Your search keyword '"tolerance gene"' showing total 17 results

1. Physiological responses of wild grass Holcus lanatus L. to potentially toxic elements in soils: a review

Author

Rahman, Ismail M.M. and Khan, Bayezid M.

Published

2023

2. Adaptive strategies for plant response to toxic metals in the soil

Author

Kochian, Leon

Subjects

Element Toxicity and Remediation, aluminum toxicity, aluminum tolerance, tolerance gene, MATE, ALMT

Abstract

Plants have evolved a number of different mechanisms for dealing with toxic metals in the environment, and these can involve both avoidance (exclusion of the metal from a plant tissue/organ) or true tolerance, which presumably involves chelation and/or sequestration of the metal in an internal compartment. The best characterized mechanism of plant metal tolerance is associated with crop aluminum (Al) tolerance. Al toxicity is a worldwide problem that arises when soil pH values drop to 5 or below; in these acidic soils rhizotoxic forms of Al are solubilized into the soil solution, damaging roots and resulting in reduced water and nutrient uptake. This talk will focus on a major Al tolerance mechanism which involves Al exclusion from the root tip mediated by Al activation of specialized transporters that release organic acids into the rhizosphere, where they chelate and prevent Al from entering the root. Several Al tolerance genes have been cloned recently and these belong to two different families of novel membrane transporters. The function and regulation of these tolerance genes will be discussed, as well as the implications of these findings in facilitating plant improvements for growth on degraded or marginal soils.

Published

2009

3. Zinc pre-exposure improves Zn resistance by demethylation of metallothionein 2 and transcription regulation of zinc-regulatory genes in zebrafish ZF4 cells

Author

Zheng, Jialang, Zhu, Qing-Ling, and Hogstrand, Christer

Subjects

ZnT, tolerance, epigenetics, zinc, mt2, metals, Metallothionein, Cell, slc30, Tolerance gene

Abstract

Mild zinc (Zn) pre-exposure can promote Zn resistance of organism, but the underlying molecular mechanisms are largely unknown. Two experiments were performed using zebrafish ZF4 cells, including short-term and long-term Zn pre-exposure experiments. In the short-term test, the cells were pre-exposed to 100 µM Zn for 24 h, transferred into fresh medium with 4.4 µM Zn for 24 h, and then re-exposed to 250 µM Zn. In the long-term test, the cells were pre-exposed to 100 µM Zn intermittently for 10 passages (3 days per passage), transferred into fresh medium with 4.4 µM Zn for 5 passages, and then re-exposed to 250 µM Zn. Both pretreatments resulted in higher resistance to 250 µM Zn. Exposure to 250 µM Zn caused a more than 2-fold increase in Zn content without Zn pretreatment but did not affect Zn content in the Zn pretreated cells. The Zn pretreated cells had low methylation levels of the metal-response element (MRE) at locus -87 in the promoter of mt2 (metallothionein 2). The up-regulated mRNA expression of Zn-regulatory genes (mtf-1, mt2, slc30a1a, slc30a4, slc30a5, slc30a6 and slc30a7) in the long-term Zn pretreated cells and mt2, slc30a4, slc30a6 and slc30a7 in the short-term Zn pretreated cells were observed. Exposure to 250 µM Zn in combination with the Zn pretreatments up-regulated mRNA expression of these genes and reduced methylation levels of the MRE compared with 250 µM Zn alone and the control. Taken together, the data suggested that demethylation of MRE in the promoter of mt2 and transcriptional induction of mt2 and Zn exporter genes offered Zn resistance in fish ZF4 cells. The traditional toxicological evaluation based on continuous exposure may overestimate the risk of fluctuating concentrations of Zn in the environment.

Published

2023

4. Role of nitric oxide and hydrogen sulfide in plant aluminum tolerance.

Author

He, Huyi, Li, Yingqiu, and He, Long-Fei

Abstract

As gasotransmitter, nitric oxide (NO) and hydrogen sulfide (H2S) are involved in the regulation of plant tolerance to abiotic stresses. Aluminum (Al) toxicity triggers synthesis of NO and H2S and seriously affects plant growth and productivity. Exogenous NO and H2S alleviate Al toxicity in plants. However, the physiological and molecular mechanisms of NO and H2S in alleviating Al toxicity are very scattered. In this review, the advances in the effects of Al on the content of endogenous NO and H2S and the mechanisms of exogenous NO and H2S in alleviating Al toxicity in plants are summarized and discussed. The signaling pathway for the roles of NO and H2S in alleviating Al toxicity is also proposed. [ABSTRACT FROM AUTHOR]

