Full Professor(heuristic)

Advanced Fluorescence Microscopy Techniques · Biophysics

h-index45
i10-index73
Publications184
Citations10,606

Grants

24 total · 9 active

NIH #5R35GM152111-02

Quantitative super-resolution imaging to map the multi-scale functional organization of cells

Active
Amount
$650K
Period
2024-09-072029-08-31
PIs
1
Est. capacity / PI
~6 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1R35GM152111-01

Quantitative super-resolution imaging to map the multi-scale functional organization of cells

Active
Amount
$426K
Period
2024-09-072029-08-31
PIs
1
Est. capacity / PI
~4 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AG082437-03

Single-cell analysis of 3D genome organization in senescent cells

Active
Amount
$630K
Period
2024-04-012029-01-31
PIs
3
Est. capacity / PI
~1 students

Awarded at UNIVERSITY OF PENNSYLVANIA

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

All Grants

24 total · 9 active

NIH #5R35GM152111-02

Quantitative super-resolution imaging to map the multi-scale functional organization of cells

Active
Amount
$650K
Period
2024-09-072029-08-31
PIs
1
Est. capacity / PI
~6 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1R35GM152111-01

Quantitative super-resolution imaging to map the multi-scale functional organization of cells

Active
Amount
$426K
Period
2024-09-072029-08-31
PIs
1
Est. capacity / PI
~4 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AG082437-03

Single-cell analysis of 3D genome organization in senescent cells

Active
Amount
$630K
Period
2024-04-012029-01-31
PIs
3
Est. capacity / PI
~1 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AG082437-02

Single-cell analysis of 3D genome organization in senescent cells

Active
Amount
$618K
Period
2024-04-012029-01-31
PIs
3
Est. capacity / PI
~1 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1R01AG082437-01A1

Single-cell analysis of 3D genome organization in senescent cells

Active
Amount
$631K
Period
2024-04-012029-01-31
PIs
3
Est. capacity / PI
~1 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AR079224-04

Preserving chromatin nano-structure to enhance chondrocyte therapeutic potential for cartilage repair

Active
Amount
$374K
Period
2022-09-202027-07-31
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AR079224-03

Preserving chromatin nano-structure to enhance chondrocyte therapeutic potential for cartilage repair

Active
Amount
$404K
Period
2022-09-202027-07-31
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01AR079224-02

Preserving chromatin nano-structure to enhance chondrocyte therapeutic potential for cartilage repair

Active
Amount
$417K
Period
2022-09-202027-07-31
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1R01AR079224-01A1

Preserving chromatin nano-structure to enhance chondrocyte therapeutic potential for cartilage repair

Active
Amount
$417K
Period
2022-09-202027-07-31
PIs
2
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5RM1GM136511-05

Integrative mechanisms of organelle dynamics from the atomic-to-cellular level

Amount
$1.6M
Period
2020-05-012026-04-30
PIs
4
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5U01DA052715-05

Single-cell dissection of chromatin architecture mechanisms connecting pathologic instability and transcriptional silencing

Amount
$612K
Period
2020-09-302025-08-31
PIs
5
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5U01DA052715-04

Single-cell dissection of chromatin architecture mechanisms connecting pathologic instability and transcriptional silencing

Amount
$621K
Period
2020-09-302025-08-31
PIs
5
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5U01DA052715-03

Single-cell dissection of chromatin architecture mechanisms connecting pathologic instability and transcriptional silencing

Amount
$629K
Period
2020-09-302025-08-31
PIs
5
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5U01DA052715-02

Single-cell dissection of chromatin architecture mechanisms connecting pathologic instability and transcriptional silencing

Amount
$637K
Period
2020-09-302025-08-31
PIs
5
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1U01DA052715-01

Single-cell dissection of chromatin architecture mechanisms connecting pathologic instability and transcriptional silencing

Amount
$643K
Period
2020-09-302025-08-31
PIs
5
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5RM1GM136511-04

Integrative mechanisms of organelle dynamics from the atomic-to-cellular level

Amount
$1.6M
Period
2020-05-012025-04-30
PIs
4
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5RM1GM136511-03

Integrative mechanisms of organelle dynamics from the atomic-to-cellular level

Amount
$1.6M
Period
2020-05-012025-04-30
PIs
4
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5RM1GM136511-02

Integrative mechanisms of organelle dynamics from the atomic-to-cellular level

Amount
$1.6M
Period
2020-05-012025-04-30
PIs
4
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1RM1GM136511-01

Integrative mechanisms of organelle dynamics from the atomic-to-cellular level

Amount
$1.2M
Period
2020-05-012025-04-30
PIs
4
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01GM133842-04

Calibration nanotemplates as universal standards for determining protein copy number in super-resolution microscopy

Amount
$366K
Period
2019-09-202024-06-30
PIs
1
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01GM133842-03

Calibration nanotemplates as universal standards for determining protein copy number in super-resolution microscopy

Amount
$366K
Period
2019-09-202023-06-30
PIs
1
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #5R01GM133842-02

Calibration nanotemplates as universal standards for determining protein copy number in super-resolution microscopy

Amount
$365K
Period
2019-09-202023-06-30
PIs
1
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #3R01GM133842-02S1

Calibration nanotemplates as universal standards for determining protein copy number in super-resolution microscopy

Amount
$218K
Period
2019-09-202023-06-30
PIs
1
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

NIH #1R01GM133842-01A1

Calibration nanotemplates as universal standards for determining protein copy number in super-resolution microscopy

Amount
$365K
Period
2019-09-202023-06-30
PIs
1
Est. capacity / PI
~0 students

Awarded at UNIVERSITY OF PENNSYLVANIA

Career Trajectory

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