Crayfish initiate walking behavior not only reflexively in response to external stimuli but also spontaneously in the absence of any specific stimulus. In order to analyze the initiation mechanism underlying these different types of walking, we made simultaneous electromyographic (EMG) recordings from thoracic legs when animals initiated walking, either reflexively or spontaneously, and video recorded their movements synchronously with the EMG recording. Two different stimuli, mechanical and chemical, were used to reflexively induce walking. A non-rhythmic, sustained activation of leg muscles was found to precede the behavioral initiation of either type of walking. The duration of this non-rhythmic muscle activation was significantly longer in the spontaneously initiated walking than in the mechanical stimulus-evoked walking, although no difference was observed between the spontaneous and chemical stimulus-evoked walking. EMG recordings from all eight legs revealed that their non-rhythmic muscle activation occurred almost simultaneously prior to initiation of rhythmical stepping movements. When an animal was suspended without a leg substratum, the timing of muscle activation was more variable among the legs than in the free condition on the substratum. When the circumesophageal commissures were both severed to eliminate signals descending from the brain to the thoracic ganglia, the bilaterally coordinated rhythmic burst activity was not observed in the walking legs. These findings suggest that the spontaneous initiation of walking behavior requires sensory feedback signals from leg proprioceptors, subserved by a different descending activation mechanism from that for stimulus-driven initiation of walking.

Onthophagus trituber, O. taurinus, and O. proletarius, three sympatric dung beetle species native to southern Taiwan, exhibit normally distributed body size (pronotum width) but non-normally distributed horn length due to the presence of horned and hornless morphs. The scaling relationships between horn length and body size were established by using sigmoidal and segmented linear estimation, and the horned/hornless ratio in each of the species was estimated. The ratios estimated by sigmoidal curves showed that all three species were biased toward the hornless morph, whereas the ratios from segmented lines showed that only one species (O. taurinus) was biased toward the hornless morph. Nevertheless, the results of the two methods of estimation were concordant in ranking the horned morph proportions among the three species; O. proletarius had the largest proportion of horned morphs, whereas O. taurinus had the smallest, suggesting that the fewer horned morph in O. taurinus likely resulted from both intra- and inter-specific competition.

To clarify the control mechanism of the catalytic activity of casein kinase 2 (CK2) during early embryonic development in the silkworm, Bombyx mori, we attempted an in-vitro functional analysis by using the recombinant α and β subunits of B. mori CK2 (rBmCK2α and rBmCK2β) produced in a bacterial system. The renatured rBmCK2α possessed protein kinase activity. When rBmCK2α and rBmCK2β were reconstituted in an approximate 1:1 molar ratio, the catalytic activity was almost the same as that of rBmCK2α alone. The catalytic activity of rBmCK2α was inhibited by polylysine, which is one of the activators of CK2 activity. However, when using the reconstituted rBmCK2α and rBmCK2β (rBmCK2), activation by polylysine was observed. We examined the influence of sorbitol and 3-hydroxykynurenine (3-OHK), which are contained mainly in diapause eggs, on the phosphorylation activity of rBmCK2. Three-OHK inhibited rBmCK2 activity, but sorbitol had no effect on it. Furthermore, a functional analysis using rBmCK2α and β subunits of Drosophila melanogaster CK2 revealed that a difference in the C-terminal amino acid of the CK2β subunit influenced the phosphorylation activity of rBmCK2α. These results may provide new insights for clarifying the control mechanism of B. mori casein kinase 2 in eggs.

The mouse mylohyoid muscle belongs to the mastication-related suprahyoid muscle group. It shows a plate-like morphology and forms the mouth floor. There have been no reports on the characteristics of the mouse mylohyoid muscle fibers, and especially on their functional role during ingestion action, and many points remain unclear. We examined the mouse mylohyoid muscle at both the transcriptional and protein levels by RT-PCR, immunohistochemistry, and Western Blotting. MyHC-2b, which is expressed in almost all head and neck muscles and is thought to play a role in rapid mastication movement, was not detected in the mouse mylohyoid muscle. This result suggests that the mouse mylohyoid muscle has a special function and does not directly function during ingestion.

