Species- and sex-specific multiple pcr amplifications of partial cytochromeb gene andZfx/Zfy introns from invasive and non-invasive samples of Korean ungulates

There are five representative ungulates (e.g., goral,Nemorhaedus caudatus; goat,Capra hircus; roe deer,Capreolus pygargus; water deer,Hydropotes inermis; musk deer,Moschus moschiferus) in the wild of South Korea. Their fecal morphologies are similar to each other between species or sexes, and therefore it is very difficult to identify the species or sex. To distinguish the species and sex of the elusive animals, we developed species- and sex-specific multiple PCR amplifications using pairs of primer sets. Partial cytochromeb gene andZfx/Zfy introns were targeted for the PCR amplifications. For species identification using a multiple primer set (BJGL-F1/GT-F1/RD-F1/WD-F1/MD-F1 and BJGL-R/GT-R/RD-R/WD-R /MD-R), all (n=21/21) of the invasive samples were correctly identified. About 71% (n=15/21) of the non-invasive samples were successfully identified. The multiple primer set could determine each species which showed a unique sized PCR fragment. For sex identification using a multiple primer set (BJSexX-F/Y-F and BJSex-R1), about 90% (n=19/21) of invasive samples were correctly determined. About 62% (n=13/21) of the non-invasive samples were successfully identified. Using the multiple primer set, both X-and Y-chromosome linked bands for males (n=21) and only X-chromosome linked band for females (n=11) could be detected. The results would be applicable to the species and sex identification of the Korean and the Far-East Asian wild ungulates.     

Morphometric analyses of non-invasive fecal samples of the Korean long-tailed goral (Naemorhedus caudatus) for species and age identification

The Korean long-tailed goral (Naemorhedus caudatus) is at risk of population decline due to habitat loss and fragmentation. Therefore, it is essential to ascertain its presence and/or the identity of individuals of the goral using non-invasive fecal samples for its conservation and management. In this study, we examined the morphology of fecal samples to provide the baseline data that can be used to distinguish species and age of goral individuals. We detected a significant difference in the length-to-width ratios of feces among the five ungulate species found in Korea. Also, we detected a significant difference in the length-to-width ratios of feces of gorals depending on the age groups. To assess the accuracy of species and age identification based on the fecal morphology, we conducted a series of blind comparison between the mean length-to-width ratios of the fecal pellets and the reference mean ratio values of the fecal pellets. Using 20 fecal pellets, our results showed 73%–86% probability of correct identification of the three species (gorals, goats, and roe deer), and 83%–90% probability of correct identification of >5 year-old goral individuals. The use of fecal morphometric analyses will be useful for the studies of Korean ungulate species, particularly the endangered gorals.     

Cross-species amplification of Bovidae microsatellites and low diversity of the endangered Korean goral

The Korean goral (Nemorhaedus caudatus) is an endangered species of wild goat. The conservation and management of this species could benefit from a better understanding of its genetic diversity and structure. Cross-species amplification of 34 Bovidae microsatellite loci was tested on a panel of 6 Korean gorals and 10 domestic goats. After polymerase chain reaction (PCR) optimization, 29 (85.3%) microsatellite loci amplified successfully for the Korean gorals and 27 (79.4%) for the domestic goats. Of the amplified products, 16 (55.2%) were polymorphic in the Korean goral and 22 (81.5%) in domestic goats. Nei's unbiased mean heterozygosity and mean allele number per locus were, respectively, 0.356 and 2.6 in the Korean goral and 0.636 and 4.8 in domestic goats. Low genetic diversity in the Korean gorals observed in this preliminary microsatellite survey suggests an urgent need for further detailed study of genetic diversity in Korean goral populations and a population management strategy based on these studies. Current results of cross-species amplification of domestic Bovidae microsatellites could be employed for the necessary population genetic studies on the Korean goral and other endangered Caprinae species.     

