Zoological Science
Volume 29, Issue 10, 2012
Volumes & issues:
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REVIEW
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Evolutionary and Developmental Aspects of Avian-Specific Traits in Limb Skeletal Pattern
View Description Hide DescriptionThe two sets of paired appendages, called limbs, are locomotory organs in tetrapods that are used for various functions (e.g., walking, running, crawling, digging, climbing, diving, swimming, and flying). Unlike such organs as the eye, which contain specialized tissues such as the lens and photoreceptor, the limb does not have any specialized cells or tissues, but consists of common tissues, such as bone, cartilage, muscle, blood vessels, and dermis. However, limb morphology is highly specialized and varies to provide species-specific modes of locomotion. As do the vertebrae and skull, the limb skeleton varies in morphology among species. The diversity of limb skeletal morphology provides examples of material for studies on morphogenesis. Avian forelimbs have evolved into wings for flight. The skeletal pattern in the avian limb has many traits that are unique among extant species of vertebrates; some of such traits are avian-specific, others are shared with more basal members of Theropoda, to which Aves belongs. Since such avian traits generally form during ontogenic development, determining when and how they appear in the developing embryonic limbs or limb buds provides important insights into the mechanisms underlying the generation of vertebrate morphological diversity. Here, we present an overview of several features of the skeletal pattern in the avian limb and discuss the developmental mechanisms responsible for their unique and lineage-specific traits.
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ORIGINAL ARTICLES
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- Behavioral Biology
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Song Complexity and Auditory Feedback in Birds: A Comparison between Two Strains of Bengalese Finches with Different Degrees of Song Complexity
View Description Hide DescriptionIn adult songbirds, the degree of dependency on audition for maintenance of stable song structure varies from species to species. To date, studies suggest that song deterioration after deafening may be related to the song complexity of the species. Bengalese finches sing songs that are composed of complex note-to-note transitions, and their songs are critically dependent on auditory feedback. Song deterioration occurs within five days of auditory deprivation surgery, much faster than in other species. In contrast, white-rumped munias, a wild strain of Bengalese finches, sing simple songs. To test the hypothesis that the degree of dependency on auditory feedback for the maintenance of song structure is related to song complexity, we deafened two adult white-rumped munias by cochlear removal. Songs of white-rumped munias changed in syntax within five days of surgery, a similar trend observed in Bengalese finches. We suggest that real-time auditory feedback is important in white-rumped munias, despite the simplicity of their song structure. The time course of song alteration by deafened adult birds not determined solely by song complexity.
- Cell Biology
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A New Mutation of Mouse Ruby-eye 2, ru2d/Hps5 ru2-d Inhibits Eumelanin Synthesis but Stimulates Pheomelanin Synthesis in Melanocytes
View Description Hide DescriptionWe previously demonstrated that a novel mutation, characterized by light-colored coats and ruby eyes, which occurred spontaneously in mice in our laboratory, exhibited deletion in the Hps5 gene (ru2d/Hps5ru2-d ). To clarify the mechanism of this hypopigmentation, the characteristics of the neonatal development of ru2d/ru2d melanocytes were investigated in detail with special reference to those of +/+ melanocytes. In ru2d/ru2d mice, there were fewer epidermal melanocytes than in +/+ mice, whereas there was no difference in numbers of epidermal melanoblasts in +/+ and ru2d/ru2d mice, both in dorsal and ventral skin. Epidermal melanocytes with increased dopa-melanin deposition and dendritogenesis were greatly increased by injecting L-Tyr subcutaneously into newborn ru2d/ru2d mice. The eumelanin content in the epidermis and dermis in postnatal ru2d/ru2d mice was much lower than in +/+ mice, whereas similar pheomelanin content was observed 5.5 or 7.5 days after birth both in dorsal and ventral skins. Moreover, the eumelanin content in the dorsal and ventral hairs in 5-week-old ru2d/ru2d mice was much lower than in +/+ mice, whereas pheomelanin content was two to four times greater than in +/+ mice. These results suggest that the ru2d allele suppresses the differentiation of melanocytes through the inhibition of eumelanin synthesis, but stimulates pheomelanin synthesis in melanocytes.
- Diversity and Evolution
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Highly Complex Mitochondrial Dna Genealogy in an Endemic Japanese Subterranean Breeding Brown Frog Rana Tagoi (Amphibia, Anura, Ranidae)
View Description Hide DescriptionThe endemic Japanese frog Rana tagoi is unique among Holarctic brown frogs in that it breeds in small subterranean streams. Using mitochondrial 16S ribosomal RNA and NADH dehydrogenase subunit 1 genes, we investigated genealogical relationships among geographic samples of this species together with its relative P. sakuraii, which is also a unique stream breeder. These two species together form a monophyletic group, within which both are reciprocally paraphyletic. Rana tagoi is divided into two major clades (Clade A and B) that are composed of 14 genetic groups. Rana sakuraii is included in Clade A and split into two genetic groups, one of which forms a clade (Subclade A-2) with sympatric R. tagoi. This species-level paraphyly appears to be caused by incomplete taxonomy, in addition to introgressive hybridization and/or incomplete lineage sorting. Rana tagoi strongly differs from other Japanese anurans in its geographic pattern of genetic differentiation, most probably in relation to its unique reproductive habits. Taxonomically, R. tagoi surely includes many cryptic species.
