Modelling competition and hybridization between native cutthroat trout and nonnative rainbow and hybrid trout

Native salmonid fish have been displaced worldwide by nonnatives through hybridization, competition, and predation, but the dynamics of these factors are poorly understood. We apply stochastic Lotka-Volterra models to the displacement of cutthroat trout by rainbow/hybrid trout in the Snake River, Idaho, USA. Cutthroat trout are susceptible to hybridization in the river but are reproductively isolated in tributaries via removal of migratory rainbow/hybrid spawners at weirs. Based on information-theoretic analysis, population data provide evidence that hybridization was the primary mechanism for cutthroat trout displacement in the first 17 years of the invasion. However, under some parameter values, the data provide evidence for a model in which interaction occurs among fish from both river and tributary subpopulations. This situation is likely to occur when tributary-spawned cutthroat trout out-migrate to the river as fry. The resulting competition with rainbow/hybrid trout can result in the extinction of cutthroat trout even when reproductive segregation is maintained.     

Modelling competition and hybridization between native cutthroat trout and nonnative rainbow and hybrid trout

Native salmonid fish have been displaced worldwide by nonnatives through hybridization, competition, and predation, but the dynamics of these factors are poorly understood. We apply stochastic Lotka–Volterra models to the displacement of cutthroat trout by rainbow/hybrid trout in the Snake River, Idaho, USA. Cutthroat trout are susceptible to hybridization in the river but are reproductively isolated in tributaries via removal of migratory rainbow/hybrid spawners at weirs. Based on information-theoretic analysis, population data provide evidence that hybridization was the primary mechanism for cutthroat trout displacement in the first 17 years of the invasion. However, under some parameter values, the data provide evidence for a model in which interaction occurs among fish from both river and tributary subpopulations. This situation is likely to occur when tributary-spawned cutthroat trout out-migrate to the river as fry. The resulting competition with rainbow/hybrid trout can result in the extinction of cutthroat trout even when reproductive segregation is maintained.     

Divergence of tRNA genes in chloroplast DNA of higher plants

The saturation hybridization between spinach chloroplast (ct) DNA and spinach ¹²⁵I-labelled chloroplast tRNA has shown that about 1.1% of the spinach ctDNA codes for tRNAs. The observed hybridization is a result of specific base-pairing as shown by competition hybridization experiments and thermal stability of the ctDNA-tRNA hybrids. The amount of hybridization shows that spinach ctDNA contains about 40 tRNA genes. Similar hybridization studies have shown that corn ctDNA contains about 28 tRNA genes. The cross-hybridizations between ctDNA and tRNAs of corn, spinach and pea have shown that tRNAs in chloroplasts of higher plants have undergone significant divergence. The pea and spinach tRNAs have been found to have 50% of the base sequences in common. The corn tRNAs have been found to have only about 30% of the base sequences in common with pea and spinach. These data have been confirmed by extensive heterologous competition experiments and thermal stability of the heterologous DNA-tRNA hybrids. The experiments have also shown that the base sequences of tRNAs common in all three plants are the same.     

Conditions to ensure competitive hybridization in two-color microarray: a theoretical and experimental analysis

We derived a theoretical model that explains certain biases observed in the two-color microarray hybridization experiments reported in the literature. We show that true competition is achieved only when the hybridization kinetics of the two differentially labeled probes are the same. If the hybridization kinetics of the two differentially labeled probes is different, which can occur when the labeling and hybridization conditions for the two probes are dissimilar, then differential expression observed becomes a function of the amount of the target (i.e., DNA spotted on the slide). We use this model to validate the microarray methodology by determining the differential expression of four select Arabidopsis genes and two human genes (beta-actin and GAPDH) as a function of the amount of target arrayed. We show through both modeling and experiments that the rate constants for Cy5- and Cy3-labeled probes are the same under our exrimental conditions. Therefore, the target concentrations need not greatly exceed the probe concentration. It is obvious from the data presented that a simple treatment of an individual hybridization rate calculation does notfully describe what is occuring in today's complex, multispecies experiments. The method of validation is easily implemented to ensure data reliability by two-color microarray.     

Males with high genetic similarity to females sire more offspring in sperm competition in Peron's tree frog Litoria peronii

Recent work has confirmed that genetic compatibility among mates can be an important determinant of siring success in sperm competition experiments and in free-ranging populations. Most of this work points towards mate choice of less related mates. However, there may also be the potential for mate choice for intermediate or even genetically similar mates to prevent outbreeding depression or hybridization with closely related taxa. We studied relatedness effects on post-copulatory gametic choice and/or sperm competition in an external fertilizer, Peron's tree frog (Litoria peronii), since external fertilizers offer exceptional control in order to test gametic interaction effects on probability of paternity and zygote viability. Sperm competition experiments were done blindly with respect to genetic relatedness among males and females. Thereafter, paternity of offspring was assigned using eight microsatellite loci. Three hybridization trials between L. peronii and a closely related sympatric species Litoria tyleri were also carried out. In the sperm competition trials, males that are more genetically similar to the female achieved higher siring success compared with less genetically similar males. The hybridization trials confirmed that the two species can interbreed and we suggest that the risk of hybridization may contribute to selection benefits for genetically more similar males at fertilization. To our knowledge, this study is the first to show evidence for post-copulatory selection of sperm from genetically more similar individuals within a natural population.     

