Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform

Dan Lu; Katrina L. Kalantar; Abigail L. Glascock; Victoria T. Chu; Estella S. Guerrero; Nina Bernick; Xochitl Butcher; Kirsty Ewing; Elizabeth Fahsbender; Olivia Holmes; Erin Hoops; Ann E. Jones; Ryan Lim; Suzette McCanny; Lucia Reynoso; Karyna Rosario; Jennifer Tang; Omar Valenzuela; Peter M. Mourani; Amy J. Pickering; Amogelang R. Raphenya; Brian P. Alcock; Andrew G. McArthur; Charles R. Langelier

doi:10.1186/s13073-025-01480-2

Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform

Dan Lu
, Katrina L. Kalantar
, Abigail L. Glascock
, Victoria T. Chu
, Estella S. Guerrero
, Nina Bernick
, Xochitl Butcher
, Kirsty Ewing
, Elizabeth Fahsbender
, Olivia Holmes
, Erin Hoops
, Ann E. Jones
, Ryan Lim
, Suzette McCanny
, Lucia Reynoso
, Karyna Rosario
, Jennifer Tang
, Omar Valenzuela
, Peter M. Mourani
, Amy J. Pickering

Amogelang R. Raphenya, Brian P. Alcock, Andrew G. McArthur, Charles R. Langelier

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Antimicrobial resistant (AMR) pathogens represent urgent threats to human health, and their surveillance is of paramount importance. Metagenomic next-generation sequencing (mNGS) has revolutionized such efforts, but remains challenging due to the lack of open-access bioinformatics tools capable of simultaneously analyzing both microbial and AMR gene sequences. Results: To address this need, we developed the Chan Zuckerberg ID (CZ ID) AMR module, an open-access, cloud-based workflow designed to integrate detection of both microbes and AMR genes in mNGS and single-isolate whole-genome sequencing (WGS) data. It leverages the Comprehensive Antibiotic Resistance Database and associated Resistance Gene Identifier software, and works synergistically with the CZ ID short-read mNGS module to enable broad detection of both microbes and AMR genes from Illumina data. We highlight diverse applications of the AMR module through analysis of both publicly available and newly generated mNGS and single-isolate WGS data from four clinical cohort studies and an environmental surveillance project. Through genomic investigations of bacterial sepsis and pneumonia cases, hospital outbreaks, and wastewater surveillance data, we gain a deeper understanding of infectious agents and their resistomes, highlighting the value of integrating microbial identification and AMR profiling for both research and public health. We leverage additional functionalities of the CZ ID mNGS platform to couple resistome profiling with the assessment of phylogenetic relationships between nosocomial pathogens, and further demonstrate the potential to capture the longitudinal dynamics of pathogen and AMR genes in hospital acquired bacterial infections. Conclusions: In sum, the new AMR module advances the capabilities of the open-access CZ ID microbial bioinformatics platform by integrating pathogen detection and AMR profiling from mNGS and single-isolate WGS data. Its development represents an important step toward democratizing pathogen genomic analysis and supporting collaborative efforts to combat the growing threat of AMR.

Original language	English
Article number	46
Journal	Genome Medicine
Volume	17
Issue number	1
DOIs	https://doi.org/10.1186/s13073-025-01480-2
State	Published - Dec 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

ASJC Scopus Subject Areas

Molecular Medicine
Molecular Biology
Genetics
Genetics(clinical)

Keywords

Antimicrobial resistance
CZ ID
Chan Zuckerberg ID
Metagenomics
Whole-genome sequencing

Access to Document

10.1186/s13073-025-01480-2

Cite this

Lu, D., Kalantar, K. L., Glascock, A. L., Chu, V. T., Guerrero, E. S., Bernick, N., Butcher, X., Ewing, K., Fahsbender, E., Holmes, O., Hoops, E., Jones, A. E., Lim, R., McCanny, S., Reynoso, L., Rosario, K., Tang, J., Valenzuela, O., Mourani, P. M., ... Langelier, C. R. (2025). Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform. Genome Medicine, 17(1), Article 46. https://doi.org/10.1186/s13073-025-01480-2

