A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure
Publication
, Conference
Tah, I; Haertter, D; Crawford, J; Kiehart, DP; Schmidt, C; Liu, AJ-W
Published in: BIOPHYSICAL JOURNAL
2022
Duke Scholars
Published In
BIOPHYSICAL JOURNAL
EISSN
1542-0086
ISSN
0006-3495
Publication Date
2022
Volume
121
Issue
3
Start / End Page
263A / 263A
Related Subject Headings
- Biophysics
- 51 Physical sciences
- 34 Chemical sciences
- 31 Biological sciences
- 06 Biological Sciences
- 03 Chemical Sciences
- 02 Physical Sciences
Citation
APA
Chicago
ICMJE
MLA
NLM
Tah, I., Haertter, D., Crawford, J., Kiehart, D. P., Schmidt, C., & Liu, A.-W. (2022). A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure. In BIOPHYSICAL JOURNAL (Vol. 121, pp. 263A-263A).
Tah, Indrajit, Daniel Haertter, Janice Crawford, Daniel P. Kiehart, Christoph Schmidt, and Andrea Jo-Wei Liu. “A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure.” In BIOPHYSICAL JOURNAL, 121:263A-263A, 2022.
Tah I, Haertter D, Crawford J, Kiehart DP, Schmidt C, Liu AJ-W. A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure. In: BIOPHYSICAL JOURNAL. 2022. p. 263A-263A.
Tah, Indrajit, et al. “A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure.” BIOPHYSICAL JOURNAL, vol. 121, no. 3, 2022, pp. 263A-263A.
Tah I, Haertter D, Crawford J, Kiehart DP, Schmidt C, Liu AJ-W. A minimal model predicts cell shapes and tissue mechanics in the amnioserosa during dorsal closure. BIOPHYSICAL JOURNAL. 2022. p. 263A-263A.
Published In
BIOPHYSICAL JOURNAL
EISSN
1542-0086
ISSN
0006-3495
Publication Date
2022
Volume
121
Issue
3
Start / End Page
263A / 263A
Related Subject Headings
- Biophysics
- 51 Physical sciences
- 34 Chemical sciences
- 31 Biological sciences
- 06 Biological Sciences
- 03 Chemical Sciences
- 02 Physical Sciences