Full Professor(heuristic)

RNA and protein synthesis mechanisms · Molecular Biology

h-index28
i10-index45
Publications123
Citations6,293

Grants

10 total · 5 active

NIH #5R01HG011787-05

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$844K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R01HG011787-04

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$825K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R01HG011787-03

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$807K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

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

All Grants

10 total · 5 active

NIH #5R01HG011787-05

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$844K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R01HG011787-04

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$825K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R01HG011787-03

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$807K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R01HG011787-02

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$805K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #1R01HG011787-01A1

A unified quantitative modeling strategy for multiplex assays of variant effect

Active
Amount
$788K
Period
2022-06-152027-03-31
PIs
1
Est. capacity / PI
~2 students

NIH #5R35GM133777-05

Biophysical modeling of cis-regulatory complexes in transcription and splicing using massively parallel reporter assays

Amount
$480K
Period
2019-09-012025-08-31
PIs
1
Est. capacity / PI
~0 students

NIH #5R35GM133777-04

Biophysical modeling of cis-regulatory complexes in transcription and splicing using massively parallel reporter assays

Amount
$480K
Period
2019-09-012024-08-31
PIs
1
Est. capacity / PI
~0 students

NIH #5R35GM133777-03

Biophysical modeling of cis-regulatory complexes in transcription and splicing using massively parallel reporter assays

Amount
$480K
Period
2019-09-012024-08-31
PIs
1
Est. capacity / PI
~0 students

NIH #5R35GM133777-02

Biophysical modeling of cis-regulatory complexes in transcription and splicing using massively parallel reporter assays

Amount
$480K
Period
2019-09-012024-08-31
PIs
1
Est. capacity / PI
~0 students

NIH #1R35GM133777-01

Biophysical modeling of cis-regulatory complexes in transcription and splicing using massively parallel reporter assays

Amount
$480K
Period
2019-09-012024-08-31
PIs
1
Est. capacity / PI
~0 students

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