This article reviews recent advances in comparative biological studies of vertebrate origins, with the aim of revisiting the long-standing controversy concerning these origins. Since early vertebrate evolution is paralleled by an evolutionary trend towards increasing activity, I focus on the evolution of respiratory and circulatory systems and discuss their potential roles in early vertebrate evolution. I give particular attention to the nasohypophyseal duct, an orifice characteristically found in agnathan vertebrates, and hypothesize that this duct originally functioned to convey oxygen dissolved in seawater to the respiratory gills. The chemosensory cell population that originated from the wall of the duct became the incipient olfactory organ and played a role in the organization of feeding behavior. An increase in chemosensory receptor genes via large-scale genomic evolution in the vertebrate lineage caused the repertoire of chemosensory cells to diversify and led to the appearance of the integrative center, including telencephalic structures typically lacking in protochordates.

Nucleotide sequences of mitochondrial DNA (mtDNA) of 50 domestic cats (Felis catus) obtained from the Tsushima Islands were determined and the genetic diversity was analyzed. In the cats, six haplotypes of the complete cytochrome b sequences (1,140 base-pairs, bp) and ten haplotypes of the partial control region sequences (350 bp) were identified. Haplotypes obtained from both genes showed existence of at least 11 maternal lineages of domestic cats in Tsushima. Mean values of polymorphic site numbers and sequences differences in the control region were 2.4 times and 1.8 times higher than those in the cytochrome b gene, respectively. Our results support the idea that the evolutionary rate of the control region was faster than that of the cytochrome b as reported in other mammals. Molecular phylogenetic trees showed the similar clustering of haplotypes for both genes. Meanwhile, no individual variations within the Tsushima leopard cat (Felis bengalensis euptilura), which is native to Tsushima, were observed, possibly as a result of genetic drift in the small ancestral population by geographical isolation. In contrast, the diversity of the domestic cat population was higher than that of the leopard cats, because the genetic variability of the former's founders, which were repeatedly brought to Tsushima in the past, still remains. In addition, no sequences of the leopard cat mtDNA were detected in any domestic cats. However, because the possibility that the domestic cat would crossbreed with the leopard cat cannot be denied, genetic monitoring of two species is necessary to biological conservation in Tsushima.

Systemic injections of sodium tungstate, a protein-tyrosine phosphatase (PTPase) inhibitor, to pupae immediately after pupation have been shown to efficiently produce characteristic color-pattern modifications on the wings of many species of butterflies. Here we demonstrated that the tungstate-induced modification pattern was entirely different from other chemically-induced ones in a species of nymphalid butterfly Junonia (Precis) orithya. In this species, the systemic injections of tungstate produced characteristic expansion of black area and shrinkage of white area together with the move of parafocal elements toward the wing base. Overall, pattern boundaries became obscure. In contrast, an entirely different modification pattern, overall darkening of wings, was observed by the injections of stress-inducing chemicals, thapsigargin, ionomycin, or geldanamycin, to pupae under the rearing conditions for the adult summer form. On the ventral wings, this darkening was due to an increase of the proportion of peppered dark scales, which was reminiscent of the natural fall form of this species. Under the same rearing conditions, the injections of ecdysteroid, which is a well-known hormone being responsible for the seasonal polyphenism of nymphalid butterflies, yielded overall expansion of orange area especially around eyespots. Taken together, we conclude that the tungstate-induced modifications are clearly distinguishable from those of stress response and ecdysteroid effect. This conclusion then suggests that the putative PTPase signaling pathway that is sensitive to tungstate uniquely contributes to the wing-wide color-pattern development in butterflies.

