Your search keyword '"Rilling JI"' showing total 14 results

1. Persistence and pathway of glyphosate degradation in the coastal wetland soil of central Delaware.

Author

Moller SR, Campos MA, Rilling JI, Bakkour R, Hollenback AJ, Jorquera MA, and Jaisi DP

Subjects

Delaware, Biodegradation, Environmental, Isoxazoles metabolism, Lyases metabolism, Lyases genetics, Organophosphonates metabolism, Tetrazoles, Glyphosate, Glycine analogs & derivatives, Glycine metabolism, Herbicides metabolism, Herbicides chemistry, Soil Pollutants metabolism, Wetlands, Soil Microbiology

Abstract

Glyphosate is a globally dominant herbicide. Here, we studied the degradation and microbial response to glyphosate application in a wetland soil in central Delaware for controlling invasive species (Phragmites australis). We applied a two-step solid-phase extraction method using molecularly imprinted polymers designed for the separation and enrichment of glyphosate and aminomethylphosphonic acid (AMPA) from soils before their analysis by ultra-high-performance liquid chromatography (UHPLC) and Q Exactive Orbitrap mass spectrometry methods. Our results showed that approximately 90 % of glyphosate degraded over 100 d after application, with AMPA being a minor (<10 %) product. Analysis of glyphosate-specific microbial genes to identify microbial response and function revealed that the expression of the phnJ gene, which codes C-P lyase enzyme, was consistently dominant over the gox gene, which codes glyphosate oxidoreductase enzyme, after glyphosate application. Both gene and concentration data independently suggested that C-P bond cleavage-which forms sarcosine or glycine-was the dominant degradation pathway. This is significant because AMPA, a more toxic product, is reported to be the preferred pathway of glyphosate degradation in other soil and natural environments. The degradation through a safer pathway is encouraging for minimizing the detrimental impacts of glyphosate on the environment., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Deb Jaisi reports financial support was provided by the University of Delaware., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Environmental evaluation of the Reloncaví estuary in southern Chile based on lipophilic shellfish toxins as related to harmful algal blooms.

Author

Fuenzalida G, Yarimizu K, Norambuena L, Fujiyoshi S, Perera IU, Rilling JI, Campos M, Ruiz-Gil T, Vilugrón J, Sandoval-Sanhueza A, Ortiz M, Espinoza-González O, Guzmán L, Acuña JJ, Jorquera MA, and Maruyama F

Subjects

Chile, Animals, Dinoflagellida, Harmful Algal Bloom, Estuaries, Environmental Monitoring, Marine Toxins analysis, Phytoplankton

Abstract

The Reloncaví estuary in southern Chile is famous for its aquaculture. However, recurring harmful algal blooms have adversely affected mussel production. Therefore, regular monitoring of algal toxins is urgently needed to better understand the contamination status of the estuary. In this study, we quantified 15 types of lipophilic shellfish toxins in Metri Bay in the Reloncaví estuary on a biweekly basis for 4 years. We identified algal species using microscopy and metabarcoding analysis. We also measured water temperature, salinity, chlorophyll-a, and dissolved oxygen to determine the potential relationships of these parameters with algal toxin production. Our results revealed the presence of a trace amount of pectenotoxin and the causal phytoplankton Dinophysis, as well as yessotoxin and the causal phytoplankton Protoceratium. Statistical analysis indicated that fluctuations in water temperature affected the detection of these toxins. Additionally, metabarcoding analysis detected the highly toxic phytoplankton Alexandrium spp. in some samples. Although our results suggest that the level of lipophilic shellfish toxins in Metri Bay during the study period was insignificantly low using our current LC-MS method, the confirmed presence of highly toxic algae in Metri Bay raises concerns, given that favorable environmental conditions could cause blooms., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

3. Identification of bacteria in potential mutualism with toxic Alexandrium catenella in Chilean Patagonian fjords by in vitro and field monitoring.

