As the human population continues to explode, the need for efficient crop growth also expands. While there have been great strides in plant genetics and modification, there is still much to be learned ...

A team of plant biotechnologists at Texas Tech University has unveiled a breakthrough that could transform how gene-edited crops are developed. The new method, led by associate professor Gunvant Patil ...

A recent study has identified microRNA396 (miR396) as a pivotal negative regulator of shoot regeneration in tomatoes, marking a significant advancement in plant genetic engineering. This discovery ...

These mutations improve biocontainment, transformation stability, and overall performance in genetic engineering of plants. Complementing the strains, researchers also developed new plasmids and a ...

Ancient events in plant evolution have left behind large, duplicated regions in their genomes. Salk Institute scientists found that deleting these large blocks of DNA can still lead to normal plants.

MicroRNA396 has been identified as a negative regulator of shoot regeneration in tomatoes, unlocking possibilities for plant genetic engineering. Researchers from the Korea Research Institute of ...

https://siris-libraries.si.edu/ipac20/ipac.jsp?&profile=liball&source=~!silibraries&uri=full=3100001~!190370~!0#focus ...

However, traditional gene delivery methods, such as Agrobacterium-mediated transformation and gene guns, are often slow, inefficient, and can damage plant tissues. These highlight the need for more ...