The rice frog, Fejervarya multistriata, is an amphibian widely distributed in China. In this study, we sampled the species across its distributional area in China and sequenced the mtDNA D-loop to investigate the genetic diversity and geographical pattern of the frog population. The results revealed 38 haplotypes in the population, with K2P values varying from 0.19% to 4.22%. Both a phylogenetic analysis and a nested clade analysis (NCA) detected two geographically isolated lineages respectively distributed around the Yangtze drainage (Yangtze lineage) and the south of China (southern lineage). NCA inferred a contiguous range expansion within the Yangtze lineage and allopatric fragmentation within the southern lineage, which might be partly due to the limited samples from this lineage. Accordingly, Fu’s F_s test also indicated a population expansion after glacial movement. Therefore, we assumed that the species history responding to glacial events shaped the present population pattern of F. multistriata on the Chinese mainland.

Ghrelin is an important endocrine peptide that links the gastrointestinal system and brain in the regulation of food intake and energy expenditure. In human, rat, and goldfish plasma levels of ghrelin and GH are elevated in fasted animals, suggesting that ghrelin is an orexigenic signal and a driving force behind the elevated plasma levels of GH during fasting. Ghrelin’s orexigenic action is mediated by the ghrelin receptor (GHS-R1a and GHS-R1b) which is localized on neuropeptide Y (NPY) neurons in the brain. Studies were undertaken to investigate the effect of short-term fasting on plasma ghrelin and brain expression of GHS-R1a, GHS-R1b, and NPY in the tilapia. Fasting for 7 days had no effect on plasma ghrelin concentrations, whereas significant increases in plasma levels of GH were observed on day 3. Fasting significantly reduced plasma levels of IGF-I on days 3 and 7, and of glucose on days 3, 5, and 7. Brain expression of ghrelin and GHS-R1b were significantly elevated in fasted fish on day 3, but were significantly reduced on day 5. This reduction was likely due to a significant increase in the expression in the fed controls on day 5 compared to day 0. No change was detected in the expression of GHS-R1a or NPY in the brain. These results indicate that ghrelin is not acting as a hunger signal in short-term fasted tilapia and is not responsible for the elevated levels of plasma GH.

The random positioning machine (RPM) is a method used to generate a simulated-microgravity environment at approximately 0 g. Using an RPM, we analyzed the global gene expression of A8 cells derived from the liver of adult Xenopus laevis. A range of genes on a Xenopus 44K-scale microarray were up- or downregulated two-fold or more: 43 genes (up, 36 genes; down, 7 genes) on culture day 5 in RPM, 74 genes (up, 48 genes; down, 26 genes) on day 8, 105 genes (up, 71 genes; down, 34 genes) on day 10, and 132 genes (up, 98 genes; down, 34 genes) on day 15. Five genes were upregulated two-fold or more throughout culturing in RPM, while only one gene was downregulated over the entire time. We then compared the expression patterns of the RPM-dependent genes in the A8 cells with those in A6 cells established from the kidney of adult Xenopus laevis. Six upregulated genes and three downregulated genes showed the same expression patterns throughout the culturing of A6 and A8 cells in RPM. Such globally responsive genes may play a common role in the cell response to simulated microgravity. We were particularly interested in the downregulation of SPARC in both cell types in RPM, which supported previous observations from simulated-microgravity experiments on earth or microgravity in space. We conclude that SPARC is plays a key role in the response of a cell to microgravity.

The Ogasawara (Bonin) Islands are oceanic islands of volcanic origin located in the northwestern Pacific Ocean about 1,000 km south of the Japanese mainland. A large carpenter bee, Xylocopa (Koptortosoma) ogasawarensis, is endemic to the islands but its closest relative is unknown. The Ogasawara Islands are geographically closest to the Japanese Archipelago, but this area is inhabited only by species of a different subgenus, Alloxylocopa. Thus, X. ogasawarensis is commonly thought to have originated from other members of Koptortosoma, which is widely distributed in the Oriental tropical region. In this study, we investigated the origin of X. ogasawarensis using a phylogenetic analysis of Xylocopa based on four genes: mitochondrial cytochrome oxidase subunit I (COI) and cytochrome b (Cyt b), and nuclear elongation factor-1α (EF-1α) and phosphoenolpyruvate carboxykinase (PEPCK). A combined analysis of the four genes strongly suggests that Koptortosoma is a large, polyphyletic group, within which Alloxylocopa is embedded. Xylocopa ogasawarensis emerged as the species most closely related to Alloxylocopa and not to Oriental species of Koptortosoma. Contrary to previous views of the origin of X. ogasawarensis, our results suggest that X. ogasawarensis and Alloxylocopa share a common origin and diverged after they colonized the island regions of East Asia.

