Your search keyword '"endophytic microorganism"' showing total 20 results

1. Promoting salt tolerance, growth, and phytochemical responses in coriander (Coriandrum sativum L. cv. Balady) via eco-friendly Bacillus subtilis and cobalt.

Author

Brengi, Sary H., Moubarak, Maneea, El-Naggar, Hany M., and Osman, Amira R.

Subjects

*FACTORIAL experiment designs, *OSMOTIC potential of plants, *SALT tolerance in plants, *AROMATIC plants, *CORIANDER

Abstract

In plant production, evaluation of salt stress protectants concerning their potential to improve growth and productivity under saline stress is critical. Bacillus subtilis (Bs) and cobalt (Co) have been proposed to optimize salt stress tolerance in coriander (Coriandrum sativum L. cv. Balady) plants by influencing some physiological activities. The main aim of this work is to investigate the response of (Bs) and (Co) as eco-safe salt stress protectants to resist the effect of salinity, on growth, seed, and essential oil yield, and the most important biochemical constituents of coriander produced under salt stress condition. Therefore, in a split-plot factorial experiment design in the RCBD (randomized complete block design), four levels of salinity of NaCl irrigation water (SA) were assigned to the main plots; (0.5, 1.5, 4, and 6 dS m−1); and six salt stress protectants (SP) were randomly assigned to the subplots: distilled water; 15 ppm (Co1); 30 ppm (Co2); (Bs); (Co1 + Bs); (Co2 + Bs). The study concluded that increasing SA significantly reduced coriander growth and yield by 42.6%, which could be attributed to ion toxicity, oxidative stress, or decreased vital element content. From the results, we recommend that applying Bs with Co (30 ppm) was critical for significantly improving overall growth parameters. This was determined by the significant reduction in the activity of reactive oxygen species scavenging enzymes: superoxide dismutase (SOD), catalase (CAT), and malondialdehyde (MDA) and non-enzyme: proline by 5, 11.3, 14.7, and 13.8% respectively, while increasing ascorbic acid by 8% and preserving vital nutrient levels and enhancing plant osmotic potential to buffer salt stress, seed yield per plant, and essential oil yield increased by 12.6 and 18.8% respectively. The quality of essential oil was indicated by highly significant quantities of vital biological phytochemicals such as linalool, camphor, and protein which increased by 10.3, 3.6, and 9.39% respectively. Additional research is suggested to determine the precise mechanism of action of Bs and Co's dual impact on medicinal and aromatic plant salt stress tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Promoting salt tolerance, growth, and phytochemical responses in coriander (Coriandrum sativum L. cv. Balady) via eco-friendly Bacillus subtilis and cobalt

Author

Sary H. Brengi, Maneea Moubarak, Hany M. El-Naggar, and Amira R. Osman

Subjects

Endophytic microorganism, Micronutrient of cobalamin, Medicinal and aromatic plant, Oxidative stress, Salinity, Botany, QK1-989

Abstract

Abstract In plant production, evaluation of salt stress protectants concerning their potential to improve growth and productivity under saline stress is critical. Bacillus subtilis (Bs) and cobalt (Co) have been proposed to optimize salt stress tolerance in coriander (Coriandrum sativum L. cv. Balady) plants by influencing some physiological activities. The main aim of this work is to investigate the response of (Bs) and (Co) as eco-safe salt stress protectants to resist the effect of salinity, on growth, seed, and essential oil yield, and the most important biochemical constituents of coriander produced under salt stress condition. Therefore, in a split-plot factorial experiment design in the RCBD (randomized complete block design), four levels of salinity of NaCl irrigation water (SA) were assigned to the main plots; (0.5, 1.5, 4, and 6 dS m−1); and six salt stress protectants (SP) were randomly assigned to the subplots: distilled water; 15 ppm (Co1); 30 ppm (Co2); (Bs); (Co1 + Bs); (Co2 + Bs). The study concluded that increasing SA significantly reduced coriander growth and yield by 42.6%, which could be attributed to ion toxicity, oxidative stress, or decreased vital element content. From the results, we recommend that applying Bs with Co (30 ppm) was critical for significantly improving overall growth parameters. This was determined by the significant reduction in the activity of reactive oxygen species scavenging enzymes: superoxide dismutase (SOD), catalase (CAT), and malondialdehyde (MDA) and non-enzyme: proline by 5, 11.3, 14.7, and 13.8% respectively, while increasing ascorbic acid by 8% and preserving vital nutrient levels and enhancing plant osmotic potential to buffer salt stress, seed yield per plant, and essential oil yield increased by 12.6 and 18.8% respectively. The quality of essential oil was indicated by highly significant quantities of vital biological phytochemicals such as linalool, camphor, and protein which increased by 10.3, 3.6, and 9.39% respectively. Additional research is suggested to determine the precise mechanism of action of Bs and Co's dual impact on medicinal and aromatic plant salt stress tolerance.

