Genetic variation and phylogenetic relationship between three serow species of the genus Capricornis based on the complete mitochondrial DNA control region sequences

The molecular evidence of phylogenetic status regarding the Formosan serow (Capricornis swinhoei) is not robust and little is known about the genetic diversity of the Sumatran serow (Capricornis sumatraensis), which partly is due to the hardness in sample collection. Here we determined the sequences of the complete mitochondrial DNA control region (1,014 bp) of 19 Sumatran-serow individuals. Nine new haplotypes were defined based on 78 variable sites. Combined analysis with other 32 haplotypes downloaded from the public database, including 1 Sumatran-serow, 11 Formosan-serow and 20 Japanese-serow (Capricornis crispus) haplotypes, a relatively high level of nucleotide diversity was first observed in Sumatran serow (π = 0.0249). By comparative analysis with structural consensus sequences from other mammals, we have identified central, left and right domains and depicted the putative functional structure, including extend termination associated sequences and conserve sequence blocks, in mtDNA control region. The alignment of mtDNA control region revealed that both Sumatran and Japanese serow have two tandem repeats (TRs), but three TRs in Formosan serow. Phylogenetic analyses revealed that the Formosan serow is distinct species with the Japanese serow, but a sister group with the Sumatran serow. The divergence time estimated among three serow species revealed that Pleistocene climate changes and the uplift of Qinghai-Tibetan plateau might play an important role in the genetic differentiation of the serows. These results mainly provide the convinced evidence on the genetic relationship between three serow species.     

Reclassification of the serows and gorals: the end of a neverending story?

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Organization and variation of the mitochondrial DNA control region in five Caprinae species

The complete mitochondrial DNA (mtDNA) control region was analyzed from five species of the subfamily Caprinae; Naemorhedus caudatus, N. goral, Capra hircus, Capricornis swinhoei, and Capricornis crispus. Among these species, the control region ranged from 1,096 to 1,212 bp in length. Our results were compatible with the scheme of three domains (ETAS, Central, and CSB) within the control region. A + T < G + C was observed in all the domains. In the Korean gorals, of the 31 variable sites in the whole control region resulting in 15 haplotypes, 27 variable sites were in the ETAS domain. We found two to three tandem repeat in all five species examined in this study, three in N. caudatus and N. goral, two in Capra hircus and C. crispus, and one in C. swinhoei, respectively. All of these repeat units include two short sections of mirror symmetry (TACAT and ATGTA). Short mirror symmetries were well-resolved among five different species, although left domain has high substitution rates. By Kimura’s two parameter method, the genetic distances between the genera Naemorhedus and Capricornis were calculated and divergence time between Naemorhedus and Capricornis may be nearly 2Myr.     

Phylogenetic analyses and improved resolution of the family Bovidae based on complete mitochondrial genomes

Efforts have been made to investigate the phylogeny of the family Bovidae; however, the relationships within this group still remain controversial. To further our understanding of the relationships, we sequenced the mitochondrial genome of the Himalayan goral, Naemorhedus goral, an IUCN Redlist near threatened conservation dependent species. Then we conducted molecular phylogenetic relationships of the Bovidae based on Bayesian and Maximum Likelihood methods. The results indicate that the basal divergence within the Bovidae is between the Bovinae and a strongly supported clade of the remaining Bovidae species. The two Neotragus species (the suni and pygmy antelope) clustered with the impala, Aepyceros melampus (Aepycerotinae), and together they formed the most basal of the non-Bovinae. All the genera of the Antilopinae clustered together except Neotragus, which suggested that the Antilopinae was a paraphyletic subfamily. The present study confirmed a close relationship between the genera Capricornis and Naemorhedus while supporting their designation as separate genera and suggested that the Capricornis-Naemorhedus-Ovibos clade (serows, gorals, and the muskox) should be placed in the Caprinae. Bison, Bos, and Tragelaphus (bison & cattle and kudus and nyalas) were paraphyletic. The very close relationship between Bison and Bos suggested that Bos and Bison should be integrated into a single Bos genus. Saiga and Pantholops (the Chiru or Tibetan Antelope), unique genera which have sometimes been lumped together, were placed in different groups: Saiga within the Antilopinae and Pantholops at the base of the Caprinae. Our results also supported a new taxonomy which places the three species of Hemitragus into three monospecific genera: the genus Hemitragus is restricted to the Himalayan tahr, and two new genera are created: Arabitragus for the Arabian tahr and Nilgiritragus for the Nilgiri tahr.     

