Your search keyword '"Trindade, Marla"' showing total 34 results

1. Use of the mCherry fluorescent protein to optimize the expression of class I lanthipeptides in Escherichia coli

Author

Van Zyl, Winschau F, Van Staden, Anton D., Dicks, Leon M T., and Trindade, Marla

Published

2023

2. Structure and biosynthesis of carotenoids produced by a novel Planococcus sp. isolated from South Africa

Author

Moyo, Anesu Conrad, Dufossé, Laurent, Giuffrida, Daniele, van Zyl, Leonardo Joaquim, and Trindade, Marla

Published

2022

3. Initial Characterization of the Viridisins' Biological Properties.

Author

Vermeulen, Ross Rayne, van Staden, Anton Du Preez, Ollewagen, Tracey, van Zyl, Leonardo Joaquim, Luo, Youran, van der Donk, Wilfred A., Dicks, Leon Milner Theodore, Smith, Carine, and Trindade, Marla

Published

2024

4. Characterization of a highly xylose tolerant β-xylosidase isolated from high temperature horse manure compost

Author

Ndata, Kanyisa, Nevondo, Walter, Cekuse, Bongi, van Zyl, Leonardo Joaquim, and Trindade, Marla

Published

2021

5. Novel metagenome-derived ornithine lipids identified by functional screening for biosurfactants

Author

Williams, Wesley, Kunorozva, Lovemore, Klaiber, Iris, Henkel, Marius, Pfannstiel, Jens, Van Zyl, Leonardo J., Hausmann, Rudolf, Burger, Anita, and Trindade, Marla

Published

2019

6. Characterisation of three novel α-L-arabinofuranosidases from a compost metagenome

Author

Fortune, Brent, Mhlongo, Sizwe, van Zyl, Leonardo Joaquim, Huddy, Robert, Smart, Mariette, and Trindade, Marla

Published

2019

7. Novel phages of healthy skin metaviromes from South Africa

Author

van Zyl, Leonardo Joaquim, Abrahams, Yoonus, Stander, Emily Amor, Kirby-McCollough, Bronwyn, Jourdain, Roland, Clavaud, Cécile, Breton, Lionel, and Trindade, Marla

Published

2018

8. Engineering resistance to phage GVE3 in Geobacillus thermoglucosidasius

Author

van Zyl, Leonardo Joaquim, Taylor, Mark Paul, and Trindade, Marla

Published

2016

9. Bioassay-Guided Fractionation Leads to the Detection of Cholic Acid Generated by the Rare Thalassomonas sp.

Author

Pheiffer, Fazlin, Schneider, Yannik K.-H., Hansen, Espen Holst, Andersen, Jeanette Hammer, Isaksson, Johan, Busche, Tobias, Rückert, Christian, Kalinowski, Jörn, Zyl, Leonardo van, and Trindade, Marla

Abstract

Bacterial symbionts of marine invertebrates are rich sources of novel, pharmaceutically relevant natural products that could become leads in combatting multidrug-resistant pathogens and treating disease. In this study, the bioactive potential of the marine invertebrate symbiont Thalassomonas actiniarum was investigated. Bioactivity screening of the strain revealed Gram-positive specific antibacterial activity as well as cytotoxic activity against a human melanoma cell line (A2058). The dereplication of the active fraction using HPLC-MS led to the isolation and structural elucidation of cholic acid and 3-oxo cholic acid. T. actiniarum is one of three type species belonging to the genus Thalassomonas. The ability to generate cholic acid was assessed for all three species using thin-layer chromatography and was confirmed by LC-MS. The re-sequencing of all three Thalassomonas type species using long-read Oxford Nanopore Technology (ONT) and Illumina data produced complete genomes, enabling the bioinformatic assessment of the ability of the strains to produce cholic acid. Although a complete biosynthetic pathway for cholic acid synthesis in this genus could not be determined based on sequence-based homology searches, the identification of putative penicillin or homoserine lactone acylases in all three species suggests a mechanism for the hydrolysis of conjugated bile acids present in the growth medium, resulting in the generation of cholic acid and 3-oxo cholic acid. With little known currently about the bioactivities of this genus, this study serves as the foundation for future investigations into their bioactive potential as well as the potential ecological role of bile acid transformation, sterol modification and quorum quenching by Thalassomonas sp. in the marine environment. [ABSTRACT FROM AUTHOR]

Published

2023

10. Identification and characterization of a novel Geobacillus thermoglucosidasius bacteriophage, GVE3

Author

van Zyl, Leonardo Joaquim, Sunda, Falone, Taylor, Mark Paul, Cowan, Don Arthur, and Trindade, Marla Iris

Published

2015

11. Unusual Class I Lanthipeptides from the Marine Bacteria Thalassomonas viridans.

Author

Vermeulen, Ross, Van Staden, Anton Du Preez, van Zyl, Leonardo Joaquim, Dicks, Leon M. T., and Trindade, Marla

Published

2022

12. Streptomyces sp. ADR1, Strain Producing β- and γ-Rubromycin Antibiotics, Isolated from Algerian Sahara Desert.

Author

Boumehira, Ali Zineddine, Kirby, Bronywn, Trindade, Marla, Hacène, Hocine, Park, Enoch Y., and El Enshasy, Hesham A.

