New primers for sex identification in the Chinese egret and other ardeid species

Using the universal P2/P8 primers, we were able to obtain the gene segments of chromo-helicase-DNA binding protein (CHD)-Z and CHD-W from ten species of ardeid birds including Chinese egret (Egretta eulophotes), little egret (E. garzetta), eastern reef egret (E. sacra), great egret (Ardea alba), grey heron (A. cinerea), Chinese pond-heron (Ardeola bacchus), cattle egret (Bubulcus ibis), black-crowned night-heron (Nycticorax nycticorax), cinnamon bittern (Ixobrychus cinnamomeus) and yellow bittern (I. sinensis). Based on conserved regions inside the P2/P8-derived sequences, we designed new PCR primers for sex identification in these ardeid species. Using agarose gel electrophoresis, the PCR products showed two bands for females (140 bp derived from CHD-W and the other 250 bp from CHD-ZW), whereas the males showed only the 250 bp band. The results indicated that our new primers could be used for accurate and convenient sex identification in ardeid species.     

Molecular sexing of pine marten (Martes martes): how many replicates?

We used primers developed for the SRY gene in otters (Lutra lutra) to determine sex in pine marten (Martes martes). The otter SRY primers worked accurately for pine marten and assigned sex correctly in most replicates. These primers can be used on tissue and noninvasively collected hair samples for the identification of the animal's sex. We found that, based on five sets of replicates, DNA extracted from leg muscle and hair gave significantly better results than DNA extracted from ear tissue. Finally, results indicate the optimum number of PCR replicates to accurately assign sex using this technique.     

Diagnostic markers for Planococcus ficus (Signoret) and Planococcus citri (Risso) by random amplification of polymorphic DNA-polymerase chain reaction and species-specific mitochondrial DNA primers

Abstract:  Planococcus ficus (Signoret) and Planococcus citri (Risso) (Hom., Pseudococcidae) are important phytophagous components in different agroecosystems. The two species may coexist in the same environment and are most difficult to distinguish by morphological features. The aim of this study was to find genetic markers suitable for distinguishing P. ficus from P. citri , to assist in the rapid identification of field specimens. By using synthetic sex pheromone-baited traps, pure male populations of both species were collected from a vineyard and from a citrus orchard in northern Sardinia, Italy. Individual males of citrus and vine mealybugs were preliminarily examined by the random amplification of polymorphic DNA (RAPD) technique. Among twelve 10-mer random primers, the oligonucleotide OPL-12 generated several markers suitable for distinguishing between the two species. This primer was then used to characterize individual males and females of both mealybug species collected near pheromone-baited traps in vineyards and orange orchards from different geographic areas. Reference samples from other regions of southern Italy were also included. A clear differentiation of the two species was accomplished according to their pattern of amplification, thus confirming a high level of intra-specific genetic homogeneity. Consequently, two fragments of the cytochrome c oxidase I gene from P. citri and P. ficus were compared and two pairs of species-specific polymerase chain reaction (PCR) primers were developed based on diverging sequences. These primers allowed sensitive and reliable PCR identification of both males and females of P. citri and of P. ficus of different geographic origin.     

PCR技术在性别鉴定及性别控制应用中的研究进展

PCR技术是一项发展迅猛的生物技术,因具有快速、灵敏、简便及特异性强等特点而被广泛应用于性别鉴定及其它许多相关研究领域。应用于性别鉴定的PCR方法从简单PCR法、双重或多重PCR法、巢式PCR法发展到改进的两温度梯度PCR法;而不同性别间除了呈现有或无关系（类似于Sry 基因）的基因序列外,也检测到了很多类似于锌指蛋白和牙釉蛋白的呈现不同性别特征的基因序列,这为性别鉴定引物的设计和PCR法进行性别鉴定提供了另一种全新的思路,即如果根据这种性别多态性DNA序列特点设计引物,采用两温度梯度PCR扩增技术进行PCR性别鉴定,则可望简化鉴定程序、降低检测时间、提高鉴定效率,使PCR性别控制技术更加成熟和实用化。随着研究的深入,PCR技术在性别鉴定及控制的应用中必将日益成熟,并推动此项技术在其它相关领域中的研究和应用取得更大的进展。     

番木瓜性别决定及其鉴定研究新进展

番木瓜有3种基本性别类型,性别遗传较为复杂.就其植株的多型性表现、性别决定及其鉴定研究、连锁遗传图的构建、分子标记辅助选择技术和花器的发育等方面的研究进展进行了综述,并对番木瓜性别鉴定的应用前景做了展望.     

