Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes

Sberro, Hila; Fremin, Brayon J.; Zlitni, Soumaya; Edfors, Fredrik; Greenfield, Nicholas; Snyder, M; Pavlopoulos, Georgios A.; Kyrpides, Nikos C.; Bhatt, Ami S.

doi:10.1016/j.cell.2019.07.016

Cited by 192 publications

(240 citation statements)

References 95 publications

(121 reference statements)

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“…Signalling or interactions between cells will be a significant area to investigate regarding possible functions of antisense proteins. This suggestion is based on both the evidence gained so far for small proteins (Sberro et al, 2019) and the potential importance of any such genes. Any antisense proteins which are involved in signalling or inter-cell interactions may be of particular practical importance.…”

Section: Phenotypes Of Antisense Proteinsmentioning

confidence: 99%

“…As an example, the NCBI prokaryotic genome annotation standards include among the minimum standards that there can be "[n]o gene completely contained in another gene on the same or opposite strand" (NCBI, 2020). For instance, a recent study investigated small proteins in the human microbiome (Sberro et al, 2019), finding hundreds of previously unknown small proteins with evidence from evolutionary sequence constraint, and many also with evidence of transcription and/or translation. Two key steps were the use of MetaProdigal for gene prediction and RNAcode for inference of conservation.…”

Section: Recommendations For Further Researchmentioning

confidence: 99%

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Are Antisense Proteins in Prokaryotes Functional?

Ardern

Neuhaus

Scherer

2020

Preprint

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Many prokaryotic RNAs are transcribed from loci outside of annotated protein coding genes.Across bacterial species hundreds of short open reading frames antisense to annotated genes show evidence of both transcription and translation, for instance in ribosome profiling data. Determining the functional fraction of these protein products awaits further research, including insights from studies of molecular interactions and detailed evolutionary analysis.There are multiple lines of evidence however that many of these newly discovered proteins are of use to the organism. Condition-specific phenotypes have been characterised for a few. These proteins should be added to genome annotations, and the methods for predicting them standardised. Evolutionary analysis of these typically young sequences also may provide important insights into gene evolution. This research should be prioritised for its exciting potential to uncover large numbers of novel proteins with extremely diverse potential practical uses, including applications in synthetic biology and responding to pathogens.

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Section: Phenotypes Of Antisense Proteinsmentioning

confidence: 99%

Section: Recommendations For Further Researchmentioning

confidence: 99%

Are Antisense Proteins in Prokaryotes Functional?

Ardern

Neuhaus

Scherer

2020

Preprint

View full text Add to dashboard Cite

show abstract

“…Similar is the case of small protein members of toxinantitoxin (TA) systems, particularly type-II, where both the toxin and the antitoxin are proteins (Harms et al, 2018). However, starting with the discovery almost two decades ago of previously overlooked conserved small open reading frames (sORFs) in the Escherichia coli chromosome (Wassarman et al, 2001), interest in other potential roles of bacterial small proteins has been increasing (Miravet-Verde et al, 2019;Sberro et al, 2019;Storz et al, 2014). In-depth characterization of individual small proteins has since revealed an unexpected diversity of functions in several different species.…”

Section: Introductionmentioning

confidence: 99%

A global data-driven census of Salmonella small proteins and their potential functions in bacterial virulence

Venturini

Svensson

Maaß

et al. 2020

Preprint

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Small proteins are an emerging class of gene products with diverse roles in bacterial physiology. However, a full understanding of their importance has been hampered by insufficient genome annotations and a lack of comprehensive characterization in microbes other than Escherichia coli. We have taken an integrative approach to accelerate the discovery of small proteins and their putative virulence-associated functions in Salmonella Typhimurium. We merged the annotated small proteome of Salmonella with new small proteins predicted with in silico and experimental approaches. We then exploited existing and newly generated global datasets that provide information on small open reading frame expression during infection of epithelial cells (dual RNA-seq), contribution to bacterial fitness inside macrophages (TraDIS), and potential engagement in molecular interactions (Grad-seq). This integrative approach suggested a new role for the small protein MgrB beyond its known function in regulating PhoQ. We demonstrate a virulence and motility defect of a Salmonella ΔmgrB mutant and reveal an effect of MgrB in regulating the Salmonella transcriptome and proteome under infection-relevant conditions. Our study highlights the power of interpreting available “omics” datasets with a focus on small proteins, and may serve as a blueprint for a data integration-based survey of small proteins in diverse bacteria.

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“…Over the last years, various attempts have been made that address one or both of these issues. This includes experimental approaches such as ribosomal profiling and proteogenomics to identify these group of proteins as well as bioinformatic approaches for a more reliable prediction and comprehensive annotation of sORFs (14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25)(26). For instance, different computational approaches have been developed for sORF prediction which have in common that the coding potential of a putative sORF is scored based on at least one or more features such as nucleotide composition, synonymous and non-synonymous substitution rates, phylogenetic conservation or protein domain detection (13,16).…”

Section: Introductionmentioning

confidence: 99%

A proteogenomics workflow to uncover the world of small proteins inStaphylococcus aureus

Fuchs

Kucklick

Lehmann

et al. 2020

Preprint

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Small proteins play diverse and essential roles in bacterial physiology and virulence. Despite their importance, automated genome annotation algorithms still cannot accurately annotate all respective small open reading frames (sORFs), as they usually provide insufficient sequence information for domain and homology searches, tend to be species specific and only a few experimentally validated examples are covered in standard proteomics studies. The accuracy and reliability of genome annotations, particularly for sORFs, can be significantly improved by integrating protein evidence from experimental approaches that enrich for small proteins. Here we present a highly optimized and flexible workflow for bacterial proteogenomics, which covers all steps from (i) creation of protein databases, (ii) database searches, (iii) peptide-to-genome mapping to (iv) result interpretation and whose automated execution is supported by two open source tools (SALT & Pepper). We used the workflow to identify high quality peptide spectrum matches (PSMs) for both annotated and unannotated small proteins (≤ 100 aa; SP100) in Staphylococcus aureus Newman. Proteins isolated from cells at the exponential and stationary growth phase were digested with different endopeptidases (trypsin, Lys-C, AspN), the resulting peptides fractionated by gel-based and gel-free methods and measured with highly sensitive mass spectrometers. PSMs or sORF predictions from sORFfinder were stringently filtered allowing us to detect 185 soluble SP100, 69 of which were missing in the used genome annotation. Most interestingly, almost half of the identified SP100 were basic, suggesting a role in binding to more acidic molecules such as nucleic acids or phospholipids. In addition, phage-related functions were proposed for 30 SP100, based on the localization of their coding sequences in the genome.

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Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes

Cited by 192 publications

References 95 publications

Are Antisense Proteins in Prokaryotes Functional?

Are Antisense Proteins in Prokaryotes Functional?

A global data-driven census of Salmonella small proteins and their potential functions in bacterial virulence

A proteogenomics workflow to uncover the world of small proteins inStaphylococcus aureus

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