Published

2019

5. Inheritance of tolerance to Cowpea Mild Mottle Virus in soybean

Author

Carlos A Arrabal Arias, Alvaro M R Almeida, Tatiana Mituti, and Elliot W Kitajima

Subjects

Breeding, Glycine max, CPMMV, virus tolerance, tolerance gene, Plant culture, SB1-1110, Biotechnology, TP248.13-248.65

Abstract

Soybean stem necrosis is caused by Cowpea mild mottle virus (CPMMV) and it has been recognized as an emerging and economically important disease in Brazil. No resistant, but only tolerant cultivars have been identified so far, and their genetic control is still unknown. To investigate the inheritance of soybean tolerance to CPMMV, two crosses between tolerant cultivars (BRS 133 x BRSMT Pintado), and between a susceptible (CD 206) and a tolerant cultivar (BRSMT Pintado) were carried out to obtain F2 and F2:3 generations. Quantitative and qualitative analyses applied to the data from greenhouse evaluations showed that there are at least two distinct major genes determining tolerance to CPMMV, one in the soybean cultivar BRS 133 and another in the cultivar BRSMT Pintado, with predominance of additive genetic effects and heritability levels that allow for efficient selection based on early generation means

Published

2015

6. 新疆乌鲁木齐市周边鸡场鸡源沙门氏菌耐药性及耐药基因的检测.

Author

关茹飞, 江萍, 高超, and 夏利宁

Subjects

POULTRY farms, POLYMERASE chain reaction, FLUOROQUINOLONES, SALMONELLA, GENOTYPES, AGAR, P16 gene

Abstract

Copyright of Journal of Agricultural Science & Technology (1008-0864) is the property of Journal of Agricultural Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

7. The evolution of plants in metal-contaminated environments

Author

Macnair, Mark R., Bijlsma, R., editor, and Loeschcke, V., editor

Published

1997

8. Inheritance of tolerance to Cowpea Mild Mottle Virus in soybean.

Author

Arias, Carlos A. Arrabal, Almeida, Alvaro M. R., Mituti, Tatiana, and Kitajima, Elliot W.

Subjects

*COWPEA, *BETAFLEXIVIRIDAE, *SOYBEAN varieties, *NECROSIS, *PLANTS

Abstract

Soybean stem necrosis is caused by Cowpea mild mottle virus (CPMMV) and it has been recognized as an emerging and economically important disease in Brazil. No resistant, but only tolerant cultivars have been identified so far, and their genetic control is still unknown. To investigate the inheritance of soybean tolerance to CPMMV, two crosses between tolerant cultivars (BRS 133 x BRSMT Pintado), and between a susceptible (CD 206) and a tolerant cultivar (BRSMT Pintado) were carried out to obtain F2 and F2:3 generations. Quantitative and qualitative analyses applied to the data from greenhouse evaluations showed that there are at least two distinct major genes determining tolerance to CPMMV, one in the soybean cultivar BRS 133 and another in the cultivar BRSMT Pintado, with predominance of additive genetic effects and heritability levels that allow for efficient selection based on early generation means. [ABSTRACT FROM AUTHOR]

Published

2015

9. Roles of nitric oxide in alleviating heavy metal toxicity in plants

Author

Xiong, Jie, Fu, Guanfu, Tao, Longxing, and Zhu, Cheng

Subjects

*NITRIC oxide, *HEAVY metal toxicology, *STRAINS & stresses (Mechanics), *MOLECULAR biology, *PLANT cell walls, *REACTIVE oxygen species, *OXIDATIVE stress, *REACTIVE nitrogen species

Abstract

Abstract: Nitric oxide (NO) is involved in the regulation of multiple plant responses to a variety of abiotic and biotic stresses. Recently, an increasing number of articles have reported the effects of exogenous NO on alleviating heavy metal toxicity in plants. However, compared with the current understanding of the relationships between NO and other abiotic stresses, knowledge of the molecular and physiological mechanisms of NO in alleviating heavy metal toxicity is quite limited, and some results contradict one another. Therefore, to help clarify the roles of NO in heavy metal tolerance, it is valuable to review and discuss the recent advances on this research topic. In this mini-review, the latest advances in understanding the effects of heavy metals on endogenous NO content and the mechanisms and signaling pathways of exogenous NO in alleviating heavy metal toxicity in plants are summarized and discussed. A basic scheme for the roles of NO in alleviating heavy metal toxicity is also proposed. [Copyright &y& Elsevier]

Published

2010

10. Chromosomal genes conferring tolerance to heavy metal (Ag) toxicity.

Author

Otitoloju, Adebayo A., Rogers, Geraint B., Bury, Nicholas R., Hogstrand, Christer, and Bruce, Kenneth D.

