Traditionally, the olfactory epithelium is considered to recognize conventional odors, while the vomeronasal organ detects pheromones. However, recent advances suggest that vertebrate pheromones can also be detected by the olfactory epithelium. In the vomeronasal organ and the olfactory epithelium, structurally distinct multiple receptor families are expressed. In rodents, two of these receptor families, V1R and V2R, are expressed specifically in the vomeronasal organ and detect pheromones and pheromone candidates. A newly isolated trace amine-associated receptor detects some of the putative pheromones in the mouse olfactory epithelium. In addition, distinct second-messenger pathways and neural circuits are used for pheromone perception mediated by each receptor family. Furthermore, the function of these receptor families in these olfactory organs appears to differ among various vertebrate species. The systems for pheromone perception in vertebrates are far more complex than previously predicted.

Species in the wood-feeding genus Salganea within the cockroach subfamily Panesthiinae (Blaberidae) typically live in biparental families; their first instars suffer high mortality when removed from adults, and in at least one species, adults are known to feed neonates on oral liquids. In the closely related gregarious wood-feeding genus Panesthia, no parental interaction with offspring is known. We compared the external morphology of first instars of these two genera and found that eye development and cuticular pigmentation at hatching are correlated with social structure. First instars of Panesthia have a dark cuticle and well-developed eyes. First instars of Salganea have a pale, transparent cuticle, and eyes significantly smaller than those of Panesthia relative to adult eye size. The body size of the first-instar of Salganea esakii is significantly smaller than that of Panesthia angustipennis spadica, relative to adult body size (24.0 and 27.4% of adult head-capsule width, respectively), but a more general survey suggests that, overall, neonate size may be similar in the two genera. We compared the first instars of these two taxa of Panesthiinae to those in the biparental, wood-feeding cockroach Cryptocercus (Cryptocercidae) and discuss how decreased investment in both integumentary and ocular development in subsocial cockroaches parallels that seen in altricial vertebrates.

Males of the viviparous teleost fish Gambusia affinis copulate with females by using a specialized anal fin, or gonopodium. When female G. affinis were placed in a shallow transparent tank which was then floated on the surface of a larger aquarium housing male G. affinis, the males frequently attempted to copulate with females housed in the smaller quarantine tank. This copulatory behavior in male G. affinis was only observed to be elicited by visual stimuli; female G. affinis have a yellow spot and black anal spots around their urogenital opening. To investigate the function of the yellow spot of the female, we examined male copulatory behavior directed towards artificial female models having a yellow, black, gray, or white spot in the genital region. Of the differently colored females tested, males spent a significantly longer time in the vicinity of the artificial model with a yellow spot. In addition, males attempted to copulate with the yellow-spotted female model more frequently than with the models of different colors. These findings revealed that the yellow spot around the female urogenital opening of G. affinis attracts males and functions as a cue for copulation.

Lissoclinum timorense is a colonial ascidian that harbors the prokaryotic alga Prochloron. The algal photosymbionts adhere to the lamellae of the tunic on the posterior half of the trunk of larvae, which aggregate in the common cloacal cavity of the mother colony. Bead-adhesion tests demonstrated that the lamellae are adhesive, whereas the anterior half of the larval trunk is not. The anterior half is covered with a thin layer of outer tunic, which probably prevents Prochloron cells from attaching and interfering with sensory receptors and adhesive organs. The larval structures and the mode of algal transmission between generations are very similar to those of the Prochloron-harboring ascidian Didemnum molle. Molecular phylogenetic analyses have suggested that photosymbiosis was independently established in each genus, and thus the apparent similarity in the larvae probably resulted from convergence. The distribution pattern of photosymbionts is probably more determinative of algal transmission than phylogenetic constraints.

Traditional taxonomy of shell-bearing molluscs does not generally use soft-body coloration. However, the land snails Bradybaena pellucida and B. similaris have been distinguished only on the basis of the color of the soft-body visible through the shell. Thus, the taxonomic status of the two species has traditionally been questionable. We found that dense spots of pigments embedded in the dorsal mantle are responsible for the yellow coloration of B. pellucida. Similar spots in B. similaris are white and less densely aggregated in whorls further from the apex, and the brown color of the hepatopancreas is visible through the shell. The yellow pigments of B. pellucida seep out with mucus from the body in natural and laboratory conditions. The two species became externally indistinguishable after 30 days of laboratory feeding, because the yellow spots disappeared in B. pellucida and the color of the hepatopancreas changed from dark brown to pale brown in both species. Irradiation with ultraviolet A demonstrated that the yellow pigment of B. pellucida fluoresces. Adult specimens of the two species were distinct in penial microsculpture, with F₁ hybrids intermediate in form. Populations of the two species differed significantly in allelic frequencies at four allozyme loci. Therefore, B. pellucida and B. similaris are morphologically and genetically distinct. The fluorescent yellow pigment distinguishes B. pellucida from B. similaris under natural conditions despite its environmental dependence.