We observed the reproductive behavior of the oval squid Sepioteuthis lessoniana in captivity. The male used three different mating behaviors: male-parallel (MP), male-upturned (MU) and sneaking. Male competition over females frequently occurred before and during the female egg-laying period, and the outcome of most fights depended on male body size. Larger males guarded their partners from other males and performed MP mating during the egg-laying period of the paired females. In contrast, there was no pairing and mate guarding in MU mating and sneaking, which were adopted by smaller subordinate males as alternative tactics outside female egg-laying period and during the period, respectively. MP matings were 95% successful, but more than half of MU matings were unsuccessful. Higher mating success in MP mating was achieved through pairing, whereas males in MU mating were less successful because mating attempts without pair formation were often foiled by escape of the female. Sneaking was successful in all cases but occurred less frequently. Spermatophores were attached at the opening of the oviduct in MP mating, whereas they were attached around the female buccal membrane in MU mating and sneaking. Considering the route of egg transportation, higher fertilization success can be expected in MP mating because of the advantageous location of the attached spermatophores. Our results suggest that MP mating is used by larger, paired males during the female egg-laying period, and that MU mating and sneaking are alternative tactics adopted by smaller, subordinate males. These alternative mating behaviors would be conditional strategy dependent on relative body size, because some individual males displayed both MP and MU mating behaviors.

We estimated the age, longevity, and growth patterns of a subtropical ranid, Rana swinhoana from high (Lishing) and low (Wulai) elevations using skeletochronology. In addition, we also measured body mass and length of frogs from five other localities. Results showed that both snout-vent length and body mass of frogs were significantly correlated with altitudes for both sexes. Frogs of Lishing were significantly larger and older than that of Wulai. We used LAGs to estimate the age and growth of frogs and found that the growth of Wulai frog of both sexes slowed down at an earlier age than that of Lishing frogs. Male and female frogs from Wulai did not exceed 6 and 7 years, respectively, while the maximum age of males and females of Lishing was 7 and 11 years, respectively. Results suggest that the LAGs observed in R. swinhoana correspond to low temperature and/or decreased food availability instead of desiccation during the harsh annual period (November to February). Skeletochronological data suggest that the variations of body size of R. swinhoana among elevations are likely associated with the growth, age at sexual maturity, and longevity.

The effect of intraspecific contact (Contact) on egg production was examined in the massive coral Goniastrea aspera in Okinawa, subtropical Japan. The contact was non-aggressive without damaging soft tissues each other. Within Contact colonies, polyp volume, polyp fertility (%polyps with gonad), and NE/PV (number of eggs per polyp volume) were significantly smaller in marginal (Mg) polyps without direct intraspecific contact than other polyps, but no difference was found between non-marginal and Mg-Contact (marginal with direct intraspecific contact) polyps. Comparisons of non-marginal polyps (non-marginal and Mg-Contact polyps were combined in Contact colonies) between Non-Contact and Contact colonies showed that fertility and NE/PV were significantly larger in Contact colonies than in Non-Contact colonies, but polyp volume were not different significantly. Further analyses dividing colonies at Non-Contact maturation colony size (60 polyps) revealed that fertility and NE/PV were significantly larger in Contact colonies than in Non-Contact colonies only in the small colonies (<60 polyps), indicating that the intraspecific contact promoted sexual maturation at smaller colony size; one polyped Contact coral was also reproductive. The lack of correlation between polyp volume and NE/PV in the small Contact colonies, and the similarity of NE/PV in non-marginal and Mg-Contact polyps within a colony, suggest that the maturation at smaller size in Contact colonies is realized by reproductive integration of polyps at the colony level. The present results show that size-structured populations such as colonial corals may show phenotypic diversity in key demographic parameters, such as reproductive output, dependent on ecological conditions.

Reproductive activity of Mongolian gerbils is regulated by photoperiod nevertheless body weight regulation is controlled without ambient photoperiod. Food intake is a major factor affecting rodent reproductive efficiency. Leptin is a hormone secreted by adipose tissue and modulates food intake, energy expenditure and body fat stores. In this study we studied the interaction of photoperiod and food availability on growth, sexual maturation and leptin concentration in the male and female gerbils. Gerbils were gestated and reared in either 14L:10D or 2L:22D. At weaning, gerbils were housed individually and divided into three groups: fed ad libitum, fed 80% of ad libitum or fed 60% of ad libitum. Body weights were recorded at weaning and every week thereafter. After twelve weeks of treatment, animals were sacrificed and testes and uterine weights were determined and blood was collected for leptin measurement. Food restriction reduced body weight and inhibited reproductive development. Absolute paired testis weights were similar in ad lib and 80% of ad lib groups but significantly different compared with the 60% of ad lib group in both photoperiods. Body weights were also directly dependent upon the level of food restriction. Uterine mass was only affected in the 60% of ad lib group in 14L but both food restriction levels significantly affected the uterine weights in 2L. Significant variations were found in leptin profiles. Leptin concentration was highest in ad lib and 80% of ad lib groups and lowest in 60% of ad lib groups. These results suggest that the reproductive activity of Mongolian gerbils is sensitive to food intake and multiple potential environmental cues (e.g., food availability, temperature) can be utilized.