Published

2024

3. Influence of weeding methods on rhizosphere soil and root endophytic microbial communities in tea plants.

Author

Yuxiao Yan, Conglian Wang, Renyuan Wan, Shuang Li, Yanfen Yang, Caiyou Lv, Yongmei Li, and Guangrong Yang

Subjects

BACTERIAL communities, PLANT communities, MICROBIAL communities, RHIZOSPHERE, NITROGEN in soils, PLASTIC mulching, ENVIRONMENTAL soil science, POTASSIUM

Abstract

Introduction: Polyethylene mulch is a kind of inorganic mulch widely used in agriculture. The effects of plastic mulch debris on the structure of plant soil and root growth have been fully studied, but their effects on endophytic microbial communities have not been explored to a large extent. Methods: In this study, High-throughput sequencing of bacterial 16S rRNA genes and fungal ITS region sequences were used to analyze microbial community structure and composition in rhizosphere soil and root endophytic of tea plant under three different weeding methods: polyethylene mulching, hand weeding and no weeding (CK). Results: The results showed that the weeding methods had no significant effect on the rhizosphere and root endophytic microbial abundance, but the rhizosphere bacterial structure covered by polyethylene mulch was significantly different than hand weeding and CK. The rhizosphere fungal diversity was also significantly higher than the other two analyzed treatments. The community abundance of rhizosphere microorganisms Acidobacteria, Candidatus Rokubacteria and Aspergillus covered by polyethylene mulch decreased significantly, whereas Bradyrhizobium, Solirubrobacterales and Alphaproteobacteria increased significantly. The abundance of bacteria Ktedonobacter, Reticulibacter, Ktedonosporobacter and Dictyobacter communities covered by polyethylene mulch was significantly changed, and the abundance of Fusarium and Nitrobacteraceae was significantly increased. Rhizosphere dominant bacteria were negatively correlated with soil available nitrogen content, while dominant fungi were significantly correlated with soil pH, total nitrogen and total potassium. Discussion: Polyethylene mulch forms an independent micro-ecological environment. At the same time, the soil nutrient environment was enriched by affecting the nitrogen cycle, and the composition of microbial community was affected. This study elucidated the effects of polyethylene mulch on soil microbial community in tea garden and provided a new theoretical understanding for weed management. [ABSTRACT FROM AUTHOR]

Published

2024

4. Changes of endophytic microbial community in Rhododendron simsii roots under heat stress and its correlation with leaf physiological indicators.

Author

Wei Lin, Lei Liu, Jincheng Liang, Xuexiao Tang, Jie Shi, Li Zhang, Purui Wu, Siren Lan, Shusheng Wang, Yan Zhou, XiaoChou Chen, Ying Zhao, Xiang Chen, Binghua Wu, and Lijin Guo

Subjects

RHODODENDRONS, MICROBIAL communities, HYDROGEN peroxide, PEROXIDASE, CHLOROPHYLL, PROLINE

Abstract

Introduction: The response mechanism of Rhododendron simsii and its endophytic microorganism to heat stress is still unclear. Methods: The light incubator was used to set the temperature gradients, and the control (CK) was (day/night: 14/10 h) 25/22°C, the moderate-heat-stress (MHS) was 35/30°C and the high-heat-stress (HHS) was 40/35°C. Results: Compared with CK, MHS significantly increased the contents of malondialdehyde, hydrogen peroxide, proline, and soluble sugar, as well as the activities of catalase and peroxidase in leaf, while HHS increased the activities of ascorbate peroxidase, and decreased chlorophyll content. Compared with CK, MHS reduced soil available nitrogen (N) content. Both heat stress changed the endophytic microbial community structure in roots. MHS enriched Pezicula and Paracoccus, while HHS significantly enriched Acidothermus and Haliangium. The abundance of Pezicula positively correlated with the contents of chlorophyll a and proline in leaf, and negatively correlated with soil ammonium N content. The abundance of Pezicula and Haliangium positively correlated with soluble sugar and malondialdehyde contents, respectively. Conclusions: Our results suggest that root endophytic microorganisms play an important role in helping Rhododendron resisting heat stress, mainly by regulating soil N content and plant physiological characteristics. [ABSTRACT FROM AUTHOR]

Published

2022

5. Diversity of endophytic bacterial and fungal microbiota associated with the medicinal lichen Usnea longissima at high altitudes.

