The first sex-specific molecular marker discovered in the moss Pseudocalliergon trifarium

Most dioecious plants do not exhibit discernible sexual dimorphism before sexual maturity. Therefore, it is impossible to address any sex-related questions during the prereproductive phase unless a genetic sex marker is available for gender determination. The aim of the present study was to develop a genetic sex marker for the moss Pseudocalliergon trifarium to allow gender and sex ratio determination at any stage in the life cycle. A high proportion of P. trifarium populations do not express sex. The screening of genomic DNA with inter simple sequence repeat (ISSR) primers was used to discover sex-specific polymerase chain reaction (PCR) amplification products. A presumably female-specific band was found, excised from the gel, cloned, and sequenced. A sequence-walking method was used to characterize the same region in males. A primer pair was designed to allow the amplification of a 159-bp portion of the female-specific DNA region. All tested material, up to 16-year-old herbarium specimens, provided unambiguous amplification products. This study successfully provides, for the first time in a moss, a sex-specific DNA marker. It allows reliable determination of gender and sex ratios. The short length of the amplification product is an advantage as satisfactory PCR products are more likely when the targeted sequence is short. The amount of variation in the DNA region shared by both sexes was relatively high. If the male sequence can be better characterized, the sex-specific regions could possibly be used to evaluate sex-specific phylogeographic patterns.     

一个新的泥鳅雄性特异DNA片段（简报）

世界上现存鱼类多达24000余种．是脊椎动物中分布最广,种类最多的类群．具有多种多样的生物学特性和重大的经济价值。与高等脊椎动物相比．其性别决定具有多样性和可塑性。大多数鱼类的性别决定机制很原始。性染色体的分化处于萌芽状态。在已进行细胞遗传学研究的1700多种鱼类中．大约有176种（占10．4％）发现有明显的异型性染色体。     

Male-specific DNA sequences in pigs

One hundred primers (Operon kits OPAA, OPAO, OPAV, OPC, and OPE series) were used for random amplified polymorphic DNA (RAPD) fingerprinting to determine male-specific fragments. Seventy-four percent of the primers yielded Yorkshire polymorphic fragments. One of these primers, OPAV-18, produced a novel 1098-bp DNA fragment found only in tested males. This male-specific fragment was isolated and constructed into plasmids for nucleotide sequencing. Two primers (5'-TTGCTCACGG TAGATAACAA GAGAG-3' and 5'-TTGCTCACGG ACCAGGTAGG GAATG-3') were designed according to the cloned male-specific sequence to amplify the male-specific band using polymerase chain reaction (PCR) for pig sexing. Sex-specific bands in the PCR gel products were represented in males but none were found in females when Yorkshire, Duroc, and Landrace genomic DNA samples were amplified with these two primers by PCR. The PCR products in the gel were transferred to nylon membranes and hybridized with a 32P-dCTP labeled probe of the cloned male-specific DNA fragment. There was a clear hybridization signal in samples from all of the male pigs, but not from those of female pigs. Male and female genomic DNA samples from these pigs were spotted onto nylon membranes and hybridized with the male-specific probe. The probe hybridized strongly to males only. A high degree of sequence homology was found among the novel male-specific DNA sequences in Yorkshire, Duroc and Landrace. The sex of these three breeds of pigs could be easily and effectively determined using these two primers.     

