Your search keyword '"Abeel T"' showing total 114 results

1. DISSECTING THE GENOMIC EVOLUTION OF DRUG-RESISTANT TUBERCULOSIS: Tues, 24 h9.00 - Advances in TB diagnostics

Author

Cohen, K. A., Mcguire, A. M., Abeel, T., Desjardins, C. A., Pym, A. S., and Earl, A. M.

Published

2017

2. Pain perception in crayfish (Astacus astacus): empirical observations and ethical consequences

Author

Vervaecke, H., primary, Roelant, E., additional, Hendrycks, W., additional, Abeel, T., additional, Vermeersch, X., additional, and Aerts, S., additional

Published

2015

3. Nociception and pain perception in noble crayfish (Astacus astacus) using the novel object paradigm

Author

Hendrycks, W., primary, Abeel, T., additional, Vermeersch, X., additional, Roelant, E., additional, and Vervaecke, H., additional

Published

2014

4. Aqualota: Het verhaal van de Lota loopt verder

Author

Claeyé, G., Joachim, J., Adriaen, J., Abeel, T., Meeus, W., Claeyé, G., Joachim, J., Adriaen, J., Abeel, T., and Meeus, W.

Abstract

Gezien de internationale concurrentie voor de globaal vermarkte vissen richten de pionierende viskwekers in de Benelux zich op nichemarkten. In België viel het oog op de zoetwaterkabeljauw (kwabaal; Lota lota) waarvoor kweek ten behoeve van herintroductie nodig was. Hieronder de geschiedenis van Aqualota, de eerste commerciële kwekerij van pootvis voor producenten van consumptievis, en voortgang van het onderzoek naar de eigen kweek van ouderdieren.

Published

2020

5. Anxiety, depression and low self-esteem among people with alopecia

Author

Gati Ara, Waqar Tunio, Noor Imran Khan, Abeel Tariq, and Tamjeed Jamshed

Subjects

alopecia, alopecia areata, hair, depression, anxiety, self-esteem, hospital anxiety and depression scale, hads, rosenberg self- esteem scale, rses, Medicine

Abstract

OBJECTIVES: To assess the frequency of anxiety and depression symptoms among individuals with alopecia and to assess the self-esteem levels of alopecia patients in a hair restorative treatment center of Karachi, Pakistan. METHODS: This cross-sectional study was conducted on 84 consecutive patients of Alopecia by conducting interviews. Sample size was calculated using the prevalence rate of alopecia of 2% at confidence level of 95% and precision of 3%. Hospital Anxiety and Depression Scale (HADS) which was used to quantify depression and anxiety, and Rosenberg Self-esteem Scale (RSES) was used for self- esteem levels. Scores were calculated. Test of correlation and Chi square test were applied. RESULTS: Median (inter-quartile range) HADS score for Anxiety and Depression in 84 study participants was 11 (7-14) and 11 (8-14) respectively. Regarding depression and depression, 52.4% (n=44) and 53.6% (n=45) fell into the abnormal category (score 11-21) respectively. For self-esteem, 48.8% (n=41) had low self-esteem (score 0-14). Positive correlation was found between age of participants and their self- esteem score (p- value =0.001). The older participants achieved higher scores. There was an inverse relation between age at onset of alopecia and self-esteem score (p-value= 0.03). People with early onset of Alopecia had lower self-esteem scores. There was no significant difference between male and females and the anxiety, depression and self-esteem levels. CONCLUSION: Our study reveals significant prevalence of depression, anxiety, and low self-esteem among alopecia patients seeking hair restoration, highlighting the urgent need for targeted psychological interventions.

Published

2023

6. Computational pan-genomics: Status, promises and challenges

Author

Marschall, T. (Tanja), Marz, M. (Manja), Abeel, T. (Thomas), Dijkstra, L. (Louis), Dutilh, B.E. (Bas), Ghaffaari, A. (Ali), Kersey, P. (Paul), Kloosterman, W.P. (Wigard), Mäkinen, V. (Veli), Novak, A.M. (Adam M.), Paten, B. (Benedict), Porubsky, D. (David), Rivals, E. (Eric), Alkan, C. (Can), Baaijens, J.A. (Jasmijn A.), Bakker, P.I.W. (Paul) de, Boeva, V. (Valentina), Bonnal, R.J.P. (Raoul J.P.), Chiaromonte, F. (Francesca), Chikhi, R. (Rayan), Ciccarelli, F.D. (Francesca D.), Cijvat, R. (Robin), Datema, E. (Erwin), Duijn, C.M. (Cornelia) van, Eichler, E.E. (Evan), Ernst, C. (Corinna), Eskin, E. (E.), Garrison, E. (Erik), El-Kebir, M. (Mohammed), Klau, G.W. (Gunnar W.), Korbel, J.O. (Jan), Lameijer, E.-W. (Eric-Wubbo), Langmead, B. (Benjamin), Martin, M. (Marcel), Medvedev, P. (Paul), Mu, J.C. (John C.), Neerincx, P.B.T. (Pieter B T), Ouwens, K. (Klaasjan), Peterlongo, P. (Pierre), Pisanti, N. (Nadia), Rahmann, S. (S.), Raphael, B.J. (Benjamin J.), Reinert, K. (Knut), Ridder, D. (Dick) de, de Ridder, J. (Jeroen), Schlesner, M. (Matthias), Schulz-Trieglaff, O. (Ole), Sanders, A.D. (Ashley D.), Sheikhizadeh, S. (Siavash), Shneider, C. (Carl), Smit, S. (Sandra), Valenzuela, D. (Daniel), Wang, J. (Jiayin), Wessels, L. (Lodewyk), Zhang, Y. (Ying), Guryev, V. (Victor), Vandin, F. (Fabio), Ye, K. (Kai), Schönhuth, A. (Alexander), Marschall, T. (Tanja), Marz, M. (Manja), Abeel, T. (Thomas), Dijkstra, L. (Louis), Dutilh, B.E. (Bas), Ghaffaari, A. (Ali), Kersey, P. (Paul), Kloosterman, W.P. (Wigard), Mäkinen, V. (Veli), Novak, A.M. (Adam M.), Paten, B. (Benedict), Porubsky, D. (David), Rivals, E. (Eric), Alkan, C. (Can), Baaijens, J.A. (Jasmijn A.), Bakker, P.I.W. (Paul) de, Boeva, V. (Valentina), Bonnal, R.J.P. (Raoul J.P.), Chiaromonte, F. (Francesca), Chikhi, R. (Rayan), Ciccarelli, F.D. (Francesca D.), Cijvat, R. (Robin), Datema, E. (Erwin), Duijn, C.M. (Cornelia) van, Eichler, E.E. (Evan), Ernst, C. (Corinna), Eskin, E. (E.), Garrison, E. (Erik), El-Kebir, M. (Mohammed), Klau, G.W. (Gunnar W.), Korbel, J.O. (Jan), Lameijer, E.-W. (Eric-Wubbo), Langmead, B. (Benjamin), Martin, M. (Marcel), Medvedev, P. (Paul), Mu, J.C. (John C.), Neerincx, P.B.T. (Pieter B T), Ouwens, K. (Klaasjan), Peterlongo, P. (Pierre), Pisanti, N. (Nadia), Rahmann, S. (S.), Raphael, B.J. (Benjamin J.), Reinert, K. (Knut), Ridder, D. (Dick) de, de Ridder, J. (Jeroen), Schlesner, M. (Matthias), Schulz-Trieglaff, O. (Ole), Sanders, A.D. (Ashley D.), Sheikhizadeh, S. (Siavash), Shneider, C. (Carl), Smit, S. (Sandra), Valenzuela, D. (Daniel), Wang, J. (Jiayin), Wessels, L. (Lodewyk), Zhang, Y. (Ying), Guryev, V. (Victor), Vandin, F. (Fabio), Ye, K. (Kai), and Schönhuth, A. (Alexander)

Abstract

Many disciplines, from human genetics and oncology to plant breeding, microbiology and virology, commonly face the challenge of analyzing rapidly increasing numbers of genomes. In case of Homo sapiens, the number of sequenced genomes will approach hundreds of thousands in the next few years. Simply scaling up established bioinformatics pipelines will not be sufficient for leveraging the full potential of such rich genomic data sets. Instead, novel, qualitatively different Computational methods and paradigms are needed.We will witness the rapid extension of Computational pan-genomics, a new sub-area of research in Computational biology. In this article, we generalize existing definitions and understand a pangenome as any collection of genomic sequences to be analyzed jointly or to be used as a reference. We examine already available approaches to construct and use pan-genomes, discuss the potential benefits of future technologies and methodologies and review open challenges from the vantage point of the above-mentioned biological disciplines. As a prominent example for a Computational paradigm shift, we particularly highlight the transition from the representation of reference genomes as strings to representations a