Lu, D, Kalantar, KL, Glascock, AL, Chu, VT, Guerrero, ES, Bernick, N, Butcher, X, Ewing, K, Fahsbender, E, Holmes, O, Hoops, E, Jones, AE, Lim, R, McCanny, S, Reynoso, L, Rosario, K, Tang, J, Valenzuela, O, Mourani, PM, Pickering, AJ, Raphenya, AR, Alcock, BP, McArthur, AG & Langelier, CR 2025, 'Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform', Genome Medicine, vol. 17, no. 1, 46. https://doi.org/10.1186/s13073-025-01480-2

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title = "Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform",

abstract = "Background: Antimicrobial resistant (AMR) pathogens represent urgent threats to human health, and their surveillance is of paramount importance. Metagenomic next-generation sequencing (mNGS) has revolutionized such efforts, but remains challenging due to the lack of open-access bioinformatics tools capable of simultaneously analyzing both microbial and AMR gene sequences. Results: To address this need, we developed the Chan Zuckerberg ID (CZ ID) AMR module, an open-access, cloud-based workflow designed to integrate detection of both microbes and AMR genes in mNGS and single-isolate whole-genome sequencing (WGS) data. It leverages the Comprehensive Antibiotic Resistance Database and associated Resistance Gene Identifier software, and works synergistically with the CZ ID short-read mNGS module to enable broad detection of both microbes and AMR genes from Illumina data. We highlight diverse applications of the AMR module through analysis of both publicly available and newly generated mNGS and single-isolate WGS data from four clinical cohort studies and an environmental surveillance project. Through genomic investigations of bacterial sepsis and pneumonia cases, hospital outbreaks, and wastewater surveillance data, we gain a deeper understanding of infectious agents and their resistomes, highlighting the value of integrating microbial identification and AMR profiling for both research and public health. We leverage additional functionalities of the CZ ID mNGS platform to couple resistome profiling with the assessment of phylogenetic relationships between nosocomial pathogens, and further demonstrate the potential to capture the longitudinal dynamics of pathogen and AMR genes in hospital acquired bacterial infections. Conclusions: In sum, the new AMR module advances the capabilities of the open-access CZ ID microbial bioinformatics platform by integrating pathogen detection and AMR profiling from mNGS and single-isolate WGS data. Its development represents an important step toward democratizing pathogen genomic analysis and supporting collaborative efforts to combat the growing threat of AMR.",

keywords = "Antimicrobial resistance, CZ ID, Chan Zuckerberg ID, Metagenomics, Whole-genome sequencing",

author = "Dan Lu and Kalantar, \{Katrina L.\} and Glascock, \{Abigail L.\} and Chu, \{Victoria T.\} and Guerrero, \{Estella S.\} and Nina Bernick and Xochitl Butcher and Kirsty Ewing and Elizabeth Fahsbender and Olivia Holmes and Erin Hoops and Jones, \{Ann E.\} and Ryan Lim and Suzette McCanny and Lucia Reynoso and Karyna Rosario and Jennifer Tang and Omar Valenzuela and Mourani, \{Peter M.\} and Pickering, \{Amy J.\} and Raphenya, \{Amogelang R.\} and Alcock, \{Brian P.\} and McArthur, \{Andrew G.\} and Langelier, \{Charles R.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1186/s13073-025-01480-2",

language = "English",

volume = "17",

journal = "Genome Medicine",

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TY - JOUR

T1 - Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform

AU - Lu, Dan

AU - Kalantar, Katrina L.

AU - Glascock, Abigail L.

AU - Chu, Victoria T.

AU - Guerrero, Estella S.

AU - Bernick, Nina

AU - Butcher, Xochitl

AU - Ewing, Kirsty

AU - Fahsbender, Elizabeth

AU - Holmes, Olivia

AU - Hoops, Erin

AU - Jones, Ann E.

AU - Lim, Ryan

AU - McCanny, Suzette

AU - Reynoso, Lucia

AU - Rosario, Karyna

AU - Tang, Jennifer

AU - Valenzuela, Omar

AU - Mourani, Peter M.

AU - Pickering, Amy J.

AU - Raphenya, Amogelang R.

AU - Alcock, Brian P.

