DNA fingerprinting in cattle using the probe pV47

The multilocus probe pV47 detected an average of nine bands in cattle between 23 kb and 4 kb. Band sharing was estimated for three groups of unrelated animals. The first group comprised 20 individuals of 12 different breeds, the second group 10 individuals of the Swiss Simmental population and the third group 11 individuals of the Swiss Brown Swiss population. The band sharing probabilities were 33%, 42% and 58% respectively. The DNA fingerprints of 38 offspring with a total of 277 bands revealed no bands that could not be traced to the parents.     

分子生物学教材中的真核生物基因组重复序列

现行的高校分子生物学教材中主要以重复频率为依据对重复序列进行分类,对于小卫星DNA及微卫星DNA是属于高度或是中度重复序列存在不同见解。提出依据重复频率及空间结构分布两个方面对重复序列进行分类,并建议按照重复频率将小卫星DNA及微卫星DNA归属于中度重复序列。     

Repetitive and arbitrary primer DNA sequences in PCR-mediated fingerprinting of outbreak and sporadic isolates of Campylobacter jejuni

Abstract PCR-mediated fingerprinting with combined repetitive and arbitrary DNA primers (ERIC-2 and 1026) was used to type Campylobacter jejuni from a milk-associated outbreak, and from sporadic cases of the same and allied HS serotypes. The 14 outbreak strains had identical or similar DNA band profiles whereas the 25 strains from sporadic infections were more heterogeneous with 18 different DNA profiles. Although PCR-based DNA fingerprints lacked serotype specificity, the method was fast, simple to perform and reproducible, provided defined technical protocols were adhered to precisely. Profiles were highly discriminatory but did not consistently match types based on other molecular methods. We conclude that AP-PCR has demonstrable potential for initial rapid investigation of outbreaks, and when used in conjunction with PFGE analysis of DNA restriction profiles, provides a high resolution strategy for accurately defining subtypes of C. jejuni .     

DNA fingerprinting in cattle using oligonucleotide probes

Oligonucleotide probes specific for simple tandem repeat sequences produce individual specific DNA fingerprints in man and all animal species tested so far. Here 11 different synthetic probes were hybridized to bovine genomic DNAs which had been digested with the restriction endonucleases HinfI, AluI and HaeIII. Two of these probes gave DNA fingerprint patterns which were analysed for three German breeds. Different parameters were calculated, such as the average number of bands per individual or the probability of finding identical fingerprints in two unrelated individuals. The number of polymorphic bands varies from 11 to 23 in the different breeds and the probability of finding the same banding pattern in two unrelated individuals ranges from 1.5 x 10(-7) to 2.4 x 10(-7). Hence this DNA fingerprinting procedure allows precise identification of individuals. It is also a useful additional method for paternity testing in cattle.     

DNA fingerprinting in rice using oligonucleotide probes specific for simple repetitive DNA sequences

In this report we describe the use of five oligonucleotide probes, namely (GATA)₄, (GACA)₄, (GGAT)₄, (GAA)₆ and (CAC)₅, to reveal highly polymorphic DNA regions in rice. With each of the oligonucleotide probes, the level of polymorphism was high enough to distinguish several rice genotypes. Moreover, individual plants of one cultivar showed the same cultivar-specific DNA fingerprint. The multilocus fingerprint patterns were somatically stable. Our study demonstrates that microsatellite-derived DNA fingerprints are ideally suited for the identification of rice genotypes. As the majority of the probes detected a high level of polymorphism, they can be very useful in monitoring and aiding gene introgression from wild rice into cultivars.     

Discriminate suckling in pipistrelle bats is supported by DNA fingerprinting

DNA fingerprints were obtained by using Jeffreys' probes 33.6 and 33.15 with DNA extracted from nine mother-young pairs of pipistrelle bats Pipistrellus pipistrellns to investigate the feasibility of this technique for determining relatedness in this species. The bats had mated in the wild and gave birth in captivity. All of nine pairs in which infants were found attached showed band-sharing coefficients higher than those for individuals presumed to be unrelated but run in adjacent lanes of the gels. We therefore conclude that all attached infants were probably true offspring.     

DNA fingerprinting in clonal organisms

The use of DNA fingerprinting to identify members of the same clone in completely or partially asexual organisms requires that the individuals within a clone share a recent common ancestor. By considering the expected distributions of band–sharing values in asexual and sexual organisms, it is shown that DNA fingerprinting may be effective in distinguishing members of the same clone, provided that the frequency of sexual reproduction is considerably greater than the minisatellite mutation rate.     

