Using “ omics ” and integrated multi-omics approaches to guide 1 probiotic selection to mitigate chytridiomycosis and other emerging 2 infectious diseases 3 4

37 38 Running title: Using multi-omics for probiotic selection 39 40

[1]  T. Bozoğlu,et al.  Probiotics and Prebiotics , 2016 .

[2]  C. Spearman The proof and measurement of association between two things. , 2015, International journal of epidemiology.

[3]  R. Jensen,et al.  Most of the Dominant Members of Amphibian Skin Bacterial Communities Can Be Readily Cultured , 2015, Applied and Environmental Microbiology.

[4]  R. Knight,et al.  Skin bacteria provide early protection for newly metamorphosed southern leopard frogs (Rana sphenocephala) against the frog-killing fungus, Batrachochytrium dendrobatidis , 2015 .

[5]  T. Keitt,et al.  Resilience vs. historical contingency in microbial responses to environmental change. , 2015, Ecology letters.

[6]  T. Shimosato,et al.  Effect of Probiotics/Prebiotics on Cattle Health and Productivity , 2015, Microbes and environments.

[7]  Mingyao Yang,et al.  The bacterial communities associated with fecal types and body weight of rex rabbits , 2015, Scientific Reports.

[8]  R. Knight,et al.  Antifungal isolates database of amphibian skin-associated bacteria and function against emerging fungal pathogens , 2015 .

[9]  Benoit Barrès,et al.  Co-infection alters population dynamics of infectious disease , 2015, Nature Communications.

[10]  Samuel C Forster,et al.  Systematic discovery of probiotics , 2015, Nature Biotechnology.

[11]  W. Huber,et al.  Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2 , 2014, Genome Biology.

[12]  C. Briggs,et al.  The pathogen Batrachochytrium dendrobatidis disturbs the frog skin microbiome during a natural epidemic and experimental infection , 2014, Proceedings of the National Academy of Sciences.

[13]  E. Borenstein,et al.  Mapping the inner workings of the microbiome: genomic- and metagenomic-based study of metabolism and metabolic interactions in the human microbiome. , 2014, Cell metabolism.

[14]  R. Alford,et al.  Cool Temperatures Reduce Antifungal Activity of Symbiotic Bacteria of Threatened Amphibians – Implications for Disease Management and Patterns of Decline , 2014, PloS one.

[15]  Anna E. Savage,et al.  Conservation and divergence in the frog immunome: pyrosequencing and de novo assembly of immune tissue transcriptomes. , 2014, Gene.

[16]  R. Jensen,et al.  Amphibian skin may select for rare environmental microbes , 2014, The ISME Journal.

[17]  D. Underhill,et al.  The mycobiota: interactions between commensal fungi and the host immune system , 2014, Nature Reviews Immunology.

[18]  M. Schrope Sea star wasting , 2014, Proceedings of the National Academy of Sciences of the United States of America.

[19]  A. Lagalante,et al.  Nonlethal amphibian skin swabbing of cutaneous natural products for HPLC fingerprinting , 2014 .

[20]  R. Preziosi,et al.  Impact of Plant Cover on Fitness and Behavioural Traits of Captive Red-Eyed Tree Frogs (Agalychnis callidryas) , 2014, PloS one.

[21]  Scott Powell,et al.  Stability and phylogenetic correlation in gut microbiota: lessons from ants and apes , 2014, Molecular ecology.

[22]  Elhanan Borenstein,et al.  Metagenomic systems biology and metabolic modeling of the human microbiome , 2014, Gut microbes.

[23]  L. Ruiz,et al.  Omics for the study of probiotic microorganisms , 2013 .

[24]  Jesse R. Zaneveld,et al.  Predictive functional profiling of microbial communities using 16S rRNA marker gene sequences , 2013, Nature Biotechnology.

[25]  Robert M. Brucker,et al.  The Hologenomic Basis of Speciation: Gut Bacteria Cause Hybrid Lethality in the Genus Nasonia , 2013, Science.

[26]  E. Borenstein,et al.  Metabolic modeling of species interaction in the human microbiome elucidates community-level assembly rules , 2013, Proceedings of the National Academy of Sciences.

