DNA fingerprinting in horses using a simple (TG)n probe and its application to population comparisons

A synthetic polynucleotide (TG)n was hybridized to equine DNA digested with HinfI and hypervariable hybridization patterns were obtained. Mendelian inheritance of these DNA fingerprinting patterns was confirmed by pedigree analysis. Estimates of the probabilities of identical band patterns in unrelated individuals of different breeds (Swedish Trotters, North Swedish Trotters, Thoroughbreds and Arabians) were in the range 1 x 10(-4) - 7 x 10(-6). The variability derived with the (TG)n probe in horses was higher than what we obtained with several other commonly used probes for DNA fingerprinting. Individuals within breeds tended to be more similar to each other with regard to DNA fingerprint pattern than to individuals of other breeds. Moreover, a parsimony analysis made on the basis of the hybridization patterns gave clustering of individuals within breeds. The possibility of using hypervariable probes for the identification of breed-specific characters is discussed.     

DNA fingerprinting of Indian isolates of Xanthomonas oryzae pv. oryzae

 A high level of genetic polymorphism was detected among Indian isolates of Xanthomonas oryzae pv. oryzae using hypervariable probes such as a microsatellite oligonucleotide, probe (TG)₁₀, a human minisatellite probe, pV47, an avirulence gene probe, avrXa10 and a repeat clone, pBS101. These DNA probes detected multiple loci in the bacterial genome generating complex DNA fingerprints and differentiated all of the bacterial isolates. Analysis of fingerprints indicated that pV47, (TG)₁₀ and pBS101 have a lower probability of identical match than avrXa10 and therefore are potential probes for DNA fingerprinting and variability analysis of Xanthomonas oryzae pv. oryzae pathogen populations. Cluster analysis based on hybridization patterns using all of the above probes showed five groups at 56% similarity. Studies on the methylation patterns of isolates representing the three important races of X. oryzae pv. oryzae indicated more methylation in the most virulent isolate, suggesting a possible role of methylation in pathogenicity. Received: 8 December 1996 / Accepted: 20 December 1996     

Instability of (GATA)<Subscript> n</Subscript> microsatellite loci in the parthenogenetic Caucasian rock lizard<Emphasis Type="Italic"> Darevskia unisexualis</Emphasis> (Lacertidae)

Mini- and microsatellites, comprising tandemly repeated short nucleotide sequences, are abundant dispersed repetitive elements that are ubiquitous in eukaryotic genomes. In humans and other bisexual species hypervariable mini- and microsatellite loci provide highly informative systems for monitoring of germline and somatic instability. However, little is known about the mechanisms by which these loci mutate in species that lack effective genetic recombination. Here, multilocus DNA fingerprinting was used to study M13 minisatellite and (GATA) _n microsatellite instability in the parthenogenetic Caucasian rock lizard Darevskia unisexualis (Lacertidae). DNA fingerprinting of 25 parthenogenetic families, from six isolated populations in Armenia (comprising a total of 84 siblings), using the oligonucleotide (GATA)₄ as a hybridization probe, revealed mutant fingerprinting phenotypes in 13 siblings that differed from their mothers in several restriction DNA fragments. In three families (8 siblings), the mutations were present in the germline. Moreover, the mutant fingerprint phenotypes detected in siblings were also present in population DNA samples. No intrafamily variations in DNA fingerprint patterns were observed with the M13 minisatellite probe. Estimates of the mutation rate for (GATA) _n microsatellite loci in D. unisexualis showed that it was as high as that seen in some bisexual species, reaching 15% per sibling or 0.95% per microsatellite band. Furthermore, in one case, a somatic (GATA) _n microsatellite mutation was observed in an adult lizard. These findings directly demonstrate that mutations in (GATA) _n microsatellite loci comprise an important source of genetic variation in parthenogenetic populations of D. unisexualis.Communicated by G. P. Georgiev     

Digoxigenated oligonucleotide probes specific for simple repeats in DNA fingerprinting and hybridization in situ