Author

Qi Wang, Jun Li, Jie Yang, Yue Zou, and Xin-Qing Zhao

Subjects

BACTERIAL diversity, LACTIC acid bacteria, ALTITUDES, ENDOPHYTIC bacteria, LICHENS, MICROBIAL diversity, ENDOPHYTIC fungi

Abstract

Endophytic microbial communities of lichen are emerging as novel microbial resources and for exploration of potential biotechnological applications. Here, we focused on a medicinal lichen Usnea longissima, and investigated its bacterial and fungal endophytes. Using PacBio 16S rRNA and ITS amplicon sequencing, we explored the diversity and composition of endophytic bacteria and fungi in U. longissima collected from Tibet at five altitudes ranging from 2,989 to 4,048 m. A total of 6 phyla, 12 classes, 44 genera, and 13 species of the bacterial community have been identified in U. longissima. Most members belong to Alphaproteobacteria (42.59%), Betaproteobacteria (33.84%), Clostridia (13.59%), Acidobacteria (7%), and Bacilli (1.69%). As for the fungal community, excluding the obligate fungus sequences, we identified 2 phyla, 15 classes, 65 genera, and 19 species. Lichen-related fungi of U. longissima mainly came from Ascomycota (95%), Basidiomycota (2.69%), and unidentified phyla (2.5%). The presence of the sequences that have not been characterized before suggests the novelty of the microbiota. Of particular interest is the detection of sequences related to lactic acid bacteria and budding yeast. In addition, the possible existence of harmful bacteria was also discussed. To our best knowledge, this is the first relatively detailed study on the endophytic microbiota associated with U. longissima. The results here provide the basis for further exploration of the microbial diversity in lichen and promote biotechnological applications of lichen-associated microbial strains. [ABSTRACT FROM AUTHOR]

Published

2022

6. Microbial regulation of plant secondary metabolites: Impact, mechanisms and prospects.

Author

Lv, Jiayan, Yang, Shuangyu, Zhou, Wei, Liu, Zhongwang, Tan, Jinfang, and Wei, Mi

Subjects

*PLANT metabolites, *METABOLITES, *SECONDARY metabolism, *BIOSYNTHESIS, *PLANT metabolism

Abstract

Plant secondary metabolites possess a wide range of pharmacological activities and play crucial biological roles. They serve as both a defense response during pathogen attack and a valuable drug resource. The role of microorganisms in the regulation of plant secondary metabolism has been widely recognized. The addition of specific microorganisms can increase the synthesis of secondary metabolites, and their beneficial effects depend on environmental factors and plant-related microorganisms. This article summarizes the impact and regulatory mechanisms of different microorganisms on the main secondary metabolic products of plants. We emphasize the mechanisms by which microorganisms regulate hormone levels, nutrient absorption, the supply of precursor substances, and enzyme and gene expression to promote the accumulation of plant secondary metabolites. In addition, the possible negative feedback regulation of microorganisms is discussed. The identification of additional unknown microbes and other driving factors affecting plant secondary metabolism is essential. The prospects for further analysis of medicinal plant genomes and the establishment of a genetic operation system for plant secondary metabolism research are proposed. This study provides new ideas for the use of microbial resources for biological synthesis research and the improvement of crop anti-inverse traits for the use of microbial resources. • The impact of microorganisms on plant secondary metabolites (PSMs) was summarized. • The main regulatory mechanisms of microorganisms on PSMs were highlighted. • Bacillus , Pseudomonas , and Glomus are most studied for PSMs regulation. • Photosynthesis is pivotal in regulating PSMs. • Challenges and outlooks in this area are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

7. Draft genome sequence of Bacillus amyloliquefaciens subsp. plantarum strain Fito_F321, an endophyte microorganism from Vitis vinifera with biocontrol potential

Author

Cátia Pinto, Susana Sousa, Hugo Froufe, Conceição Egas, Christophe Clément, Florence Fontaine, and Ana C Gomes

Subjects

Genome sequencing, Bacillus amyloliquefaciens subsp. plantarum, Fito_F321 strain, Grapevine-associated microorganism, Biocontrol, Endophytic microorganism, Genetics, QH426-470

