Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3
Publication
, Conference
Onishi, M; Nishihama, R; Ko, N; Pringle, JR
Published in: YEAST
2013
Duke Scholars
Published In
YEAST
EISSN
1097-0061
ISSN
0749-503X
Publication Date
2013
Volume
30
Start / End Page
70 / 70
Related Subject Headings
- 3107 Microbiology
- 1003 Industrial Biotechnology
- 0699 Other Biological Sciences
- 0605 Microbiology
Citation
APA
Chicago
ICMJE
MLA
NLM
Onishi, M., Nishihama, R., Ko, N., & Pringle, J. R. (2013). Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3. In YEAST (Vol. 30, pp. 70–70).
Onishi, Masayuki, Ryuichi Nishihama, Nolan Ko, and John R. Pringle. “Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3.” In YEAST, 30:70–70, 2013.
Onishi M, Nishihama R, Ko N, Pringle JR. Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3. In: YEAST. 2013. p. 70–70.
Onishi, Masayuki, et al. “Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3.” YEAST, vol. 30, 2013, pp. 70–70.
Onishi M, Nishihama R, Ko N, Pringle JR. Actomyosin-ring-independent role of Rho1 in cytokinesis and a novel mechanism for its regulation by Cyk3. YEAST. 2013. p. 70–70.
Published In
YEAST
EISSN
1097-0061
ISSN
0749-503X
Publication Date
2013
Volume
30
Start / End Page
70 / 70
Related Subject Headings
- 3107 Microbiology
- 1003 Industrial Biotechnology
- 0699 Other Biological Sciences
- 0605 Microbiology