However, their biosynthesis is highly sensitive to environmental factors, particularly phosphate (Pi) availability, which is ...

A recent study reveals the intricate dynamics behind catechin biosynthesis in tea plants, highlighting how phosphate (Pi) ...

A recent study reveals the intricate dynamics behind catechin biosynthesis in tea plants, highlighting how phosphate (Pi) ...

Maize (corn) is one of the most important staple crops in the world and has been extensively studied. Yet, many aspects of ...

A pivotal study has decoded the genetic basis of olive oil production, revealing a key regulatory mechanism that shapes oil ...

Recent research has revealed that a family of proteins called COI1, previously associated with defense mechanisms in other plant species like Arabidopsis and rice, primarily regulates growth in maize ...

However, the plant-produced methyl jasmonate (pictured below) stimulates fungal NO production in TR4 thanks to its acquired accessory genes. The resulting ‘NO burst’, causes nitrosative stress within ...

One such molecule is jasmonic acid — and its volatile derivative, methyl jasmonate — which are important components of the plant's reaction to attack (Figure 8). Jasmonic acids are also made ...

He is particularly known for his discoveries related to wound-inducible plant defense responses, metabolism of the signaling molecule jasmonate, and the molecular mechanism of jasmonate perception.

他们在植物学权威期刊《Plant Biotechnology Journal》上发表了一篇题为《Loss-of-function of LIGULELESS1 activates the jasmonate pathway and promotes maize resistance to corn leaf aphids》的研究论文。这项研究不仅揭示了SPL ...

Isolation of jasmonate-deficient and jasmonate-responsive mutants of Arabidopsis led to discoveries about the involvement of jasmonate in pollen development, insect defense and non-host resistance ...