Author

Yarimizu K, Mardones JI, Paredes-Mella J, Perera IU, Fujiyoshi S, Fuenzalida G, Acuña JJ, Ruiz-Gil T, Campos M, Rilling JI, Calabrano Miranda P, Vilugrón J, Espinoza-González O, Guzmán L, Nagai S, Jorquera MA, and Maruyama F

Subjects

Chile, Bacteria genetics, Bacteria classification, Harmful Algal Bloom, Seawater microbiology, Phylogeny, RNA, Ribosomal, 18S genetics, Dinoflagellida genetics, Dinoflagellida physiology, RNA, Ribosomal, 16S genetics, Symbiosis

Abstract

The dinoflagellate Alexandrium catenella is a well-known paralytic shellfish toxin producer that forms harmful algal blooms, repeatedly causing damage to Chilean coastal waters. The causes and behavior of algal blooms are complex and vary across different regions. As bacterial interactions with algal species are increasingly recognized as a key factor driving algal blooms, the present study identifies several bacterial candidates potentially associated with Chilean Alexandrium catenella. This research narrowed down the selection of bacteria from the Chilean A. catenella culture using antibiotic treatment and 16S rRNA metabarcoding analysis. Subsequently, seawater from two Chilean coastal stations, Isla Julia and Isla San Pedro, was monitored for two years to detect Alexandrium species and the selected bacteria, utilizing 16S and 18S rRNA gene metabarcoding analyses. The results suggested a potential association between Alexandrium species and Spongiibacteraceae at both stations. The proposed candidate bacteria within the Spongiibacteraceae family, potentially engaging in mutualistic relationships with Alexandrium species, included the genus of BD1-7 clade, Spongiibbacter, and Zhongshania., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Yarimizu et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

4. Variovorax sp. strain P1R9 applied individually or as part of bacterial consortia enhances wheat germination under salt stress conditions.

Author

Acuña JJ, Rilling JI, Inostroza NG, Zhang Q, Wick LY, Sessitsch A, and Jorquera MA

Subjects

Salt Stress, Plant Development, Salt Tolerance, Triticum, Comamonadaceae, Magnesium, Radioisotopes

Abstract

Endophytes isolated from extremophile plants are interesting microbes for improving the stress tolerance of agricultural plants. Here, we isolated and characterized endophytic bacteria showing plant growth-promoting (PGP) traits from plants in two extreme Chilean biomes (Atacama Desert and Chilean Patagonia). Forty-two isolates were characterized as both halotolerant auxin producers (2-51 mg L -1 ) and 1-aminocyclopropane-1-carboxylate (ACC)-degrading bacteria (15-28 µmol αKB mg protein -1  h -1 ). The most efficient isolates were tested as single strains, in dual and triple consortia, or in combination with previously reported PGP rhizobacteria (Klebsiella sp. 27IJA and 8LJA) for their impact on the germination of salt-exposed (0.15 M and 0.25 M NaCl) wheat seeds. Interestingly, strain P1R9, identified as Variovorax sp., enhanced wheat germination under salt stress conditions when applied individually or as part of bacterial consortia. Under salt stress, plants inoculated with dual consortia containing the strain Variovorax sp. P1R9 showed higher biomass (41%) and reduced lipid peroxidation (33-56%) than uninoculated plants. Although the underlying mechanisms remain elusive, our data suggest that the application of Variovorax sp. P1R9, alone or as a member of PGP consortia, may improve the salt stress tolerance of wheat plants., (© 2024. The Author(s).)

Published

2024

5. Structure and Functional Properties of Bacterial Communities in Surface Sediments of the Recently Declared Nutrient-Saturated Lake Villarrica in Southern Chile.

Author

Campos MA, Zhang Q, Acuña JJ, Rilling JI, Ruiz T, Carrazana E, Reyno C, Hollenback A, Gray K, Jaisi DP, Ogram A, Bai J, Zhang L, Xiao R, Elias M, Sadowsky MJ, Hu J, and Jorquera MA

Subjects

Humans, Chile, Proteobacteria genetics, Genes, Bacterial, Bacteroidetes genetics, Geologic Sediments microbiology, Lakes microbiology, Bacteria genetics