Habitat associations of four ungulates in mountain forests of southwest China, based on camera trapping and dung counts data

The present study aimed to assess abundance indices and habitat associations of four sympatric ungulate species (alpine musk deer Moschus chrysogaster, tufted deer Elaphodus cephalophus, Chinese serow Capricornis milneedwardsii, and Chinese goral Naemorhedus griseus) in Baima Xueshan Nature Reserve of southwest China, using camera trapping and dung counts data. Camera traps were set along six dung transects in different habitats and explored habitat use of the sympatric ungulates using trapping rates. The results obtained revealed that Chinese serow showed a negative association with open canopy cover and low canopy cover. Alpine musk deer were associated with oak shrubs, oak forests and open canopy cover, while tufted deer avoided oak shrubs. Goral showed no significant associations with habitat variables. Alpine musk deer and tufted deer had considerable habitat overlap with Chinese serow. By finding a high correlation between indices, the study indicates that camera trapping may represent a valid index of relative abundance, matching results from other studies.     

Molecular phylogenetic status of the Korean goral and Japanese serow based on partial sequences of the mitochondrial cytochrome b gene

To investigate the molecular phylogenetic status of the Korean goral, Nemorhaedus caudatus raddeanus, and Japanese serow, Capricornis crispus, we determined partial sequences of the mitochondrial cytochrome b gene of twelve Korean gorals and sixteen Japanese serows, and compared them with those of the major lineages of Rupicaprini species including two other Nemorhaedus species and two other Capricornis species. The Korean gorals examined possessed two haplotypes with only one nucleotide difference between them, while the Japanese serows showed slightly higher sequence diversity with five haplotypes. Genetic distances and molecular phylogenetic trees indicated that there is considerable genetic divergence between the Korean goral and N. caudatus (the Chinese goral) [Groves and Shields (1996)], but virtually none between Korean and Russian gorals. The Korean and Russian gorals may therefore be distinct from the Chinese goral. The data highlight the importance of conservation of the goral populations of these regions, and the need to reconsider the taxonomic status of Korean and Russian gorals. Our study also clearly demonstrated sufficient genetic distance between serows and gorals to justify their assignment to separate genera. Of the three species of Capricornis, the Formosan serow, C. swinhoei is more closely related to C. sumatraensis than to the Japanese serow, suggesting that the Formosan serow is a distinct species. Preliminary data on intraspecific genetic variation in the Japanese serow are also presented.     

Molecular phylogeny based on the κ-casein and cytochrome b sequences in the mammalian suborder Ruminantia

Nucleotide sequences for the -casein precursor proteins have been determined from the genomic DNAs or hair roots of the Ruminantia. The coding regions, exons 2, 3, and 4, were amplified separately via the three kinds of PCRs and then directly sequenced. The primers were designed from the sequence of bovine -casein gene; they were applicable for the amplification of the -casein genes from the 13 species in the Ruminantia except exon 2 of the lesser mouse deer. These results permitted an easy phylogenetic analysis based on the sequences of an autosomal gene. A phylogenetic tree was constructed from the mature K-casein sequences and compared with the tree of the cytochrome b genes which were sequenced from the same individuals. The Cervidae (sika deer, Cervus nippon) were separated from the branch of the Bovidae on the tree of -casein genes with a relatively high confidence level of the bootstrap analysis, but included in the branch of the Bovidae on the tree of cytochrome b genes. The -casein tree indicated a monophyly of the subfamily Caprinae, although the internal branches were uncertain in the Caprinae. The tree based on the nucleotide sequences of cytochrome b genes clearly showed the relationships of the closely related species in the genus Capricornis consisting of serow (C. smatorensis), Japanese serow (C. crispus), and Formosan serow (C. swinhoei). These results would be explained by the difference of resolving power between the -casein and the cytochrome b sequences. Correspondence to: K. Chikuni     

