Interactions between indole-3-acetic acid (IAA) with a lectin from Canavalia maritima seeds reveal a new function for lectins in plant physiology

Delatorre, P.; Silva-Filho, J.C.; Rocha, B.A.M.; Santi-Gadelha, Tatiane; Nobrega, R.B.; Gadelha, C.A.A.; Nascimento, Kyria S.; Nagano, Celso Shiniti; Sampaio, Alexandre Holanda; Cavada, Benildo S.

doi:10.1016/j.biochi.2013.05.008

Cited by 22 publications

(7 citation statements)

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“…Indole-3-butyric acid is known to be the most stable form of natural auxins; however, like tryptophan (Trp), indole-3-acetic acid (IAA), and indole-3-propionic acid (IPA), IBA is degraded aerobically depending on many factors, including the oxygen level and exposure to heat and light. [41][42][43][44] In this study, we determined how light accelerated the abovementioned decomposition (the methodology is described in the ESI †). The intensity of the maximum absorption for IBA in acid or anionic forms (l max ¼ 221 nm) decreased aer only 7 days in prepared water solutions exposed to stable visible light ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…As both acidic and ionic forms of IBA degrade, the likely degradation product is 5-(2-formamidophenyl)-5oxopentanoic acid, a KYN derivative. [41][42][43][44] The light stability of the aqueous solutions was strongly correlated with the form of IBA and the type of cation or second binary mixture component in the products. Products 1, 2, and 5 were less stable than IBA and binary mixtures 3 and 4 under light exposure.…”

Section: Resultsmentioning

confidence: 99%

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Use of ammonium salts or binary mixtures derived from amino acids, glycine betaine, choline and indole-3-butyric acid as plant regulators

et al. 2020

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Use of ammonium salts or binary mixtures derived from amino acids, glycine betaine, choline and indole-3-butyric acid as plant regulators

et al. 2020

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“…However, the phenotype (dwarf and more branches) of the GsSRK-t transgenic alfalfa is similar to the application of IAA. Furthermore, it is reported that lectins could interact with IAA, and possibly lectin controls the availability of IAA during early seedling stages ( Edelman and Wang, 1978 ; Delatorre et al, 2013 ). Another research also reported that an S-locus LecRLK in Arabidopsis AtARK2 was required for auxin-mediated lateral root development under phosphate-starved conditions ( Deb et al, 2014 ).…”

Section: Discussionmentioning

confidence: 99%

Ectopic Expression of GsSRK in Medicago sativa Reveals Its Involvement in Plant Architecture and Salt Stress Responses

et al. 2018

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Receptor-like kinases (RLK) play fundamental roles in plant growth and stress responses. Compared with other RLKs, little information is provided concerning the S-locus LecRLK subfamily, which is characterized by an extracellular G-type lectin domain and an S-locus-glycop domain. Until now, the function of the G-type lectin domain is still unknown. In a previous research, we identified a Glycine soja S-locus LecRLK gene GsSRK, which conferred increased salt stress tolerance in transgenic Arabidopsis. In this study, to investigate the role of the G-type lectin domain and to breed transgenic alfalfa with superior salt stress tolerance, we transformed the full-length GsSRK (GsSRK-f) and a truncated version of GsSRK (GsSRK-t) deleting the G-type lectin domain into alfalfa. Our results showed that overexpression of GsSRK-t, but not GsSRK-f, resulted in changes of plant architecture, as evidenced by more branches but shorter shoots of GsSRK-t transgenic alfalfa, indicating a potential role of the extracellular G-type lectin domain in regulating plant architecture. Furthermore, we also found that transgenic alfalfa overexpressing either GsSRK-f or GsSRK-t showed increased salt stress tolerance, and GsSRK-t transgenic alfalfa displayed better growth (more branches and higher fresh weight) than GsSRK-f lines under salt stress. In addition, our results suggested that both GsSRK-f and GsSRK-t were involved in ion homeostasis, ROS scavenging, and osmotic regulation. Under salt stress, the Na+ content in the transgenic lines was significantly lower, while the K+ content was slightly higher than that in WT. Moreover, the transgenic lines displayed reduced ion leakage and MDA content, but increased SOD activity and proline content than WT. Notably, no obvious difference in these physiological indices was observed between GsSRK-f and GsSRK-t transgenic lines, implying that deletion of the GsSRK G-type lectin domain does not affect its physiological function in salt stress responses. In conclusion, results in this research reveal the dual role of GsSRK in regulating both plant architecture and salt stress responses.

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“…Los AH se han relacionado con la estimulación de la producción y elongación de raíces, lo que a su vez repercute en los procesos que definen la arquitectura de la raíz, la toma de agua, nutrientes y las asociaciones que establece la planta con los microorganismos del suelo en la rizósfera y que adicionalmente, pueden afectar diferentes rutas del metabolismo vegetal e influir sobre la arquitectura total de la planta (Canellas y Olivares, 2014;. Por otra parte se sabe que el ácido indol acético (AIA) puede establecer interacciones hidrofóbicas con otros compuestos (Delatorre et al, 2013), además, a través del proceso de humificación los microorganismos del suelo contribuyen preferencialmente a la formación de SH hidrofóbicas, por lo tanto este hecho podría favorecer la interacción de las SH con el AIA presente en el suelo, que luego podría ser utilizado por la planta. Sobre este aspecto, Nardi et al (2017) señalan la posibilidad de que la bioactividad de las SH se deba a la presencia de moléculas de auxinas atrapadas en la supraestructura húmica.…”

Section: Introductionunclassified

Metodología Sencilla para Evaluar Bioactividad de Ácidos Húmicos obtenidos de Lignito Mediante Extracción Alcalina y Bacterias Solubilizadoras de Carbón

2018

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En este trabajo se probó un test rápido para evaluar la bioactiviad de ácidos húmicos (AH) obtenidos a partir de un carbón lignito a través de dos métodos: 1) mediante extracción química con NaOH (AH-Q) y 2) mediante actividad de una cepa bacteriana (Enterobacter aerogenes). Para ello se determinó la capacidad de los AH para ocasionar la elongación celular en coleóptilos de trigo, así como la capacidad para inducir la proliferación y alargamiento de raíces a partir de semillas pregerminadas. Se probaron concentraciones de AH entre 2,0 y 120 mg C. L-1 tomando como referencia el efecto ocasionado por una solución de AIA 2,0 mgL-1. Se encontró que el tratamiento con AH-Q a 40 mg C.L-1 ocasionó un mayor alargamiento de coleóptilos y raíces, mientras que una concentración de 20 mg C.L-1 de AH-B presentó bioactividad superior en todos los parámetros evaluados. Los resultados indican que los AH evaluados presentan bioactividad que depende del tipo de extracción y de la concentración aplicada.

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Interactions between indole-3-acetic acid (IAA) with a lectin from Canavalia maritima seeds reveal a new function for lectins in plant physiology

Cited by 22 publications

References 63 publications

Use of ammonium salts or binary mixtures derived from amino acids, glycine betaine, choline and indole-3-butyric acid as plant regulators

Use of ammonium salts or binary mixtures derived from amino acids, glycine betaine, choline and indole-3-butyric acid as plant regulators

Ectopic Expression of GsSRK in Medicago sativa Reveals Its Involvement in Plant Architecture and Salt Stress Responses

Metodología Sencilla para Evaluar Bioactividad de Ácidos Húmicos obtenidos de Lignito Mediante Extracción Alcalina y Bacterias Solubilizadoras de Carbón

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