Phylogenetic Distribution of Polysaccharide-Degrading Enzymes in Marine Bacteria

Deconstruction is an essential step of conversion of polysaccharides, and polysaccharide-degrading enzymes play a key role in this process. Although there is recent progress in the identification of these enzymes, the diversity and phylogenetic distribution of these enzymes in marine microorganisms remain largely unknown, hindering our understanding of the ecological roles of marine microorganisms in the ocean carbon cycle. Here, we studied the phylogenetic distribution of nine types of polysaccharide-degrading enzymes in marine bacterial genomes. First, we manually compiled a reference sequence database containing 961 experimentally verified enzymes. With this reference database, we annotated 9,335 enzyme sequences from 2,182 high-quality marine bacterial genomes, revealing extended distribution for six enzymes at the phylum level and for all nine enzymes at lower taxonomic levels. Next, phylogenetic analyses revealed intra-clade diversity in the encoding potentials and phylogenetic conservation of a few enzymes at the genus level. Lastly, our analyses revealed correlations between enzymes, with alginate lyases demonstrating the most extensive correlations with others. Intriguingly, chitinases showed negative correlations with cellulases, alginate lyases, and agarases in a few genera. This result suggested that intra-genus lifestyle differentiation occurred many times in marine bacteria and that the utilization of polysaccharides may act as an important driver in the recent ecological differentiation of a few lineages. This study expanded our knowledge of the phylogenetic distribution of polysaccharide enzymes and provided insights into the ecological differentiation of marine bacteria.

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Toward a global reference database of COI barcodes for marine zooplankton

Marine Biology ◽

10.1007/s00227-021-03887-y ◽

2021 ◽

Vol 168 (6) ◽

Author(s):

Ann Bucklin ◽

Katja T. C. A. Peijnenburg ◽

Ksenia N. Kosobokova ◽

Todd D. O’Brien ◽

Leocadio Blanco-Bercial ◽

...

Keyword(s):

Species Diversity ◽

Dna Sequences ◽

Reference Sequence ◽

Global Ocean ◽

Reference Database ◽

Data Repositories ◽

Marine Zooplankton ◽

The North ◽

Coi Sequences ◽

Taxonomic Groups

AbstractCharacterization of species diversity of zooplankton is key to understanding, assessing, and predicting the function and future of pelagic ecosystems throughout the global ocean. The marine zooplankton assemblage, including only metazoans, is highly diverse and taxonomically complex, with an estimated ~28,000 species of 41 major taxonomic groups. This review provides a comprehensive summary of DNA sequences for the barcode region of mitochondrial cytochrome oxidase I (COI) for identified specimens. The foundation of this summary is the MetaZooGene Barcode Atlas and Database (MZGdb), a new open-access data and metadata portal that is linked to NCBI GenBank and BOLD data repositories. The MZGdb provides enhanced quality control and tools for assembling COI reference sequence databases that are specific to selected taxonomic groups and/or ocean regions, with associated metadata (e.g., collection georeferencing, verification of species identification, molecular protocols), and tools for statistical analysis, mapping, and visualization. To date, over 150,000 COI sequences for ~ 5600 described species of marine metazoan plankton (including holo- and meroplankton) are available via the MZGdb portal. This review uses the MZGdb as a resource for summaries of COI barcode data and metadata for important taxonomic groups of marine zooplankton and selected regions, including the North Atlantic, Arctic, North Pacific, and Southern Oceans. The MZGdb is designed to provide a foundation for analysis of species diversity of marine zooplankton based on DNA barcoding and metabarcoding for assessment of marine ecosystems and rapid detection of the impacts of climate change.

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Alginate Lyases of Varying Substrate Specificities from Marine Bacteria

Biomass Energy Development ◽

10.1007/978-1-4757-0590-4_26 ◽

1986 ◽

pp. 303-320 ◽

Cited By ~ 3

Author(s):

Tony Romeo ◽

John C. Bromley ◽

James F. Preston

Keyword(s):

Marine Bacteria ◽

Substrate Specificities ◽

Alginate Lyases

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Evaluation of the Petrifilm Aerobic Count Plate for Enumeration of Aerobic Marine Bacteria from Seawater and Caulerpa lentillifera

Journal of Food Protection ◽

10.4315/0362-028x-73.8.1529 ◽

2010 ◽

Vol 73 (8) ◽

pp. 1529-1532 ◽

Cited By ~ 8

Author(s):

JUN KUDAKA ◽

TORU HORII ◽

KOJI TAMANAHA ◽

KIYOMASA ITOKAZU ◽

MASAJI NAKAMURA ◽

...