A universal and reliable assay for molecular sex identification of three‐spined sticklebacks (Gasterosteus aculeatus)

In heterogametic species, biological differences between the two sexes are ubiquitous, and hence, errors in sex identification can be a significant source of noise and bias in studies where sex‐related sources of variation are of interest or need to be controlled for. We developed and validated a universal multimarker assay for reliable sex identification of three‐spined sticklebacks (Gasterosteus aculeatus). The assay makes use of genotype scores from three sex‐linked loci and utilizes Bayesian probabilistic inference to identify sex of the genotyped individuals. The results, validated with 286 phenotypically sexed individuals from six populations of sticklebacks representing all major genetic lineages (cf. Pacific, Atlantic and Japan Sea), indicate that in contrast to commonly used single‐marker‐based sex identification assays, the developed multimarker assay should be 100% accurate. As the markers in the assay can be scored from agarose gels, it provides a quick and cost‐efficient tool for universal sex identification of three‐spined sticklebacks. The general principle of combining information from multiple markers to improve the reliability of sex identification is transferable and can be utilized to develop and validate similar assays for other species.     

A DNA test to sex most birds

Birds are difficult to sex. Nestlings rarely show sex-linked morphology and we estimate that adult females appear identical to males in over 50% of the world's bird species. This problem can hinder both evolutionary studies and human-assisted breeding of birds. DNA-based sex identification provides a solution. We describe a test based on two conserved CHD (chromo-helicase-DNA-binding) genes that are located on the avian sex chromosomes of all birds, with the possible exception of the ratites (ostriches, etc.; Struthioniformes). The CHD-W gene is located on the W chromosome; therefore it is unique to females. The other gene, CHD-Z, is found on the Z chromosome and therefore occurs in both sexes (female, ZW; male, ZZ). The test employs PCR with a single set of primers. It amplifies homologous sections of both genes and incorporates introns whose lengths usually differ. When examined on a gel there is a single CHD-Z band in males but females have a second, distinctive CHD-W band.     

Sex identification of parrots,toucans, and curassows by PCR: Perspectives for wild and captive population studies

Methods for the identification of the sex of bird species without external sexual dimorphism are specially important in field studies and for captive breeding of endangered taxa. We confirmed the accuracy of a polymerase chain reaction (PCR)-based method to identify the sex in three disparate avian orders that included 31 species of parrot, two species of toucan, and eight species of curassow, for which many individuals were previously sexed. In each case, two DNA fragments were amplified in females and one in males with the use of a single set of primers. This method was also tested on unsexed birds of 13 other species of parrot and five species of toucan. The same kind of polymorphism was detected in each. The PCR products of parrots and toucans could be separated in simple agarose gels, while the curassows' products could only be distinguished in acrylamide gels. An advantage of this DNA test is that samples of blood or feathers can be easily collected and stored at room temperature, which is of particular importance for studies of wild birds. Zoo Biol 17:415–423, 1998. © 1998 Wiley-Liss, Inc.     

Demonstration of viability and fertility and development of a molecular tool to identify YY supermales in a fish with both genotypic and environmental sex determination

The pejerrey possesses a genotypic sex determination system driven by the amhy gene and yet shows marked temperature‐dependent sex determination. Sex‐reversed XY females have been found in a naturally breeding population established in Lake Kasumigaura, Japan. These females could mate with normal XY males and generate YY “supermale” individuals that, if viable and fertile, would sire only genotypic male offspring. This study was conducted to verify the viability, gender, and fertility of YY pejerrey and to develop a molecular method for their identification. Production of YY fish was attempted by crossing a thermally sex‐reversed XY female and an XY male, and rearing the progeny until sexual maturation. To identify the presumable YY individuals, we first conducted a PCR analysis using amhy‐specific primers to screen only amhy‐positive (XY and YY) fish. This screening showed that 60.6% of the progeny was amhy‐positive, which suggested the presence of YY fish. We then conducted a second screening by qPCR in order to identify the individuals with two amhy copies in their genome. This screening revealed 13 individuals, all males, with values twice higher than the other 30 amhy‐positive fishes, suggesting they have a YY complement. This assumption as well as the viability, fertility, and “supermale” nature of these individuals was confirmed in progeny tests with XX females that yielded 100% amhy‐positive offspring. These results demonstrate that qPCR can obviate progeny test as a means to identify the genotypic sex and therefore may be useful for the survey of all three possible genotypes in wild populations.     

