← Leaderboards
Tim Van Opijnen
St. Jude Children'S Research Hospital
$11,046,881
Attributed
$22,007,970
Total exposure
13
Grants
10
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $4.4M · FY2015–25$5M$3.8M$2.5M$1.3M$0
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$32,001,671 · 14
By mechanism
U19$13,318,842 · 5
U01$10,213,678 · 1
R01$7,217,151 · 4
R21$1,095,500 · 3
R03$156,500 · 1
Top collaborators
- Jason W. Rosch13 shared
- Vaughn Cooper9 shared
- Ralph R Isberg9 shared
- Michelle Margaret Meyer6 shared
- Jose Bento5 shared
- Stacey L Schultz-Cherry4 shared
- Juan Cesar Federico Ortiz-Marquez3 shared
Most similar at St. Jude Children'S Research Hospital
Same institution · by research overlap
- Jason W. Rosch$10,977,689
- Juan Cesar Federico Ortiz-Marquez$1,074,904
- Stacey L Schultz-Cherry$5,391,169
- Shyra Wilde$75,520
Others in their field
Top investigators on “Streptococcus Pneumoniae”
- Jeffrey N. Weiser · New York University School Of Medicine$20,590,649
- Dallas Hughes · Novobiotic Pharmaceuticals, Llc$15,114,161
- Elaine Tuomanen · University Of Alabama At Birmingham$13,568,473
- Liise-Anne Pirofski · Yeshiva University$13,441,639
- Joseph P Mizgerd · Boston University Medical Campus$12,549,527
- Myron Max Levine · University Of Maryland Baltimore$12,500,000
Research focus
Streptococcus PneumoniaeMutationBacteriaComplexMapsGenesAntibioticsIn VivoResistanceAntibiotic ResistanceDesignTranscriptome SequencingPhenotypeInfectionAffectGenomicsStressGenome-WideFitnessPathogenic BacteriaPlayOrganismPathway InteractionsResponse
Grant awards (42)
Attacking failure of antibiotic treatment by targeting antimicrobial resistance enabler cell-states$2,470,464
U19 · FY2025 · AI · contact PI
A blind source separation approach for deconvolution of bulk transcriptional data leads to early detection of ATF cell-states in complex bacterial populations, in vitro and in vivo$830,798
U19 · FY2025 · AI · contact PI
Consequences of Direct Viral-Bacterial Interactions$487,212
R01 · FY2025 · AI
Administrative Core$78,908
U19 · FY2025 · AI · contact PI
Attacking failure of antibiotic treatment by targeting antimicrobial resistance enabler cell-states$2,588,682
U19 · FY2024 · AI · contact PI
Consequences of Direct Viral-Bacterial Interactions$502,279
R01 · FY2024 · AI
A blind source separation approach for deconvolution of bulk transcriptional data leads to early detection of ATF cell-states in complex bacterial populations, in vitro and in vivo$501,518
U19 · FY2024 · AI · contact PI
A priori adaptive evolution predictions for antibiotic resistance through genome-wide network analyses and machine learning$445,000
R01 · FY2024 · AI · contact PI
Administrative Core$172,321
U19 · FY2024 · AI · contact PI
Attacking failure of antibiotic treatment by targeting antimicrobial resistance enabler cell-states$2,571,561
U19 · FY2023 · AI · contact PI
A blind source separation approach for deconvolution of bulk transcriptional data leads to early detection of ATF cell-states in complex bacterial populations, in vitro and in vivo$849,504
U19 · FY2023 · AI · contact PI
Consequences of Direct Viral-Bacterial Interactions$502,279
R01 · FY2023 · AI
A priori adaptive evolution predictions for antibiotic resistance through genome-wide network analyses and machine learning$391,250
R01 · FY2023 · AI · contact PI
Administrative Core$124,038
U19 · FY2023 · AI · contact PI
Attacking failure of antibiotic treatment by targeting antimicrobial resistance enabler cell-states$2,362,994
U19 · FY2022 · AI · contact PI
