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Development of novel approaches to study Cuscuta campestris biology

Cuscuta campestris is an obligate parasitic plant that lacks expanded leaves and roots and requires a host to complete its lifecycle. Parasite-host connections occur via an haustorium, a unique organ that acts as a bridge for the exchange of water, nutrients, macromolecules like mRNA, microRNA, and proteins, and microorganisms. Studies of Cuscuta spp. are challenging due to its dependence on the host and other host influences on the parasite. Recent research has shown intriguing aspects of Cuscuta biology like exchange genetic material with its hosts and loss of genes involved in processes such as high photosynthetic rates and defense. We developed new tools and methodologies that allow us to explore C. campestris biology in an unprecedent way. Foremost of these is an axenic method to grow C. campestris on an Artificial Host System (AHS). The AHS allows C. campestris to display its entire life cycle in vitro, including seed production. Using the AHS, we studied haustorial function, determining the role of nutrients and phytohormones on parasite haustorium development and growth, and found genes involved in haustorial function. The AHS allowed us to demonstrate the positive effect of light on C. campestris growth in the absence of a photosynthetic host and to investigate carotenoid- and ABA- related processes in the haustorial regions. We also wanted to understand how C. campestris defenses work independently from a plant host, so we studied the parasite responses to the bacterial epitope flg22 and the bacteria Peudomonas syringe. Our findings indicate that C. campestris is able to sense flg22, but its response differs from those observed in other non-parasite plants. Transcriptomic analysis revealed up-regulation of genes related to biotic and abiotic stresses, and downregulation of genes related to cuticle development. Our study contributes to understanding the C. campestris immune response in the absence of a host plant. Taken together, this research contributes novel methodologies that enable insights into C. campestris biology without the interference of a plant host on the parasite. / Doctor of Philosophy / Field dodder (Cuscuta campestris) is a parasitic plant that lacks leaves and roots and attacks a wide range of plants, such as tomato and beets. Dodders are not able to carry out full photosynthesis and thus are incapable of producing enough food or obtaining water to survive on their own, so they parasitize other plants. Dodders have developed specialized structures called haustoria that allow them to take resources directly from their hosts. Studying dodder is challenging due to the dependence of the parasite on its host, such that effects of one plant on the other are hard to disentangle. We developed new tools and methodologies that allow us to explore the biology of dodder in unprecedent ways. We developed an Artificial Host System (AHS) that allows the growth and study of dodder without involving a living host plant. Thanks to this new tool, we were able to improve understanding of the function of the haustorium, discover nutrients and growth factors that are indispensable for dodder development, and prove that dodder growth benefits from light. Using the AHS, we compared haustorial regions and shoot tips of dodder to identify genes specific to haustorial function. Additionally, we studied the responses of dodder to bacteria to understand how it reacts to microbial colonization. Our studies contribute with the development of novel methodologies that allow unprecedent discoveries into the biology of dodder. We expect that this work will promote the study of parasitic plant biology.

Identiferoai:union.ndltd.org:VTETD/oai:vtechworks.lib.vt.edu:10919/114086
Date16 September 2021
CreatorsBernal Galeano, Vivian Angelica
ContributorsPlant Pathology, Physiology and Weed Science, Westwood, James H., Bombarely Gomez, Aureliano, Vinatzer, Boris A., Pilot, Guillaume
PublisherVirginia Tech
Source SetsVirginia Tech Theses and Dissertation
Detected LanguageEnglish
TypeDissertation
FormatETD, application/pdf
RightsIn Copyright, http://rightsstatements.org/vocab/InC/1.0/

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