Investigating the Role of the Cell Wall in Plant Freezing Tolerance

Abstract The members of myeloblastosis transcription factor (MYB TF) family are involved in the regulation of biotic and abiotic stresses in plants. However, the role of MYB TF in phosphorus remobilization remains largely unexplored. In the present study, we show that an R2R3 type MYB transcription factor, MYB103, is involved in phosphorus (P) remobilization. MYB103 was remarkably induced by P deficiency in cabbage (Brassica oleracea var. capitata L.). As cabbage lacks the proper mutant for elucidating the mechanism of MYB103 in P deficiency, another member of the crucifer family, Arabidopsis thaliana was chosen for further study. The transcript of its homologue AtMYB103 was also elevated in response to P deficiency in A. thaliana, while disruption of AtMYB103 (myb103) exhibited increased sensitivity to P deficiency, accompanied with decreased tissue biomass and soluble P concentration. Furthermore, AtMYB103 was involved in the P reutilization from cell wall, as less P was released from the cell wall in myb103 than in wildtype, coinciding with the reduction of ethylene production. Taken together, our results uncover an important role of MYB103 in the P remobilization, presumably through ethylene signaling.

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Soybean germination limits the role of cell wall integrity in controlling protein physicochemical changes during cooking and improves protein digestibility

Food Research International ◽

10.1016/j.foodres.2021.110254 ◽

2021 ◽

Vol 143 ◽

pp. 110254

Author(s):

Mostafa Zahir ◽

Vincenzo Fogliano ◽

Edoardo Capuano

Keyword(s):

Cell Wall ◽

Protein Digestibility ◽

Cell Wall Integrity ◽

Physicochemical Changes

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The role of cell wall polysaccharides disassembly in Lasiodiplodia theobromae-induced disease occurrence and softening of fresh longan fruit

Food Chemistry ◽

10.1016/j.foodchem.2021.129294 ◽

2021 ◽

Vol 351 ◽

pp. 129294

Author(s):

Yazhen Chen ◽

Shen Zhang ◽

Hetong Lin ◽

Wangjin Lu ◽

Hui Wang ◽

...

Keyword(s):

Cell Wall ◽

Cell Wall Polysaccharides ◽

Lasiodiplodia Theobromae ◽

Disease Occurrence

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Differential Role of Threonine and Tyrosine Phosphorylation in the Activation and Activity of the Yeast MAPK Slt2

International Journal of Molecular Sciences ◽

10.3390/ijms22031110 ◽

2021 ◽

Vol 22 (3) ◽

pp. 1110

Author(s):

Gema González-Rubio ◽

Ángela Sellers-Moya ◽

Humberto Martín ◽

María Molina

Keyword(s):

Cell Wall ◽

Biological Activity ◽

Biological Significance ◽

Mitogen Activated Protein Kinase ◽

Activation Loop ◽

High Increase ◽

Dual Specificity ◽

Mitogen Activated Protein ◽

Full Activation

The Mitogen-Activated Protein Kinase (MAPK) Slt2 is central to signaling through the yeast Cell Wall Integrity (CWI) pathway. MAPKs are regulated by phosphorylation at both the threonine and tyrosine of the conserved TXY motif within the activation loop (T190/Y192 in Slt2). Since phosphorylation at both sites results in the full activation of MAPKs, signaling through MAPK pathways is monitored with antibodies that detect dually phosphorylated forms. However, most of these antibodies also recognize monophosphorylated species, whose relative abundance and functionality are diverse. By using different phosphospecific antibodies and phosphate-affinity (Phos-tag) analysis on distinct Slt2 mutants, we determined that Y192- and T190-monophosphorylated species coexist with biphosphorylated Slt2, although most of the Slt2 pool remains unphosphorylated following stress. Among the monophosphorylated forms, only T190 exhibited biological activity. Upon stimulation, Slt2 is first phosphorylated at Y192, mainly by the MAPKK Mkk1, and this phosphorylation is important for the subsequent T190 phosphorylation. Similarly, dephosphorylation of Slt2 by the Dual Specificity Phosphatase (DSP) Msg5 is ordered, with dephosphorylation of T190 depending on previous Y192 dephosphorylation. Whereas Y192 phosphorylation enhances the Slt2 catalytic activity, T190 is essential for this activity. The conserved T195 residue is also critical for Slt2 functionality. Mutations that abolish the activity of Slt2 result in a high increase in inactive Y192-monophosphorylated Slt2. The coexistence of different Slt2 phosphoforms with diverse biological significance highlights the importance of the precise detection of the Slt2 phosphorylation status.

