Scholars@Duke publication: Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells

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Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells

Publication , Conference

Dembla, E; Mohrmann, R; Bruns, D; Rettig, J; Becherer, U

Published in: ACTA PHYSIOLOGICA

2016

Duke Scholars

Author Ekta Dembla

Published In

ACTA PHYSIOLOGICA

EISSN

1748-1716

ISSN

1748-1708

Publication Date

2016

Volume

216

Related Subject Headings

Physiology
3208 Medical physiology
1116 Medical Physiology
1106 Human Movement and Sports Sciences

Citation

APA

Chicago

ICMJE

MLA

NLM

Dembla, E., Mohrmann, R., Bruns, D., Rettig, J., & Becherer, U. (2016). Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells. In ACTA PHYSIOLOGICA (Vol. 216).

Dembla, E., R. Mohrmann, D. Bruns, J. Rettig, and U. Becherer. “Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells.” In ACTA PHYSIOLOGICA, Vol. 216, 2016.

Dembla E, Mohrmann R, Bruns D, Rettig J, Becherer U. Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells. In: ACTA PHYSIOLOGICA. 2016.

Dembla, E., et al. “Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells.” ACTA PHYSIOLOGICA, vol. 216, 2016.

Dembla E, Mohrmann R, Bruns D, Rettig J, Becherer U. Molecular mechanism of large dense core vesicle dead-end docking in mouse chromaffin cells. ACTA PHYSIOLOGICA. 2016.

Journal cover image

Published In

ACTA PHYSIOLOGICA

EISSN

1748-1716

ISSN

1748-1708

Publication Date

2016

Volume

216

Related Subject Headings

Physiology
3208 Medical physiology
1116 Medical Physiology
1106 Human Movement and Sports Sciences