Generation of a chromosome-22-specific c-DNA library as confirmed by FISH analysis

We have recently developed a strategy for the rapid enrichment of c-DNA fragments from selected human chromosomes. Heteronuclear RNA (hn-RNA) is isolated from a somatic cell hybrid that retains a single human chromosome in a rodent background. Following c-DNA synthesis, human sequences are selectively amplified by the Alu polymerase chain reaction (Alu-PCR). Here we have applied this protocol for the selective isolation of novel c-DNAs encoded by chromosome 22. Fluorescence in situ hybridization has been used to confirm the chromosome-22-specific origin of the c-DNA fragments. Controls show DNAse-free RNase-treated hn-RNA results in no c-DNAs or Alu-PCR products. As demonstrated by competitive in situ suppression hybridization (CISS), the majority of the Alu-PCR products from hybrid GM 10027 are located on chromosome 22. Without competition, hybridization signals have also been identified on other human chromosomes. These unspecific hybridization signals result from Alu sequences and can successfully be reduced by competition with cot 1 DNA. This is the first report of the use of CISS for the localization of chromosome-specific c-DNAs.     

Fine structure of ribosomal RNA: I. Conservation of homologous regions within ribosomal RNA of eukaryotes

By molecular hybridization experiments the homologies between ribosomal RNAs from a unicellular organism (Gyrodinium cohnii), three invertebrates (Drosophila hydei, Chironomus thummi, Sciara coprophila), an amphibian (Xenopus laevis), and a mammal (mouse) were determined. Competition hybridization experiments demonstrated that portions of these homologous regions are the same in all the ribosomal RNAs tested, regardless of animal species. This conclusion based on hybridization data was confirmed by comparative fingerprint analysis. The ribosomal RNA sequences involved in heterologous hybridization have a higher A + T composition than the bulk ribosomal RNA. It appears from competition experiments of a heterologous hybridization that two thirds of the conserved similar regions are present in 18 S ribosomal RNA, and the remaining one third in 28 S ribosomal RNA. It is argued that these similar regions have been conserved during evolution due to their structural and/or functional role in ribosomal RNA.     

Pollen competition and environmental effects on hybridization dynamics between Phlox drummondii and Phlox cuspidata

Pollen competition between species strongly influences hybridization dynamics in plants. By performing single- and mixed-donor pollinations, we show that soil Ca alters the outcome of interspecific pollen competition in the annual Phlox hybrid system of Phlox cuspidata and P. drummondii. In the absence of interspecific pollen competition, heterospecific pollen siring success of both species was influenced most strongly by the maternal growth environment, such that hybridization was facilitated when heterospecific pollen was deposited on stigmas of maternal plants growing in high Ca soils. When heterospecific pollen was forced to compete against conspecific pollen, however, the maternal growth environment did not influence hybridization, but the environmental origin of heterospecific pollen did, and this effect depended on the maternal species. Pollen of P. drummondii was more effective at outcompeting P. cuspidata pollen and preventing hybridization in P. drummondii dams when P. cuspidata pollen was derived from low Ca. Pollen competition within pistils of P. cuspidata was unaffected by pollen Ca environment. In situations in which P. cuspidata grows in lower soil Ca than P. drummondii, as has been documented in one population, these results suggest that the competitive ability of heterospecific pollen will be diminished by environmental effects of soil Ca. Thus, the environment in which pollen develops can influence interspecific pollen competition and hybridization frequency.     

Fine‐scale environmental control of hybridization in oaks

Natural hybridization is attracting much interest in modern speciation and conservation biology studies, but the underlying mechanisms remain poorly understood. In particular, it is unclear why environmental changes often increase hybridization rates. To study this question, we surveyed mating events in a mixed oak stand and developed a spatially explicit individual‐based hybridization model. This model, where hybridization is frequency‐dependent, pollen is nonlimiting and which allows immigrant pollen to compete with local pollen, takes into account species‐specific pollen dispersal and sexual barriers to hybridization. The consequences of pollen limitation on hybridization were studied using another simple model. The results indicate that environmental changes could increase hybridization rates through two distinct mechanisms. First, by disrupting the spatial organization of communities, they should decrease the proportion of conspecific pollen available for mating, thus increasing hybridization rates. Second, by decreasing the density of conspecifics, they should increase pollen limitation and thus hybridization rates, as a consequence of chance pollination predominating over deterministic pollen competition. Altogether, our results point to a need for considering hybridization events at the appropriate level of organization and provide new insights into why hybridization rates generally increase in disturbed environments.     

