An improved and robust method to efficiently deplete repetitive elements from complex plant genomes

Plant Science ◽  
2019 ◽  
Vol 280 ◽  
pp. 455-460 ◽  
Author(s):  
Hiroyuki Ichida ◽  
Tomoko Abe
Keyword(s):  
Repetitive Elements ◽  
Robust Method ◽  
Plant Genomes

scholarly journals PlantRep: a database of plant repetitive elements

2022 ◽  
Author(s):  
Xizhi Luo ◽  
Shiyu Chen ◽  
Yu Zhang
Keyword(s):  
Repetitive Elements ◽  
Plant Genomes ◽  
Link Type ◽  
Deep Exploration

Abstract Key message We re-annotated repeats of 459 plant genomes and released a new database: PlantRep (http://www.plantrep.cn/). PlantRep sheds lights of repeat evolution and provides fundamental data for deep exploration of genome.

scholarly journals Merqury: reference-free quality, completeness, and phasing assessment for genome assemblies

2020 ◽  
Vol 21 (1) ◽  
Author(s):  
Arang Rhie ◽  
Brian P. Walenz ◽  
Sergey Koren ◽  
Adam M. Phillippy
Keyword(s):  
De Novo ◽  
High Accuracy ◽  
Robust Method ◽  
Plant Genomes ◽  
Base Level ◽  
Set Operations ◽  
Assembly Evaluation ◽  
Long Read ◽  
Genome Assemblies ◽  
Reference Genomes

Abstract Recent long-read assemblies often exceed the quality and completeness of available reference genomes, making validation challenging. Here we present Merqury, a novel tool for reference-free assembly evaluation based on efficient k-mer set operations. By comparing k-mers in a de novo assembly to those found in unassembled high-accuracy reads, Merqury estimates base-level accuracy and completeness. For trios, Merqury can also evaluate haplotype-specific accuracy, completeness, phase block continuity, and switch errors. Multiple visualizations, such as k-mer spectrum plots, can be generated for evaluation. We demonstrate on both human and plant genomes that Merqury is a fast and robust method for assembly validation.

A Simplified Protocol for the Stereospecific Nickel-Catalyzed C–S Vinylation Using NiX2 Salts and Alkyl Phosphites

Synthesis ◽  
2019 ◽  
Vol 52 (02) ◽  
pp. 311-319
Author(s):  
Austin D. Marchese ◽  
Bijan Mirabi ◽  
Egor M. Larin ◽  
Mark Lautens
Keyword(s):  
Cross Coupling ◽  
Robust Method ◽  
Alkyl Phosphites

A Ni-catalyzed C–S cross-coupling using only NiI2 (0.5–2.5 mol%) and P(OiPr)3 (2.0–10.0 mol%) is reported. Using an air-stable Ni(II) precatalyst, and a cheap and commercially available ligand, a scalable and robust method was developed to cross-couple various thiophenols and styryl bromides, including some sterically encumbered thiols, an α-bromocinnamaldehyde as well as a thiolation-cyclization.

scholarly journals Structural characterization and duplication modes of pseudogenes in plants

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Flavia Mascagni ◽  
Gabriele Usai ◽  
Andrea Cavallini ◽  
Andrea Porceddu
Keyword(s):  
Evolutionary Rate ◽  
Populus Trichocarpa ◽  
Sequence Divergence ◽  
Strand Break ◽  
Whole Genome ◽  
Flanking Sequence ◽  
Plant Genomes ◽  
High Sequence Divergence ◽  
Flanking Regions

AbstractWe identified and characterized the pseudogene complements of five plant species: four dicots (Arabidopsis thaliana, Vitis vinifera, Populus trichocarpa and Phaseolus vulgaris) and one monocot (Oryza sativa). Retroposition was considered of modest importance for pseudogene formation in all investigated species except V. vinifera, which showed an unusually high number of retro-pseudogenes in non coding genic regions. By using a pipeline for the classification of sequence duplicates in plant genomes, we compared the relative importance of whole genome, tandem, proximal, transposed and dispersed duplication modes in the pseudo and functional gene complements. Pseudogenes showed higher tendencies than functional genes to genomic dispersion. Dispersed pseudogenes were prevalently fragmented and showed high sequence divergence at flanking regions. On the contrary, those deriving from whole genome duplication were proportionally less than expected based on observations on functional loci and showed higher levels of flanking sequence conservation than dispersed pseudogenes. Pseudogenes deriving from tandem and proximal duplications were in excess compared to functional loci, probably reflecting the high evolutionary rate associated with these duplication modes in plant genomes. These data are compatible with high rates of sequence turnover at neutral sites and double strand break repairs mediated duplication mechanisms.

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