Published

2018

7. Computational pan-genomics: status, promises and challenges.

Author

Marschall, T., Marz, M., Abeel, T., Dijkstra, L., Dutilh, B.E., Ghaffaari, A., Kersey, P., Kloosterman, W.P., Mäkinen, V., Novak, A.M., Paten, B., Porubsky, D., Rivals, E., Alkan, C., Baaijens, J., Bakker, P.I. de, Boeva, V., Bonnal, R.J., Chiaromonte, F., Chikhi, R., Ciccarelli, F.D., Cijvat, R., Datema, E., Duijn, C.M. van, Eichler, E.E., Ernst, C., Eskin, E., Garrison, E., El-Kebir, M., Klau, G.W., Korbel, J.O., Lameijer, E.W., Langmead, B., Martin, M., Medvedev, P., Mu, J.C., Neerincx, P., Ouwens, K., Peterlongo, P., Pisanti, N., Rahmann, S., Raphael, B., Reinert, K., Ridder, D. de, Ridder, J. de, Schlesner, M., Schulz-Trieglaff, O., Sanders, A.D., Sheikhizadeh, S., Shneider, C., Smit, S., Valenzuela, D., Wang, J, Wessels, L., Zhang, Y, Guryev, V., Vandin, F., Ye, K., Schönhuth, A., Marschall, T., Marz, M., Abeel, T., Dijkstra, L., Dutilh, B.E., Ghaffaari, A., Kersey, P., Kloosterman, W.P., Mäkinen, V., Novak, A.M., Paten, B., Porubsky, D., Rivals, E., Alkan, C., Baaijens, J., Bakker, P.I. de, Boeva, V., Bonnal, R.J., Chiaromonte, F., Chikhi, R., Ciccarelli, F.D., Cijvat, R., Datema, E., Duijn, C.M. van, Eichler, E.E., Ernst, C., Eskin, E., Garrison, E., El-Kebir, M., Klau, G.W., Korbel, J.O., Lameijer, E.W., Langmead, B., Martin, M., Medvedev, P., Mu, J.C., Neerincx, P., Ouwens, K., Peterlongo, P., Pisanti, N., Rahmann, S., Raphael, B., Reinert, K., Ridder, D. de, Ridder, J. de, Schlesner, M., Schulz-Trieglaff, O., Sanders, A.D., Sheikhizadeh, S., Shneider, C., Smit, S., Valenzuela, D., Wang, J, Wessels, L., Zhang, Y, Guryev, V., Vandin, F., Ye, K., and Schönhuth, A.

Abstract

Contains fulltext : 190288.pdf (publisher's version ) (Open Access)

Published

2018

8. Computational pan-genomics: status, promises and challenges

Author

Marschall, T, Marz, M, Abeel, T, Dijkstra, L, Dutilh, BE, Ghaffaari, A, Kersey, P, Kloosterman, WP, Makinen, V, Novak, AM, Paten, B, Porubsky, D, Rivals, E, Alkan, C, Baaijens, J A, de Bakker, PIW, Boeva, V, Bonnal, RJP, Chiaromonte, F, Chikhi, R, Ciccarelli, FD, Cijvat, R, Datema, E, Duijn, Cornelia, Eichler, EE, Ernst, C, Eskin, E, Garrison, E, El-Kebir, M, Klau, GW, Korbel, JO, Lameijer, EW, Langmead, B, Martin, M, Medvedev, P, Mu, JC, Neerincx, P, Ouwens, K, Peterlongo, P, Pisanti, N, Rahmann, S, Raphael, B, Reinert, K, Ridder, D, Ridder, J (Jannemarie), Schlesner, M, Schulz-Trieglaff, O, Sanders, AD, Sheikhizadeh, S, Shneider, C, Smit, S, Valenzuela, D, Wang, JY, Wessels, L, Zhang, Y, Guryev, V, Vandin, F, Ye, K, Schonhuth, A, Marschall, T, Marz, M, Abeel, T, Dijkstra, L, Dutilh, BE, Ghaffaari, A, Kersey, P, Kloosterman, WP, Makinen, V, Novak, AM, Paten, B, Porubsky, D, Rivals, E, Alkan, C, Baaijens, J A, de Bakker, PIW, Boeva, V, Bonnal, RJP, Chiaromonte, F, Chikhi, R, Ciccarelli, FD, Cijvat, R, Datema, E, Duijn, Cornelia, Eichler, EE, Ernst, C, Eskin, E, Garrison, E, El-Kebir, M, Klau, GW, Korbel, JO, Lameijer, EW, Langmead, B, Martin, M, Medvedev, P, Mu, JC, Neerincx, P, Ouwens, K, Peterlongo, P, Pisanti, N, Rahmann, S, Raphael, B, Reinert, K, Ridder, D, Ridder, J (Jannemarie), Schlesner, M, Schulz-Trieglaff, O, Sanders, AD, Sheikhizadeh, S, Shneider, C, Smit, S, Valenzuela, D, Wang, JY, Wessels, L, Zhang, Y, Guryev, V, Vandin, F, Ye, K, and Schonhuth, A

Published

2018

9. Fatal nosocomial transmission of MDR-TB identified through routine genetic analysis and whole genome sequencing

Author

Williams, OM, Abeel, T, Casali, N, Cohen, K, Pym, AS, Mungall, SB, Desjardins, CA, Banerjee, A, Drobniewski, F, Earl, AM, and Cooke, GS

Published

2015

10. Draft Genome Sequences of Two Extensively Drug-Resistant Strains of Mycobacterium tuberculosis Belonging to the Euro-American S Lineage

Author

Malinga, L.A. (author), Abeel, T. (author), Desjardins, C.A. (author), Dlamini, T.C. (author), Cassell, G. (author), Chapman, S.B. (author), Birren, B.W. (author), Earl, A.M. (author), Van der Walt, M. (author), Malinga, L.A. (author), Abeel, T. (author), Desjardins, C.A. (author), Dlamini, T.C. (author), Cassell, G. (author), Chapman, S.B. (author), Birren, B.W. (author), Earl, A.M. (author), and Van der Walt, M. (author)

Abstract

We report the whole-genome sequencing of two extensively drug-resistant tuberculosis strains belonging to the Euro-American S lineage. The RSA 114 strain showed single-nucleotide polymorphisms predicted to have drug efflux activity., Intelligent Systems, Electrical Engineering, Mathematics and Computer Science

Published

2016

11. Op stage bij de zuiderburen

Author

Adriaen, J., Abeel, T., Meeus, W., Adriaen, J., Abeel, T., and Meeus, W.

Abstract

Bij Hogeschool Odisee in het Belgische St. Niklaas wordt o.a. de teelt van zoetwaterkabeljauw (kwabaal) en de Europese rivierkreeft onderzocht. In dit artikel worden het visteeltonderzoek en de faciliteiten van de hogeschool beschreven en komen twee Nederlandse studenten aan het woord die stage liepen in de Aquaculture Education and Research Facilities van Odisee.

Published

2016

12. 37. Evaluation of the influence of light conditions on crayfish welfare in intensive aquaculture

Author

Abeel, T., primary, Vervaecke, H., additional, Roelant, E., additional, Platteaux, I., additional, Adriaen, J., additional, Durinck, G., additional, Meeus, W., additional, van de Perre, L., additional, and Aerts, S., additional

Published

2016

13. GenomeView: Visualizing the Next-Generation of Data

Author

Abeel, T.

Subjects

Workshop Session Abstracts

Abstract

Due to recent advances in sequencing technologies, billions of nucleotide sequences are now produced on a daily basis. A major challenge is to visualize these data, including both whole genome sequence and transcriptome data, for further downstream analyses. Visualization is often overlooked and undervalued, but it is an extremely valuable to explore your data on several levels. A first area where visualization shines is at the early stages of data analysis to perform sanity checks on your data. Eye-balling your data in a visually pleasing way is the best way to get a good feel on what came out of your experiments. Once you have a good idea of what is in your data a good visual representation can be used to generate new hypotheses and to fine-tune analysis parameters. The appropriate image often makes the solution obvious and as such, it really makes it easier to develop algorithms. The ability to interactively explore gives you insights in large-scale data sets and definitely augments our ability to reason about complex data. To this end, we present GenomeView, a stand-alone sequence browser specifically designed to visualize and manipulate a multitude of genomics data. GenomeView enables users to dynamically browse high volumes of aligned short read data, with dynamic navigation and semantic zooming, from the whole genome level to the single nucleotide. At the same time, the tool enables visualization of whole genome alignments of dozens of genomes relative to a reference sequence. GenomeView is unique in its capability to interactively handle huge data sets consisting of dozens of aligned genomes, thousands of annotation features and millions of mapped short reads both as viewer and editor. GenomeView is freely available for academic use as an open source software package at http://genomeview.org.

Published

2011

14. Normalizing alternate representations of large sequence variants across multiple bacterial genomes

Author

Salazar, A. (author), Earl, A. (author), Desjardins, C. (author), Abeel, T. (author), Salazar, A. (author), Earl, A. (author), Desjardins, C. (author), and Abeel, T. (author)

Abstract

Intelligent Systems, Electrical Engineering, Mathematics and Computer Science

Published

2015

15. Soft Skills: An Important Asset Acquired from Organizing Regional Student Group Activities

Author

De Ridder, J. (author), Meysman, P. (author), Oluwagbemi, O. (author), Abeel, T. (author), De Ridder, J. (author), Meysman, P. (author), Oluwagbemi, O. (author), and Abeel, T. (author)

Abstract

Contributing to a student organization, such as the International Society for Computational Biology Student Council (ISCB-SC) and its Regional Student Group (RSG) program, takes time and energy. Both are scarce commodities, especially when you are trying to find your place in the world of computational biology as a graduate student. It comes as no surprise that organizing ISCB-SC-related activities sometimes interferes with day-to-day research and shakes up your priority list. However, we unanimously agree that the rewards, both in the short as well as the long term, make the time spent on these extracurricular activities more than worth it. In this article, we will explain what makes this so worthwhile: soft skills., Intelligent Systems, Electrical Engineering, Mathematics and Computer Science