Abstract

Lake Villarrica, one of Chile's main freshwater water bodies, was recently declared a nutrient-saturated lake due to increased phosphorus (P) and nitrogen (N) levels. Although a decontamination plan based on environmental parameters is being established, it does not consider microbial parameters. Here, we conducted high-throughput DNA sequencing and quantitative polymerase chain reaction (qPCR) analyses to reveal the structure and functional properties of bacterial communities in surface sediments collected from sites with contrasting anthropogenic pressures in Lake Villarrica. Alpha diversity revealed an elevated bacterial richness and diversity in the more anthropogenized sediments. The phylum Proteobacteria, Bacteroidetes, Acidobacteria, and Actinobacteria dominated the community. The principal coordinate analysis (PCoA) and redundancy analysis (RDA) showed significant differences in bacterial communities of sampling sites. Predicted functional analysis showed that N cycling functions (e.g., nitrification and denitrification) were significant. The microbial co-occurrence networks analysis suggested Chitinophagaceae, Caldilineaceae, Planctomycetaceae, and Phycisphaerae families as keystone taxa. Bacterial functional genes related to P (phoC, phoD, and phoX) and N (nifH and nosZ) cycling were detected in all samples by qPCR. In addition, an RDA related to N and P cycling revealed that physicochemical properties and functional genes were positively correlated with several nitrite-oxidizing, ammonia-oxidizing, and N-fixing bacterial genera. Finally, denitrifying gene (nosZ) was the most significant factor influencing the topological characteristics of co-occurrence networks and bacterial interactions. Our results represent one of a few approaches to elucidate the structure and role of bacterial communities in Chilean lake sediments, which might be helpful in conservation and decontamination plans., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

6. Monitoring bacterial composition and assemblage in the Gulf of Corcovado, southern Chile: Bacteria associated with harmful algae.

Author

Fujiyoshi S, Yarimizu K, Fuenzalida G, Campos M, Rilling JI, Acuña JJ, Miranda PC, Cascales EK, Perera I, Espinoza-González O, Guzmán L, Jorquera MA, and Maruyama F

Abstract

Harmful Algal Blooms (HABs) have caused damage to the marine environment in Isla San Pedro in the Gulf of Corcovado, Chile. While rising water temperature and artificial eutrophication are the most discussed topics as a cause, marine bacteria is a recent attractive parameter as an algal bloom driver. This study monitored algal and bacterial compositions in the water of Isla San Pedro for one year using microscopy and 16S rRNA metabarcoding analysis, along with physicochemical parameters. The collected data were analyzed with various statistical tools to understand how the particle-associated bacteria (PA) and the free-living (FL) bacteria were possibly involved in algal blooms. Both FL and PA fractions maintained a stable bacterial composition: the FL fraction was dominated by Proteobacteria (α-Proteobacteria and γ-Proteobacteria), and Cyanobacteria dominated the PA fraction. The two fractions contained equivalent bacterial taxonomic richness (c.a. 8,000 Operational Taxonomic Units) and shared more than 50% of OTU; however, roughly 20% was exclusive to each fraction. The four most abundant algal genera in the Isla San Pedro water were Thalassiosira, Skeletonema, Chaetoceros , and Pseudo-nitzchia . Statistical analysis identified that the bacterial species Polycyclovorans algicola was correlated with Pseudo-nitzschia spp., and our monitoring data recorded a sudden increase of particle-associated Polycyclovorans algicola shortly after the increase of Pseudo-nitzschia , suggesting that P. algicola may have regression effect on Pseudo-nitzschia spp. The study also investigated the physicochemical parameter effect on algal-bacterial interactions. Oxygen concentration and chlorophyll- a showed a strong correlation with both FL and PA bacteria despite their assemblage differences, suggesting that the two groups had different mechanisms for interacting with algal species., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Author(s).)

Published

2023

7. Spatiotemporal distributions and relationships of phosphorus content, phosphomonoesterase activity, and bacterial phosphomonoesterase genes in sediments from a eutrophic brackish water lake in Chile.

Author

Campos M, Acuña JJ, Rilling JI, González-González S, Peña-Cortés F, Jaisi DP, Hollenback A, Ogram A, Bai J, Zhang L, Xiao R, and Jorquera MA

Subjects

Chile, China, Environmental Monitoring methods, Eutrophication, Geologic Sediments, Phosphoric Monoester Hydrolases, Phosphorus analysis, Saline Waters, Lakes, Water Pollutants, Chemical analysis