Abstract

Abstract Bacillus amyloliquefaciens subsp. plantarum strain Fito_F321 is a naturally occurring strain in vineyard, with the ability to colonise grapevine and which unveils a naturally antagonistic potential against phytopathogens of grapevine, including those responsible for the Botryosphaeria dieback, a GTD disease. Herein we report the draft genome sequence of B. amyloliquefaciens subsp. plantarum Fito_F321, isolated from the leaf of Vitis vinifera cv. Merlot at Bairrada appellation (Cantanhede, Portugal). The genome size is 3,856,229 bp, with a GC content of 46.54% that contains 3697 protein-coding genes, 86 tRNA coding genes and 5 rRNA genes. The draft genome of strain Fito_F321 allowed to predict a set of bioactive compounds as bacillaene, difficidin, macrolactin, surfactin and fengycin that due to their antimicrobial activity are hypothesized to be of utmost importance for biocontrol of grapevine diseases.

Published

2018

8. Bioprospecting for Bioactive Actinomycetes from Patagonia

Author

Gurovic, María Soledad Vela, Olivera, Nelda Lila, editor, Libkind, Diego, editor, and Donati, Edgardo, editor

Published

2016

9. Influence of weeding methods on rhizosphere soil and root endophytic microbial communities in tea plants.

Author

Yan Y, Wang C, Wan R, Li S, Yang Y, Lv C, Li Y, and Yang G

Abstract

Introduction: Polyethylene mulch is a kind of inorganic mulch widely used in agriculture. The effects of plastic mulch debris on the structure of plant soil and root growth have been fully studied, but their effects on endophytic microbial communities have not been explored to a large extent., Methods: In this study, High-throughput sequencing of bacterial 16S rRNA genes and fungal ITS region sequences were used to analyze microbial community structure and composition in rhizosphere soil and root endophytic of tea plant under three different weeding methods: polyethylene mulching, hand weeding and no weeding (CK)., Results: The results showed that the weeding methods had no significant effect on the rhizosphere and root endophytic microbial abundance, but the rhizosphere bacterial structure covered by polyethylene mulch was significantly different than hand weeding and CK. The rhizosphere fungal diversity was also significantly higher than the other two analyzed treatments. The community abundance of rhizosphere microorganisms Acidobacteria, Candidatus Rokubacteria and Aspergillus covered by polyethylene mulch decreased significantly, whereas Bradyrhizobium , Solirubrobacterales and Alphaproteobacteria increased significantly. The abundance of bacteria Ktedonobacter , Reticulibacter , Ktedonosporobacter and Dictyobacter communities covered by polyethylene mulch was significantly changed, and the abundance of Fusarium and Nitrobacteraceae was significantly increased. Rhizosphere dominant bacteria were negatively correlated with soil available nitrogen content, while dominant fungi were significantly correlated with soil pH, total nitrogen and total potassium., Discussion: Polyethylene mulch forms an independent micro-ecological environment. At the same time, the soil nutrient environment was enriched by affecting the nitrogen cycle, and the composition of microbial community was affected. This study elucidated the effects of polyethylene mulch on soil microbial community in tea garden and provided a new theoretical understanding for weed management., Competing Interests: 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., (Copyright © 2024 Yan, Wand, Wan, Li, Yang, Lv, Li and Yang.)

Published

2024

10. BACTERIAL ENDOPHYTES FROM POPLAR IN THE CONDITIONS OF ARKHAGELSK.

Author

Tyukavina, Olga, Odintsova, Alena, Yunitsyna, Olesya, and Kisil, Oksana

Subjects

*ENDOPHYTES, *ENDOSYMBIOSIS, *PLANT ecology, *WOOD, *PATHOGENIC microorganisms

Abstract

Endophytic bacteria can improve the growth and development of plants, and also prevent the growth or activity of plant pathogens, reduce the aggressiveness or causative agent. Endophyte bacteria can be specific depending on the host. The properties of the microorganisms colonizing tissues of various plants can vary greatly. Therefore, the study of endophytes present in plants is of great interest because of their possible subsequent use in order to increase the productivity of plants and protect them from pathogens. The aim of the work is to isolate and characterize endophytic bacteria from laurel poplar wood and fragrant poplar wood. By sowing on nutrient media 4 isolates were isolated from the wood of the laurel poplar, and 2 isolates of endophytic microorganisms were isolated from the poplar of the fragrant. Endophytic bacteria belonging to the genus Staphylococcus, Bacillus, Lysinibacillus, Brenneria were isolated in the laurel poplar, and bacteria belonging to the genus Bacillus, Brenneria were isolated in the fragrant poplar. Endophytic bacteria belonging to the genus Staphylococcus, Bacillus, Lysinibacillus are economically useful. [ABSTRACT FROM AUTHOR]

