In vivo characterization of key iridoid biosynthesis pathway genes in catnip (Nepeta cataria).

Using virus-induced gene silencing, we demonstrated that the enzymes GES, ISY, and MLPL are responsible for nepetalactone biosynthesis in Nepeta cataria. Nepetalactone is the main iridoid that is found in the Nepeta genus and is well-known for its psychoactive effect on house cats. Moreover, there is a burgeoning interest into the effect of nepetalactone on insects.

Virus-Induced Gene Silencing in Nepeta.

Virus-induced gene silencing (VIGS) is a versatile tool for genetic studies that has been applied to a variety of plant species. With the advent of more accessible genomic and transcriptomic technology applied to an increasing range of plants, tools such as VIGS are being adapted to more non-model plants to explore genes relevant to agriculture and chemical discovery. In this protocol, we adapted VIGS technology to target genes in Nepeta cataria (catnip) and Nepeta mussinii (catmint).

The evolutionary origins of the cat attractant nepetalactone in catnip.

Catnip or catmint ( spp.) is a flowering plant in the mint family (Lamiaceae) famed for its ability to attract cats. This phenomenon is caused by the compound nepetalactone, a volatile iridoid that also repels insects.

Srs2 helicase prevents the formation of toxic DNA damage during late prophase I of yeast meiosis.

Proper repair of double-strand breaks (DSBs) is key to ensure proper chromosome segregation. In this study, we found that the deletion of the SRS2 gene, which encodes a DNA helicase necessary for the control of homologous recombination, induces aberrant chromosome segregation during budding yeast meiosis. This abnormal chromosome segregation in srs2 cells accompanies the formation of a novel DNA damage induced during late meiotic prophase I.