A rapid sex-identification test for the forest musk deer (Moschus berezovskii) based on the ZFX/ZFY gene

We describe a rapid sex-identification method for the forest musk deer (Moschus berezovskii) using PCR based on zinc-finger protein-encoding genes (ZFX/ZFY) located on the X and Y chromosomes. Fragments of the ZFX and ZFY genes were amplified and sequenced. The ZFX and ZFY fragments were identical in length and 94% similar in nucleotide sequence. Specific primers for forest musk deer sex identification were designed on the basis of sequence differences between ZFX and ZFY. All the primers were multiplexed in single-tube PCR. Both male and female forest musk deer showed amplification bands of 447 bp and 212 bp separated in agarose gels. A sex-specific 278-bp band was amplified only from males. These results show that testing by PCR for the presence of the 278-bp sequence is a rapid and reliable method for sex identification.     

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.     

A system for sex determination from degraded DNA: a useful tool for palaeogenetics and conservation genetics of ursids

In this paper, we characterise three sex-specific genes (ZFX/Y, SRY, AMLX/Y) for all eight extant bear species and propose a new, robust and accurate molecular procedure to identify the sex of bears from non-invasive samples and fossil remains. These materials contain tiny amounts of poorly preserved deoxyribonucleic acid (DNA), leaving Polymerase Chain Reaction (PCR) amplification very prone to contamination and difficult to analyse. By taking into account the ancient DNA requirements, the duplex procedures that we developed are efficient not only on DNA extracted from bear faeces but also on ancient DNA extracted from a brown bear fossil 7,500 years old. Defined specifically for ursids, the procedure for faecal samples (co-amplification of ZFX/Y and SRY markers) appears more accurate than other published procedures, as it prevents cross-amplification of potential ingested prey and contamination (19 non-ursid species tested). This system can be applied to threatened bear populations to improve the reliability of sex-ratio and population-size estimates based on non-invasive samples. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorised users.     

A triple-primer PCR method for sexing endangered caprine species

Molecular sexing is becoming an essential technique in understanding the sexual structure and dynamics of natural populations. Herein, we report on a triple-primer PCR method based on the last introns of the ZFX/Y alleles for sex identification in Bovidae, and its successful application to five endangered caprine species. The male samples generated a ~230 bp ZFX-specific fragment and a ~140 bp ZFY-specific fragment, and the female samples only generated the ~230 bp fragment. This method is very sensitive to the Y-linked fragment, thus effectively avoiding false negatives. Genomic DNA extracted from well preserved tissues, non-invasive samples and smoked meat are all usable for analysis with this method.     

红外相机技术在北京雾灵山自然保护区兽类资源调查中的应用

为了调查北京市雾灵山自然保护区兽类资源情况,自2013年7月至2014年5月,在雾灵山32个位点处布放红外相机进行系统调查,累积相机工作日3630天,共拍摄到兽类有效照片494张,鉴定出10种动物,包括：狍（Capreolus capreolus）、斑羚（Nemorhaedus goral）、猪獾（Arctonyx collaris）、岩松鼠（Sciurotamias davidianus）、野猪（Sus scrofa）、狗獾（Meles meles）、豹猫（Felis bengalensis）、花鼠（Tamias sibiricus）、草兔（Lepus capensis）和黄鼬（Mustela sibirica）,隶属于4目7科;从分布型来看,这10种兽类主要以古北型为主（占70%）。常拍种有狍、岩松鼠、斑羚和猪獾;较常拍种有野猪、狗獾、豹猫、花鼠、草兔;偶拍种有黄鼬。文中还对不同海拔和不同植被类型动物相对丰富度、累积拍摄物种数与相机工作日关系及兽类G-F指数等进行了探讨。     

Amelogenin cross-amplification in the family Bovidae and its application for sex determination

Sex-specific sequence variability of the amelogenin gene had been observed in a variety of mammalian species. In our study, the suitability of the amelogenin gene for sex determination in different species of the family Bovidae was examined. Based on a sequence insertion/deletion characteristic for X- and Y-specific amelogenin (AMELX and AMELY), PCR amplification on male and female genomic DNA from domestic and wild bovine species, sheep and goat, consistently displayed a sex-specific pattern. Thus, the amelogenin amplification by PCR proved to be a reliable method for sex determination not only in domestic and wild species of the tribe Bovini, but also in the related species sheep and goat. Sex determination using the amelogenin-based assay can be performed with at least 40 pg of genomic DNA. The assay enables the investigation of small amounts of DNA from meat, hair, bones, and embryo biopsies to identify species and sex for a number of applications in animal production, forensics, population research, and monitoring within the family Bovidae. Sequence comparison of the amplified amelogenin gene region specific for male and female animals from domestic and wild bovide species revealed further sequence variations within and between sexes as well as between species. Sequence variations in the AMELX gene can be applied to discriminate Bos and Bison individuals from other bovine species, and also from sheep and goat.     