Keyword(s):

Marine Bacteria ◽

Close Correlation ◽

Marine Microorganisms ◽

Marine Agar ◽

Suitable Alternative ◽

Edible Seaweed ◽

Sterile Seawater ◽

Caulerpa Lentillifera ◽

Simple Detection ◽

Aerobic Count Plate

The enumeration and evaluation of the activity of marine bacteria are important in the food industry. However, detection of marine bacteria in seawater or seafood has not been easy. The Petrifilm aerobic count plate (ACP) is a ready-to-use alternative to the traditional enumeration media used for bacteria associated with food. The purpose of this study was to evaluate the usefulness of a simple detection and enumeration method utilizing the Petrifilm ACP for enumeration of aerobic marine bacteria from seawater and an edible seaweed, Caulerpa lentillifera. The efficiency of enumeration of total aerobic marine bacteria on Petrifilm ACP was compared with that using the spread plate method on marine agar with 80 seawater and 64 C. lentillifera samples. With sterile seawater as the diluent, a close correlation was observed between the method utilizing Petrifilm ACP and that utilizing the conventional marine agar (r = 0.98 for seawater and 0.91 for C. lentillifera). The Petrifilm ACP method was simpler and less time-consuming than the conventional method. These results indicate that Petrifilm ACP is a suitable alternative to conventional marine agar for enumeration of marine microorganisms in seawater and C. lentillifera samples.

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Overcoming limitations to environmental DNA studies: A coastal temperate reference sequence database for multiple chloroplast gene regions generated in a single assay.

10.22541/au.163252330.05592688/v1 ◽

2021 ◽

Author(s):

Nicole Foster ◽

Kor-jent Dijk ◽

Ed Biffin ◽

Jennifer Young ◽

Vicki Thomson ◽

...

Keyword(s):

Dna Sequences ◽

Dna Barcode ◽

Environmental Dna ◽

Reference Sequence ◽

Reference Database ◽

Chloroplast Gene ◽

Coastal Plants ◽

Reference Databases ◽

Targeted Capture ◽

Comprehensive Reference

A proliferation in environmental DNA (eDNA) research has increased the reliance on reference sequence databases to assign unknown DNA sequences to known taxa. Without comprehensive reference databases, DNA extracted from environmental samples cannot be correctly assigned to taxa, limiting the use of this genetic information to identify organisms in unknown sample mixtures. For animals, standard metabarcoding practices involve amplification of the mitochondrial Cytochrome-c oxidase subunit 1 (CO1) region, which is a universally amplifyable region across majority of animal taxa. This region, however, does not work well as a DNA barcode for plants and fungi, and there is no similar universal single barcode locus that has the same species resolution. Therefore, generating reference sequences has been more difficult and several loci have been suggested to be used in parallel to get to species identification. For this reason, we developed a multi-gene targeted capture approach to generate reference DNA sequences for plant taxa across 20 target chloroplast gene regions in a single assay. We successfully compiled a reference database for 93 temperate coastal plants including seagrasses, mangroves, and saltmarshes/samphire’s. We demonstrate the importance of a comprehensive reference database to prevent species going undetected in eDNA studies. We also investigate how using multiple chloroplast gene regions impacts the ability to discriminate between taxa.

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Metagenomic profiling of host-associated bacteria from 8 datasets of the red alga Porphyra purpurea, with MetaPhlAn 3.0

10.1101/2020.11.17.386862 ◽

2020 ◽

Author(s):

Orestis Nousias ◽

Federica Montesanto

Keyword(s):

16S Rrna ◽

Bacterial Species ◽

Reference Database ◽

Marker Genes ◽

Specific Marker ◽

Bacterial Genomes ◽

Associated Bacteria ◽

Pan Genome ◽

Nucleotide Database ◽

Porphyra Purpurea

AbstractMicrobial communities play a fundamental role in the association with marine algae, in fact they are recognized to be actively involved in growth and morphogenesis.Porphyra purpurea is a red algae commonly found in the intertidal zone with an high economical value, indeed several species belonging to the genus Porphyra are intensely cultivated in the Eastern Asian countries. Moreover, P. purpurea is widely used as model species in different fields, mainly due to its peculiar life cycle. Despite of that, little is known about the microbial community associated to this species. Here we report the microbial-associated diversity of P. purpurea in four different localities (Ireland, Italy United Kingdom and USA) through the analysis of eight metagenomic datasets obtained from the publicly available metagenomic nucleotide database (https://www.ebi.ac.uk/ena/). The metagenomic datasets were quality controlled with FastQC version 0.11.8, pre-processed with Trimmomatic version 0.39 and analysed with Methaplan 3.0, with a reference database containing clade specific marker genes from ~ 99.500 bacterial genomes, following the pan-genome approach, in order to identify the putative bacterial taxonomies and their relative abundances. Furthermore, we compared the results to the 16S rRNA metagenomic analysis pipeline of MGnify database to evaluate the effectiveness of the two methods. Out of the 43 bacterial species identified with MetaPhlAn 3.0 only 5 were common with the MGnify results and from the 21 genera, only 9 were common. This approach highlighted the different taxonomical resolution of a 16S rRNA OTU-based method in contrast to the pan-genome approach deployed by MetaPhlAn 3.0.

