130 years of Plant Lectin Research

Tsaneva, Mariya Tsankova; Damme, Els J.M. Van

doi:10.1007/s10719-020-09942-y

Cited by 114 publications

(88 citation statements)

References 163 publications

(305 reference statements)

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“…Low level of expression specificity between various stem tissues of flax was also detected for the genes encoding plasma membrane-localized proteins from several other lectin families, like legume lectins, GNA lectins, C-type, and LysM (Table 2). C-type (PF00059) lectins are scarce in plant genomes, but are widely present in vertebrates (Tsaneva and Van Damme, 2020); flax has only two C-type lectins (Table 1) and both were expressed in all analyzed stem tissues (Table 2). Legume lectins (PF00139) (such as concanavalin A from jack beans (Leguminosae family), found in abundance in seeds of this taxonomic group) are quite numerous in the flax genome (Figure 4), which is similar to findings in other plant species (Bellande et al, 2017;Van Holle et al, 2017).…”

Section: Genes For Proteins With Lectin Domains That Have Stable Expression Levels In All Analyzed Flax Tissuesmentioning

confidence: 99%

“…Within the framework of used classification, proteins with the PP2 domain belong to the Nictaba lectin family. The Nictaba domain specifically recognizes highmannose N-glycans, complex N-glycans, and, to a lesser extent, -GlcNAc oligomers (Tsaneva and Van Damme, 2020). Proteins with a Nictaba domain are considered nucleocytoplasmic and were confirmed to interact with O-GlcNAc-modified histones in the nucleus (Delporte et al, 2014).…”

Section: Genes For Proteins With Lectin Domains That Have Stable Expression Levels In All Analyzed Flax Tissuesmentioning

confidence: 99%

“…The term lectins joins a number of protein families capable of selectively recognizing various types of carbohydrates, while not interacting enzymatically with the recognized targets (Peumans and Van Damme, 1995). Lectins are widespread and present in all biological kingdoms (Sharon, 2008;Tsaneva and Van Damme, 2020). Initially, lectins were identified by the agglutination reaction; therefore, this group of proteins was often referred to as agglutinins.…”

Section: Introductionmentioning

confidence: 99%

“…Sequence bioinformatics studies across all available databases have shown that some of the lectin motifs are widespread (from plants to animals, fungi, and bacteria), while others are present only in certain plant families. Several informative papers with generalizations on plant lectin families have been published (Bellande et al, 2017;Van Holle et al, 2017;Tsaneva and Van Damme, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Gene Expression Patterns for Proteins With Lectin Domains in Flax Stem Tissues Are Related to Deposition of Distinct Cell Wall Types

et al. 2021

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The genomes of higher plants encode a variety of proteins with lectin domains that are able to specifically recognize certain carbohydrates. Plants are enriched in a variety of potentially complementary glycans, many of which are located in the cell wall. We performed a genome-wide search for flax proteins with lectin domains and compared the expression of the encoding genes in different stem tissues that have distinct cell wall types with different sets of major polysaccharides. Over 400 genes encoding proteins with lectin domains that belong to different families were revealed in the flax genome; three quarters of these genes were expressed in stem tissues. Hierarchical clustering of the data for all expressed lectins grouped the analyzed samples according to their characteristic cell wall type. Most lectins differentially expressed in tissues with primary, secondary, and tertiary cell walls were predicted to localize at the plasma membrane or cell wall. These lectins were from different families and had various architectural types. Three out of four flax genes for proteins with jacalin-like domains were highly upregulated in bast fibers at the stage of tertiary cell wall deposition. The dynamic changes in transcript level of many genes for lectins from various families were detected in stem tissue over the course of gravitropic response induced by plant gravistimulation. The data obtained in this study indicate a large number of lectin-mediated events in plants and provide insight into the proteins that take part in tissue specialization and reaction to abiotic stress.

