Downloads provided by UsageCountsSource data for "Ca2+ channels couple spiking to mitochondrial metabolism in substantia nigra dopaminergic neurons"
Zampese, Enrico; Wokosin, David L.; Gonzales Rodriguez, Patricia; Guzman, Jaime N.; Tkatch, Tatiana; Kondapalli, Jyothisri; Surmeier, William C.; +8 Authors
Zampese, Enrico; Wokosin, David L.; Gonzales Rodriguez, Patricia; Guzman, Jaime N.; Tkatch, Tatiana; Kondapalli, Jyothisri; Surmeier, William C.; D'Alessandro, Karis B.; De Stefani, Diego; Rizzuto, Rosario; Iino, Masamitsu; Molkentin, Jeffery D.; Chandel, Navdeep S.; Schumacker, Paul T.; Surmeier, D. James;
Source data for "Ca2+ channels couple spiking to mitochondrial metabolism in substantia nigra dopaminergic neurons"
Fig.1Aa-c.tif 2PLSM images (Fura-2 filled neuron) used for the reconstruction in Fig.1A Fig1CDJ.xlsx Numerical data for the charts in Fig. 1C, Fig.1D, Fig.1J Fig.1F_GCEPIA1er.tif Confocal image (green channel, G-CEPIA1er) for Fig. 1F Fig.1F_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig. 1F Fig.1G_GCEPIA1er.tif Confocal image (green channel, G-CEPIA1er) for Fig. 1G Fig.1G_CRT.tif Confocal image (magenta channel, anti-CRT immunostaining) for Fig. 1G Fig.1H_GCEPIA1er.tif Confocal image (green channel, G-CEPIA1er) for Fig. 1H Fig.1H_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig. 1H Fig. 2B_mitoGCaMP6.tif Confocal image (green channel, mito-GCaMP6) for Fig. 2B Fig.2B_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig. 2B Fig. 2C_mitoGCaMP6.tif Confocal image (green channel, mito-GCaMP6) for Fig. 2C Fig.2C_COXIV.tif Confocal image (magenta channel, anti-COXIV immunostaining) for Fig. 2C Fig. 2D_mitoGCaMP6.tif Confocal image (green channel, mito-GCaMP6) for Fig. 2D Fig.2D_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig. 2D Fig.2FGJL.xlsx Numerical data for the charts in Fig. 2F, Fig.2G, Fig.2J, Fig.2L Fig.3BDE.xlsx Numerical data for the charts in Fig. 3B, Fig.3D, Fig.3E Fig.3C_Alexa.tif MAX Projection of z-stack of 2PLSM images (magenta channel, Alexa 594 dye) used to generate Fig.3C top panel Fig.3C_mitoGCaMP6.tif MAX Projection of z-stack of 2PLSM images (green channel, mito-GCaMP6) used to generate Fig.3C top panel Fig.3C_inset_dendritic_mitoGCaMP6.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.3C bottom left panel Fig.3C_inset_soma_mitoGCaMP6.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.3C bottom right panel Fig. 4A_PercevalHR.tif Confocal image (green channel, PercevalHR) for Fig.4A Fig.4A_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig.4A Fig. 4B_PercevalHR.tif Confocal image (green channel, PercevalHR) for Fig.4B Fig.4B_TH.tif Confocal image (blue channel, anti-TH immunostaining) for Fig.4B Fig.4G.xlsx Numerical data for the charts in Fig.4G Fig.5BDFHI.xlsx Numerical data for the charts in Fig.5B, Fig.5D, Fig.5F, Fig.5H, Fig.5I Fig.6ADEFJKLN.xlsx Numerical data for the charts in Fig.6A, Fig.6D, Fig.6E, Fig.6F, Fig.6J, Fig.6K, Fig.6L, Fig.6N Fig.6H_mitoroGFP.tif 2PLSM image (green channel, mito-roGFP) for Fig.6H Fig.6M_MCU-KO.tif Combined EM micrographs used to generate Fig. 6M right side Fig.6M_wildtype.tif Combined EM micrographs used to generate Fig. 6M left side Fig.7CEFG.xlsx Numerical data for the charts in Fig.7C, Fig.7E, Fig.7F, Fig.7G Fig.8CEHJK.xlsx Numerical data for the charts in Fig.8C, Fig.8E, Fig.8H, Fig.8J, Fig.8K Fig.S1A_bottom.tif 2PLSM image (green channel, G-CEPIA1er) for Fig.S1A bottom panel (low Ca2+) Fig.S1A_top.tif 2PLSM image (green channel, G-CEPIA1er) for Fig.S1A top panel (high Ca2+) Fig.S1B.xlsx Numerical data for the chart in Fig.S1B Fig.S2A_baseline.