Subjects

STREPTOMYCES, ANTINEOPLASTIC antibiotics, ANTIBIOTICS, DESERTS, RIBOSOMAL RNA, ETHYL acetate, RIBOSOMAL DNA

Abstract

A Gram-positive strain, ADR1, was isolated from soil collected from the Algerian Sahara Desert. The ethyl acetate extract of the fermentation broth showed cytotoxic activity against the PANC-1 cell line (37.1 ± 1.3% viability when applied at a concentration of 100 µg/mL). Fractionation and NMR analysis of two peaks absorbing at 490 nm revealed that they represented β- and γ-rubromycin, anticancer antibiotic compounds. The ADR1 strain contained LL-diaminopimelic acid in the whole-cell hydrolysate, and the partial 16S ribosomal RNA gene sequence (1392 bp, Accession No. KF947515) showed 99% sequence similarity to Streptomyces species. Therefore, the name Streptomyces sp. ADR1 was proposed and deposited in the Wellness Industries Culture Collection (WICC) of the Institute of Bioproduct Development, UTM, Malaysia, under the number (WICC- B86). In a 16 L stirred-tank bioreactor, the stain was adapted to submerged culture conditions and produced rubromycins at a relatively high concentration, with maximums of 24.58 mg/L and 356 mg/L for β- and γ-rubromycins, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

13. Induction of sucrose utilization genes from Bifidobacterium lactis by sucrose and raffinose

Author

Trindade, Marla I., Abratt, Valerie R., and Reid, Sharon J.

Subjects

Anaerobic bacteria -- Physiological aspects, Anaerobic bacteria -- Genetic aspects, Carbohydrate metabolism -- Genetic aspects, Carbohydrate metabolism -- Physiological aspects, Gene expression -- Physiological aspects, Genetic regulation -- Analysis, Biological sciences

Abstract

Results demonstrate that expression of a cluster of three genes in Bifidobacterium lactis are governed by transcriptional regulation and are induced by sucrose and raffinose and repressed by glucose. Data indicate that ScrR gene is a positive regulator.

Published

2003

14. Factors influencing pigment production by halophilic bacteria and its effect on brine evaporation rates.

Author

Silva‐Castro, Gloria Andrea, Moyo, Anesu Conrad, Khumalo, Londiwe, Zyl, Leonardo Joaquim, Petrik, Leslie F., and Trindade, Marla

Subjects

HALOBACTERIUM, BACTERIAL pigments, EVAPORATION (Chemistry), SALINE waters, ARTHROBACTER, CAROTENOIDS, INDUSTRIAL waste management

Abstract

Summary: The disposal of reject brine, a highly concentrated waste by‐product generated by various industrial processes, represents a major economic and environmental challenge. The common practice in dealing with the large amounts of brine generated is to dispose of it in a pond and allow it to evaporate. The rate of evaporation is therefore a key factor in the effectiveness of the management of these ponds. The addition of various dyes has previously been used as a method to increase the evaporation rate. In this study, a biological approach, using pigmented halophilic bacteria (as opposed to chemical dyes), was assessed. Two bacteria, an Arthrobacter sp. and a Planococcus sp. were selected due to their ability to increase the evaporation of synthetic brine. When using industrial brine, supplementation of the brine with an iron source was required to maintain the pigment production. Under these conditions, the Planococcus sp. CP5‐4 produced a carotenoid‐like pigment, which resulted in a 20% increase in the evaporation rate of the brine. Thus, the pigment production capability of halophilic bacteria could potentially be exploited as an effective step in the management of industrial reject brines, analogous to the crystallizer ponds used to mine salt from sea water. The pigment production capability of halophilic bacteria could potentially be exploited as an effective step in the management of industrial reject brines The pigment produced by CP5‐4was sufficient to increase brine evaporation rates in a controlled system. [ABSTRACT FROM AUTHOR]

Published

2019

15. Biogeography and taxonomic overview of terrestrial hot spring thermophilic phages.

Author

Zablocki, Olivier, van Zyl, Leonardo, and Trindade, Marla

Subjects

BIOGEOGRAPHY, THERMOPHILIC bacteria, HOT springs, MICROBIAL diversity, BACTERIAL genomes, BACTERIAL ecology

Abstract

Bacterial viruses (“phages”) play important roles in the regulation and evolution of microbial communities in most ecosystems. Terrestrial hot springs typically contain thermophilic bacterial communities, but the diversity and impacts of its associated viruses (“thermophilic phages”) are largely unexplored. Here, we provide a taxonomic overview of phages that have been isolated strictly from terrestrial hot springs around the world. In addition, we placed 17 thermophilic phage genomes in a global phylogenomic context to detect evolutionary patterns. Thermophilic phages have diverse morphologies (e.g., tailed, filamentous), unique virion structures (e.g., extremely long tailed siphoviruses), and span five taxonomic families encompassing strictly thermophilic phage genera. Within the phage proteomic tree, six thermophilic phage-related clades were identified, with evident genomic relatedness between thermophilic phages and archaeal viruses. Moreover, whole proteome analyses showed clustering between phages that infect distinct host phyla, such as Firmicutes and Deinococcus-Thermus. The potential for discovery of novel phage-host systems in terrestrial hot springs remain mostly untapped, thus additional emphasis on thermophilic phages in ecological prospecting is encouraged to gain insights into the microbial population dynamics of these environments. [ABSTRACT FROM AUTHOR]

