A new marker based on the avian spindlin gene that is able to sex most birds,including species problematic to sex with CHD markers

We have developed a new marker (Z43B) that can be successfully used to identify the sex of most birds (69%), including species difficult or impossible to sex with other markers. We utilized the zebra finch Taeniopygia guttata EST microsatellite sequence (CK309496) which displays sequence homology to the 5′ untranslated region (UTR) of the avian spindlin gene. This gene is known to be present on the Z and W chromosomes. To maximize cross‐species utility, the primer set was designed from a consensus sequence created from homologs of CK309496 that were isolated from multiple distantly related species. Both the forward and reverse primer sequences were 100% identical to 14 avian species, including the Z chromosome of eight species and the chicken Gallus gallus W chromosome, as well as the saltwater crocodile Crocodylus porosus. The Z43B primer set was assessed by genotyping individuals of known sex belonging to 61 non‐ratite species and a single ratite. The Z and W amplicons differed in size making it possible to distinguish between males (ZZ) and females (ZW) for the majority (69%) of non‐ratite species tested, comprising 10 orders of birds. We predict that this marker will be useful for obtaining sex‐typing data for ca 6,869 species of birds (69% of non‐ratites but not galliforms). A wide range of species could be sex‐typed including passerines, shorebirds, eagles, falcons, bee‐eaters, cranes, shags, parrots, penguins, ducks, and a ratite species, the brown kiwi, Apteryx australis. Those species sexed include species impossible or problematic to sex‐type with other markers (magpie, albatross, petrel, eagle, falcon, crane, and penguin species). Zoo Biol. 35:533–545, 2016. © 2016 The Authors. Zoo Biology published by Wiley Periodicals, Inc.     

Polymerase Chain Reaction-Based Sex Identification in the Greater Roadrunner

Abstract: We determined a polymerase chain reaction (PCR)-based method to identify the sex of greater roadrunners (Geococcyx californianus). We found that previously reported primer combinations used in other bird species did not work reliably in roadrunners. However, a novel primer combination (P2-1237L) allowed for consistent and reliable sex identification of roadrunners. Conducting several PCR replicates per sample helped to identify occasional preferential amplification of the Z band that could occur in females (the heterogametic sex; i.e., WZ). Identifying the sex of individuals will allow for examination of sex-associated differences in home range size and habitat use, population demographics, and parenting behavior, as well as for a better understanding of the social system of roadrunners.     

A new primer set for sex identification in the genus Sorex (Soricidae,Insectivora)

In order to develop a new accurate method for sexing in Sorex species (Soricidae, Insectivora), we synthesized a polymerase chain reaction (PCR) primer set to amplify a part of Sry HMG box in the long‐clawed shrew, Sorex unguiculatus. When the primers were applied to the samples of known sex, PCR products were successfully obtained for males as a clear, single band on 3% agarose gels after electrophoresis in Sorex unguiculatus and five other Sorex species, but not for females of these six species. Thus, PCR amplification using the primer set may be applicable to discern sex in the six Sorex species.     

Zinc‐finger intron 7: a new locus for sex identification of giant panda (Ailuropoda melanoleuca)

We developed a single‐reaction test for identifying the sex of giant panda (Ailuropoda melanoleuca) targeted to co‐amplify homologous fragments with size polymorphism that located at zinc‐finger (ZF) intron 7 by using one pair of primers. This assay produced one sex‐specific fragment in females (XX genotypes) whereas two fragments were produced in males (XY genotypes). Indels (insertion/deletion) in intron 7 of Y‐linked allele provide a significant discrimination between ZFX and ZFY, thus the amplification products can be simply distinguished by agarose gel electrophoresis, exhibiting sex‐specific banding patterns (female, 354 bp; male, 354 bp, 135 bp). The new primer set was successfully tested on known‐sex giant pandas by using template DNA extracted from both blood and fecal samples. Cross‐species test was also performed, revealing that this assay could be applied to other Ursidae species. Zoo Biol 29:526–531, 2010. © 2009 Wiley‐Liss, Inc.     