Published

2018

11. Genetic Diversity of Microbial Endophytes and Their Biotechnical Applications

Author

Strobel, Gary, Nelson, Karen E., editor, and Jones-Nelson, Barbara, editor

Published

2012

12. Problems in tissue culture: culture contamination

Author

Cassells, A. C., Debergh, P. C., editor, and Zimmerman, R. H., editor

Published

1991

13. Changes of endophytic microbial community in Rhododendron simsii roots under heat stress and its correlation with leaf physiological indicators.

Author

Lin W, Liu L, Liang J, Tang X, Shi J, Zhang L, Wu P, Lan S, Wang S, Zhou Y, Chen X, Zhao Y, Chen X, Wu B, and Guo L

Abstract

Introduction: The response mechanism of Rhododendron simsii and its endophytic microorganism to heat stress is still unclear., Methods: The light incubator was used to set the temperature gradients, and the control (CK) was (day/night: 14/10 h) 25/22°C, the moderate-heat-stress (MHS) was 35/30°C and the high-heat-stress (HHS) was 40/35°C., Results: Compared with CK, MHS significantly increased the contents of malondialdehyde, hydrogen peroxide, proline, and soluble sugar, as well as the activities of catalase and peroxidase in leaf, while HHS increased the activities of ascorbate peroxidase, and decreased chlorophyll content. Compared with CK, MHS reduced soil available nitrogen (N) content. Both heat stress changed the endophytic microbial community structure in roots. MHS enriched Pezicula and Paracoccus, while HHS significantly enriched Acidothermus and Haliangium. The abundance of Pezicula positively correlated with the contents of chlorophyll a and proline in leaf, and negatively correlated with soil ammonium N content. The abundance of Pezicula and Haliangium positively correlated with soluble sugar and malondialdehyde contents, respectively., Conclusions: Our results suggest that root endophytic microorganisms play an important role in helping Rhododendron resisting heat stress, mainly by regulating soil N content and plant physiological characteristics., Competing Interests: 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., (Copyright © 2022 Lin, Liu, Liang, Tang, Shi, Zhang, Wu, Lan, Wang, Zhou, Chen, Zhao, Chen, Wu and Guo.)

Published

2022

14. Diversity of endophytic bacterial and fungal microbiota associated with the medicinal lichen Usnea longissima at high altitudes.

Author

Wang Q, Li J, Yang J, Zou Y, and Zhao XQ

Abstract

Endophytic microbial communities of lichen are emerging as novel microbial resources and for exploration of potential biotechnological applications. Here, we focused on a medicinal lichen Usnea longissima , and investigated its bacterial and fungal endophytes. Using PacBio 16S rRNA and ITS amplicon sequencing, we explored the diversity and composition of endophytic bacteria and fungi in U. longissima collected from Tibet at five altitudes ranging from 2,989 to 4,048 m. A total of 6 phyla, 12 classes, 44 genera, and 13 species of the bacterial community have been identified in U. longissima . Most members belong to Alphaproteobacteria (42.59%), Betaproteobacteria (33.84%), Clostridia (13.59%), Acidobacteria (7%), and Bacilli (1.69%). As for the fungal community, excluding the obligate fungus sequences, we identified 2 phyla, 15 classes, 65 genera, and 19 species. Lichen-related fungi of U. longissima mainly came from Ascomycota (95%), Basidiomycota (2.69%), and unidentified phyla (2.5%). The presence of the sequences that have not been characterized before suggests the novelty of the microbiota. Of particular interest is the detection of sequences related to lactic acid bacteria and budding yeast. In addition, the possible existence of harmful bacteria was also discussed. To our best knowledge, this is the first relatively detailed study on the endophytic microbiota associated with U. longissima . The results here provide the basis for further exploration of the microbial diversity in lichen and promote biotechnological applications of lichen-associated microbial strains., Competing Interests: JL and YZ were employed by JALA Group Co., Ltd. The remaining 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., (Copyright © 2022 Wang, Li, Yang, Zou and Zhao.)