Published

2014

16. Don't Wear Your New Shoes (Yet): Taking the Right Steps to Become a Successful Principal Investigator

Author

De Ridder, J. (author), Abeel, T. (author), Michaut, M. (author), Satagopam, V.P. (author), Gehlenborg, N. (author), De Ridder, J. (author), Abeel, T. (author), Michaut, M. (author), Satagopam, V.P. (author), and Gehlenborg, N. (author)

Abstract

You finished your PhD, have been a postdoc for a while, and you start wondering, "What's next?" Suppose you come to the conclusion that you want to stay in academia, and move up the ladder to become a principal investigator (PI). How does one reach this goal given that academia is one of the most competitive environments out there? And suppose you do manage to snatch your dream position, how do you make sure you hit the ground running? Here we report on the workshop "P2P - From Postdoc To Principal Investigator" that we organized at ISMB 2012 in Long Beach, California. The workshop addressed some of the challenges that many postdocs and newly appointed PIs are facing. Three experienced PIs, Florian Markowetz (Group Leader, Cambridge Research Institute, Cancer Research UK), Gary Bader (Associate Professor, The Donnelly Centre, University of Toronto), and Philip Bourne (Professor, Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California San Diego), provided insight into the transition from a trainee to PI and shared advice on how to make the best out it., Intelligent Systems, Electrical Engineering, Mathematics and Computer Science

Published

2013

17. The regional student group program of the ISCB student council: stories from the road.

Author

Macintyre, G, Michaut, M, Abeel, T, Macintyre, G, Michaut, M, and Abeel, T

Abstract

The International Society for Computational Biology (ISCB) Student Council was launched in 2004 to facilitate interaction between young scientists in the fields of bioinformatics and computational biology. Since then, the Student Council has successfully run events and programs to promote the development of the next generation of computational biologists. However, in its early years, the Student Council faced a major challenge, in that students from different geographical regions had different needs; no single activity or event could address the needs of all students. To overcome this challenge, the Student Council created the Regional Student Group (RSG) program. The program consists of locally organised and run student groups that address the specific needs of students in their region. These groups usually encompass a given country, and, via affiliation with the international Student Council, are provided with financial support, organisational support, and the ability to share information with other RSGs. In the last five years, RSGs have been created all over the world and organised activities that have helped develop dynamic bioinformatics student communities. In this article series, we present common themes emerging from RSG initiatives, explain their goals, and highlight the challenges and rewards through specific examples. This article, the first in the series, introduces the Student Council and provides a high-level overview of RSG activities. Our hope is that the article series will be a valuable source of information and inspiration for initiating similar activities in other regions and scientific communities.

Published

2013

18. Ten Simple Rules for Starting a Regional Student Group

Author

Bourne, PE, Shanmugam, AK, Macintyre, G, Michaut, M, Abeel, T, Bourne, PE, Shanmugam, AK, Macintyre, G, Michaut, M, and Abeel, T

Published

2013

19. Vlaams onderzoek naar teelt van Europese rivierkreeft (Astacus astacus) in recirculatiesystemen

Author

Abeel, T., Adriaen, J., Meeus, W., Himpe, W., Aerts, S., Abeel, T., Adriaen, J., Meeus, W., Himpe, W., and Aerts, S.

Abstract

Tegenwoordig zijn veel landbouwbedrijven op zoek naar manieren om hun activiteiten te diversifieren, en in die context kan de teelt van rivierkreeft mogelijk een interessante en duurzame uitkomst bieden. Twee Belgische hogescholen - Katholieke Hogeschool Sint Lieven (KAHO) en Hogeschool Universiteit Brussel (HUB) - onderzoeken of de productie van Europese rivierkreeft een leefbare activiteit kan zijn voor Belische landbouwers.

Published

2013

20. Highlights from the 6th International Society for Computational Biology Student Council Symposium at the 18th Annual International Conference on Intelligent Systems for Molecular Biology

Author

Klijn, C.N. (author), Michaut, M. (author), Abeel, T. (author), Klijn, C.N. (author), Michaut, M. (author), and Abeel, T. (author)

Abstract

This meeting report gives an overview of the keynote lectures and a selection of the student oral and poster presentations at the 6th International Society for Computational Biology Student Council Symposium that was held as a precursor event to the annual international conference on Intelligent Systems for Molecular Biology (ISMB). The symposium was held in Boston, MA, USA on July 9th, 2010., Mediamatics, Electrical Engineering, Mathematics and Computer Science

Published

2010

21. Highlights from the 5th International Society for Computational Biology Student Council Symposium at the 17th Annual International Conference on Intelligent Systems for Molecular Biology and the 8th European Conference on Computational Biology

Author

Abeel, T. (author), De Ridder, J. (author), Peixoto, L. (author), Abeel, T. (author), De Ridder, J. (author), and Peixoto, L. (author)

Abstract

This meeting report gives an overview of the keynote lectures and a selection of the student presentations at the 5th International Society for Computational Biology Student Council Symposium at the 17th Annual International Conference on Intelligent Systems for Molecular Biology (ISMB) and the 8th European Conference on Computational Biology (ECCB). The symposium was held in Stockholm, Sweden from June 27 to July 2, 2009. We also report on other Student Council events that were organized at ISMB/ECCB 2009., Mediamatics, Electrical Engineering, Mathematics and Computer Science

Published

2009

22. GenomeView: a next-generation genome browser

Author

Abeel, T., primary, Van Parys, T., additional, Saeys, Y., additional, Galagan, J., additional, and Van de Peer, Y., additional

Published

2011

23. World of Crayfish™: a web platform towards real-time global mapping of freshwater crayfish and their pathogens

Author

Ion, M. C., Bloomer, C. C., Bărăscu, T. I., Oficialdegui, F. J., Shoobs, N. F., Williams, B. W., Scheers, K., Clavero, M., Grandjean, F., Collas, M., Baudry, T., Loughman, Z., Wright, J. J., Ruokonen, T. J., Chucholl, C., Guareschi, S., Koese, B., Banyai, Z. M., Hodson, J., Hurt, M., Kaldre, K., Lipták, B., Fetzner, J. W., Cancellario, T., Weiperth, A., Birzaks, J., Trichkova, T., Todorov, M., Balalaikins, M., Griffin, B., Petko, O. N., Acevedo-Alonso, A., Elía, G. D., Śliwińska, K., Alekhnovich, A., Choong, H., South, J., Whiterod, N., Zorić, K., Haase, P., Soto, I., Brady, D. J., Haubrock, P. J., Torres, P. J., Şadrin, D., Vlach, P., Kaya, C., Jung, S. W., Kim, J-Y., Vermeersch, X. H. C., Bonk, M., Guiaşu, R., Harlioğlu, M. M., Devlin, J., Kurtul, I., Błońska, Dagmara, Boets, P., Masigol, H., Cabe, P. R., Jussila, J., Vrålstad, T., Beresford, D. V., Reid, S. M., Patoka, J., Strand, D. A., Tarkan, A. S., Steen, F., Abeel, T., Harwood, M., Auer, S., Kelly, S., Giantsis, I. A., Maciaszek, R., Alvanou, M. V., Aksu, Ö., Hayes, D. M., Kawai, T., Tricarico, E., Chakandinakira, A., Barnett, Z. C., Kudor, Ş. G., Beda, A. E., Vîlcea, L., Mizeranschi, A. E., Neagul, M., Licz, A., Cotoarbă, A. D., Petrusek, A., Kouba, A., Taylor, C. A., Pârvulescu, L., Ion, M. C., Bloomer, C. C., Bărăscu, T. I., Oficialdegui, F. J., Shoobs, N. F., Williams, B. W., Scheers, K., Clavero, M., Grandjean, F., Collas, M., Baudry, T., Loughman, Z., Wright, J. J., Ruokonen, T. J., Chucholl, C., Guareschi, S., Koese, B., Banyai, Z. M., Hodson, J., Hurt, M., Kaldre, K., Lipták, B., Fetzner, J. W., Cancellario, T., Weiperth, A., Birzaks, J., Trichkova, T., Todorov, M., Balalaikins, M., Griffin, B., Petko, O. N., Acevedo-Alonso, A., Elía, G. D., Śliwińska, K., Alekhnovich, A., Choong, H., South, J., Whiterod, N., Zorić, K., Haase, P., Soto, I., Brady, D. J., Haubrock, P. J., Torres, P. J., Şadrin, D., Vlach, P., Kaya, C., Jung, S. W., Kim, J-Y., Vermeersch, X. H. C., Bonk, M., Guiaşu, R., Harlioğlu, M. M., Devlin, J., Kurtul, I., Błońska, Dagmara, Boets, P., Masigol, H., Cabe, P. R., Jussila, J., Vrålstad, T., Beresford, D. V., Reid, S. M., Patoka, J., Strand, D. A., Tarkan, A. S., Steen, F., Abeel, T., Harwood, M., Auer, S., Kelly, S., Giantsis, I. A., Maciaszek, R., Alvanou, M. V., Aksu, Ö., Hayes, D. M., Kawai, T., Tricarico, E., Chakandinakira, A., Barnett, Z. C., Kudor, Ş. G., Beda, A. E., Vîlcea, L., Mizeranschi, A. E., Neagul, M., Licz, A., Cotoarbă, A. D., Petrusek, A., Kouba, A., Taylor, C. A., and Pârvulescu, L.

