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3. Pushing the boundaries of rare disease diagnostics with the help of the first Undiagnosed Hackathon

Author

Delgado-Vega, Angelica Maria, Cederroth, Helene, Taylan, Fulya, Ekholm, Katja, Ek, Marlene, Thonberg, Håkan, Jemt, Anders, Nilsson, Daniel, Eisfeldt, Jesper, Bilgrav Saether, Kristine, Höijer, Ida, Akgun-Dogan, Ozlem, Asano, Yui, Barakat, Tahsin Stefan, Batkovskyte, Dominyka, Baynam, Gareth, Bodamer, Olaf, Chetruengchai, Wanna, Corcoran, Pádraic, Couse, Madeline, Danis, Daniel, Demidov, German, Dohi, Eisuke, Erhardsson, Mattias, Fernandez-Luna, Luis, Fujiwara, Toyofumi, Garg, Neha, Giugliani, Roberto, Gonzaga-Jauregui, Claudia, Grigelioniene, Giedre, Groza, Tudor, Gunnarsson, Cecilia, Hammarsjö, Anna, Hammond, Charles Kumi, Hatirnaz Ng, Özden, Hesketh, Sirisha, Hettiarachchi, Dineshani, Johansson Soller, Maria, Kirmani, Umn Ahmed, Kjellberg, Martin, Kvarnung, Malin, Kvlividze, Oleg, Lagerstedt-Robinson, Kristina, Lasko, Paul, Lassmann, Timo, Lau, Lynette Y. S., Laurie, Steven, Lim, Weng Khong, Liu, Zhandong, Lysenkova Wiklander, Mariya, Makay, Prince, Maiga, Alassane Baneye, Maya-González, Carolina, Meyn, M. Stephen, Neethiraj, Ramprasad, Nigro, Vincenzo, Nordgren, Felix, Nordlund, Jessica, Orrsjö, Sara, Ottosson, Jesper, Ozbek, Ugur, Özdemir, Özkan, Partin, Clyde, Pearce, David A., Peck, Raquel, Pedersen, Annie, Pettersson, Maria, Pongpanich, Monnat, Posada de la Paz, Manuel, Ramani, Arun, Romero, Juan Andres, Romero, Vanessa I., Rosenquist, Richard, Saw, Aung Min, Spencer, Matthew, Stattin, Eva-Lena, Srichomthong, Chalurmpon, Tapia-Paez, Isabel, Taruscio, Domenica, Taylor, Julie P., Tkemaladze, Tinatin, Tully, Ian, Tümer, Zeynep, van Zelst-Stams, Wendy A. G., Verloes, Alain, Västerviga, Emma, Wang, Sailan, Yang, Rachel, Yamamoto, Shinya, Yépez, Vicente A., Zhang, Qing, Shotelersuk, Vorasuk, Wiafe, Samuel Agyei, Alanay, Yasemin, Botto, Lorenzo D., Kirmani, Salman, Lumaka, Aimé, Palmer, Elizabeth Emma, Puri, Ratna Dua, Wirta, Valtteri, Lindstrand, Anna, Buske, Orion J., Cederroth, Mikk, and Nordgren, Ann

Published
2024
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4. ExTraCT -- Explainable Trajectory Corrections from language inputs using Textual description of features

Author

Yow, J-Anne, Garg, Neha Priyadarshini, Ramanathan, Manoj, and Ang, Wei Tech

Subjects
Computer Science - Robotics
Abstract

Natural language provides an intuitive and expressive way of conveying human intent to robots. Prior works employed end-to-end methods for learning trajectory deformations from language corrections. However, such methods do not generalize to new initial trajectories or object configurations. This work presents ExTraCT, a modular framework for trajectory corrections using natural language that combines Large Language Models (LLMs) for natural language understanding and trajectory deformation functions. Given a scene, ExTraCT generates the trajectory modification features (scene-specific and scene-independent) and their corresponding natural language textual descriptions for the objects in the scene online based on a template. We use LLMs for semantic matching of user utterances to the textual descriptions of features. Based on the feature matched, a trajectory modification function is applied to the initial trajectory, allowing generalization to unseen trajectories and object configurations. Through user studies conducted both in simulation and with a physical robot arm, we demonstrate that trajectories deformed using our method were more accurate and were preferred in about 80\% of cases, outperforming the baseline. We also showcase the versatility of our system in a manipulation task and an assistive feeding task., Comment: 11 pages, 7 figures

Published
2024

5. Decoding the Molecular Universe -- Workshop Report

Author

Metz, Thomas O., Adkins, Joshua N., Armentrout, Peter B., Chain, Patrick, Chu, Fanny, Corley, Courtney D, Cort, John R., Denis, Elizabeth, Drell, Daniel, Duncan, Katherine R., Ewing, Robert G., Fernandez, Facundo M., Fiehn, Oliver, Garg, Neha, Grimme, Stefan, Henry, Christopher, Hettich, Robert L., Kind, Tobias, Linington, Roger G., Miller, Gary W., Northen, Trent, Overdahl, Kirsten, Patrinos, Ari, Raftery, Daniel, Rigor, Paul, Smith, Richard D., Sobus, Jon, Teeguarden, Justin, Vertes, Akos, Waters, Katrina, Webb-Robertson, Bobbie-Jo, Williams, Antony, and Wishart, David

Subjects
Quantitative Biology - Biomolecules
Abstract

On August 9-10, 2023, a workshop was convened at the Pacific Northwest National Laboratory (PNNL) in Richland, WA that brought together a group of internationally recognized experts in metabolomics, natural products discovery, chemical ecology, chemical and biological threat assessment, cheminformatics, computational chemistry, cloud computing, artificial intelligence, and novel technology development. These experts were invited to assess the value and feasibility of a grand-scale project to create new technologies that would allow the identification and quantification of all small molecules, or to decode the molecular universe. The Decoding the Molecular Universe project would extend and complement the success of the Human Genome Project by developing new capabilities and technologies to measure small molecules (defined as non-protein, non-polymer molecules less than 1500 Daltons) of any origin and generated in biological systems or produced abiotically. Workshop attendees 1) explored what new understanding of biological and environmental systems could be revealed through the lens of small molecules; 2) characterized the similarities in current needs and technical challenges between each science or mission area for unambiguous and comprehensive determination of the composition and quantities of small molecules of any sample; 3) determined the extent to which technologies or methods currently exist for unambiguously and comprehensively determining the small molecule composition of any sample and in a reasonable time; and 4) identified the attributes of the ideal technology or approach for universal small molecule measurement and identification. The workshop concluded with a discussion of how a project of this scale could be undertaken, possible thrusts for the project, early proof-of-principle applications, and similar efforts upon which the project could be modeled.