Published

2018

16. Diversity of dsDNA Viruses in a South African Hot Spring Assessed by Metagenomics and Microscopy.

Author

Zablocki, Olivier, van Zyl, Leonardo Joaquim, Kirby, Bronwyn, and Trindade, Marla

Subjects

DNA viruses, METAGENOMICS, GENETIC vectors, MICROBIAL diversity, BACTERIOPHAGES

Abstract

The current view of virus diversity in terrestrial hot springs is limited to a few sampling sites. To expand our current understanding of hot spring viral community diversity, this study aimed to investigate the first African hot spring (Brandvlei hot spring; 60 °C, pH 5.7) by means of electron microscopy and sequencing of the virus fraction. Microscopy analysis revealed a mixture of regular- and 'jumbo'-sized tailed morphotypes (Caudovirales), lemon-shaped virions (Fuselloviridae-like; salterprovirus-like) and pleiomorphic virus-like particles. Metavirome analysis corroborated the presence of His1-like viruses and has expanded the current clade of salterproviruses using a polymerase B gene phylogeny. The most represented viral contig was to a cyanophage genome fragment, which may underline basic ecosystem functioning provided by these viruses. Furthermore, a putative Gemmata-related phage was assembled with high coverage, a previously undocumented phage-host association. This study demonstrated that a moderately thermophilic spring environment contained a highly novel pool of viruses and should encourage future characterization of a wider temperature range of hot springs throughout the world. [ABSTRACT FROM AUTHOR]

Published

2017

17. Antibacterial Activities of Bacteria Isolated from the Marine Sponges Isodictya compressa and Higginsia bidentifera Collected from Algoa Bay, South Africa.

Author

Matobole, Relebohile Matthew, van Zyl, Leonardo Joaquim, Parker-Nance, Shirley, Davies-Coleman, Michael T., and Trindade, Marla

Abstract

Due to the rise inmulti-drug resistant pathogens and other diseases, there is renewed interest in marine sponge endosymbionts as a rich source of natural products (NPs). The South African marine environment is rich in marine biota that remains largely unexplored and may represent an important source for the discovery of novel NPs.We first investigated the bacterial diversity associated with five South African marine sponges, whose microbial populations had not previously been investigated, and select the two sponges (Isodictya compressa and Higginsia bidentifera) with highest species richness to culture bacteria. By employing 33 different growth conditions 415 sponge-associated bacterial isolates were cultured and screened for antibacterial activity. Thirty-five isolates showed antibacterial activity, twelve of which exhibited activity against the multi-drug resistant Escherichia coli 1699, implying that some of the bioactive compounds could be novel. Genome sequencing of two of these isolates confirmed that they harbour uncharacterized biosynthetic pathways that may encode novel chemical structures. [ABSTRACT FROM AUTHOR]

Published

2017

18. Virome Assembly and Annotation: A Surprise in the Namib Desert.

Author

Hesse, Uljana, van Heusden, Peter, Kirby, Bronwyn M., Olonade, Israel, van Zyl, Leonardo J., and Trindade, Marla

Subjects

VIRAL genomes, NUCLEOTIDE sequence

Abstract

Sequencing, assembly, and annotation of environmental virome samples is challenging. Methodological biases and differences in species abundance result in fragmentary read coverage; sequence reconstruction is further complicated by the mosaic nature of viral genomes. In this paper, we focus on biocomputational aspects of virome analysis, emphasizing latent pitfalls in sequence annotation. Using simulated viromes that mimic environmental data challenges we assessed the performance of five assemblers (CLC-Workbench, IDBA-UD, SPAdes, RayMeta, ABySS). Individual analyses of relevant scaffold length fractions revealed shortcomings of some programs in reconstruction of viral genomes with excessive read coverage (IDBA-UD, RayMeta), and in accurate assembly of scaffolds ⩾50 kb (SPAdes, RayMeta, ABySS). The CLC-Workbench assembler performed best in terms of genome recovery (including highly covered genomes) and correct reconstruction of large scaffolds; and was used to assemble a virome from a copper rich site in the Namib Desert. We found that scaffold network analysis and cluster-specific read reassembly improved reconstruction of sequences with excessive read coverage, and that strict data filtering for non-viral sequences prior to downstream analyses was essential. In this study we describe novel viral genomes identified in the Namib Desert copper site virome. Taxonomic affiliations of diverse proteins in the dataset and phylogenetic analyses of circovirus-like proteins indicated links to the marine habitat. Considering additional evidence from this dataset we hypothesize that viruses may have been carried from the Atlantic Ocean into the Namib Desert by fog and wind, highlighting the impact of the extended environment on an investigated niche in metagenome studies. [ABSTRACT FROM AUTHOR]

Published

2017

19. Microbiome enrichment from contaminated marine sediments unveils novel bacterial strains for petroleum hydrocarbon and heavy metal bioremediation.