The majority of species in the scincid genus Emoia (Squamata: Scincidae) have a fixed clutch size of two eggs per clutch and produce between two and four clutches per year. One lineage within Emoia, the Emoia samoensis species group, consists of 13 species occurring in Melanesia and the islands of the southwestern Pacific Ocean, and exhibits variation in clutch size, with previously reported clutch sizes of two to five eggs. Little is known about reproduction in several members of this lineage including Emoia sanfordi, a large-bodied lizard endemic to the archipelago of Vanuatu in the South Pacific. We analyzed reproduction and clutch size in E. sanfordi females and discovered that there is a substantial amount of intraspecific variation, with clutch size ranging from two to seven eggs, with a modal clutch size of five eggs. Females were reproductively active throughout the study period of June through October and appear to be laying multiple clutches. The variation in clutch size seen in E. sanfordi is congruent with the variation previously reported within other closely related species.

Tardigrades are generally gonochoristic. Many moss-dwelling species propagate by parthenogenesis, but heterogony has not yet been found. Milnesium tardigradum, a carnivorous tardigrade, also has both sexes, but males are usually rare and many populations appear to have only parthenogenetic reproduction. Since 2000, I have maintained a thelytokous strain of Milnesium cf. tardigradum that originated from one female. Individuals of this strain were thought to be all females, but here I report that males have emerged in this strain at a very low frequency. This is the first report of the appearance of males in parthenogenetic tardigrades. On the first pair of legs of some individuals, I observed the modified claws characteristic of males of this species. It is unknown whether these males can actually function in sexual reproduction; however, they might allow some possibility of genetic exchange among clonal populations. No environmental factors that generate males were determined.

The primary objective of this study was to assess the efficacy of ferulic acid (FA), a phenolic antioxidant, in ameliorating oxidative stress in the testis and liver of diabetic pubertal rats. Male (6 wk old) rats were rendered diabetic by an acute dose (60 mg/kg body weight, intraperitoneal) of streptozotocin (STZ) and were given oral supplementation of FA (50 mg/kg body weight/d on alternate days) for 4 weeks. The protective efficacy of FA was assessed by measuring markers of oxidative stress in the testis and liver along with the effect of stress on lipid profile in serum/testis. Terminally, the testis (cytosol and mitochondria) of STZ-administered rats exhibited a marked elevation in the status of lipid peroxidation and enhanced reactive oxygen species (ROS) production compared to the non-diabetic controls. FA treatment completely normalized the oxidative impairments in the testis. Further, STZ-induced depletion of reduced glutathione (GSH) and elevated protein carbonyl content in the testis were restored to normalcy by FA treatment. The protective effects of FA were also discernible in the testis in terms of restoration of activities of various antioxidant enzymes in the diabetic rats. Furthermore, STZ-induced oxidative impairments in the liver were also abrogated significantly by FA treatment. STZ-induced perturbations in serum and testicular lipid profiles in the diabetic rats were also significantly attenuated by FA treatment. Collectively, these results indicate that oral supplementation of FA can significantly mitigate diabetes-associated oxidative impairments in the testis as well as in the liver and suggests the efficacy of FA as a complementary therapeutic agent in the management of diabetes-associated oxidative stress-mediated complications.

An evolutionarily interesting nematode, Bursaphelenchus okinawaensis sp. nov., is described and illustrated. The new species has several characteristic morphological traits, i.e., four lateral lines in both sexes, lack of a vulval flap in females, and a triangular spicule shape and stout P4 caudal papillae in males, and characteristic biological traits, including phoretic association with Monochamus maruokai, a species of longhorn beetle, parthenogenetic reproduction, and a high frequency of dauer production. Bursaphelenchus okinawaensis sp. nov. shares several important traits with various phylogenetic groups within the genus. The new species shares its spicule shape with B. hellenicus and B. hofmanni. It shares four lateral lines, P4 caudal papillar structure (size and position), and female vulval shape with the ‘hunti’ group, although it was molecularly inferred to be phylogenetically closer to the ‘xylophilus’ group and B. africanus. The autapomorphic traits of B. okinawaensis sp. nov. are parthenogenetic reproduction and high frequency of dauer production. All other nominal Bursaphelenchus nematodes have bisexual reproduction and tightly synchronized dauer production. The unique morphological and biological traits of B. okinawaensis sp. nov. suggest genetic flexibility within the genus. The importance of the morphology and arrangement of the caudal papillae is discussed relative to the phylogeny of the genus.