Published
2023

6. microbeMASST: a taxonomically informed mass spectrometry search tool for microbial metabolomics data

Author

Zuffa, Simone, Schmid, Robin, Bauermeister, Anelize, P. Gomes, Paulo Wender, Caraballo-Rodriguez, Andres M, El Abiead, Yasin, Aron, Allegra T, Gentry, Emily C, Zemlin, Jasmine, Meehan, Michael J, Avalon, Nicole E, Cichewicz, Robert H, Buzun, Ekaterina, Terrazas, Marvic Carrillo, Hsu, Chia-Yun, Oles, Renee, Ayala, Adriana Vasquez, Zhao, Jiaqi, Chu, Hiutung, Kuijpers, Mirte CM, Jackrel, Sara L, Tugizimana, Fidele, Nephali, Lerato Pertunia, Dubery, Ian A, Madala, Ntakadzeni Edwin, Moreira, Eduarda Antunes, Costa-Lotufo, Leticia Veras, Lopes, Norberto Peporine, Rezende-Teixeira, Paula, Jimenez, Paula C, Rimal, Bipin, Patterson, Andrew D, Traxler, Matthew F, Pessotti, Rita de Cassia, Alvarado-Villalobos, Daniel, Tamayo-Castillo, Giselle, Chaverri, Priscila, Escudero-Leyva, Efrain, Quiros-Guerrero, Luis-Manuel, Bory, Alexandre Jean, Joubert, Juliette, Rutz, Adriano, Wolfender, Jean-Luc, Allard, Pierre-Marie, Sichert, Andreas, Pontrelli, Sammy, Pullman, Benjamin S, Bandeira, Nuno, Gerwick, William H, Gindro, Katia, Massana-Codina, Josep, Wagner, Berenike C, Forchhammer, Karl, Petras, Daniel, Aiosa, Nicole, Garg, Neha, Liebeke, Manuel, Bourceau, Patric, Kang, Kyo Bin, Gadhavi, Henna, de Carvalho, Luiz Pedro Sorio, Silva dos Santos, Mariana, Pérez-Lorente, Alicia Isabel, Molina-Santiago, Carlos, Romero, Diego, Franke, Raimo, Brönstrup, Mark, Vera Ponce de León, Arturo, Pope, Phillip Byron, La Rosa, Sabina Leanti, La Barbera, Giorgia, Roager, Henrik M, Laursen, Martin Frederik, Hammerle, Fabian, Siewert, Bianka, Peintner, Ursula, Licona-Cassani, Cuauhtemoc, Rodriguez-Orduña, Lorena, Rampler, Evelyn, Hildebrand, Felina, Koellensperger, Gunda, Schoeny, Harald, Hohenwallner, Katharina, Panzenboeck, Lisa, Gregor, Rachel, O’Neill, Ellis Charles, Roxborough, Eve Tallulah, Odoi, Jane, Bale, Nicole J, Ding, Su, Sinninghe Damsté, Jaap S, Guan, Xue Li, Cui, Jerry J, Ju, Kou-San, Silva, Denise Brentan, Silva, Fernanda Motta Ribeiro, da Silva, Gilvan Ferreira, Koolen, Hector HF, Grundmann, Carlismari, and Clement, Jason A

Subjects
Microbiology, Biological Sciences, Good Health and Well Being, Humans, Tandem Mass Spectrometry, Metabolomics, Databases, Factual, Medical Microbiology
Abstract

microbeMASST, a taxonomically informed mass spectrometry (MS) search tool, tackles limited microbial metabolite annotation in untargeted metabolomics experiments. Leveraging a curated database of >60,000 microbial monocultures, users can search known and unknown MS/MS spectra and link them to their respective microbial producers via MS/MS fragmentation patterns. Identification of microbe-derived metabolites and relative producers without a priori knowledge will vastly enhance the understanding of microorganisms' role in ecology and human health.

Published
2024

13. Phase-Binarized Spintronic Oscillators for Combinatorial Optimization, and Comparison with Alternative Classical and Quantum Methods

Author

Garg, Neha, Singhal, Sanyam, Aggarwal, Nakul, Sadashiva, Aniket, Muduli, Pranaba K., and Bhowmik, Debanjan

Subjects
Physics - Applied Physics, Quantum Physics
Abstract

Solving combinatorial optimization problems efficiently through emerging hardware by converting the problem to its equivalent Ising model and obtaining its ground state is known as Ising computing. Phase-binarized oscillators (PBO), modeled through the Kuramoto model, have been proposed for Ising computing, and various device technologies have been used to experimentally implement such PBOs. In this paper, we show that an array of four dipole-coupled uniform-mode spin Hall nano oscillators (SHNOs) can be used to implement such PBOs and solve the NP-Hard combinatorial problem MaxCut on 4-node complete weighted graphs. We model the spintronic oscillators through two techniques: an approximate model for coupled magnetization dynamics of spin oscillators, and Landau Lifshitz Gilbert Slonckzweski (LLGS) equation-based more accurate magnetization dynamics modeling of such oscillators. Next, we compare the performance of these room-temperature-operating spin oscillators, as well as generalized PBOs, with two other alternative methods that solve the same MaxCut problem: a classical approximation algorithm, known as Goemans-Williamson's (GW) algorithm, and a Noisy Intermediate Scale Quantum (NISQ) algorithm, known as Quantum Approximation Optimization Algorithm (QAOA). For four types of graphs, with graph size up to twenty nodes, we show that approximation ratio (AR) and success probability (SP) obtained for generalized PBOs (Kuramoto model), as well as spin oscillators, are comparable to that for GW and much higher than that of QAOA for almost all graph instances. Moreover, unlike GW, the time to solution (TTS) for generalized PBOs and spin oscillators does not grow with graph size for the instances we have explored. This can be a major advantage for PBOs in general and spin oscillators specifically for solving these types of problems, along with the accuracy of solutions they deliver., Comment: 29 pages, 15 figures

Published
2023

17. Artificial intelligence for natural product drug discovery

Author

Mullowney, Michael W., Duncan, Katherine R., Elsayed, Somayah S., Garg, Neha, van der Hooft, Justin J. J., Martin, Nathaniel I., Meijer, David, Terlouw, Barbara R., Biermann, Friederike, Blin, Kai, Durairaj, Janani, Gorostiola González, Marina, Helfrich, Eric J. N., Huber, Florian, Leopold-Messer, Stefan, Rajan, Kohulan, de Rond, Tristan, van Santen, Jeffrey A., Sorokina, Maria, Balunas, Marcy J., Beniddir, Mehdi A., van Bergeijk, Doris A., Carroll, Laura M., Clark, Chase M., Clevert, Djork-Arné, Dejong, Chris A., Du, Chao, Ferrinho, Scarlet, Grisoni, Francesca, Hofstetter, Albert, Jespers, Willem, Kalinina, Olga V., Kautsar, Satria A., Kim, Hyunwoo, Leao, Tiago F., Masschelein, Joleen, Rees, Evan R., Reher, Raphael, Reker, Daniel, Schwaller, Philippe, Segler, Marwin, Skinnider, Michael A., Walker, Allison S., Willighagen, Egon L., Zdrazil, Barbara, Ziemert, Nadine, Goss, Rebecca J. M., Guyomard, Pierre, Volkamer, Andrea, Gerwick, William H., Kim, Hyun Uk, Müller, Rolf, van Wezel, Gilles P., van Westen, Gerard J. P., Hirsch, Anna K. H., Linington, Roger G., Robinson, Serina L., and Medema, Marnix H.

