Search Results - technology+classifications+%3e+agricultural+%3e+plants-gmo

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Fusion Protein for Development of Transgenic Resistance to the Whitefly

Uses Coat Protein of a Begomovirus to Deliver Toxins Specific to Whiteflies that Damage Crops A fusion protein comprising Tomato yellow leaf curl virus (TYLCV) coat protein, a proline-rich linker, and an insect-specific neurotoxin would allow for developing transgenic crops with resistance to the whitefly. Whiteflies feed on about 500 different plant...

Published: 2/21/2024 | Inventor(s): Bryony Bonning, Jane Polston, Jaime Jimenez

Keywords(s):

Category(s): Technology Classifications > Agricultural > Plants-GMO, Technology Classifications > Agricultural > Therapeutics

Improved Efficiency of Agrobacterium Mediated Genetic Transformation of Plants

Dramatically Improves In Vitro Plantlet Regeneration, Suggesting Potential to Modify Crop Species Previously Impossible to Engineer Agrobacterium is widely used to introduce new genetic material into various plant species. But the success of this method for genetic transformation requires successful in vitro regeneration of plantlets through tissue...

Published: 2/22/2024 | Inventor(s): Heqiang Huo, Zhaoyuan Lian

Keywords(s):

Category(s): Technology Classifications > Agricultural > Plants-GMO, Technology Classifications > Agricultural > Plants-non-GMO

Sugarcane and Energy Cane Cultivars With Elevated Biomass and Recoverable Sugar Yield and Herbicide Resistance

Suppresses Flowering to Enable Delay of Sugarcane and Energy Cane Harvesting, Improving Biomass and Sugar Accumulation, and Facilitates Weed Control Suppressing florigen genes in sugarcane and energy cane improves the amount of biomass and sugar the crops produce by delaying the time of flowering. Flowering in these crops negatively affects sugar...

Published: 2/22/2024 | Inventor(s): Fredy Altpeter, Baskaran Kannan

Keywords(s):

Category(s): Technology Classifications > Agricultural > Plants-non-GMO, Technology Classifications > Agricultural > Plants-GMO

Gene Variants to Protect Against Yield Loss During Heat-Stress Conditions

Modifies Corn to Reduce Yield Loss Due to Heat StressThese gene variants will help protect against heat-stress-induced yield loss in corn and should help maintain productivity as climate change results in more frequent and more severe heat-stress events. Corn is the most popular grain crop produced globally, and is projected to be the most consumed...

Published: 2/22/2024 | Inventor(s): Andrew Settles, Camila Ribeiro

Keywords(s): corn, grain filling, Heat Stress, Maize, Transgenic, Yield

Category(s): Technology Classifications > Agricultural > Plants-GMO

Gene for Improved Drought Tolerance in Variety of Crops

Stress Adaptation Lets Plants Thrive While Using Water Efficiently This genetic modification makes a variety of crops with an enhanced tolerance to drought through increased expression of a drought-responsive regulator. Agriculture in the 21st century is expected to face water crises caused by climate change, limited water sources, and rapid growth...

Published: 2/22/2024 | Inventor(s): Wen-Yuan Song, Xiaoen Huang, Xiuhua Chen

Keywords(s): Crops, Drought, Drought tolerance, Plant, Tolerance, XB3

Category(s): Technology Classifications > Agricultural > Plants-GMO