natural-rubber
Natural rubber is a biopolymer composed primarily of polyisoprene, synthesized and stored in the latex of certain plant species as a secondary metabolite. Understanding the biosynthetic pathways and regulatory mechanisms behind rubber production is a key focus in plant science, as it informs efforts to develop alternative crop-based sources of this economically vital material. Research into the molecular biology of rubber biosynthesis also sheds light on broader questions of plant secondary metabolism and latex system biology.
open_in_new WikipediaPubMed · 2026-04-07
Scientists identified key genes in guayule — a desert shrub that produces natural rubber — that help it survive drought and regulate rubber production. This could pave the way for drought-tolerant rubber crops grown in dry regions of the American Southwest.
Specific transcription factor genes were identified as likely regulators of rubber biosynthesis in guayule, linking rubber production to stress response pathways
Aquaporin genes — which control water movement inside the plant — showed altered expression under drought stress, suggesting guayule has active molecular mechanisms for water conservation
The overlap between drought-response gene networks and rubber biosynthesis pathways indicates that stress conditions may influence rubber yield, with implications for crop management in arid regions