Author

Dell'Anno, Filippo, Joaquim van Zyl, Leonardo, Trindade, Marla, Buschi, Emanuela, Cannavacciuolo, Antonio, Pepi, Milva, Sansone, Clementina, Brunet, Christophe, Ianora, Adrianna, de Pascale, Donatella, Golyshin, Peter N., Dell'Anno, Antonio, and Rastelli, Eugenio

Subjects

MARINE sediments, CONTAMINATED sediments, HEAVY metals, BIOREMEDIATION, POLYCYCLIC aromatic hydrocarbons, PLASTIC marine debris

Abstract

Petroleum hydrocarbons and heavy metals are some of the most widespread contaminants affecting marine ecosystems, urgently needing effective and sustainable remediation solutions. Microbial-based bioremediation is gaining increasing interest as an effective, economically and environmentally sustainable strategy. Here, we hypothesized that the heavily polluted coastal area facing the Sarno River mouth, which discharges >3 tons of polycyclic aromatic hydrocarbons (PAHs) and ∼15 tons of heavy metals (HMs) into the sea annually, hosts unique microbiomes including marine bacteria useful for PAHs and HMs bioremediation. We thus enriched the microbiome of marine sediments, contextually selecting for HM-resistant bacteria. The enriched mixed bacterial culture was subjected to whole-DNA sequencing, metagenome-assembled-genomes (MAGs) annotation, and further sub-culturing to obtain the major bacterial species as pure strains. We obtained two novel isolates corresponding to the two most abundant MAGs (Alcanivorax xenomutans strain-SRM1 and Halomonas alkaliantarctica strain-SRM2), and tested their ability to degrade PAHs and remove HMs. Both strains exhibited high PAHs degradation (60–100%) and HMs removal (21–100%) yield, and we described in detail >60 genes in their MAGs to unveil the possible genetic basis for such abilities. Most promising yields (∼100%) were obtained towards naphthalene, pyrene and lead. We propose these novel bacterial strains and related genetic repertoire to be further exploited for effective bioremediation of marine environments contaminated with both PAHs and HMs. [Display omitted] • Highly polluted sediments' microbiome enriched for PAH- and HM-remediating bacteria. • Two new Alcanivorax and Halomonas strains isolated show high bioremediation yields. • Metagenome assembly unveiled their novel genomic assets for PAH and HM remediation. • Possible use for efficient bioremediation of sites mixedly polluted by PAHs and HMs. [ABSTRACT FROM AUTHOR]

Published

2023

20. Three novel bacteriophages isolated from the East African Rift Valley soda lakes.

Author

van Zyl, Leonardo Joaquim, Nemavhulani, Shonisani, Cass, James, Cowan, Donald Arthur, and Trindade, Marla

Subjects

BACTERIOPHAGES, WATER alkalinity, PARACOCCUS (Proteobacteria), SIPHOVIRIDAE, LAKE sediments

Abstract

Background: Soda lakes are unique environments in terms of their physical characteristics and the biology they harbour. Although well studied with respect to their microbial composition, their viral compositions have not, and consequently few bacteriophages that infect bacteria from haloalkaline environments have been described. Methods: Bacteria were isolated from sediment samples of lakes Magadi and Shala. Three phages were isolated on two different Bacillus species and one Paracoccus species using agar overlays. The growth characteristics of each phage in its host was investigated and the genome sequences determined and analysed by comparison with known phages. Results: Phage Shbh1 belongs to the family Myoviridae while Mgbh1 and Shpa belong to the Siphoviridae family. Tetranucleotide usage frequencies and G + C content suggests that Shbh1 and Mgbh1 do not regularly infect, and have therefore not evolved with, the hosts they were isolated on here. Shbh1 was shown capable of infecting two different Bacillus species from the two different lakes demonstrating its potential broad-host range. Comparative analysis of their genome sequence with known phages revealed that, although novel, Shbh1 does share substantial amino acid similarity with previously described Bacillus infecting phages (Grass, phiNIT1 and phiAGATE) and belongs to the Bastille group, while Mgbh1 and Shpa are highly novel. Conclusion: The addition of these phages to current databases should help with metagenome/metavirome annotation efforts. We describe a highly novel Paracoccus infecting virus (Shpa) which together with NgoΦ6 and vB_PmaS_IMEP1 is one of only three phages known to infect Paracoccus species but does not show similarity to these phages. [ABSTRACT FROM AUTHOR]

Published

2016

21. Metaviromics of Namib Desert Salt Pans: A Novel Lineage of Haloarchaeal Salterproviruses and a Rich Source of ssDNA Viruses.

Author

Adriaenssens, Evelien M., van Zyl, Leonardo Joaquim, Cowan, Don A., and Trindade, Marla I.

Subjects

SALT pans (Geology), DESERTS, DNA viruses, NUCLEOTIDE sequencing

Abstract

Viral communities of two different salt pans located in the Namib Desert, Hosabes and Eisfeld, were investigated using a combination of multiple displacement amplification of metaviromic DNA and deep sequencing, and provided comprehensive sequence data on both ssDNA and dsDNA viral community structures. Read and contig annotations through online pipelines showed that the salt pans harbored largely unknown viral communities. Through network analysis, we were able to assign a large portion of the unknown reads to a diverse group of ssDNA viruses. Contigs belonging to the subfamily Gokushovirinae were common in both environmental datasets. Analysis of haloarchaeal virus contigs revealed the presence of three contigs distantly related with His1, indicating a possible new lineage of salterproviruses in the Hosabes playa. Based on viral richness and read mapping analyses, the salt pan metaviromes were novel and most closely related to each other while showing a low degree of overlap with other environmental viromes. [ABSTRACT FROM AUTHOR]

