2023 journal article
Two Arabidopsis promoters drive seed-coat specific gene expression in pennycress and camelina
PLANT METHODS, 19(1).
author keywords: Seed coat; Promoter; Pennycress; Camelina; Biofuel
TL;DR:
This work demonstrates that AtTT10 and AtDP1 promoters are suitable for driving gene expression in the outer integument of the seed coat in pennycress and camelina.
(via Semantic Scholar)
open access via plantmethods.biomedcentral.com (publisher PDF)
UN Sustainable Development Goal Categories
3. Good Health and Well-being
(Web of Science)
Source: Web Of Science
Added: December 11, 2023
Abstract Background Pennycress and camelina are two important novel biofuel oilseed crop species. Their seeds contain high content of oil that can be easily converted into biodiesel or jet fuel, while the left-over materials are usually made into press cake meals for feeding livestock. Therefore, the ability to manipulate the seed coat encapsulating the oil- and protein-rich embryos is critical for improving seed oil production and press cake quality. Results Here, we tested the promoter activity of two Arabidopsis seed coat genes, AtTT10 and AtDP1, in pennycress and camelina by using eGFP and GUS reporters. Overall, both promoters show high levels of activities in the seed coat in these two biofuel crops, with very low or no expression in other tissues. Importantly, AtTT10 promoter activity in camelina shows differences from that in Arabidopsis, which highlights that the behavior of an exogenous promoter in closely related species cannot be assumed the same and still requires experimental determination. Conclusion Our work demonstrates that AtTT10 and AtDP1 promoters are suitable for driving gene expression in the outer integument of the seed coat in pennycress and camelina.