A Highly Efficient Agrobacterium-Mediated Method for Transient Gene Expression and Functional Studies in Multiple Plant Species

Zhang, Youjun; Chen, Moxian; Siemiatkowska, Beata; Toleco, Mitchell Rey; Yue, Jing; Strotmann, Vivien I.; Zhang, Jianghua; Stahl, Yvonne; Fernie, Alisdair R.

doi:10.1016/j.xplc.2020.100028

Cited by 101 publications

(93 citation statements)

References 65 publications

(48 reference statements)

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“…However, several studies have consistently shown that yeast ADP/ATP carriers are monomeric in structure and function [44]. As the mitochondrial respiratory chain supercomplexes have been investigated by BN-PAGE under different conditions [78], this method could be used to detect the dynamics of the mitochondrial carrier protein complex. In addition, several mitochondrial carriers were also investigated by BN-PAGE, such as the 2-oxoglutarate carrier [52], the dicarboxylate carrier [51], and the tricarboxylate carrier [50].…”

Section: Experimental Evaluation Of the Protein-protein Interactions mentioning

confidence: 99%

On the Detection and Functional Significance of the Protein–Protein Interactions of Mitochondrial Transport Proteins

Zhang

Fernie

2020

Biomolecules

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Protein–protein assemblies are highly prevalent in all living cells. Considerable evidence has recently accumulated suggesting that particularly transient association/dissociation of proteins represent an important means of regulation of metabolism. This is true not only in the cytosol and organelle matrices, but also at membrane surfaces where, for example, receptor complexes, as well as those of key metabolic pathways, are common. Transporters also frequently come up in lists of interacting proteins, for example, binding proteins that catalyze the production of their substrates or that act as relays within signal transduction cascades. In this review, we provide an update of technologies that are used in the study of such interactions with mitochondrial transport proteins, highlighting the difficulties that arise in their use for membrane proteins and discussing our current understanding of the biological function of such interactions.

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Section: Experimental Evaluation Of the Protein-protein Interactions mentioning

confidence: 99%

On the Detection and Functional Significance of the Protein–Protein Interactions of Mitochondrial Transport Proteins

Zhang

Fernie

2020

Biomolecules

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“…These results demonstrate that LRBs directly and specifically interact with photoexcited and phosphorylated CRY2. We next examined LRB1-CRY2 and LRB2-CRY2 interactions in vivo, using the BiFC (Bimolecular Fluorescence Complementation) assay in Arabidopsis cells 34 To further test the hypothesis that the Cul3 LRBs and Cul4 COP1-SPAs E3 ubiquitin ligases catalyze blue light-dependent CRY2 ubiquitination, we performed three independent experiments to investigate the activity of LRBs and COP1 in the blue light-induced polyubiquitination of CRY2, using the IP/immunoblot assays. In the first two experiments, we prepared transgenic plants overexpressing Flag-GFP-tagged CRY2 (FGFP-CRY2) in the wild-type (WT), the strong (lrb1lrb2-1lrb3) or weak (lrb1lrb2-2lrb3) alleles of the lrb123 triple mutant ( Fig.…”

Section: Lrbs Interact With Phosphorylated Cry2 To Catalyze Its Polyumentioning

confidence: 99%

“…Western blots were performed as described above. Primary antibodies used here were anti-Flag (1:1500, cat # F1804, Sigma), anti-Myc (1:5000, cat # 05-724, Millipore) and anti-HA (1:5000, cat # 12013819001, Roche), and secondary antibodies used were anti-Mouse-HRP (1:10000, cat # 31430, ThermoFisher) and anti-Rabbit-HRP (1:10000, cat # 31460, ThermoFisher).Bimolecular fluorescence complementation (BiFC) assayBiFC assays in Arabidopsis plants were performed as previously described methods with minor modifications34 . Briefly, Agrobacteria AGL0 transformed with BiFC plasmids were grown in LB medium with 40 μM Acetosyringone and 1% Glucose in 28°C shaker overnight.…”

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confidence: 99%

Regulation of Arabidopsis photoreceptor CRY2 by two distinct E3 ubiquitin ligases

Chen

Liu

et al. 2020

Preprint

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Cryptochromes (CRYs) are photoreceptors or components of the molecular clock in various evolutionary lineages, and they are commonly regulated by polyubiquitination and proteolysis. Multiple E3 ubiquitin ligases regulate CRYs in animal models, and previous genetics study also suggest existence of multiple E3 ubiquitin ligases for plant CRYs. However, only one E3 ligase, Cul4COP1-SPAs, has been reported for plant CRYs so far. Here we show that Cul3LRBs is the second E3 ligase of CRY2 in Arabidopsis. We demonstrated the blue light-specific and CRY-dependent activity of LRBs (Light-Response Bric-a-Brack/Tramtrack/Broad 1, 2 & 3) in blue-light regulation of hypocotyl elongation. LRBs physically interact with photoexcited and phosphorylated CRY2 to facilitate polyubiquitination and degradation of CRY2 in response to blue light. We propose that Cul4COP1-SPAs and Cul3LRBs E3 ligases interact with CRY2 via different structure elements to regulate the abundance of CRY2 photoreceptor under different light conditions, facilitating optimal photoresponses of plants grown in nature.

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“…From the perspective of molecular pharming, lettuce 52,53 serves as a fast-growing crop with a small cultivation footprint in which the edible biomass is also the expressible biomass capable of producing pharmaceuticals. Potato 54,55 represents a slow-growing crop that has the advantage of distinct edible biomass (tubers) and expressible biomass (leaves); molecular pharming would not significantly impact the total available food resource. Leaves detached from the intact plant are capable of providing comparable pharmaceutical yield to those from the intact plant [56][57][58] .…”

Section: A Test Case For Molecular Pharming In Spacementioning

confidence: 99%

Molecular Pharming to Support Human Life on the Moon, Mars, and Beyond

McNulty¹,

Xiong

Yates

et al. 2020

Preprint

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Space missions have always assumed that the risk of spacecraft malfunction far outweighs the risk of human system failure. This assumption breaks down for longer duration exploration missions and exposes vulnerabilities in space medical system. Space agencies can no longer buy down the majority of human system risk through the crew member selection process and emergency re-supply or evacuation. No mature medical solutions exist to close the risk gap. With recent advances in biotechnology, there is promise in augmenting a space pharmacy with a biologically-based space foundry for on-demand manufacturing of high-value medical products. Here we review the challenges and opportunities of molecular pharming, the production of pharmaceuticals in plants, as the basis of a space medical foundry to close the risk gap in current space medical systems. Plants have long been considered an important life support object in space and can now also be viewed as programmable factories in space. Advances in molecular pharming-based space foundries will have widespread application in promoting simple and accessible pharmaceutical manufacturing on Earth.

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A Highly Efficient Agrobacterium-Mediated Method for Transient Gene Expression and Functional Studies in Multiple Plant Species

Cited by 101 publications

References 65 publications

On the Detection and Functional Significance of the Protein–Protein Interactions of Mitochondrial Transport Proteins

On the Detection and Functional Significance of the Protein–Protein Interactions of Mitochondrial Transport Proteins

Regulation of Arabidopsis photoreceptor CRY2 by two distinct E3 ubiquitin ligases

Molecular Pharming to Support Human Life on the Moon, Mars, and Beyond

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