Published

2016

22. Engineering resistance to phage GVE3 in Geobacillus thermoglucosidasius.

Author

Zyl, Leonardo, Taylor, Mark, and Trindade, Marla

Subjects

GRAM-positive bacteria, BIOMASS energy, METABOLITES, PHENOTYPES, POLYSACCHARIDES

Abstract

Geobacillus thermoglucosidasius is a promising platform organism for the production of biofuels and other metabolites of interest. G. thermoglucosidasius fermentations could be subject to bacteriophage-related failure and financial loss. We develop two strains resistant to a recently described G. thermoglucosidasius-infecting phage GVE3. The phage-encoded immunity gene, imm, was overexpressed in the host leading to phage resistance. A phage-resistant mutant was isolated following expression of a putative anti-repressor-like protein and phage challenge. A point mutation was identified in the polysaccharide pyruvyl transferase, csaB. A double crossover knockout mutation of csaB confirmed its role in the phage resistance phenotype. These resistance mechanisms appear to prevent phage DNA injection and/or lysogenic conversion rather than just reducing efficiency of plating, as no phage DNA could be detected in resistant bacteria challenged with GVE3 and no plaques observed even at high phage titers. Not only do the strains developed here shed light on the biological relationship between the GVE3 phage and its host, they could be employed by those looking to make use of this organism for metabolite production, with reduced occurrence of GVE3-related failure. [ABSTRACT FROM AUTHOR]

Published

2016

23. Identification and characterization of a novel Geobacillus thermoglucosidasius bacteriophage, GVE3.

Author

Zyl, Leonardo, Sunda, Falone, Taylor, Mark, Cowan, Don, and Trindade, Marla

Subjects

BACTERIOPHAGES, MICROBIOLOGY of extreme environments, LYSIS, BACTERIAL genomes, BACILLUS anthracis, NUCLEOTIDES

Abstract

The study of extremophilic phages may reveal new phage families as well as different mechanisms of infection, propagation and lysis to those found in phages from temperate environments. We describe a novel siphovirus, GVE3, which infects the thermophile Geobacillus thermoglucosidasius. The genome size is 141,298 bp (G+C 29.6 %), making it the largest Geobacillus spp-infecting phage known. GVE3 appears to be most closely related to the recently described Bacillus anthracis phage vB_BanS_Tsamsa, rather than Geobacillus-infecting phages described thus far. Tetranucleotide usage deviation analysis supports this relationship, showing that the GVE3 genome sequence correlates best with B. anthracis and Bacillus cereus genome sequences, rather than Geobacillus spp genome sequences. [ABSTRACT FROM AUTHOR]

Published

2015

24. A novel bacterial Water Hypersensitivity-like protein shows in vivo protection against cold and freeze damage.

Author

Anderson, Dominique, Ferreras, Eloy, Trindade, Marla, and Cowan, Don

Subjects

ALLERGIES, PROTEIN genetics, MOLECULAR genetics, MICROBIAL biotechnology, SINGLE cell proteins, GENETICS

Abstract

Metagenomic library screening, by functional or sequence analysis, has become an established method for the identification of novel genes and gene products, including genetic elements implicated in microbial stress response and adaptation. We have identified, using a sequence-based approach, a fosmid clone from an Antarctic desert soil metagenome library containing a novel gene which codes for a protein homologous to a Water Hypersensitivity domain (WHy). The WHy domain is typically found as a component of specific LEA (Late Embryogenesis Abundant) proteins, particularly the LEA-14 (LEA-8) variants, which occur widely in plants, nematodes, bacteria and archaea and which are typically induced by exposure to stress conditions. The novel WHy-like protein (165 amino acid, 18.6 kDa) exhibits a largely invariant NPN motif at the N-terminus and has high sequence identity to genes identified in Pseudomonas genomes. Expression of this protein in Escherichia coli significantly protected the recombinant host against cold and freeze stress. [ABSTRACT FROM AUTHOR]

Published

2015

25. Targeted metagenomics as a tool to tap into marine natural product diversity for the discovery and production of drug candidates.

Author

Trindade, Marla, van Zyl, Leonardo Joaquim, Navarro-Fernández, José, Elrazak, Ahmed Abd, Neilan, Brett A., Hentschel, Ute, and Kwan, Jason Christopher

Subjects

METAGENOMICS, NATURAL products, MICROBIAL diversity

Abstract

Microbial natural products exhibit immense structural diversity and complexity and have captured the attention of researchers for several decades. They have been explored for a wide spectrum of applications, most noteworthy being their prominent role in medicine, and their versatility expands to application as drugs for many diseases. Accessing unexplored environments harboring unique microorganisms is expected to yield novel bioactive metabolites with distinguishing functionalities, which can be supplied to the starved pharmaceutical market. For this purpose the oceans have turned out to be an attractive and productive field. Owing to the enormous biodiversity of marine microorganisms, as well as the growing evidence that many metabolites previously isolated from marine invertebrates and algae are actually produced by their associated bacteria, the interest in marine microorganisms has intensified. Since the majority of the microorganisms are uncultured, metagenomic tools are required to exploit the untapped biochemistry. However, after years of employing metagenomics for marine drug discovery, new drugs are vastly under-represented. While a plethora of natural product biosynthetic genes and clusters are reported, only a minor number of potential therapeutic compounds have resulted through functional metagenomic screening. This review explores specific obstacles that have led to the low success rate. In addition to the typical problems encountered with traditional functional metagenomic-based screens for novel biocatalysts, there are enormous limitations which are particular to drug-like metabolites. We also present how targeted and function-guided strategies, employing modern, and multi-disciplinary approaches have yielded some of the most exciting discoveries attributed to uncultured marine bacteria. These discoveries set the stage for progressing the production of drug candidates from uncultured bacteria for pre-clinical and clinical development. [ABSTRACT FROM AUTHOR]

Published

2015

26. The reduced genomes of Parcubacteria (OD1) contain signatures of a symbiotic lifestyle.

Author

Nelson, William C., Stegen, James C., Trindade, Marla, and Abou Donia, Mohamed S.

