laboratory. Based on living individuals in this mass culture, morphological characteristics from the seven-day larval to benthic juvenile stages have been studied. Most striking was that later larval development of B. belcheri showed great individual variation even in a rather stable culture environment. Metamorphosis first occurred on 60 days post fertilization (dpf) and was continuously observed throughout the present study up to 100 dpf. Morphological traits such as the number of primary gill slits and body size at the start of metamorphosis are apparently affected by culture condition. Body size measured in the largest individuals showed nearly linear growth at 0.087 mm/day. The variability found in larval development calls for caution when developmental stages and chronological ages are compared between populations. However, the developmental flexibility of this animal also raises the possibility that growth and sexual maturation could be controlled artificially in captivity.

Lhx9 is a LIM-homeodomain (HD) transcription factor. Transcripts of the Lhx9 gene are present in the urogenital ridges of mouse embryos. In Lhx9-deficient mice, a discrete gonad is not formed (Birk et al., 2000). To date, however, the role of Lhx9 in gonad formation has not been studied in animals other than chicks and mice. Thus, this study was aimed at determining whether or not Lhx9 is expressed in the developing gonads of amphibians. We first isolated cDNAs of Lhx9 and four isoforms, named Lhx9α, β, γ and δ, from the frog Rana rugosa. All the isoforms lacked the last 14 amino acids of the HD (the DNA-binding motif). RT-PCR analysis revealed that Lhx9 and Lhx9α were highly expressed in the ovary, testis, brain and heart of adult frogs. However, neither Lhx9 nor any of the four isoforms was expressed in the pancreas and kidney. When their expression in the developing gonads of R. rugosa was examined by RT-PCR, transcripts of Lhx9 and Lhx9α were detected with no sexual dimorphism during sex determination. Lhx9γ and Lhx9δ were also expressed, but at a low level. In contrast, the Lhx9β transcript was hardly detected. In addition, in situ hybridization analysis showed that R. rugosa Lhx9 was expressed in somatic cells in the developing gonad and mesonephros far before sex determination. Taken together, Lhx9 and its four isoforms are probably involved in organogenesis in R. rugosa. All the isoforms may function as an endogenous dominant-negative form of Lhx9 in this species.

Two new species of Dalyellidae, Dalyellia callvucurai n. sp. and Gieysztoria namuncurai n. sp., are described from temporary freshwater environments in central Buenos Aires Province, Argentina. The ultrastructure of the stylets of both species is also described. The new species of the genus Dalyellia is the second species of the genus found in the neotropics and the first whose stylet has been studied with scanning electron microscopy. Gieysztoria namuncurai n. sp. joins the seven species of the genus known in Argentina. The ultrastructural characteristics of the stylet place it in the Inaequales group, with complex stylets.

It has been proposed that phenotypic plasticity and genetic assimilation through natural selection partly determine the direction of divergent selection that eventually results in speciation. To elucidate a process of butterfly color-pattern evolution and speciation in the light of this hypothesis, morphological and physiological differences between a pair of sister species, the Painted Lady butterfly Vanessa cardui and the Australian Painted Lady butterfly Vanessa kershawi, were investigated. Ten different traits of wing color-pattern were indicated, most of which concerned the darker coloration of V. kershawi, with the notable exception of the blue foci at the center of the black focal elements only in V. kershawi. Differences in behavior and life history between the two species appeared to be minimal, but importantly, V. kershawi tends to prefer a “stressful” arid environment. The experimental treatment of pupae of V. cardui either by low temperature or by injection of thapsigargin, a stress-inducing chemical, readily produced individuals with the darker coloration and the blue foci as a result of a general stress response. These stress-induced color-pattern modifications were considered to be the revelation of phenotypic plasticity in V. cardui. Taken together, I propose that the ancestral species of V. kershawi had similar phenotypic plasticity. Natural selection exploited this plasticity and shaped the present V. kershawi as an independent species, whose specific color-pattern traits are by-products of this adaptation process.

Buergeria japonica is one of a few frogs that breed in coastal areas. To understand why this species can breed in coastal areas, I tested the salinity tolerance of eggs of B. japonica collected from a coastal area of Okinawa Island, Japan. All eggs hatched within four days after oviposition. At 0‰ salinity (control), over 94% of eggs hatched normally, and even at 1‰ salinity over 85% of eggs hatched. Survival rate of eggs was low at 2, 3, and 4‰, and no eggs hatched at 5‰ salinity. These results indicate that low salinity, close to pure water, is necessary for successful egg development, even for populations of B. japonica that breed in coastal areas. Future studies are necessary to examine whether females of B. japonica breeding in coastal areas select appropriate oviposition sites where the environmental salinity level is sufficiently low for eggs.

