Quantitative Proteomics at Early Stages of the Symbiotic Interaction Between <i>Oryza sativa</i> and <i>Nostoc punctiforme</i> Reveals Novel Proteins Involved in the Symbiotic Crosstalk

Álvarez, Consolación; Brenes‐Álvarez, Manuel; Molina-Heredia, Fernando P.; Mariscal, Vicente

doi:10.1093/pcp/pcac043

Cited by 8 publications

(6 citation statements)

References 77 publications

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“…This is in line with previous work showing that symbiotic cyanobacteria, such as Nostoc , exhibit high levels of proteomic plasticity and only express a small fraction of their proteome at any given point in time 30,63,64 . This is also in agreement with the coverage of the respective endoproteomes where 65% and 20% of all proteins in Synechocystis and Nostoc , respectively, have been identified by MS-based proteomics 65,66 .…”

Section: Resultssupporting

confidence: 88%

EXCRETE enables deep proteomics of the microbial extracellular environment

Russo,

Oliinyk,

Pohnert

et al. 2024

Preprint

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Extracellular proteins play a significant role in shaping microbial communities which, in turn, can impact ecosystem function, human health, and biotechnological processes. Yet, for many ubiquitous microbes, there is limited knowledge regarding the identity and function of secreted proteins. Here, we introduce EXCRETE (enhanced exoproteome characterization by mass spectrometry), a workflow that enables comprehensive description of microbial exoproteomes from minimal starting material. Using cyanobacteria as a case study, we benchmark EXCRETE and show a significant increase over current methods in the identification of extracellular proteins. Subsequently, we show that EXCRETE can be miniaturized and adapted to a 96-well high-throughput format. Application of EXCRETE to cyanobacteria from different habitats (Synechocystissp. PCC 6803,Synechococcussp. PCC 11901, andNostoc punctiformePCC 73102), and in different cultivation conditions, identified up to 85% of all predicted secreted proteins. Finally, functional analysis reveals that cell envelope maintenance and nutrient acquisition are central functions of the cyanobacterial secretome. Collectively, these findings challenge the general belief that cyanobacteria lack secretory proteins and point to a functional conservation of the secretome across freshwater, marine, and terrestrial species.

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Section: Resultssupporting

confidence: 88%

EXCRETE enables deep proteomics of the microbial extracellular environment

Russo,

Oliinyk,

Pohnert

et al. 2024

Preprint

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show abstract

“…Two of these COG groups, T in SYMB-1 and SYMB-2 and Q in SYMB-1 and SYMB-2, stand out, as they were the only two COGs with both enriched and unique genes. COG group T corresponds to signal transduction mechanisms that may contribute to the cyanobiont’s ability to recognize the host chemical signals, which is a necessary step in the establishment of symbiosis [ 25 77 78 ]. The high number of genes found in COG group Q, which corresponded to secondary metabolism, indicated that natural products might play a more significant role in the symbiosis than previously thought, consistent with observations made on the uniqueness of metabolites in cyanobionts [ 5 14 ].…”