Published
2023
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18. Prioritizing Personality Diversity: A Commitment and Performance Based Perspective

Author

Garg, Neha, Anand, Payal, and Vakeel, Khadija Ali

Abstract

Purpose: Using the affect theory of social exchange, this study investigates the mediating role of students' affective commitment between their personality traits (extraversion and agreeableness) and academic performance. Design/methodology/approach: This research employs mixed-method study, that is exploratory text analysis using 123 responses followed by a survey of 300 responses among the management students to test the proposed model. Findings: Results reveal a direct positive association of extraversion and agreeableness with students' affective commitment towards their academic institution. Additionally, negative indirect effects of affective commitment were found between the two personality traits and academic performance. Originality/value: The study highlights both positive and negative outcomes of so-called favorable personality types of extraversion and agreeableness, thereby, building a prima facie case for promoting personality diversity in management institutions.

Published
2023
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19. High‐Throughput and Dosage‐Controlled Intracellular Delivery of Large Cargos by an Acoustic‐Electric Micro‐Vortices Platform

Author

Aghaamoo, Mohammad, Chen, Yu‐Hsi, Li, Xuan, Garg, Neha, Jiang, Ruoyu, Yun, Jeremy Tian‐Hao, and Lee, Abraham Phillip

Subjects
Biological Sciences, Physical Sciences, Industrial Biotechnology, Bioengineering, Gene Therapy, Biotechnology, Genetics, Generic health relevance, Acoustics, Cell Line, Tumor, Gene Editing, Gene Transfer Techniques, Humans, CRISPR-Cas9, intracellular delivery, large cargo, precise-dose delivery
Abstract

A high-throughput non-viral intracellular delivery platform is introduced for the transfection of large cargos with dosage-control. This platform, termed Acoustic-Electric Shear Orbiting Poration (AESOP), optimizes the delivery of intended cargo sizes with poration of the cell membranes via mechanical shear followed by the modulated expansion of these nanopores via electric field. Furthermore, AESOP utilizes acoustic microstreaming vortices wherein up to millions of cells are trapped and mixed uniformly with exogenous cargos, enabling the delivery of cargos into cells with targeted dosages. Intracellular delivery of a wide range of molecule sizes (90%), cell viability (>80%), and uniform dosages (

Published
2022

20. Amyloidogenic proteins in the SARS-CoV and SARS-CoV-2 proteomes

Author

Bhardwaj, Taniya, Gadhave, Kundlik, Kapuganti, Shivani K., Kumar, Prateek, Brotzakis, Zacharias Faidon, Saumya, Kumar Udit, Nayak, Namyashree, Kumar, Ankur, Joshi, Richa, Mukherjee, Bodhidipra, Bhardwaj, Aparna, Thakur, Krishan Gopal, Garg, Neha, Vendruscolo, Michele, and Giri, Rajanish

Published
2023
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21. GNPS Dashboard: Collaborative Analysis of Mass Spectrometry Data in the Web Browser

Author

Petras, Daniel, Phelan, Vanessa V, Acharya, Deepa, Allen, Andrew E, Aron, Allegra T, Bandeira, Nuno, Bowen, Benjamin P, Belle-Oudry, Deirdre, Boecker, Simon, Cummings, Dale A, Deutsch, Jessica M, Fahy, Eoin, Garg, Neha, Gregor, Rachel, Handelsman, Jo, Navarro-Hoyos, Mirtha, Jarmusch, Alan K, Jarmusch, Scott A, Louie, Katherine, Maloney, Katherine N, Marty, Michael T, Meijler, Michael M, Mizrahi, Itzhak, Neve, Rachel L, Northen, Trent R, Molina-Santiago, Carlos, Panitchpakdi, Morgan, Pullman, Benjamin, Puri, Aaron W, Schmid, Robin, Subramaniam, Shankar, Thukral, Monica, Vasquez-Castro, Felipe, Dorrestein, Pieter C, and Wang, Mingxun

Abstract

AbstractAccess to web-based platforms has enabled scientists to perform research remotely. A critical aspect of mass spectrometry data analysis is the inspection, analysis, and visualization of the raw data to validate data quality and confirm statistical observations. We developed the GNPS Dashboard, a web-based data visualization tool, to facilitate synchronous collaborative inspection, visualization, and analysis of private and public mass spectrometry data remotely.

Published
2021

22. A community resource for paired genomic and metabolomic data mining

Author

Schorn, Michelle A, Verhoeven, Stefan, Ridder, Lars, Huber, Florian, Acharya, Deepa D, Aksenov, Alexander A, Aleti, Gajender, Moghaddam, Jamshid Amiri, Aron, Allegra T, Aziz, Saefuddin, Bauermeister, Anelize, Bauman, Katherine D, Baunach, Martin, Beemelmanns, Christine, Beman, J Michael, Berlanga-Clavero, María Victoria, Blacutt, Alex A, Bode, Helge B, Boullie, Anne, Brejnrod, Asker, Bugni, Tim S, Calteau, Alexandra, Cao, Liu, Carrión, Víctor J, Castelo-Branco, Raquel, Chanana, Shaurya, Chase, Alexander B, Chevrette, Marc G, Costa-Lotufo, Leticia V, Crawford, Jason M, Currie, Cameron R, Cuypers, Bart, Dang, Tam, de Rond, Tristan, Demko, Alyssa M, Dittmann, Elke, Du, Chao, Drozd, Christopher, Dujardin, Jean-Claude, Dutton, Rachel J, Edlund, Anna, Fewer, David P, Garg, Neha, Gauglitz, Julia M, Gentry, Emily C, Gerwick, Lena, Glukhov, Evgenia, Gross, Harald, Gugger, Muriel, Guillén Matus, Dulce G, Helfrich, Eric JN, Hempel, Benjamin-Florian, Hur, Jae-Seoun, Iorio, Marianna, Jensen, Paul R, Kang, Kyo Bin, Kaysser, Leonard, Kelleher, Neil L, Kim, Chung Sub, Kim, Ki Hyun, Koester, Irina, König, Gabriele M, Leao, Tiago, Lee, Seoung Rak, Lee, Yi-Yuan, Li, Xuanji, Little, Jessica C, Maloney, Katherine N, Männle, Daniel, Martin H., Christian, McAvoy, Andrew C, Metcalf, Willam W, Mohimani, Hosein, Molina-Santiago, Carlos, Moore, Bradley S, Mullowney, Michael W, Muskat, Mitchell, Nothias, Louis-Félix, O’Neill, Ellis C, Parkinson, Elizabeth I, Petras, Daniel, Piel, Jörn, Pierce, Emily C, Pires, Karine, Reher, Raphael, Romero, Diego, Roper, M Caroline, Rust, Michael, Saad, Hamada, Saenz, Carmen, Sanchez, Laura M, Sørensen, Søren Johannes, Sosio, Margherita, Süssmuth, Roderich D, Sweeney, Douglas, Tahlan, Kapil, Thomson, Regan J, Tobias, Nicholas J, Trindade-Silva, Amaro E, and van Wezel, Gilles P

Subjects
Human Genome, Genetics, Biotechnology, Generic health relevance, Data Mining, Databases, Factual, Genomics, Metabolomics, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Biochemistry & Molecular Biology
Abstract

Genomics and metabolomics are widely used to explore specialized metabolite diversity. The Paired Omics Data Platform is a community initiative to systematically document links between metabolome and (meta)genome data, aiding identification of natural product biosynthetic origins and metabolite structures.