Abstract

Freshwater crayfish are amongst the largest macroinvertebrates and play a keystone role in the ecosystems they occupy. Understanding the global distribution of these animals is often hindered due to a paucity of distributional data. Additionally, nonnative crayfish introductions are becoming more frequent, which can cause severe environmental and economic impacts. Management decisions related to crayfish and their habitats require accurate, up-to-date distribution data and mapping tools. Such data are currently patchily distributed with limited accessibility and are rarely up-to-date. To address these challenges, we developed a versatile e-portal to host distributional data of freshwater crayfish and their pathogens (using Aphanomyces astaci, the causative agent of the crayfish plague, as the most prominent example). Populated with expert data and operating in near real-time, World of Crayfish™ is a living, publicly available database providing worldwide distributional data sourced by experts in the field. The database offers open access to the data through specialized standard geospatial services (Web Map Service, Web Feature Service) enabling users to view, embed, and download customizable outputs for various applications. The platform is designed to support technical enhancements in the future, with the potential to eventually incorporate various additional features. This tool serves as a step forward towards a modern era of conservation planning and management of freshwater biodiversity.

24. Highlights from the 6th International Society for Computational Biology Student Council Symposium at the 18th Annual International Conference on Intelligent Systems for Molecular Biology

Author

Michaut Magali, Klijn Christiaan, and Abeel Thomas

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract This meeting report gives an overview of the keynote lectures and a selection of the student oral and poster presentations at the 6th International Society for Computational Biology Student Council Symposium that was held as a precursor event to the annual international conference on Intelligent Systems for Molecular Biology (ISMB). The symposium was held in Boston, MA, USA on July 9th, 2010.

Published

2010

25. Highlights of the BioTM 2010 workshop on advances in bio text mining

Author

Daelemans Walter, Van de Peer Yves, Van Asch Vincent, Morante Roser, Van Landeghem Sofie, Abeel Thomas, and Saeys Yvan

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Published

2010

26. Highlights from the 5th International Society for Computational Biology Student Council Symposium at the 17th Annual International Conference on Intelligent Systems for Molecular Biology and the 8th European Conference on Computational Biology

Author

de Ridder Jeroen, Abeel Thomas, and Peixoto Lucia

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Published

2009

27. Comparative analysis of mycobacterium and related actinomycetes yields insight into the evolution of mycobacterium tuberculosis pathogenesis

Author

McGuire Abigail, Weiner Brian, Park Sang, Wapinski Ilan, Raman Sahadevan, Dolganov Gregory, Peterson Matthew, Riley Robert, Zucker Jeremy, Abeel Thomas, White Jared, Sisk Peter, Stolte Christian, Koehrsen Mike, Yamamoto Robert T, Iacobelli-Martinez Milena, Kidd Matthew J, Maer Andreia M, Schoolnik Gary K, Regev Aviv, and Galagan James

Subjects

Comparative genomics, M. tuberculosis, SYNERGY, Small RNAs, Lipid metabolism, Molybdopterin, DNA repair, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The sequence of the pathogen Mycobacterium tuberculosis (Mtb) strain H37Rv has been available for over a decade, but the biology of the pathogen remains poorly understood. Genome sequences from other Mtb strains and closely related bacteria present an opportunity to apply the power of comparative genomics to understand the evolution of Mtb pathogenesis. We conducted a comparative analysis using 31 genomes from the Tuberculosis Database (TBDB.org), including 8 strains of Mtb and M. bovis, 11 additional Mycobacteria, 4 Corynebacteria, 2 Streptomyces, Rhodococcus jostii RHA1, Nocardia farcinia, Acidothermus cellulolyticus, Rhodobacter sphaeroides, Propionibacterium acnes, and Bifidobacterium longum. Results Our results highlight the functional importance of lipid metabolism and its regulation, and reveal variation between the evolutionary profiles of genes implicated in saturated and unsaturated fatty acid metabolism. It also suggests that DNA repair and molybdopterin cofactors are important in pathogenic Mycobacteria. By analyzing sequence conservation and gene expression data, we identify nearly 400 conserved noncoding regions. These include 37 predicted promoter regulatory motifs, of which 14 correspond to previously validated motifs, as well as 50 potential noncoding RNAs, of which we experimentally confirm the expression of four. Conclusions Our analysis of protein evolution highlights gene families that are associated with the adaptation of environmental Mycobacteria to obligate pathogenesis. These families include fatty acid metabolism, DNA repair, and molybdopterin biosynthesis. Our analysis reinforces recent findings suggesting that small noncoding RNAs are more common in Mycobacteria than previously expected. Our data provide a foundation for understanding the genome and biology of Mtb in a comparative context, and are available online and through TBDB.org.

Published

2012

28. Exploring the chemical space of post-translationally modified peptides in Streptomyces with machine learning

Author

Kloosterman, A.M., Wezel, G.P. van, Medema, M.H., Meijer, A.H., Briegel, A., Kuipers, O.P., Abeel, T., and Leiden University

Subjects

Natural products, RiPPs, Antibiotics, Genome mining, Machine learning, Streptomyces

Abstract

The ongoing increase in antimicrobial resistance combined with the low discovery of novel antibiotics is a serious threat to our health care. Genome mining has given new potential to the field of natural product discovery, as thousands of biosynthetic gene clusters (BGCs) are discovered for which the natural product is not known.Ribosomally synthesized and post-translationally modified peptides (RiPPs) represent a highly diverse class of natural products. The large number of different modifications that can be applied to a RiPP results in a large variety of chemical structures, but also stems from a large genetic variety in BGCs. As a result, no single method can effectively mine for all RiPP BGCs, making it an interesting source for new molecules.In this thesis, new methods are explored to mine genomes for the BGCs of novel RiPP variants, with a focus on discovering RiPPs that have new modifications. RRE-Finder is a new tool for the detection of RiPP Recognition Elements, domains that are often found in RiPP BGCs. DecRiPPter is another tool that employs machine learning models to discover new RiPP precursor genes encoded in the genomes. Both tools can be used to prioritize novel RiPP BGCs. Two candidate BGCs are characterized, one of which could be shown to specify a new RiPP, validating the approach.

Published

2021

29. Fast and exact gap-affine partial order alignment with POASTA.

Author

van Dijk LR, Manson AL, Earl AM, Garimella KV, and Abeel T

Subjects

Mycobacterium tuberculosis genetics, Computational Biology methods, Genome, Bacterial, Algorithms, Sequence Alignment methods, Software

Abstract

Motivation: Partial order alignment is a widely used method for computing multiple sequence alignments, with applications in genome assembly and pangenomics, among many others. Current algorithms to compute the optimal, gap-affine partial order alignment do not scale well to larger graphs and sequences. While heuristic approaches exist, they do not guarantee optimal alignment and sacrifice alignment accuracy., Results: We present POASTA, a new optimal algorithm for partial order alignment that exploits long stretches of matching sequence between the graph and a query. We benchmarked POASTA against the state-of-the-art on several diverse bacterial gene datasets and demonstrated an average speed-up of 4.1× and up to 9.8×, using less memory. POASTA's memory scaling characteristics enabled the construction of much larger POA graphs than previously possible, as demonstrated by megabase-length alignments of 342 Mycobacterium tuberculosis sequences., Availability and Implementation: POASTA is available on Github at https://github.com/broadinstitute/poasta., (© The Author(s) 2025. Published by Oxford University Press.)

Published

2024

30. Effects of antibiotic growth promoter and its natural alternative on poultry cecum ecosystem: an integrated analysis of gut microbiota and host expression.

Author

Peng C, Ghanbari M, May A, and Abeel T

Abstract

Background: In-feed antibiotic growth promoters (AGPs) have been a cornerstone in the livestock industry due to their role in enhancing growth and feed efficiency. However, concerns over antibiotic resistance have driven a shift away from AGPs toward natural alternatives. Despite the widespread use, the exact mechanisms of AGPs and alternatives are not fully understood. This necessitates holistic studies that investigate microbiota dynamics, host responses, and the interactions between these elements in the context of AGPs and alternative feed additives., Methods: In this study, we conducted a multifaceted investigation of how Bacitracin, a common AGP, and a natural alternative impact both cecum microbiota and host expression in chickens. In addition to univariate and static differential abundance and expression analyses, we employed multivariate and time-course analyses to study this problem. To reveal host-microbe interactions, we assessed their overall correspondence and identified treatment-specific pairs of species and host expressed genes that showed significant correlations over time., Results: Our analysis revealed that factors such as developmental age substantially impacted the cecum ecosystem more than feed additives. While feed additives significantly altered microbial compositions in the later stages, they did not significantly affect overall host gene expression. The differential expression indicated that with AGP administration, host transmembrane transporters and metallopeptidase activities were upregulated around day 21. Together with the modulated kininogen binding and phenylpyruvate tautomerase activity over time, this likely contributes to the growth-promoting effects of AGPs. The difference in responses between AGP and PFA supplementation suggests that these additives operate through distinct mechanisms., Conclusion: We investigated the impact of a common AGP and its natural alternative on poultry cecum ecosystem through an integrated analysis of both the microbiota and host responses. We found that AGP appears to enhance host nutrient utilization and modulate immune responses. The insights we gained are critical for identifying and developing effective AGP alternatives to advance sustainable livestock farming practices., Competing Interests: This work is part of the “AI for Bioscience partnership” (www.AI4b.io) between dsm-firmenich and Delft University of Technology. The Animal Nutrition and Health business unit of dsm-firmenich develops innovative solutions to enhance livestock growth, health, and feed efficiency., (Copyright © 2024 Peng, Ghanbari, May and Abeel.)

Published

2024

31. World of Crayfish™: a web platform towards real-time global mapping of freshwater crayfish and their pathogens.

Author

Ion MC, Bloomer CC, Bărăscu TI, Oficialdegui FJ, Shoobs NF, Williams BW, Scheers K, Clavero M, Grandjean F, Collas M, Baudry T, Loughman Z, Wright JJ, Ruokonen TJ, Chucholl C, Guareschi S, Koese B, Banyai ZM, Hodson J, Hurt M, Kaldre K, Lipták B, Fetzner JW, Cancellario T, Weiperth A, Birzaks J, Trichkova T, Todorov M, Balalaikins M, Griffin B, Petko ON, Acevedo-Alonso A, D'Elía G, Śliwińska K, Alekhnovich A, Choong H, South J, Whiterod N, Zorić K, Haase P, Soto I, Brady DJ, Haubrock PJ, Torres PJ, Şadrin D, Vlach P, Kaya C, Woo Jung S, Kim JY, Vermeersch XHC, Bonk M, Guiaşu R, Harlioğlu MM, Devlin J, Kurtul I, Błońska D, Boets P, Masigol H, Cabe PR, Jussila J, Vrålstad T, Beresford DV, Reid SM, Patoka J, Strand DA, Tarkan AS, Steen F, Abeel T, Harwood M, Auer S, Kelly S, Giantsis IA, Maciaszek R, Alvanou MV, Aksu Ö, Hayes DM, Kawai T, Tricarico E, Chakandinakira A, Barnett ZC, Kudor ŞG, Beda AE, Vîlcea L, Mizeranschi AE, Neagul M, Licz A, Cotoarbă AD, Petrusek A, Kouba A, Taylor CA, and Pârvulescu L

Subjects

Animals, Aphanomyces, Internet, Ecosystem, Databases, Factual, Astacoidea microbiology, Fresh Water

Abstract

Freshwater crayfish are amongst the largest macroinvertebrates and play a keystone role in the ecosystems they occupy. Understanding the global distribution of these animals is often hindered due to a paucity of distributional data. Additionally, non-native crayfish introductions are becoming more frequent, which can cause severe environmental and economic impacts. Management decisions related to crayfish and their habitats require accurate, up-to-date distribution data and mapping tools. Such data are currently patchily distributed with limited accessibility and are rarely up-to-date. To address these challenges, we developed a versatile e -portal to host distributional data of freshwater crayfish and their pathogens (using Aphanomyces astaci , the causative agent of the crayfish plague, as the most prominent example). Populated with expert data and operating in near real-time, World of Crayfish ™ is a living, publicly available database providing worldwide distributional data sourced by experts in the field. The database offers open access to the data through specialized standard geospatial services (Web Map Service, Web Feature Service) enabling users to view, embed, and download customizable outputs for various applications. The platform is designed to support technical enhancements in the future, with the potential to eventually incorporate various additional features. This tool serves as a step forward towards a modern era of conservation planning and management of freshwater biodiversity., Competing Interests: The authors declare there are no competing interests., (©2024 Ion et al.)

Published

2024

32. SAFPred: synteny-aware gene function prediction for bacteria using protein embeddings.

Author

Urhan A, Cosma BM, Earl AM, Manson AL, and Abeel T

Subjects

Software, Bacteria genetics, Synteny, Computational Biology methods, Molecular Sequence Annotation methods, Bacterial Proteins genetics, Bacterial Proteins metabolism, Genome, Bacterial, Algorithms

Abstract

Motivation: Today, we know the function of only a small fraction of the protein sequences predicted from genomic data. This problem is even more salient for bacteria, which represent some of the most phylogenetically and metabolically diverse taxa on Earth. This low rate of bacterial gene annotation is compounded by the fact that most function prediction algorithms have focused on eukaryotes, and conventional annotation approaches rely on the presence of similar sequences in existing databases. However, often there are no such sequences for novel bacterial proteins. Thus, we need improved gene function prediction methods tailored for bacteria. Recently, transformer-based language models-adopted from the natural language processing field-have been used to obtain new representations of proteins, to replace amino acid sequences. These representations, referred to as protein embeddings, have shown promise for improving annotation of eukaryotes, but there have been only limited applications on bacterial genomes., Results: To predict gene functions in bacteria, we developed SAFPred, a novel synteny-aware gene function prediction tool based on protein embeddings from state-of-the-art protein language models. SAFpred also leverages the unique operon structure of bacteria through conserved synteny. SAFPred outperformed both conventional sequence-based annotation methods and state-of-the-art methods on multiple bacterial species, including for distant homolog detection, where the sequence similarity to the proteins in the training set was as low as 40%. Using SAFPred to identify gene functions across diverse enterococci, of which some species are major clinical threats, we identified 11 previously unrecognized putative novel toxins, with potential significance to human and animal health., Availability and Implementation: https://github.com/AbeelLab/safpred., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

33. Integrated omics of Saccharomyces cerevisiae CENPK2-1C reveals pleiotropic drug resistance and lipidomic adaptations to cannabidiol.

Author

Jordan EN, Shirali Hossein Zade R, Pillay S, van Lent P, Abeel T, and Kayser O

Subjects

Metabolomics methods, ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters metabolism, Transcriptome genetics, Transcriptome drug effects, Gene Expression Regulation, Fungal drug effects, Drug Resistance, Fungal genetics, Gene Expression Profiling methods, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae metabolism, Cannabidiol pharmacology, Lipidomics methods, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism

Abstract

Yeast metabolism can be engineered to produce xenobiotic compounds, such as cannabinoids, the principal isoprenoids of the plant Cannabis sativa, through heterologous metabolic pathways. However, yeast cell factories continue to have low cannabinoid production. This study employed an integrated omics approach to investigate the physiological effects of cannabidiol on S. cerevisiae CENPK2-1C yeast cultures. We treated the experimental group with 0.5 mM CBD and monitored CENPK2-1C cultures. We observed a latent-stationary phase post-diauxic shift in the experimental group and harvested samples in the inflection point of this growth phase for transcriptomic and metabolomic analysis. We compared the transcriptomes of the CBD-treated yeast and the positive control, identifying eight significantly overexpressed genes with a log fold change of at least 1.5 and a significant adjusted p-value. Three notable genes were PDR5 (an ABC-steroid and cation transporter), CIS1, and YGR035C. These genes are all regulated by pleiotropic drug resistance linked promoters. Knockout and rescue of PDR5 showed that it is a causal factor in the post-diauxic shift phenotype. Metabolomic analysis revealed 48 significant spectra associated with CBD-fed cell pellets, 20 of which were identifiable as non-CBD compounds, including fatty acids, glycerophospholipids, and phosphate-salvage indicators. Our results suggest that mitochondrial regulation and lipidomic remodeling play a role in yeast's response to CBD, which are employed in tandem with pleiotropic drug resistance (PDR). We conclude that bioengineers should account for off-target product C-flux, energy use from ABC-transport, and post-stationary phase cell growth when developing cannabinoid-biosynthetic yeast strains., (© 2024. The Author(s).)

Published

2024

34. Global diversity of enterococci and description of 18 previously unknown species.

Author

Schwartzman JA, Lebreton F, Salamzade R, Shea T, Martin MJ, Schaufler K, Urhan A, Abeel T, Camargo ILBC, Sgardioli BF, Prichula J, Guedes Frazzon AP, Giribet G, Van Tyne D, Treinish G, Innis CJ, Wagenaar JA, Whipple RM, Manson AL, Earl AM, and Gilmore MS

Subjects

Animals, Humans, Enterococcus genetics, Anti-Bacterial Agents pharmacology, Enterococcus faecalis genetics, Phylogeny, Microbial Sensitivity Tests, Drug Resistance, Bacterial, Enterococcus faecium genetics, Gram-Positive Bacterial Infections

Abstract

Enterococci are gut microbes of most land animals. Likely appearing first in the guts of arthropods as they moved onto land, they diversified over hundreds of millions of years adapting to evolving hosts and host diets. Over 60 enterococcal species are now known. Two species, Enterococcus faecalis and Enterococcus faecium, are common constituents of the human microbiome. They are also now leading causes of multidrug-resistant hospital-associated infection. The basis for host association of enterococcal species is unknown. To begin identifying traits that drive host association, we collected 886 enterococcal strains from widely diverse hosts, ecologies, and geographies. This identified 18 previously undescribed species expanding genus diversity by >25%. These species harbor diverse genes including toxins and systems for detoxification and resource acquisition. Enterococcus faecalis and E. faecium were isolated from diverse hosts highlighting their generalist properties. Most other species showed a more restricted distribution indicative of specialized host association. The expanded species diversity permitted the Enterococcus genus phylogeny to be viewed with unprecedented resolution, allowing features to be identified that distinguish its four deeply rooted clades, and the entry of genes associated with range expansion such as B-vitamin biosynthesis and flagellar motility to be mapped to the phylogeny. This work provides an unprecedentedly broad and deep view of the genus Enterococcus , including insights into its evolution, potential new threats to human health, and where substantial additional enterococcal diversity is likely to be found., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

35. Effects of fir-wood biochar on CH 4 oxidation rates and methanotrophs in landfill cover soils packed at three different proctor compaction levels.