Summary A fast, reproducible and non-hazardous technique for non-isotopic DNA fingerprinting is presented. The method is based on digoxigenated oligonucleotides, which are specific for simple repetitive DNA sequences. The use of digoxigenin/ anti-digoxigenin detection avoids many drawbacks inherent in e.g. the biotin/streptavidin system which often causes a poor signal-to-background ratio. Synthesis and purification of digoxigenated oligonucleotides and their use in filter hybridization are described in detail. Hybridization patterns obtained with four different radioactively labeled oligonucleotides have been compared with those of the respective digoxigenated probes. When slightly less stringent hybridization conditions are applied for digoxigenated oligonucleotides than for those labeled with ³²P, the signal intensities are satisfying but additional minor bands occur as a result of the reduced strigency. With one explainable exception, these bands increase the information content of the fingerprint. In addition, hybridization of the digoxigenated (CAC)₅ probe has been performed in situ with human metaphase chromosomes. The hybridization patterns in many mitoses resemble R-bands.     

Early stages of sex chromosome differentiation in fish as analysed by simple repetitive DNA sequences

Animal sex chromosome evolution has started on different occasions with a homologous pair of autosomes leading to morphologically differentiated gonosomes. In contrast to other vertebrate classes, among fishes cytologically demonstrable sex chromosomes are rare. In reptiles, certain motifs of simple tandemly repeated DNA sequences like (gata)_n/(gaca)_m are associated with the constitutive heterochromatin of sex chromosomes. In this study a panel of simple repetitive sequence probes was hybridized to restriction enzyme digested genomic DNA of poeciliid fishes. Apparent male heterogamety previously established by genetic experiments in Poecilia reticulata (guppy) was correlated with male-specific hybridization using the (GACA)₄ probe. The (GATA)₄ oligonucleotide identifies certain male guppies by a Y chromosomal polymorphism in the outbred population. In contrast none of the genetically defined heterogametic situations in Xiphophorus could be verified consistently using the collection of simple repetitive sequence probes. Only individuals from particular populations produced sex-specific patterns of hybridization with (GATA)₄. Additional poeciliid species (P. sphenops, P. velifera) harbour different sex-specifically organized simple repeat motifs. The observed sex-specific hybridization patterns were substantiated by banding analyses of the karyotypes and by in situ hybridization using the (GACA)₄ probe.by E.R. SchmidtDedicated to Professor Karl Sperling on the occasion of his 50th birthday     

Clonal structure of Rubus chamaemorus populations: comparison of different molecular methods

The clonal structure of Rubus chamaemorus populations was investigated using DNA fingerprinting. The PCR-based methods included the use of 10-base RAPD primers and 16-base simple sequence repeat primers. In the hybridization method variation was studied using hypervariable multilocus probes, one derived from the M13 bacteriophage and the other a synthetic (AC)/(TG) polynucleotide. Although R. chamaemorus expresses clear variation in morphology, the level of genetic differentiation appears to be fairly low. The observed numbers of clones in the three populations examined in Finland varied from 2 to 4. The total number of genotypes across populations was 5, of which one was unique. The results obtained using the two fingerprinting methods were comparable but lead to a slightly different grouping of clones.     

Individual identification of non-human primates using DNA fingerprinting

DNA fingerprints were studied in non-human primates including three species of Old World monkeys and one species of hominoid, using tandem repeats of a 28-base-pair sequence downstream of the human c-Ha-ras-1 oncogene as a probe. We observed Southern hybridization patterns consisting of multiple hypervariable DNA fragments, which were specific to each of the individuals examined. These results indicate that DNA fingerprinting is a powerful tool for identification of individuals among non-human primates, as is the case in man. On leave from the Department of Legal Medicine, Institute of Community Medicine, University of Tsukuba.     

Preparation of synthetic tandem-repetitive probes for DNA fingerprinting

DNA fingerprints are generated using probes that hybridize to hypervariable minisatellites, also known as variable number tandem repeat loci. Cloned minisatellites have served as the predominant source of DNA fingerprinting probes. A short segment within the repeat units of minisatellites, called the "core" sequence, is highly conserved within a family of related minisatellites, thereby allowing a single-cloned minisatellite to cross-hybridize to 20 to 40 other minisatellites. In this article, we describe a method for the synthetic preparation of polymeric core sequence probes for DNA fingerprinting. Unlike "monomeric" oligonucleotide probes, the polymeric probes mimic the tandem-repetitive structure of minisatellites, and thus each probe molecule can potentially form many sites of hybridization with a target minisatellite. The synthetic probes are cloned into plasmid DNA to provide a perpetual source of probe material.     

