Biogeochemical Forces Shape the Composition and Physiology of Polymicrobial Communities in the Cystic Fibrosis Lung

ABSTRACTThe cystic fibrosis (CF) lung contains thick mucus colonized by opportunistic pathogens which adapt to the CF lung environment over decades. The difficulty associated with sampling airways has impeded a thorough examination of the biochemical microhabitats these pathogens are exposed to. An indirect approach is to study the responses of microbial communities to these microhabitats, facilitated by high-throughput sequencing of microbial DNA and RNA from sputum samples. Microbial metagenomes and metatranscriptomes were sequenced from multiple CF patients, and the reads were assigned taxonomy and function through sequence homology to NCBI and the Kyoto Encyclopedia of Genes and Genomes (KEGG) database hierarchies. For a comparison, saliva microbial metagenomes from the Human Microbiome Project (HMP) were also analyzed. These analyses identified that functions encoded and expressed by CF microbes were significantly enriched for amino acid catabolism, folate biosynthesis, and lipoic acid biosynthesis. The data indicate that the community uses oxidative phosphorylation as a major energy source but that terminal electron acceptors were diverse. Nitrate reduction was the most abundant anaerobic respiratory pathway, and genes for nitrate reductase were largely assigned toPseudomonasandRothia. Although many reductive pathways of the nitrogen cycle were present, the cycle was incomplete, because the oxidative pathways were absent. Due to the abundant amino acid catabolism and incomplete nitrogen cycle, the CF microbial community appears to accumulate ammonia. This finding was verified experimentally using a CF bronchiole culture model system. The data also revealed abundant sensing and transport of iron, ammonium, zinc, and other metals along with a low-oxygen environment. This study reveals the core biochemistry and physiology of the CF microbiome.IMPORTANCEThe cystic fibrosis (CF) microbial community is complex and adapts to the environmental conditions of the lung over the lifetime of a CF patient. This analysis illustrates the core functions of the CF microbial community in the context of CF lung biochemistry. There are many studies of the metabolism and physiology of individual microbes within the CF lung, but none that collectively analyze data from the whole microbiome. Understanding the core metabolism of microbes that inhabit the CF lung can provide new targets for novel therapies. The fundamental processes that CF pathogens rely on for survival may represent an Achilles heel for this pathogenic community. Novel therapies that are designed to disrupt understudied survival strategies of the CF microbial community may succeed against otherwise untreatable or antibiotic-resistant microbes.

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Characteristics of the Microbial Community in the Production of Chinese Rice-Flavor Baijiu and Comparisons With the Microflora of Other Flavors of Baijiu

Frontiers in Microbiology ◽

10.3389/fmicb.2021.673670 ◽

2021 ◽

Vol 12 ◽

Author(s):

Yuanliang Hu ◽

Xinyi Lei ◽

Xiaomin Zhang ◽

Tongwei Guan ◽

Luyao Wang ◽

...

Keyword(s):

Microbial Community ◽

High Throughput Sequencing ◽

Diversity Index ◽

Scaling Analysis ◽

Total Acid ◽

Microbial Composition ◽

Factors Affecting ◽

The Core ◽

Brewing Process ◽

Rice Flavor

Rice-flavor baijiu is one of the four basic flavor types of Chinese baijiu. Microbial composition plays a key role in the classification of baijiu flavor types and the formation of flavor substances. In this study, we used high-throughput sequencing technology to study the changes of microbial community in the production of rice-flavor baijiu, and compared the microbial community characteristics during production of rice-, light-, and strong-flavor baijiu. The results showed that the species diversity of bacteria was much higher than that of fungi during the brewing of rice-flavor baijiu. The bacterial diversity index first increased and then decreased, while the diversity of fungi showed an increasing trend. A variety of major microorganisms came from the environment and raw rice materials; the core bacteria were Lactobacillus, Weissella, Pediococcus, Lactococcus, Acetobacter, etc., among which Lactobacillus was dominant (62.88–99.23%). The core fungi were Saccharomyces (7.06–83.50%) and Rhizopus (15.21–90.89%). Temperature and total acid content were the main physicochemical factors affecting the microbial composition. Non-metric multidimensional scaling analysis showed that during the fermentation of rice-, light-, and strong-flavor baijiu, their microbial communities formed their own distinct systems, with considerable differences among different flavor types. Compared with the other two flavor types of baijiu, in the brewing process of rice-flavor baijiu, microbial species were fewer and dominant microorganisms were prominent, which may be the main reason for the small variety of flavor substances in rice-flavor baijiu. This study provides a theoretical basis for the production of rice-flavor baijiu, and lays a foundation for studying the link between baijiu flavor formation and microorganisms.