Titration of variant DNA sequences differing by a single point-mutation by selective dot-blot hybridization with synthetic oligonucleotides

A dot-blot hybridization procedure with synthetic oligonucleotide probes is reported, which allows the quantitative titration in genomic DNA of variant forms of repeated genes differing by a single nucleotide change. It involves the utilization of a pair of 22-base long oligonucleotides matching the two variant sequences and the choice of an hybridization temperature very close to the Td of the oligonucleotide/DNA duplexes. The selectivity is achieved through a competition between the cognate labeled and the non-cognate unlabeled probes in the hybridization mixture.     

Genetic and ecological dynamics of species replacement in an arid-land river system

Museum records indicate that Hybognathus placitus was introduced into the Pecos River, New Mexico during the early 1960s. Approximately 10 years later, a congener, Hybognathus amarus, was extirpated from the system. We used microsatellite and mtDNA data, ecological data and modelling, and a computer simulation approach to reconstruct the history of invasion and species replacement. To identify the potential role of hybridization and introgression, we genetically screened H. amarus (n = 389) from the Rio Grande, New Mexico, and H. placitus (n = 424) from the Pecos River, New Mexico using four nuclear microsatellites and a partial fragment of the mtDNA ND4 gene. Assignment tests excluded hybridization as a primary factor in species replacement and suggested a role for interspecific competition. Genetic analyses showed that H. placitus were introduced into the Pecos River from at least two genetically distinct source populations in the Canadian and Red rivers, Oklahoma. Lotka-Volterra models of interspecific competition indicated that the number of founding individuals could have been as few as 20 for H. placitus to have competitively displaced H. amarus in the Pecos River in 10 to 15 generations. Observed differences of allele frequencies between source and founder populations indicated that between 32 and 115 H. placitus individuals founded the Pecos River. Genetic and ecological data suggest that interspecific competition could have led to species replacement in this arid-land river system.     

Presence of rRNA in the heavy bodies of sea urchin eggs: An in situ hybridization study with the electron microscope

Experimental conditions have been found, in which the presence of rRNA can be demonstrated by in situ hybridization at the electron microscope level in the heavy bodies of sea urchin eggs. The specificity of hybridization has been controlled by ribonuclease digestion and by competition experiments with unlabelled rRNA.     

Hybridization alters early life-history traits and increases plant colonization success in a novel region

Hybridization is hypothesized to promote invasiveness, but empirical tests comparing the performance of hybrid taxa versus parental taxa in novel regions are lacking. We experimentally compared colonization ability of populations of wild radish (Raphanus raphanistrum) with populations of advanced-generation hybrids between wild radish and cultivated radish (Raphanus sativus) in a southeast Texas pasture, well beyond the known invasive range of hybrid radish. We also manipulated the strength of interspecific competition to better generalize across variable environments. In both competitive environments, hybrid populations produced at least three times more seeds than did wild radish populations, a distinction that was driven by greater hybrid seedling emergence, earlier hybrid emergence, and more hybrid seedlings surviving to flower, rather than by greater individual fecundity. Flowering duration in hybrids was less negatively affected by competition than it was in wild radish, while early emergence was associated with subsequent high seed output in both biotypes. Our data show that hybridization can enhance colonization success in a novel region and, by comparison with previous studies, that the life-history traits enhancing hybrid success can differ across regions, even for lineages originating from the same hybridization event. These results imply a much larger arena for hybrid success than previously appreciated.     

Linking probe thermodynamics to microarray quantification

Understanding the difference in probe properties holds the key to absolute quantification of DNA microarrays. So far, Langmuir-like models have failed to link sequence-specific properties to hybridization signals in the presence of a complex hybridization background. Data from washing experiments indicate that the post-hybridization washing has no major effect on the specifically bound targets, which give the final signals. Thus, the amount of specific targets bound to probes is likely determined before washing, by the competition against nonspecific binding. Our competitive hybridization model is a viable alternative to Langmuir-like models.     

Use of whole cosmid cloned genomic sequences for chromosomal localization by non-radioactive in situ hybridization

Summary We report a general procedure which allows the application of whole cosmid cloned genomic sequences for non-radioactive in situ hybridization. The presence of highly repetitive sequences, like Alu and Kpn fragments, is eliminated through competition hybridization with Cot-1 DNA. The method has been tested and optimized with several randomly chosen cosmids of the human thyroglobulin (Tg) gene (8q24). At present, the procedure can be performed with three of the four tested individual cosmids. In cases where a single clone does not result in a specific signal, a larger fragment may be required, which can be accomplished by using two (partially overlapping) cosmids of the same region. The advantages and further potentialities of such a hybridization approach are discussed.     

