Progress and Prospects of Parasitic Plant Biodiversity Genomics
Friday, 24-04-2026 | 13:54
Parasitic plants have evolved independently at least a dozen times across angiosperms, yielding some of the most extreme examples of genomic reconfiguration in plants. Comparative analyses of plastid, mitochondrial, and nuclear genomes reveal striking convergence across lineages such as progressive plastid genome reduction with retention of a minimal core gene set, alongside lineage-specific divergences, including unusual mitochondrial genome architectures, rampant horizontal gene transfer
Scientific news
Strengthening seed systems in Liberia: EU-project improving access to high-quality coffee seedlings via regional seedling nursery hubs
Strengthening seed systems in Liberia: EU-project improving access to high-quality coffee seedlings via regional seedling nursery hubs
In the pre-war Liberia era, coffee was a high economic crop, especially Liberica coffee, which is unique to the country. The coffee sector in Liberia produced 5 percent of the world’s coffee. However, the 14-year civil war destroyed coffee production systems. Post-war, Liberian farmers relied on informal seed distribution networks to keep their farms alive, facing a high risk of loss from climate adversities including pests and diseases affecting low-yielding varieties and non-availability of good quality planting materials.
Progress and Prospects of Parasitic Plant Biodiversity Genomics
Progress and Prospects of Parasitic Plant Biodiversity Genomics
Parasitic plants have evolved independently at least a dozen times across angiosperms, yielding some of the most extreme examples of genomic reconfiguration in plants. Comparative analyses of plastid, mitochondrial, and nuclear genomes reveal striking convergence across lineages such as progressive plastid genome reduction with retention of a minimal core gene set, alongside lineage-specific divergences, including unusual mitochondrial genome architectures, rampant horizontal gene transfer
 GM Poplar Trees Show Tolerance to Salt Stress
GM Poplar Trees Show Tolerance to Salt Stress
Researchers from the Siberian Branch of the Russian Academy of Sciences, Russia, developed two transgenic lines of genetically modified (GM) poplar trees carrying dehydrin genes TaWCS120 and HvDHN5 to improve tolerance to high salinity. The findings of the study offer potential benefits for both the wood industry and agriculture.

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