plant-biotechnology
Plant biotechnology applies genetic, molecular, and cellular tools to modify or improve plant traits beyond what traditional breeding alone can achieve. It enables researchers to develop crops with enhanced resistance to disease, drought, and pests, as well as improved nutritional profiles and yields. This field is central to modern plant science, accelerating the discovery and engineering of beneficial traits that address both agricultural challenges and fundamental questions in plant biology.
open_in_new WikipediaVirus-induced genome editing enables functional genomics across div...
Crops like tomatoes, wheat, and medicinal herbs that feed and heal you could be improved far fast...
A Modified Cas9 Scaffold Allows Extension of the Virus-Induced Gene...
Tomatoes, peppers, and potatoes you grow could soon be edited for disease resistance or better yi...
Transposase-Assisted Donor Tethering Boosts Large-Fragment HDR in Plants.
Crops engineered to resist drought, disease, or pests with large genetic upgrades — things that h...
Optimised Protocol for Efficient Generation, Confirmation, Transfor...
Faster, cheaper tools for studying grapevine genetics could accelerate the development of disease...
Transgene-free plant genome editing via viral delivery of miniature...
Crops edited this way leave no trace of foreign DNA — meaning a disease-resistant tomato or bligh...
Genome Editing in Root and Tuber Crop Development in Sub-Saharan Africa.
Cassava and sweet potato feed hundreds of millions of people in Africa, and the same gene-editing...
Strain, procedures, and tools for reproducible genetic transformati...
Duckweed grows explosively fast on water surfaces you've seen in ponds and lakes, and now that sc...
PCdb: A comprehensive plant genome-editing database integrating sgR...
The rice, wheat, and vegetables you eat could be made more nutritious, drought-resilient, or dise...
CRISPR-Mediated Intronic Knockin of Pre-amiRNA Enables Targeted Gen...
Breeding a crop — or even an ornamental — that resists a specific disease without carrying foreig...
Development of an Efficient Regeneration and Agrobacterium-Mediated...
Hostas are among the most popular shade plants in home gardens, and this breakthrough means breed...
Prime editing: evolution of CRISPR-Cas system for a robust next-gen...
The wheat, rice, and corn being developed with this technology could one day yield reliable harve...
BSMV-mediated genome editing exhibits host-specific heritability: g...
Barley grown for craft brewing, heritage grain projects, or cool-climate farming could be adapted...
Discovery and Engineering of a Rat Endogenous Retrovirus Reverse Tr...
Crops edited with greater precision and efficiency could mean disease-resistant tomatoes, drought...
Cloning and functional verification of endogenous U6 promoters for ...
Kenaf grows faster than trees and can be harvested for natural fiber, paper, and even insulation ...
Exosome-like nanovesicles from acerola for CRISPR-Cas9 ribonucleopr...
The acerola cherry — a tropical fruit you might find at a Latin market or growing in a warm-clima...