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Database establishment for the secondary fungal DNA barcodetranslational elongation factor 1α(TEF1α)

Genome ◽

10.1139/gen-2018-0083 ◽

2019 ◽

Vol 62 (3) ◽

pp. 160-169 ◽

Cited By ~ 8

Author(s):

Wieland Meyer ◽

Laszlo Irinyi ◽

Minh Thuy Vi Hoang ◽

Vincent Robert ◽

Dea Garcia-Hermoso ◽

...

Keyword(s):

Dna Sequences ◽

Fungal Infections ◽

Dna Barcode ◽

Elongation Factor ◽

Its Region ◽

Reference Sequence ◽

Diagnostic Tools ◽

Reference Database ◽

Elongation Factor 1Α ◽

Fungal Dna

With new or emerging fungal infections, human and animal fungal pathogens are a growing threat worldwide. Current diagnostic tools are slow, non-specific at the species and subspecies levels, and require specific morphological expertise to accurately identify pathogens from pure cultures. DNA barcodes are easily amplified, universal, short species-specific DNA sequences, which enable rapid identification by comparison with a well-curated reference sequence collection. The primary fungal DNA barcode, ITS region, was introduced in 2012 and is now routinely used in diagnostic laboratories. However, the ITS region only accurately identifies around 75% of all medically relevant fungal species, which has prompted the development of a secondary barcode to increase the resolution power and suitability of DNA barcoding for fungal disease diagnostics. The translational elongation factor 1α (TEF1α) was selected in 2015 as a secondary fungal DNA barcode, but it has not been implemented into practice, due to the absence of a reference database. Here, we have established a quality-controlled reference database for the secondary barcode that together with the ISHAM-ITS database, forms the ISHAM barcode database, available online at http://its.mycologylab.org/ . We encourage the mycology community for active contributions.

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PPK1 and PPK2 — which polyphosphate kinase is older?

Biologia ◽

10.2478/s11756-013-0324-x ◽

2014 ◽

Vol 69 (3) ◽

Cited By ~ 8

Author(s):

Lucia Achbergerová ◽

Jozef Nahálka

Keyword(s):

Escherichia Coli ◽

Pseudomonas Aeruginosa ◽

Amino Acid ◽

Phylogenetic Analyses ◽

Linear Molecule ◽

Polyphosphate Kinase ◽

Hypothetical Proteins ◽

Bacterial Genomes ◽

Metabolic Balance ◽

Domains Of Life

AbstractPolyphosphate kinases (PPKs) catalyse the polymerisation and degradation of polyphosphate chains. As a result of this process, PPK produces or consumes energy in the form of ATP. Polyphosphate is a linear molecule that contains tens to hundreds of phosphate residues connected by macroergic bonds, and it appears to be an easily obtainable and rich source of energy from prebiotic times to the present. Notably, polyphosphate is present in the cells of all three domains of life, but PPKs are widely distributed only in Bacteria, as Archaea and Eucarya use various unrelated or “nonhomologous” proteins for energy and metabolic balance. The present study focuses on PPK1 and PPK2 homologues, which have been described to some extent in Bacteria, and the aim was to determine which homologue group, PPK1 or PPK2, is older. Phylogenetic analyses of 109 sequence homologues of Escherichia coli PPK1 and 109 sequence homologues of Pseudomonas aeruginosa PPK2 from 109 bacterial genomes imply that polyphosphate consumption (PPK2) evolved first and that phosphate polymerisation (PPK1) evolved later. Independently, a theory of the trends in amino acid loss and gain also confirms that PPK2 is older than PPK1. According to the results of this study, we propose 68 hypothetical proteins to mark as PPK2 homologues and 3 hypothetical proteins to mark as PPK1 homologues.

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Identification of Campylobacter spp. and discrimination from Helicobacter and Arcobacter spp. by direct sequencing of PCR-amplified cpn60 sequences and comparison to cpnDB, a chaperonin reference sequence database

Journal of Medical Microbiology ◽

10.1099/jmm.0.46282-0 ◽

2006 ◽

Vol 55 (4) ◽

pp. 393-399 ◽

Cited By ~ 50

Author(s):

Janet E. Hill ◽

Ana Paccagnella ◽

Kee Law ◽

Pasquale L. Melito ◽

David L. Woodward ◽

...