Published

2022

15. Draft genome sequence of Bacillus amyloliquefaciens subsp. plantarum strain Fito_F321, an endophyte microorganism from Vitis vinifera with biocontrol potential

Author

Pinto, Cátia, Sousa, Susana, Froufe, Hugo, Egas, Conceição, Clément, Christophe, Fontaine, Florence, and Gomes, Ana C

Published

2018

16. Draft genome sequence of Bacillus amyloliquefaciens subsp. plantarum strain Fito_F321, an endophyte microorganism from Vitis vinifera with biocontrol potential

Author

Ana C. Gomes, Susana Sousa, Cátia Pinto, Hugo J.C. Froufe, Conceição Egas, Christophe Clément, Florence Fontaine, Résistance Induite et Bioprotection des Plantes - EA 4707 (RIBP), Université de Reims Champagne-Ardenne (URCA)-SFR Condorcet, Université de Reims Champagne-Ardenne (URCA)-Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS)-Université de Reims Champagne-Ardenne (URCA)-Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS), SFR Condorcet, Université de Reims Champagne-Ardenne (URCA)-Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS), and Biocant

Subjects

0301 basic medicine, Bacillus amyloliquefaciens, lcsh:QH426-470, [SDV]Life Sciences [q-bio], 030106 microbiology, Grapevine-associated microorganism, Genome sequencing, Endophyte, Genome, 03 medical and health sciences, Botany, Endophytic microorganism, Genetics, Extended Genome Report, Gene, Genome size, Botryosphaeria, 2. Zero hunger, Whole genome sequencing, Fito_F321 strain, biology, food and beverages, Biocontrol, Ribosomal RNA, biology.organism_classification, lcsh:Genetics, 030104 developmental biology, Bacillus amyloliquefaciens subsp. plantarum

Abstract

Bacillus amyloliquefaciens subsp. plantarum strain Fito_F321 is a naturally occurring strain in vineyard, with the ability to colonise grapevine and which unveils a naturally antagonistic potential against phytopathogens of grapevine, including those responsible for the Botryosphaeria dieback, a GTD disease. Herein we report the draft genome sequence of B. amyloliquefaciens subsp. plantarum Fito_F321, isolated from the leaf of Vitis vinifera cv. Merlot at Bairrada appellation (Cantanhede, Portugal). The genome size is 3,856,229 bp, with a GC content of 46.54% that contains 3697 protein-coding genes, 86 tRNA coding genes and 5 rRNA genes. The draft genome of strain Fito_F321 allowed to predict a set of bioactive compounds as bacillaene, difficidin, macrolactin, surfactin and fengycin that due to their antimicrobial activity are hypothesized to be of utmost importance for biocontrol of grapevine diseases. Electronic supplementary material The online version of this article (10.1186/s40793-018-0327-x) contains supplementary material, which is available to authorized users.

Published

2018

17. Genetic Diversity of Microbial Endophytes and Their Biotechnical Applications

Author

Strobel, Gary

Subjects

Bioactive Natural Product, Endophytic Fungus, Natural Product, Endophytic Microorganism, Active Natural Product, Article

Abstract

The need for new and useful compounds and biological processes to provide assistance and relief in all aspects of the human condition is ever growing. Drug resistance in bacteria, the appearance of life-threatening viruses, and a tremendous increase in the incidence of fungal and drug-resistant bacterial infections in the world’s population, each only underscores our inadequacy to cope with these medical problems. Added to this are enormous difficulties in raising enough food on certain areas of the earth to support local human populations. Environmental degradation, loss of biodiversity, and spoilage of land and water also add to problems facing mankind. In addition, there is the need for bio-derived fuels to supplant the ever-growing demand for petroleum and petroleum products.

Published

2011

18. Colonization of rice and Spodoptera frugiperda J.E. Smith (Lepidoptera: Noctuidae) larvae by genetically modified endophytic Methylobacterium mesophilicum

Author

Rampelotti-Ferreira,Fátima T, Ferreira,Anderson, Vendramim,José D, Lacava,Paulo T, Azevedo,João L, and Araújo,Welington L

Subjects

animal structures, Insecta, parasitic diseases, fungi, food and beverages, endophytic microorganism, Oryza sativa

Abstract

The colonization of Spodoptera frugiperda J.E. Smith larvae and rice seedlings by genetically modified endophytic bacterium Methylobacterium mesophilicum, and also the possible transfer of this bacterium to inside the larva's body during seedlings consumption were studied. The data obtained by bacterial reisolation and fluorescence microscopy showed that the bacterium colonized the rice seedlings, the larva's body and that the endophytic bacteria present in seedlings could be acquired by the larvae. In that way, the transference of endophytic bacterium from plants to insect can be a new and important strategy to insect control using engineered microorganisms.