Three mitochondrial (mt) genes were sequenced for two Atlantic lancelet species, Branchiostoma lanceolatum and B. floridae, to examine a serious discrepancy among previously published results of molecular studies: substantial sequence difference in a nuclear gene vs. virtual identity in the mt genome sequence. The results revealed that three mt genes of B. lanceolatum, collected from Helgoland in the North Sea and Naples in the Mediterranean, were quite diverged from those of B. floridae, collected from Tampa Bay, Florida. Therefore, the previously recognized identity in the mt genome between the two species is attributable to misidentification of materials used. To correct this misleading information, the complete mtDNA sequence of B. lanceolatum was determined for an individual from Helgoland.

The mature penaeid oocytes possess cortical rods that contain two related cortical rod proteins (CRP, 28.6 kDa and 30.5 kDa). In the present study, localization of CRP mRNA and gene expression profiles of CRP and vitellogenin (Vg) during ovarian development were examined in kuruma prawn, Marsupenaeus japonicus, an economically important species for shrimp and prawn farming. Northern blot analysis revealed that CRP mRNA was expressed in the ovary. In situ hybridization showed strong signals for CRP transcripts in the oocytes at early developmental stages in both immature and mature ovaries. Quantitative analysis by real-time polymerase chain reaction revealed that CRP mRNA levels were higher in the previtellogenic and endogenous (primary) vitellogenic stages than in more advanced stages. Unlike CRP mRNA, Vg mRNA levels were low in the ovary and hepatopancreas in previtellogenic females. When the ovary developed into the endogenous vitellogenic stage, ovarian Vg mRNA levels increased significantly, followed by rapid decrease in more advanced stages. The Vg mRNA levels in the hepatopancreas, on the other hand, tended to be high in the exogenous (secondary) vitellogenic and maturation stages, in which ovarian Vg mRNA levels were decreased. Our findings indicate that CRP mRNA is highly expressed before the onset of vitellogenesis, suggesting that the transcription, translation, and cortical-rod formation of CRP occur at different phases of oocyte development. The endogenous vitellogenic stage is a crucial stage for the initiation of CRP and Vg syntheses. The coincidence of these protein syntheses suggests that CRP and Vg syntheses are regulated by closely-related mechanisms.

Sex is determined by various transcription factors in vertebrates. SRY on the Y chromosome in mammals has been isolated as the sex-determining gene. In birds, Dmrt1 on the Z chromosome of chickens is expressed in the indifferent gonad before sex determination. In amphibians, the sex-determining gene is not known yet. To examine whether Dmrt1 is expressed during sex determination in Xenopus laevis, we first isolated the cDNA, and examined its expression in gonadal development by RT-PCR analysis. The expression of Xenopus Dmrt1 (xDmrt1) was observed exclusively in the testis amosis. The expression was much higher in the testis than in the ovary. This was a pattern different from that in human, mouse, and fish such as tilapia and rainbow trout. In addition, the Dmrt1 mRNA was first detected in the gonad/mesonephros complex of tadpoles at stage 53, at which time the gonads were still indifferent. Taken together, the results suggest that Dmrt1 may be involved in gonadal differentiation of Xenopus.