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Section: Genes For Proteins With Lectin Domains That Have Stable Expression Levels In All Analyzed Flax Tissuesmentioning

confidence: 99%

Section: Genes For Proteins With Lectin Domains That Have Stable Expression Levels In All Analyzed Flax Tissuesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Gene Expression Patterns for Proteins With Lectin Domains in Flax Stem Tissues Are Related to Deposition of Distinct Cell Wall Types

et al. 2021

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“…Plant tissues accumulate, constitutively or after induction, various classes of defensive compounds that confer resistance against herbivores and infection by fungi, bacteria, viruses, as well as nematodes. The most known plant proteins involved in defense mechanisms against insect pests include lectins [ 22 ], ribosome-inactivating proteins of types 1 and 2 [ 23 ], inhibitors of proteolytic enzymes and glycohydrolases [ 24 ], modified forms of storage proteins [ 25 , 26 ], among others. Several plant peptides display antifungal properties such as defensins [ 27 ], lipid transport proteins [ 28 ], chitinases [ 29 ], lectins [ 30 ], thionins [ 31 ], cyclopeptide alkaloids [ 32 ] and other less common types.…”

Section: Jaburetox and Soyuretox: Historical Aspects And Potentialmentioning

confidence: 99%

Structure-Function Insights of Jaburetox and Soyuretox: Novel Intrinsically Disordered Polypeptides Derived from Plant Ureases

et al. 2020

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Intrinsically disordered proteins (IDPs) and intrinsically disordered regions (IDRs) do not have a stable 3D structure but still have important biological activities. Jaburetox is a recombinant peptide derived from the jack bean (Canavalia ensiformis) urease and presents entomotoxic and antimicrobial actions. The structure of Jaburetox was elucidated using nuclear magnetic resonance which reveals it is an IDP with small amounts of secondary structure. Different approaches have demonstrated that Jaburetox acquires certain folding upon interaction with lipid membranes, a characteristic commonly found in other IDPs and usually important for their biological functions. Soyuretox, a recombinant peptide derived from the soybean (Glycine max) ubiquitous urease and homologous to Jaburetox, was also characterized for its biological activities and structural properties. Soyuretox is also an IDP, presenting more secondary structure in comparison with Jaburetox and similar entomotoxic and fungitoxic effects. Moreover, Soyuretox was found to be nontoxic to zebra fish, while Jaburetox was innocuous to mice and rats. This profile of toxicity affecting detrimental species without damaging mammals or the environment qualified them to be used in biotechnological applications. Both peptides were employed to develop transgenic crops and these plants were active against insects and nematodes, unveiling their immense potentiality for field applications.

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Plant Lectins: Implications in Tolerance and Resistance

Osman

Ghartey‐Kwansah

et al. 2023

Annual Plant Reviews Online

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Lectins are ubiquitous classes of carbohydrate‐binding proteins. They serve a wide range of physiological functions in Phyto‐organisms. Among many biological significances, they play a crucial role in plant tolerance and resistance against environmental biotic and abiotic challenges. They are a component of the plant's innate immune system and defence mechanism. Lectin‐like receptor kinases (Lec‐RLK) are essential in stress sensing and saccharide signalling. Their expression can be modulated by various hormonal responses; they can also tweak downstream hormonal pathways or signal the expression of stress‐related genes. Other plant lectin families, localized in the vacuole, cytoplasm, and nucleus, could also revamp the response to different stress factors. They participate in the further downstream responses, including the clearance and turnover of accumulated undesired and misfolded nascent proteins triggered by stress, DNA protection, and chromatin modulation. Understanding the genetics, the evolution of gene mechanisms, and the functional roles of Lectins in molecular pathways affecting plant tolerance is essential to reduce the effects of global climate change on food security and the health and well‐being of humans. This review will assist in integrating existing knowledge, with a focus on understanding how plant lectins confer adaptation to challenging environmental conditions, ultimately to assist agricultural scientists in breeding plants with greater adaptive capacities.

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130 years of Plant Lectin Research

Cited by 114 publications

References 163 publications

Gene Expression Patterns for Proteins With Lectin Domains in Flax Stem Tissues Are Related to Deposition of Distinct Cell Wall Types

Gene Expression Patterns for Proteins With Lectin Domains in Flax Stem Tissues Are Related to Deposition of Distinct Cell Wall Types

Structure-Function Insights of Jaburetox and Soyuretox: Novel Intrinsically Disordered Polypeptides Derived from Plant Ureases

Plant Lectins: Implications in Tolerance and Resistance

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