Subjects

BACTERIA, SEDIMENTS, DNA, PROTEINS, AMINO acids, ECOLOGY

Abstract

Bacterial strains were isolated from sediment samples from the Thames River. Successive transfer growth of the various strains on nutrient agar containing increasing concentrations of AgNO3 revealed that three of the bacterial isolates were found to be capable of tolerating high concentrations of AgNO3 ranging from 20 to 80 mM on a solid medium and up to 10 mM AgNO3 in liquid medium. Molecular characterization and identification based on 16S rDNA gene sequencing of three strains of bacteria that are tolerant to silver nitrate showed that the major tolerant strains include the superbug, Shewanella oneidensis, Pseudomonas sp. and Bacillus sp. Protein extraction and two-dimensional (2D) sodium dodecyl sulfate SDS-polyacrylamide gel electrophoresis (PAGE) of the protein extracts in bacteria exposed to very high concentrations of AgNO3 revealed a general reduction in the number of expressed proteins, although two protein spots were conspicuously over expressed in the exposed bacteria compared to control. The N-terminal amino acid sequence analysis of the protein spots identified the major up-regulated proteins as the outer membrane protein To1C (45.2 kDa) and the structural protein of the flagellar filament, flagellin (28.34 kDa), encoded for by the to1C and fliC genes, respectively. The roles of these genes in a number of multi-drug resistant pathogen and potentials for biotechnological applications in toxic metal control for treatment of contaminated ecosystems and biomining were discussed. [ABSTRACT FROM AUTHOR]

Published

2009

11. Chromosomal rearrangements between tomato and Solanum chilense hamper mapping and breeding of the TYLCV resistance gene Ty-1

Subjects

fish, disease, locus, EPS-2, fungi, Laboratory of Virology, food and beverages, Laboratorium voor Erfelijkheidsleer, 1st report, bemisia-tabaci, Laboratorium voor Virologie, Plant Breeding, Laboratorium voor Plantenveredeling, leaf-curl-virus, whitefly-transmitted geminiviruses, tolerance gene, potato, Laboratory of Genetics, reveals

Abstract

Tomato yellow leaf curl disease, a devastating disease of Solanum lycopersicum (tomato), is caused by a complex of begomoviruses generally referred to as Tomato yellow leaf curl virus (TYLCV). Almost all breeding for TYLCV resistance has been based on the introgression of the Ty-1 resistance locus derived from Solanum chilense LA1969. Knowledge about the exact location of Ty-1 on tomato chromosome 6 will help in understanding the genomic organization of the Ty-1 locus. In this study, we analyze the chromosomal rearrangement and recombination behavior of the chromosomal region where Ty-1 is introgressed. Nineteen markers on tomato chromosome 6 were used in F2 populations obtained from two commercial hybrids, and showed the presence of a large introgression in both. Fluorescence in situ hybridization (FISH) analysis revealed two chromosomal rearrangements between S. lycopersicum and S. chilense LA1969 in the Ty-1 introgression. Furthermore, a large-scale recombinant screening in the two F2 populations was performed, and 30 recombinants in the Ty-1 introgression were identified. All recombination events were located on the long arm beyond the inversions, showing that recombination in the inverted region was absent. Disease tests on progenies of informative recombinants with TYLCV mapped Ty-1 to the long arm between markers MSc05732-4 and MSc05732-14, an interval overlapping with the reported Ty-3 region, which led to the indication that Ty-1 and Ty-3 may be allelic. With this study we prove that FISH can be used as a diagnostic tool to aid in the accurate mapping of genes that were introgressed from wild species into cultivated tomato.