Abstract

Phosphorus (P) cycling by microbial activity is highly relevant in the eutrophication of lakes. In this context, the contents of organic (P o ) and inorganic (P i ) phosphorus, the activity of acid (ACP) and alkaline (ALP) phosphomonoesterase (Pase), and the abundances of bacterial Pase genes (phoD, phoC, and phoX) were studied in sediments from Budi Lake, a eutrophic coastal brackish water lake in Chile. Our results showed spatiotemporal variations in P fractions, Pase activities, and Pase gene abundances. In general, our results showed higher contents of P i (110-144 mg kg -1 ), P o (512-576 mg kg -1 ), and total P (647-721 mg kg -1 ) in sediments from the more anthropogenized sampling sites in summer compared with those values of P i (86-127 mg kg -1 ), P o (363-491 mg kg -1 ) and total P (449-618 mg kg -1 ) in less anthropogenized sampling sites in winter. In concordance, sediments showed higher Pase activities (μg nitrophenyl phosphate g -1 h -1 ) in sediments from the more anthropogenized sampling sites (9.7-22.7 for ACP and 5.9 to 9.6 for ALP) compared with those observed in less anthropogenized sampling sites in winter (4.2-12.9 for ACP and 0.3 to 6.7 for ALP). Higher abundances (gene copy g -1 sediment) of phoC (8.5-19 × 10 8 ), phoD (9.2-47 × 10 6 ), and phoX (8.5-26 × 10 6 ) genes were also found in sediments from the more anthropogenized sampling sites in summer compared with those values of phoC (0.1-1.1 × 10 8 ), phoD (1.4-2.4 × 10 6 ) and phoX (0.7-1.2 × 10 6 ) genes in the less anthropogenized sites in winter. Our results also showed a positive correlation between P contents, Pase activities, and abundances of bacterial Pase genes, independent of seasonality. The present study provided information on the microbial activity involved in P cycling in sediments of Budi Lake, which may be used in further research as indicators for the monitoring of eutrophication of lakes., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

8. A Standardized Procedure for Monitoring Harmful Algal Blooms in Chile by Metabarcoding Analysis.

Author

Yarimizu K, Fujiyoshi S, Kawai M, Acuña JJ, Rilling JI, Campos M, Vilugrón J, Cameron H, Vergara K, Gajardo G, Espinoza-González O, Guzmán L, Nagai S, Riquelme C, Jorquera MA, and Maruyama F

Subjects

Chile, RNA, Ribosomal, 16S genetics, Aquaculture, Harmful Algal Bloom

Abstract

Harmful algae blooms (HABs) monitoring has been implemented worldwide, and Chile, a country famous for its fisheries and aquaculture, has intensively used microscopic and toxin analyses for decades for this purpose. Molecular biological methods, such as high-throughput DNA sequencing and bacterial assemblage-based approaches, are just beginning to be introduced in Chilean HAB monitoring, and the procedures have not yet been standardized. Here, 16S rRNA and 18S rRNA metabarcoding analyses for monitoring Chilean HABs are introduced stepwise. According to a recent hypothesis, algal-bacterial mutualistic association plays a critical synergetic or antagonistic relationship accounting for bloom initiation, maintenance, and regression. Thus, monitoring HAB from algal-bacterial perspectives may provide a broader understanding of HAB mechanisms and the basis for early warning. Metabarcoding analysis is one of the best suited molecular-based tools for this purpose because it can detect massive algal-bacterial taxonomic information in a sample. The visual procedures of sampling to metabarcoding analysis herein provide specific instructions, aiming to reduce errors and collection of reliable data.

Published

2021

9. CRISPR loci-PCR as Tool for Tracking Azospirillum sp. Strain B510.

Author

Rilling JI, Maruyama F, Sadowsky MJ, Acuña JJ, and Jorquera MA

Abstract

Azospirillum -based plant and soil inoculants are widely used in agriculture. The inoculated Azospirillum strains are commonly tracked by both culture-dependent and culture-independent methods, which are time-consuming or expensive. In this context, clustered regularly interspaced short palindromic repeats (CRISPR) loci structure is unique in the bacterial genome, including some Azospirillum species. Here, we investigated the use of CRISPR loci to track specific Azospirillum strains in soils systems by PCR. Primer sets for Azospirillum sp. strain B510 were designed and evaluated by colony and endpoint PCR. The CRISPR loci -PCR approach was standardized for Azospirillum sp. strain B510, and its specificity was observed by testing against 9 different Azospirillum strains, and 38 strains of diverse bacterial genera isolated from wheat plants. The CRISPR loci -PCR approach was validated in assays with substrate and wheat seedlings. Azospirillum sp. strain B510 was detected after of two weeks of inoculation in both sterile and nonsterile substrates as well as rhizosphere grown in sterile substrate. The CRISPR loci -PCR approach was found to be a useful molecular tool for specific tracking of Azospirillum at the strain level. This technique can be easily adapted to other microbial inoculants carrying CRISPR loci and can be used to complement other microbiological techniques.