Section: Resultsmentioning

confidence: 99%

Phylometagenomics of cycad coralloid roots reveals shared symbiotic signals

Bustos-Diaz,

Cruz-Perez,

Garfias-Gallegos

et al. 2024

Microbial Genomics

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Cycads are known to host symbiotic cyanobacteria, including Nostocales species, as well as other sympatric bacterial taxa within their specialized coralloid roots. Yet, it is unknown if these bacteria share a phylogenetic origin and/or common genomic functions that allow them to engage in facultative symbiosis with cycad roots. To address this, we obtained metagenomic sequences from 39 coralloid roots sampled from diverse cycad species and origins in Australia and Mexico. Culture-independent shotgun metagenomic sequencing was used to validate sub-community co-cultures as an efficient approach for functional and taxonomic analysis. Our metanalysis shows a host-independent microbiome core consisting of seven bacterial orders with high species diversity within the identified taxa. Moreover, we recovered 43 cyanobacterial metagenome-assembled genomes, and in addition to Nostoc spp., symbiotic cyanobacteria of the genus Aulosira were identified for the first time. Using this robust dataset, we used phylometagenomic analysis to reveal three monophyletic cyanobiont clades, two host-generalist and one cycad-specific that includes Aulosira spp. Although the symbiotic clades have independently arisen, they are enriched in certain functional genes, such as those related to secondary metabolism. Furthermore, the taxonomic composition of associated sympatric bacterial taxa remained constant. Our research quadruples the number of cycad cyanobiont genomes and provides a robust framework to decipher cyanobacterial symbioses, with the potential of improving our understanding of symbiotic communities. This study lays a solid foundation to harness cyanobionts for agriculture and bioprospection, and assist in conservation of critically endangered cycads.

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“…In the field of molecular plant sciences, some researchers argue that evidence of a mutual exchange of chemicals or symbiogenesis of specific organs is required. However, there are examples of well defined plant–microbe symbiotic interactions that do not require the development of specific organs in the plant (Khan et al, 2012; Alvarenga and Rousk, 2022; Álvarez et al, 2022). In the same way, there is evidence of symbiotic interactions in which clear benefits to both partners cannot be ascertained and, thus, their categorization as mutualistic is debated.…”

Section: The Obstacles Accompanying the Umbrella‐term Symbiosismentioning

confidence: 99%

“…In the same way, there is evidence of symbiotic interactions in which clear benefits to both partners cannot be ascertained and, thus, their categorization as mutualistic is debated. One example is the Oryza – Nostoc association, in which the chemical exchange is not yet directly proven, despite documentation of endophytic colonization and an increase in plant yield in co‐cultivation (Álvarez et al, 2022). Hence, often neither symbiosis nor mutualism are applied to describe rice–cyanobacteria associations, resulting in a potential disregard of these interactions.…”

Section: The Obstacles Accompanying the Umbrella‐term Symbiosismentioning

confidence: 99%

“… Three cases of debated or overlooked associations of land plants with cyanobacteria (A) While the role of cyanobacterial nitrogen fixation and its role in improving the fertility of rice ( Oryza ) fields has been studied for almost a century, the endophytic association of Nostoc punctiforme and rice has only recently been recreated in vitro (Álvarez et al, 2022). The exchange of photosynthetic polysaccharides and fixed nitrogen between rice and cyanobacteria is depicted schematically.…”

Section: Exploring the Complexity Of Symbiotic Plant–microbe Associat...mentioning

confidence: 99%

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Challenging the term symbiosis in plant–microbe associations to create an understanding across sciences

Neubauer,

Aros‐Mualin,

Mariscal

et al. 2024

JIPB

Self Cite

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Effective communication across fields and disciplines relies on well‐defined terminology. Standardized use of accurate definitions has been advocated by scientists across various disciplines (Tipton et al., 2019; PySek, 1995; Dubrovsky, 2022; Rillig, 2023; Rabin and Brownson, 2017). Divergent interpretations or the application of differing terminology can negatively impact interdisciplinary exchange, leading to missed information, hampered methodology transfer, and ultimately impeding progress (Sapp, 2010; Tipton et al., 2019). An impressive example of the use of multiple terms with the same interpretation is the definition of non‐native or invasive plants encompassing at least 14 different terms (PySek, 1995). An abundance of definitions for the same term can be equally confusing which is thoroughly discussed in a recent review on plant root terminology.This article is protected by copyright. All rights reserved.

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Quantitative Proteomics at Early Stages of the Symbiotic Interaction Between Oryza sativa and Nostoc punctiforme Reveals Novel Proteins Involved in the Symbiotic Crosstalk

Cited by 8 publications

References 77 publications

EXCRETE enables deep proteomics of the microbial extracellular environment

EXCRETE enables deep proteomics of the microbial extracellular environment

Phylometagenomics of cycad coralloid roots reveals shared symbiotic signals

Challenging the term symbiosis in plant–microbe associations to create an understanding across sciences

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