Mechanism of indole-3-acetic acid oxidation by plant peroxidases: anaerobic stopped-flow spectrophotometric studies on horseradish and tobacco peroxidases

Gazaryan, Irina G.; Lagrimini, L. Mark; Ashby, G. A.; Thorneley, R. N. F.

doi:10.1042/bj3130841

Cited by 135 publications

(91 citation statements)

References 16 publications

(43 reference statements)

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“…Peroxidase activity is also related to cell stem maintenance and cell division and differentiation in the root meristem (Jiang and Feldman, 2005;Tsukagoshi et al, 2010). It is remarkable that plant peroxidase activities have the ability to catalyze IAA (Gazaryan et al, 1996;Cosio et al, 2009), reducing the active auxin pool. Overexpression of an anionic PER in tobacco (Nicotiana tabacum) plants repressed LR formation, likely by oxidizing the IAA and reducing the active auxin needed for the formation of the lateral primordia (Lagrimini et al, 1997).…”

Section: Discussionmentioning

confidence: 99%

The Emerging Role of Reactive Oxygen Species Signaling during Lateral Root Development

et al. 2014

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Overall root architecture is the combined result of primary and lateral root growth and is influenced by both intrinsic genetic programs and external signals. One of the main questions for root biologists is how plants control the number of lateral root primordia and their emergence through the main root. We recently identified S-phase kinase-associated protein2 (SKP2B) as a new early marker for lateral root development. Here, we took advantage of its specific expression pattern in Arabidopsis (Arabidopsis thaliana) in a cell-sorting and transcriptomic approach to generate a lateral root-specific cell sorting SKP2B data set that represents the endogenous genetic developmental program. We first validated this data set by showing that many of the identified genes have a function during root growth or lateral root development. Importantly, genes encoding peroxidases were highly represented in our data set. Thus, we next focused on this class of enzymes and showed, using genetic and chemical inhibitor studies, that peroxidase activity and reactive oxygen species signaling are specifically required during lateral root emergence but, intriguingly, not for primordium specification itself.

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Section: Discussionmentioning

confidence: 99%

The Emerging Role of Reactive Oxygen Species Signaling during Lateral Root Development

et al. 2014

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“…25 The series of ferrous-dependently stimulated reactions can be divided into several steps, namely, conversion of native enzyme into ferrous intermediate, O 2 25 IAA is an effective inducer of H 2 O 2 -independent O 2 ¡ generation in POX system, 15,26 but at the same time it is also consumed by conventional POX cycle initiated by IAA-dependently produced O 2 ¡ (and derived H 2 O 2 ). 13,14,16,19 Therefore, longlasting action could not be observed. Obviously, Fe 2C is neither consumed by conventional POX cycle nor involved in removal of O 2 ¡ .…”

Section: E1010917-4mentioning

confidence: 99%

“…By analogy to the experimental procedure for HRP, 19 spectroscopic determination of SBP concentration was performed based on the measurement of the concentration of heme (e 403nm D 102 mM ¡1 cm ¡1 ). Changes in absorption spectra of SBP in 20 mM K-phosphate buffer (pH 7.0) were recorded on spectrophotometer (Shimadzu UV-1800, Kyoto, Japan) at room temperature with a spectral bandwidth of 1.0 nm in a cuvette with 1-cm light path.…”

Section: Spectroscopymentioning

confidence: 99%

Hydrogen peroxide-independent generation of superoxide catalyzed by soybean peroxidase in response to ferrous ion

Kimura

Kawano

2015

Plant Signaling & Behavior

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“…IAA is extremely sensitive to OHd, and can be oxidized rapidly upon exposure to high concentrations of OHd (Brennan & Frenkel, 1983 ;Cakmak, 1988 ;Dunlop & Robacker, 1988). Besides nonenzymic oxidation, IAA is also oxidized by H # O # -dependent peroxidases (Schneider & Wightman, 1975 ;Gazaryan et al, 1996), and O # d − and "O # are involved in this degradation pathway (Metodiewa et al, 1992 …”

Section: Zinc Deficiency-enhanced Photooxidationmentioning

confidence: 99%

Tansley Review No. 111

2000

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Zinc deficiency is one of the most widespread micronutrient deficiencies in plants and causes severe reductions in crop production. There are a number of physiological impairments in Zn-deficient cells causing inhibition of the growth, differentiation and development of plants. Increasing evidence indicates that oxidative damage to critical cell compounds resulting from attack by reactive O # species (ROS) is the basis of disturbances in plant growth caused by Zn deficiency. Zinc interferes with membrane-bound NADPH oxidase producing ROS. In Zn-deficient plants the iron concentration increases, which potentiates the production of free radicals. The Zn nutritional status of plants influences photooxidative damage to chloroplasts, catalysed by ROS. Zinc-deficient leaves are highly light-sensitive, rapidly becoming chlorotic and necrotic when exposed to high light intensity. Zinc plays critical roles in the defence system of cells against ROS, and thus represents an excellent protective agent against the oxidation of several vital cell components such as membrane lipids and proteins, chlorophyll, SH-containing enzymes and DNA. The cysteine, histidine and glutamate or aspartate residues represent the most critical Znbinding sites in enzymes, DNA-binding proteins (Zn-finger proteins) and membrane proteins. In addition, animal studies have shown that Zn is involved in inhibition of apoptosis (programmed cell death) which is preceded by DNA and membrane damage through reactions with ROS.

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Mechanism of indole-3-acetic acid oxidation by plant peroxidases: anaerobic stopped-flow spectrophotometric studies on horseradish and tobacco peroxidases

Cited by 135 publications

References 16 publications

The Emerging Role of Reactive Oxygen Species Signaling during Lateral Root Development

The Emerging Role of Reactive Oxygen Species Signaling during Lateral Root Development

Hydrogen peroxide-independent generation of superoxide catalyzed by soybean peroxidase in response to ferrous ion

Tansley Review No. 111

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