Coexistence of five Cercopithifilaria species in the Japanese rupicaprine bovid, Capricornis crispus

The Japanese serow, Capricornis crispus (Bovidae, Caprinae, Rupicaprini), is parasitized by five Cercopithifilaria species: C. shohoi, recently described, and reexamined in this paper, C. multicauda n. sp., C. minuta n. sp., C. tumidicervicata n. sp., and C. bulboidea n. sp. Coinfections are frequent. The location (skin or subcutaneous regions) in the host of adult worms differed between the species, as did many morphological characters of both adults and microfilariae. The location (limbs, trunk, etc.) in the host of adult worms and dermal microfilariae seemed to differ depending on the species. Male and female worms of the same species had similar head shapes, buccal capsules, and, in four species, swellings in the anterior region of the body (because of the presence of a giant ventral pseudocoelomocyte). The Cercopithifilaria spp. from C. crispus were related to the primitive forms of the genus, parasites of Bovidae and Cervidae, presently recorded in Africa and Europe. C. bulboidea was particularly close to the most primitive species, C. ruandae and C. dermicola, in Africa, with the pairs of caudal papillae numbered 8 and 9 being distant from each other, but the species also had several specialized characters. Like C. rugosicauda in a European cervid, the four other species had pairs 8 and 9 close to each other; they reflect an evolutionary trend (hypertrophy of pair 6, and reduction and posterior migration of pair 7) that suggests diversification in the host.     

The first complete mitochondrial genome from Bostrychus genus (Bostrychus sinensis) and partitioned Bayesian analysis of Eleotridae fish phylogeny

To understand the phylogenetic position of Bostrychus sinensis in Eleotridae and the phylogenetic relationships of the family, we determined the nucleotide sequence of the mitochondrial (mt) genome of Bostrychus sinensis. It is the first complete mitochondrial genome sequence of Bostrychus genus. The entire mtDNA sequence was 16508 bp in length with a standard set of 13 protein-coding genes, 22 transfer RNA genes (tRNAs), two ribosomal RNA genes (rRNAs) and a noncoding control region. The mitochondrial genome of B. sinensis had common features with those of other bony fishes with respect to gene arrangement, base composition, and tRNA structures. Phylogenetic hypotheses within Eleotridae fish have been controversial at the genus level. We used the mitochondrial cytochrome b (cytb) gene sequence to examine phylogenetic relationships of Eleotridae by using partitioned Bayesian method. When the specific models and parameter estimates were presumed for partitioning the total data, the harmonic mean –lnL was improved. The phylogenetic analysis supported the monophyly of Hypseleotris and Gobiomorphs. In addition, the Bostrychus were most closely related to Ophiocara, and the Philypnodon is also the sister to Microphlypnus, based on the current datasets. Further, extensive taxonomic sampling and more molecular information are needed to confirm the phylogenetic relationships in Eleotridae.     

Semen characteristics and sperm morphology of serow (Capricornis sumatraensis)

The serow (Capricornis sumatraensis) is a critically endangered species. The objectives of this study were to evaluate ejaculate quality in captive males, and to investigate and characterize sperm morphology. Semen was collected using electroejaculation. Mean (±S.D.) seminal characteristics were: semen volume 2.3 ± 0.8 mL, pH 7.8 ± 0.4, and osmolality 329.9 ± 32.9 mOsmol/kg; sperm concentration 515.8 ± 263.1 × 10⁶ cells/mL; wave motion score (1-5) 3.9 ± 0.4; motile sperm 60.5 ± 22%; viable sperm 68.3 ± 9.4%; morphologically normal sperm 70.8 ± 19.3%; and an opacity that was yellowish to milky-white. Sperm head length, width, degree of elongation, area, and perimeter were 6.0 ± 0.6 μm, 4.3 ± 0.3 μm, 71.7 ± 8.6%, 19.8 ± 2.5 μm², and 17.9 ± 2.1 μm. Based on these measurements, we categorized sperm head morphometry as small, medium, or large. In addition, sperm morphology was examined by light and scanning electron microscopy; overall, morphologically normal and abnormal sperm were similar to those reported for other bovidae. In summary, this study provided baseline data regarding semen characteristics of C. sumatraensis, which should be of value in the preservation of this endangered species.     

