dendrogram Search Results


dendogram generated using ridom seqsphere  (Ridom GmbH)
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Ridom GmbH dendogram generated using ridom seqsphere
Dendogram Generated Using Ridom Seqsphere, supplied by Ridom GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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dendrograms  (MBF Bioscience)
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MBF Bioscience dendrograms
Dendrograms, supplied by MBF Bioscience, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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heatmaps and dendrograms  (RStudio)
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RStudio heatmaps and dendrograms
Heatmaps And Dendrograms, supplied by RStudio, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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treespottm kinase dendrogram  (DiscoverX corporation)
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DiscoverX corporation treespottm kinase dendrogram
Treespottm Kinase Dendrogram, supplied by DiscoverX corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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msp-dendrogram  (Blackwell Verlag)
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Blackwell Verlag msp-dendrogram
Msp Dendrogram, supplied by Blackwell Verlag, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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phylogenetic dendrogram  (Blackwell Verlag)
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Blackwell Verlag phylogenetic dendrogram
Phylogenetic Dendrogram, supplied by Blackwell Verlag, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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phylogenetic dendrogram - by Bioz Stars, 2026-06
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dendrogram  (Lindl GmbH)
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Lindl GmbH dendrogram
<t>Dendrogram</t> from cluster analysis of morphological and phytochemical traits of Quercus brantii Lindl. populations based on Ward’s method.
Dendrogram, supplied by Lindl GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hierarchical cluster dendrogram  (KNIME GmbH)
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KNIME GmbH hierarchical cluster dendrogram
(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster <t>dendrogram</t> of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.
Hierarchical Cluster Dendrogram, supplied by KNIME GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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dendrogram  (SAS institute)
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SAS institute dendrogram
(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster <t>dendrogram</t> of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.
Dendrogram, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ncss 2019 19.0.9  (ncss llc)
90
ncss llc ncss 2019 19.0.9
(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster <t>dendrogram</t> of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.
Ncss 2019 19.0.9, supplied by ncss llc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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dendrogram macvector 6.5.3  (MacVector inc)
90
MacVector inc dendrogram macvector 6.5.3
(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster <t>dendrogram</t> of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.
Dendrogram Macvector 6.5.3, supplied by MacVector inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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dendrogram macvector 6.5.3 - by Bioz Stars, 2026-06
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dendrogram of asvs  (BIRKDALE TRUST FOR HEARING IMPAIRED LTD)
90
BIRKDALE TRUST FOR HEARING IMPAIRED LTD dendrogram of asvs
(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster <t>dendrogram</t> of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.
Dendrogram Of Asvs, supplied by BIRKDALE TRUST FOR HEARING IMPAIRED LTD, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Dendrogram from cluster analysis of morphological and phytochemical traits of Quercus brantii Lindl. populations based on Ward’s method.

Journal: Scientific Reports

Article Title: Phytochemical variation, phenolic compounds and antioxidant activity of wild populations of Iranian oak

doi: 10.1038/s41598-025-90991-4

Figure Lengend Snippet: Dendrogram from cluster analysis of morphological and phytochemical traits of Quercus brantii Lindl. populations based on Ward’s method.

Article Snippet: Fig. 9 Dendrogram from cluster analysis of morphological and phytochemical traits of Quercus brantii Lindl. populations based on Ward’s method.

Techniques:

(a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster dendrogram of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.

Journal: Scientific Data

Article Title: High content organelle trafficking enables disease state profiling as powerful tool for disease modelling

doi: 10.1038/sdata.2018.241

Figure Lengend Snippet: (a) Schematic live set up of MNs in Zona MFCs. The central microgroove of channels formed a physical barrier between the distal (left) and proximal (right) site where the somas were seeded. Only axons could penetrate the microchannels. The tightness of the microgroove barrier enabled site–specific drug application: oligomycin A (pink) and nocodazole (black) were added exclusively to the distal MFC site to locally disrupt distal organelle trafficking, whereas a mixture of M1 & Mdivi-1 (green) was applied to either site to promote fusion and elongation of mitochondria. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how distal application of oligomycin a (pink) or nocodazole (black) disrupted distal organelle motility whereas proximal motility remained unaltered, indicating local action of both drugs exclusively at the distal MFC site.. As for M1 & Mdivi-1 mix, note how application to either MFC site led to extended elongation of mitochondria (only first movie frame shown here). Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures obtained on Ctrl MNs after treatment with oligmycin A (pink), nocodazole (black) or a M1 & Mdivi-1 mix. Site – specific drug application was as indicated in the header and (a). Z-scores show deviations from proximal Ctrl Mock (blue baseline), Z-score above 5 and below -5 (grey lines) were considered as clearly significant deviations from Ctrl Mock (blue). (d) Hierarchical cluster dendrogram of entire signatures shown in (c). The hierarchical Z-score (ordinate) indicates the deviation of entire signatures from each other and is not to be mistaken with the individual parameter Z-scores in (c). (e) Hierarchical cluster dendogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.

Article Snippet: We generated a hierarchical cluster dendrogram with KNIME ( ).