Wnt4, a member of the Wnt family, is known to influence the sex-determination cascade. In mice having a targeted deletion of Wnt4, masculinization occurs in XX pups. Therefore, in addition to Sry, Wnt4 is also involved in sex determination in mice. In humans, a chromosomal duplication of the WNT4 causes feminization of XY-individuals. Thus, for better understanding of the mechanism of sex determination in vertebrates, it is necessary to examine the expression of Wnt4 at early gonadal development stages in non-mammalians. We first isolated the Wnt4 cDNA from the tetsis of the frog Rana rugosa. R. rugosa Wnt4 had a high similarity (>86%) at the amino acid level with zebra fish, chicken, mouse, and human Wnt4s. We next employed RT-PCR analysis to examine whether Wnt4 was expressed in a sexually dimorphic fashion at early stages of gonadal development in R. rugosa. Wnt4 was transcribed first in the embryos at the late gastrula stage, and its expression was maintained until the indifferent gonad differentiated into a testis or an ovary. Wnt4 expression in the differentiating gonad appeared in a non-sexually dimorphic pattern. The results, taken together, suggest that Wnt4 is highly conserved through evolution, and that its expression in the indifferent gonad takes place with no sexual dimorphism. Thus, Wnt4 is not a key factor to initiate the development of a testis or an ovary from the indifferent gonads in R. rugosa. However, this gene probably forms part of a gonadal-development pathway in this species.

Juvenile rats are known to show certain elements of maternal behavior. In this experiment, to investigate sex difference and postnatal change of retrieving and pup-cleaning (licking) behaviors in juvenile rats, these behaviors were recorded using new observation method at 20, 30 and 45 days of age in female and male Wistar rats. At 20 days of age, maternal behavior was observed in a common plastic observation cage (test A) and then test B was performed. In the test B, observation was carried out using a cage with a wooden box that was open on one side, helping the juveniles to establish a nest. As the results of day 20, most rats in all groups showed licking behavior in both the test A and B. The incidence of retrieving behavior increased from the test A to the test B with the box in both sexes, especially in males (p<0.01). The box is thought to play a facilitative role in induction of retrieving. Moreover, the incidence in males was higher than that in females in the test B (p<0.001). At 30 and 45 days of age, only a test B with box was performed. The incidences of licking and retrieving behaviors at 30 days of age were decreased significantly compared to those at 20 days of age in both sexes(p<0.001). Further decrease from 30 days to 45 days was observed. These results suggest that in juvenile rat, incidence of retrieving behavior in males is higher than that in females but there is no sex difference in incidence of licking behavior. Potency to show these behaviors decreases acutely before puberty in rats.

We previously demonstrated the presence of three forms of vitellogenin (Vg), two 600 kDa Vgs (600Vg; VgA and VgB) and a 400 kDa Vg (400Vg; phosvitinless Vg) in plasma from maturing female viviparous mosquitofish, Gambusia affinis. For further quantitative elucidation of the accumulation and utilization of the multiple Vg-derived yolk proteins, two sandwich enzyme-linked immunosorbent assays (ELISA) were developed using antisera against 600Vgs and a 400 kDa yolk protein (400Yp; derived from 400Vg), respectively. Contents of 560 kDa yolk protein (560Yp; lipovitellins derived from 600Vg) and 400Yp measured by the ELISAs increased in accordance with the growth of vitellogenic oocytes, keeping their proportional ratio (mol/mol) at about 4:1. A similar ratio obtained for plasma Vgs suggests that the proportional accumulation of the multiple Vg-derived yolk proteins is regulated by the hepatic synthesis and secretion of their precursor Vgs. When egg homogenate was analyzed by gel chromatography, three peaks, consisting of 560Yp, 400Yp and 28 kDa native β'-component, were observed. The elution profile showed no change until embryos reached the early neurula stage, however, the relative height of the 560Yp peak as compared to the 400Yp one decreased after retinal pigmentation. Results from measurements of 560Yp and 400Yp at each embryonic stage supported the occurrence of unequal utilization of the two yolk proteins. The proportional ratios (mol/mol) of 560Yp content versus 400Yp content gradually decreased from 4.1 fold in early neurula embryo to 1.4 fold in larva just before parturition. The present study thus demonstrated unequal utilization of the multiple Vg-derived yolk proteins in developing embryos of mosquitofish.