半滑舌鳎雌性特异AFLP标记CseF783的克隆及其在遗传性别鉴定中的应用

半滑舌鳎性别控制和全雌育种等研究领域中迫切需要一种能够快速鉴定鱼类个体遗传性别的有效方法。文章采用AFLP技术, 利用选择性引物组合(E-ACT/M-CAA)从半滑舌鳎中筛选到一条雌性特异的AFLP标记。对该标记进行二次PCR扩增、琼脂糖凝胶回收、克隆、测序。分析表明, 序列全长为791 bp, 与GenBank中的序列无同源性。以该雌性特异AFLP标记DNA序列为模板, 设计了一对特异的PCR引物, 成功地将其转化为SCAR(Sequence characterized amplified regions)标记, 并在100尾已知性别的半滑舌鳎个体(雌雄各50尾)中进行验证, 结果表明, 该SCAR标记在所有雌性个体中均扩增得到一条长度为324 bp的DNA条带, 而在49尾雄性个体中均扩增不到该DNA条带(有1尾雄性个体例外), 证明该SCAR标记是雌性特异的, 并可用于半滑舌鳎个体遗传性别鉴定。随后, 利用该SCAR标记检测了3日龄半滑舌鳎幼苗, 结果表明, 雌性个体比例为41.7%。     

A novel sex-specific DNA marker in Columbidae birds

That most Columbidae birds have no conspicuous sexual dimorphism often makes it difficult to identify their sex on the basis of external morphology. In the present study, we report a novel sex-specific DNA marker in Columbidae birds. DNA was extracted from one member of this bird group, Streptopelia orientalis (S. orientalis, oriental turtle dove), and used to identify a female-specific DNA marker using a random amplified polymorphic DNA (RAPD) fingerprinting. One hundred and sixty random primers were used for the RAPD-PCR reactions. When using the OPAV17 primer, a novel 902 bp sex-specific PCR product was amplified from known female birds. This fragment of DNA was cloned and sequenced. Two primers, TurSexOPAV17-F and TurSexOPAV17-R, were designed from the cloned sex-specific sequence, and were successfully used to amplify a 777 bp female-specific fragment using PCR from S. orientalis DNA. This sex-specific marker was also amplified from genomic DNA samples of two other female Columbidae, S. chinensis and Columba livia. Sequence analysis showed that this novel sex-specific marker was highly conserved amongst these three bird species. In contrast, the PCR product was not amplified from male DNA of these species, nor from either sex of the S. chinensis formosa birds. Therefore, we concluded that our novel marker can be used to rapidly and accurately identify the sex of birds from three species of Columbidae.     

The identification of a sex-specific DNA marker in the ostrich using a random amplified polymorphic DNA (RAPD) assay

PCR-based techniques described to date for sex diagnosis in birds are not useful in ratites. We report here the identification of a W-linked marker in the ostrich (Struthio camelus) which allows gender diagnosis in chicks or juvenile birds. DNA from 10 females and 11 males was used to prepare two pools for each sex. Two-hundred different 10-mer primers of arbitrary sequence were used to screen those pools using a random amplified polymorphic DNA (RAPD) assay. One primer (D 10) generated a female-specific band. Sex specificity was confirmed by testing the 21 animals individually. The candidate DNA fragment was cloned and sequenced. Longer primers were designed to optimize a sex-specific PCR which will be useful in diagnosis.     

Isolation of Female-Specific AFLP Markers and Molecular Identification of Genetic Sex in Half-Smooth Tongue Sole (<Emphasis Type="Italic">Cynoglossus semilaevis</Emphasis>)

The sex-specific molecular marker is a useful gene resource for studying sex- determining mechanisms and controlling fish sex. Artificially produced male and female half-smooth tongue sole (Cynoglossus semilaevis) were used to screen sex-specific amplified fragment length polymorphism (AFLPs) molecular markers. The phenotypic sex of 28 tongue soles was determined by histological sectioning of gonads. The AFLP analysis of 15 females and 13 males via 64 primer combinations produced a total of 4681 scorable bands, of which 42.11% and 43.39% of bands were polymorphic in females and males, respectively. Seven female-specific AFLP markers were identified and designated as CseF382, CseF575, CseF783, CseF464, CseF136, CseF618, and CseF305, respectively. One female-specific AFLP marker (CseF382) was amplified, recovered from the gels, cloned, and sequenced (accession no. DQ487760). This female-specific AFLP marker was converted into a single-locus polymerase-chain reaction (PCR) marker of a sequence-characterized amplified region (SCAR). A simple PCR method of using the specific primers was developed for identifying genetic sex of half-smooth tongue sole. PCR products demonstrated that the initial 15 females produced the female-specific band of about 350 bp, but the initial 13 male individuals failed to produce the band. We also investigated the applicability of the PCR primers in other tongue sole individuals. The same female-specific fragment of about 350 bp was found in the additional 59 female individuals, but not in the additional 58 male individuals. This AFLP-based molecular sexing technique may have great application potential in elucidation of sex determination mechanisms and sex control in half-smooth tongue sole.     

