Review

. 2022 Jul 11:13:898979.

doi: 10.3389/fmicb.2022.898979. eCollection 2022.

Mechanistic Insights and Potential Use of Siderophores Producing Microbes in Rhizosphere for Mitigation of Stress in Plants Grown in Degraded Land

Pratiksha Singh¹, Prabhat K Chauhan², Sudhir K Upadhyay², Rajesh Kumar Singh³, Padmanabh Dwivedi⁴, Jing Wang¹, Devendra Jain⁵, Mingguo Jiang¹

Affiliations

¹ Guangxi Key Laboratory for Polysaccharide Materials and Modifications, School of Marine Sciences and Biotechnology, Guangxi Minzu University, Nanning, China.
² Department of Environmental Science, Veer Bahadur Singh Purvanchal University, Jaunpur, India.
³ Guangxi Key Laboratory of Sugarcane Genetic Improvement, Sugarcane Research Institute, Guangxi Academy of Agricultural Sciences, Nanning, China.
⁴ Department of Plant Physiology, Institute of Agricultural Sciences, Banaras Hindu University, Varanasi, India.
⁵ Department of Molecular Biology and Biotechnology, Maharana Pratap University of Agriculture and Technology, Udaipur, India.

PMID: 35898908
PMCID: PMC9309559
DOI: 10.3389/fmicb.2022.898979

Review

Mechanistic Insights and Potential Use of Siderophores Producing Microbes in Rhizosphere for Mitigation of Stress in Plants Grown in Degraded Land

Pratiksha Singh et al. Front Microbiol. 2022.

. 2022 Jul 11:13:898979.

doi: 10.3389/fmicb.2022.898979. eCollection 2022.

Authors

Pratiksha Singh¹, Prabhat K Chauhan², Sudhir K Upadhyay², Rajesh Kumar Singh³, Padmanabh Dwivedi⁴, Jing Wang¹, Devendra Jain⁵, Mingguo Jiang¹

Affiliations

¹ Guangxi Key Laboratory for Polysaccharide Materials and Modifications, School of Marine Sciences and Biotechnology, Guangxi Minzu University, Nanning, China.
² Department of Environmental Science, Veer Bahadur Singh Purvanchal University, Jaunpur, India.
³ Guangxi Key Laboratory of Sugarcane Genetic Improvement, Sugarcane Research Institute, Guangxi Academy of Agricultural Sciences, Nanning, China.
⁴ Department of Plant Physiology, Institute of Agricultural Sciences, Banaras Hindu University, Varanasi, India.
⁵ Department of Molecular Biology and Biotechnology, Maharana Pratap University of Agriculture and Technology, Udaipur, India.

PMID: 35898908
PMCID: PMC9309559
DOI: 10.3389/fmicb.2022.898979

Abstract

Plant growth performance under a stressful environment, notably in the agriculture field, is directly correlated with the rapid growth of the human population, which triggers the pressure on crop productivity. Plants perceived many stresses owing to degraded land, which induces low plant productivity and, therefore, becomes a foremost concern for the future to face a situation of food scarcity. Land degradation is a very notable environmental issue at the local, regional, and global levels for agriculture. Land degradation generates global problems such as drought desertification, heavy metal contamination, and soil salinity, which pose challenges to achieving many UN Sustainable Development goals. The plant itself has a varied algorithm for the mitigation of stresses arising due to degraded land; the rhizospheric system of the plant has diverse modes and efficient mechanisms to cope with stress by numerous root-associated microbes. The suitable root-associated microbes and components of root exudate interplay against stress and build adaptation against stress-mediated mechanisms. The problem of iron-deficient soil is rising owing to increasing degraded land across the globe, which hampers plant growth productivity. Therefore, in the context to tackle these issues, the present review aims to identify plant-stress status owing to iron-deficient soil and its probable eco-friendly solution. Siderophores are well-recognized iron-chelating agents produced by numerous microbes and are associated with the rhizosphere. These siderophore-producing microbes are eco-friendly and sustainable agents, which may be managing plant stresses in the degraded land. The review also focuses on the molecular mechanisms of siderophores and their chemistry, cross-talk between plant root and siderophores-producing microbes to combat plant stress, and the utilization of siderophores in plant growth on degraded land.

Keywords: degraded land; molecular mechanism; plant stress; rhizospheric microbes; siderophores.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**Figure 1**
Plant stress responses such as (1) wilting and chlorosis, (2) altered stomatal activities, (3) inhibition of enzymatic activities (4) nutrient imbalance (5) increased ROS, (6) altered electron transport system, and (7) DNA damage under iron-deficient/degraded soil.

**Figure 2**
Chemical nature of commonly identified siderophores and their iron (Fe³⁺) chelating binding sites.

**Figure 3**
Mechanism of siderophore in plant growth-promoting gram-positive and gram-negative bacteria mediating iron uptake in plants under iron-deficient/degraded soil. Bacterial siderophore (BS), periplasmic binding protein (PBP), reduction strategy (RS-I), chelation strategy (CS-II), and plant siderophore (PS). Iron regulated transporter 1 (IRT), Yellow Stripe-Like Transporter of *Oryza sativa* (OsYSL15), ATP-binding cassette transporter (ABC) G37, translocase of outer membrane 1 (TOM) (Modified as sources of Fukushima et al., ; Seyoum et al., 2021).

See this image and copyright information in PMC

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Mechanistic Insights and Potential Use of Siderophores Producing Microbes in Rhizosphere for Mitigation of Stress in Plants Grown in Degraded Land

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Mechanistic Insights and Potential Use of Siderophores Producing Microbes in Rhizosphere for Mitigation of Stress in Plants Grown in Degraded Land

Authors

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Abstract

Conflict of interest statement

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