Published
2021

23. Feature-based molecular networking in the GNPS analysis environment.

Author

Nothias, Louis-Félix, Petras, Daniel, Schmid, Robin, Dührkop, Kai, Rainer, Johannes, Sarvepalli, Abinesh, Protsyuk, Ivan, Ernst, Madeleine, Tsugawa, Hiroshi, Fleischauer, Markus, Aicheler, Fabian, Aksenov, Alexander A, Alka, Oliver, Allard, Pierre-Marie, Barsch, Aiko, Cachet, Xavier, Caraballo-Rodriguez, Andres Mauricio, Da Silva, Ricardo R, Dang, Tam, Garg, Neha, Gauglitz, Julia M, Gurevich, Alexey, Isaac, Giorgis, Jarmusch, Alan K, Kameník, Zdeněk, Kang, Kyo Bin, Kessler, Nikolas, Koester, Irina, Korf, Ansgar, Le Gouellec, Audrey, Ludwig, Marcus, Martin H, Christian, McCall, Laura-Isobel, McSayles, Jonathan, Meyer, Sven W, Mohimani, Hosein, Morsy, Mustafa, Moyne, Oriane, Neumann, Steffen, Neuweger, Heiko, Nguyen, Ngoc Hung, Nothias-Esposito, Melissa, Paolini, Julien, Phelan, Vanessa V, Pluskal, Tomáš, Quinn, Robert A, Rogers, Simon, Shrestha, Bindesh, Tripathi, Anupriya, van der Hooft, Justin JJ, Vargas, Fernando, Weldon, Kelly C, Witting, Michael, Yang, Heejung, Zhang, Zheng, Zubeil, Florian, Kohlbacher, Oliver, Böcker, Sebastian, Alexandrov, Theodore, Bandeira, Nuno, Wang, Mingxun, and Dorrestein, Pieter C

Subjects
Biological Products, Computational Biology, Software, Databases, Factual, Mass Spectrometry, Metabolomics, Biological Sciences, Technology, Medical and Health Sciences, Developmental Biology
Abstract

Molecular networking has become a key method to visualize and annotate the chemical space in non-targeted mass spectrometry data. We present feature-based molecular networking (FBMN) as an analysis method in the Global Natural Products Social Molecular Networking (GNPS) infrastructure that builds on chromatographic feature detection and alignment tools. FBMN enables quantitative analysis and resolution of isomers, including from ion mobility spectrometry.

Published
2020

24. Global chemical effects of the microbiome include new bile-acid conjugations

Author

Quinn, Robert A, Melnik, Alexey V, Vrbanac, Alison, Fu, Ting, Patras, Kathryn A, Christy, Mitchell P, Bodai, Zsolt, Belda-Ferre, Pedro, Tripathi, Anupriya, Chung, Lawton K, Downes, Michael, Welch, Ryan D, Quinn, Melissa, Humphrey, Greg, Panitchpakdi, Morgan, Weldon, Kelly C, Aksenov, Alexander, da Silva, Ricardo, Avila-Pacheco, Julian, Clish, Clary, Bae, Sena, Mallick, Himel, Franzosa, Eric A, Lloyd-Price, Jason, Bussell, Robert, Thron, Taren, Nelson, Andrew T, Wang, Mingxun, Leszczynski, Eric, Vargas, Fernando, Gauglitz, Julia M, Meehan, Michael J, Gentry, Emily, Arthur, Timothy D, Komor, Alexis C, Poulsen, Orit, Boland, Brigid S, Chang, John T, Sandborn, William J, Lim, Meerana, Garg, Neha, Lumeng, Julie C, Xavier, Ramnik J, Kazmierczak, Barbara I, Jain, Ruchi, Egan, Marie, Rhee, Kyung E, Ferguson, David, Raffatellu, Manuela, Vlamakis, Hera, Haddad, Gabriel G, Siegel, Dionicio, Huttenhower, Curtis, Mazmanian, Sarkis K, Evans, Ronald M, Nizet, Victor, Knight, Rob, and Dorrestein, Pieter C

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Chemical Sciences, Microbiology, Medical Biochemistry and Metabolomics, Liver Disease, Digestive Diseases, Microbiome, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Animals, Bile Acids and Salts, Cholic Acid, Cystic Fibrosis, Germ-Free Life, Humans, Inflammatory Bowel Diseases, Metabolomics, Mice, Microbiota, Receptors, Cytoplasmic and Nuclear, General Science & Technology
Abstract

A mosaic of cross-phylum chemical interactions occurs between all metazoans and their microbiomes. A number of molecular families that are known to be produced by the microbiome have a marked effect on the balance between health and disease1-9. Considering the diversity of the human microbiome (which numbers over 40,000 operational taxonomic units10), the effect of the microbiome on the chemistry of an entire animal remains underexplored. Here we use mass spectrometry informatics and data visualization approaches11-13 to provide an assessment of the effects of the microbiome on the chemistry of an entire mammal by comparing metabolomics data from germ-free and specific-pathogen-free mice. We found that the microbiota affects the chemistry of all organs. This included the amino acid conjugations of host bile acids that were used to produce phenylalanocholic acid, tyrosocholic acid and leucocholic acid, which have not previously been characterized despite extensive research on bile-acid chemistry14. These bile-acid conjugates were also found in humans, and were enriched in patients with inflammatory bowel disease or cystic fibrosis. These compounds agonized the farnesoid X receptor in vitro, and mice gavaged with the compounds showed reduced expression of bile-acid synthesis genes in vivo. Further studies are required to confirm whether these compounds have a physiological role in the host, and whether they contribute to gut diseases that are associated with microbiome dysbiosis.

Published
2020

25. Multi-Omic Profiling of Melophlus Sponges Reveals Diverse Metabolomic and Microbiome Architectures that Are Non-overlapping with Ecological Neighbors.

Author

Mohanty, Ipsita, Podell, Sheila, Biggs, Jason S, Garg, Neha, Allen, Eric E, and Agarwal, Vinayak

Subjects
glycosylation, metabolomics, metagenomics, natural product, sponge, Physical Chemistry (incl. Structural), Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry
Abstract

Marine sponge holobionts, defined as filter-feeding sponge hosts together with their associated microbiomes, are prolific sources of natural products. The inventory of natural products that have been isolated from marine sponges is extensive. Here, using untargeted mass spectrometry, we demonstrate that sponges harbor a far greater diversity of low-abundance natural products that have evaded discovery. While these low-abundance natural products may not be feasible to isolate, insights into their chemical structures can be gleaned by careful curation of mass fragmentation spectra. Sponges are also some of the most complex, multi-organismal holobiont communities in the oceans. We overlay sponge metabolomes with their microbiome structures and detailed metagenomic characterization to discover candidate gene clusters that encode production of sponge-derived natural products. The multi-omic profiling strategy for sponges that we describe here enables quantitative comparison of sponge metabolomes and microbiomes to address, among other questions, the ecological relevance of sponge natural products and for the phylochemical assignment of previously undescribed sponge identities.