Hybridization in agricultural weeds: A review from ecological,evolutionary, and management perspectives

Agricultural weeds frequently hybridize with each other or with related crop species. Some hybrid weeds exhibit heterosis (hybrid vigor), which may be stabilized through mechanisms like genome duplication or vegetative reproduction. Even when heterosis is not stabilized, hybridization events diversify weed gene pools and often enable adaptive introgression. Consequently, hybridization may promote weed evolution and exacerbate weed–crop competition. However, hybridization does not always increase weediness. Even when viable and fertile, hybrid weeds sometimes prove unsuccessful in crop fields. This review provides an overview of weed hybridization and its management implications. We describe intrinsic and extrinsic factors that influence hybrid fitness in agroecosystems. We also survey the rapidly growing literature on crop–weed hybridization and the link between hybridization and invasiveness. These topics are increasingly relevant in this era of genetic tools for crop improvement, intensive and simplified cropping systems, and globalized trade. The review concludes with suggested research priorities, including hybridization in the context of climate change, plant–insect interactions, and redesigned weed management programs. From a weed management perspective, hybridization is one of many reasons that researchers and land managers must diversify their weed control toolkits.     

In vitro synthesis of Escherichia coli ribosomal RNA

Synthesis of ribosomal RNA in a cell-free system was achieved using purified Escherichia coli RNA polymerase and bacterial DNA templates from E. coli, Proteus mirabilis and E. coli/P. mirabilis hybrid strains carrying an E. coli DNA enriched for ribosomal RNA genes.Both direct and indirect competition hybridization revealed that from 5 to 15% of the in vitro product, depending on the template used, had sequences homologous to rRNA. The level of synthesis of sequences homologous to rRNA was related directly to the proportion of rRNA genes in the template. The use of heterologous DNA during competition hybridization ensured at least a 100-fold greater sensitivity for the detection of rRNA sequences than from any messenger RNA sequence.     

Hybridization properties of nucleolar ribonucleic acid.

Rat liver nuclei were fractionated into chromatin and nucleolar fractions. Chromatin DNA, which does not form hybrids with rRNA, was, nevertheless, able to hybridize with 32P-labelled total nucleolar RNA. The optimal temperature for this hybridization was 55 degrees C when the reaction was carried out in 2 X SSC (0.3 MnaCl + 0.3 M-sodium citrate). The hybrids formed were specific, as judged by analysis of thermal elution profiles. The low Tm (73 degreesC) observed could be explained by the low amount of DNA in the filters. The lenth of the hybridized sequences was extimated as 54 mucleotide pairs. Contamination to nucleolar RNA by nucleoplasmic RNA was ruled out by showing the former was able to form more hybrids than the latter. Competition experiments showed that hybridization of nucleolar RNA, although not competed with by rRNA, suffered pronounced competition from total microsomal RNA, even though the levels of competition obtained did not equal thsoe with cold nucleolar RNA as competitor.     

Ecological factors affecting the fitness of the threatened orchid Anacamptis robusta (Orchidaceae): Habitat disturbance,interactions with a co‐flowering rewarding orchid and hybridization events

• The food‐deceptive species Anacamptis robusta is threatened in the Balearic Islands, and its habitat has recently been transformed through human disturbance. This study investigated how human disturbance affects the reproductive output of A. robusta and how its fitness is affected by competition with rewarding relatives, fungal infections and hybridization processes.
• To evaluate the impact of habitat loss on plant fitness, data on reproductive measures were obtained in two well‐conserved subpopulations and the unique disturbed subpopulation. Photo‐trapping cameras were installed to determine the floral visitation rate. All flowering individuals in 2019 were georeferenced using differential GPS to examine the influence of geospatial patterns on the reproductive success of A. robusta. In addition, hand‐pollination treatments were performed to evaluate the hybridization between A. coriophora and A. robusta and the origin of A. × albuferensis.
• The human‐disturbed subpopulation of A. robusta had a lower fruit set success than the subpopulations in well‐conserved areas. The presence of A. coriophora is negatively affecting the reproductive output of A. robusta. Moreover, A. robusta can only act as the pollen donor during hybridization.
• The complexity of the ecological system, which is enhanced by the strong pollinator dependence of the threatened species, must be considered when making conservation decisions. Although human disturbance directly affects plant population stability, other ecological issues must be considered, such as pollinator interaction, interspecific competition for pollinators, fungal infection and hybridization events.