Genetic diversity of macauba from natural populations of Brazil

Fringed brome ( Bromus ciliatus L.) is found in native stands throughout a large area of North America. Little is known about the genetic diversity of this species. The amplified fragment length polymorphism (AFLP) technique was applied to assess the genetic diversity of 16 fringed brome populations sampled in Canada from the provinces of Alberta, British Columbia, Quebec, and Saskatchewan. Four AFLP primer pairs were employed to screen 82 samples with four to six samples per population and 83 polymorphic AFLP bands scored for each sample. The frequencies of the scored bands in all assayed samples ranged from 0.01 to 0.99 and averaged 0.53. Analysis of molecular variance revealed that 52.6% of the total AFLP variation resided among the 16 populations and 20.6% among the four provinces. The five Quebec populations appeared to be genetically the most diverse and distinct. The AFLP variability observed was significantly associated with the geographic origins of the fringed brome populations. These findings are useful for sampling fringed brome germplasm from natural populations for germplasm conservation and should facilitate the development of genetically diverse regional cultivars for habitat restoration and revegetation.

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To what extent do microsatellite markers reflect genome-wide genetic diversity in natural populations?

Molecular Ecology ◽

10.1111/j.1365-294x.2008.03876.x ◽

2008 ◽

Vol 17 (17) ◽

pp. 3808-3817 ◽

Cited By ~ 162

Author(s):

ÜLO VÄLI ◽

ANNIKA EINARSSON ◽

LISETTE WAITS ◽

HANS ELLEGREN

Keyword(s):

Genetic Diversity ◽

Microsatellite Markers ◽

Natural Populations ◽

Genome Wide

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Population Genetics and Evolution Analysis Reveal Diversity and Origin of Ammopiptanthus in China.

10.21203/rs.3.rs-779119/v1 ◽

2021 ◽

Author(s):

Guai-qiang Chai ◽

Yizhong Duan ◽

Peipei Jiao ◽

Zhongyu Du ◽

Furen Kang

Keyword(s):

Genetic Diversity ◽

Genetic Structure ◽

Genetic Differentiation ◽

Association Studies ◽

Natural Populations ◽

Principal Component ◽

Nucleotide Polymorphisms ◽

Future Design ◽

Ammopiptanthus Nanus ◽

Genome Wide

Abstract Background：Elucidating and revealing the population genetic structure, genetic diversity and recombination is essential for understanding the evolution and adaptation of species. Ammopiptanthus, which is an endangered survivor from the Tethys in the Tertiary Period, is the only evergreen broadleaf shrub grown in Northwest of China. However, little is known about its genetic diversity and underlying adaptation mechanisms. Results：Here, 111 Ammopiptanthus individuals collected from fifteen natural populations in estern China were analyzed by means of the specific locus amplified fragment sequencing (SLAF-seq). Based on the single nucleotide polymorphisms (SNPs) and insertions and deletions (InDels) detected by SLAF-seq, genetic diversity and markers associated with climate and geographical distribution variables were identified. The results of genetic diversity and genetic differentiation revealed that all fifteen populations showed medium genetic diversity, with PIC values ranging from 0.1648 to 0.3081. AMOVA and Fst indicated that a low genetic differentiation existed among populations. Phylogenetic analysis showed that NX-BG and NMG-DQH of fifteen populations have the highest homology，while the genetic structure analysis revealed that these Ammopiptanthus germplasm accessions were structured primarily along the basis of their geographic collection, and that an extensive admixture occurred in each group. In addition, the genome-wide linkage disequilibrium (LD) and principal component analysis showed that Ammopiptanthus nanus had a more diverse genomic background, and all genetic populations were clearly distinguished, although different degrees of introgression were detected in these groups. Conclusion：Our study could provide guidance to the future design of association studies and the systematic utilization and protection of the genetic variation characterizing the Ammopiptanthus.

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Primer Binding Site (PBS) Profiling of Genetic Diversity of Natural Populations of Endemic Species Allium ledebourianum Schult.

BioTech ◽

10.3390/biotech10040023 ◽

2021 ◽

Vol 10 (4) ◽

pp. 23

Author(s):

Oxana Khapilina ◽

Ainur Turzhanova ◽

Alevtina Danilova ◽

Asem Tumenbayeva ◽

Vladislav Shevtsov ◽

...

Keyword(s):

