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Heterozygote Deficit (heterozygote + deficit)

Distribution by Scientific Domains
Life Sciences83%

Selected Abstracts

Inferring colonization history from analyses of spatial genetic structure within populations of Pinus strobus and Quercus rubra

MOLECULAR ECOLOGY, Issue 3 2006
F. A. JONES
Abstract Many factors interact to determine genetic structure within populations including adult density, the mating system, colonization history, natural selection, and the mechanism and spatial patterns of gene dispersal. We examined spatial genetic structure within colonizing populations of Quercus rubra seedlings and Pinus strobus juveniles and adults in an aspen,white pine forest in northern Michigan, USA. A 20-year spatially explicit demographic study of the forest enables us to interpret the results in light of recent colonization of the site for both species. We assayed 217 Q. rubra seedlings and 171 P. strobus individuals at 11 polymorphic loci using nine allozyme systems. Plant genotypes and locations were used in an analysis of spatial genetic structure. Q. rubra and P. strobus showed similar observed levels of heterozygosity, but Q. rubra seedlings have less heterozygosity than expected. Q. rubra seedlings show spatial genetic clumping of individuals on a scale to 25 m and levels of genetic relatedness expected from the clumped dispersion of half-siblings. In contrast, P. strobus has low levels of genetic relatedness at the smallest distance class and positive spatial genetic structure at scales < 10 m within the plot. The low density of adult Q. rubra outside the study plot and limited, spatially clumped rodent dispersal of acorns is likely responsible for the observed pattern of spatial genetic structure and the observed heterozygote deficit (i.e. a Wahlund effect). We attribute weaker patterns observed in P. strobus to the longer dispersal distance of seeds and the historical overlap of seed shadows from adults outside of the plot coupled with the overlap of seed shadows from younger, more recently established reproductive adults. The study demonstrates the utility of long-term demographic data in interpreting mechanisms responsible for generating contemporary patterns of genetic structure within populations. [source]

Microsatellite markers for the invasive plant species white sweetclover (Melilotus alba) and yellow sweetclover (Melilotus officinalis)

MOLECULAR ECOLOGY RESOURCES, Issue 6 2007
L. M. WINTON
Abstract We describe specific primers that amplify nine microsatellite DNA loci from Melilotus alba and Melilotus officinalis, both invasive plant species (Fabaceae) throughout North America. Allelic diversity was slightly lower for M. alba than for M. officinalis, as was expected heterozygosity. For both species, heterozygote deficit was observed at several loci. Genotypic diversity was very high for both species; the 29 plant samples of each species all had different multilocus genotypes. These markers will be used to determine the origins of the sweetclover invasion in Alaska and to compare patterns of diversity between subarctic and lower latitude populations. [source]

Population genetic structure of sea cucumber, Stichopus japonicus in Korea using microsatellite markers

AQUACULTURE RESEARCH, Issue 10 2008
Mi-Jung Kim
Abstract Sea cucumber (Stichopus japonicus) is a commercially valuable species in Korea. We examined the genetic characteristics of sea cucumber populations in Korea using microsatellite markers. A total of 144 sea cucumbers from five populations were typed for nine polymorphic microsatellite loci. A total of 139 different alleles were found over all loci and many alleles were unique. The average number of allele per locus ranged from 6 to 18.4. The average observed and expected heterozygosities ranged from 0.532 to 0.626 and from 0.719 to 0.789 respectively. All populations showed significant departure from Hardy,Weinberg equilibrium at almost all loci except one (Psj2409). This deviation was in the direction of heterozygote deficit. A phylogenetic tree revealed two distinct clusters. One cluster was formed by the eastern sea population. A second cluster consisted of the subpopulations of the western and southern sea populations. The eastern sea population showed genetic differences such as a larger number of alleles per locus, a larger number of unique alleles and a smaller number of the most common alleles, suggesting a higher genetic diversity in this population. These results provide basic information on natural population genetic structure of S. japonicus in Korea. [source]

GENETIC ANALYSIS OF A CHROMOSOMAL HYBRID ZONE IN THE AUSTRALIAN MORABINE GRASSHOPPERS (VANDIEMENELLA, VIATICA SPECIES GROUP)

EVOLUTION, Issue 1 2009
Takeshi Kawakami
Whether chromosomal rearrangements promote speciation by providing barriers to gene exchange between populations is one of the long-standing debates in evolutionary biology. This question can be addressed by studying patterns of gene flow and selection in hybrid zones between chromosomally diverse taxa. Here we present results of the first study of the genetic structure of a hybrid zone between chromosomal races of morabine grasshoppers Vandiemenella viatica, P24(XY) and viatica17, on Kangaroo Island, Australia. Chromosomal and 11 nuclear markers revealed a narrow hybrid zone with strong linkage disequilibrium and heterozygote deficits, most likely maintained by a balance between dispersal and selection. Widths and positions of clines for these markers are concordant and coincident, suggesting that selection is unlikely to be concentrated on a few chromosomes. In contrast, a mitochondrial marker showed a significantly wider cline with centre offset toward the P24(XY) side. We argue that the discordance between the mitochondrial and nuclear/chromosomal clines and overall asymmetry of the clines suggest a secondary origin of the contact zone and potential movement of the zone after contact. Genome-wide scans using many genetic markers and chromosomal mapping of these markers are needed to investigate whether chromosomal differences directly reduce gene flow after secondary contact. [source]

Variable microsatellite loci isolated from the azure damselfly, Coenagrion puella (L.) (Zygoptera; Coenagrionidae)

MOLECULAR ECOLOGY RESOURCES, Issue 5 2007
CHRIS D. LOWE
Abstract We isolated and characterized 10 polymorphic microsatellite loci from the azure damselfly Coenagrion puella (Zygoptera; Coenagrionidae) as part of a study assessing reproductive success and genetic structure in an isolated population of this species. Levels of genetic diversity were assessed in 50 individuals collected from Queen Elizabeth Country Park, Hampshire, UK. The number of alleles per microsatellite loci ranged from three to 22 and the observed and expected heterozygosities varied between 0.26 and 0.84 and between 0.23 and 0.91, respectively. Two loci showed significant (P < 0.05) heterozygote deficits, likely because of null (non-amplifying) alleles; one pair of loci was in linkage disequilibrium. [source]

Polymorphic dinucleotide microsatellite loci in the clonal ascidian Diplosoma listerianum: predominance of compound and highly interrupted imperfect repeats

MOLECULAR ECOLOGY RESOURCES, Issue 2 2004
Lorna Maclean
Abstract We report the isolation of the first dinucleotide microsatellite loci from the clonal ascidian, Diplosoma listerianum. Most repeats were compound and highly interrupted, with flanking sequences containing many small interspersed repetitive regions. Consequently, most primers detected polymerase chain reaction products outside the expected size range, and only five out of 15 primers detected polymorphic single-locus markers. Characterization of five variable loci from two UK populations revealed three to seven alleles per locus, with observed heterozygosity of 0.00,0.86 and expected heterozygosity of 0.10,0.66. Three loci showed significant heterozygote deficits either because of inbreeding, population substructure or the presence of null alleles. [source]