A blind source separation approach for deconvolution of bulk transcriptional data leads to early detection of ATF cell-states in complex bacterial populations, in vitro and in vivo$610,131
U19 · FY2022 · AI · contact PI
Consequences of Direct Viral-Bacterial Interactions$522,779
R01 · FY2022 · AI
A priori adaptive evolution predictions for antibiotic resistance through genome-wide network analyses and machine learning$391,250
R01 · FY2022 · AI · contact PI
Administrative Core$157,923
U19 · FY2022 · AI · contact PI
A priori adaptive evolution predictions for antibiotic resistance through genome-wide network analyses and machine learning$391,250
R01 · FY2021 · AI · contact PI
Pooled and dual-guided CRISPRi, a genome-wide tool for genetic interaction mapping in high-throughput$234,750
R21 · FY2021 · AI · contact PI
Interactions between translation inhibiting antibiotics and diverse RNA regulatory mechanism in pathogenic bacteria affect drug sensitivity$234,750
R21 · FY2021 · AI
Predicting the emergence of antibiotic resistance through multi-omics approaches and Immune System-surveillan$1,876,314
U01 · FY2020 · AI · contact PI
A priori adaptive evolution predictions for antibiotic resistance through genome-wide network analyses and machine learning$391,250
R01 · FY2020 · AI · contact PI
Interactions between translation inhibiting antibiotics and diverse RNA regulatory mechanism in pathogenic bacteria affect drug sensitivity$195,625
R21 · FY2020 · AI
Predicting the emergence of antibiotic resistance through multi-omics approaches and Immune System-surveillan$1,895,142
U01 · FY2019 · AI · contact PI
The bacterial response to antibiotics and the evolution of antibiotic resistance$391,250
R01 · FY2019 · AI · contact PI
CRISPRi-Tn-Seq: A genome-wide high throughput tool for bacterial essential and nonessential genetic-interaction mapping.$78,250
R03 · FY2019 · AI · contact PI
Predicting the emergence of antibiotic resistance through multi-omics approaches and Immune System-surveillan$2,262,413
U01 · FY2018 · AI · contact PI
The bacterial response to antibiotics and the evolution of antibiotic resistance$391,250
R01 · FY2018 · AI · contact PI
Evolutionary forces that maintain structured RNA regulators in commensal and pathogenic bacteria$309,088
R01 · FY2018 · GM
CRISPRi-Tn-Seq: A genome-wide high throughput tool for bacterial essential and nonessential genetic-interaction mapping.$78,250
R03 · FY2018 · AI · contact PI
Predicting the emergence of antibiotic resistance through multi-omics approaches and Immune System-surveillan$2,209,004
U01 · FY2017 · AI · contact PI
The bacterial response to antibiotics and the evolution of antibiotic resistance$391,250
R01 · FY2017 · AI · contact PI
Evolutionary forces that maintain structured RNA regulators in commensal and pathogenic bacteria$309,088
R01 · FY2017 · GM
Predicting species-wide virulence for a bacterial pathogen with a large pan-genome$234,750
R21 · FY2017 · AI · contact PI
Predicting the emergence of antibiotic resistance through multi-omics approaches and Immune System-surveillan$1,970,805
U01 · FY2016 · AI · contact PI
The bacterial response to antibiotics and the evolution of antibiotic resistance$391,250
R01 · FY2016 · AI · contact PI
Evolutionary forces that maintain structured RNA regulators in commensal and pathogenic bacteria$309,088
R01 · FY2016 · GM
Predicting species-wide virulence for a bacterial pathogen with a large pan-genome$195,625
R21 · FY2016 · AI · contact PI
The bacterial response to antibiotics and the evolution of antibiotic resistance$391,250
R01 · FY2015 · AI · contact PI
Evolutionary forces that maintain structured RNA regulators in commensal and pathogenic bacteria$309,088
R01 · FY2015 · GM