Characterization of the complete mitochondrial genome of Barilius malabaricus and its phylogenetic implications

Bariliine fishes are important components of the ornamental as well as subsistence fishery sectors in India. Many of the species in the genus Barilius are threatened by habitat loss and therefore need to be met with conservation initiatives. Effective conservation measures, however, require clarification of species identities and resolution of the validity of many species currently treated as synonymous or sub-species. The complete mitochondrial genome data provide better insight into phylogenetic information than the short fragment or single gene based analysis. Thus, we have sequenced the complete mitochondrial genome of Barilius malabaricus, one of the important fish species in the fresh water ornamental sector, for better understanding its phylogenetic status. The 16,519 bp mitochondrial genome consists of 37 genes which classifies as 22 tRNA, 13 protein coding and 2 ribosomal RNA genes and a control region. Overall, the mitochondrial genome bears the typical gene order and composition as in other fishes. Further, the COI, cytochrome b and 16S rRNA gene sequences revealed that, B. malabaricus is genetically closer to B. canarensis and B. bakeri compared to other Barilius species. Also, the Barilius species of west flowing rivers in Western Ghats were consistently recovered as a clade distinct from other species. We therefore suggest to retain the genus name Barilius for the species from the Western Ghats until a comprehensive analysis based on both morphological and molecular markers reveals the relationship between species now variously placed in the genera Barilius and Opsarius in greater detail.     

Unveiling a wildlife haven: occupancy and activity patterns of mammals at a Tibetan sacred mountain

Here, we present a camera trap survey at a Tibetan sacred mountain to ascertain the status and activity patterns of medium- to large-sized ground-dwelling mammalian fauna. We recorded 15 medium- to large-sized mammal species including 9 carnivores, 4 ungulates, 1 primate, and 1 rodent. Six of the species were categorized by IUCN as globally threatened. The results suggested that the sacred mountain was particularly important for alpine ungulates. The mean occupancy probabilities of blue sheep Pseudois nayaur, Chinese goral Naemorhedus griseus, Chinese serow Capricornis milneedwardsii, and alpine musk deer Moschus chrysogaster were 0.93, 0.91, 0.87, and 0.44 respectively. Domestic dog Canis familiaris also occurs widely across the mountain, with a mean occupancy of 0.60. Temporal activity patterns showed that alpine musk deer were mostly nocturnal, with most captures occurring at night. Chinese serow were active at all periods, with an activity peak at dawn. Blue sheep were strictly diurnal, without any captures at night. Although Chinese goral were predominantly diurnal, captures also frequently occurred at night. Our study not only unveiled a wildlife haven benefiting from religious beliefs about sacred mountains but also pointed to the critical situation of the fauna in the sacred site. The fauna in such sacred sites are diverse but poorly studied, and are subject to threats from domestic dogs, garbage pollution, and population isolation. Future conservation and management efforts in such areas should evaluate the population genetic diversity and assess the impact of non-lethal human disturbance on the wildlife communities.     

The phylogeny of the Anderson's White‐bellied Rat (Niviventer andersoni) based on complete mitochondrial genomes

The phylogenetic structure of the genus Niviventer has been studied based on several individual mitochondrial and nuclear genes, but the results seem to be inconsistent. In order to clarify the phylogeny of Niviventer, we sequenced the complete mitochondrial genome of white‐bellied rat (Niviventer andersoni of the family Muridae) by next‐generation sequencing. The 16,291 bp mitochondrial genome consists of 22 transfer RNA genes, 13 protein‐coding genes (PCGs), two ribosomal RNA genes, and one noncoding control region (D‐Loop). Phylogenetic analyses of the nucleotide sequences of all 13 PCGs, PCGs minus ND6, and the entire mitogenome sequence except for the D‐loop revealed well‐resolved topologies supporting that N. andersoni was clustered with N. excelsior forming a sister division with N. confucianus, which statistically rejected the hypothesis based on the tree of cytochrome b (cytb) gene that N. confucianus is sister to N. fulvescens. Our research provides the first annotated complete mitochondrial genome of N. andersoni, extending the understanding about taxonomy and mitogenomic evolution of the genus Niviventer.     

