NIH #5R35GM152111-02
Quantitative super-resolution imaging to map the multi-scale functional organization of cells
Active
- Amount
- $650K
- Period
- 2024-09-07 → 2029-08-31
- 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
- 2024-09-07 → 2029-08-31
- 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
- 2024-04-01 → 2029-01-31
- 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
- 2024-04-01 → 2029-01-31
- 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
- 2024-04-01 → 2029-01-31
- 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
- 2022-09-20 → 2027-07-31
- 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
- 2022-09-20 → 2027-07-31
- 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
- 2022-09-20 → 2027-07-31
- 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
- 2022-09-20 → 2027-07-31
- 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
- 2020-05-01 → 2026-04-30
- 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
- 2020-09-30 → 2025-08-31
- 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
- 2020-09-30 → 2025-08-31
- 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
- 2020-09-30 → 2025-08-31
- 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
- 2020-09-30 → 2025-08-31
- 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
- 2020-09-30 → 2025-08-31
- 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
- 2020-05-01 → 2025-04-30
- 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
- 2020-05-01 → 2025-04-30
- 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
- 2020-05-01 → 2025-04-30
- 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
- 2020-05-01 → 2025-04-30
- 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
- 2019-09-20 → 2024-06-30
- 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
- 2019-09-20 → 2023-06-30
- 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
- 2019-09-20 → 2023-06-30
- 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
- 2019-09-20 → 2023-06-30
- 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
- 2019-09-20 → 2023-06-30
- PIs
- 1
- Est. capacity / PI
- ~0 students
Awarded at UNIVERSITY OF PENNSYLVANIA