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.     

Isolation of a sex-linked DNA sequence in cranes.

A female-specific DNA fragment (CSL-W; crane sex-linked DNA on W chromosome) was cloned from female whooping cranes (Grus americana). From the nucleotide sequence of CSL-W, a set of polymerase chain reaction (PCR) primers was identified which amplify a 227-230 bp female-specific fragment from all existing crane species and some other noncrane species. A duplicated versions of the DNA segment, which is found to have a larger size (231-235 bp) than CSL-W in both sexes, was also identified, and was designated CSL-NW (crane sex-linked DNA on non-W chromosome). The nucleotide similarity between the sequences of CSL-W and CSL-NW from whooping cranes was 86.3%. The CSL primers do not amplify any sequence from mammalian DNA, limiting the potential for contamination from human sources. Using the CSL primers in combination with a quick DNA extraction method allows the noninvasive identification of crane gender in less than 10 h. A test of the methodology was carried out on fully developed body feathers from 18 captive cranes and resulted in 100% successful identification.     

Cloning of Taiwan water buffalo male-specific DNA sequence for sexing

Random amplified polymorphic DNA (RAPD) fingerprinting was carried out to investigate the sex-specific DNA sequence for sexing in Taiwan water buffalos. One hundred and forty random primers were used for RAPD-PCR (polymerase chain reaction). One of these primers, OPC-16, produced a 321 bp fragment found only in tested males. This male-specific fragment was isolated and constructed into plasmids for nucleotide sequencing, a novel male-specific sequence was obtained. Two primers (BuSexOPC16-F and -R) were designed according to the cloned male-specific sequence to amplify the male-specific fragment using PCR for sexing. Sex-specific bands in the gel were represented in the males but none were found in the females when the Taiwan water buffalo genomic DNA samples were amplified with these two primers using PCR. The same results were also obtained from Taiwan yellow, Holstein, Angus, and Hereford cattle samples. This showed that the sex of these five breeds could be easily and effectively determined using the PCR technique.     

A novel specific DNA marker in Saccharomyces bayanus for species identification of the Saccharomyces sensu stricto complex

This study was based on RAPD fingerprinting for species identification of the Saccharomyces sensu stricto complex. 40 random primers were used for RAPD analysis. The results showed that one of these primers, OPT-18, produced a 974 bp species-specific band, which was only found in the tested S. bayanus. Afterward this specific fragment was isolated from agarose gel and ligated into vector for DNA sequencing. A pair of primer SpeOPT18Sbay-F2 and SpeOPT18Sbay-R2 were designed according to the cloned species-specific sequence, which was employed for PCR with the template DNA of the S. sensu stricto strains, single 779 bp species-specific band was only found in S. bayanus. Therefore, we conclude that our novel species DNA marker could be used to rapidly and accurately identify the species of S. bayanus from S. sensu stricto complex by direct PCR.     

Sex identification and genetic variation of Saccharina (Phaeophyta) gametophytes as revealed by inter-simple sequence repeat (ISSR) markers