Published

2021

10. Protocols for Monitoring Harmful Algal Blooms for Sustainable Aquaculture and Coastal Fisheries in Chile.

Author

Yarimizu K, Fujiyoshi S, Kawai M, Norambuena-Subiabre L, Cascales EK, Rilling JI, Vilugrón J, Cameron H, Vergara K, Morón-López J, Acuña JJ, Gajardo G, Espinoza-González O, Guzmán L, Jorquera MA, Nagai S, Pizarro G, Riquelme C, Ueki S, and Maruyama F

Subjects

Chile, Pilot Projects, Aquaculture, Ecosystem, Fisheries, Harmful Algal Bloom

Abstract

Harmful algae blooms (HABs) cause acute effects on marine ecosystems due to their production of endogenous toxins or their enormous biomass, leading to significant impacts on local economies and public health. Although HAB monitoring has been intensively performed at spatiotemporal scales in coastal areas of the world over the last decades, procedures have not yet been standardized. HAB monitoring procedures are complicated and consist of many methodologies, including physical, chemical, and biological water sample measurements. Each monitoring program currently uses different combinations of methodologies depending on site specific purposes, and many prior programs refer to the procedures in quotations. HAB monitoring programs in Chile have adopted the traditional microscopic and toxin analyses but not molecular biology and bacterial assemblage approaches. Here we select and optimize the HAB monitoring methodologies suitable for Chilean geography, emphasizing on metabarcoding analyses accompanied by the classical tools with considerations including cost, materials and instrument availability, and easiness and efficiency of performance. We present results from a pilot study using the standardized stepwise protocols, demonstrating feasibility and plausibility for sampling and analysis for the HAB monitoring. Such specific instructions in the standardized protocol are critical obtaining quality data under various research environments involving multiple stations, different analysts, various time-points, and long HAB monitoring duration.

Published

2020

11. Putative Nitrogen-Fixing Bacteria Associated With the Rhizosphere and Root Endosphere of Wheat Plants Grown in an Andisol From Southern Chile.

Author

Rilling JI, Acuña JJ, Sadowsky MJ, and Jorquera MA

Abstract

Acidic ash derived volcanic soils (Andisols) support 50% of cereal production in Chile. Nitrogen (N) is essential for cereal crops and commonly added as urea with consequent environmental concerns due to leaching. Despite the relevance of N to plant growth, few studies have focused on understanding the application, management and ecological role of N 2 -fixing bacterial populations as tool for improve the N nutrition of cereal crops in Chile. It is known that N 2 -fixing bacteria commonly inhabits diverse plant compartments (e.g., rhizosphere and root endosphere) where they can supply N for plant growth. Here, we used culture-independent and dependent approaches to characterize and compare the putative N 2 -fixing bacteria associated with the rhizosphere and root endosphere of wheat plants grown in an Andisol from southern Chile. Our results showed significantly greater bacterial loads in the rhizosphere than the root endosphere. Quantitative PCR results indicated that the copy number of the 16S rRNA gene ranged from 10 12 ~10 13 and 10 7 ~10 8 g -1 sample in rhizosphere and root endosphere, respectively. The nif H gene copy number ranged from 10 5 ~10 6 and 10 5 g -1 sample in rhizosphere and root endosphere, respectively. The total culturable bacteria number ranged from 10 9 ~10 10 and 10 7 ~10 8 CFU g -1 sample in rhizosphere and 10 4 ~10 5 and 10 4 CFU g -1 sample in root endosphere using LB and NM-1 media, respectively. Indirect counts of putative N 2 -fixing bacteria were 10 3 and 10 2 ~10 3 CFU g -1 sample in rhizosphere and root endosphere using NFb medium, respectively. Sequencing of 16S rRNA genes from randomly selected putative N 2 -fixing bacteria revealed the presence of members of Proteobacteria ( Bosea and Roseomonas ), Actinobacteria ( Georgenia, Mycobacterium, Microbacterium, Leifsonia , and Arthrobacter ), Bacteroidetes ( Chitinophaga ) and Firmicutes ( Bacillus and Psychrobacillus ) taxa. Differences in 16S rRNA and putative nif H-containing bacterial communities between rhizosphere and root endosphere were shown by denaturing gradient gel electrophoresis (DGGE). This study shows a compartmentalization between rhizosphere and root endosphere for both the abundance and diversity of total (16S rRNA) and putative N 2 -fixing bacterial communities on wheat plants grown in Chilean Andisols. This information can be relevant for the design and application of agronomic strategies to enhance sustainable N-utilization in cereal crops in Chile.

