![PDF) Characterizing Microbiomes via Sequencing of Marker Loci: Techniques To Improve Throughput, Account for Cross-Contamination, and Reduce Cost PDF) Characterizing Microbiomes via Sequencing of Marker Loci: Techniques To Improve Throughput, Account for Cross-Contamination, and Reduce Cost](https://i1.rgstatic.net/publication/353228666_Characterizing_Microbiomes_via_Sequencing_of_Marker_Loci_Techniques_To_Improve_Throughput_Account_for_Cross-Contamination_and_Reduce_Cost/links/613cecbde4419c5e6ec6b764/largepreview.png)
PDF) Characterizing Microbiomes via Sequencing of Marker Loci: Techniques To Improve Throughput, Account for Cross-Contamination, and Reduce Cost
![High Nucleotide Substitution Rates Associated with Retrotransposon Proliferation Drive Dynamic Secretome Evolution in Smut Pathogens | Microbiology Spectrum High Nucleotide Substitution Rates Associated with Retrotransposon Proliferation Drive Dynamic Secretome Evolution in Smut Pathogens | Microbiology Spectrum](https://journals.asm.org/cms/10.1128/spectrum.00349-22/asset/a39bce8a-737a-4fa9-a093-777c5400d64d/assets/images/medium/spectrum.00349-22-f002.gif)
High Nucleotide Substitution Rates Associated with Retrotransposon Proliferation Drive Dynamic Secretome Evolution in Smut Pathogens | Microbiology Spectrum
Stepwise recombination suppression around the mating-type locus in an ascomycete fungus with self-fertile spores | PLOS Genetics
![Dynamics of transposable element accumulation in the non-recombining regions of mating-type chromosomes in anther-smut fungi | bioRxiv Dynamics of transposable element accumulation in the non-recombining regions of mating-type chromosomes in anther-smut fungi | bioRxiv](https://www.biorxiv.org/content/biorxiv/early/2022/08/05/2022.08.03.502670/F1.large.jpg)
Dynamics of transposable element accumulation in the non-recombining regions of mating-type chromosomes in anther-smut fungi | bioRxiv
![PDF) Molecular Basis of Evolutionary Events That Shaped the Hardness Locus in Diploid and Polyploid Wheat Species (Triticum and Aegilops) PDF) Molecular Basis of Evolutionary Events That Shaped the Hardness Locus in Diploid and Polyploid Wheat Species (Triticum and Aegilops)](https://i1.rgstatic.net/publication/7983945_Molecular_Basis_of_Evolutionary_Events_That_Shaped_the_Hardness_Locus_in_Diploid_and_Polyploid_Wheat_Species_Triticum_and_Aegilops/links/0912f50e31ba2006d2000000/largepreview.png)
PDF) Molecular Basis of Evolutionary Events That Shaped the Hardness Locus in Diploid and Polyploid Wheat Species (Triticum and Aegilops)
![Distribution of Tajima's D values of all small RNA loci in cultivated rice. | Download Scientific Diagram Distribution of Tajima's D values of all small RNA loci in cultivated rice. | Download Scientific Diagram](https://www.researchgate.net/publication/43353910/figure/fig4/AS:213951032893452@1428021309449/Distribution-of-Tajimas-D-values-of-all-small-RNA-loci-in-cultivated-rice.png)
Distribution of Tajima's D values of all small RNA loci in cultivated rice. | Download Scientific Diagram
![Ballistic Impact of Flat-Ended Projectiles against 2024-T351 Plate: Experiments and Modeling | Journal of Aerospace Engineering | Vol 35, No 1 Ballistic Impact of Flat-Ended Projectiles against 2024-T351 Plate: Experiments and Modeling | Journal of Aerospace Engineering | Vol 35, No 1](https://ascelibrary.org/cms/asset/a541e436-4927-4946-8783-1037fa1fd5bd/figure1.jpg)
Ballistic Impact of Flat-Ended Projectiles against 2024-T351 Plate: Experiments and Modeling | Journal of Aerospace Engineering | Vol 35, No 1
![Ballistic Impact of Flat-Ended Projectiles against 2024-T351 Plate: Experiments and Modeling | Journal of Aerospace Engineering | Vol 35, No 1 Ballistic Impact of Flat-Ended Projectiles against 2024-T351 Plate: Experiments and Modeling | Journal of Aerospace Engineering | Vol 35, No 1](https://ascelibrary.org/cms/asset/303c35f9-3203-405a-81b7-9e3168a80f74/figure2.jpg)