Full Professor(heuristic)

Bioinformatics and Genomic Networks · Molecular Biology

h-index52
i10-index136
Publications322
Citations13,228

Grants

17 total · 6 active

NIH #5R01HL157025-04

Critical role of Mitochondrial Fission/Fusion in Regulation of Microvascular Endothelial Function

Expiring Soon
Amount
$518K
Period
2021-08-012026-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL173549-03

Mechanism of Chemotherapy Induced Microvascular Dysfunction in Cancer Survivors

Active
Amount
$684K
Period
2024-04-012029-03-31
PIs
1
Est. capacity / PI
~6 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL173549-02

Mechanism of Chemotherapy Induced Microvascular Dysfunction in Cancer Survivors

Active
Amount
$697K
Period
2024-04-012029-03-31
PIs
1
Est. capacity / PI
~6 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

Student capacity is a rough estimate from remaining award size, split equally among PIs. Actual funding decisions vary.

All Grants

17 total · 6 active

NIH #5R01HL157025-04

Critical role of Mitochondrial Fission/Fusion in Regulation of Microvascular Endothelial Function

Expiring Soon
Amount
$518K
Period
2021-08-012026-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL173549-03

Mechanism of Chemotherapy Induced Microvascular Dysfunction in Cancer Survivors

Active
Amount
$684K
Period
2024-04-012029-03-31
PIs
1
Est. capacity / PI
~6 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL173549-02

Mechanism of Chemotherapy Induced Microvascular Dysfunction in Cancer Survivors

Active
Amount
$697K
Period
2024-04-012029-03-31
PIs
1
Est. capacity / PI
~6 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #1R01HL173549-01

Mechanism of Chemotherapy Induced Microvascular Dysfunction in Cancer Survivors

Active
Amount
$693K
Period
2024-04-012029-03-31
PIs
1
Est. capacity / PI
~6 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R21OD037663-02

Development of a Rat Model to Investigate the Physiology of Telomerase Reverse Transcriptase alternative splicing isoforms

Active
Amount
$192K
Period
2025-05-012027-04-30
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF MICHIGAN AT ANN ARBOR

NIH #1R21OD037663-01A1

Development of a Rat Model to Investigate the Physiology of Telomerase Reverse Transcriptase alternative splicing isoforms

Active
Amount
$259K
Period
2025-05-012027-04-30
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF MICHIGAN AT ANN ARBOR

NIH #5R01HL157025-03

Critical role of Mitochondrial Fission/Fusion in Regulation of Microvascular Endothelial Function

Amount
$544K
Period
2021-08-012025-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL157025-02

Critical role of Mitochondrial Fission/Fusion in Regulation of Microvascular Endothelial Function

Amount
$529K
Period
2021-08-012025-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #1R01HL157025-01

Critical role of Mitochondrial Fission/Fusion in Regulation of Microvascular Endothelial Function

Amount
$537K
Period
2021-08-012025-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL133029-05

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$494K
Period
2017-03-012024-02-29
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #3R01HL133029-04S1

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$44K
Period
2017-03-012022-02-28
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL133029-04

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$420K
Period
2017-03-012022-02-28
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL133029-03

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$420K
Period
2017-03-012022-02-28
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R01HL133029-02

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$420K
Period
2017-03-012022-02-28
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #1R01HL133029-01A1

Pivotal Role of Mitochondrial Telomerase in Regulation of Vascular Tone and Redox Homeostasis

Amount
$412K
Period
2017-03-012022-02-28
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #5R21OD018306-02

Differentiation of mitochondrial vs. nuclear function of telomerase

Amount
$219K
Period
2014-07-212017-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

NIH #1R21OD018306-01

Differentiation of mitochondrial vs. nuclear function of telomerase

Amount
$191K
Period
2014-07-212016-07-31
PIs
1
Est. capacity / PI
~0 students

Awarded at MEDICAL COLLEGE OF WISCONSIN

Career Trajectory

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