High-throughput sex identification by melting curve analysis in blue-breasted quail and chicken

The objective was to develop a high-throughput method of identifying sex in both Coturnix chinensis and Gallus gallus, which would be useful for biomedical research and hatcheries. Because chromo-helicase-DNA binding protein (CHD)-based Griffiths P2/P8 primers do not produce polymerase chain reaction (PCR) products with distinguishable sex-specific curves in melting curve analysis (MCA), these primers are unsuitable for high throughput application in either species. Conserved regions were identified by basic local alignment search tool (BLAST) analyses of cloned CHD-Z and CHD-W genes of C. chinensis. Based on sequence alignment, a female-specific CHD-W primer (W-cot-F1) and a female/male (or CHD-W/CHD-Z)-common primer (ZW-cot-F1) were redesigned for use in combination with the Griffiths P2 primer for MCA-based PCR reaction. In C. chinensis and G. gallus, W-cot-F1/P2 and ZW-cot-F1/P2 had amplicon lengths of 315/318 and 114 base pairs and melting temperatures (Tm) of approximately 79.5 °C to 80 °C and approximately 78.5 °C to 79°C, respectively. Thus, MCA distinguished sex based on two distinct Tm peaks in females versus only one Tm peak in males. The MCA-based real-time PCR combined with the proposed primer redesign provided a high-throughput method of identifying sex in C. chinensis and G. gallus.     

A Comparison of Field and Molecular Techniques for Sexing Beavers

Abstract: The traditional method of sex identification in beavers (Castor canadensis) by external palpation can be inaccurate. We tested 2 genetic methods for determining sex in beavers, the zinc-finger DNA marker and the Y chromosome-specific sex determining region (SRY) marker. The SRY marker identified sex correctly in 57 of 67 (85%) beavers, whereas the zinc-finger technique was successful less often in only 48 of 67 (72%) animals. Sex was correctly assigned by palpation for 21 of 27 beavers (78%). Beaver studies in which accurate sex identification is critical may benefit by verifying the sex of individuals using one or both of these molecular markers.     

Sexing birds using random amplified polymorphic DNA (RAPD) markers

We used random amplified polymorphic DNA (RAPD) markers to sex birds from small tissue (usually blood) samples. Arbitrarily chosen 10-mer PCR primers were screened with DNA from known-sex individuals for the production of a bright female-specific band. Suitable primers were found for seven bird species after screening about 30 primers (range 2–63), and no primer was found for three other species after screening about 50 primers for each species. Investigations into the reliability of RAPD markers for sexing great tits Parus major and oystercatchers Haematopus ostralegus show that: (i) when PCR reaction conditions for great tit DNA are varied, either the presence of the female-specific band correctly predicts the individual's sex or no DNA amplification occurs; (ii) the female-specific band in great tits can be sequenced, and subsequently amplified using specific PCR primers; (iii) null alleles of the female-specific fragment occur at an estimated frequency of 0% ( n = 241 females) in great tits and 0.6% ( n > 290 females) in oystercatchers; (iv) the female-specific fragment in great tits occurs in individuals from a wide geographical range encompassing two subspecies; and (v) the relative intensity of bands in great tit RAPD banding profiles is consistent across individual birds and scorers. The RAPD primers that we have identified are generally species specific, and the consequent time cost of screening for primers is the chief disadvantage of using RAPD markers to sex birds. However, with large sample sizes this disadvantage is outweighed by the relative technical simplicity and low cost of the technique.     