[27]  R. Alford,et al.  Hot bodies protect amphibians against chytrid infection in nature , 2013, Scientific Reports.

[28]  D. Woodhams,et al.  Hybrid advantage in skin peptide immune defenses of water frogs (Pelophylax esculentus) at risk from emerging pathogens. , 2012, Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases.

[29]  P. Daszak,et al.  Novel, panzootic and hybrid genotypes of amphibian chytridiomycosis associated with the bullfrog trade , 2012, Molecular ecology.

[30]  D. Woodhams,et al.  Tolerance of fungal infection in European water frogs exposed to Batrachochytrium dendrobatidis after experimental reduction of innate immune defenses , 2012, BMC Veterinary Research.

[31]  Jonathan Friedman,et al.  Inferring Correlation Networks from Genomic Survey Data , 2012, PLoS Comput. Biol..

[32]  J. Raes,et al.  Microbial interactions: from networks to models , 2012, Nature Reviews Microbiology.

[33]  William A. Walters,et al.  Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms , 2012, The ISME Journal.

[34]  Robert M. Brucker,et al.  THE ROLES OF HOST EVOLUTIONARY RELATIONSHIPS (GENUS: NASONIA) AND DEVELOPMENT IN STRUCTURING MICROBIAL COMMUNITIES , 2012, Evolution; international journal of organic evolution.

[35]  Michael Mitzenmacher,et al.  Detecting Novel Associations in Large Data Sets , 2011, Science.

[36]  S. Gervasi,et al.  Differential Host Susceptibility to Batrachochytrium dendrobatidis, an Emerging Amphibian Pathogen , 2011, Conservation biology : the journal of the Society for Conservation Biology.

[37]  L. Reinert,et al.  Amphibian immune defenses against chytridiomycosis: impacts of changing environments. , 2011, Integrative and comparative biology.

[38]  K. Zamudio,et al.  MHC genotypes associate with resistance to a frog-killing fungus , 2011, Proceedings of the National Academy of Sciences.

[39]  R. Harris,et al.  Gut of Red-backed Salamanders (Plethodon cinereus) May Serve as a Reservoir for an Antifungal Cutaneous Bacterium , 2011 .

[40]  D. Caron,et al.  Marine bacterial, archaeal and protistan association networks reveal ecological linkages , 2011, The ISME Journal.

[41]  Jizhong Zhou,et al.  Phylogenetic Molecular Ecological Network of Soil Microbial Communities in Response to Elevated CO2 , 2011, mBio.

[42]  Jed A Fuhrman,et al.  Co-occurrence patterns for abundant marine archaeal and bacterial lineages in the deep chlorophyll maximum of coastal California , 2011, The ISME Journal.

[43]  R. Harris,et al.  Social Immunity in Amphibians: Evidence for Vertical Transmission of Innate Defenses , 2011 .

[44]  Rob Knight,et al.  Supervised classification of microbiota mitigates mislabeling errors , 2011, The ISME Journal.

[45]  Ruth Ley,et al.  Unravelling the effects of the environment and host genotype on the gut microbiome , 2011, Nature Reviews Microbiology.

[46]  R. Knight,et al.  Supervised classification of human microbiota. , 2011, FEMS microbiology reviews.

[47]  Heather K. Allen,et al.  Psychrotrophic strain of Janthinobacterium lividum from a cold Alaskan soil produces prodigiosin. , 2010, DNA and cell biology.

[48]  William A. Walters,et al.  Global patterns of 16S rRNA diversity at a depth of millions of sequences per sample , 2010, Proceedings of the National Academy of Sciences.

[49]  W. Huber,et al.  which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. MAnorm: a robust model for quantitative comparison of ChIP-Seq data sets , 2011 .

[50]  P. Chaurand,et al.  Variations in the expressed antimicrobial peptide repertoire of northern leopard frog (Rana pipiens) populations suggest intraspecies differences in resistance to pathogens. , 2009, Developmental and comparative immunology.

[51]  Carl T. Bergstrom,et al.  Mapping Change in Large Networks , 2008, PloS one.

[52]  Alison E. Murray,et al.  Metagenome analysis of an extreme microbial symbiosis reveals eurythermal adaptation and metabolic flexibility , 2008, Proceedings of the National Academy of Sciences.