Inter-simple sequence repeat (ISSR) polymerase chain reaction (PCR) markers were utilized to investigate the genetic variation between male and female gametophyte populations of strains Rongfu and 901 of Saccharina. In total, 11 ISSR primers were able to generate 135 satisfactory and reproducible loci, of which 134 were polymorphic with 99.26 % polymorphism. The percentages of polymorphism of female gametophyte populations (60 and 62 % for their respective strains) were higher than those of the males (53 %), and the Nei’s genetic diversity and Shannon’s information index showed a similar tendency. The clustering of gametophytes of the same sex from each strain was well resolved by both an unweighted paired group method using the arithmetic average and a principal component analysis, suggesting that any male/female gametophyte pair could represent each strain. However, a single pair was not adequate for germplasm maintenance because the genetic variance among individuals within a population accounted for 57.45 % of the total (P?<?0.0001), as shown by the analysis of molecular variance. The gametophyte sex could be identified by amplification with primer UBC809 because of a differential band present in the females. According to the sequence of this band, a pair of ISSR-derived sequence-characterized amplified region (SCAR) primers was designed. With the primers, one female-specific fragment was detected using PCR and Southern blot hybridization. This converted SCAR marker was localized on one unique chromosome of the female gametophytes of these two strains by use of fluorescence in situ hybridization, confirming that it was a female chromosome-specific marker.     

蛋鸽早期性别DNA分子鉴定

蛋鸽早期性别的鉴定一直是制约蛋鸽业发展的瓶颈问题。在本研究中,我们采用PCR扩增和琼脂糖凝胶电泳检测的方法,对20日龄期的100只蛋鸽的性别连锁基因染色体解旋酶DNA结合基因CHD(chromo-helicase DNA binding)进行跨内含子扩增检测。蛋鸽早期DNA分子电泳检测结果与成年后的真实性别核对结果表明:所有雌性蛋鸽扩增结果含有两条带,其大小分别为280bp和250bp,雄性蛋鸽仅有一条280bp的条带;泊松统计分析发现,蛋鸽早期DNA分子判定结果达到统计学上显著水平,可以作为蛋鸽早期性别鉴定的一种方法。本实验实现了以DNA分子为基础的早期蛋鸽性别鉴定,将对蛋鸽业早期的饲养成本降低和早期雄性蛋鸽的淘汰起到准确的指导作用。     

Analysis of DNA markers specific for G-genome of wheat

A RAPD marker specific for the G genome of wheat was identified. The corresponding 1171-bp DNA sequence was cloned and analyzed. Screening of the database did not reveal any homologies with the known plant DNA sequences. Using the primers specific to the flanking regions of the marker sequence, PCR analysis of the polyploid wheat species and the diploid species of the section Sitopsis was carried out. In addition, using the cloned sequence as a molecular hybridization probe, RFLP analysis of the genomic DNA of these species was performed.     

Use of primers derived from a new sequence of the bovine Y chromosome for sexing Bos taurus and Bos indicus embryos

A bovine male-specific marker was identified in our laboratory through random amplified polymorphic DNA (RAPD) analysis. This fragment of 3216 bp was cloned, sequenced and mapped by fluorescent in situ hybridization (FISH) on the taurine Yq. Primers derived from this sequence were initially screened by polymerase chain reaction (PCR) for their ability to detect Y-specific segments in zebu and taurine genomic DNA. Two of these primers amplified a 655 bp Y-specific sequence present in taurine and zebu male genomic DNA. These primers were then used for detecting the 655 bp male sequence in DNA from 173 zebu and 30 taurine embryos, which had been previously sexed using primers for the sequence BC 1.2. The results revealed an accuracy of 100%.     

Screening of Bacillus thuringiensis serotypes by polymerase chain reaction (PCR) for insecticidal crystal genes toxic against coffee berry borer

Using PCR,257 isolates of Bacillus thuringiensis(Bt) were screened for cry-type genes. Of 257 isolates/strains, 60 isolates were identified as cry7/8, 10 isolates as cry3 and 36 isolates as cry 1I. One specific strain of B. thuringiensis (sumiyoshiensis; T03B 001) was investigated for the presence of cry7 and cry8 genes. Genes Cry7 and cry8 were first detected in this strain using family primers prior to analysis by exclusion polymerase chain reaction (E-PCR) using specific type primers. E-PCR conducted with the above said primers led to the identification by agarose gel electrophoresis of a remaining 1.5 Kb family band indicating a potentially novel gene. This PCR product, (1.5 Kb), was purified from the gel and cloned in pGEM-T Easy vector. Twenty recombinant colonies bearing 1.5 Kb insert were identified and three randomly selected representatives of the group, clones 7, 8 and 10, were sequenced and compared to all cry7 and cry8 sequences available from Gene Bank. Alignments with available DNA and protein sequences showed that all these clones contained a gene related to cry8Aa1. Analysis using protein sequence alignment showed that the sequence from clone 7 differed from the closest relative, known under the new nomenclature as cry 8Aa1, by 44%. The crystal proteins from B. thuringiensis sumiyoshiensis (T03B 001) was toxic to coffee berry borer larvae.     