Published

2010

19. Biodegradação do herbicida mesotrione por linhagens bacterianas isoladas de folhas de milho

Author

Schoveigert, Karin Cristina, Silveira, Rafael Bertoni da, Soares, Maria Albertina de Miranda, and Appel, Marcia Helena

Subjects

milho, biodegradação, epiphytc microorganism, endophytic microorganism, microrganismos endofíticos, microrganismos epifíticos, maize, mesotrione, biodegradation, CIENCIAS BIOLOGICAS::BIOQUIMICA::BIOLOGIA MOLECULAR [CNPQ]

Abstract

Made available in DSpace on 2017-07-21T19:59:48Z (GMT). No. of bitstreams: 1 Karin Cristina.pdf: 1779954 bytes, checksum: fa7540fc1601cdb177d071d632782f2e (MD5) Previous issue date: 2009-10-05 Conselho Nacional de Desenvolvimento Científico e Tecnológico Chemical fertilizers and pesticides have become an important part of modern agriculture. The use of these chemical brought great benefits but also created new problems, such as disposal after use, persistence over time and accumulation in the environment, resulting significant bad consequences to public health and adverse impact on ecosystems. Maize culture deserves attention because the large amount of herbicides used. Mesotrione is a new selective herbicide developed for use in maize culture. Due it has not been used for a long time, there is little information available on the ecotoxicological risk. Only two mesotrione-degrading strains, from soil and water, both the genus Bacillus, were isolated and identified. The aim of this study was to isolate and characterize endophytic and epiphytic bacterial strains collected from maize leaves, able to biodegrade the herbicide mesotrione. Samples were collected in maize planting variety Penta without treatment with mesotrione and maize planting variety DKB 234 treated with mesotrione, at Fazenda Escola Capão da Onça, Ponta Grossa, PR. The microorganisms were isolated and cultured in mineral medium supplemented with mesotrione as sole carbon source. Of the twenty samples were isolated 347 tolerant and/or mesotrione-degrading strains. These were selected in increasing concentrations of the herbicide and had their degradation capability evalueted by VIS spectrophotometry. Ten strains were able to grow in the presence of high concentrations of mesotrione. Of these, 9 strains (7 epiphytic and 2 endophytic) were isolated from maize variety Penta without treatment with mesotrione and only 1 epiphytic strain was isolated from maize variety DKB 234 treated with mesotrione. Five strains had the ability to degrade the herbicide confirmed. One strain was identified as Acinetobacter baumanii and other as Micrococcus luteus. Just M. luteus is an endophytic strain, the others are maize epiphytics. Four mesotrione-degrading strains were isolated from maize untreated with mesotrione, only one strain of Gram-negative bacilli non fermenter was isolated from maize treated with the herbicide. The growth in high concentration of the strains that didn’t have the mesotrione degradation capability detected by spectrophotometry indicates the possibility of these strains degrade this herbicide when in association with other microorganisms consortia in the environment. The real quantitative capability of mesotrione degradation by the strains recorded by spectrophotometry may be underestimated due to the accumulation of degradation products which have the same wavelength as the mesotrione. This study reports the first isolation and characterization of mesotrione degrading strains endophytic and epiphytic from maize. Os adubos químicos e pesticidas tornaram-se parte integral da agricultura moderna. O emprego destas substâncias químicas trouxe grandes vantagens, mas também criou novos problemas, como a eliminação após o uso, a persistência ao longo do tempo e o acúmulo no ambiente, acarretando conseqüências adversas consideráveis à saúde pública e um impacto negativo nos ecossistemas. A cultura do milho merece atenção pela elevada quantidade de herbicidas usados. O mesotrione é um novo herbicida seletivo utilizado na cultura do milho. Devido sua introdução recente, há pouca informação referente ao risco ecotoxicológico do mesotrione e de seus produtos de degradação. Apenas duas linhagens bacterianas do gênero Bacillus, degradadoras do mesotrione, provenientes do solo e da água, já foram isoladas e identificadas. O objetivo deste estudo foi isolar e caracterizar linhagens bacterianas endofíticas e epifíticas, isoladas das folhas de milho, com capacidade de biodegradar o herbicida mesotrione. As coletas foram realizadas em plantação de milho variedade Penta sem tratamento com o herbicida mesotrione e em plantação de milho variedade DKB 234 com tratamento com o herbicida, na Fazenda Escola Capão da Onça, Ponta Grossa, PR. Os microrganismos foram isolados e cultivados em meio mineral com mesotrione como única fonte de carbono. Das vinte coletas foram isoladas 347 linhagens bacterianas tolerantes e/ou degradadoras. Estas foram selecionadas em concentrações crescentes do herbicida e tiveram sua capacidade de degradação investigada por espectrofotometria visível. Dez linhagens capazes de crescer na presença de altas concentrações do herbicida foram avaliadas. Destas, 9 linhagens (7 epifíticas e 2 endofíticas) foram isoladas de milho variedade Penta sem tratamento com o herbicida mesotrione e 1 foi isolada de milho variedade DKB 234 com tratamento com mesotrione. Cinco linhagens tiveram a capacidade de degradar o herbicida comprovada. Uma linhagem foi identificada como Acinetobacter baumannii e outra como Micrococcus luteus. Somente Micrococcus luteus é uma linhagem endofítica, sendo as demais epifíticas do milho. Quatro linhagens degradadoras foram isoladas de plantação de milho sem tratamento prévio com mesotrione; apenas uma linhagem de bacilo Gram-negativo não fermentador foi isolada de plantação sob tratamento com o herbicida. O crescimento, em alta concentração, das linhagens que não tiveram a capacidade de degradação do mesotrione detectada pela espectrofotometria indica a possibilidade destas linhagens participarem da degradação deste herbicida quando associadas com outros microrganismos em consórcios no ambiente. A capacidade quantitativa real de degradação do mesotrione pelas linhagens investigadas registrada pela espectrofotometria pode estar subestimada devido ao acúmulo dos produtos de degradação que possuem o mesmo comprimento de onda no espectro de absorção que a molécula de mesotrione. Este trabalho é o primeiro relato de isolamento de linhagens bacterianas degradadoras do herbicida mesotrione epifíticas e endofíticas de milho.

