Comparative Coexpression Analysis of Indole Synthase and Tryptophan Synthase A Reveals the Independent Production of Auxin via the Cytosolic Free Indole

Abu-Zaitoon, Yousef M.; Al-Ramamneh, Ezz Al-Dein; Al-Tawaha, Abdel Rahman Mohammad Said; Alnaimat, Sulaiman; Al-Momani, Fouad

doi:10.3390/plants12081687

Cited by 3 publications

(1 citation statement)

References 46 publications

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“…Glucosinolates, especially indolic glucosinolates, play an important role in the resistance to Ab infection in Arabidopsis, Chinese kale, and broccoli [15,16]; thus, we were interested to investigate the expression profiles of the 72 genes involved in the biosynthesis pathway of indolic glucosinolates in cabbage (Table S2). First, the indolic glucosinolate biosynthesis pathway was reconstructed based on previous studies [35][36][37] (Figure 6A). A total of 42 DEGs were identified in Bo190, containing 39 upregulated DEGs and 3 downregulated DEGs (Figure 6B).…”

Section: Differential Expression Of Genes Involved In Indolic Glucosi...mentioning

confidence: 99%

Integrated Analysis of Transcriptome and Metabolome Reveals Differential Responses to Alternaria brassicicola Infection in Cabbage (Brassica oleracea var. capitata)

Lei,

Zhang,

et al. 2024

Genes

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Black spot, caused by Alternaria brassicicola (Ab), poses a serious threat to crucifer production, and knowledge of how plants respond to Ab infection is essential for black spot management. In the current study, combined transcriptomic and metabolic analysis was employed to investigate the response to Ab infection in two cabbage (Brassica oleracea var. capitata) genotypes, Bo257 (resistant to Ab) and Bo190 (susceptible to Ab). A total of 1100 and 7490 differentially expressed genes were identified in Bo257 (R_mock vs. R_Ab) and Bo190 (S_mock vs. S_Ab), respectively. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis revealed that “metabolic pathways”, “biosynthesis of secondary metabolites”, and “glucosinolate biosynthesis” were the top three enriched KEGG pathways in Bo257, while “metabolic pathways”, “biosynthesis of secondary metabolites”, and “carbon metabolism” were the top three enriched KEGG pathways in Bo190. Further analysis showed that genes involved in extracellular reactive oxygen species (ROS) production, jasmonic acid signaling pathway, and indolic glucosinolate biosynthesis pathway were differentially expressed in response to Ab infection. Notably, when infected with Ab, genes involved in extracellular ROS production were largely unchanged in Bo257, whereas most of these genes were upregulated in Bo190. Metabolic profiling revealed 24 and 56 differentially accumulated metabolites in Bo257 and Bo190, respectively, with the majority being primary metabolites. Further analysis revealed that dramatic accumulation of succinate was observed in Bo257 and Bo190, which may provide energy for resistance responses against Ab infection via the tricarboxylic acid cycle pathway. Collectively, this study provides comprehensive insights into the Ab–cabbage interactions and helps uncover targets for breeding Ab-resistant varieties in cabbage.

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Section: Differential Expression Of Genes Involved In Indolic Glucosi...mentioning

confidence: 99%

Integrated Analysis of Transcriptome and Metabolome Reveals Differential Responses to Alternaria brassicicola Infection in Cabbage (Brassica oleracea var. capitata)

Lei,

Zhang,

et al. 2024

Genes

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Microbeads as carriers for Bacillus pumilus : a biofertilizer focus on auxin production

Benítez,

Carrasco,

Giraldo

et al. 2024

Journal of Microencapsulation

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An auxin research odyssey: 1989–2023

Cohen,

Strader

2024

The Plant Cell

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The phytohormone auxin is at times called the master regulator of plant processes and has been shown to be a central player in embryo development, the establishment of the polar axis, early aspects of seedling growth, as well as growth and organ formation during later stages of plant development. The Plant Cell has been key, since the inception of the journal, to developing an understanding of auxin biology. Auxin regulated plant growth control is accomplished by both changes in the levels of active hormones and the sensitivity of plant tissues to these concentration changes. In this historical review, we chart auxin research as it has progressed in key areas and highlighting the role The Plant Cell played in these scientific developments. We focus on understanding auxin-responsive genes, transcription factors, reporter constructs, perception and signal transduction processes. Auxin metabolism is discussed from the development of tryptophan auxotrophic mutants, the molecular biology of conjugate formation and hydrolysis, indole-3-butyric acid metabolism and transport, and key steps in indole-3-acetic acid biosynthesis, catabolism and transport. This progress leads to an expectation of a more comprehensive understanding of the systems biology of auxin and the spatial and temporal regulation of cellular growth and development.

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Comparative Coexpression Analysis of Indole Synthase and Tryptophan Synthase A Reveals the Independent Production of Auxin via the Cytosolic Free Indole

Cited by 3 publications

References 46 publications

Integrated Analysis of Transcriptome and Metabolome Reveals Differential Responses to Alternaria brassicicola Infection in Cabbage (Brassica oleracea var. capitata)

Integrated Analysis of Transcriptome and Metabolome Reveals Differential Responses to Alternaria brassicicola Infection in Cabbage (Brassica oleracea var. capitata)

Microbeads as carriers for Bacillus pumilus : a biofertilizer focus on auxin production

An auxin research odyssey: 1989–2023

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