Microbe Profiles
Microbiology is now publishing ‘Microbe Profiles’ – concise, review-type articles that provide overviews of the classification, structure and properties of novel microbes, written by leading microbiologists. These profiles will provide insights into key microbes within the field. The profiles are fully citable and free to read for 30 days after publication, and will make an excellent resource for education or reference.
Collection Contents
1 - 20 of 42 results
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Microbe Profile: Cellvibrio japonicus: living the sweet life via biomass break-down
More LessCellvibrio japonicus is a saprophytic bacterium proficient at environmental polysaccharide degradation for carbon and energy acquisition. Genetic, enzymatic, and structural characterization of C. japonicus carbohydrate active enzymes, specifically those that degrade plant and animal-derived polysaccharides, demonstrated that this bacterium is a carbohydrate-bioconversion specialist. Structural analyses of these enzymes identified highly specialized carbohydrate binding modules that facilitate activity. Steady progress has been made in developing genetic tools for C. japonicus to better understand the function and regulation of the polysaccharide-degrading enzymes it possesses, as well as to develop it as a biotechnology platform to produce renewable fuels and chemicals.
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Microbe Profile: The Lactobacillaceae
More LessThe bacterial family Lactobacillaceae (the lactobacilli) occupy a unique role in microbiology due to their beneficial role in both human cultural history and biology, from the food preservation of hunter gatherers-turned-farmers, through the prevention of scurvy in seafarers exploring new worlds, and the health-promoting properties of species that colonize the human body as well as animals that are important for agriculture and pollination. The almost bewildering phenotypic and genomic complexity of the former genus Lactobacillus was recently reconciled with molecular taxonomy and phylogeny to establish robust genera comprising the Lactobacillaceae , whose main features are summarized in this Microbe Profile.
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Microbe Profile: Ehrlichia ruminantium – stealthy as it goes
More LessEhrlichia ruminantium is an obligate intracellular pathogenic bacterium that causes heartwater, a fatal disease of ruminants in tropical areas. Some human cases have also been reported. This globally important pathogen is primarily transmitted by ticks of the Amblyomma genus and threatens American mainland. E. ruminantium replicates within eukaryotic mammal or tick cell is a membrane-bound vacuole, where it undergoes a biphasic developmental growth cycle and differentiates from noninfectious replicative form into infectious elementary bodies. The ability of E. ruminantium to hijack host cellular processes and avoid innate immunity is a fundamental, but not yet fully understood, virulence trait of this stealth pathogen in the genomic era.
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Microbe Profile: Ruminococcus gnavus: the yin and yang of human gut symbionts
More LessRuminococcus gnavus is a human gut symbiont, part of the infant and adult gut microbiota and associated with intestinal and extra-intestinal disorders. R. gnavus mechanisms of adaptation to the gut are strain-specific and underpinned by the capacity of R. gnavus strains to utilize mucin and dietary glycans and produce bacteriocins and adhesins. Several potential mediators underpinning the association between R. gnavus strains and diseases have been identified, including the capacity to elicit a pro- or anti-inflammatory host response and modulate host metabolism, secondary bile acids and tryptophan metabolic pathways. Based on increasing evidence from metagenomics studies in humans and functional investigations in vitro and in mouse models, R. gnavus is emerging as a main player in influencing health and disease outcomes from infants to the elderly.
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Halobacterium salinarum: Life with more than a grain of salt
More LessHalobacterium salinarum is a halophilic (salt-loving) archaeon that grows in salt concentrations near or at saturation. Although isolated from salted fish a century ago, it was the 1971 discovery of bacteriorhodopsin, the light-driven proton pump, that raised interest in Hbt. salinarum across a range of disciplines, including biophysics, chemistry, molecular evolution and biotechnology. Hbt. salinarum have since contributed to numerous discoveries, such as advances in membrane protein structure determination and the first example of a non-eukaryal glycoprotein. Work on Hbt. salinarum, one of the species used to define Archaea, has also elucidated molecular workings in the third domain. Finally, Hbt. salinarum presents creative solutions to the challenges of life in high salt.
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Streptococcus pneumoniae: ‘captain of the men of death’ and financial burden
More LessStreptococcus pneumoniae may inhabit the upper respiratory tract of humans without causing harm but it also causes diseases with high morbidity and mortality. It has excellent adaptive capabilities thanks to its ability to shuffle its genetic content by acquiring and incorporating DNA from other bacteria and is highly competent for genetic transformation. Sugar sensing, cleavage and transport ensure its fitness and survival in the host, and intracellular survival in macrophages has been linked to virulence. The polysaccharide capsule and toxin pneumolysin are the most important virulence determinants. Polysaccharide-based vaccines provide protection against the serotypes represented in vaccine formulations.
