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Cuscuta spp. are obligate parasites that connect to host vascular tissue using a haustorium. In addition to water, nutrients, and metabolites, a large number of mRNAs are bidirectionally exchanged between Cuscuta spp. and their hosts. This trans-specific movement of mRNAs raises questions about whether these molecules function in the recipient species. To address the possibility that mobile mRNAs are ultimately translated, we built upon recent studies that demonstrate a role for transfer RNA (tRNA)-like structures (TLSs) in enhancing mRNA systemic movement. C. campestris was grown on Arabidopsis that expressed a β-glucuronidase (GUS) reporter transgene either alone or in GUS-tRNA fusions. Histochemical staining revealed localization in tissue of C. campestris grown on Arabidopsis with GUS-tRNA fusions, but not in C. campestris grown on Arabidopsis with GUS alone. This corresponded with detection of GUS transcripts in Cuscuta on Arabidopsis with GUS-tRNA, but not in C. campestris on Arabidopsis with GUS alone. Similar results were obtained with Arabidopsis host plants expressing the same constructs containing an endoplasmic reticulum localization signal. In C. campestris, GUS activity was localized in the companion cells or phloem parenchyma cells adjacent to sieve tubes. We conclude that host-derived GUS mRNAs are translated in C. campestris and that the TLS fusion enhances RNA mobility in the host-parasite interactions.
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Fake news blues: A GUS staining protocol to reduce false‐negative data
Abstract The β‐glucuronidase gene,uidA(GUS), has remained a favorite reporter gene in plants since its introduction in 1987 for its stability and versatility in a variety of fluorometric, spectrophotometric, and histochemical techniques. One of the most popular uses is as a reporter gene for visualizing endogenous promoter activities within plant tissues. Despite this popularity, specific protocols for minimizing nonrepresentative staining patterns, including false negatives, in challenging tissue types are not common. This became a large issue during our work on dark‐grownArabidopsishypocotyls, and we set out to develop a protocol that would ensure accurate staining in a tissue that is biologically resistant to reagent penetration. Through extensive testing using a variety of constitutive and endogenous promoter::GUS fusion lines, we have developed an optimized GUS staining protocol that combines the use of acetone as a fixative, deliberate physical damage, and proper positive and negative controls to help ensure accurate staining along the hypocotyl while minimizing false negatives. Hopefully, our recommendations will allow for improved staining that more accurately reflects the true activity of cloned endogenous promoters and thus facilitate a more accurate understanding of promoter activity inArabidopsishypocotyls and other hard‐to‐stain tissues.
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- Award ID(s):
- 2045795
- PAR ID:
- 10553272
- Publisher / Repository:
- Wiley & American Society of Plant Biologists and Society for Experimental Biology
- Date Published:
- Journal Name:
- Plant Direct
- Volume:
- 6
- Issue:
- 2
- ISSN:
- 2475-4455
- Subject(s) / Keyword(s):
- dark-grown hypocotyls GUS stain marker gene β-glucuronidase
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1002/pld3.367