大麦6H染色体特异性标记的筛选和鉴定

从大麦、小麦和小麦－大麦６Ｈ染色体附加系ＲＡＰＤ分析筛选出对６Ｈ染色体特异的２个ＲＡＰＤ标记,转换为特异性ＰＣＲ标记,利用标记对不同植物材料进行ＰＣＲ扩增鉴定。表明凡含有大麦６Ｈ染色体的材料（Ｂｅｔｚｅｓ、Ｉｇｒｉ、ＣＳ６Ｈ附加系）均能扩增出特异带;而不含６Ｈ染色体的材料,包括小科、黑麦、长穗偃麦草、中间偃麦草、簇毛麦以及含有其他大麦染色体的小麦附加系均不主增出特异带。可见,２对ＰＣＲ引物具有大麦     

Analysis of the DNA Marker Specific to the Wheat G Genome

A RAPD marker specific for the G genome of wheat was identified. The corresponding 1171-bp DNA sequence was cloned and analyzed. Screening of the database did not reveal any homologies with the known plant DNA sequences. Using the primers specific to the flanking regions of the marker sequence, PCR analysis of the polyploid wheat species and the diploid species of the section Sitopsis was carried out. In addition, using the cloned sequence as a molecular hybridization probe, RFLP analysis of the genomic DNA of these species was performed.     

Isolation and characterization of a female-specific DNA marker in the giant freshwater prawn Macrobrachium rosenbergii

In this study, a female-specific DNA marker in the freshwater prawn Macrobrachium rosenbergii was identified through amplified fragment length polymorphism (AFLP). The AFLP-derived sequence-characterized amplified region (SCAR) marker was tested in over 200 individuals, giving reproducible sex identification. Further molecular characterization of the sex-marker's genomic region (～ 3 kb long) revealed the presence of tandem and inverted repeats. The ～ 3-kb sequence was identified both in male and female prawns, but with subtle differences: a deletion of 3 bp (present in female prawn but absent in male prawn) identified upstream of the SCAR marker sequence and two female-specific single-nucleotide polymorphisms, both indicating that male prawns are homozygous, whereas female prawns are heterozygous in this locus. Fluorescent in situ hybridization showed the ～ 3-kb sequence to be unique: to the best of our knowledge, this is the first report of a unique sex-specific sequence observed in situ in crustaceans. The sex-specific marker identified in M. rosenbergii may have considerable applied merit for crustacean culture in that it will enable the determination of genetic sex at early developmental stages when phenotypic differences are not identifiable.     

应用RACE法克隆鸽恒定链基因的研究

为比较禽类恒定链的结构和功能, 应用RACE (Rapid Amplification of cDNA Ends) 技术首次克隆并鉴定了鸽恒定链基因。首先用一对含高度保守的DNA片段的简并引物, 从鸽脾细胞RNA扩增部分恒定链片段, 接着测序并设计新引物分别从5′和3′RACE扩增延长该片段。最后根据全基因的序列设计上、下游引物,获得大小为1 050 bp的全长cDNA。比较核苷酸序列, 鸽与鸡的Ii链同源性达到82.8％, 而与人等其它动物的同源性则在52.0％以上; 其中633 bp的开放阅读框编码211个氨基酸残基的前体蛋白。推导和分析氨基酸序列表明, 分子结构与鸡恒定链相似, 其中有些氨基酸残基表现出较高的保守性。