Subjects

BACTERIAL genomes, BACTERIAL communities, SYMBIOSIS

Abstract

Candidate phylum OD1 bacteria (also referred to as Parcubacteria) have been identified in a broad range of anoxic environments through community survey analysis. Although none of these species have been isolated in the laboratory, several genome sequences have been reconstructed from metagenomic sequence data and single-cell sequencing. The organisms have small (generally <1 Mb) genomes with severely reduced metabolic capabilities. We have reconstructed 8 partial to near-complete OD1 genomes from oxic groundwater samples, and compared them against existing genomic data. The conserved core gene set comprises 202 genes, or ~28% of the genomic complement. "Housekeeping" genes and genes for biosynthesis of peptidoglycan and Type IV pilus production are conserved. Gene sets for biosynthesis of cofactors, amino acids, nucleotides, and fatty acids are absent entirely or greatly reduced. The only aspects of energy metabolism conserved are the non-oxidative branch of the pentose-phosphate shunt and central glycolysis. These organisms also lack some activities conserved in almost all other known bacterial genomes, including signal recognition particle, pseudouridine synthase A, and FAD synthase. Pan-genome analysis indicates a broad genotypic diversity and perhaps a highly fluid gene complement, indicating historical adaptation to a wide range of growth environments and a high degree of specialization. The genomes were examined for signatures suggesting either a free-living, streamlined lifestyle, or a symbiotic lifestyle. The lack of biosynthetic capabilities and DNA repair, along with the presence of potential attachment and adhesion proteins suggest that the Parcubacteria are ectosymbionts or parasites of other organisms. The wide diversity of genes that potentially mediate cell-cell contact suggests a broad range of partner/prey organisms across the phylum. [ABSTRACT FROM AUTHOR]

Published

2015

27. Three Novel Bacteria Associated with Two Centric Diatom Species from the Mediterranean Sea, Thalassiosira rotula and Skeletonema marinoi.

Author

Di Costanzo, Federica, Di Dato, Valeria, van Zyl, Leonardo Joaquim, Cutignano, Adele, Esposito, Francesco, Trindade, Marla, and Romano, Giovanna

Subjects

DIATOMS, THALASSIOSIRA, AXENIC cultures, SPECIES, BACTERIAL genomes, NAVICULA

Abstract

Diatoms are a successful group of microalgae at the base of the marine food web. For hundreds of millions of years, they have shared common habitats with bacteria, which favored the onset of interactions at different levels, potentially driving the synthesis of biologically active molecules. To unveil their presence, we sequenced the genomes of bacteria associated with the centric diatom Thalassiosira rotula from the Gulf of Naples. Annotation of the metagenome and its analysis allowed the reconstruction of three bacterial genomes that belong to currently undescribed species. Their investigation showed the existence of novel gene clusters coding for new polyketide molecules, antibiotics, antibiotic-resistance genes and an ectoine production pathway. Real-time PCR was used to investigate the association of these bacteria with three different diatom clones and revealed their preference for T. rotula FE80 and Skeletonema marinoi FE7, but not S. marinoi FE60 from the North Adriatic Sea. Additionally, we demonstrate that although all three bacteria could be detected in the culture supernatant (free-living), their number is up to 45 times higher in the cell associated fraction, suggesting a close association between these bacteria and their host. We demonstrate that axenic cultures of T. rotula are unable to grow in medium with low salinity (<28 ppt NaCl) whereas xenic cultures can tolerate up to 40 ppt NaCl with concomitant ectoine production, likely by the associated bacteria. [ABSTRACT FROM AUTHOR]

Published

2021

28. Genomic Characterization of a Prophage, Smhb1, That Infects Salinivibrio kushneri BNH Isolated from a Namib Desert Saline Spring.

Author

Olonade, Israel, van Zyl, Leonardo Joaquim, and Trindade, Marla

Subjects

DESERTS, VIBRIO, SPECIES, VIRUSES, GENOMES, VIBRIO anguillarum

Abstract

Recent years have seen the classification and reclassification of many viruses related to the model enterobacterial phage P2. Here, we report the identification of a prophage (Smhb1) that infects Salinivibrio kushneri BNH isolated from a Namib Desert salt pan (playa). Analysis of the genome revealed that it showed the greatest similarity to P2-like phages that infect Vibrio species and showed no relation to any of the previously described Salinivibrio-infecting phages. Despite being distantly related to these Vibrio infecting phages and sharing the same modular gene arrangement as seen in most P2-like viruses, the nucleotide identity to its closest relatives suggest that, for now, Smhb1 is the lone member of the Peduovirus genus Playavirus. Although host range testing was not extensive and no secondary host could be identified for Smhb1, genomic evidence suggests that the phage is capable of infecting other Salinivibrio species, including Salinivibrio proteolyticus DV isolated from the same playa. Taken together, the analysis presented here demonstrates how adaptable the P2 phage model can be. [ABSTRACT FROM AUTHOR]

Published

2021

29. Isolation and Characterization of Strain Exiguobacterium sp. KRL4, a Producer of Bioactive Secondary Metabolites from a Tibetan Glacier.