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Faculty Opinions recommendation of Metabolic reconstructions identify plant 3-methylglutaconyl-CoA hydratase that is crucial for branched-chain amino acid catabolism in mitochondria.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.733205860.793548833 ◽

2018 ◽

Author(s):

Harvey Millar

Keyword(s):

Amino Acid ◽

Amino Acid Catabolism ◽

Branched Chain Amino Acid ◽

Branched Chain

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Changes in cecum microbial community in response to total sulfur amino acid (TSAA: DL-methionine) in antibiotic-free and supplemented poultry birds

Poultry Science ◽

10.3382/ps/pez380 ◽

2019 ◽

Vol 98 (11) ◽

pp. 5809-5819 ◽

Cited By ~ 1

Author(s):

S Kumar ◽

P Adhikari ◽

B Oakley ◽

W K Kim

Keyword(s):

Microbial Community ◽

Amino Acid ◽

Sulfur Amino Acid ◽

Total Sulfur ◽

Poultry Birds

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The Culturable Mycobiome of Mesophotic Agelas oroides: Constituents and Changes Following Sponge Transplantation to Shallow Water

Journal of Fungi ◽

10.3390/jof7070567 ◽

2021 ◽

Vol 7 (7) ◽

pp. 567

Author(s):

Eyal Ben-Dor Cohen ◽

Micha Ilan ◽

Oded Yarden

Keyword(s):

Microbial Community ◽

Shallow Water ◽

Mediterranean Sea ◽

Hyphal Growth ◽

Marine Sponges ◽

The Core ◽

The Mediterranean ◽

Dynamic Components ◽

In Vitro Interactions

Marine sponges harbor a diverse array of microorganisms and the composition of the microbial community has been suggested to be linked to holo-biont health. Most of the attention concerning sponge mycobiomes has been given to sponges present in shallow depths. Here, we describe the presence of 146 culturable mycobiome taxa isolated from mesophotic niche (100 m depth)-inhabiting samples of Agelas oroides, in the Mediterranean Sea. We identify some potential in vitro interactions between several A. oroides-associated fungi and show that sponge meso-hyl extract, but not its predominantly collagen-rich part, is sufficient to support hyphal growth. We demonstrate that changes in the diversity of culturable mycobiome constituents occur following sponge transplantation from its original mesophotic habitat to shallow (10 m) waters, where historically (60 years ago) this species was found. We conclude that among the 30 fungal genera identified as associated with A. oroides, Aspergillus, Penicillium and Trichoderma constitute the core mycobiome of A. oroides, and that they persist even when the sponge is transplanted to a suboptimal environment, indicative of the presence of constant, as well as dynamic, components of the sponge mycobiome. Other genera seemed more depth-related and appeared or disappeared upon host’s transfer from 100 to 10 m.

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High-Throughput Sequencing of Phage Display Libraries Reveals Parasitic Enrichment of Indel Mutants Caused by Amplification Bias

International Journal of Molecular Sciences ◽

10.3390/ijms22115513 ◽

2021 ◽

Vol 22 (11) ◽

pp. 5513

Author(s):

Sander Plessers ◽

Vincent Van Deuren ◽

Rob Lavigne ◽

Johan Robben

Keyword(s):

Amino Acid ◽

Phage Display ◽

High Throughput ◽

High Throughput Sequencing ◽

Target Selection ◽

Acid Modification ◽

Phage Display Technology ◽

Amplification Bias ◽

Large Deletions ◽

Depth Analysis

The combination of phage display technology with high-throughput sequencing enables in-depth analysis of library diversity and selection-driven dynamics. We applied short-read sequencing of the mutagenized region on focused display libraries of two homologous nucleic acid modification eraser proteins—AlkB and FTO—biopanned against methylated DNA. This revealed enriched genotypes with small indels and concomitant doubtful amino acid motifs within the FTO library. Nanopore sequencing of the entire display vector showed additional enrichment of large deletions overlooked by region-specific sequencing, and further impacted the interpretation of the obtained amino acid motifs. We could attribute enrichment of these corrupted clones to amplification bias due to arduous FTO display slowing down host cell growth as well as phage production. This amplification bias appeared to be stronger than affinity-based target selection. Recommendations are provided for proper sequence analysis of phage display data, which can improve motive discovery in libraries of proteins that are difficult to display.