Differences of the porcine amelogenin X and Y chromosome genes (AMELX and AMELY) and their application for sex determination in pigs

Molecular sexing in wild and domestic animals has becoming an important issue in several fields including reproduction. X and Y chromosome-specific sequence differences of the amelogenin genes (AMELX and AMELY) have been described in different mammalian species and used for sex determination. We studied the possibility to use sequence variability between the porcine AMELX and AMELY genes for sex determination in pigs. Sequence analysis of about 400 bp of intron 3 of the porcine amelogenin genes showed the presence of a 9-10 bp deletion in AMELY gene compared to AMELX sequences. Moreover, one single nucleotide polymorphism (SNP) was detected for the AMELY sequence. Four other SNPs and 1 bp insertion differentiated three AMELX haplotypes indicating an unexpected quite high nucleotide diversity for a chromosome X region. Two sex determination assays targeting the 9-10 bp difference between AMELX and AMELY were developed. Assessment of the accuracy of the amelogenin assays to correctly sex individuals was tested on 329 pigs belonging to different breeds/lines. All analysed animals were correctly sexed with the new designed amelogenin tests. No amplification was obtained in human, cattle, goat, sheep, and horse genomic DNA. These assays can be used for sex diagnosis of small amounts of genomic DNA (20 pg) obtained from different sources including embryo biopsies, hair, meat, and other biological specimens. Thus, apart from the application in the reproduction field, these tests can be useful in several other sectors including forensics, archaeozoology, meat production, and processing as well as for quality control in sample identification.     

G-, R- and C-band patterns of goral (<Emphasis Type="Italic">Nemorhaedus caudatus</Emphasis>) and comparison to goat (<Emphasis Type="Italic">Capra hircus</Emphasis>)

The karyotype of goral (Nemorhaedus caudatus, 2n = 56) was prepared using lymphocytes and its chromosomal band patterns were compared with those of goat (Capra hircus, 2n = 60) by CBG-, GTG- and RBG-banding techniques. The standard karyotype of goral was composed of 54 acrocentric autosomes, submetacentric X chromosome, and acrocentric Y chromosome. C-bands were prominent in all autosomes except the X chromosome. G- and R-band patterns of goral were dissimilar to those of goat. The data support the idea that the goral did not originate from a common ancestor of bovid, or that there were numerous complicated chromosomal interchanges during goral evolution, in contrast to other bovids.     

韩国青羊分布的变化

Amur goral(Nemorhaedus caudatus)is a rare species among Asian mammals. It is listed as Vulnerable in the 1996 IUCN Red List of the Threatened Animals[1], and designated as the natural monument (No. 217) in Republic of Korea[2]. This species is distributed in Northeast and Southwest of China, south of the Russian Far East and the Korean peninsula[3-5].But subspecies are different with inhabitants in China, which occur 5 species of gorals[4].     

An ARMS-based technique for sex determination of red panda (Ailurus fulgens)

Molecular sexing is a key component in the investigation of wild populations. In this study, we developed a fast, accurate and reliable amplification refractory mutation system (ARMS) technique for sex determination of red panda based on the exon 4 of the ZFX/ZFY gene. The amplicons were distinguished simply by agarose gel electrophoresis, exhibiting one fragment in females (X: 300 bp) and two in males (X: 300 bp, Y: 166 bp). Robustness of this ARMS system was confirmed by testing both 43 captive red pandas using DNA samples with known-sex and 10 wild red pandas using faecal DNA samples with unknown sex.     