Sex Identification of Four Penguin Species Using Locus‐Specific PCR

Traditional methods for sex identification are not applicable to sexually monomorphic species, leading to difficulties in the management of their breeding programs. To identify sex in sexually monomorphic birds, molecular methods have been established. Two established primer pairs (2550F/2718R and p8/p2) amplify the CHD1 gene region from both the Z and W chromosomes. Here, we evaluated the use of these primers for sex identification in four sexually monomorphic penguin species: king penguins (Aptenodytes patagonicus), rockhopper penguins (Eudyptes chrysocome), gentoo penguins (Pygoscelis papua), and Magellanic penguins (Spheniscus magellanicus). For all species except rockhopper penguins, primer pair 2550F/2718R resulted in two distinct CHD1Z and CHD1W PCR bands, allowing for sex identification. For rockhopper penguins, only primer pair p8/p2 yielded different CHD1Z and CHD1W bands, which were faint and similar in size making them difficult to distinguish. As a result, we designed a new primer pair (PL/PR) that efficiently determined the gender of individuals from all four penguin species. Sequencing of the PCR products confirmed that they were from the CHD1 gene region. Primer pair PL/PR can be evaluated for use in sexing other penguin species, which will be crucial for the management of new penguin breeding programs. Zoo Biol 32:257–261, 2013. © 2012 Wiley Periodicals, Inc.     

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.     

Use of random amplified polymorphic DNA to identify several novel markers for sex identification in the crested serpent eagle and crested goshawk

The crested serpent eagle (Spilornis cheela hoya) has no distinct sexual dimorphic traits. In the current study, we report the results of an EE0.6 (EcoRI 0.6-kb fragment) sequence applied to S. cheela hoya and a novel random amplified polymorphic DNA (RAPD) marker that can be used to sex individuals within the species S. cheela hoya and Accipiter trivigatus formosae (crested goshawk). We used sex-specific primers for the avian CHD1 (chromo-helicase-DNA-binding 1) gene and the EE0.6 sequence in PCR assays to determine sex. In addition, 120 random primers were used for RAPD fingerprinting to search for novel sex-specific fragments of S. cheela hoya. The OPBB08 random primer generated a 1241-bp sex-specific fragment in all female S. cheela hoya. From the nucleotide sequence, PCR primers were designed to amplify 553-, 895-, and 194-bp sex-specific fragments present in all female S. cheela hoya. One of these primer pairs (ScBB08-7F/R) also amplified a male/female common fragment that can be used as an internal control (543 bp). Moreover, one of the primer pairs (ScBB08-5aF/5bR) could be used to identify genders of A. trivigatus formosae. In conclusion, we identified novel sex-specific DNA markers of S. cheela hoya and A. trivigatus formosae that can be used for rapid and accurate sex identification.     

PCR-CTPP: a rapid and reliable genotyping technique based on ZFX/ZFY alleles for sex identification of tiger (<Emphasis Type="Italic">Panthera tigris</Emphasis>) and four other endangered felids

An inexpensive, time-saving and reliable method, polymerase chain reaction with confronting two-pair primers (PCR-CTPP), was developed for sex identification in tiger (Panthera tigris) based on zinc finger alleles (ZFX/ZFY). A site of “C/G” transversion representing fixed differences that discriminated between ZFX and ZFY exons among felids was identified for primers designing. This primer set was successfully tested on samples including blood, shed hairs, dried skin, and stool which contained potential contamination caused by prey DNA. Cross species tests shown that this primer set was also useful for sex identification in four other endangered felids.     

