Gottschalk, Alexander, 1932-....
Gottschalk, Alexander
Alexander Gottschalk researcher
Gottschalk, Alexander, 1932-2010
VIAF ID: 79093840 ( Personal )
Permalink: http://viaf.org/viaf/79093840
Preferred Forms
- 100 0 _ ‡a Alexander Gottschalk ‡c researcher
- 200 _ | ‡a Gottschalk ‡b Alexander ‡f 1932-....
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- 100 1 _ ‡a Gottschalk, Alexander
- 100 1 _ ‡a Gottschalk, Alexander
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- 100 1 _ ‡a Gottschalk, Alexander, ‡d 1932-
- 100 1 0 ‡a Gottschalk, Alexander, ‡d 1932-
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- 100 1 _ ‡a Gottschalk, Alexander, ‡d 1932-....
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4xx's: Alternate Name Forms (10)
Works
Title | Sources |
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BiPOLES is an optogenetic tool developed for bidirectional dual-color control of neurons | |
Characterization of factors affecting synaptic transmission in C. elegans | |
Coupling between epidermis and amphid morphogenesis during embryonic development of C. elegans | |
Development of tools for optogenetic manipulation of intracellular Ca²+ release and uptake from/into the sarcoplasmic reticulum | |
Diagnostic nuclear medicine | |
Entwicklung von Instrumenten zur optogenetischen Manipulation der intrazellulären Ca²+-Freisetzung und -Aufnahme aus/in das sarkoplasmatische Retikulum | |
Fundamental problems in scanning. | |
Generation and implementation of optogenetic tools for cNMP generation and cell de- and hyperpolarization in Caenorhabditis elegans | |
Homeostatic adaptations during sustained levamisole-induced muscle depolarization in Caenorhabditis elegans | |
Magnetic resonance angiography : concepts & applications | |
Neuropeptidergic regulation of locomotion inhibition in C. elegans | |
Optogenetic tools for manipulation of cyclic nucleotides, functionally coupled to CNG‐channels | |
The role of semiconductor detectors in the future of nuclear medicine : the proceedings of a | |
Synapsin is required for dense core vesicle capture and cAMP-dependent neuropeptide release | |
Thyroid scanning technics: the old and the new | |
Umfassende Analyse der Proteinkomponenten spleißosomaler Ribonukleoprotein-Komplexe aus Saccharomyces cerevisiae | |
ω-Amidase/NIT2 is a novel redox-sensitive key regulator of glutamine metabolism in endothelial cells |