Hypervariable single and multi-locus DNA polymorphisms for genetic typing of non-human primates

The series of hypervariable, “minisatellite” loci characterized byJeffreys and coworkers in the human myoglobin gene have proved to be DNA sequences highly conserved throughout the eukaryotic genome, and hence the methodology developed for human DNA “fingerprinting” has found immediate application in an ever expanding number of species. Primatologists have not been slow to profit from a method which predicts individual recognition to a very high degree of probability, and initial studies have focused on paternity allocation (rather than paternity exclusion, as designated by the classical biochemical markers), adaptive aspects of socio-sexual behaviour patterns and mating systems. A number of probes with sequences corresponding to the common minisatellite core sequences have been used for probing genomic DNA, and synthetic, G-rich oligonucleotides (15 – 37 bases), corresponding to the core sequence of the minisatellite repeat unit, or simply di-, tri-, or tetranucleotide repeats, appear to be equally discriminatory. The multiple banding patterns produced on hybridization of these probes to restriction enzyme digests of DNA provide an advantage in that the probability of two unrelated individuals sharing the same banding pattern will be low. However, the uncertainty of linkage of the multiple loci identified precludes genotyping and population genetic analyses based on allele frequencies. In contrast, single locus analysis allows DNA typing using variable number tandem repeat (VNTR) or restriction fragment length (RFLP) DNA polymorphisms, and the merits and drawbacks relative to DNA fingerprinting are discussed. For the behavioural primatologists dealing with defined, accessible troops of primates, the value of multilocus DNA fingerprinting, in terms of established methodology and availability of probes applicable to species as phylogenetically wide-ranging as apes and prosimians, may well outweigh the loss of genotypic and population structure data.     

DNA fingerprinting reveals significant amounts of genetic variation in a wild raspberry Rubus idaeus population

Establishing the genotypic distribution in natural plant populations is an important part of ecological studies concerning plant growth, reproduction and turn-over. Restriction enzyme-digested DNA samples, isolated from 24 plants of a natural Rubus idaeus population, were analysed with DNA fingerprinting using the M13 repeat sequence as well as a synthetic (AC)/(TG) polydinucleotide as hybridization probes. All the examined samples exhibit unique DNA fingerprint patterns, suggesting that vegetative reproduction may be considerably more restricted in wild R. idaeus populations than previously assumed. By comparison, all samples of the apomictic blackberry species Rubus nessensis, collected on the same location, were completely identical.     

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.     

Dissecting (CAC)5/(GTG)5 multilocus fingerprints from man into individual locus-specific, hypervariable components

Individual components of multilocus fingerprints from man produced by (CAC)₅/(GTG)₅ oligonucleotides have been scrutinized to characterize their peculiar properties. Successful cloning and changes occurring during the propagation of recombinant simple repetitive DNA in prokaryotic hosts are described. The isolated locus-specific probes were characterized with respect to their formal (and population genetic) properties and their usefulness for individualization and linkage studies. The localization was determined on chromosomes 8, 9, 11, and 22. Repeat flanking sequences were characterized and analyzed for their coding potential because of significant open reading frames and apparent evolutionary conservation among vertebrates. The organization of the repeats and their flanking regions in the human genome is discussed with respect to the sequence (fine) architecture that developed during evolution. Classical “minisatellite” sequences were not detected near hypervariable (cac)_n/(gtg)_n repeats. The singlecopy probes described herein are a convenient complement to the oligonucleotides employed for multilocus fingerprinting. Many practical applications are apparent.     