Published

2018

12. Erratum to: Rhizobacterial Community Structures Associated with Native Plants Grown in Chilean Extreme Environments.

Author

Jorquera MA, Maruyama F, Ogram AV, Navarrete OU, Lagos LM, Inostroza NG, Acuña JJ, Rilling JI, and de La Luz Mora M

Published

2017

13. Rhizobacterial Community Structures Associated with Native Plants Grown in Chilean Extreme Environments.

Author

Jorquera MA, Maruyama F, Ogram AV, Navarrete OU, Lagos LM, Inostroza NG, Acuña JJ, Rilling JI, and de La Luz Mora M

Subjects

Actinobacteria classification, Actinobacteria genetics, Actinobacteria isolation & purification, Alphaproteobacteria classification, Alphaproteobacteria genetics, Alphaproteobacteria isolation & purification, Antarctic Regions, Bacteria genetics, Bacteroidetes classification, Bacteroidetes genetics, Bacteroidetes isolation & purification, Base Sequence, Biodiversity, Chile, Classification, Climate, DNA, Bacterial isolation & purification, Denaturing Gradient Gel Electrophoresis, Desert Climate, Ecosystem, Gammaproteobacteria classification, Gammaproteobacteria genetics, Gammaproteobacteria isolation & purification, Hydrogen-Ion Concentration, Phylogeny, Proteobacteria classification, Proteobacteria genetics, Proteobacteria isolation & purification, RNA, Ribosomal, 16S genetics, Rhizosphere, Soil chemistry, Species Specificity, Bacteria classification, Extreme Environments, Plant Roots microbiology, Plants microbiology, Soil Microbiology

Abstract

Chile is topographically and climatically diverse, with a wide array of diverse undisturbed ecosystems that include native plants that are highly adapted to local conditions. However, our understanding of the diversity, activity, and role of rhizobacteria associated with natural vegetation in undisturbed Chilean extreme ecosystems is very poor. In the present study, the combination of denaturing gradient gel electrophoresis and 454-pyrosequencing approaches was used to describe the rhizobacterial community structures of native plants grown in three representative Chilean extreme environments: Atacama Desert (ATA), Andes Mountains (AND), and Antarctic (ANT). Both molecular approaches revealed the presence of Proteobacteria, Bacteroidetes, and Actinobacteria as the dominant phyla in the rhizospheres of native plants. Lower numbers of operational taxonomic units (OTUs) were observed in rhizosphere soils from ATA compared with AND and ANT. Both approaches also showed differences in rhizobacterial community structures between extreme environments and between plant species. The differences among plant species grown in the same environment were attributed to the higher relative abundance of classes Gammaproteobacteria and Alphaproteobacteria. However, further studies are needed to determine which environmental factors regulate the structures of rhizobacterial communities, and how (or if) specific bacterial groups may contribute to the growth and survival of native plants in each Chilean extreme environments.

Published

2016

14. Properties and biotechnological applications of ice-binding proteins in bacteria.

Author

Cid FP, Rilling JI, Graether SP, Bravo LA, Mora Mde L, and Jorquera MA

Subjects

Agriculture methods, Bacteria classification, Crystallization, Freezing, Gammaproteobacteria metabolism, Models, Molecular, Antifreeze Proteins metabolism, Bacteria metabolism, Bacterial Outer Membrane Proteins metabolism, Bacterial Proteins metabolism, Biotechnology methods, Ice

Abstract

Ice-binding proteins (IBPs), such as antifreeze proteins (AFPs) and ice-nucleating proteins (INPs), have been described in diverse cold-adapted organisms, and their potential applications in biotechnology have been recognized in various fields. Currently, both IBPs are being applied to biotechnological processes, primarily in medicine and the food industry. However, our knowledge regarding the diversity of bacterial IBPs is limited; few studies have purified and characterized AFPs and INPs from bacteria. Phenotypically verified IBPs have been described in members belonging to Gammaproteobacteria, Actinobacteria and Flavobacteriia classes, whereas putative IBPs have been found in Gammaproteobacteria, Alphaproteobacteria and Bacilli classes. Thus, the main goal of this minireview is to summarize the current information on bacterial IBPs and their application in biotechnology, emphasizing the potential application in less explored fields such as agriculture. Investigations have suggested the use of INP-producing bacteria antagonists and AFPs-producing bacteria (or their AFPs) as a very attractive strategy to prevent frost damages in crops. UniProt database analyses of reported IBPs (phenotypically verified) and putative IBPs also show the limited information available on bacterial IBPs and indicate that major studies are required., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016