Published
2020

27. Molecular and Microbial Microenvironments in Chronically Diseased Lungs Associated with Cystic Fibrosis

Author

Melnik, Alexey V, Vázquez-Baeza, Yoshiki, Aksenov, Alexander A, Hyde, Embriette, McAvoy, Andrew C, Wang, Mingxun, da Silva, Ricardo R, Protsyuk, Ivan, Wu, Jason V, Bouslimani, Amina, Lim, Yan Wei, Luzzatto-Knaan, Tal, Comstock, William, Quinn, Robert A, Wong, Richard, Humphrey, Greg, Ackermann, Gail, Spivey, Timothy, Brouha, Sharon S, Bandeira, Nuno, Lin, Grace Y, Rohwer, Forest, Conrad, Douglas J, Alexandrov, Theodore, Knight, Rob, Dorrestein, Pieter C, and Garg, Neha

Subjects
Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Lung, Cystic Fibrosis, Emerging Infectious Diseases, Rare Diseases, Infectious Diseases, Aetiology, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, GNPS, Pseudomonas, spatial mapping, Stenotrophomonas, antibiotic distribution, cystic fibrosis, metabolomics, microbiome
Abstract

To visualize the personalized distributions of pathogens and chemical environments, including microbial metabolites, pharmaceuticals, and their metabolic products, within and between human lungs afflicted with cystic fibrosis (CF), we generated three-dimensional (3D) microbiome and metabolome maps of six explanted lungs from three cystic fibrosis patients. These 3D spatial maps revealed that the chemical environments differ between patients and within the lungs of each patient. Although the microbial ecosystems of the patients were defined by the dominant pathogen, their chemical diversity was not. Additionally, the chemical diversity between locales in the lungs of the same individual sometimes exceeded interindividual variation. Thus, the chemistry and microbiome of the explanted lungs appear to be not only personalized but also regiospecific. Previously undescribed analogs of microbial quinolones and antibiotic metabolites were also detected. Furthermore, mapping the chemical and microbial distributions allowed visualization of microbial community interactions, such as increased production of quorum sensing quinolones in locations where Pseudomonas was in contact with Staphylococcus and Granulicatella, consistent with in vitro observations of bacteria isolated from these patients. Visualization of microbe-metabolite associations within a host organ in early-stage CF disease in animal models will help elucidate the complex interplay between the presence of a given microbial structure, antibiotics, metabolism of antibiotics, microbial virulence factors, and host responses.IMPORTANCE Microbial infections are now recognized to be polymicrobial and personalized in nature. Comprehensive analysis and understanding of the factors underlying the polymicrobial and personalized nature of infections remain limited, especially in the context of the host. By visualizing microbiomes and metabolomes of diseased human lungs, we reveal how different the chemical environments are between hosts that are dominated by the same pathogen and how community interactions shape the chemical environment or vice versa. We highlight that three-dimensional organ mapping methods represent hypothesis-building tools that allow us to design mechanistic studies aimed at addressing microbial responses to other microbes, the host, and pharmaceutical drugs.

Published
2019

28. Rapid immunodiagnostics of multiple viral infections in an acoustic microstreaming device with serum and saliva samples

Author

Garg, Neha, Boyle, Dylan, Randall, Arlo, Teng, Andy, Pablo, Jozelyn, Liang, Xiaowu, Camerini, David, and Lee, Abraham P

Subjects
Bioengineering, HIV/AIDS, Biotechnology, Infectious Diseases, Prevention, Dental/Oral and Craniofacial Disease, Sexually Transmitted Infections, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Infection, Good Health and Well Being, Acoustics, Humans, Immunoassay, Lab-On-A-Chip Devices, Saliva, Virus Diseases, Chemical Sciences, Engineering, Analytical Chemistry
Abstract

There is a growing need to screen multiple infections simultaneously rather than diagnosis of one pathogen at a time in order to improve the quality of healthcare while saving initial screening time and reduce costs. This is the first demonstration of a five-step protein array assay for the multiplexed detection of HIV, HPV and HSV antibodies on an integrated microfluidic system. HIV, HPV and HSV reactive antibodies from both serum and saliva were rapidly detected by acoustic streaming-based mixing and pumping to enable an integrated, rapid and simple-to-use multiplexed assay device. We validated this device with 37 serum and saliva samples to verify reactivity of patient antibodies with HIV, HPV and HSV antigens. Our technology can be adapted with different protein microarrays to detect a variety of other infections, thus demonstrating a powerful platform to detect multiple putative protein biomarkers for rapid detection of infectious diseases. This integrated microfluidic protein array platform is the basis of a potent strategy to delay progression of primary infection, reduce the risk of co-infections and prevent onward transmission of infections by point-of-care detection of multiple pathogens in both serum and oral fluids.

Published
2019

31. Creating a 3D microbial and chemical snapshot of a human habitat.

Author

Kapono, Clifford A, Morton, James T, Bouslimani, Amina, Melnik, Alexey V, Orlinsky, Kayla, Knaan, Tal Luzzatto, Garg, Neha, Vázquez-Baeza, Yoshiki, Protsyuk, Ivan, Janssen, Stefan, Zhu, Qiyun, Alexandrov, Theodore, Smarr, Larry, Knight, Rob, and Dorrestein, Pieter C

Subjects
Humans, Ecosystem, Air Pollution, Indoor, Mass Spectrometry, Microbiota
Abstract

One of the goals of forensic science is to identify individuals and their lifestyle by analyzing the trace signatures left behind in built environments. Here, microbiome and metabolomic methods were used to see how its occupants used an office and to also gain insights into the lifestyle characteristics such as diet, medications, and personal care products of the occupants. 3D molecular cartography, a molecular visualization technology, was used in combination with mass spectrometry and microbial inventories to highlight human-environmental interactions. Molecular signatures were correlated with the individuals as well as their interactions with this indoor environment. There are person-specific chemical and microbial signatures associated with this environment that directly relate who had touched objects such as computers, computer mice, cell phones, desk phone, table or desks. By combining molecular and microbial investigation forensic strategies, this study offers novel insights to investigators who value the reconstructing of human lifestyle and characterization of human environmental interaction.

Published
2018

34. Core Health and Living Stress Among Older People

Author

Garg, Neha and Singh, Ajit

Abstract

Maintaining core health and managing living stress among older individuals are crucial for their overall well-being. As people age, various factors impact their physical and mental health, making it essential to address these concerns comprehensively. In this discussion, we will explore the significance of core health, the challenges older people face and strategies to alleviate living stress, covering various aspects such as physical activity, nutrition, social connections and mental health support.