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Microbe Profile: Alteromonas macleodii − a widespread, fast-responding, ‘interactive’ marine bacterium
More LessAlteromonas macleodii is a marine heterotrophic bacterium with widespread distribution − from temperate to tropical oceans, and from surface to deep waters. Strains of A. macleodii exhibit considerable genomic and metabolic variability, and can grow rapidly on diverse organic compounds. A. macleodii is a model organism for the study of population genomics, physiological adaptations and microbial interactions, with individual genomes encoding diverse phenotypic traits influenced by recombination and horizontal gene transfer.
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Microbe Profile: Euglena gracilis: photogenic, flexible and hardy
More LessEuglena gracilis is a unicellular photosynthetic eukaryotic flagellate of the Discoba supergroup, which also encompasses Kinetoplastida and Diplonema. Plastids have green algal origin and are secondarily acquired. The nuclear genome is extremely large and many genes suggest multiple endosymbiotic/gene transfer events, i.e. derivation from prokaryotes of various lineages. E. gracilis is remarkably robust and can proliferate in environments contaminated with heavy metals and acids. Extraordinary metabolic plasticity and a mixotrophic lifestyle confers an ability to thrive in a broad range of environments, as well as facilitating production of many novel metabolites, making Euglena of considerable biotechnological importance.
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Microbe Profile: Wigglesworthia glossinidia: the tsetse fly’s significant other
More LessWigglesworthia glossinidia is an obligate, maternally transmitted endosymbiont of tsetse flies. The ancient association between these two organisms accounts for many of their unique physiological adaptations. Similar to other obligate mutualists, Wigglesworthia ’s genome is dramatically reduced in size, yet it has retained the capacity to produce many B-vitamins that are found at inadequate quantities in the fly’s vertebrate blood-specific diet. These Wigglesworthia -derived B-vitamins play essential nutritional roles to maintain tsetse’s physiological homeostasis as well as that of other members of the fly’s microbiota. In addition to its nutritional role, Wigglesworthia contributes towards the development of tsetse’s immune system during the larval period. Tsetse produce amidases that degrade symbiotic peptidoglycans and prevent activation of antimicrobial responses that can damage Wigglesworthia . These amidases in turn exhibit antiparasitic activity and decrease tsetse’s ability to be colonized with parasitic trypanosomes, which reduce host fitness. Thus, the Wigglesworthia symbiosis represents a fine-tuned association in which both partners actively contribute towards achieving optimal fitness outcomes.
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Microbe Profile: Pectobacterium atrosepticum: an enemy at the door
More LessPectobacterium atrosepticum is part of a larger family of soft rot bacteria ( Pectobacteriaceae ) that cause disease on a wide range of crops worldwide. They are closely related to members of the Enterobacteriaceae and, as the plant pathogens and plant associated members of the group, form part of a continuum towards opportunistic and more devastating animal and human pathogens. Many of the horizontally acquired islands present in the genome of P. atrosepticum are directly responsible for life on plants. These include genes for a plethora of plant cell wall degrading enzymes, plant toxins, siderophores etc., which are exported by multiple secretion systems under a highly coordinated regulation system.
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Microbe Profile: Nitrosopumilus maritimus
More LessNitrosopumilus maritimus is a marine ammonia-oxidizing archaeon with a high affinity for ammonia. It fixes carbon via a modified hydroxypropionate/hydroxybutyrate cycle and shows weak utilization of cyanate as a supplementary energy and nitrogen source. When oxygen is depleted, N. maritimus produces its own oxygen, which may explain its regular occurrence in anoxic waters. Several enzymes of the ammonia oxidation and oxygen production pathways remain to be identified.
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Microbe Profile: Gigaspora margarita, a multifaceted arbuscular mycorrhizal fungus
More LessGigaspora margarita is a cosmopolitan arbuscular mycorrhizal fungus, which - as an obligate symbiont- requires being associated to a host plant to accomplish its life cycle. It is characterized by huge white spores, the development of extraradical auxiliary cells, and the lack of intraradical vesicles. Its genome is dominated by transposable elements and is one of the largest fungal genomes so far sequenced. G. margarita has the peculiar feature to host taxonomically different endobacteria in its cytoplasm. The development of a cured line has allowed us to demonstrate how the endobacteria have a positive impact on the fungal physiology and -with a cascade effect- on the mycorrhizal plant.