Molecular phylogenetic relationships among seven Japanese species of Cercopithifilaria

DNA sequences from a portion of the mitochondrial COI gene were used to clarify phylogenetic relationships among Japanese species in the genus Cercopithifilaria. Sequences were determined from seven Japanese species, five (C. shohoi, C. multicauda, C. minuta, C. tumidicervicata and C. bulboidea) from the serow (Capricornis crispus F. Bovidae) and two (C. longa and C. crassa) from the sika deer (Cervus nippon nippon F. Cervidae). No base substitutions were observed between C. bulboidea and C. longa, suggesting that recent host switching of a lineage of C. bulboidea between bovid and cervid hosts gave rise to C. longa. In phylogenetic trees inferred using a variety of methods, the morphologically ancestral type, C. bulboidea, appeared as a derived species. C. multicauda was found to be basal in the analyses. It seems therefore that C. multicauda is the most primitive out of the seven species.     

Characterization of the complete mitochondrial genome of Diplostomum baeri

Despite Diplostomum baeri (Dubois, 1937) being one of the most widely distributed parasites of freshwater fish, there is no complete mitochondrial (mt) genome currently available. The complicated systematics presented by D. baeri has hampered investigations into the species distributions and infective dynamics of the species. Within this study we obtained complete mt genome sequences of D. baeri and assessed its phylogenetic relationship with other species of Digenea. The complete mitochondrial genome of D. baeri is 14,480 bp in length, containing 36 genes in total. The phylogenetic tree resulting from Bayesian inference of concatenated 12 protein coding gene sequences placed D. baeri alongside published mt genomes of Diplostomidae, with the overall taxonomic placement of the genus being a sister lineage of the order Plagiochiida The characterization of further mitochondrial genomes within the family Diplostomidae will help progress phylogenetic and epidemiological investigations as well as providing a framework for the analysis of diagnostic markers to be used in further monitoring of the parasite worldwide.     

The complete mitochondrial genomes of two brown algae (Laminariales, Phaeophyceae) and phylogenetic analysis within Laminaria

Two complete mitochondrial genome sequences for Laminaria longissima (=Saccharina longissima) and Laminaria hyperborea are reported in this study. They had circular mapping organization with slight difference in size (37,628 and 37,976 bp, respectively) and contained almost the same set of mitochondrial genes, including the genes for three rRNAs (23S, 16S, and 5S), 25 tRNAs, 35 known mitochondrial proteins, and three to four Open Reading Frame genes (ORFs). Both mitochondrial genomes exhibited typical gene content and organization of Laminaria mtDNAs except for the existence of ORF157 genes being located between rRNA large subunit gene 5 (rpl5) and ORF129-139 in L. hyperborea as found in that of Laminaria digitata. The phylogenetic analysis based on mitochondrial genomes supported the hypothesis of the split of the genus Laminaria, and the result of this study provided important information on the molecular evolution of Laminaria.     

Eimeria gozaishoensis n. sp. from the Formosan serow (Capricornis crispus swinhoei)

Eimeria gozaishoensis n. sp. was found in the Formosan serow (Capricornis crispus swinhoei). The oocysts were ovoid, 29.41 +/- 0.58 x 20.77 +/- 0.41 microns with a bilayered wall. A micropyle and micropylar cap were observed, but a polar granule and oocyst residuum were absent. Sporocysts were ovoid, 11.78 +/- 0.30 x 7.60 +/- 0.31 microns, with sporocyst residuum and Stieda body. The new species differs from other known species of the genus by the morphology of oocysts and that domestic goats apparently could not be infected. The sporulation time was 6 to 7 days.     

