Plants produce a vast diversity of specialized metabolites, which play important roles in the interactions with their microbiome, as well as with animals and other plants. Many such molecules have valuable biological activities that render them (potentially) useful as medicines, flavors and fragrances, nutritional ingredients, or cosmetics. Recently, plant scientists have discovered that the genes for many biosynthetic pathways for the production of such specialized metabolites are physically clustered on the chromosome within biosynthetic gene clusters (BGCs). The Plant Secondary Metabolite Analysis Shell (plantiSMASH) allows for the automated identification of such plant BGCs, facilitates comparison of BGCs across genomes, and helps users...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
Covering: up to 2022 Plants produce a wide range of structurally and biosynthetically diverse natura...
202 pagesTwo of the major bottlenecks that currently hinder the study of plant specialized metabolis...
Plants produce a vast diversity of specialized metabolites, which play important roles in the intera...
Plant specialized metabolites are chemically highly diverse, play key roles in host-microbe interact...
Objective: Plants produce a plethora of specialized metabolites to defend themselves against pathoge...
Plants produce an array of diverse secondary metabolites with important ecological functions, provid...
The field of plant natural product (NP) discovery has changed substantially since the isolation of m...
Medicinal plants produce important substrates for their adaptation and defenses against environmenta...
Background: Natural products (NP) from plants and microbes are a rich source for bioactive compounds...
Physically linked clusters of genes that encode the enzymatic information for the synthesis of speci...
Covering: 2003 to 2016 The last decade has seen the first major discoveries regarding the genomic ba...
Plants are a remarkable source of high-value specialized metabolites having significant physiologica...
Plant metabolism underpins many traits of ecological and agronomic importance. Plants produce numero...
Plants produce diverse specialized metabolites (SMs), but the genes responsible for their production...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
Covering: up to 2022 Plants produce a wide range of structurally and biosynthetically diverse natura...
202 pagesTwo of the major bottlenecks that currently hinder the study of plant specialized metabolis...
Plants produce a vast diversity of specialized metabolites, which play important roles in the intera...
Plant specialized metabolites are chemically highly diverse, play key roles in host-microbe interact...
Objective: Plants produce a plethora of specialized metabolites to defend themselves against pathoge...
Plants produce an array of diverse secondary metabolites with important ecological functions, provid...
The field of plant natural product (NP) discovery has changed substantially since the isolation of m...
Medicinal plants produce important substrates for their adaptation and defenses against environmenta...
Background: Natural products (NP) from plants and microbes are a rich source for bioactive compounds...
Physically linked clusters of genes that encode the enzymatic information for the synthesis of speci...
Covering: 2003 to 2016 The last decade has seen the first major discoveries regarding the genomic ba...
Plants are a remarkable source of high-value specialized metabolites having significant physiologica...
Plant metabolism underpins many traits of ecological and agronomic importance. Plants produce numero...
Plants produce diverse specialized metabolites (SMs), but the genes responsible for their production...
Covering: up to 2022 With the emergence of large amounts of omics data, computational approaches for...
Covering: up to 2022 Plants produce a wide range of structurally and biosynthetically diverse natura...
202 pagesTwo of the major bottlenecks that currently hinder the study of plant specialized metabolis...