Recent advances in understanding the biological roles of the plant nuclear envelope

• Main Authors: Norman Reid Groves, Alecia Biel, Morgan Moser, Tyler Mendes, Katelyn Amstutz, Iris Meier
• Format: Article
• Language: English
• Published: Taylor & Francis Group 2020-01-01
• Series: Nucleus
• Subjects: linc complex; nuclear envelope; lamina; chromatin organization; stomata; pollen tubes; nodulation; calcium; virus
• Online Access: http://dx.doi.org/10.1080/19491034.2020.1846836

The functional organization of the plant nuclear envelope is gaining increasing attention through new connections made between nuclear envelope-associated proteins and important plant biological processes. Animal nuclear envelope proteins play roles in nuclear morphology, nuclear anchoring and movement, chromatin tethering and mechanical signaling. However, how these roles translate to functionality in a broader biological context is often not well understood. A surprising number of plant nuclear envelope-associated proteins are plant-unique, suggesting that separate functionalities evolved after the split of Opisthokonta and Streptophyta. Significant progress has now been made in discovering broader biological roles of plant nuclear envelope proteins, increasing the number of known plant nuclear envelope proteins, and connecting known proteins to chromatin organization, gene expression, and the regulation of nuclear calcium. The interaction of viruses with the plant nuclear envelope is another emerging theme. Here, we survey the recent developments in this still relatively new, yet rapidly advancing field.