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2A middle panel (baseline) Fig.S2A_MAX.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2A top panel (high Ca2+) Fig.S2A_min.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2A bottom panel (low Ca2+) Fig.S2C_baseline.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2C middle panel (baseline) Fig.S2C_MAX.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2C top panel (high Ca2+) Fig.S2C_min.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2C bottom panel (low Ca2+) Fig.S2E_baseline.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2E bottom left panel (baseline) Fig.S2E_end.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2E bottom right panel Fig.S2E_peak.tif 2PLSM image (green channel, mito-GCaMP6) for Fig.S2E bottom center panel Fig.S2F.xlsx Numerical data for the chart in Fig.S2F Fig.S3ABC.xlsx Numerical data for the charts in Fig.S3A, Fig.S3B, Fig.S3C Fig.S4CD.xlsx Numerical data for the charts in Fig.S4C, Fig.S4D Fig.S5ABC.xlsx Numerical data for the charts in Fig.S5A, Fig.S5B, Fig.S5C Fig.S7A.tif 2PLSM image (green channel, GCaMP6) for Fig.S7A Fig.S7CEFGH.xlsx Numerical data for the charts in Fig.S7C, Fig.S7E, Fig.S7F, Fig.S7G, Fig.S7H Fig.S8ABCDEF.xlsx Numerical data for the charts in Fig.S8A, Fig.S8B, Fig.S8C, Fig.S8D, Fig.S8E, Fig.S8F Fig.S9AHIJK.xlsx Numerical data for the charts in Fig.S9A, Fig.S9H, Fig.S9I, Fig.S9J, Fig.S9K Fig.S9B_wildtype_DLStr.tif Confocal image of dorso-laterateral striatum in wildtype mouse (red channel, anti-TH immunostaining) for Fig.S9B Fig.S9C_MCU-KO_DLStr.tif Confocal image of dorso-laterateral striatum in MCU-KO mouse (red channel, anti-TH immunostaining) for Fig.S9C Fig.S9D_wildtype_SN.tif Confocal image of midbrain in wildtype mouse (red channel, anti-TH immunostaining) for Fig.S9D Fig.S9E_MCU-KO_SN.tif Confocal image of midbrain in MCU-KO mouse (red channel, anti-TH immunostaining) for Fig.S9E Fig.S9F_wildtype_openfield.png Open field path tracked for wildtype mouse for Fig.S9F Fig.S9G_MCU-KO_openfield.png Open field path tracked for MCU-KO mouse for Fig.S9G Fig.S10A.xlsx Numerical data for the charts in Fig.S10A
- University System of Ohio United States
- University of Padua Italy
- Cincinnati Children's Hospital Medical Center United States
- University of Cincinnati United States
- Nihon University Japan
selected citations These citations are derived from selected sources.This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).0 popularity This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.Average influence This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).Average impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.Average views 32 downloads 105 - 32views105downloads
selected citations
Citations provided by BIP!
These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
Citations provided by BIP!popularityPopularity provided by BIP!
This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
Popularity provided by BIP!influenceInfluence provided by BIP!
This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
Influence provided by BIP!impulseImpulse provided by BIP!
This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
Impulse provided by BIP!viewsViews provided by UsageCounts
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Average
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32
105