High red deer density depresses body mass of roe deer fawns

Many previous studies have pointed out that, when resources are limited, the potential for competition should be high among sympatric species that display overlaps in habitat and nutritional niches. However, reliable evidence of competition between red deer (Cervus elaphus) and roe deer (Capreolus capreolus) has not been yet reported for life history traits directly measuring performance such as body mass, reproduction, or survival. From long-term monitoring of deer populations in the reserve of La Petite Pierre (France), we measured the sex-specific responses of roe deer fawn body mass to changes in red deer density after accounting for possible confounding effects of date of shooting, climatic conditions, and roe deer density. As expected under the hypothesis of competition, red deer density in a given year had a marked negative influence on body mass of roe deer fawns born the same year and the following year. Fawn mass of roe deer males and females responded in similar ways to changes in red deer density. Our study provides the first evidence of a negative response of roe deer performance to high red deer density.     

Sex identification of Eurasian otter (<Emphasis Type="Italic">Lutra lutra</Emphasis>) non-invasive DNA samples using ZFX/ZFY sequences

We developed a new PCR/RFLP system targeted to amplify and cut a segment of the ZFX/ZFY gene in non-invasive otter (Lutra lutra) samples. This assay produced one sex-specific fragment in females (XX genotypes) and two fragments in males (XY genotypes), and is intrinsically more reliable than alternative systems (e.g., SRY genes) that are based on the amplification of a single Y-linked fragment. The new primer pair correctly identified the sex of 23 DNA extracted from sexed otter tissues. This procedure was used to sex unknown DNA extracted from otter scats. A multi-tube approach led to identify the sex of 72/91 (79%) samples, using a minimum of two PCR replicates. This procedure is currently used in non-invasive genetic monitoring of Italian otter populations.     

Polymorphic karyotypes and sex chromosomes in the tufted deer (Elaphodus cephalophus): cytogenetic studies and analyses of sex chromosome-linked genes

Different diploid chromosome numbers have been reported for the tufted deer Elaphodus cephalophus (female, 2n = 46/47; male, 2n = 47/48) in earlier reports. In the present study, chromosomal analysis of seven tufted deer (5 male symbol, 2 female symbol) revealed that the karyotype of these animals contains 48 chromosomes, including a pair of large heteromorphic chromosomes in the male. C-banding revealed these chromosomes to be very rich in constitutive heterochromatin. Chromosome banding and PCR of sex chromosome-linked genes (SRY, ZFX, ZFY) performed on DOP-PCR products of single microdissected X and Y chromosomes confirmed that the large telocentric chromosome without secondary constriction is the X chromosome whereas the subtelocentric chromosome is the Y. The increased size of both, the X and Y chromosome, appears to be at least partially attributable to the presence of substantial amounts of heterochromatin.     

Unexpected population genetic structure of European roe deer in Poland: an invasion of the mtDNA genome from Siberian roe deer

Introgressive hybridization is a widespread evolutionary phenomenon which may lead to increased allelic variation at selective neutral loci and to transfer of fitness‐related traits to introgressed lineages. We inferred the population genetic structure of the European roe deer (Capreolus capreolus) in Poland from mitochondrial (CR and cyt b) and sex‐linked markers (ZFX, SRY, DBY4 and DBY8). Analyses of CR mtDNA sequences from 452 individuals indicated widespread introgression of Siberian roe deer (C. pygargus) mtDNA in the European roe deer genome, 2000 km from the current distribution range of C. pygargus. Introgressed individuals constituted 16.6% of the deer studied. Nearly 75% of them possessed haplotypes belonging to the group which arose 23 kyr ago and have not been detected within the natural range of Siberian roe deer, indicating that majority of present introgression has ancient origin. Unlike the mtDNA results, sex‐specific markers did not show signs of introgression. Species distribution modelling analyses suggested that C. pygargus could have extended its range as far west as Central Europe after last glacial maximum. The main hybridization event was probably associated with range expansion of the most abundant European roe deer lineage from western refugia and took place in Central Europe after the Younger Dryas (10.8–10.0 ka BP). Initially, introgressed mtDNA variants could have spread out on the wave of expansion through the mechanism of gene surfing, reaching high frequencies in European roe deer populations and leading to observed asymmetrical gene flow. Human‐mediated introductions of C. pygargus had minimal effect on the extent of mtDNA introgression.     