Keyword(s):

Direct Sequencing ◽

Reference Sequence ◽

Universal Primers ◽

Reference Database ◽

Robust Method ◽

Sequence Database ◽

Bacterial Isolates ◽

Require Time ◽

Campylobacter Spp ◽

Sequence Identities

A robust method for the identification of Campylobacter spp. based on direct sequencing of PCR-amplified partial cpn60 sequences and comparison of these to a reference database of cpn60 sequences is reported. A total of 53 Campylobacter isolates, representing 15 species, were identified and distinguished from phenotypically similar Helicobacter and Arcobacter strains. Pairwise cpn60 sequence identities between Campylobacter spp. ranged from 71 to 92 %, with most between 71 and 79 %, making discrimination of these species obvious. The method described overcomes limitations of existing PCR-based methods, which require time-consuming and complex post-amplification steps such as the cloning of amplification products. The results of this study demonstrate the potential for use of the reference chaperonin sequence database, cpnDB, as a tool for identification of bacterial isolates based on cpn60 sequences amplified with universal primers.

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Research Progress in Anti-Inflammatory Bioactive Substances Derived from Marine Microorganisms, Sponges, Algae, and Corals

Marine Drugs ◽

10.3390/md19100572 ◽

2021 ◽

Vol 19 (10) ◽

pp. 572

Author(s):

Chao-Qun Li ◽

Qin-Yuan Ma ◽

Xiu-Zhen Gao ◽

Xuan Wang ◽

Bei-Li Zhang

Keyword(s):

Marine Bacteria ◽

Marine Organism ◽

Research Progress ◽

Defense Reaction ◽

Marine Microorganisms ◽

Bioactive Substances ◽

Evaluation Models ◽

Inflammatory Drugs ◽

Anti Inflammatory ◽

Bacteria And Fungi

Inflammation is the body’s defense reaction in response to stimulations and is the basis of various physiological and pathological processes. However, chronic inflammation is undesirable and closely related to the occurrence and development of diseases. The ocean gives birth to unique and diverse bioactive substances, which have gained special attention and been a focus for anti-inflammatory drug development. So far, numerous promising bioactive substances have been obtained from various marine organisms such as marine bacteria and fungi, sponges, algae, and coral. This review covers 71 bioactive substances described during 2015–2020, including the structures (65 of which), species sources, evaluation models and anti-inflammatory activities of these substances. This review aims to provide some reference for the research progress of marine-organism-derived anti-inflammatory metabolites and give more research impetus for their conversion to novel anti-inflammatory drugs.

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Discovery of a Streptococcus pneumoniae serotype 33F capsular polysaccharide locus that lacks wcjE and contains a wcyO pseudogene

10.1101/308767 ◽

2018 ◽

Author(s):

Sam Manna ◽

Eileen M. Dunne ◽

Belinda D. Ortika ◽

Casey L. Pell ◽

Mike Kama ◽

...

Keyword(s):

Streptococcus Pneumoniae ◽

Capsular Polysaccharide ◽

Sequence Similarity ◽

Phylogenetic Analyses ◽

Latex Agglutination ◽

Reference Sequence ◽

Middle Income ◽

Capsule Locus ◽

Vaccine Impact ◽

Quellung Reaction

AbstractObjectivesAs part of large on-going vaccine impact studies in Fiji and Mongolia, we identified 25/2750 (0.9%) of nasopharyngeal swabs by microarray that were positive for Streptococcus pneumoniae contained pneumococci with a divergent 33F capsular polysaccharide locus (designated ‘33F-1’). We investigated the 33F-1 capsular polysaccharide locus to better understand the genetic variation and its potential impact on serotyping results.MethodsWhole genome sequencing was conducted on ten 33F-1 pneumococcal isolates. Initially, sequence reads were used for molecular serotyping by PneumoCaT. Phenotypic typing of 33F-1 isolates was then performed using the Quellung reaction and latex agglutination. Genome assemblies were used in phylogenetic analyses of each gene in the capsular locus to investigate genetic divergence.ResultsAll ten pneumococcal isolates with the 33F-1 cps locus typed as 33F by Quellung and latex agglutination. Unlike the reference 33F capsule locus sequence, DNA microarray and PneumoCaT analyses found that 33F-1 pneumococci lack the wcjE gene, and instead contain wcyO with a frameshift mutation. Phylogenetic analyses found the wzg, wzh, wzd, wze, wchA, wciG and glf genes in the 33F-1 cps locus had higher DNA sequence similarity to homologues from other serotypes than to the 33F reference sequence.ConclusionsWe have discovered a novel genetic variant of serotype 33F, which lacks wcjE and contains a wcyO pseudogene. This finding adds to the understanding of molecular epidemiology of pneumococcal serotype diversity, which is poorly understood in low and middle-income countries.

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