A new Illumina MiSeq high-throughput sequencing-based method for evaluating the composition of the Bacteroides community in the intestine using the rpsD gene sequence

Bacteroides is a bacterial genus that is known to closely interact with the host. The potential role of this genus is associated with its ecological status and distribution in the intestine. However, the current 16S V3–V4 region sequencing method can only detect the abundance of this genus, revealing a need for a novel sequencing method that can elucidate the composition of Bacteroides in the human gut microbiota. In this study, a core gene, rpsD, was selected as a template for the design of a Bacteroides-specific primer set. We used this primer set to develop a novel assay based on the Illumina MiSeq sequencing platform that enabled an accurate assessment of the Bacteroides compositions in complex samples. Known amounts of genomic DNA from 10 Bacteroides species were mixed with a complex sample and used to evaluate the performance and detection limit of our assay. The results were highly consistent with those of direct sequencing with a low Bacteroides DNA detection threshold (0.01 ng), supporting the reliability of our assay. In addition, the assay could detect all the known Bacteroides species within the faecal sample. In summary, we provide a sensitive and specific approach to determining the Bacteroides species in complex samples.     

A reliable, non-invasive PCR method for giant panda (Ailuropoda melanoleuca) sex identification

We developed an inexpensive, fast and reliable PCR method for sex identification of giant panda (Ailuropoda melanoleuca) by using one pair of primers to co-amplify homologous fragments with size polymorphism that located at amelogenin (AMEL) exon 5. In giant panda, a 63 bp deletion in exon 5 of Y-linked allele provides a significant discrimination between AMELX and AMELY, thus the amplification products can be distinguished simply by agarose gel electrophoresis, exhibiting sex-specific banding patterns (male: 237 bp, 174 bp; female: 237 bp). Both blood and feces samples from known-sex giant pandas were successfully amplified. Cross species test also revealed that this method could be applied to other Ursidae species. These authors contributed equally to this work.     

A novel method of caenophidian snake sex identification using molecular markers based on two gametologous genes

Sex identification provides important information for ecological and evolutionary studies, as well as benefiting snake conservation management. Traditional methods such as cloacal probing or cloacal popping are counterproductive for sex identification concerning very small species, resulting in difficulties in the management of their breeding programs. In this study, the nucleotide sequences of gametologous genes (CTNNB1 and WAC genes) were used for the development of molecular sexing markers in caenophidian snakes. Two candidate markers were developed with the two primer sets, and successfully amplified by a single band on the agarose gel in male (ZZ) and two bands, differing in fragment sizes, in female (ZW) of 16 caenophidian snakes for CTNNB1 and 12 caenophidian snakes for WAC. Another candidate marker was developed with the primer set to amplify the specific sequence for CTNNB1W homolog, and the PCR products were successfully obtained in a female‐specific 250‐bp DNA bands. The three candidate PCR sexing markers provide a simple sex identification method based on the amplification of gametologous genes, and they can be used to facilitate effective caenophidian snake conservation and management programs.     

Mining and utilization of mushroom ESTs for microsatellites

In the present study we report on the exploitation of expressed sequence tags (ESTs); (1) to investigate whether microsatellite densities are significantly differed among Pleurotus ostreatus, Lentinula edodes and Agaricus bisporus ESTs, (2) between development stages of mycelia and fruiting bodies and (3) to identify microsatellite primer pairs that could be used in mushroom genetic studies. Analyses of ESTs indicated that three mushroom species and tissues showed statistically significant microsatellite densities. A total of 23 EST-microsatellite primer pairs were developed and tested on two species of mushrooms. The use of these microsatellite primer pairs could be used in genetic studies of mushroom species.     