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The Complete Mitochondrial Genome of Dugesia japonica (Platyhelminthes; Order Tricladida)
View Description Hide DescriptionWe used two sequencing methods, namely long polymerase chain reaction (PCR) and primer walking, to determine the complete mitochondrial DNA (mtDNA) sequence of Dugesia japonica and most of the mtDNA sequence of Dugesia ryukyuensis. The genome of D. japonica contained 36 genes including 12 of the 13 protein-coding genes characteristic of metazoan mitochondrial genomes, two ribosomal RNA genes, and 22 transfer RNA genes. The genome of D. ryukyuensis contained 33 genes, including 12 protein-coding genes, two ribosomal RNA genes, and 19 transfer RNA genes. The gene order of the mitochondrial genome from the Dugesia species showed no clear homology with either the Neodermata or other free-living Rhabditophora. This indicates that the platyhelminths exhibit great variability in mitochondrial gene order. This is the first complete sequence analysis of the mitochondrial genome of a free-living member of Rhabditophora, which will facilitate further studies on the population genetics and genomic evolution of the Platyhelminthes.
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Distribution of Two Distinctive Mitochondrial DNA Lineages of the Japanese Robin Luscinia akahige Across Its Breeding Range Around the Japanese Islands
View Description Hide DescriptionThe genetic structure of the Japanese robin Luscinia akahige across its breeding range was investigated based on mitochondrial cytochrome b and a control region sequence to reveal the phylogeographic history of this species, which is endemic to the islands around Japan. We obtained the 2,230-bp combined sequences of 77 robins from eight locations and identified 33 haplotypes. Of these, two phylogenetic clades, Ak and Tn, were evident in both maximum-likelihood and Bayesian analyses. Clade Ak was found throughout the range, whereas clade Tn was endemic to the Izu Islands, resulting in the mixture of both clades at this location. These two mtDNA lineages were inferred to have originated in different refugia during the mid-Pleistocene glacial period, probably one in southwestern Japan and the other in the Izu Islands. The population in the Izu Islands has been described as an independent subspecies, tanensis, and is known to be distinguished phenotypically from the nominotypical akahige. Therefore, the distribution pattern of the two mtDNA lineages may be better explained by past introgression of mitochondrial DNA rather than by assuming continuous hybridization with immigrants from the mainland. Future nuclear DNA analysis is needed to evaluate the effect of this introgression event on the genetic bases of the current Izu Islands population. Within clade Ak, the haplotype distribution pattern was inferred to be primarily a result of contiguous range expansion, reflecting the history of both range and population expansion after the last glacial period, with some effects of allopatric fragmentation in its southwestern range.
- Endocrinology
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Molecular Cloning and Expression Profile of Sex-Specific Genes, Figla and Dmrt1, in the Protogynous Hermaphroditic Fish, Halichoeres Poecilopterus
View Description Hide DescriptionThe genes folliculogenesis specific basic helix-loop-helix (facor in the germline alpha, Figla) and doublesex and mab-3 related transcription factor 1 (Dmrt1) are female- and male-specific genes that play key roles in sex differentiation. To obtain a better understanding of the molecular mechanisms underlying female-to-male sex change, we cloned the cDNAs of these genes from an ovary and a testis of the protogynus wrasse, Halichoeres poecilopterus. This fish has two isoforms of Dmrt1, Dmrt1a and Dmrt1b, caused by an alternative splicing. The Dmrt1b has an insertion of three nucleotides (CAG) in the open reading frame. Figla and Dmrt1 displayed gonadal-specific expression and abundant in the ovaries and in the testes, respectively. In particular, levels of Figla expression in the ovaries were higher in the spawning season than in the non-spawning season. Once sex change began, Figla mRNA decreased and Dmrt1 mRNA increased with progression of oocyte degeneration and spermatogenesis. These expression levels were maintained until the completion of the sex change. Low Figla and high Dmrt1 were also observed in testes of primary males, which functioned as a gonochoristic male throughout its life span in this wrasse. The results of this study suggest that these genes may regulate the gonadal transition from ovary to testis by the same mechanism as that of formation and maintenance of the primary testis in H. poecilopterus.