Published
2025
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35. Three-Dimensional Microbiome and Metabolome Cartography of a Diseased Human Lung

Author

Garg, Neha, Wang, Mingxun, Hyde, Embriette, da Silva, Ricardo R, Melnik, Alexey V, Protsyuk, Ivan, Bouslimani, Amina, Lim, Yan Wei, Wong, Richard, Humphrey, Greg, Ackermann, Gail, Spivey, Timothy, Brouha, Sharon S, Bandeira, Nuno, Lin, Grace Y, Rohwer, Forest, Conrad, Douglas J, Alexandrov, Theodore, Knight, Rob, and Dorrestein, Pieter C

Subjects
Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Medical Biochemistry and Metabolomics, Microbiome, Lung, 4.1 Discovery and preclinical testing of markers and technologies, Adult, Base Sequence, Biodiversity, Cystic Fibrosis, DNA, Bacterial, Humans, Imaging, Three-Dimensional, Lung Diseases, Male, Mass Spectrometry, Metabolome, Metabolomics, Microbiota, RNA, Ribosomal, 16S, RNA, Ribosomal, 18S, Tomography Scanners, X-Ray Computed, Xenobiotics, cartography, cystic fibrosis, mass spectrometry, metabolomics, microbiome, molecular networking, Medical Microbiology, Immunology, Biochemistry and cell biology, Medical microbiology
Abstract

Our understanding of the spatial variation in the chemical and microbial makeup of an entire human organ remains limited, in part due to the size and heterogeneity of human organs and the complexity of the associated metabolome and microbiome. To address this challenge, we developed a workflow to enable the cartography of metabolomic and microbiome data onto a three-dimensional (3D) organ reconstruction built off radiological images. This enabled the direct visualization of the microbial and chemical makeup of a human lung from a cystic fibrosis patient. We detected host-derived molecules, microbial metabolites, medications, and region-specific metabolism of medications and placed it in the context of microbial distributions in the lung. Our tool further created browsable maps of a 3D microbiome/metabolome reconstruction map on a radiological image of a human lung and forms an interactive resource for the scientific community.

Published
2017

36. Digitizing mass spectrometry data to explore the chemical diversity and distribution of marine cyanobacteria and algae.

Author

Luzzatto-Knaan, Tal, Garg, Neha, Wang, Mingxun, Glukhov, Evgenia, Peng, Yao, Ackermann, Gail, Amir, Amnon, Duggan, Brendan M, Ryazanov, Sergey, Gerwick, Lena, Knight, Rob, Alexandrov, Theodore, Bandeira, Nuno, Gerwick, William H, and Dorrestein, Pieter C

Subjects
Cyanobacteria, Computational Biology, Biodiversity, Mass Spectrometry, Metabolomics, Microalgae, Aquatic Organisms, Mass spectrometry, Molecular networking, Spectral mapping, ecology, Biochemistry and Cell Biology
Abstract

Natural product screening programs have uncovered molecules from diverse natural sources with various biological activities and unique structures. However, much is yet underexplored and additional information is hidden in these exceptional collections. We applied untargeted mass spectrometry approaches to capture the chemical space and dispersal patterns of metabolites from an in-house library of marine cyanobacterial and algal collections. Remarkably, 86% of the metabolomics signals detected were not found in other available datasets of similar nature, supporting the hypothesis that marine cyanobacteria and algae possess distinctive metabolomes. The data were plotted onto a world map representing eight major sampling sites, and revealed potential geographic locations with high chemical diversity. We demonstrate the use of these inventories as a tool to explore the diversity and distribution of natural products. Finally, we utilized this tool to guide the isolation of a new cyclic lipopeptide, yuvalamide A, from a marine cyanobacterium.

Published
2017

37. Natural products as mediators of disease

Author

Garg, Neha, Luzzatto-Knaan, Tal, Melnik, Alexey V, Caraballo-Rodríguez, Andrés Mauricio, Floros, Dimitrios J, Petras, Daniel, Gregor, Rachel, Dorrestein, Pieter C, and Phelan, Vanessa V

Subjects
Medicinal and Biomolecular Chemistry, Health Sciences, Chemical Sciences, Traditional, Complementary and Integrative Medicine, Genetics, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Good Health and Well Being, Biological Products, Humans, Microbiota, Molecular Structure, Biological Sciences, Medical and Health Sciences, Organic Chemistry, Medicinal and biomolecular chemistry, Traditional, complementary and integrative medicine
Abstract

Covering: up to 2016Humans are walking microbial ecosystems, each harboring a complex microbiome with the genetic potential to produce a vast array of natural products. Recent sequencing data suggest that our microbial inhabitants are critical for maintaining overall health. Shifts in microbial communities have been correlated to a number of diseases including infections, inflammation, cancer, and neurological disorders. Some of these clinically and diagnostically relevant phenotypes are a result of the presence of small molecules, yet we know remarkably little about their contributions to the health of individuals. Here, we review microbe-derived natural products as mediators of human disease.

Published
2017

39. GNPS Dashboard: collaborative exploration of mass spectrometry data in the web browser

Author

Petras, Daniel, Phelan, Vanessa V., Acharya, Deepa, Allen, Andrew E., Aron, Allegra T., Bandeira, Nuno, Bowen, Benjamin P., Belle-Oudry, Deirdre, Boecker, Simon, Cummings, Jr., Dale A., Deutsch, Jessica M., Fahy, Eoin, Garg, Neha, Gregor, Rachel, Handelsman, Jo, Navarro-Hoyos, Mirtha, Jarmusch, Alan K., Jarmusch, Scott A., Louie, Katherine, Maloney, Katherine N., Marty, Michael T., Meijler, Michael M., Mizrahi, Itzhak, Neve, Rachel L., Northen, Trent R., Molina-Santiago, Carlos, Panitchpakdi, Morgan, Pullman, Benjamin, Puri, Aaron W., Schmid, Robin, Subramaniam, Shankar, Thukral, Monica, Vasquez-Castro, Felipe, Dorrestein, Pieter C., and Wang, Mingxun

Published
2022
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42. Knowledge Hiding, Conscientiousness, Loneliness and Affective Commitment: A Moderated Mediation Model

Author

Garg, Neha and Anand, Payal

Abstract

Purpose: This paper examines the detrimental effects of perceived knowledge hiding (KH) on loneliness and affective commitment within academic settings. It further investigates the influence of conscientiousness as a moderator. Design/methodology/approach: Using the cross-sectional survey methodology, the proposed moderated mediation model has empirically tested the effect of perceived KH on a sample of 300 students pursuing management education at a premier institute in India. Findings: The findings reveal that perceived KH affects the affective commitment of students toward the institution via loneliness. Moreover, conscientiousness moderates the mediating role of loneliness in a way that the relationship becomes strong with low levels of conscientiousness. Research limitations/implications: This study contributes to the literature of KH by empirically investigating its detrimental consequences. It further investigates the impact of personality moderator on the proposed relationships. The discussed framework is an early attempt to understand the phenomenon of KH among students, primarily from the perspective of a knowledge seeker. Practical implications: Awareness about the ill effects of the knowledge-hiding (KH) behavior of students and understanding the role of personality in this will help administrators in designing effective interventions for curbing the same. Social implications: Effective control of KH behavior will restrain its ill effects among management students (future workforce), thereby conserving societal resources spent on health and education. Originality/value: Empirical studies testing the direct and indirect consequences of KH are limited; hence, this study attempts to fill the gap.