Analysis of genetic variation in unisexual and bisexual lizard species of the genus Leiolepis from Southeast Asia

Using multilocus DNA fingerprinting with microsatellite probes (CAC)₅, (GACA)₄, (GGCA)₄, and (GATA)₄, intraspecific variation of the Southeast Asian lizards belonging to the genus Leiolepis (bisexual species Leiolepis reevesii and triploid parthenogenetic species Leiolepis guentherpetersi) was first examined. The L. guentherpetersi lizards were characterized by monophyletic DNA fingerprint profiles for the loci detected by the (GACA)₄, (GGCA)₄, and (CAC)₅ probes, in terms of intrapopulation similarity index constituting S = 0.96. This was different from the individual-specific profiles of the lizards from bisexual, presumably parental species, L. reevesii (S = 0.6; P < 0.001). Genetic homogeneity of triploid L. guentherpetersi lizards at the loci examined serves as one of the arguments for the parthenogenetic nature of this species. Genetic variability of triploid parthenogenetic species L. guentherpetersi appeared to be comparable with that reported earlier for the Caucasian rock lizards of the genus Darevskia, namely, D. dahli, D. armeniaca, and D. unisexualis (P > 0.05). The results of DNA fingerprinting analysis of the same L. guentherpetersi samples with the (GATA)₄ hybridization probe were unexpected. Variability of parthenogenetic species L. guentherpetersi at the (GATA)_n markers was remarkably higher than that at other DNA markers (S = 0.35; P = 3.08 × 10^?11), being comparable to the variation of the (GATA)_n DNA markers in bisexual species L. reevesii (P = 0.74). The reasons for high polymorphism of the (GATA)_n-containing loci in L. guentherpetersi still remain unclear. This polymorhism is probably associated with high instability of the loci, which can be revealed by means of family analysis of parthenogenetic offspring.     

Paternity determination in the adder (Vipera berus)—DNA fingerprinting or random amplified polymorphic DNA?

We performed breeding experiments with adders (Vipera berus) to determine whether multiple matings may result in multiple paternity. DNA fingerprinting of mothers, their offspring, and possible fathers using a polydinucleotide probe [(TG) _n ] gave a low overall similarity between unrelated individuals (0.18±0.07; SD) and an average of 17 bands that were male-specific. In no cases were there fewer than seven paternal-specific bands present in the fingerprint of an offspring, enabling us unambiguously to identify the biological father among five males. Multiple paternity was detected in the investigated broods with offspring sired exclusively by the captive males. PCR amplification of random amplified polymorphic DNA (RAPD) using 16 decamer primers gave 76 bands and an average similarity of 0.95 (±0.01) between the males, which were collected at different, geographically well-separated localities. Although there were on average 8.3 (±1.9) bands that differ between males in pairwise comparisons, there were only 1.9 (±1.1) bands per male that are specific for a particular individual. Thus, RAPDs are adequate for paternity determination only in experiments with a low number of males, whereas DNA fingerprinting offers sufficient information to discriminate between large numbers of putative fathers.The Swedish Natural Science Research Council, the Nilsson-Ehle Foundation, and the Erik Philip-Sörensen Foundation supported our research.     

DNA fingerprinting in roe deer using the digoxigenated probe (GTG)5

The digoxigenin-labelled oligonucleotide (GTG)₅ was used as a multilocus probe to detect hypervariable microsatellites in roe deer DNA digested with Hae III. The resulting fingerprints of 24 animals belonging to four subpopulations were characterized with regard to within-subpopulation as well as between-subpopulation similarity. The mean number of polymorphic fragments was 20 and the average band-sharing rate for unrelated animals 0.27. A mean probability of 91.5% for a fragment to be present in the heterozygous state was evaluated and the probabilities of identical band patterns in unrelated individuals were estimated to be in the range 1.3 times 10^-16 - 2.5 times 10^-18. Though band-sharing rates of animals belonging to different subpopulations (range 0.18-0.24) were lower than those of within-subpopulations, several measures of population subdivision and the genetic distance do not reveal a striking differentiation of the subpopulations studied.     