Published

2011

12. The Rpi-blb2 gene from Solanum bulbocastanum is a Mi-1 gene homolog conferring broadspectrum late blight resistance in potato

Subjects

durable resistance, phytophthora-infestans, fungi, food and beverages, tomato, cell-death, PRI Biodiversity and Breeding, cultivated potato, disease-resistance, PRI Biodiversiteit en Veredeling, tolerance gene, iii effector, root-knot nematodes, virus-resistance

Abstract

The necessity to develop potato and tomato crops that possess durable resistance against the oomycete pathogen Phytophthora infestans is increasing as more virulent, crop-specialized and pesticide resistant strains of the pathogen are rapidly emerging. Here, we describe the positional cloning of the Solanum bulbocastanum-derived Rpi-blb2 gene, which even when present in a potato background confers broad-spectrum late blight resistance. The Rpi-blb2 locus was initially mapped in several tetraploid backcross populations, derived from highly resistant complex interspecific hybrids designated ABPT (an acronym of the four Solanum species involved:S. acaule, S. bulbocastanum, S. phureja and S. tuberosum), to the same region on chromosome 6 as the Mi-1 gene from tomato, which confers resistance to nematodes, aphids and white flies. Due to suppression of recombination in the tetraploid material, fine mapping was carried out in a diploid intraspecific S. bulbocastanum F1 population. Bacterial artificial chromosome (BAC) libraries, generated from a diploid ABPT-derived clone and from the resistant S. bulbocastanum parent clone, were screened with markers linked to resistance in order to generate a physical map of the Rpi-blb2 locus. Molecular analyses of both ABPT- and S. bulbocastanum¿derived BAC clones spanning the Rpi-blb2 locus showed it to harbor at least 15 Mi-1 gene homologs (MiGHs). Of these, five were genetically determined to be candidates for Rpi-blb2. Complementation analyses showed that one ABPT- and one S. bulbocastanum-derived MiGH were able to complement the susceptible phenotype in both S. tuberosum and tomato. Sequence analyses of both genes showed them to be identical. The Rpi-blb2 protein shares 82% sequence identity to the Mi-1 protein. Significant expansion of the Rpi-blb2 locus compared to the Mi-1 locus indicates that intrachromosomal recombination or unequal crossing over has played an important role in the evolution of the Rpi-blb2 locus. The contrasting evolutionary dynamics of the Rpi-blb2/Mi-1 loci in the two related genomes may reflect the opposite evolutionary potentials of the interacting pathogens

Published

2005

13. Inheritance of tolerance to cowpea mild mottle virus in soybean

Author

Arrabal Arias, Carlos A., Almeida, Alvaro M. R., Mituti, Tatiana [UNESP], Kitajima, Elliot W., Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA), Universidade Estadual Paulista (Unesp), and Universidade de São Paulo (USP)

Subjects

CPMMV, Glycine max, Virus tolerance, Breeding, Tolerance gene

Abstract

Made available in DSpace on 2018-12-11T16:40:50Z (GMT). No. of bitstreams: 0 Previous issue date: 2015-01-01. Added 1 bitstream(s) on 2019-10-09T18:28:28Z : No. of bitstreams: 1 S1984-70332015000300132.pdf: 575410 bytes, checksum: 6d2a79208f133b9c3cd0f28862c2953d (MD5) Soybean stem necrosis is caused by Cowpea mild mottle virus (CPMMV) and it has been recognized as an emerging and economically important disease in Brazil. No resistant, but only tolerant cultivars have been identified so far, and their genetic control is still unknown. To investigate the inheritance of soybean tolerance to CPMMV, two crosses between tolerant cultivars (BRS 133 x BRSMT Pintado), and between a susceptible (CD 206) and a tolerant cultivar (BRSMT Pintado) were carried out to obtain F2 and F2:3 generations. Quantitative and qualitative analyses applied to the data from greenhouse evaluations showed that there are at least two distinct major genes determining tolerance to CPMMV, one in the soybean cultivar BRS 133 and another in the cultivar BRSMT Pintado, with predominance of additive genetic effects and heritability levels that allow for efficient selection based on early generation means. Embrapa Soja, Rodovia Carlos João Strass, s/n, acesso Orlando Amaral, CP 231, Distrito de Warta Universidade Estadual Paulista (UNESP), Campus de Botucatu, CP 237 Universidade de São Paulo Escola Superior de Agricultura Luiz de Queiroz, Agronomia, CP 9 Universidade Estadual Paulista (UNESP), Campus de Botucatu, CP 237

Published

2015

14. Herança da tolerância da soja ao Cowpea Mild Mottle Virus

Author

Álvaro M. R. Almeida, Tatiana Mituti, Carlos Alberto Arrabal Arias, and Elliot W. Kitajima