Published
2020
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46. Spatial Molecular Architecture of the Microbial Community of a Peltigera Lichen

Author

Garg, Neha, Zeng, Yi, Edlund, Anna, Melnik, Alexey V, Sanchez, Laura M, Mohimani, Hosein, Gurevich, Alexey, Miao, Vivian, Schiffler, Stefan, Lim, Yan Wei, Luzzatto-Knaan, Tal, Cai, Shengxin, Rohwer, Forest, Pevzner, Pavel A, Cichewicz, Robert H, Alexandrov, Theodore, and Dorrestein, Pieter C

Subjects
Microbiology, Biological Sciences, Chemical Sciences, Physical Chemistry, Infectious Diseases, lichen, mass spectrometry, microbial assemblages, natural products, metagenomics
Abstract

Microbes are commonly studied as individual species, but they exist as mixed assemblages in nature. At present, we know very little about the spatial organization of the molecules, including natural products that are produced within these microbial networks. Lichens represent a particularly specialized type of symbiotic microbial assemblage in which the component microorganisms exist together. These composite microbial assemblages are typically comprised of several types of microorganisms representing phylogenetically diverse life forms, including fungi, photosymbionts, bacteria, and other microbes. Here, we employed matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) imaging mass spectrometry to characterize the distributions of small molecules within a Peltigera lichen. In order to probe how small molecules are organized and localized within the microbial consortium, analytes were annotated and assigned to their respective producer microorganisms using mass spectrometry-based molecular networking and metagenome sequencing. The spatial analysis of the molecules not only reveals an ordered layering of molecules within the lichen but also supports the compartmentalization of unique functions attributed to various layers. These functions include chemical defense (e.g., antibiotics), light-harvesting functions associated with the cyanobacterial outer layer (e.g., chlorophyll), energy transfer (e.g., sugars) surrounding the sun-exposed cyanobacterial layer, and carbohydrates that may serve a structural or storage function and are observed with higher intensities in the non-sun-exposed areas (e.g., complex carbohydrates). IMPORTANCE Microbial communities have evolved over centuries to live symbiotically. The direct visualization of such communities at the chemical and functional level presents a challenge. Overcoming this challenge may allow one to visualize the spatial distributions of specific molecules involved in symbiosis and to define their functional roles in shaping the community structure. In this study, we examined the diversity of microbial genes and taxa and the presence of biosynthetic gene clusters by metagenomic sequencing and the compartmentalization of organic chemical components within a lichen using mass spectrometry. This approach allowed the identification of chemically distinct sections within this composite organism. Using our multipronged approach, various fungal natural products, not previously reported from lichens, were identified and two different fungal layers were visualized at the chemical level.

Published
2016

47. Mass Spectrometry-Based Visualization of Molecules Associated with Human Habitats

Author

Petras, Daniel, Nothias, Louis-Félix, Quinn, Robert A, Alexandrov, Theodore, Bandeira, Nuno, Bouslimani, Amina, Castro-Falcón, Gabriel, Chen, Liangyu, Dang, Tam, Floros, Dimitrios J, Hook, Vivian, Garg, Neha, Hoffner, Nicole, Jiang, Yike, Kapono, Clifford A, Koester, Irina, Knight, Rob, Leber, Christopher A, Ling, Tie-Jun, Luzzatto-Knaan, Tal, McCall, Laura-Isobel, McGrath, Aaron P, Meehan, Michael J, Merritt, Jonathan K, Mills, Robert H, Morton, Jamie, Podvin, Sonia, Protsyuk, Ivan, Purdy, Trevor, Satterfield, Kendall, Searles, Stephen, Shah, Sahil, Shires, Sarah, Steffen, Dana, White, Margot, Todoric, Jelena, Tuttle, Robert, Wojnicz, Aneta, Sapp, Valerie, Vargas, Fernando, Yang, Jin, Zhang, Chao, and Dorrestein, Pieter C

Subjects
Analytical Chemistry, Chemical Sciences, Chromatography, Liquid, Ecosystem, Humans, Ions, Mass Spectrometry, Organic Chemicals, Tandem Mass Spectrometry, Other Chemical Sciences, Medical biochemistry and metabolomics, Analytical chemistry, Chemical engineering
Abstract

The cars we drive, the homes we live in, the restaurants we visit, and the laboratories and offices we work in are all a part of the modern human habitat. Remarkably, little is known about the diversity of chemicals present in these environments and to what degree molecules from our bodies influence the built environment that surrounds us and vice versa. We therefore set out to visualize the chemical diversity of five built human habitats together with their occupants, to provide a snapshot of the various molecules to which humans are exposed on a daily basis. The molecular inventory was obtained through untargeted liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis of samples from each human habitat and from the people that occupy those habitats. Mapping MS-derived data onto 3D models of the environments showed that frequently touched surfaces, such as handles (e.g., door, bicycle), resemble the molecular fingerprint of the human skin more closely than other surfaces that are less frequently in direct contact with humans (e.g., wall, bicycle frame). Approximately 50% of the MS/MS spectra detected were shared between people and the environment. Personal care products, plasticizers, cleaning supplies, food, food additives, and even medications that were found to be a part of the human habitat. The annotations indicate that significant transfer of chemicals takes place between us and our built environment. The workflows applied here will lay the foundation for future studies of molecular distributions in medical, forensic, architectural, space exploration, and environmental applications.

Published
2016

48. Sharing and community curation of mass spectrometry data with Global Natural Products Social Molecular Networking

Author

Wang, Mingxun, Carver, Jeremy J, Phelan, Vanessa V, Sanchez, Laura M, Garg, Neha, Peng, Yao, Nguyen, Don Duy, Watrous, Jeramie, Kapono, Clifford A, Luzzatto-Knaan, Tal, Porto, Carla, Bouslimani, Amina, Melnik, Alexey V, Meehan, Michael J, Liu, Wei-Ting, Crüsemann, Max, Boudreau, Paul D, Esquenazi, Eduardo, Sandoval-Calderón, Mario, Kersten, Roland D, Pace, Laura A, Quinn, Robert A, Duncan, Katherine R, Hsu, Cheng-Chih, Floros, Dimitrios J, Gavilan, Ronnie G, Kleigrewe, Karin, Northen, Trent, Dutton, Rachel J, Parrot, Delphine, Carlson, Erin E, Aigle, Bertrand, Michelsen, Charlotte F, Jelsbak, Lars, Sohlenkamp, Christian, Pevzner, Pavel, Edlund, Anna, McLean, Jeffrey, Piel, Jörn, Murphy, Brian T, Gerwick, Lena, Liaw, Chih-Chuang, Yang, Yu-Liang, Humpf, Hans-Ulrich, Maansson, Maria, Keyzers, Robert A, Sims, Amy C, Johnson, Andrew R, Sidebottom, Ashley M, Sedio, Brian E, Klitgaard, Andreas, Larson, Charles B, Boya P, Cristopher A, Torres-Mendoza, Daniel, Gonzalez, David J, Silva, Denise B, Marques, Lucas M, Demarque, Daniel P, Pociute, Egle, O'Neill, Ellis C, Briand, Enora, Helfrich, Eric JN, Granatosky, Eve A, Glukhov, Evgenia, Ryffel, Florian, Houson, Hailey, Mohimani, Hosein, Kharbush, Jenan J, Zeng, Yi, Vorholt, Julia A, Kurita, Kenji L, Charusanti, Pep, McPhail, Kerry L, Nielsen, Kristian Fog, Vuong, Lisa, Elfeki, Maryam, Traxler, Matthew F, Engene, Niclas, Koyama, Nobuhiro, Vining, Oliver B, Baric, Ralph, Silva, Ricardo R, Mascuch, Samantha J, Tomasi, Sophie, Jenkins, Stefan, Macherla, Venkat, Hoffman, Thomas, Agarwal, Vinayak, Williams, Philip G, Dai, Jingqui, Neupane, Ram, Gurr, Joshua, Rodríguez, Andrés MC, Lamsa, Anne, Zhang, Chen, Dorrestein, Kathleen, Duggan, Brendan M, Almaliti, Jehad, Allard, Pierre-Marie, and Phapale, Prasad