This study examined the effects of an injection of 17β-estradiol (E₂) on the expression of estrogen receptor (ER) α and β subtypes in the olive flounder (Paralichthys olivaceus). Time- and dose-related effects of E₂ on ERα and ERβ mRNA expression were determined by RT-PCR. In the liver of males, the two ER transcripts were up-regulated at 24 h. In the liver of females, ERα and ERβ were up-regulated at 36 h with the highest dose. After E₂ treatment, increases in ERα and ERβ expression were observed in the testis and ovary at 36 h; RT-PCR analysis showed that this increase was dose-dependent. After E₂ treatment, the brain tissue of males showed lower levels of ERα and ERβ compared with the untreated control group, whereas the brain tissue of females showed no significant difference compared with controls. The results confirm the hypothesis that ER regulation is tissue-specific and may be involved in E₂-mediated regulation of reproduction in the olive flounder.

This study was conducted to clarify the development of free neuromasts with growth of the barramundi, Lates calcarifer. A pair of free neuromasts was observed behind the unpigmented eyes in newly hatched eleutheroembryos with a mean total length of 1.93 mm, and two-hour-old eleutheroembryos could respond to an approaching pipette. At 2 days after hatching, the egg yolk sac was mostly consumed, the eyes were pigmented, and the larvae commenced feeding on rotifers. Free neuromasts increased in number with growth and commenced developing into canal neuromasts in barramundi 15 days old with a mean total length of 8.07 mm. The average length of the major axis of the trunk free neuromasts attained approximately 12.9–15.5 μm, and the number of sensory cells was 15.4–17.5 at 15–20 days old. Developed cupulae of free neuromasts were observed in 1-day-old eleutheroembryos. The direction of maximum sensitivity of free neuromasts, determined from the polarity of the sensory cells, coincided with the minor axis of the lozenge-shaped outline of the apical surface of the free neuromasts. The polarity of trunk neuromasts was usually oriented along the antero-posterior axis of the fish body, but a few had a dorsoventral direction. On the head, free neuromasts were oriented on lines tangential to concentric circles around the eye.

Social Hymenoptera such as ants or honeybees are known for their extensive behavioral repertories and plasticity. Neurons containing biogenic amines appear to play a major role in controlling behavioral plasticity in these insects. Here we describe the morphology of prominent serotonin-immunoreactive neurons of the antennal sensory system in the brain of an ant, Camponotus japonicus. Immunoreactive fibers were distributed throughout the brain and the subesophageal ganglion (SOG). The complete profile of a calycal input neuron was identified. The soma and dendritic elements are contralaterally located in the lateral protocerebrum. The neuron supplies varicose axon terminals in the lip regions of the calyces of the mushroom body, axon collaterals in the basal ring but not in the collar region, and other axon terminals ipsilaterally in the lateral protocerebrum. A giant neuron innervating the antennal lobe has varicose axon terminals in most of 300 glomeruli in the ventral region of the antennal lobe (AL) and a thick neurite that spans the entire SOG and continues towards the thoracic ganglia. However, neither a soma nor a dendritic element of this neuron was found in the brain or the SOG. A deutocerebral projection neuron has a soma in the lateral cell-body group of the AL, neuronal branches at most of the 12 glomeruli in the dorsocentral region of the ipsilateral AL, and varicose terminal arborizations in both hemispheres of the protocerebrum. Based on the present results, tentative subdivisions in neuropils related to the antennal sensory system of the ant brain are discussed.

The natural spawning behavior of the kissing loach, an endangered species of Botiidae, was investigated in the wild in early June for two years in relation to several environmental factors. Kissing loaches spawned in temporary waters after elevation in water level. All spawnings observed (n=163) occurred within 3–5.5 hours from late afternoon to night after formation of the temporary water. These spawnings were performed by one female and one (71%) or two (29%) males in densely vegetated lentic waters. The female and following male(s) swam into dense grasses, where they vibrated to spawn intermittently. After the vibration continuing for 3–20 seconds, they moved to other parts of the dense grassy area and began vibration again. This sequence of spawning behavior was usually repeated several times, and the eggs were thus scattered widely. The spawning behavior and the rapid larval development of this species appear to be adaptations for the use of temporary waters as a spawning ground. The rise in water level and the consequent formation of temporary waters appear to be crucial triggers for reproduction of the kissing loach.