Comparison of Detection Methods for Legionella Species in Environmental Water by Colony Isolation,Fluorescent Antibody Staining,and Polymerase Chain Reaction

Three detection methods for Legionella species in water samples from cooling towers and a river were examined. Direct counting of bacteria stained with fluorescent antibody (FA) for L. pneumophila (serogroups 1 to 6) could detect the cell of 10⁴ to 10⁶ cell/100 ml in all 14 samples, while colony counting method detected 10 to 10³ CFU/100 ml only in 8 samples from cooling towers. Polymerase chain reaction (PCR) assay with primers to amplify 16S ribosomal DNA sequence of most Legionella species (LEG primer) detected legionellae in 13 samples, while species-specific primers for L. pneumophila detected the DNAs from 3 samples. In laboratory examination, LEG primers could amplify DNAs of 29 species of genus Legionella with high sensitivity, even from 1 cell of L. pneumophila GIFU 9134. The PCR assay with LEG primers was specific and sensitive methods to be satisfied the survey of legionellae. Thus, PCR assay is a suitable method to detect and monitor Legionella species in an environment.     

Identification of a RAPD marker linked to sex determination in Pistacia vera using bulked segregant analysis

The Random Amplified Polymorphic DNA (RAPD) technique was used to amplify DNA segments, with the objective of finding markers linked to sex determination in the dioecious species, Pistacia vera. Progenies from two female parents pollinated by a common male parent were studied. Two bulks of DNA were made in each cross, one from males and one from females, by pooling an equal weight of fresh leaves from each individual contributing to the bulk prior to DNA extraction. DNA was extracted from each bulked sample and from each of the contributing individuals. DNA was also extracted from 14 cultivars of P. vera and from 94 open-pollinated, fewweeks-old P. vera seedlings of unknown sex. Seven hundred different decamer oligonucleotide primers were used to perform DNA amplification, with 1 of these (OPO08) producing a 945 bp amplification band that was present only in the bulked female samples and absent in the bulked male samples of the two crosses. The relationship between band presence and female sex expression was conserved in every individual obtained from the two crosses and in the 14 cultivars unrelated to the crosses. We propose that this band is tightly linked to the gene(s) that control sex determination in pistachio. The OPO08₉₄₅ RAPD marker could be used in a breeding program to screen the gender of pistachio plants long before they reach reproductive maturity, resulting in considerable savings of time and economic resources. In order to verify that assumption we screened 94 additional seedlings with the OPO08 primer and obtained results consistent with a 11 male:female ratio.     

Mark–recapture using tetracycline and genetics reveal record-high bear density

We used tetracycline biomarking, augmented with genetic methods to estimate the size of an American black bear (Ursus americanus) population on an island in Southeast Alaska. We marked 132 and 189 bears that consumed remote, tetracycline-laced baits in 2 different years, respectively, and observed 39 marks in 692 bone samples subsequently collected from hunters. We genetically analyzed hair samples from bait sites to determine the sex of marked bears, facilitating derivation of sex-specific population estimates. We obtained harvest samples from beyond the study area to correct for emigration. We estimated a density of 155 independent bears/100 km², which is equivalent to the highest recorded for this species. This high density appears to be maintained by abundant, accessible natural food. Our population estimate (approx. 1,000 bears) could be used as a baseline and to set hunting quotas. The refined biomarking method for abundance estimation is a useful alternative where physical captures or DNA-based estimates are precluded by cost or logistics. © 2011 The Wildlife Society.     

Development of a Genotyping Method for Potato Scab Pathogens Based on Multiplex PCR

Scab disease significantly damages potato and other root crops. Streptomyces scabiei, S. acidiscabiei, and S. turgidiscabiei are the best-known causal agents of this disease. We have developed a novel genotyping method for these potato scab pathogens using multiplex PCR, whose benefits include rapid and easy detection of multiple species. We designed a species-specific primer set (6 primers, 3 pairs) for the 16S rRNA genes and 16S–23S ITS regions of these potato scab pathogens. The specificity of the primer set was confirmed by testing 18 strains containing potato scab pathogens, other Streptomyces species, and strains of other genera. The application of the developed method to potato field soil and potato tissue samples resulted in the clear detection and identification of pathogens. Since this method is applicable to a large number of environmental samples, it is expected to be useful for a high-throughput analysis of soil and plant tissues of scab disease.     