Author

Yi SC, Heijbroek A, Cutz L, Pillay S, de Jong W, Abeel T, and Gebert J

Subjects

Wood, Soil Microbiology, Waste Disposal Facilities, Oxidation-Reduction, Methane, Soil, Methylocystaceae

Abstract

Application of biochar to landfill cover soils can purportedly improve methane (CH 4 ) oxidation rates, but understanding the combined effects of soil texture, compaction, and biochar on the activity and composition of the methanotrophs is limited. The amendment of wood biochar on two differently textured landfill cover soils at three compaction levels of the Proctor density was explored by analyzing changes in soil physical properties relevant to methane oxidation, the effects on CH 4 oxidation rates, and the composition of the methanotrophic community. Loose soils with and without biochar were pre-incubated to equally elevate the CH 4 oxidation rates. Hereafter, soils were compacted and re-incubated. Methane oxidation rates, gas diffusivity, water retention characteristics, and pore size distribution were analyzed on the compacted soils. The relative abundance of methanotrophic bacteria (MOB) was determined at the end of both the pre-incubation and incubation tests of the packed samples. Biochar significantly increased porosity at all compaction levels, enhancing diffusion coefficients. Also, a re-distribution in pore sizes was observed. Increased gas diffusivity from low compaction and amendment of biochar, though, did not reflect higher methane oxidation rates due to high diffusive oxygen fluxes over the limited height of the compacted soil specimens. All soils, with and without biochar, were strongly dominated by Type II methanotrophs. In the sandy soil, biochar amendment strongly increased MOB abundance, which could be attributed to a corresponding increase in the relative abundance of Methylocystis species, while no such response was observed in the clayey soil. Compaction did not change the community composition in either soil. Fir-wood biochar addition to landfill cover soils may not always enhance methanotrophic activity and hence reduce fugitive methane emissions, with the effect being soil-specific. However, especially in finer and more compacted soils, biochar amendment can maintain soil diffusivity above a critical level, preventing the collapse of methanotrophy., Competing Interests: Declaration of competing interest Corresponding author and the co-authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

36. Aerobic denitrification as an N2O source from microbial communities.

Author

Roothans N, Gabriëls M, Abeel T, Pabst M, van Loosdrecht MCM, and Laureni M

Subjects

Aerobiosis, Heterotrophic Processes, Nitrates metabolism, Oxygen metabolism, Nitrogen metabolism, Nitrification, Denitrification, Nitrous Oxide metabolism, Bacteria metabolism, Bacteria genetics, Bacteria classification, Microbiota

Abstract

Nitrous oxide (N2O) is a potent greenhouse gas of primarily microbial origin. Oxic and anoxic emissions are commonly ascribed to autotrophic nitrification and heterotrophic denitrification, respectively. Beyond this established dichotomy, we quantitatively show that heterotrophic denitrification can significantly contribute to aerobic nitrogen turnover and N2O emissions in complex microbiomes exposed to frequent oxic/anoxic transitions. Two planktonic, nitrification-inhibited enrichment cultures were established under continuous organic carbon and nitrate feeding, and cyclic oxygen availability. Over a third of the influent organic substrate was respired with nitrate as electron acceptor at high oxygen concentrations (>6.5 mg/L). N2O accounted for up to one-quarter of the nitrate reduced under oxic conditions. The enriched microorganisms maintained a constitutive abundance of denitrifying enzymes due to the oxic/anoxic frequencies exceeding their protein turnover-a common scenario in natural and engineered ecosystems. The aerobic denitrification rates are ascribed primarily to the residual activity of anaerobically synthesised enzymes. From an ecological perspective, the selection of organisms capable of sustaining significant denitrifying activity during aeration shows their competitive advantage over other heterotrophs under varying oxygen availabilities. Ultimately, we propose that the contribution of heterotrophic denitrification to aerobic nitrogen turnover and N2O emissions is currently underestimated in dynamic environments., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

37. Unveiling microbial biomarkers of ruminant methane emission through machine learning.

Author

Peng C, May A, and Abeel T

Abstract

Background: Enteric methane from cow burps, which results from microbial fermentation of high-fiber feed in the rumen, is a significant contributor to greenhouse gas emissions. A promising strategy to address this problem is microbiome-based precision feed, which involves identifying key microorganisms for methane production. While machine learning algorithms have shown success in associating human gut microbiome with various human diseases, there have been limited efforts to employ these algorithms to establish microbial biomarkers for methane emissions in ruminants., Methods: In this study, we aim to identify potential methane biomarkers for methane emission from ruminants by employing regression algorithms commonly used in human microbiome studies, coupled with different feature selection methods. To achieve this, we analyzed the microbiome compositions and identified possible confounding metadata variables in two large public datasets of Holstein cows. Using both the microbiome features and identified metadata variables, we trained different regressors to predict methane emission. With the optimized models, permutation tests were used to determine feature importance to find informative microbial features., Results: Among the regression algorithms tested, random forest regression outperformed others and allowed the identification of several crucial microbial taxa for methane emission as members of the native rumen microbiome, including the genera Piromyces, Succinivibrionaceae UCG-002 , and Acetobacter . Additionally, our results revealed that certain herd locations and feed composition markers, such as the lipid intake and neutral-detergent fiber intake, are also predictive features for methane emissions., Conclusion: We demonstrated that machine learning, particularly regression algorithms, can effectively predict cow methane emissions and identify relevant rumen microorganisms. Our findings offer valuable insights for the development of microbiome-based precision feed strategies aiming at reducing methane emissions., Competing Interests: This work was part of the AI for Bioscience partnership (www.AI4b.io) between dsm-firmenich and Delft University of Technology. The company dsm-firmenich was active in the animal nutrition and health and develops commercial solutions for methane reduction in ruminant. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Peng, May and Abeel.)

Published

2023

38. SAP: Synteny-aware gene function prediction for bacteria using protein embeddings.

Author

Urhan A, Cosma BM, Earl AM, Manson AL, and Abeel T

Abstract

Motivation: Today, we know the function of only a small fraction of the protein sequences predicted from genomic data. This problem is even more salient for bacteria, which represent some of the most phylogenetically and metabolically diverse taxa on Earth. This low rate of bacterial gene annotation is compounded by the fact that most function prediction algorithms have focused on eukaryotes, and conventional annotation approaches rely on the presence of similar sequences in existing databases. However, often there are no such sequences for novel bacterial proteins. Thus, we need improved gene function prediction methods tailored for prokaryotes. Recently, transformer-based language models - adopted from the natural language processing field - have been used to obtain new representations of proteins, to replace amino acid sequences. These representations, referred to as protein embeddings, have shown promise for improving annotation of eukaryotes, but there have been only limited applications on bacterial genomes., Results: To predict gene functions in bacteria, we developed SAP, a novel synteny-aware gene function prediction tool based on protein embeddings from state-of-the-art protein language models. SAP also leverages the unique operon structure of bacteria through conserved synteny. SAP outperformed both conventional sequence-based annotation methods and state-of-the-art methods on multiple bacterial species, including for distant homolog detection, where the sequence similarity to the proteins in the training set was as low as 40%. Using SAP to identify gene functions across diverse enterococci, of which some species are major clinical threats, we identified 11 previously unrecognized putative novel toxins, with potential significance to human and animal health., Competing Interests: Conflict of Interest None declared.

Published

2023

39. Pan-genome de Bruijn graph using the bidirectional FM-index.

Author

Depuydt L, Renders L, Abeel T, and Fostier J

Subjects

Sequence Analysis, DNA, Software, Computational Biology, Algorithms, Genome

Abstract

Background: Pan-genome graphs are gaining importance in the field of bioinformatics as data structures to represent and jointly analyze multiple genomes. Compacted de Bruijn graphs are inherently suited for this purpose, as their graph topology naturally reveals similarity and divergence within the pan-genome. Most state-of-the-art pan-genome graphs are represented explicitly in terms of nodes and edges. Recently, an alternative, implicit graph representation was proposed that builds directly upon the unidirectional FM-index. As such, a memory-efficient graph data structure is obtained that inherits the FM-index' backward search functionality. However, this representation suffers from a number of shortcomings in terms of functionality and algorithmic performance., Results: We present a data structure for a pan-genome, compacted de Bruijn graph that aims to address these shortcomings. It is built on the bidirectional FM-index, extending the ability of its unidirectional counterpart to navigate and search the graph in both directions. All basic graph navigation steps can be performed in constant time. Based on these features, we implement subgraph visualization as well as lossless approximate pattern matching to the graph using search schemes. We demonstrate that we can retrieve all occurrences corresponding to a read within a certain edit distance in a very efficient manner. Through a case study, we show the potential of exploiting the information embedded in the graph's topology through visualization and sequence alignment., Conclusions: We propose a memory-efficient representation of the pan-genome graph that supports subgraph visualization and lossless approximate pattern matching of reads against the graph using search schemes. The C++ source code of our software, called Nexus, is available at https://github.com/biointec/nexus under AGPL-3.0 license., (© 2023. The Author(s).)

Published

2023

40. SHIP: identifying antimicrobial resistance gene transfer between plasmids.

Author

Teixeira M, Pillay S, Urhan A, and Abeel T

Subjects

Phylogeny, Plasmids genetics, Escherichia coli genetics, Integrons genetics, Gene Transfer, Horizontal, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial genetics

Abstract

Motivation: Plasmids are carriers for antimicrobial resistance (AMR) genes and can exchange genetic material with other structures, contributing to the spread of AMR. There is no reliable approach to identify the transfer of AMR genes across plasmids. This is mainly due to the absence of a method to assess the phylogenetic distance of plasmids, as they show large DNA sequence variability. Identifying and quantifying such transfer can provide novel insight into the role of small mobile elements and resistant plasmid regions in the spread of AMR., Results: We developed SHIP, a novel method to quantify plasmid similarity based on the dynamics of plasmid evolution. This allowed us to find conserved fragments containing AMR genes in structurally different and phylogenetically distant plasmids, which is evidence for lateral transfer. Our results show that regions carrying AMR genes are highly mobilizable between plasmids through transposons, integrons, and recombination events, and contribute to the spread of AMR. Identified transferred fragments include a multi-resistant complex class 1 integron in Escherichia coli and Klebsiella pneumoniae, and a region encoding tetracycline resistance transferred through recombination in Enterococcus faecalis., Availability and Implementation: The code developed in this work is available at https://github.com/AbeelLab/plasmidHGT., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2023

41. Simulated Design-Build-Test-Learn Cycles for Consistent Comparison of Machine Learning Methods in Metabolic Engineering.