Subjects
Analytical Chemistry, Chemical Sciences, Generic health relevance, Biological Products, Data Curation, Database Management Systems, Databases, Chemical, Information Dissemination, Information Storage and Retrieval, Internationality, Mass Spectrometry
Abstract

The potential of the diverse chemistries present in natural products (NP) for biotechnology and medicine remains untapped because NP databases are not searchable with raw data and the NP community has no way to share data other than in published papers. Although mass spectrometry (MS) techniques are well-suited to high-throughput characterization of NP, there is a pressing need for an infrastructure to enable sharing and curation of data. We present Global Natural Products Social Molecular Networking (GNPS; http://gnps.ucsd.edu), an open-access knowledge base for community-wide organization and sharing of raw, processed or identified tandem mass (MS/MS) spectrometry data. In GNPS, crowdsourced curation of freely available community-wide reference MS libraries will underpin improved annotations. Data-driven social-networking should facilitate identification of spectra and foster collaborations. We also introduce the concept of 'living data' through continuous reanalysis of deposited data.

Published
2016

49. Microbial, host and xenobiotic diversity in the cystic fibrosis sputum metabolome

Author

Quinn, Robert A, Phelan, Vanessa V, Whiteson, Katrine L, Garg, Neha, Bailey, Barbara A, Lim, Yan Wei, Conrad, Douglas J, Dorrestein, Pieter C, and Rohwer, Forest L

Subjects
Microbiology, Biological Sciences, Microbiome, Rare Diseases, Infectious Diseases, Cystic Fibrosis, Lung, 2.2 Factors relating to the physical environment, 4.1 Discovery and preclinical testing of markers and technologies, Congenital, Infection, Adolescent, Ceramides, Humans, Metabolome, Microbiota, Pseudomonas Infections, Pseudomonas aeruginosa, Quinolones, RNA, Ribosomal, 16S, Sputum, Xenobiotics, Environmental Sciences, Technology, Biological sciences, Environmental sciences
Abstract

Cystic fibrosis (CF) lungs are filled with thick mucus that obstructs airways and facilitates chronic infections. Pseudomonas aeruginosa is a significant pathogen of this disease that produces a variety of toxic small molecules. We used molecular networking-based metabolomics to investigate the chemistry of CF sputa and assess how the microbial molecules detected reflect the microbiome and clinical culture history of the patients. Metabolites detected included xenobiotics, P. aeruginosa specialized metabolites and host sphingolipids. The clinical culture and microbiome profiles did not correspond to the detection of P. aeruginosa metabolites in the same samples. The P. aeruginosa molecules that were detected in sputum did not match those from laboratory cultures. The pseudomonas quinolone signal (PQS) was readily detectable from cultured strains, but absent from sputum, even when its precursor molecules were present. The lack of PQS production in vivo is potentially due to the chemical nature of the CF lung environment, indicating that culture-based studies of this pathogen may not explain its behavior in the lung. The most differentially abundant molecules between CF and non-CF sputum were sphingolipids, including sphingomyelins, ceramides and lactosylceramide. As these highly abundant molecules contain the inflammatory mediator ceramide, they may have a significant role in CF hyperinflammation. This study demonstrates that the chemical makeup of CF sputum is a complex milieu of microbial, host and xenobiotic molecules. Detection of a bacterium by clinical culturing and 16S rRNA gene profiling do not necessarily reflect the active production of metabolites from that bacterium in a sputum sample.

Published
2016

50. The Impact of COVID-19 and Socioeconomic Determinants on Appointment Non-Attendance in an Urban Otolaryngology Clinic: A Retrospective Analysis From a Safety Net Hospital

Author

Puyo, Elizabeth M., Salvati, Lindsay R., Garg, Neha, Bayly, Henry, Kariveda, Rohith R., Carnino, Jonathan M., Nathan, Ajay S., and Levi, Jessica R.

Abstract

Objective: The objective of this study is to investigate various demographic, socioeconomic, COVID-related, and clinical factors associated with missed otolaryngology appointments in the outpatient setting at Boston Medical Center (BMC), an urban safety net hospital.Methods: A retrospective chart review was conducted on adults (≥18 years old) with scheduled appointments in the otolaryngology department at BMC from May 1, 2015, to May 1, 2022. Data were extracted from the electronic medical record and included appointment-related factors (eg, status and type), demographic variables (eg, age, sex, race, and ethnicity), and socioeconomic factors (eg, employment and insurance). Statistical analyses utilized a binary mixed-effects model to identify predictors of appointment non-attendance, with pre-COVID, during COVID, and post-COVID periods defined for comparative analysis.Results: Out of 14 050 patients, 5725 (40.8%) were classified as no-show. Older age decreased the likelihood of missing appointments (OR = 0.989, 95% CI = [0.986, 0.992]). Males (OR = 1.090, 95% CI = [1.022, 1.161]), Black/African American (OR = 2.047, 95% CI = [1.878, 2.231]), and Hispanic or Latino individuals (OR = 1.369, 95% CI = [1.232, 1.521]) were more likely to not show up. Retired participants (OR = 0.859, 95% CI = [0.753, 0.981]) and those with private insurance (OR = 0.698, 95% CI = [0.643, 0.758]) were less likely to miss appointments. During the COVID-19 pandemic, appointment attendance improved (OR = 0.865, 95% CI = [0.767, 0.976]). In-person appointments had a significantly higher non-attendance rate compared to telemedicine appointments (OR = 6.133, 95% CI = [5.248, 7.167]).Conclusions: Appointment non-attendance in otolaryngology is influenced by various demographic and socioeconomic factors, with significant disparities observed among racial and ethnic groups. The COVID-19 pandemic altered attendance patterns, highlighting the potential benefits of telemedicine. These findings underscore the need for targeted interventions to address healthcare disparities and improve appointment adherence, particularly among minority and socioeconomically disadvantaged populations. Future research should incorporate patient perspectives to better understand barriers to appointment attendance.

Published
2025
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