A sex determination protocol for the Iberian desman (<Emphasis Type="Italic">Galemys pyrenaicus</Emphasis>) based on a three primer amplification of <Emphasis Type="Italic">DBX</Emphasis> and <Emphasis Type="Italic">DBY</Emphasis> fragments with non-invasive samples

We have sequenced partial fragments of DBX and DBY genes of the endangered Iberian desman (Galemys pyrenaicus). The sequences were used to design a sex determination protocol for non-invasive samples based on a PCR reaction, using only three primers. This protocol allows the simultaneous amplification of two fragments, one corresponding to the DBX gene and the other to the DBY gene, both differing in size. To increase sensitivity on the detection of positive amplifications and on the determination of fragment size we use a fluorescently labelled primer. The protocol has been tested in DNA samples from hair and stool, revealing major difficulties in sexing faecal samples, but unambiguous sexing of hair samples.     

Design and Evaluation of a Specific Primer Pair for the Diagnosis and Identification of <Emphasis Type="Italic">Acanthamoeba polyphaga</Emphasis>

Random amplified polymorphism DNA (RAPD) is a useful tool for species identification. The obtained band patterns can be used for specific primer pair design that may be useful for species diagnosis. In this study, a distinctive a 962-bp band in A. polyphaga band patterns was found, by using the OPC20 primer (ACTTCGCCAC). The DNA fragment was used to design a specific primer pair that was useful for the identification of different isolates as A. polyphaga species. A case of A. polyphaga in disseminated acanthamoebiasis affecting mesenteric nodes is also reported.     

Identification of Geotrichum candidum at the species and strain level: proposal for a standardized protocol

In this study, the M13 primer was used to distinguish Geotrichum candidum from the anamorphic and teleomorphic forms of other arthrospore-forming species (discriminatory power = 0.99). For intraspecific characterization, the GATA4 primer showed the highest level of discrimination for G. candidum among the 20 microsatellite primers tested. A molecular typing protocol (DNA concentration, hybridization temperature and type of PCR machine) was optimized through a series of intra- and interlaboratory trials. This protocol was validated using 75 strains of G. candidum, one strain of G. capitatum and one strain of G. fragrans, and exhibited a discrimination score of 0.87. This method could therefore be used in the agro-food industries to identify and to evaluate biodiversity and trace strains of G. candidum. The results show that the GATA4 primer might be used to differentiate strains according to their ecological niche.     

Isolation of sex-specific AFLP markers in Spotted Halibut (<Emphasis Type="Italic">Verasper variegatus</Emphasis>)

Spotted Halibut (Verasper variegatus) is a commercially important marine fish species. In the present study, to isolate sex-specific markers in Spotted Halibut, we screened the genomes of Spotted Halibut by AFLP technique with 64 different primer combinations. Two primer combinations, MseI-CAG/EcoRI-ACC and MseI-CAT/EcoRI-AGG, produced a female-specific fragment in all females (n = 88) and in no males (n = 60, except 3 individuals), respectively. Both fragments were excised from the gel, cloned and characterized. The first fragment (named VevaF533) was 533 bp long, while the length of the second one (named VevaF218) was 218 bp. The two sequences showed no similarity to each other, and to the known sequences existing in the GenBank database using BLASTn. Cross-species amplification showed that the marker VevaF218 is a species-specific marker which is present in Spotted Halibut females but absent in Barfin Flounder (Verasper moseri). So this marker could be used for discriminating unambiguously between Spotted Halibut females and Barfin Flounder. Examination of the patterns of inheritance of VevaF218 in an interspecific hybrid family (V. variegatus ♂×V. moseri ♀) showed a female-specific pattern of inheritance from mother to daughter, implying that the marker VevaF218 is located on the female sex chromosome. This study provides a reliable AFLP-based genetic sexing of Spotted Halibut that could be useful for genetic mapping of the sex chromosomes and identification of sex-linked genes.