Genetic Diversity ◽

Endemic Species ◽

Biological Diversity ◽

Natural Populations ◽

Subsequent Development ◽

Dna Profiling ◽

Primer Binding Site ◽

Anthropogenic Factors ◽

Habitat Specificity ◽

Interspersed Repeats

Endemic species are especially vulnerable to biodiversity loss caused by isolation or habitat specificity, small population size, and anthropogenic factors. Endemic species biodiversity analysis has a critically important global value for the development of conservation strategies. The rare onion Allium ledebourianum is a narrow-lined endemic species, with natural populations located in the extreme climatic conditions of the Kazakh Altai. A. ledebourianum populations are decreasing everywhere due to anthropogenic impact, and therefore, this species requires preservation and protection. Conservation of this rare species is associated with monitoring studies to investigate the genetic diversity of natural populations. Fundamental components of eukaryote genome include multiple classes of interspersed repeats. Various PCR-based DNA fingerprinting methods are used to detect chromosomal changes related to recombination processes of these interspersed elements. These methods are based on interspersed repeat sequences and are an effective approach for assessing the biological diversity of plants and their variability. We applied DNA profiling approaches based on conservative sequences of interspersed repeats to assess the genetic diversity of natural A. ledebourianum populations located in the territory of Kazakhstan Altai. The analysis of natural A. ledebourianum populations, carried out using the DNA profiling approach, allowed the effective differentiation of the populations and assessment of their genetic diversity. We used conservative sequences of tRNA primer binding sites (PBS) of the long-terminal repeat (LTR) retrotransposons as PCR primers. Amplification using the three most effective PBS primers generated 628 PCR amplicons, with an average of 209 amplicons. The average polymorphism level varied from 34% to 40% for all studied samples. Resolution analysis of the PBS primers showed all of them to have high or medium polymorphism levels, which varied from 0.763 to 0.965. Results of the molecular analysis of variance showed that the general biodiversity of A. ledebourianum populations is due to interpopulation (67%) and intrapopulation (33%) differences. The revealed genetic diversity was higher in the most distant population of A. ledebourianum LD64, located on the Sarymsakty ridge of Southern Altai. This is the first genetic diversity study of the endemic species A. ledebourianum using DNA profiling approaches. This work allowed us to collect new genetic data on the structure of A. ledebourianum populations in the Altai for subsequent development of preservation strategies to enhance the reproduction of this relict species. The results will be useful for the conservation and exploitation of this species, serving as the basis for further studies of its evolution and ecology.

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Causation without correlation: parasite-mediated frequency-dependent selection and infection prevalence

10.1101/2021.11.13.468422 ◽

2021 ◽

Author(s):

Curtis M Lively ◽

Julie Xu ◽

Frida Ben-Ami

Keyword(s):

Genetic Diversity ◽

Natural Populations ◽

Infection Prevalence ◽

Strong Positive Correlation ◽

Frequency Dependent ◽

Frequency Dependent Selection ◽

Host Diversity ◽

Host Genetic ◽

Host Parasite

Parasite-mediated selection is thought to maintain host genetic diversity for resistance. We might thus expect to find a strong positive correlation between host genetic diversity and infection prevalence across natural populations. Here we used computer simulations to examine host-parasite coevolution in 20 simi-isolated clonal populations across a broad range of values for both parasite virulence and parasite fecundity. We found that the correlation between host genetic diversity and infection prevalence can be significantly positive for intermediate values of parasite virulence and fecundity. But the correlation can also be weak and statistically non-significant, even when parasite-mediated frequency-dependent selection is the sole force maintaining host diversity. Hence correlational analyses of field populations, while useful, might underestimate the role of parasites in maintaining host diversity.

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Genetic diversity and differentiation in reef-buildingMilleporaspecies, as revealed by cross-species amplification of fifteen novel microsatellite loci

PeerJ ◽

10.7717/peerj.2936 ◽

2017 ◽

Vol 5 ◽

pp. e2936 ◽

Cited By ~ 13

Author(s):

Caroline E. Dubé ◽

Serge Planes ◽

Yuxiang Zhou ◽

Véronique Berteaux-Lecellier ◽

Emilie Boissin

Keyword(s):

Genetic Diversity ◽

Microsatellite Markers ◽

Microsatellite Loci ◽

Natural Populations ◽

454 Sequencing ◽

Genetic Distances ◽

Null Alleles ◽

Future Research ◽

Significant Linkage ◽

Pacific Species

Quantifying the genetic diversity in natural populations is crucial to address ecological and evolutionary questions. Despite recent advances in whole-genome sequencing, microsatellite markers have remained one of the most powerful tools for a myriad of population genetic approaches. Here, we used the 454 sequencing technique to develop microsatellite loci in the fire coralMillepora platyphylla, an important reef-builder of Indo-Pacific reefs.We tested the cross-species amplification of these loci in five other species of the genusMilleporaand analysed its success in correlation with the genetic distances between species using mitochondrial 16S sequences. We succeeded in discovering fifteen microsatellite loci in our target speciesM. platyphylla,among which twelve were polymorphic with 2–13 alleles and a mean observed heterozygosity of 0.411. Cross-species amplification in the five otherMilleporaspecies revealed a high probability of amplification success (71%) and polymorphism (59%) of the loci. Our results show no evidence of decreased heterozygosity with increasing genetic distance. However, only one locus enabled measures of genetic diversity in the Caribbean speciesM. complanatadue to high proportions of null alleles for most of the microsatellites. This result indicates that our novel markers may only be useful for the Indo-Pacific species ofMillepora.Measures of genetic diversity revealed significant linkage disequilibrium, moderate levels of observed heterozygosity (0.323–0.496) and heterozygote deficiencies for the Indo-Pacific species. The accessibility to new polymorphic microsatellite markers for hydrozoanMilleporaspecies creates new opportunities for future research on processes driving the complexity of their colonisation success on many Indo-Pacific reefs.