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Microbe Profile: Salinispora tropica: natural products and the evolution of a unique marine bacterium
More LessSalinispora tropica was originally cultured from tropical marine sediments and described as the first obligate marine actinomycete genus. Soon after its discovery, it yielded the potent proteasome inhibitor salinosporamide A, a structurally novel natural product that is currently in phase III clinical trials for the treatment of cancer. If approved, it will be the first natural product derived from a cultured marine microbe to achieve clinical relevance. S. tropica produces many other biologically active natural products, including some linked to chemical defence, thus providing ecological context for their production. However, genomic analyses reveal that most natural product biosynthetic gene clusters remain orphan, suggesting that more compounds await discovery. The abundance of biosynthetic gene clusters in S. tropica supports the concept that the small molecules they encode serve important ecological functions, while their evolutionary histories suggest a potential role in promoting diversification. Better insights into the ecological functions of microbial natural products will help inform future discovery efforts.
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Microbe Profile: Legionella pneumophila - a copycat eukaryote
More LessLegionella pneumophila is an environmental bacterium that parasitizes aquatic protozoa and uses the same processes to infect humans. The facultative intracellular pathogen causes a life-threatening pneumonia with possible systemic complications. The co-evolution with protozoa is reflected in an armoury of bacterial effectors, and many of these type IV-secreted proteins have likely been acquired by interdomain horizontal gene transfer (HGT) from hosts. The unique features of L. pneumophila are the largest bacterial effector repertoire known to date, subversion of virtually all eukaryotic signalling pathways and acquisition of eukaryotic enzyme activities used to manipulate the host cell to the pathogen’s advantage.
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Microbe Profile: Geobacter metallireducens: a model for novel physiologies of biogeochemical and technological significance
More LessGeobacter metallireducens has served as the initial model for a substantial number of newly recognized microbial physiologies that play an important role in biogeochemical cycling of carbon, metals and nutrients. The strategies used by G. metallireducens for microbial interaction with minerals, contaminants, other microbes and electrodes have led to new technologies for bioremediation, bioenergy conversion and the sustainable production of ‘green’ electronics.
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Microbe Profile: Buchnera aphidicola: ancient aphid accomplice and endosymbiont exemplar
More LessBuchnera aphidicola is an obligate endosymbiont of aphids that cannot be cultured outside of hosts. It exists as diverse strains in different aphid species, and phylogenetic reconstructions show that it has been maternally transmitted in aphids for >100 million years. B. aphidicola genomes are highly reduced and show conserved gene order and no gene acquisition, but encoded proteins undergo rapid evolution. Aphids depend on B. aphidicola for biosynthesis of essential amino acids and as an integral part of embryonic development. How B. aphidicola populations are regulated within hosts remains little known.
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Microbe Profile: Xylella fastidiosa – a devastating agricultural pathogen with an endophytic lifestyle
More LessXylella fastidiosa is a vector-borne plant vascular pathogen that has caused devastating disease outbreaks in diverse agricultural crops worldwide. A major global quarantine pathogen, X. fastidiosa can infect hundreds of plant species and can be transmitted by many different xylem sap-feeding insects. Several decades of research have revealed a complex lifestyle dependent on adaptation to the xylem and insect environments and interactions with host plant tissues.
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Microbe Profile: Aeromonas salmonicida: an opportunistic pathogen with multiple personalities
More LessThe bacterial species Aeromonas salmonicida is a fish pathogen. Feared by fish farmers everywhere on Earth over the past century, this species has turned out to be more diverse than initially suspected. While some psychrophilic subspecies cannot grow at temperatures above 25 °C or 30 °C, other mesophilic strains growing up to 37 °C and above are now characterized. Adding to the surprising diversity of this species, some of the mesophilic strains infect mammals and birds. The remarkable diversity is explained in part by the presence of numerous mobile genetic elements, which sculpt and modify the genome of the various strains of this species.
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Microbe Profile: Bdellovibrio bacteriovorus: a specialized bacterial predator of bacteria
More LessBdellovibrio bacteriovorus is an environmentally-ubiquitous bacterium that uses unique adaptations to kill other bacteria. The best-characterized strain, HD100, has a multistage lifestyle, with both a free-living attack phase and an intraperiplasmic growth and division phase inside the prey cell. Advances in understanding the basic biology and regulation of predation processes are paving the way for future potential therapeutic and bioremediation applications of this unusual bacterium.
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Microbe Profile: Dictyostelium discoideum: model system for development, chemotaxis and biomedical research
More LessThe social amoeba Dictyostelium discoideum is a versatile organism that is unusual in alternating between single-celled and multi-celled forms. It possesses highly-developed systems for cell motility and chemotaxis, phagocytosis, and developmental pattern formation. As a soil amoeba growing on microorganisms, it is exposed to many potential pathogens; it thus provides fruitful ways of investigating host-pathogen interactions and is emerging as an influential model for biomedical research.
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