Malignant catarrhal fever in free-ranging cervids associated with OvHV-2 and CpHV-2 DNA

Pathologic lesions were summarized in 18 free-ranging cervids (15 moose [Alces alces], two roe deer [Capreolus capreolus], and one red deer [Cervus elaphus]) diagnosed with malignant catarrhal fever (MCF) after examination at the National Veterinary Institute, Oslo 1982-2005. Eye lesions (conjunctivitis, corneal opacity, fibrin clots in the anterior eye chamber) were the most frequent gross finding. Erosive-ulcerative mucosal lesions in the nose and mouth were also commonly found. Histopathology revealed a nonpurulent vasculitis and perivasculitis in the central nervous system (CNS) typical of MCF in 16 of the cases. The diagnosis in the remaining two animals was based upon histologic eye lesions consistent with MCF (CNS not available for examination). Polymerase chain reaction was run on samples from 15 individuals for evidence of MCF-virus DNA, and ovine herpesvirus-2 (OvHV-2) DNA was detected in five moose, one roe deer, and one red deer, and caprine herpesvirus-2 (CpHV-2) DNA was detected in two moose and one roe deer. Sera from 1,000 free-ranging cervids were tested for specific antibodies to MCF-associated viruses (MCFV) by competitive inhibition enzyme-linked immunosorbent assay. The seroprevalences were: red deer 5%, reindeer (Rangifer tarandus) 4%, roe deer 2%, and moose 0.4% (n = 250 for all four species). The results indicate that sheep and goat MCFV may cause serious disease in wild moose, roe deer, and red deer. The seropositive cervids most likely represent individuals infected with either OvHV-2 or CpHV-2, but may also reflect infections with other related MCFV.     

Genotyping of Capreolus pygargus fossil DNA from Denisova cave reveals phylogenetic relationships between ancient and modern populations

Background

The extant roe deer (Capreolus Gray, 1821) includes two species: the European roe deer (C. capreolus) and the Siberian roe deer (C. pygargus) that are distinguished by morphological and karyotypical differences. The Siberian roe deer occupies a vast area of Asia and is considerably less studied than the European roe deer. Modern systematics of the Siberian roe deer remain controversial with 4 morphological subspecies. Roe deer fossilized bones are quite abundant in Denisova cave (Altai Mountains, South Siberia), where dozens of both extant and extinct mammalian species from modern Holocene to Middle Pleistocene have been retrieved.

Methodology/Principal Findings

We analyzed a 629 bp fragment of the mitochondrial control region from ancient bones of 10 Holocene and four Pleistocene Siberian roe deer from Denisova cave as well as 37 modern specimen belonging to populations from Altai, Tian Shan (Kyrgyzstan), Yakutia, Novosibirsk region and the Russian Far East. Genealogical reconstructions indicated that most Holocene haplotypes were probably ancestral for modern roe deer populations of Western Siberia and Tian Shan. One of the Pleistocene haplotypes was possibly ancestral for modern Yakutian populations, and two extinct Pleistocene haplotypes were close to modern roe deer from Tian Shan and Yakutia. Most modern geographical populations (except for West Siberian Plains) are heterogeneous and there is some tentative evidence for structure. However, we did not find any distinct phylogenetic signal characterizing particular subspecies in either modern or ancient samples.

Conclusion/Significance

Analysis of mitochondrial DNA from both ancient and modern samples of Siberian roe deer shed new light on understanding the evolutionary history of roe deer. Our data indicate that during the last 50,000 years multiple replacements of populations of the Siberian roe deer took place in the Altai Mountains correlating with climatic changes. The Siberian roe deer represent a complex and heterogeneous species with high migration rates and without evident subspecies structure. Low genetic diversity of the West Siberian Plain population indicates a recent bottleneck or founder effect.     

A PCR-RFLP assay for gender assignment in the three-toed sloths (Bradypus, Pilosa, Bradypodidae)

The three-toed sloths (Bradypus) are slow-moving arboreal neotropical mammals. Understanding demographic variables (such as sex ratio) of populations is a key for conservation purposes. Nevertheless, gender assignment of Bradypus is particularly challenging because of the lack of sexual dimorphism in infants and in adults, particularly B. torquatus, the most endangered of the three-toed sloths, in which sex is attributed by visual observation of the reproductively active males. Here, we standardized a method for sexing Bradypus individuals using PCR-RFLP of sex-linked genes ZFX/ZFY. This assay was validated with known-gender animals and proved accurate to assign gender on three Bradypus species.