Published

2009

20. Cytotoxic Effects and Production of Cytokines Induced by the Endophytic Paenibacillus polymyxa RNC-D In Vitro.

Author

Neris DM, Luna GLF, de Almeida Rodolpho JM, Urbaczek AC, de Oliveira Correia R, Feitosa KA, Serrano NFG, de Sousa CP, and de Freitas Anibal F

Subjects

Animals, BALB 3T3 Cells, Biological Products isolation & purification, Cell Culture Techniques, Cell Survival drug effects, Dose-Response Relationship, Drug, Interleukin-10 biosynthesis, Interleukin-12 biosynthesis, Macrophages immunology, Mice, Tumor Necrosis Factor-alpha biosynthesis, Apoptosis drug effects, Biological Products pharmacology, Cytokines biosynthesis, Endophytes metabolism, Macrophages drug effects, Paenibacillus polymyxa metabolism

Abstract

Background: Prominent among all the organisms that have a potential value for the production of new medicines, are endophytes, fungi and bacteria that live inside plants without harming them. In this study, a total lyophilized extract (TLE) of Paenibacillus polymyxa RNC-D was used. The P. polymyxa lineages are known for their capacity to segregate a large number of extracellular enzymes and bioactive substances., Methods: The TLE of Paenibacillus polymyxa RNC-D was tested in cell viability assays for cytotoxicity and cytokine production in BALB/3T3 and J774A.1 cell lineages., Results: A 50% mortality rate of fibroblasts (BALB/3T3) was observed in the 1.171±0.161 mg/mL and 0.956±0.112 mg/mL doses after 48 and 72 hours, respectively, as well as a 50% mortality rate of macrophage cells (J774A.1) in the 0.994±0.170 mg/mL and 0.945±0.280 mg/mL doses after 48 and 72 hours, respectively. The ≈1 mg/mL concentration significantly affected the kinetic of growth in all the measured periods. The extract induced apoptosis and necrosis 24 hours after the ≈1 mg/mL concentration in both tested lineages. The treatment with the ≈1 mg/mL concentration led to the production of TNF-α and IFN-γ cytokines in 24 hours. IL-12 and IL-10 began to be detected as a result of the treatment with 0.1 mg/mL. However, with the 0.5 mg/mL dose in 24 hours, a significant reduction in IL-10 was observed., Conclusion: Our data suggest that the TLE of P. polymyxa RNC-D modulated the production of cytokines with different patterns of immune response in a dose-dependent way., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published

2017