Subjects

Glycine max, CPMMV, lcsh:Biotechnology, Breeding, lcsh:Plant culture, Biology, Plant disease resistance, Melhoramento, virus tolerance, Cowpea mild mottle virus, lcsh:TP248.13-248.65, Plant virus, gene de tolerância, tolerância a vírus, tolerance gene, Additive genetic effects, lcsh:SB1-1110, Cultivar, General Environmental Science, Early generation, fungi, Inheritance (genetic algorithm), food and beverages, Heritability, biology.organism_classification, Agronomy, General Earth and Planetary Sciences, MELHORAMENTO GENÉTICO VEGETAL

Abstract

Soybean stem necrosis is caused by Cowpea mild mottle virus (CPMMV) and it has been recognized as an emerging and economically important disease in Brazil. No resistant, but only tolerant cultivars have been identified so far, and their genetic control is still unknown. To investigate the inheritance of soybean tolerance to CPMMV, two crosses between tolerant cultivars (BRS 133 x BRSMT Pintado), and between a susceptible (CD 206) and a tolerant cultivar (BRSMT Pintado) were carried out to obtain F2 and F2:3generations. Quantitative and qualitative analyses applied to the data from greenhouse evaluations showed that there are at least two distinct major genes determining tolerance to CPMMV, one in the soybean cultivar BRS 133 and another in the cultivar BRSMT Pintado, with predominance of additive genetic effects and heritability levels that allow for efficient selection based on early generation means. A necrose da haste em soja é causada pelo vírus Cowpea mild mottle virus (CPMMV) e é considerada uma doença emergente e economicamente importante no Brasil. Apenas cultivares tolerantes foram identificadas até o momento, e o controle genético da tolerância permanece desconhecido. Para estudar a herança da tolerância ao CPMMV foram realizados dois cruzamentos para obter as gerações F2 e F2:3, um entre duas cultivares tolerantes (BRS 133 x BRSMT Pintado) e outro entre uma cultivar suscetível (CD 206) e outra tolerante (BRSMT Pintado). Análises qualitativas e quantitativas aplicadas sobre os dados obtidos nas avaliações em casa-de-vegetação mostraram que existem pelo menos dois genes maiores distintos, um na cultivar de soja BRS 133 e outro na cultivar BRSMT Pintado, determinando a tolerância ao CPMMV. Houve predominância de efeitos genéticos aditivos e herdabilidade, que permite a seleção eficiente baseada em médias, mesmo nas primeiras gerações após o cruzamento.

Published

2015

15. Chromosomal rearrangements between tomato and Solanum chilense hamper mapping and breeding of the TYLCV resistance gene Ty-1

Author

Verlaan, M.G., Szinay, D., Hutton, S.F., de Jong, J.H., Kormelink, R.J.M., Visser, R.G.F., Scott, J.W., and Bai, Y.

Subjects

fish, disease, locus, EPS-2, fungi, Laboratory of Virology, food and beverages, Laboratorium voor Erfelijkheidsleer, 1st report, Laboratorium voor Virologie, bemisia-tabaci, Plant Breeding, Laboratorium voor Plantenveredeling, leaf-curl-virus, whitefly-transmitted geminiviruses, tolerance gene, potato, Laboratory of Genetics, reveals

Abstract

Tomato yellow leaf curl disease, a devastating disease of Solanum lycopersicum (tomato), is caused by a complex of begomoviruses generally referred to as Tomato yellow leaf curl virus (TYLCV). Almost all breeding for TYLCV resistance has been based on the introgression of the Ty-1 resistance locus derived from Solanum chilense LA1969. Knowledge about the exact location of Ty-1 on tomato chromosome 6 will help in understanding the genomic organization of the Ty-1 locus. In this study, we analyze the chromosomal rearrangement and recombination behavior of the chromosomal region where Ty-1 is introgressed. Nineteen markers on tomato chromosome 6 were used in F2 populations obtained from two commercial hybrids, and showed the presence of a large introgression in both. Fluorescence in situ hybridization (FISH) analysis revealed two chromosomal rearrangements between S. lycopersicum and S. chilense LA1969 in the Ty-1 introgression. Furthermore, a large-scale recombinant screening in the two F2 populations was performed, and 30 recombinants in the Ty-1 introgression were identified. All recombination events were located on the long arm beyond the inversions, showing that recombination in the inverted region was absent. Disease tests on progenies of informative recombinants with TYLCV mapped Ty-1 to the long arm between markers MSc05732-4 and MSc05732-14, an interval overlapping with the reported Ty-3 region, which led to the indication that Ty-1 and Ty-3 may be allelic. With this study we prove that FISH can be used as a diagnostic tool to aid in the accurate mapping of genes that were introgressed from wild species into cultivated tomato.