- Genetics
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High Degree of Mitochondrial Haplotype Diversity in theJapanease Common Toad Bufo japonicusin Urban Tokyo
View Description Hide Description[The Japanese common toad Bufo japonicus is widely distributed across mainland Japan and is classified into two subspecies, B. japonicus japonicus and B. japonicus formosus, in the western and eastern regions, respectively. To investigate the genetic diversity of B. japonicus at the breeding pond (local population) level, we sequenced 831 base pairs of mitochondrial DNA (mtDNA) cytochrome b (Cyt b) from 75 individuals collected from nine ponds in urban Tokyo and the surrounding area. Phylogenetic and population genetic analyses revealed high mtDNA haplotype diversity (Hd, 0.716 (mean) ± 0.230 (SD)) within local populations (breeding ponds). Most local populations had multiple haplotypes of the mitochondrial Cyt b gene, and seven of the 18 haplotypes were identified in two or more local populations. These results indicate that mitochondrial gene flow had occurred across different breeding sites. We also identified five haplotypes that belonged to the western clade and correspond to B. japonicus japonicus. Our results provide genetic evidence that B. japonicus japonicus was introduced artificially from Western Japan to Tokyo, where it occupied the natural habitat of B. japonicus formosus. The urban Tokyo area was found to represent an admixed population consisting of both native and non-native B. japonicus subspecies.
,The Japanese common toad Bufo japonicus is widely distributed across mainland Japan and is classified into two subspecies, B. japonicus japonicus and B. japonicus formosus, in the western and eastern regions, respectively. To investigate the genetic diversity of B. japonicus at the breeding pond (local population) level, we sequenced 831 base pairs of mitochondrial DNA (mtDNA) cytochrome b (Cyt b) from 75 individuals collected from nine ponds in urban Tokyo and the surrounding area. Phylogenetic and population genetic analyses revealed high mtDNA haplotype diversity (Hd, 0.716 (mean) ± 0.230 (SD)) within local populations (breeding ponds). Most local populations had multiple haplotypes of the mitochondrial Cyt b gene, and seven of the 18 haplotypes were identified in two or more local populations. These results indicate that mitochondrial gene flow had occurred across different breeding sites. We also identified five haplotypes that belonged to the western clade and correspond to B. japonicus japonicus. Our results provide genetic evidence that B. japonicus japonicus was introduced artificially from Western Japan to Tokyo, where it occupied the natural habitat of B. japonicus formosus. The urban Tokyo area was found to represent an admixed population consisting of both native and non-native B. japonicus subspecies.
] - Molecular Biology
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Molecular Cytogenetic Identification and Characterization ofRobertsonian Chromosomes in the Large JapaneseField Mouse (Apodemus speciosus) Using FISH
View Description Hide DescriptionRobertsonian (Rb) karyotypic polymorphism in Apodemus speciosus has interested many researchers with particular referece to the genetic divergence between Rb and non-Rb populations. Failure to find morphologic, biochemical, or genetic differences in previous studies reveals the necessity of focusing on loci on Rb chromosomes, which can be characterized by FISH mapping with DNA probes. In an Rb heterozygote, DNA probes from laboratory mouse chromosomes (MMUs) 1 and 10 were simultaneously hybridized to the long arm of a metacentric and a medium-sized acrocentric chromosome and to the short arm of the metacentric and a small acrocentric chromosome, respectively. Four additional probes derived from each of MMUs 1 and 10 were mapped to the long and short arms, respectively, of the Rb chromosome identified by the above markers. Homologies between the long arm of the Rb chromosome and MMU 1 and between the short arm and MMU 10 were supported by all ten markers, which were dispersed along nearly the entire lengths of the Rb chromosomes. These results indicate that the long and short arms of the Rb chromosomes are homologous to Apodemus speciosus chromosomes 12 and 19 (defined in a previous study), respectively. This ten-marker series can be useful for detecting chromosome-specific divergence between the two karyotypic populations at the gene level.
- Taxonomy
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The DNA Barcoding and the Caveats with Respect to Its Application to Some Species of Palaemonidae (Crustacea, Decapoda)
View Description Hide DescriptionDNA-barcoding has recently attracted considerable attention due to its potential utility in aiding in species identification and discovery through the use of a short standardized sequence of mitochondrial DNA. Nevertheless, despite the fact that this technology has been proven a useful tool in several animal taxa, it also demonstrated limitations that may hinder correct application. Thus, its validity needs to be empirically evaluated in each taxonomic category before forward implementation. As the use of DNA barcoding within Palaemonidae may be of special interest, given its great interspecific morphological conservatism associated with considerable intraspecific morphological variation, we analyze here the potential of this technology in distinguishing and recovering some taxonomic boundaries within this family. We asked whether two GenBank-retrieved sets of COI sequences encompassing the conventional Barcode and Jerry-Pat regions possess the desired properties of reciprocal monophyly among species, and existence of a barcoding gap between intra- and interspecific variations, after performing a careful analysis of numt (nuclear mitochondrial DNA) contamination. These analyses revealed nine non-monophyletic species, with some cases of divergent intraspecific sequences, contrasted with interspecific similarity attained in others. Moreover, we were unable to identify any barcoding gap between intraspecific and interspecific divergences within Palaemonidae, although a threshold of 0.18 substitutions per site would differentiate intraspecific and congeneric divergences in 95% of the cases for the barcoding region. A fraction of the overlap could be certainly attributed to artifacts related to poor taxonomy, but even from this perspective DNA barcoding studies may help to uncover previously disregarded taxonomic and evolutionary issues.