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Emerging Therapeutics Based on the Amino Acid Neurotransmitter System: An Update on the Pharmaceutical Pipeline for Mood Disorders

Chronic Stress ◽

10.1177/24705470211020446 ◽

2021 ◽

Vol 5 ◽

pp. 247054702110204

Author(s):

Julia Hecking ◽

Pasha A. Davoudian ◽

Samuel T. Wilkinson

Keyword(s):

Amino Acid ◽

Mood Disorders ◽

Phase Iii ◽

Public Health Issue ◽

Complex Nature ◽

Novel Therapies ◽

Amino Acid Neurotransmitters ◽

Neurotransmitter System ◽

Phase Iii Clinical Trials ◽

The World

Mood disorders represent a pressing public health issue and significant source of disability throughout the world. The classical monoamine hypothesis, while useful in developing improved understanding and clinical treatments, has not fully captured the complex nature underlying mood disorders. Despite these shortcomings, the monoamine hypothesis continues to dominate the conceptual framework when approaching mood disorders. However, recent advances in basic and clinical research have led to a greater appreciation for the role that amino acid neurotransmitters play in the pathophysiology of mood disorders and as potential targets for novel therapies. In this article we review progress of compounds that focus on these systems. We cover both glutamate-targeting drugs such as: esketamine, AVP-786, REL-1017, AXS-05, rapastinel (GLYX-13), AV-101, NRX-101; as well as GABA-targeting drugs such as: brexanolone (SAGE-547), ganaxolone, zuranolone (SAGE-217), and PRAX-114. We focus the review on phase-II and phase-III clinical trials and evaluate the extant data and progress of these compounds.

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AMINO ACID CATABOLISM

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)74230-0 ◽

1938 ◽

Vol 122 (2) ◽

pp. 491-496 ◽

Cited By ~ 1

Author(s):

Fred H. Snyder ◽

Ralph C. Corley

Keyword(s):

Amino Acid ◽

Amino Acid Catabolism

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Disentangling Responses of the Subsurface Microbiome to Wetland Status and Implications for Indicating Ecosystem Functions

Microorganisms ◽

10.3390/microorganisms9020211 ◽

2021 ◽

Vol 9 (2) ◽

pp. 211

Author(s):

Jie Gao ◽

Miao Liu ◽

Sixue Shi ◽

Ying Liu ◽

Yu Duan ◽

...

Keyword(s):

Microbial Community ◽

High Throughput Sequencing ◽

Carbon Fixation ◽

Microbial Community Composition ◽

Ecosystem Functions ◽

Microbial Composition ◽

Wetland Ecosystems ◽

Soil Microbial ◽

Geochemical Properties ◽

Microbial Groups

In this study, we analyzed microbial community composition and the functional capacities of degraded sites and restored/natural sites in two typical wetlands of Northeast China—the Phragmites marsh and the Carex marsh, respectively. The degradation of these wetlands, caused by grazing or land drainage for irrigation, alters microbial community components and functional structures, in addition to changing the aboveground vegetation and soil geochemical properties. Bacterial and fungal diversity at the degraded sites were significantly lower than those at restored/natural sites, indicating that soil microbial groups were sensitive to disturbances in wetland ecosystems. Further, a combined analysis using high-throughput sequencing and GeoChip arrays showed that the abundance of carbon fixation and degradation, and ~95% genes involved in nitrogen cycling were increased in abundance at grazed Phragmites sites, likely due to the stimulating impact of urine and dung deposition. In contrast, the abundance of genes involved in methane cycling was significantly increased in restored wetlands. Particularly, we found that microbial composition and activity gradually shifts according to the hierarchical marsh sites. Altogether, this study demonstrated that microbial communities as a whole could respond to wetland changes and revealed the functional potential of microbes in regulating biogeochemical cycles.

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