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Cited by 150 publications
(78 citation statements)
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References 160 publications
(242 reference statements)
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“…Alternaria species secrete various non-host-(nHSTs) and host-selective toxins (HSTs) which are responsible for the degradation of different organelles within an infected cell in over 200 plant species. For example, Alternaria alternata pathotypes produce different HSTs depending on the plant species, such as the AM-toxin that degrades the plasma membrane and chloroplasts in apple; the ACR-toxin that causes damage of the mitochondria in lemon; the AK-toxin, AF-toxin and ACT-toxin that target the plasma membrane in susceptible cultivars of Japanese pear, strawberry and tangerine, respectively [ 61 , 62 , 63 ]. However, a possible effect of identified A. brassicicola secreted compounds during infection on plant cell structures or their influence on the host transcriptome has not been described yet.…”
Section: Discussionmentioning
confidence: 99%
“…Alternaria species secrete various non-host-(nHSTs) and host-selective toxins (HSTs) which are responsible for the degradation of different organelles within an infected cell in over 200 plant species. For example, Alternaria alternata pathotypes produce different HSTs depending on the plant species, such as the AM-toxin that degrades the plasma membrane and chloroplasts in apple; the ACR-toxin that causes damage of the mitochondria in lemon; the AK-toxin, AF-toxin and ACT-toxin that target the plasma membrane in susceptible cultivars of Japanese pear, strawberry and tangerine, respectively [ 61 , 62 , 63 ]. However, a possible effect of identified A. brassicicola secreted compounds during infection on plant cell structures or their influence on the host transcriptome has not been described yet.…”
Section: Discussionmentioning
confidence: 99%
“…L-Proline collection has additionally been proposed to actuate elective detoxification pathway by ensuring and settling ROS scavenging enzymes. In salt stressed tobacco cells, L-proline has been shown to increase the activity of methyl-glyoxal detoxification enzymes; improve peroxidase, glutathione-S-transferase, superoxide dismutase and catalase activities; and increment the glutathione redox state (Hoque et al., 2008; Islam et al., 2009; Meena and Samal, 2019). Aggregation of P5CS1 and P5CR in chloroplasts during the states of salt stress shows that under such unfriendly conditions, glutamate-inferred L-proline biosynthesis is raised in plastids, where photosynthesis happens (Székely et al., 2008).…”
Section: L-proline Accumulation and Stress Tolerance In Plantsmentioning
confidence: 99%
“…Some mycotoxins are converted into the masked forms such as ZEN 14-O-glucoside (107) and ZEN 16-O-glucoside (108), which can be accumulated in organisms and cannot be eliminated [81,172,173]. Through the studies of structure-activity relationship (SAR), the essential functional groups for toxicitiy of mycotoxins have been clarified [7,161,174]. This should be the focus of the research on mycotoxin biotransformation for detoxification in the coming years.…”
Section: Conclusion and Future Perspectivesmentioning
confidence: 99%