Techniques:

(a) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note the virtual organelle arrest in the FUS (red) and TDP43 (green) mutants at the distal MFC readout site (loss of straight trajectories compared to Ctrl Mock above) whereas proximal motility remained unaltered. Scale bar = 10 μm. (b) Multiparametric HC signatures corresponding to (a). Note the nearly unaltered trafficking of both mutants at the proximal MFC readout site as compared to Ctrl Mock (blue) as opposed to strong negative parameter deviations at the distal site in FUS (red) distinct from the more modest phenotype of TDP43 (green). (c) Hierarchical cluster dendrogram of entire signatures in (b). Note how the modest TDP43 mutant (green) clustered with Ctrl Mock (blue) against the phenotypically more distinct FUS mutant (red). (d) Hierarchical cluster dendrogram of partial signatures comprising either only all distal or proximal parameters to compare site – specific phenotypes. Note how both physiological Ctrl Mock parts (blue, distal and proximal) clustered closely with the proximal FUS Mock part (red) on the right due to the close physiological trafficking state whereas the drastic organelle arrest in the distal FUS Mock part on the far left (red) was highly distinct to the physiological parts at the proximal site. TDP43 showed some moderate deviation in its proximal part (green) from the physiological clusters (Ctrl Mock, blue, and FUS Mock proximal, red) and a clear deviation in its distal part (green), albeit less drastic than FUS Mock (red).

Journal: Scientific Data

Article Title: High content organelle trafficking enables disease state profiling as powerful tool for disease modelling

doi: 10.1038/sdata.2018.241

Figure Lengend Snippet: (a) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note the virtual organelle arrest in the FUS (red) and TDP43 (green) mutants at the distal MFC readout site (loss of straight trajectories compared to Ctrl Mock above) whereas proximal motility remained unaltered. Scale bar = 10 μm. (b) Multiparametric HC signatures corresponding to (a). Note the nearly unaltered trafficking of both mutants at the proximal MFC readout site as compared to Ctrl Mock (blue) as opposed to strong negative parameter deviations at the distal site in FUS (red) distinct from the more modest phenotype of TDP43 (green). (c) Hierarchical cluster dendrogram of entire signatures in (b). Note how the modest TDP43 mutant (green) clustered with Ctrl Mock (blue) against the phenotypically more distinct FUS mutant (red). (d) Hierarchical cluster dendrogram of partial signatures comprising either only all distal or proximal parameters to compare site – specific phenotypes. Note how both physiological Ctrl Mock parts (blue, distal and proximal) clustered closely with the proximal FUS Mock part (red) on the right due to the close physiological trafficking state whereas the drastic organelle arrest in the distal FUS Mock part on the far left (red) was highly distinct to the physiological parts at the proximal site. TDP43 showed some moderate deviation in its proximal part (green) from the physiological clusters (Ctrl Mock, blue, and FUS Mock proximal, red) and a clear deviation in its distal part (green), albeit less drastic than FUS Mock (red).

Article Snippet: We generated a hierarchical cluster dendrogram with KNIME ( ).

Techniques: Mutagenesis

(a) Schematic live set up of MNs in Zona MFCs. PARP1i was added to Ctrl MNs exclusively either to the distal (pink) or proximal (orange) MFC site while PARGi was added to FUS MNs exclusively either to the distal (pale blue) or proximal (green) MFC site to discriminate between local and remote action. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how proximal application of PARP1i (orange) on Ctrl MNs (mid gallery) led to virtual distal organelle arrest whereas proximal trafficking remained unaltered (loss of distal straight trajectories compared to Ctrl Mock in top gallery). Conversely, distal application of PARP1i (pink) on Ctrl MNs (mid gallery) had no impact on trafficking on either MFC site, arguing against a local mode of PARPi action. Proximal application of PARGi (green) on FUS MNs (bottom gallery) rescued distal organelle motility (restauration of distal straight trajectories compared to Ctrl Mock in top gallery). Conversely, distal application of PARGi (pale blue) on FUS MNs (bottom gallery) had no beneficial impact on trafficking on either MFC site (unaltered loss of distal straight trajectories compared to FUS Mock in top gallery), arguing against a local mode of PARGi action. Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures corresponding to site – specific PARP1i/PARGi treatments in (a) and (b). Site – specific drug application was as indicated in the header. (d) Hierarchical cluster dendrogram of entire signatures shown in (c). (e) Hierarchical cluster dendrogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.

Journal: Scientific Data

Article Title: High content organelle trafficking enables disease state profiling as powerful tool for disease modelling

doi: 10.1038/sdata.2018.241

Figure Lengend Snippet: (a) Schematic live set up of MNs in Zona MFCs. PARP1i was added to Ctrl MNs exclusively either to the distal (pink) or proximal (orange) MFC site while PARGi was added to FUS MNs exclusively either to the distal (pale blue) or proximal (green) MFC site to discriminate between local and remote action. (b) Maximum intensity projections of movie raw data acquired live with mitotracker (left) and lysotracker (right) at the distal (left) versus the proximal (right) microchannel readout position . Note how proximal application of PARP1i (orange) on Ctrl MNs (mid gallery) led to virtual distal organelle arrest whereas proximal trafficking remained unaltered (loss of distal straight trajectories compared to Ctrl Mock in top gallery). Conversely, distal application of PARP1i (pink) on Ctrl MNs (mid gallery) had no impact on trafficking on either MFC site, arguing against a local mode of PARPi action. Proximal application of PARGi (green) on FUS MNs (bottom gallery) rescued distal organelle motility (restauration of distal straight trajectories compared to Ctrl Mock in top gallery). Conversely, distal application of PARGi (pale blue) on FUS MNs (bottom gallery) had no beneficial impact on trafficking on either MFC site (unaltered loss of distal straight trajectories compared to FUS Mock in top gallery), arguing against a local mode of PARGi action. Scale bar = 10 μm. (c) Multiparametric HC Z-score signatures corresponding to site – specific PARP1i/PARGi treatments in (a) and (b). Site – specific drug application was as indicated in the header. (d) Hierarchical cluster dendrogram of entire signatures shown in (c). (e) Hierarchical cluster dendrogram of partial signatures comprising either only all distal or proximal parameters (Mitotracker and Lysotracker, respectively) to compare site – specific phenotypes.

Article Snippet: We generated a hierarchical cluster dendrogram with KNIME ( ).

Techniques: