Changes in Metabolites Produced in Wheat Plants Against Water-Deficit Stress.

Drought stress can adversely affect the seed germination and seedling growth of wheat plants. This study analyzed the effect of drought on seed germination and the morphological parameters of seedlings from ten winter wheat genotypes. The primary focus was to elucidate the effects of two drought intensities on metabolic status in wheat seedlings.

Phylogenomic and synteny analysis of BAHD and SCP/SCPL gene families reveal their evolutionary histories in plant specialized metabolism.

Plant chemical diversity is largely owing to a number of enzymes which catalyse reactions involved in the assembly, and in the subsequent chemical modifications, of the core structures of major classes of plant specialized metabolites. One such reaction is acylation. With this in mind, to study the deep evolutionary history of BAHD and the serine-carboxypeptidase-like (SCPL) acyltransferase genes, we assembled phylogenomic synteny networks based on a large-scale inference analysis of orthologues across whole-genome sequences of 126 species spanning Stramenopiles and Archaeplastida, including , tomato () and maize ().

The BAHD and the bold: the mitochondria's role in alkaloid artistry.

In a recent study, Zeng et al. uncovered 3β-tigloyloxytropane synthase (TS) in Atropa belladonna, characterizing its mitochondrial localization and substrate specificity. The discovery of this enzyme opens up new bioengineering possibilities for tropane alkaloids (TAs), enhancing the potential for sustainable agriculture and expanding our knowledge of TA biosynthesis.

The evolution of tropane alkaloids: Coca does it differently.

It is undeniable that tropane alkaloids (TAs) have been both beneficial and detrimental to human health in the modern era. Understanding their biosynthesis is vital for using synthetic biology to engineer organisms for pharmaceutical production. The most parsimonious approaches to pathway elucidation are traditionally homology-based methods.