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Peptidogalactomannan from Histoplasma capsulatum yeast cell wall: role of the chemical structure in recognition and activation by peritoneal macrophages

Brazilian Journal of Microbiology ◽

10.1007/s42770-021-00447-w ◽

2021 ◽

Author(s):

Giulia Maria Pires dos Santos ◽

Gustavo Ramalho Cardoso dos Santos ◽

Mariana Ingrid Dutra da Silva Xisto ◽

Rodrigo Rollin-Pinheiro ◽

Andréa Regina de Souza Baptista ◽

...

Keyword(s):

Cell Wall ◽

Yeast Cell ◽

Chemical Structure ◽

Histoplasma Capsulatum ◽

Peritoneal Macrophages ◽

Yeast Cell Wall

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The AaCBF4-AaBAM3.1 module enhances freezing tolerance of kiwifruit (Actinidia arguta)

Horticulture Research ◽

10.1038/s41438-021-00530-1 ◽

2021 ◽

Vol 8 (1) ◽

Author(s):

Shihang Sun ◽

Chungen Hu ◽

Xiujuan Qi ◽

Jinyong Chen ◽

Yunpeng Zhong ◽

...

Keyword(s):

Cold Stress ◽

Freezing Tolerance ◽

Luciferase Reporter ◽

Dna Interactions ◽

Functional Protein ◽

Actinidia Arguta ◽

Protein Dna Interactions ◽

Similar Phenotype ◽

Reporter Assays

AbstractBeta-amylase (BAM) plays an important role in plant resistance to cold stress. However, the specific role of the BAM gene in freezing tolerance is poorly understood. In this study, we demonstrated that a cold-responsive gene module was involved in the freezing tolerance of kiwifruit. In this module, the expression of AaBAM3.1, which encodes a functional protein, was induced by cold stress. AaBAM3.1-overexpressing kiwifruit lines showed increased freezing tolerance, and the heterologous overexpression of AaBAM3.1 in Arabidopsis thaliana resulted in a similar phenotype. The results of promoter GUS activity and cis-element analyses predicted AaCBF4 to be an upstream transcription factor that could regulate AaBAM3.1 expression. Further investigation of protein-DNA interactions by using yeast one-hybrid, GUS coexpression, and dual luciferase reporter assays confirmed that AaCBF4 directly regulated AaBAM3.1 expression. In addition, the expression of both AaBAM3.1 and AaCBF4 in kiwifruit responded positively to cold stress. Hence, we conclude that the AaCBF-AaBAM module is involved in the positive regulation of the freezing tolerance of kiwifruit.

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The role of the exocytic pathway in cell wall assembly in yeast

Yeast ◽

10.1002/yea.3659 ◽

2021 ◽

Author(s):

Qingguo Guo ◽

Na Meng ◽

Guanzhi Fan ◽

Dong Sun ◽

Yuan Meng ◽

...

Keyword(s):

Cell Wall ◽

Cell Wall Assembly ◽

Wall Assembly ◽

Exocytic Pathway

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The Transcription Factor Con7-1 Is a Master Regulator of Morphogenesis and Virulence in Fusarium oxysporum

Molecular Plant-Microbe Interactions ◽

10.1094/mpmi-07-14-0205-r ◽

2015 ◽

Vol 28 (1) ◽

pp. 55-68 ◽

Cited By ~ 16

Author(s):

Carmen Ruiz-Roldán ◽

Yolanda Pareja-Jaime ◽

José Antonio González-Reyes ◽

M. Isabel G. Roncero

Keyword(s):

Cell Wall ◽

Fusarium Oxysporum ◽

Gene Expression Analysis ◽

Wall Structure ◽

Targeted Deletion ◽

Signal Perception ◽

Cell Wall Biogenesis ◽

Primary And Secondary Metabolism ◽

Genes Encoding

Previous studies have demonstrated the essential role of morphogenetic regulation in Fusarium oxysporum pathogenesis, including processes such as cell-wall biogenesis, cell division, and differentiation of infection-like structures. We identified three F. oxysporum genes encoding predicted transcription factors showing significant identities to Magnaporthe oryzae Con7p, Con7-1, plus two identical copies of Con7-2. Targeted deletion of con7-1 produced nonpathogenic mutants with altered morphogenesis, including defects in cell wall structure, polar growth, hyphal branching, and conidiation. By contrast, simultaneous inactivation of both con7-2 copies caused no detectable defects in the resulting mutants. Comparative microarray-based gene expression analysis indicated that Con7-1 modulates the expression of a large number of genes involved in different biological functions, including host–pathogen interactions, morphogenesis and development, signal perception and transduction, transcriptional regulation, and primary and secondary metabolism. Taken together, our results point to Con7-1 as general regulator of morphogenesis and virulence in F. oxysporum.

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