Published

2011

16. The Rpi-blb2 gene from Solanum bulbocastanum is a Mi-1 gene homolog conferring broadspectrum late blight resistance in potato

Author

van der Vossen, E.A.G., Gross, J., Sikkema, A., Muskens, M., Wouters, T.C.A.E., Wolters, P., Pereira, A.B., and Allefs, S.

Subjects

durable resistance, phytophthora-infestans, fungi, food and beverages, tomato, cell-death, PRI Biodiversity and Breeding, cultivated potato, disease-resistance, PRI Biodiversiteit en Veredeling, tolerance gene, iii effector, root-knot nematodes, virus-resistance

Abstract

The necessity to develop potato and tomato crops that possess durable resistance against the oomycete pathogen Phytophthora infestans is increasing as more virulent, crop-specialized and pesticide resistant strains of the pathogen are rapidly emerging. Here, we describe the positional cloning of the Solanum bulbocastanum-derived Rpi-blb2 gene, which even when present in a potato background confers broad-spectrum late blight resistance. The Rpi-blb2 locus was initially mapped in several tetraploid backcross populations, derived from highly resistant complex interspecific hybrids designated ABPT (an acronym of the four Solanum species involved:S. acaule, S. bulbocastanum, S. phureja and S. tuberosum), to the same region on chromosome 6 as the Mi-1 gene from tomato, which confers resistance to nematodes, aphids and white flies. Due to suppression of recombination in the tetraploid material, fine mapping was carried out in a diploid intraspecific S. bulbocastanum F1 population. Bacterial artificial chromosome (BAC) libraries, generated from a diploid ABPT-derived clone and from the resistant S. bulbocastanum parent clone, were screened with markers linked to resistance in order to generate a physical map of the Rpi-blb2 locus. Molecular analyses of both ABPT- and S. bulbocastanum¿derived BAC clones spanning the Rpi-blb2 locus showed it to harbor at least 15 Mi-1 gene homologs (MiGHs). Of these, five were genetically determined to be candidates for Rpi-blb2. Complementation analyses showed that one ABPT- and one S. bulbocastanum-derived MiGH were able to complement the susceptible phenotype in both S. tuberosum and tomato. Sequence analyses of both genes showed them to be identical. The Rpi-blb2 protein shares 82% sequence identity to the Mi-1 protein. Significant expansion of the Rpi-blb2 locus compared to the Mi-1 locus indicates that intrachromosomal recombination or unequal crossing over has played an important role in the evolution of the Rpi-blb2 locus. The contrasting evolutionary dynamics of the Rpi-blb2/Mi-1 loci in the two related genomes may reflect the opposite evolutionary potentials of the interacting pathogens

Published

2005

17. The central role of hydrogen sulfide in plant responses to toxic metal stress.

Author

He H, Li Y, and He LF

Subjects

Metals, Heavy analysis, Plant Leaves drug effects, Plant Leaves metabolism, Plant Roots drug effects, Plant Roots metabolism, Plants metabolism, Reactive Oxygen Species metabolism, Hydrogen Sulfide metabolism, Metals, Heavy toxicity, Plants drug effects, Stress, Physiological drug effects

Abstract

With the increase of industrial wastes, sewage irrigation, chemical fertilizers and pesticides, metal contamination is increasingly serious. How to reduce the environmental risk has become a compelling problem in cultivated land. As a gaseous signal molecule, hydrogen sulfide (H 2 S) is involved in multiple plant responses to toxic metal stress. Metal stress rapidly triggers endogenous H 2 S production and exogenous H 2 S alleviates metal toxicity in plants. To elucidate the role of H 2 S in metal tolerance, the physiological and molecular mechanisms of H 2 S in alleviating metal toxicity is necessary to be reviewed. Here, the latest progress on endogenous H 2 S metabolism and the role of H 2 S in plant responses to toxic metal stress were summarized and discussed. The mechanisms of exogenous H 2 S in alleviating metal toxicity is proposed., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018