A SCAR MOLECULAR MARKER SPECIFICALLY RELATED TO THE FEMALE GAMETOPHYTES OF SACCHARINA (LAMINARIA) JAPONICA (PHAEOPHYTA)1

PCR amplification was employed to identify female or male gametophyte associated markers in Saccharina japonica (Aresch.) C. E. Lane, C. Mayes et G. W. Saunders (=Laminaria japonica Aresch.). One pair of the primers, P5, was screened from five pairs designed based on a specific sequence (GenBank accession no. AB069714 ) of Marchantia polymorpha Y chromosome, resulting in a differential band ～500 bp in size between female and male gametophytes of Rongfu strain of S. japonica. According to the SCAR (sequence‐characterized amplified regions) strategies, one pair of primers, P51, was designed on the basis of the sequence of this band that was only present in female gametophytes. A SCAR marker, designated FRML‐494 (494‐bp Female‐Related Marker of S. japonica, GenBank accession no. EU931619 ), was developed successfully by PCR amplification using the designed P51 primer pair. The SCAR marker was verified to be present only in female gametophytes of another variety 901 of this kelp that was a hybrid between S. japonica as paternal and S. longissima (Miyabe) C. E. Lane, C. Mayes, Druehl et G. W. Saunders (=Laminaria longissima Miyabe) as maternal, suggesting that the FRML‐494 marker was specifically related to female gametophytes of the genus. This marker is the first molecular tool reported for sex identification in kelps. This study was beneficial for identifying gametophyte gender during vegetative growth and for judging whether the monogenetic sporophytes came from exclusive male or female gametophytes, as well as for further research on sex determination at the molecular level in kelps.     

半翅目昆虫性信息素的研究进展

本文主要从半翅目昆虫性信息素的提取鉴定方法、分泌部位、性信息素成分、在防治中的应用以及存在的问题等几个方面综述了半翅目昆虫性信息素的研究进展。     

灰翅夜蛾属昆虫的性信息素研究概况

本文从雌蛾性信息素组分鉴定、雄蛾对性信息素的行为反应和性信息素的应用３个方面,综述了灰翅夜蛾属昆虫性信息的研究进展,并展望了此属昆虫性信息素的研究前景。     

Accuracy in molecular sexing of martens (Martes americana and Martes caurina) varies among sample types

We evaluated the accuracy of sex identification using the SRY marker for American marten (Martes americana) and Pacific marten (Martes caurina) using samples collected from commercial trappers and those obtained via noninvasive sampling. We determined that sex identification from Lut-SRY primers is accurate at >90% for muscle and hair samples collected noninvasively. We found much lower accuracy when using hair samples plucked from trapper-killed carcasses, errors presumably incurred from contamination from the DNA of trappers, who were entirely male. We also found that the sequence generated from Lut-SRY primers, originally developed for Eurasian otters (Lutra lutra), differed slightly for martens, and recommend that new primers be developed from the sequences we provide. The SRY marker can be reliably used for sex identification in both species of marten, provided that samples have low probabilities of contamination. Researchers should avoid samples collected from external locations on trapper-killed carcasses for DNA-based analyses.     

Polymorphic microsatellite loci in pheasant coucal (Centropus phasianinus)

Little is known about the effect of male parental care and behavioural sex‐role reversal on the mating system of birds because genetic markers for species with these characteristics are lacking. We developed primers for nine polymorphic microsatellite loci in pheasant coucals (Centropus phasianinus). Eight of the primers were also polymorphic in African black coucals (Centropus grillii). Pheasant coucals are of particular interest in the study of evolutionary and behavioural ecology, because their sex‐role reversal and extensive male parental care suggests low levels of extra‐pair fertilizations, yet they have large testes indicating sperm competition.     

Screening and identification of male‐specific DNA fragments in common carps Cyprinus carpio using suppression subtractive hybridization

In this study, a sex subtractive genomic DNA library was constructed using suppression subtractive hybridization (SSH) between male and female Cyprinus carpio. Twenty‐two clones with distinguishable hybridization signals were selected and sequenced. The specific primers were designed based on the sequence data. Those primers were then used to amplify the sex‐specific fragments from the genomic DNA of male and female carp. The amplified fragments from two clones showed specificity to males but not to females, which were named as Ccmf2 [387 base pairs (bp)] and Ccmf3 (183 bp), respectively. The sex‐specific pattern was analysed in a total of 40 individuals from three other different C. carpio. stocks and grass carp Ctenopharyngodon idella using Ccmf2 and Ccmf3 as dot‐blotting probes. The results revealed that the molecular diversity exists on the Y chromosome of C. carpio. No hybridization signals, however, were detected from individuals of C. idella, suggesting that the two sequences are specific to C. carpio. No significant homologous sequences of Ccmf2 and Ccmf3 were found in GenBank. Therefore, it was interpreted that the results as that Ccmf2 and Ccmf3 are two novel male‐specific sequences; and both fragments could be used as markers to rapidly and accurately identify the genetic sex of part of C. carpio. This may provide a very efficient selective tool for practically breeding monosex female populations in aquacultural production.     

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.