Genome-wide annotation of the soybean WRKY family and functional characterization of genes involved in response to Phakopsora pachyrhiziinfection

Bencke-Malato, Marta; Cabreira, Caroline; Wiebke-Strohm, Beatriz; Bücker-Neto, Lauro; Mancini, Estefanía; Osorio, Marina Borges; Homrich, Milena Schenkel; Turchetto‐Zolet, Andreia Carina; Carvalho, M. C. C. G. de; Stolf, Renata; Weber, Ricardo Luís Mayer; Westergaard, Gastón; Castagnaro, Atilio Pedro; Abdelnoor, R. V.; Marcelino-Guimarães, Francismar Corrêa; Margis‐Pinheiro, Márcia; Bodanese‐Zanettini, Maria Helena

doi:10.1186/s12870-014-0236-0

Cited by 75 publications

(57 citation statements)

References 80 publications

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“…Additional phylogenetic analyses, however, have shown that the group II proteins can be further divided into groups IIa–e ( Zhang and Wang, 2005 ). Through extensive searching and sequence verification with the annotated soybean genome, we identified more than 170 WRKY genes from soybean, which is significantly more than the 133 members identified from a previously reported study with BLAST searching used Arabidopsis WRKY proteins as queries ( Yin et al , 2013 ), but similar to the number identified from a more recent study through genome-wide annotation ( Bencke-Malato et al , 2014 ). Phylogenetic analysis through multiple sequence alignment of the WRKY domains classifies the vast majority of soybean WRKY proteins into one of the seven groups.…”

Section: Resultsmentioning

confidence: 70%

Identification and characterization of a novel group of legume-specific, Golgi apparatus-localized WRKY and Exo70 proteins from soybean

Chi

Yang

et al. 2015

Journal of Experimental Botany

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Section: Resultsmentioning

confidence: 70%

Identification and characterization of a novel group of legume-specific, Golgi apparatus-localized WRKY and Exo70 proteins from soybean

Chi

Yang

et al. 2015

Journal of Experimental Botany

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“…WRKY transcription factors have been identified as one the largest families of regulatory proteins, and there is increasing evidence indicating that WRKYs are involved in soybean defense responses to pathogens 35 and soybean aphids 36 . In our study, we identified 83 WRKY genes that were expressed in S54 roots based on available annotations (Table S13 ), 33 (39.8%) of which were significantly induced after H. glycines infection (Fig.…”

Section: Resultsmentioning

confidence: 99%

Comparative RNA-Seq Analysis Uncovers a Complex Regulatory Network for Soybean Cyst Nematode Resistance in Wild Soybean (Glycine soja)

Zhang

Kjemtrup-Lovelace

et al. 2017

Sci Rep

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Soybean cyst nematode (SCN) is the most damaging pest of soybean worldwide. The molecular mechanism of SCN resistance remains largely unknown. We conducted a global RNA-seq comparison between a resistant genotype (S54) and a susceptible genotype (S67) of Glycine soja, the wild progenitor of soybean, to understand its regulatory network in SCN defense. The number of differentially expressed genes (DEGs) in S54 (2,290) was much larger than that in S67 (555). A number of defense-related genes/pathways were significantly induced only in S54, while photosynthesis and several metabolic pathways were affected in both genotypes with SCN infection. These defense-associated DEGs were involved in pathogen recognition, calcium/calmodulin-mediated defense signaling, jasmonic acid (JA)/ethylene (ET) and sialic acid (SA)-involved signaling, the MAPK signaling cascade, and WRKY-involved transcriptional regulation. Our results revealed a comprehensive regulatory network involved in SCN resistance and provided insights into the complex molecular mechanisms of SCN resistance in wild soybean.

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“…Similar results were observed in other species, where it was concluded that stomatal aperture was the main factor limiting leaf photosynthetic capacity in NaCl-treated plants (Loreto et al, 2003; Meloni et al, 2003). The lack of alterations in PSII functionality under salt stress might be the result of an increase in photoprotection mechanisms, such as Non-Photochemical Quenching and cyclic electron flow (Bencke-Malato et al, 2014; Dionisio-Sese and Tobita, 2000), or the increase in the activity of ROS scavenging mechanisms in the chloroplast (Badawi et al, 2004; Meloni et al, 2003). The latter was previously reported to take place in other Lotus species, although under low temperature conditions (Calzadilla et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Contrasting response of twoLotus corniculatusL. accessions to combined waterlogging-saline stress

Antonelli

Calzadilla

Campestre

et al. 2020

Preprint

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Waterlogging and salinity impair crops growth and productivity worldwide, being their combined effects larger than the additive effects of both stresses separately. Recently, a new Lotus corniculatus accession has been collected from a coastal area with a high frequency of waterlogging-saline stress events. This population is diploid and has potential to increase nutritional values of Lotus cultivars used as forages. Due to its environmental niche, we hypothesize that this accession would show a better adaptation to combined waterlogging-saline stress compared to another commonly used tetraploid L. corniculatus (cv. San Gabriel). Shoot and root growth under waterlogging, salinity and combined waterlogging-saline treatments were addressed, together with chlorophyll fluorescence and gas exchange measurements. Results showed that salinity and waterlogging effects were more severe for the tetraploid accession, being the differences larger under the combined stress condition. In addition, Na+, Cl− and K+ concentrations were measured in young and old leaves, and in roots. A larger accumulation of Na+ and Cl− was observed under both saline and combined stress treatments for the tetraploid L. corniculatus, for which ion toxicity effects were evident. The expression of the NHX1 and CLC genes, coding for Na+ and Cl− transporters respectively, was only increased in response to combined stress in the diploid L. corniculatus plants, suggesting that ion compartmentalization mechanisms were induced in this accession. As a conclusion, the recent characterized L. corniculatus might be used for the introduction of new tolerant traits to combined stresses, in other Lotus species used as forage.

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Genome-wide annotation of the soybean WRKY family and functional characterization of genes involved in response to Phakopsora pachyrhiziinfection

Cited by 75 publications

References 80 publications

Identification and characterization of a novel group of legume-specific, Golgi apparatus-localized WRKY and Exo70 proteins from soybean

Identification and characterization of a novel group of legume-specific, Golgi apparatus-localized WRKY and Exo70 proteins from soybean

Comparative RNA-Seq Analysis Uncovers a Complex Regulatory Network for Soybean Cyst Nematode Resistance in Wild Soybean (Glycine soja)

Contrasting response of twoLotus corniculatusL. accessions to combined waterlogging-saline stress

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