[53]  R. Alford,et al.  Life-history trade-offs influence disease in changing climates: strategies of an amphibian pathogen. , 2008, Ecology.

[54]  A. Kesarcodi-Watson,et al.  Probiotics in aquaculture: The need, principles and mechanisms of action and screening processes , 2008 .

[55]  Jacob A. Tennessen,et al.  Selection for Antimicrobial Peptide Diversity in Frogs Leads to Gene Duplication and Low Allelic Variation , 2007, Journal of Molecular Evolution.

[56]  R. Harris,et al.  Symbiotic bacteria contribute to innate immune defenses of the threatened mountain yellow-legged frog, Rana muscosa , 2007 .

[57]  P. Hudson,et al.  Negative effects of changing temperature on amphibian immunity under field conditions , 2006 .

[58]  Natalia N. Ivanova,et al.  Symbiosis insights through metagenomic analysis of a microbial consortium. , 2006, Nature Reviews Microbiology.

[59]  R. Harris,et al.  Amphibian Pathogen Batrachochytrium dendrobatidis Is Inhibited by the Cutaneous Bacteria of Amphibian Species , 2006, EcoHealth.

[60]  P. Shannon,et al.  Cytoscape: a software environment for integrated models of biomolecular interaction networks. , 2003, Genome research.

[61]  S. Giovannoni,et al.  High-Throughput Methods for Culturing Microorganisms in Very-Low-Nutrient Media Yield Diverse New Marine Isolates , 2002, Applied and Environmental Microbiology.

[62]  M. Schembri,et al.  Bacterial adhesins: function and structure. , 2000, International journal of medical microbiology : IJMM.

[63]  P. Legendre,et al.  SPECIES ASSEMBLAGES AND INDICATOR SPECIES:THE NEED FOR A FLEXIBLE ASYMMETRICAL APPROACH , 1997 .

[64]  R. Huey,et al.  Physiological Consequences of Habitat Selection , 1991, The American Naturalist.

[65]  Gregory F. Piepel,et al.  The Statistical Analysis of Compositional Data , 1988 .

[66]  K. Pearson,et al.  DETERMINATION OF THE COEFFICIENT OF CORRELATION. , 1909, Science.

[67]  Jesse R. Zaneveld,et al.  Effects of library size variance, sparsity, and compositionality on the analysis of microbiome data , 2015 .

[68]  M. Mancuso Probiotics in Aquaculture , 2014 .

[69]  R Core Team,et al.  R: A language and environment for statistical computing. , 2014 .

[70]  Mikael Henaff,et al.  A comprehensive evaluation of multicategory classification methods for microbiomic data , 2013 .

[71]  Dongmei Ai,et al.  Efficient statistical significance approximation for local similarity analysis of high-throughput time series data , 2013, Bioinform..

[72]  Elhanan Borenstein,et al.  Reverse Ecology: from systems to environments and back. , 2012, Advances in experimental medicine and biology.

[73]  R. Knight,et al.  Microbiota restoration: natural and supplemented recovery of human microbial communities , 2011, Nature Reviews Microbiology.

[74]  M. Metzker Sequencing technologies — the next generation , 2010, Nature Reviews Genetics.

[75]  C. Briggs,et al.  IMMUNIZATION IS INEFFECTIVE AT PREVENTING INFECTION AND MORTALITY DUE TO THE AMPHIBIAN CHYTRID FUNGUS BATRACHOCHYTRIUM DENDROBATIDIS , 2010, Journal of Wildlife Diseases.

[76]  D. Wake,et al.  Colloquium paper: are we in the midst of the sixth mass extinction? A view from the world of amphibians. , 2008, Proceedings of the National Academy of Sciences of the United States of America.

[77]  B. Hammock,et al.  Mass spectrometry-based metabolomics. , 2007, Mass spectrometry reviews.

[78]  O. Fiehn Metabolomics – the link between genotypes and phenotypes , 2004, Plant Molecular Biology.

[79]  AN Kolmogorov-Smirnov,et al.  Sulla determinazione empírica di uma legge di distribuzione , 1933 .

[80]  Atsushi Kawaguchi Multivariate Approach , 2022, Multivariate Analysis for Neuroimaging Data.