Author

Tedesco, Pietro, Palma Esposito, Fortunato, Masino, Antonio, Vitale, Giovanni Andrea, Tortorella, Emiliana, Poli, Annarita, Nicolaus, Barbara, van Zyl, Leonardo Joaquim, Trindade, Marla, de Pascale, Donatella, and Amils, Ricardo

Subjects

METABOLITES, BIOLOGICAL assay, GLACIERS, PHENOTYPES, CAENORHABDITIS, GRAM-positive bacteria

Abstract

Extremophilic microorganisms represent a unique source of novel natural products. Among them, cold adapted bacteria and particularly alpine microorganisms are still underexplored. Here, we describe the isolation and characterization of a novel Gram-positive, aerobic rod-shaped alpine bacterium (KRL4), isolated from sediments from the Karuola glacier in Tibet, China. Complete phenotypic analysis was performed revealing the great adaptability of the strain to a wide range of temperatures (5–40 °C), pHs (5.5–8.5), and salinities (0–15% w/v NaCl). Genome sequencing identified KRL4 as a member of the placeholder genus Exiguobacterium_A and annotation revealed that only half of the protein-encoding genes (1522 of 3079) could be assigned a putative function. An analysis of the secondary metabolite clusters revealed the presence of two uncharacterized phytoene synthase containing pathways and a novel siderophore pathway. Biological assays confirmed that the strain produces molecules with antioxidant and siderophore activities. Furthermore, intracellular extracts showed nematocidal activity towards C. elegans, suggesting that strain KRL4 is a source of anthelmintic compounds. [ABSTRACT FROM AUTHOR]

Published

2021

30. Degradation of Hydrocarbons and Heavy Metal Reduction by Marine Bacteria in Highly Contaminated Sediments.

Author

Dell'Anno, Filippo, Brunet, Christophe, van Zyl, Leonardo Joaquim, Trindade, Marla, Golyshin, Peter N., Dell'Anno, Antonio, Ianora, Adrianna, and Sansone, Clementina

Subjects

HEAVY metals, CONTAMINATED sediments, MARINE bacteria, BIODEGRADATION of polycyclic aromatic hydrocarbons, HEAVY metal toxicology, POLYCYCLIC aromatic hydrocarbons

Abstract

Investigations on the ability of bacteria to enhance removal of hydrocarbons and reduce heavy metal toxicity in sediments are necessary to design more effective bioremediation strategies. In this study, five bacterial strains, Halomonas sp. SZN1, Alcanivorax sp. SZN2, Pseudoalteromonas sp. SZN3, Epibacterium sp. SZN4, and Virgibacillus sp. SZN7, were isolated from polluted sediments from an abandoned industrial site in the Gulf of Naples, Mediterranean Sea, and tested for their bioremediation efficiency on sediment samples collected from the same site. These bacteria were added as consortia or as individual cultures into polluted sediments to assess biodegradation efficiency of polycyclic aromatic hydrocarbons and heavy metal immobilisation capacity. Our results indicate that these bacteria were able to remove polycyclic aromatic hydrocarbons, with a removal rate up to ca. 80% for dibenzo-anthracene. In addition, these bacteria reduced arsenic, lead, and cadmium mobility by promoting their partitioning into less mobile and bioavailable fractions. Microbial consortia generally showed higher performance toward pollutants as compared with pure isolates, suggesting potential synergistic interactions able to enhance bioremediation capacity. Overall, our findings suggest that highly polluted sediments select for bacteria efficient at reducing the toxicity of hazardous compounds, paving the way for scaled-up bioremediation trials. [ABSTRACT FROM AUTHOR]

Published

2020

31. Therapeutic Application of Lantibiotics and Other Lanthipeptides: Old and New Findings.

Author

Du Preez van Staden, Anton, van Zyl, Winschau F., Trindade, Marla, Dicks, Leon M. T., and Smith, Carine

Subjects

*BACTERIAL genomes, *CYSTIC fibrosis, *ANTIMICROBIAL peptides, *PEPTIDES, *SYMPTOMS

Abstract

Lanthipeptides are ribosomally synthesized and posttranslationally modified peptides, with modifications that are incorporated during biosynthesis by dedicated enzymes. Various modifications of the peptides are possible, resulting in a highly diverse group of bioactive peptides that offer a potential reservoir for use in the fight against a plethora of diseases. Their activities range from the antimicrobial properties of lantibiotics, especially against antibiotic-resistant strains, to antiviral activity, immunomodulatory properties, antiallodynic effects, and the potential to alleviate cystic fibrosis symptoms. Lanthipeptide biosynthetic genes are widespread within bacterial genomes, providing a substantial repository for novel bioactive peptides. Using genome mining tools, novel bioactive lanthipeptides can be identified, and coupled with rapid screening and heterologous expression technologies, the lanthipeptide drug discovery pipeline can be significantly sped up. Lanthipeptides represent a group of bioactive peptides that hold great potential as biotherapeutics, especially at a time when novel and more effective therapies are required. With this review, we provide insight into the latest developments made toward the therapeutic applications and production of lanthipeptides, specifically looking at heterologous expression systems. [ABSTRACT FROM AUTHOR]

Published

2021

32. Temporal dynamics of hot desert microbial communities reveal structural and functional responses to water input.

Author

Armstrong, Alacia, Valverde, Angel, Ramond, Jean-Baptiste, Makhalanyane, Thulani P., Jansson, Janet K., Hopkins, David W., Aspray, Thomas J., Seely, Mary, Trindade, Marla I., and Cowan, Don A.