Complete chloroplast genome sequences of Dipterygium glaucum and Cleome chrysantha and other Cleomaceae Species,comparative analysis and phylogenetic relationships

This current study presents, for the first time, the complete chloroplast genome of two Cleomaceae species: Dipterygium glaucum and Cleome chrysantha in order to evaluate the evolutionary relationship. The cp genome is 158,576 bp in length with 35.74% GC content in D. glaucum and 158,111 bp with 35.96% GC in C. chrysantha. Inverted repeats IR 26,209 bp, 26,251 bp each, LSC of 87,738 bp, 87,184 bp and SSC of 18,420 bp, 18,425 bp respectively. There are 136 genes in the genome, which includes 80 protein coding genes, 31 tRNA genes and four rRNA genes were observed in both chloroplast genomes. 117 genes are unique while the remaining 19 genes are duplicated in IR regions. The analysis of repeats shows that the cp genome includes all types of repeats with more frequent occurrences of palindromic; Also, this analysis indicates that the total number of simple sequence repeats (SSR) were 323 in D. glaucum, and 313 in C. chrysantha, of which the majority of the SSRs in these plastid genomes were mononucleotide repeats A/T which are located in the intergenic spacer. Moreover, the comparative analysis of the four cp sequences revealed four hotspot genes (atpF, rpoC2, rps19, and ycf1), these variable regions could be used as molecular makers for the species authentication as well as resources for inferring phylogenetic relationships of the species. All the relationships in the phylogenetic tree are with high support, this indicate that the complete chloroplast genome is a useful data for inferring phylogenetic relationship within the Cleomaceae and other families. The simple sequence repeats identified will be useful for identification, genetic diversity, and other evolutionary studies of the species. This study reported the first cp genome of the genus Dipterygium and Cleome. The finding of this study will be beneficial for biological disciplines such as evolutionary and genetic diversity studies of the species within the core Cleomaceae.     

Phylogenetic analyses of the harvest mouse,Micromys minutus (Rodentia: Muridae) based on the complete mitogenome sequences

Harvest Mouse (Micromys minutus) has a very wide range of distribution in Asia and Europe. However, the phylogenetic relationship of M. minutus is still uncertain. In this study, we determined the complete mitochondrial (mt) genome sequences of M. minutus, and used the complete mitochondrial genome sequences constructed the phylogenetic tree of Muroidea. The size of the genome is 16,232 bp in length and has a base composition of 33.6% A, 29.1% T, 24.8% C, and 12.5% G. The mitogenome structure was similar to that of typical vertebrate and other rodents' mitochondrial genomes, includes 13 protein-coding genes, 2 rRNA genes (12S rRNA and 16S rRNA), 22 tRNA genes, and 1 control region. We suggested a new initiation codon for ND5 (NADH dehydrogenase subunit), which has been never reported in the mitochondrial genome of vertebrate. The ML and BI phylogenetic trees, which based on the combination of the 12 protein-coding genes, supported strongly that the genus Micromys was represent an early offshoot within the Muridae with high support values (BI = 1.00, ML = 100).     

The complete mitochondrial genome of Plesiastrea versipora (Scleractinia,Plesiastreidae) sheds light on its phylogeny and taxonomy of the family Plesiastreidae

The genus Plesiastrea used to be a member of the traditional family Faviidae, falling into the challenging ‘Bigmessidae’ clade, and was re-established until recent molecular phylogenies published. The entire mitogenome of the symbiotic coral Plesiastrea versipora (Lamarck, 1816), the type species of the family Plesiastreidae, was sequenced. The length of the mitochondrial genome is 15,320 bp and it includes thirteen protein-coding genes (PCGs), two rRNAs and two tRNAs. The nucleotide composition of GC is 32%. We perform phylogenetic reconstruction based on maximum likelihood (ML) and Bayesian analysis(BI) using all PCGs. Our result indicates that P. versipora clusters closely with species which belong to Mussidae, Merulinidae and Lobophylliidae. Our phylogenetic analyses provide solid evidence for phylogenetic placement of P. versipora and the evolutionary relationships among different families within the traditional robust clade of Scleractinia. In addition, the mitogenome data provide useful information for further molecular systematic investigations on Plesiastreidae as well as conservation biology research of P. versipora.