Author

van Lent P, Schmitz J, and Abeel T

Subjects

Kinetics, Machine Learning, Random Forest, Metabolic Engineering, Algorithms

Abstract

Combinatorial pathway optimization is an important tool in metabolic flux optimization. Simultaneous optimization of a large number of pathway genes often leads to combinatorial explosions. Strain optimization is therefore often performed using iterative design-build-test-learn (DBTL) cycles. The aim of these cycles is to develop a product strain iteratively, every time incorporating learning from the previous cycle. Machine learning methods provide a potentially powerful tool to learn from data and propose new designs for the next DBTL cycle. However, due to the lack of a framework for consistently testing the performance of machine learning methods over multiple DBTL cycles, evaluating the effectiveness of these methods remains a challenge. In this work, we propose a mechanistic kinetic model-based framework to test and optimize machine learning for iterative combinatorial pathway optimization. Using this framework, we show that gradient boosting and random forest models outperform the other tested methods in the low-data regime. We demonstrate that these methods are robust for training set biases and experimental noise. Finally, we introduce an algorithm for recommending new designs using machine learning model predictions. We show that when the number of strains to be built is limited, starting with a large initial DBTL cycle is favorable over building the same number of strains for every cycle.

Published

2023

42. Global diversity of enterococci and description of 18 novel species.

Author

Schwartzman JA, Lebreton F, Salamzade R, Martin MJ, Schaufler K, Urhan A, Abeel T, Camargo ILBC, Sgardioli BF, Prichula J, Frazzon APG, Van Tyne D, Treinish G, Innis CJ, Wagenaar JA, Whipple RM, Manson AL, Earl AM, and Gilmore MS

Abstract

Enterococci are commensal gut microbes of most land animals. They diversified over hundreds of millions of years adapting to evolving hosts and host diets. Of over 60 known enterococcal species, Enterococcus faecalis and E. faecium uniquely emerged in the antibiotic era among leading causes of multidrug resistant hospital-associated infection. The basis for the association of particular enterococcal species with a host is largely unknown. To begin deciphering enterococcal species traits that drive host association, and to assess the pool of Enterococcus -adapted genes from which known facile gene exchangers such as E. faecalis and E. faecium may draw, we collected 886 enterococcal strains from nearly 1,000 specimens representing widely diverse hosts, ecologies and geographies. This provided data on the global occurrence and host associations of known species, identifying 18 new species in the process expanding genus diversity by >25%. The novel species harbor diverse genes associated with toxins, detoxification, and resource acquisition. E. faecalis and E. faecium were isolated from a wide diversity of hosts highlighting their generalist properties, whereas most other species exhibited more restricted distributions indicative of specialized host associations. The expanded species diversity permitted the Enterococcus genus phylogeny to be viewed with unprecedented resolution, allowing features to be identified that distinguish its four deeply rooted clades as well as genes associated with range expansion, such as B-vitamin biosynthesis and flagellar motility. Collectively, this work provides an unprecedentedly broad and deep view of the genus Enterococcus , potential threats to human health, and new insights into its evolution.

Published

2023

43. Catch me if you can: capturing microbial community transformation by extracellular DNA using Hi-C sequencing.

Author

Calderón-Franco D, van Loosdrecht MCM, Abeel T, and Weissbrodt DG

Subjects

Anti-Bacterial Agents therapeutic use, Plasmids genetics, DNA, Gene Transfer, Horizontal, Conjugation, Genetic, Wastewater, Microbiota

Abstract

The transformation of environmental microorganisms by extracellular DNA is an overlooked mechanism of horizontal gene transfer and evolution. It initiates the acquisition of exogenous genes and propagates antimicrobial resistance alongside vertical and conjugative transfers. We combined mixed-culture biotechnology and Hi-C sequencing to elucidate the transformation of wastewater microorganisms with a synthetic plasmid encoding GFP and kanamycin resistance genes, in the mixed culture of chemostats exposed to kanamycin at concentrations representing wastewater, gut and polluted environments (0.01-2.5-50-100 mg L -1 ). We found that the phylogenetically distant Gram-negative Runella (102 Hi-C links), Bosea (35), Gemmobacter (33) and Zoogloea (24) spp., and Gram-positive Microbacterium sp. (90) were transformed by the foreign plasmid, under high antibiotic exposure (50 mg L -1 ). In addition, the antibiotic pressure shifted the origin of aminoglycoside resistance genes from genomic DNA to mobile genetic elements on plasmids accumulating in microorganisms. These results reveal the power of Hi-C sequencing to catch and surveil the transfer of xenogenetic elements inside microbiomes., (© 2023. The Author(s).)

Published

2023

44. Genomes of four Streptomyces strains reveal insights into putative new species and pathogenicity of scab-causing organisms.

Author

Henao L, Zade RSH, Restrepo S, Husserl J, and Abeel T

Subjects

Virulence genetics, Phylogeny, Virulence Factors genetics, Virulence Factors metabolism, Genomics, Plant Diseases, Streptomyces genetics, Streptomyces metabolism, Solanum tuberosum

Abstract

Genomes of four Streptomyces isolates, two putative new species (Streptomyces sp. JH14 and Streptomyces sp. JH34) and two non thaxtomin-producing pathogens (Streptomyces sp. JH002 and Streptomyces sp. JH010) isolated from potato fields in Colombia were selected to investigate their taxonomic classification, their pathogenicity, and the production of unique secondary metabolites of Streptomycetes inhabiting potato crops in this region. The average nucleotide identity (ANI) value calculated between Streptomyces sp. JH34 and its closest relatives (92.23%) classified this isolate as a new species. However, Streptomyces sp. JH14 could not be classified as a new species due to the lack of genomic data of closely related strains. Phylogenetic analysis based on 231 single-copy core genes, confirmed that the two pathogenic isolates (Streptomyces sp. JH010 and JH002) belong to Streptomyces pratensis and Streptomyces xiamenensis, respectively, are distant from the most well-known pathogenic species, and belong to two different lineages. We did not find orthogroups of protein-coding genes characteristic of scab-causing Streptomycetes shared by all known pathogenic species. Most genes involved in biosynthesis of known virulence factors are not present in the scab-causing isolates (Streptomyces sp. JH002 and Streptomyces sp. JH010). However, Tat-system substrates likely involved in pathogenicity in Streptomyces sp. JH002 and Streptomyces sp. JH010 were identified. Lastly, the presence of a putative mono-ADP-ribosyl transferase, homologous to the virulence factor scabin, was confirmed in Streptomyces sp. JH002. The described pathogenic isolates likely produce virulence factors uncommon in Streptomyces species, including a histidine phosphatase and a metalloprotease potentially produced by Streptomyces sp. JH002, and a pectinesterase, potentially produced by Streptomyces sp. JH010. Biosynthetic gene clusters (BGCs) showed the presence of clusters associated with the synthesis of medicinal compounds and BGCs potentially linked to pathogenicity in Streptomyces sp. JH010 and JH002. Interestingly, BGCs that have not been previously reported were also found. Our findings suggest that the four isolates produce novel secondary metabolites and metabolites with medicinal properties., (© 2023. The Author(s).)

Published

2023

45. "How sweet are your strawberries?": Predicting sugariness using non-destructive and affordable hardware.

Author

Wen J, Abeel T, and de Weerdt M

Abstract

Global soft fruit supply chains rely on trustworthy descriptions of product quality. However, crucial criteria such as sweetness and firmness cannot be accurately established without destroying the fruit. Since traditional alternatives are subjective assessments by human experts, it is desirable to obtain quality estimations in a consistent and non-destructive manner. The majority of research on fruit quality measurements analyzed fruits in the lab with uniform data collection. However, it is laborious and expensive to scale up to the level of the whole yield. The "harvest-first, analysis-second" method also comes too late to decide to adjust harvesting schedules. In this research, we validated our hypothesis of using in-field data acquirable via commodity hardware to obtain acceptable accuracies. The primary instance that the research concerns is the sugariness of strawberries, described by the juice's total soluble solid (TSS) content (unit: °Brix or Brix). We benchmarked the accuracy of strawberry Brix prediction using convolutional neural networks (CNN), variational autoencoders (VAE), principal component analysis (PCA), kernelized ridge regression (KRR), support vector regression (SVR), and multilayer perceptron (MLP), based on fusions of image data, environmental records, and plant load information, etc. Our results suggest that: (i) models trained by environment and plant load data can perform reliable prediction of aggregated Brix values, with the lowest RMSE at 0.59; (ii) using image data can further supplement the Brix predictions of individual fruits from (i), from 1.27 to as low up to 1.10, but they by themselves are not sufficiently reliable., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Wen, Abeel and de Weerdt.)