Published

2016

33. Impact of metagenomic DNA extraction procedures on the identifiable endophytic bacterial diversity in Sorghum bicolor (L. Moench).

Author

Maropola, Mapula Kgomotso Annah, Ramond, Jean-Baptiste, and Trindade, Marla

Subjects

*METAGENOMICS, *NUCLEIC acid isolation methods, *ENDOPHYTIC bacteria, *BACTERIAL diversity, *SORGHUM, *PLANT cells & tissues

Abstract

Culture-independent studies rely on the quantity and quality of the extracted environmental metagenomic DNA (mDNA). To fully access the plant tissue microbiome, the extracted plant mDNA should allow optimal PCR applications and the genetic content must be representative of the total microbial diversity. In this study, we evaluated the endophytic bacterial diversity retrieved using different mDNA extraction procedures. Metagenomic DNA from sorghum ( Sorghum bicolor L. Moench) stem and root tissues were extracted using two classical DNA extraction protocols (CTAB- and SDS-based) and five commercial kits. The mDNA yields and quality as well as the reproducibility were compared. 16S rRNA gene terminal restriction fragment length polymorphism (t-RFLP) was used to assess the impact on endophytic bacterial community structures observed. Generally, the classical protocols obtained high mDNA yields from sorghum tissues; however, they were less reproducible than the commercial kits. Commercial kits retrieved higher quality mDNA, but with lower endophytic bacterial diversities compared to classical protocols. The SDS-based protocol enabled access to the highest sorghum endophytic diversities. Therefore, “SDS-extracted” sorghum root and stem microbiome diversities were analysed via 454 pyrosequencing, and this revealed that the two tissues harbour significantly different endophytic communities. Nevertheless, both communities are dominated by agriculturally important genera such as Microbacterium , Agrobacterium , Sphingobacterium , Herbaspirillum , Erwinia , Pseudomonas and Stenotrophomonas ; which have previously been shown to play a role in plant growth promotion. This study shows that DNA extraction protocols introduce biases in culture-independent studies of environmental microbial communities by influencing the mDNA quality, which impacts the microbial diversity analyses and evaluation. Using the broad-spectrum SDS-based DNA extraction protocol allows the recovery of the most diverse endophytic communities associated with sorghum tissues and, as such, establishes a reliable basis for future study of endophytic communities. [ABSTRACT FROM AUTHOR]

Published

2015

34. Identification and sequence analysis of two novel cryptic plasmids isolated from the vaginal mucosa of South African women.

Author

Harris, Lyle, van Zyl, Leonardo J., Kirby-McCullough, Bronwyn M., Damelin, Leonard H., Tiemessen, Caroline T., and Trindade, Marla

Subjects

*BACTERIAL vaginitis diagnosis, *PLASMIDS, *ORAL mucosa, *LACTOBACILLUS, *WOMEN'S health, *PHYSIOLOGY

Abstract

Abstract The vaginal mucosa is dominated by Gram positive, rod shaped lactobacilli which serve as a natural barrier against infection. In both healthy- and bacterial vaginosis (BV)-infected women Lactobacillus crispatus and Lactobacillus jensenii have been found to be the predominant Lactobacillus species. Many studies have been conducted to assess factors influencing lactobacilli dominance in the vaginal microbiome. In the present study two plasmids, pLc4 and pLc17, isolated from vaginal Lactobacillus strains of both healthy and BV-infected women were characterized. The smaller plasmid, pLc4 (4224 bp), was detected in both L. crispatus and L. jensenii strains, while pLc17 was only detected in L. crispatus. Based on its nucleotide sequence pLc4 appears highly novel, with its replication protein having 44% identity to the replication initiation protein of pSMQ173b_03. Phylogenetic analysis with other Rolling Circle Replication plasmids confirmed that pLc4 shows a low degree of similarity to these plasmids. Plasmid pLc17 (16,663 bp) appears to carry both a RCR replicon and a theta replicon, which is rare in naturally occurring plasmids. pLc4 was maintained at a high copy number of 29, while pLc17 appears to be a medium copy number plasmid maintained at 11 copies per chromosome. While sequence analysis is a valuable tool to study cryptic plasmids, further function-based analysis will be required in order to fully elucidate the role of these plasmids within the vaginal milieu. Highlights • Two cryptic plasmids associated with vaginal lactobacilli were partially characterized by sequence analysis • Both plasmids were detected in both healthy and BV-infected women • pLc4 appears to be highly novel with a low degree of similarity to other Rolling Circle Replication plasmids • pLc17 has a unique replication system and has both a RCR replicon and theta replicon. • pLc17 was only detected in L. crispatus strains, while pLc4 was detected in both L. crispatus and L. jensenii [ABSTRACT FROM AUTHOR]

Published

2018