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Alive and kicking, or, living on borrowed time? – Microsatellite diversity in natural populations of the endangered Ulmus minor Mill. sensu latissimo from Croatia

Acta Botanica Croatica ◽

10.1515/botcro-2016-0007 ◽

2016 ◽

Vol 75 (1) ◽

pp. 53-59 ◽

Cited By ~ 2

Author(s):

Marko Zebec ◽

Marilena Idžojtić ◽

Zlatko Šatović ◽

Igor Poljak ◽

Zlatko Liber

Keyword(s):

Genetic Diversity ◽

Natural Populations ◽

Genetic Bottleneck ◽

Dutch Elm Disease ◽

Significant Excess ◽

Mediterranean Populations ◽

Ulmus Minor ◽

Study Results ◽

The Impact ◽

Microsatellite Diversity

AbstractThe main objective of this research was to assess the genetic diversity of 5 natural field elm populations in Croatia. The study results suggest that the observed populations are characterized by a satisfactory amount of heterozygosity, and that the impact of the Dutch elm disease on the amount of genetic diversity in the sampled populations is currently negligible. However, one population displayed a significant excess of heterozygosity, implying a genetic bottleneck. The existence of a very clear genetic differentiation between the continental and the Mediterranean populations of Ulmus minor in Croatia was noticed.

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Coalescent Theory of Migration Network Motifs

Molecular Biology and Evolution ◽

10.1093/molbev/msz136 ◽

2019 ◽

Vol 36 (10) ◽

pp. 2358-2374

Author(s):

Nicolas Alcala ◽

Amy Goldberg ◽

Uma Ramakrishnan ◽

Noah A Rosenberg

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Nucleotide Diversity ◽

Natural Populations ◽

Node Degree ◽

Small Subset ◽

Network Motifs ◽

Coalescent Theory ◽

Migration Networks ◽

The Impact

Abstract Natural populations display a variety of spatial arrangements, each potentially with a distinctive impact on genetic diversity and genetic differentiation among subpopulations. Although the spatial arrangement of populations can lead to intricate migration networks, theoretical developments have focused mainly on a small subset of such networks, emphasizing the island-migration and stepping-stone models. In this study, we investigate all small network motifs: the set of all possible migration networks among populations subdivided into at most four subpopulations. For each motif, we use coalescent theory to derive expectations for three quantities that describe genetic variation: nucleotide diversity, FST, and half-time to equilibrium diversity. We describe the impact of network properties on these quantities, finding that motifs with a high mean node degree have the largest nucleotide diversity and the longest time to equilibrium, whereas motifs with low density have the largest FST. In addition, we show that the motifs whose pattern of variation is most strongly influenced by loss of a connection or a subpopulation are those that can be split easily into disconnected components. We illustrate our results using two example data sets—sky island birds of genus Sholicola and Indian tigers—identifying disturbance scenarios that produce the greatest reduction in genetic diversity; for tigers, we also compare the benefits of two assisted gene flow scenarios. Our results have consequences for understanding the effect of geography on genetic diversity, and they can assist in designing strategies to alter population migration networks toward maximizing genetic variation in the context of conservation of endangered species.

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Extending the Genotype in Brachypodium by Including DNA Methylation Reveals a Joint Contribution with Genetics on Adaptive Traits

G3 Genes|Genome|Genetics ◽

10.1534/g3.120.401189 ◽

2020 ◽

Vol 10 (5) ◽

pp. 1629-1637 ◽

Cited By ~ 2

Author(s):

Steven R. Eichten ◽

Akanksha Srivastava ◽

Adam J. Reddiex ◽

Diep R. Ganguly ◽

Alison Heussler ◽

...

Keyword(s):

Genetic Diversity ◽

Dna Methylation ◽

Phenotypic Variation ◽

Genetic Relationships ◽

Natural Populations ◽

Epigenetic Inheritance ◽

Genetic Differences ◽

Linear Modeling ◽

Climate Conditions ◽

Joint Contribution

Epigenomic changes have been considered a potential missing link underlying phenotypic variation in quantitative traits but is potentially confounded with the underlying DNA sequence variation. Although the concept of epigenetic inheritance has been discussed in depth, there have been few studies attempting to directly dissect the amount of epigenomic variation within inbred natural populations while also accounting for genetic diversity. By using known genetic relationships between Brachypodium lines, multiple sets of nearly identical accession families were selected for phenotypic studies and DNA methylome profiling to investigate the dual role of (epi)genetics under simulated natural seasonal climate conditions. Despite reduced genetic diversity, appreciable phenotypic variation was still observable in the measured traits (height, leaf width and length, tiller count, flowering time, ear count) between as well as within the inbred accessions. However, with reduced genetic diversity there was diminished variation in DNA methylation within families. Mixed-effects linear modeling revealed large genetic differences between families and a minor contribution of DNA methylation variation on phenotypic variation in select traits. Taken together, this analysis suggests a limited but significant contribution of DNA methylation toward heritable phenotypic variation relative to genetic differences.

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