We investigated local geographical variation in the plant composition and quality (crude protein) of the diet of the Japanese serow (Capricornis crispus) by analyzing rumen contents. We collected the rumen contents from 111 Japanese serows culled for pest control between January and March 1997 in Shizuoka Prefecture, central Japan. The composition of the diet, characterized by a high proportion of browse (65.2%), including green plant leaves (55.3%), confirmed that the Japanese serow is a typical browser, at least in winter. Although the composition of the diet varied geographically even within Shizuoka Prefecture (i.e. the northern populations included less green broad leaves, and more grasses and Sasa spp.), altitude did not affect the composition. Latitudinal variation in plant composition of the diet was explained by a shift in plant availability within vegetation zones from evergreen broad-leaf to deciduous broad-leaf forests. Lack of variation in the diet plant composition with changes in altitude may be explained by probably greater altitudinal than latitudinal variation in the territories of the Japanese serow, and by greater individual variation in food habits. Diet quality remained at a constant high level regardless of altitudinal and latitudinal variation in diet plant composition. This suggests that the Japanese serow maintains a high-quality diet by selective feeding, which is possible only when the serow is at low population density and in possession of a territory.

We isolated four variants of ER α mRNA, two each from the brain and gonad of the Xenopus embryo (brain, bER α 1 and bER α 2; gonad, gER α 1 and gER α 2). The N-terminal-domain of ER α differed between the brain and gonad. While the C-terminal region downstream of the DNA-binding domain of ER α differed between ER α 1 and ER α 2 in both the brain and gonad, each of ER α 1 and ER α 2 contained the same sequence sets (bER α 1 and gER α 1; bER α 2 and gER α 2) between the brain and gonad. Both bER α 1 and gER α 1 contained the same full-length, C-terminal estrogen receptor, whereas the C terminus of bER α 2 and gER α 2 lacked half of the DNA-binding, ligand-binding, and transcriptional activation domain. Although gER α was mainly expressed in the gonad, both bER α and gER α were expressed in the brain of the Xenopus embryo at stage 50. These isoforms might be transcribed by alterative splicing of a single gene. Two gonad ER β s differing in the length of the N-terminal sequence were isolated from the Xenopus gonad. While ER β was expressed in the gonad, it was not expressed in the brain of the Xenopus embryo at stage 50.

Cranial variation in 129 pantropical spotted dolphins (Stenella attenuata) from the western and eastern tropical Pacific was investigated morphometrically. This study revealed significant sexual dimorphism in the dolphin skulls. Differences between the genders were mostly recorded in the rostrum and braincase, which are wider and more robust in males. This sexual variation was interpreted in terms of differences in behavioral and life-history strategies between genders. Geographical variation among populations of the eastern tropical Pacific (ETP), Japan, and Taiwan was also significant, with different sexual patterns. While no clear trend in geographical variation was detected in males, there was a positive relationship in females between morphological differences and geographical distance. That is, Japanese and Taiwanese female specimens were morphologically more similar than revealed by other pairwise comparisons between them and the ETP specimens. Moreover, two canonical discriminant functions further discriminated the three populations for males and females, respectively. The two functions showed that the rostrum and braincase are the principal elements in discrimination of geographical variation in males, while only the rostrum is the major discriminant morph of geographical variation in females. In addition, tests based on Mahalanobis distance-squares were conducted to assign six specimens from the western tropical Pacific to the above three populations to clarify the similarities among them.

In Oligobrachia mashikoi, a mouthless and gutless polychaete known as a beard worm, sites of production of extra-cellular giant hemoglobin were examined with whole-mount in-situ hybridization and semi-quantitative RT-PCR. An RNA probe was prepared from mRNA of the A2-globin subunit. Clear signals were obtained from a peritoneal membrane covering the trophosome in the posterior body in all seven individuals examined in this study. In addition, weak signals were observed in the peritoneal membrane covering tissues in the middle part of the body in some individuals. Furthermore, in one individual, signals were obtained in complicated bodies invaginated into the dorsal vessel from a peritoneal membrane that also released signals. The results of RT-PCR regarding the expression levels of four kinds of globin-subunit genes suggest that the main site of hemoglobin production is the peritoneal membrane in the posterior body.

The order Zoantharia is known for its chaotic taxonomy and difficult morphological identification. One method that potentially could help for examining such troublesome taxa is DNA barcoding, which identifies species using standard molecular markers. The mitochondrial cytochrome oxidase subunit I (COI) has been utilized to great success in groups such as birds and insects; however, its applicability in many other groups is controversial. Recently, some studies have suggested that barcoding is not applicable to anthozoans. Here, we examine the use of COI and mitochondrial 16S ribosomal DNA for zoanthid identification. Despite the absence of a clear barcoding gap, our results show that for most of 54 zoanthid samples, both markers could separate samples to the species, or species group, level, particularly when easily accessible ecological or distributional data were included. Additionally, we have used the short V5 region of mt 16S rDNA to identify eight old (13 to 50 years old) museum samples. We discuss advantages and disadvantages of COI and mt 16S rDNA as barcodes for Zoantharia, and recommend that either one or both of these markers be considered for zoanthid identification in the future.

Diplosoma variostigmatum sp. nov. is a photosymbiotic ascidian in the family Didemnidae. This species is characterized by the unique pattern of its stigma number, which is often variable within the same zooid, as well as within the same colony. The total number of stigmata per half branchial sac varies from 22 (five, six, six, and five stigmata from the top to bottom rows) to 27 (seven, seven, seven, and six). In contrast, the stigma patterns are constant in D. ooru, D. simile, D. simileguwa, and D. virens. Thus, the stigma number and its stability (or variability) seem to be important as characters for the taxonomy of the photosymbiotic Diplosoma species.