Merge branch 'more-metadata' of msz/GCAMP7-data into master

Looks good to me. Thanks a lot @msz.

.datalad/.gitattributes

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.datalad/tabby/self/authors@tby-crc1451v0.tsv

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+# Documentation at	https://rdm.sfb1451.de/data-catalog-submission/#table-authors-required		
+name	email	orcid	affiliation
+Marianna Tolve	marianna.tolve@uk-koeln.de	0000-0002-0893-2967	University of Cologne, Medical Faculty, Center for Physiology & CECAD
+Natalia Kononenko	n.kononenko@uni-koeln.de	0000-0002-3425-6659	University of Cologne, Medical Faculty, Center for Physiology & CECAD

.datalad/tabby/self/data-controller@tby-crc1451v0.tsv

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+# Documentation at	https://rdm.sfb1451.de/data-catalog-submission/#table-data-controller-required		
+name	email	type	address
+Natalia Kononenko	natalia.kononenko@uk-koeln.de	Person	

.datalad/tabby/self/dataset@tby-crc1451v0.tsv

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+# Documentation at	https://rdm.sfb1451.de/data-catalog-submission
+name	CRC1451-INF-GCAMP7-OTC-AP-2KO_ataxia_model-dataset						
+title	GCAMP7 live imaging of AP-2KO mouse Purkinje cells						
+description	The current research proposal focuses on cellular and molecular mechanisms underlying the maintenance of voluntary motor control by neurons in cerebellum and basal ganglia in mice and how endocytic protein AP-2 control this process. This dataset contains live imaging data of activity-dependent intracellular Ca2+ dynamics in cerebellar organotypic slices of WT and AP-2KO mice. The slices were transduced with GCAMP7-expressing AAVs and imaged after 3 weeks in vitro with confocal microscopy for 60 seconds. To induce neuronal activity, the slice were electrically stimulated at 100Hz on the 20th second.  						
+crc-project	A02						
+sample[organism]	NCIT:C45247						
+sample[organism-part]	UBERON:0002037						
+keywords	ataxia	cerebellum	endocytosis	GRID2	3D Reconstruction	synapse	AP-2
+license							
+doi							
+homepage	https://kononenko.cecad-labs.uni-koeln.de/home						
+last-updated	2023-04-18 00:00:00						

.datalad/tabby/self/funding@tby-crc1451v0.tsv

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+# Documentation at	https://rdm.sfb1451.de/data-catalog-submission/#table-funding-required
+funder	grant
+DFG	431549029–A02

.datalad/tabby/self/publications@tby-crc1451v0.tsv

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+# Documentation at	https://rdm.sfb1451.de/data-catalog-submission/#table-publications		
+citation	doi	url	date
+Overhoff, M., Tellkamp, F., Hess, S., Tolve, M., Tutas, J., Faerfers, M., Ickert, L., Mohammadi, M., De Bruyckere, E., Kallergi, E., Delle Vedove, A., Nikoletopoulou, V., Wirth, B., Isensee, J., Hucho, T., Puchov, D., Isbrandt, D., Krueger, M., Kloppenburg, P., Kononenko, N.L. Autophagy regulates neuronal excitability by controlling cAMP/protein kinase A signaling at the synapse. The EMBO Journal (2022) 41: e110963	https://doi.org/10.15252/embj.2022110963	https://www.embopress.org/doi/abs/10.15252/embj.2022110963	2022
+Camblor-Perujo S, Kononenko NL. Brain-specific functions of the endocytic machinery. FEBS J. 2022 Apr;289(8):2219-2246. doi: 10.1111/febs.15897. Epub 2021 May 10. PMID: 33896112.	https://doi.org/10.1111/febs.15897	https://pubmed.ncbi.nlm.nih.gov/33896112/	2022

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CITATION.cff

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CITATION.cff

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+cff-version: 1.2.0
+title: >-
+  GCAMP7 live imaging of AP-2KO mice
+message: This is our project description
+type: dataset
+authors:
+  - given-names: Marianna
+    family-names: Tolve
+    email: marianna.tolve@uk-koeln.de
+    orcid: https://orcid.org/0000-0002-0893-2967
+    affiliation: >-
+      University of Cologne, Medical Faculty, Center for Physiology & CECAD
+  - given-names: Natalia
+    family-names: Kononenko
+    email: natalia.kononenko@uk-koeln.de
+    affiliation: >-
+      Cologne Excellence Cluster Cellular Stress Response in
+      Aging-Associated Diseases (CECAD), University of Cologne, Cologne, Germany;
+      Center for Physiology and Pathophysiology, Faculty of Medicine and
+      University Hospital Cologne, University of Cologne, Cologne, Germany
+    orcid: https://orcid.org/0000-0002-3425-6659
+abstract: >-
+  The current research proposal focuses on cellular and molecular
+  mechanisms underlying the maintenance of voluntary motor control by
+  neurons in cerebellum and basal ganglia in mice and how endocytic
+  protein AP-2 control this process. This dataset contains live
+  imaging data of activity-dependent intracellular Ca2+ dynamics in
+  cerebellar organotypic slices of WT and AP-2KO mice. The slices were
+  transduced with GCAMP7-expressing AAVs and imaged after 3 weeks in
+  vitro with confocal microscopy for 60 seconds. To induce neuronal
+  activity, the slice were electrically stimulated at 100Hz on the
+  20th second.