genomics
Genomics is the comprehensive study of an organism's entire DNA sequence, examining how all genes function together and interact to shape traits and processes. For plants, genomics reveals the genetic basis of crop performance, disease resistance, and environmental adaptation, enabling the development of improved varieties and deeper insights into plant evolution.
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The OsNTL3-WRKY53-CatA module confers thermotolerance in rice.
As summers grow hotter and more unpredictable, the rice that feeds half the world's population is...
Harnessing diverse tRNAs and AI-guided mining for compact and effic...
It could accelerate the development of crops that resist drought, pests, and disease — meaning mo...
Time after time: a quarter century of progress in plant circadian biology.
The tomatoes and wheat in your grocery store may soon be bred with better internal clocks, helpin...
Back into the wild: harnessing the power of wheat wild relatives fo...
The bread, pasta, and flour in your pantry all depend on wheat crops that are increasingly vulner...
Turbocharging crop breeding with integrated biotechnology for a cli...
The tomatoes, wheat, and corn at your grocery store are quietly running out of genetic tricks to ...
Oomycete plant pathogens: biology, pathogenesis and emerging contro...
Oomycetes cause the kind of plant diseases that rot your tomatoes, wipe out potato crops, and can...
Challenges in Bringing Pangenome Research Into Breeding: A Case Stu...
Rice feeds more than half the world's population, and these new genetic tools could help breeders...
Accelerating genetic gain through integrated genomic selection in c...
The corn, wheat, and rice that make up most of the world's food supply are under growing threat f...
WRKY Transcription Factors: Integral Regulators of Defence Response...
Every ear of corn and tomato on your plate survived a constant barrage of fungal blights, bacteri...
Genome-wide characterization and adaptive evolution of favorable gi...
Shorter wheat plants that yield more grain means the bread on your table could become more afford...
k-mer-based approaches to unlock genebank genomics for targeted cro...
The seeds locked away in genebanks around the world may hold the genetic keys to keeping your fav...
BnaCIPK9 homoeologs mediate the dosage-dependent regulation of seed...
Higher-oil canola means more vegetable oil produced per acre, which could help keep cooking oil a...
Plant genome assembly and annotation.
Better maps of plant DNA mean scientists can more precisely breed or engineer crops that resist d...
Functional genomics in sugarcane breeding: key challenges and strategies.
Sugarcane supplies about 80% of the world's sugar and a growing share of renewable biofuel, so br...
plantiSMASH 2.0: improvements to detection, annotation, and priorit...
Herbs, vegetables, and wildflowers around you are chemical factories — and this tool helps scient...
Repurposing genome skimming data for non-model plant functional phy...
Roseroot supplements on your pharmacy shelf come from wild plants under pressure in the Himalayas...
Integrative morphological and genomic analyses reveal diversity, re...
Wild roses from Central Asia are the ancestors of many garden roses you grow today, and understan...
T2T-Hub: a central platform for analyzing plant and animal telomere...
Faster, more accurate plant genome maps mean breeders can pinpoint the exact genes behind drought...
Genomic insights into Rhizobium anhuiense IY2 isolated from Trifoli...
Bacteria like this one are what allow clover and other legumes in your garden to pull free nitrog...
Whole-genomic and transcriptomic analyses elucidate
Genomic studies like this one build the foundational maps that help breeders develop hardier, mor...
Complete genomes of
The same fermentation science behind a great aged cheese also underlies the soil bacteria that br...
Genomic characterization of avian pathogenic
Poultry diseases can disrupt local egg and meat supplies, indirectly affecting the cost and avail...