AU - McArthur, Andrew G.

AU - Langelier, Charles R.

PY - 2025/12

Y1 - 2025/12

N2 - Background: Antimicrobial resistant (AMR) pathogens represent urgent threats to human health, and their surveillance is of paramount importance. Metagenomic next-generation sequencing (mNGS) has revolutionized such efforts, but remains challenging due to the lack of open-access bioinformatics tools capable of simultaneously analyzing both microbial and AMR gene sequences. Results: To address this need, we developed the Chan Zuckerberg ID (CZ ID) AMR module, an open-access, cloud-based workflow designed to integrate detection of both microbes and AMR genes in mNGS and single-isolate whole-genome sequencing (WGS) data. It leverages the Comprehensive Antibiotic Resistance Database and associated Resistance Gene Identifier software, and works synergistically with the CZ ID short-read mNGS module to enable broad detection of both microbes and AMR genes from Illumina data. We highlight diverse applications of the AMR module through analysis of both publicly available and newly generated mNGS and single-isolate WGS data from four clinical cohort studies and an environmental surveillance project. Through genomic investigations of bacterial sepsis and pneumonia cases, hospital outbreaks, and wastewater surveillance data, we gain a deeper understanding of infectious agents and their resistomes, highlighting the value of integrating microbial identification and AMR profiling for both research and public health. We leverage additional functionalities of the CZ ID mNGS platform to couple resistome profiling with the assessment of phylogenetic relationships between nosocomial pathogens, and further demonstrate the potential to capture the longitudinal dynamics of pathogen and AMR genes in hospital acquired bacterial infections. Conclusions: In sum, the new AMR module advances the capabilities of the open-access CZ ID microbial bioinformatics platform by integrating pathogen detection and AMR profiling from mNGS and single-isolate WGS data. Its development represents an important step toward democratizing pathogen genomic analysis and supporting collaborative efforts to combat the growing threat of AMR.

AB - Background: Antimicrobial resistant (AMR) pathogens represent urgent threats to human health, and their surveillance is of paramount importance. Metagenomic next-generation sequencing (mNGS) has revolutionized such efforts, but remains challenging due to the lack of open-access bioinformatics tools capable of simultaneously analyzing both microbial and AMR gene sequences. Results: To address this need, we developed the Chan Zuckerberg ID (CZ ID) AMR module, an open-access, cloud-based workflow designed to integrate detection of both microbes and AMR genes in mNGS and single-isolate whole-genome sequencing (WGS) data. It leverages the Comprehensive Antibiotic Resistance Database and associated Resistance Gene Identifier software, and works synergistically with the CZ ID short-read mNGS module to enable broad detection of both microbes and AMR genes from Illumina data. We highlight diverse applications of the AMR module through analysis of both publicly available and newly generated mNGS and single-isolate WGS data from four clinical cohort studies and an environmental surveillance project. Through genomic investigations of bacterial sepsis and pneumonia cases, hospital outbreaks, and wastewater surveillance data, we gain a deeper understanding of infectious agents and their resistomes, highlighting the value of integrating microbial identification and AMR profiling for both research and public health. We leverage additional functionalities of the CZ ID mNGS platform to couple resistome profiling with the assessment of phylogenetic relationships between nosocomial pathogens, and further demonstrate the potential to capture the longitudinal dynamics of pathogen and AMR genes in hospital acquired bacterial infections. Conclusions: In sum, the new AMR module advances the capabilities of the open-access CZ ID microbial bioinformatics platform by integrating pathogen detection and AMR profiling from mNGS and single-isolate WGS data. Its development represents an important step toward democratizing pathogen genomic analysis and supporting collaborative efforts to combat the growing threat of AMR.

KW - Antimicrobial resistance

KW - CZ ID

KW - Chan Zuckerberg ID

KW - Metagenomics

KW - Whole-genome sequencing

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C2 - 40329334

AN - SCOPUS:105004470459

SN - 1756-994X

VL - 17

JO - Genome Medicine

JF - Genome Medicine

IS - 1

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ER -

Simultaneous detection of pathogens and antimicrobial resistance genes with the open source, cloud-based, CZ ID platform

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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