Low-Cot DNA sequences for fingerprinting analysis of germplasm diversity and relationships in Amaranthus

We examined genetic diversity and relationships among 24 cultivated and wild Amaranthus accessions using the total low-Cot DNA and five individual repetitive sequences as probes. These low-Cot DNA probes were obtained by the isolation of various classes of repetitive-DNA sequences, including satellites, minisatellites, microsatellites, rDNA, retrotransposon-like sequences, and other unidentified novel repetitive sequences. DNA fingerprints generated by different types of repetitive-DNA probes revealed different levels of polymorphism in the Amaranthus genomes. A repetitive sequence containing microsatellites was found to be a suitable probe for characterizing intraspecific accessions, whereas more conservative sequences (e.g. rDNA) were informative for resolving phylogenetic relationships among distantly related species.Genetic diversity, measured as restriction fragment length polymorphism (RFLP) and the similarity index at the low-Cot DNA level, was equally high among intraspecific accessions between the two species groups: grain amaranths (A. caudatus, A. cruentus, and A. hypochondriacus) and their putative wild progenitors (A. hybridus, A. powellii, and A. quitensis). At the interspecific level, however, the grain amaranth species are less divergent from each other than their wild progenitors. With the rare exceptions of certain A. caudatus accessions, grain amaranths were found to be closely related to A. hybridus. The results based on low-Cot DNA were comparable with previous RAPD and isozyme studies of the same set of species/accessions of Amaranthus, indicating that low-Cot DNA sequences are suitable probes for a fingerprinting analysis of plant germplasm diversity and for determining phylogenetic relationships. Received: 19 October 1998 / Accepted: 8 January 1999     

PCR primed with minisatellite core sequences yields DNA fingerprinting probes in wheat

 Four minisatellite core sequences were used as primers in a polymerase chain reaction (PCR) technique, known as the directed amplification of minisatellite-region DNA (DAMD), to detect polymorphisms in three pairs of hexaploid/tetraploid wheat cultivars. In each pair, the tetraploid cultivar (genomic formula AABB) was extracted from its corresponding hexaploid (genomic formula AABBDD) parent. Reproducible profiles of the amplified products revealed characteristic bands that were present only in the hexaploid wheats but not in their extracted tetraploids. Some polymorphisms were observed among the hexaploid cultivars. Twenty-three DAMD-PCR amplified fragments were isolated and screened as molecular probes on the genomic DNA of wild wheat species, hexaploid wheat and triticale cultivars. Subsequently, 8 of the fragments were cloned and sequenced. The DAMD-PCR clones revealed various degrees of polymorphism among different wild and cultivated wheats. Two clones yielded individual-specific DNA fingerprinting patterns which could be used for species differentiation and cultivar identification. The results demonstrated the use of DAMD-PCR as a tool for the isolation of informative molecular probes for DNA fingerprinting in wheat cultivars and species. Received: 13 May 1996/Accepted: 11 October 1996     

A novel synthetic probe for DNA fingerprinting salmonid fishes

The synthesis and use of a novel DNA probe that gives clear, highly polymorphic DNA fingerprints for salmonid fishes is described. When used at high stringency, the Ssal-rep probe detects a group of minisatellite sequences limited to the Salmonidae and related families.     

Detection of leucochimaerism in bovine twins by DNA fingerprinting

Karyotyping and hypervariable genetic markers indicate extensive leucochimaerism between pairs of dizygotic twins in cattle, a result of placental vascular anastomosis. The extent of this chimaerism includes both kind and number of cells exchanged. All heterosexual twin pairs harboured two types of leucocytes, having either XX or XY chromosome pairs, and 30 of 31 pairs of twins shared identical DNA fingerprints. Although chromosome results from skin fibroblasts indicate that some chimaerism occurs in the skin, the low level allows for differentiation of genotypes between twins. The results warrant against the common practice of using blood samples for DNA typing if twinning is not properly documented.     

Repetitive DNA of grapevine: classes present and sequences suitable for cultivar identification

Summary Repetitive DNA sequences present in the grapevine genome were investigated as probes for distinguishing species and cultivars. Microsatellite sequences, minisatellite sequences, tandemly arrayed genes and highly repetitive grapevine sequences were studied. The relative abundance of microsatellite and minisatellite DNA in the genome varied with the repeat sequence and determined their usefulness in detecting RFLPs. Cloned Vitis ribosomal repeat units were characterised and showed length heterogeneity (9.14–12.15 kb) between and within species. A highly repetitive DNA sequence isolated from V. vinifera was found to be specific only to those species classified as Euvitis. DNA polymorphisms were found between Vitis species and between cultivars of V. vinifera with all classes of repeat DNA sequences studied. DNA sequences suitable for DNA fingerprinting gave genotype-specific patterns for all of the cultivars and species examined. The DNA polymorphisms detected indicates a moderate to high level of heterozygosity in grapevine cultivars.On leave from the Biochemical Research Institute, Nippon Menard Cosmetic Co, Ltd, Ogaki Gifuken, 503 Japan     

Repetitive DNA interspersion patterns in diptera

A wide spectrum of repetitive DNA amounts and interspersion patterns is seen in mosquitoes and other dipterans. Using a simple and rapid technique, we show that these range from a minimal amount in five species of Anopheles through moderate amounts in Culex quinquefasciatus to large amounts in Aedes aegypti and Stomoxys calcitrans. Although Culex and Aedes are closely related and both have a considerable amount of interspersed repetitive DNA, the repetitive sequences are different between the two genera. These results and previously published information show that the amount of repetitive DNA and sequences involved have changed many times during the evolution of the Diptera.     