Published

2023

46. Evaluating long-read de novo assembly tools for eukaryotic genomes: insights and considerations.

Author

Cosma BM, Shirali Hossein Zade R, Jordan EN, van Lent P, Peng C, Pillay S, and Abeel T

Subjects

Sequence Analysis, DNA methods, Algorithms, High-Throughput Nucleotide Sequencing methods, Genome, Nanopores

Abstract

Background: Assembly algorithm choice should be a deliberate, well-justified decision when researchers create genome assemblies for eukaryotic organisms from third-generation sequencing technologies. While third-generation sequencing by Oxford Nanopore Technologies (ONT) and Pacific Biosciences (PacBio) has overcome the disadvantages of short read lengths specific to next-generation sequencing (NGS), third-generation sequencers are known to produce more error-prone reads, thereby generating a new set of challenges for assembly algorithms and pipelines. However, the introduction of HiFi reads, which offer substantially reduced error rates, has provided a promising solution for more accurate assembly outcomes. Since the introduction of third-generation sequencing technologies, many tools have been developed that aim to take advantage of the longer reads, and researchers need to choose the correct assembler for their projects., Results: We benchmarked state-of-the-art long-read de novo assemblers to help readers make a balanced choice for the assembly of eukaryotes. To this end, we used 12 real and 64 simulated datasets from different eukaryotic genomes, with different read length distributions, imitating PacBio continuous long-read (CLR), PacBio high-fidelity (HiFi), and ONT sequencing to evaluate the assemblers. We include 5 commonly used long-read assemblers in our benchmark: Canu, Flye, Miniasm, Raven, and wtdbg2 for ONT and PacBio CLR reads. For PacBio HiFi reads , we include 5 state-of-the-art HiFi assemblers: HiCanu, Flye, Hifiasm, LJA, and MBG. Evaluation categories address the following metrics: reference-based metrics, assembly statistics, misassembly count, BUSCO completeness, runtime, and RAM usage. Additionally, we investigated the effect of increased read length on the quality of the assemblies and report that read length can, but does not always, positively impact assembly quality., Conclusions: Our benchmark concludes that there is no assembler that performs the best in all the evaluation categories. However, our results show that overall Flye is the best-performing assembler for PacBio CLR and ONT reads, both on real and simulated data. Meanwhile, best-performing PacBio HiFi assemblers are Hifiasm and LJA. Next, the benchmarking using longer reads shows that the increased read length improves assembly quality, but the extent to which that can be achieved depends on the size and complexity of the reference genome., (© The Author(s) 2023. Published by Oxford University Press GigaScience.)

Published

2022

47. HAT: haplotype assembly tool using short and error-prone long reads.

Author

Shirali Hossein Zade R, Urhan A, Assis de Souza A, Singh A, and Abeel T

Subjects

Haplotypes, Sequence Analysis, DNA methods, Alleles, Algorithms, High-Throughput Nucleotide Sequencing methods, Tool Use Behavior

Abstract

Motivation: Haplotypes are the set of alleles co-occurring on a single chromosome and inherited together to the next generation. Because a monoploid reference genome loses this co-occurrence information, it has limited use in associating phenotypes with allelic combinations of genotypes. Therefore, methods to reconstruct the complete haplotypes from DNA sequencing data are crucial. Recently, several attempts have been made at haplotype reconstructions, but significant limitations remain. High-quality continuous haplotypes cannot be created reliably, particularly when there are few differences between the homologous chromosomes., Results: Here, we introduce HAT, a haplotype assembly tool that exploits short and long reads along with a reference genome to reconstruct haplotypes. HAT tries to take advantage of the accuracy of short reads and the length of the long reads to reconstruct haplotypes. We tested HAT on the aneuploid yeast strain Saccharomyces pastorianus CBS1483 and multiple simulated polyploid datasets of the same strain, showing that it outperforms existing tools., Availability and Implementation: https://github.com/AbeelLab/hat/., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2022. Published by Oxford University Press.)

Published

2022

48. Metagenomic-based surveillance systems for antibiotic resistance in non-clinical settings.

Author

Pillay S, Calderón-Franco D, Urhan A, and Abeel T

Abstract

The success of antibiotics as a therapeutic agent has led to their ineffectiveness. The continuous use and misuse in clinical and non-clinical areas have led to the emergence and spread of antibiotic-resistant bacteria and its genetic determinants. This is a multi-dimensional problem that has now become a global health crisis. Antibiotic resistance research has primarily focused on the clinical healthcare sectors while overlooking the non-clinical sectors. The increasing antibiotic usage in the environment - including animals, plants, soil, and water - are drivers of antibiotic resistance and function as a transmission route for antibiotic resistant pathogens and is a source for resistance genes. These natural compartments are interconnected with each other and humans, allowing the spread of antibiotic resistance via horizontal gene transfer between commensal and pathogenic bacteria. Identifying and understanding genetic exchange within and between natural compartments can provide insight into the transmission, dissemination, and emergence mechanisms. The development of high-throughput DNA sequencing technologies has made antibiotic resistance research more accessible and feasible. In particular, the combination of metagenomics and powerful bioinformatic tools and platforms have facilitated the identification of microbial communities and has allowed access to genomic data by bypassing the need for isolating and culturing microorganisms. This review aimed to reflect on the different sequencing techniques, metagenomic approaches, and bioinformatics tools and pipelines with their respective advantages and limitations for antibiotic resistance research. These approaches can provide insight into resistance mechanisms, the microbial population, emerging pathogens, resistance genes, and their dissemination. This information can influence policies, develop preventative measures and alleviate the burden caused by antibiotic resistance., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Pillay, Calderón-Franco, Urhan and Abeel.)

Published

2022

49. Identification of HLA-E Binding Mycobacterium tuberculosis -Derived Epitopes through Improved Prediction Models.

Author

Ruibal P, Franken KLMC, van Meijgaarden KE, van Wolfswinkel M, Derksen I, Scheeren FA, Janssen GMC, van Veelen PA, Sarfas C, White AD, Sharpe SA, Palmieri F, Petrone L, Goletti D, Abeel T, Ottenhoff THM, and Joosten SA

Subjects

Antigens, Bacterial, CD8-Positive T-Lymphocytes, Epitopes, T-Lymphocyte, Histocompatibility Antigens Class I, Humans, Peptides, HLA-E Antigens, Mycobacterium tuberculosis, Tuberculosis

Abstract

Tuberculosis (TB) remains one of the deadliest infectious diseases worldwide, posing great social and economic burden to affected countries. Novel vaccine approaches are needed to increase protective immunity against the causative agent Mycobacterium tuberculosis (Mtb) and to reduce the development of active TB disease in latently infected individuals. Donor-unrestricted T cell responses represent such novel potential vaccine targets. HLA-E-restricted T cell responses have been shown to play an important role in protection against TB and other infections, and recent studies have demonstrated that these cells can be primed in vitro. However, the identification of novel pathogen-derived HLA-E binding peptides presented by infected target cells has been limited by the lack of accurate prediction algorithms for HLA-E binding. In this study, we developed an improved HLA-E binding peptide prediction algorithm and implemented it to identify (to our knowledge) novel Mtb-derived peptides with capacity to induce CD8 + T cell activation and that were recognized by specific HLA-E-restricted T cells in Mycobacterium -exposed humans. Altogether, we present a novel algorithm for the identification of pathogen- or self-derived HLA-E-presented peptides., (Copyright © 2022 by The American Association of Immunologists, Inc.)

Published

2022

50. Metagenomic profiling and transfer dynamics of antibiotic resistance determinants in a full-scale granular sludge wastewater treatment plant.

Author

Calderón-Franco D, Sarelse R, Christou S, Pronk M, van Loosdrecht MCM, Abeel T, and Weissbrodt DG

Subjects

Anti-Bacterial Agents pharmacology, DNA, Drug Resistance, Microbial genetics, Genes, Bacterial, Metagenomics, Wastewater, Sewage, Water Purification

Abstract

In the One Health context, wastewater treatment plants (WWTPs) are central to safeguarding water resources. Nonetheless, many questions remain about their effectiveness in preventing antimicrobial resistance (AMR) dissemination. Most surveillance studies monitor the levels and removal of selected antibiotic resistance genes (ARGs) and mobile genetic elements (MGEs) in intracellular DNA (iDNA) extracted from WWTP influents and effluents. The role of extracellular free DNA (exDNA) in wastewater is mostly overlooked. This study analyzed the transfer of ARGs and MGEs in a full-scale Nereda® reactor removing nutrients with aerobic granular sludge. We tracked the composition and fate of the iDNA and exDNA pools of influent, sludge, and effluent samples. Metagenomics was used to profile the microbiome, resistome, and mobilome signatures of iDNA and exDNA extracts. Selected ARGs and MGEs were analyzed by qPCR. From 2,840 ARGs identified, the genes arr-3 (2%), tetC (1.6%), sul1 (1.5%), oqxB (1.2%), and aph(3")-Ib (1.2%) were the most abundant among all sampling points and bioaggregates. Pseudomonas, Acinetobacter, Aeromonas, Acidovorax, Rhodoferax, and Streptomyces populations were the main potential hosts of ARGs in the sludge. In the effluent, 478 resistance determinants were detected, of which 89% were from exDNA potentially released by cell lysis during aeration in the reactor. MGEs and multiple ARGs were co-localized on the same extracellular genetic contigs. Total intracellular ARGs decreased 3-42% due to wastewater treatment. However, the ermB and sul1 genes increased by 2 and 1 log gene copies mL -1 , respectively, in exDNA from influent to effluent. The exDNA fractions need to be considered in AMR surveillance, risk assessment, and mitigation strategies., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2022