Results of <Emphasis Type="Italic">Camelus dromedarius</Emphasis> and <Emphasis Type="Italic">Camelus bactrianus</Emphasis> Genotyping by Alpha-S<Subscript>1</Subscript>-Casein,Kappa-Casein Loci,and DNA Fingerprinting

Genotyping of Kazakh camels Camelus dromedarius (milk breed) (n = 18) and Camelus bactrianus (meat breed) (n = 18) by alpha-S₁-casein (αs₁-CN) and kappa-casein (κ-CN) loci was conducted using the PCR–RFLP analysis method. A new pair of primers was suggested for the amplification of the CSN3 gene fragment with subsequent cleavage of the reaction products by AluI restriction endonuclease in order to identify the gene genetic variants. DNA polymorphism was detected only for the kappa-casein locus; no genetic polymorphism for alpha-S₁-casein gene was found in the studied populations. Analysis of the results of DNA fingerprinting demonstrated that the band sharing (BS) coefficient between the groups was low enough (0.13), and the genetic distance (D) between Dromedary and Bactrian breeds was 0.305. The results of genotyping of Bactrian and Dromedary Kazakh camel breeds by alpha-S₁-casein, kappa-casein loci, and DNA fingerprinting indicate that the Dromedary breed female camels are more polymorphic as compared with Bactrian.     

DNA fingerprinting of eukaryote genomes by synthetic oligodeoxyribonucleotide probes

An extreme level of DNA sequence polymorphism, the basis of DNA fingerprinting, was first demonstrated using genome derived cloned probes. Subsequently, it was shown that DNA fingerprinting can also be carried out using short synthetic oligodeoxyribonucleotide probes specific for simple repetitive sequences. Further, in addition to radioactively labeled probes, non-radioactive oligonucleotides generate equally informative hybridization patterns. We discuss the development in the area of DNA fingerprinting and its future scope with respect to plant, animal and the human DNA.     

Hybridization of single-stranded DNA targets to immobilized complementary DNA probes: comparison of hairpin versus linear capture probes

A microtiter-based assay system is described in which DNA hairpin probes with dangling ends and single-stranded, linear DNA probes were immobilized and compared based on their ability to capture single-strand target DNA. Hairpin probes consisted of a 16 bp duplex stem, linked by a T₂-biotin·dT-T₂ loop. The third base was a biotinylated uracil (U_B) necessary for coupling to avidin coated microtiter wells. The capture region of the hairpin was a 3′ dangling end composed of either 16 or 32 bases. Fundamental parameters of the system, such as probe density and avidin adsorption capacity of the plates were characterized. The target DNA consisted of 65 bases whose 3′ end was complementary to the dangling end of the hairpin or to the linear probe sequence. The assay system was employed to measure the time dependence and thermodynamic stability of target hybridization with hairpin and linear probes. Target molecules were labeled with either a 5′-FITC, or radiolabeled with [γ-³³P]ATP and captured by either linear or hairpin probes affixed to the solid support. Over the range of target concentrations from 10 to 640 pmol hybridization rates increased with increasing target concentration, but varied for the different probes examined. Hairpin probes displayed higher rates of hybridization and larger equilibrium amounts of captured targets than linear probes. At 25 and 45°C, rates of hybridization were better than twice as great for the hairpin compared with the linear capture probes. Hairpin–target complexes were also more thermodynamically stable. Binding free energies were evaluated from the observed equilibrium constants for complex formation. Results showed the order of stability of the probes to be: hairpins with 32 base dangling ends > hairpin probes with l6 base dangling ends > 16 base linear probes > 32 base linear probes. The physical characteristics of hairpins could offer substantial advantages as nucleic acid capture moieties in solid support based hybridization systems.     

Comparison of ISSR polymorphism among cattle breeds

Polymorphism analysis of DNA fragments flanked by (AG)₉C and (GA)₉C inverted dinucleotide microsatellite repeats in 766 animals of 19 cattle breeds and one breeding type revealed 66 fragments, of which 64 were polymorphic. The breeds proved to differ in the frequency and presence or absence of amplified DNA fragments at the genomic level, indicating that ISSR fingerprinting is informative for differentiating the PCR product spectra and cattle breeds. Multilocus ISSR polymorphism analysis identified the group of fragments that can be used as Bos taurus and B. indicus species markers to describe the standards of breeds, their genetic profiles, and breed-specific patterns. Based on ISSR polymorphism, a prototypal gene pool of cattle was constructed and the breeds closest to it were identified. Genetic diversity analysis made it possible to assume that an optimal mean heterozygosity is characteristic of cattle breeds and that deviations from this optimum are indicative of various processes occurring in the population (breed).