Repeat sequences from complex ds DNA viruses can be used as minisatellite probes for DNA fingerprinting

In a search for new fingerprinting probes for use with sheep, repeat sequences derived from five poxviruses, an iridovirus and a baculovirus were screened against DNA from sheep pedigrees. Probes constructed from portions of the parapox viruses, orf virus and papular stomatitis virus and the baculovirus from the alfalfa looper, Autographa californica, nuclear polyhedrosis virus all gave fingerprint patterns. Probes from three other poxviruses and an iridovirus did not give useful banding patterns.     

Spawning patterns in the three-spined stickleback (Gasterosteus aculeatus L.): an evaluation by DNA fingerprinting

We analysed a random sample of 10 three-spined stickleback nests by DNA fingerprinting. DNA from the guardian male and a random subsample of LO fry per nest were probed with pYNZ 132, a human single-locus probe for VNTR-loci (variable number of tandem repeats). On average this probe produced DNA fingerprints of 12 scoreable bands. By comparing the bands present in each individual, we calculated band sharing indices (BSIs) between the guardian male and its fry. The BSls varied between 0.40 and 0.77 with an average (± S.D.) of 0.59 ± 0.09. We therefore conclude that the guardian male was the true father of the fry in all these nests. Once the paternal bands in each fry were determined, we compared the maternal bands among the fry of each nest. Based on the BSIs obtained with these comparisons, we found that one guardian male enticed three females to spawn in its nest, six enticed two females and three enticed one female.     

Minisatellite DNA profiling detects lineages and parentage in the endangered kakapo (Strigops habroptilus) despite low microsatellite DNA variation

An important goal of the conservationmanagement program of the critically endangeredground parrot, the New Zealand kakapo (Strigops habroptilus) is the determination ofparentage and levels of genetic diversitywithin the remaining population. Our previousmicrosatellite DNA studies have shown that allindividuals of this species except one arehomozygous at seven loci examined. Incontrast, we now show that a minisatellite DNAanalysis of kakapo provides sufficientvariation to conduct paternity analyses anddetect heterogeneity within the 86 livingkakapo. The sole remaining Fiordland kakapo,Richard Henry, is shown to be geneticallydivergent from individuals originating from theonly other remaining population on StewartIsland, suggesting that two lineages of kakapoare present in the extant population. This hasparticular significance for the conservationmanagement goal of maintenance of the maximumgenetic diversity in the species as a whole. The example of the kakapo illustrates thatminisatellite DNA markers can be useful incases where microsatellite DNA fails to showsufficient variation.     

应用DNA指纹图谱技术鉴定整肠生菌株BL63516的研究

目的建立应用DNA指纹图谱技术鉴定微生态制剂——整肠生菌株BL63516的方法,提高菌种鉴别水平。方法应用RAPD（随机扩增多态性）方法,采用50条随机引物对7株地衣芽胞杆菌进行基因组DNA指纹图谱分析,选择多态性好、重复性好、稳定性强的随机引物,对BL63516与其他地衣芽胞杆菌进行区分。结果发现选用引物$87或$88分别对7株地衣芽胞杆菌进行基因组DNA指纹图谱分析,BL63516菌株扩增的DNA片段的大小、数量均与其他地衣芽胞杆菌有明显差异。结论此方法具有可重复性,方便、快速和准确的优势,可用于微生态制剂整肠生菌株的鉴别。     

DNA fingerprinting analysis of Booroola pedigrees: a search for linkage to the Booroola gene

Seven minisatellite probes from a variety of sources were used to analyse 11 paternal half-sib families in which the Booroola gene was segregating. A total of 402 bands that showed segregation in the pedigrees were examined for linkage to the Booroola gene. None of the bands showed segregation with the Booroola gene. The most likely evidence for a linked band was produced by the HaRas HVR probe in Family 902 (=0.0; LOD 2.3). The conclusion, however, is that the minisatellite probes used in this study could not be used as markers for the Booroola gene. The study highlighted problems associated with the use of minisatellite probes in linkage studies in half-sib families. The complex banding patterns found on fingerprinting gels was a major source of scoring error. In a few cases both of the sire's alleles could be identified at a particular locus, but in most cases only one of the alleles could be identified. For the most part, the bands had to be treated as dominant alleles. The contribution of dam alleles to the banding pattern could only be estimated. There was an indication that minisatellite loci in sheep are clustered in particular regions of the sheep genome as the rate at which bands segregated with each other was higher than one would expect from loci randomly distributed throughout the genome.